JP2024073271A - Instrument panel structure - Google Patents

Abstract

To arrange a table at a position which allows an occupant to use the table easily in a vertical direction.SOLUTION: A table 22 may be displaced between a first position P1 which is located adjacent to an upper surface part 11a of an instrument panel 11 and a second position which is located at a rear relative to the first position P1. The table 22 is rotatably connected to a connection member 23 and the connection member 23 rotates relative to the instrument panel 11 to displace the table 22 in a vertical direction Z. The table 22 may be displaced to a third position lower than the second position by rotating the connection member 23 relative to the instrument panel 11 and rotating the table 22 relative to the connection member 23.SELECTED DRAWING: Figure 1

Description

The present invention relates to an instrument panel structure.

There is known an instrument panel structure that includes a table that can be displaced between an installation position on the instrument panel and a position behind the installation position. In the instrument panel structure described in Patent Document 1, the table stored inside the instrument panel is pulled out, thereby displacing the table to the usage position. In the instrument panel structure described in Patent Document 2, the table installed on the top surface of the instrument panel is displaced to the usage position by rotating the table.

JP 2000-85437 A JP 2007-204037 A

Due to restrictions on the installation position of the table on the instrument panel, the installation position of the table on the instrument panel may be located above and away from the position that is most convenient for the occupant. In this case, if the table is not appropriately displaced from its installation position on the instrument panel, there is a risk that the table will shift from the position that is most convenient for the occupant.

Various aspects of the instrument panel structure for solving the above problems will be described below.
[Aspect 1] An instrument panel structure comprising a table that is displaceable between a first position that is adjacent to an upper surface of an instrument panel and a second position that is a position rearward of the first position, the table being rotatably connected to a rotating member that rotates relative to the instrument panel to displace the table in the vertical direction, the table being displaceable to a third position lower than the second position by the rotating member rotating relative to the instrument panel and the table rotating relative to the rotating member.

With the above configuration, the table can be displaced downward by a large amount by rotating the rotating member, compared to when the downward displacement of the table is achieved by rotating the table alone. Therefore, the table can be positioned vertically at a position that is easy for the occupant to use.

[Aspect 2] The rotating member rotates relative to the instrument panel around a first rotation axis, the table is displaced to the second position by being pulled backward from the first position, is connected to the rotating member via a second rotation axis, rotates relative to the rotating member by rotating around the second rotation axis, and the rotating member rotates around the first rotation axis and the table rotates around the second rotation axis, displacing the table from the second position to the third position. An instrument panel structure according to aspect 1.

With the above configuration, the table can be significantly displaced downward by rotating the rotating member around the first rotation axis, and the inclination of the table can be adjusted by rotating the table around the second rotation axis.

[Aspect 3] The rotating members include a first rotating member that rotates relative to the instrument panel around a first rotation axis and is connected to the table via a second rotation axis, and a second rotating member that rotates relative to the instrument panel around a third rotation axis and is connected to the table via a fourth rotation axis, and the table is displaced to the second position by being pulled backward from the first position, rotates relative to the first rotating member by rotating around the second rotation axis, and rotates relative to the second rotating member by rotating around the fourth rotation axis, the first rotating member rotates around the first rotation axis, the second rotating member rotates around the third rotation axis, and the table rotates around the second rotation axis and the fourth rotation axis, displacing the table from the second position to the third position. Instrument panel structure according to aspect 1.

According to the above configuration, the table can be significantly displaced downward by rotating the first rotating part around the first rotation axis and rotating the second rotating member around the third rotation axis. The inclination of the table can be adjusted by rotating the table around the second and fourth rotation axes.

[Aspect 4] The rotating member rotates relative to the instrument panel around a first rotation axis to displace the table from the first position to the second position, the table is connected to the rotating member via a second rotation axis and rotates relative to the rotating member by rotating around the second rotation axis, and the table is displaced from the second position to the third position by rotating around the second rotation axis, in the instrument panel structure described in [Aspect 1].

According to the above configuration, the table can be displaced significantly downward by rotating the rotating member around the first rotation axis. The inclination of the table can be adjusted by rotating the table around the second rotation axis.

[Aspect 5] An instrument panel structure according to any one of [Aspects 1] to 3, in which the table is located at the first position by being stored inside the instrument panel so as to extend horizontally, and is displaced to the second position by being pulled rearward from the first position.

According to the above configuration, if the table is stored inside the instrument panel in a tilted state, the table will have to be pulled out rearward in a tilted state, but the table with the above configuration is easier to pull out than in such a case. Therefore, the work efficiency of the occupant in pulling out the table can be improved.

[Aspect 6] An instrument panel structure as described in [Aspect 2] or [Aspect 4], wherein the first rotation axis is located inside the instrument panel regardless of the position of the table.
According to the above configuration, the appearance can be improved compared to a case in which the first rotating shaft is exposed to the outside of the instrument panel.

[Aspect 7] The instrument panel structure according to any one of [Aspects 1] to [Aspect 3] and [Aspect 5], wherein the instrument panel includes an abutment portion that can abut against the rotating member from below the rotating member when the rotating member is in a lower position in which the rear end of the rotating member is lower than the position of the rotating member when the table is in the third position.

According to the above configuration, the rotating member is prevented from being displaced below the lower position by the contact between the rotating member and the contact portion. Therefore, deformation of the rotating member caused by the rotating member being displaced below the lower position can be prevented.

[Aspect 8] An instrument panel structure according to any one of [Aspects 1] to [Aspect 7], in which the center of the table extends horizontally when the table is in the third position.

The above configuration makes it easy to place items on the table.

This invention allows the table to be positioned vertically in a way that is convenient for passengers.

FIG. 2 is a cross-sectional view showing an instrument panel and a table module according to the first embodiment. FIG. 2 is a perspective view showing an instrument panel. FIG. 2 is an exploded perspective view showing the table module. FIG. 2 is a cross-sectional view showing a table module. 4 is an enlarged cross-sectional view showing a portion of the table module. FIG. FIG. 2 is a cross-sectional view showing a table module. FIG. 2 is a cross-sectional view showing a table module. FIG. 2 is a cross-sectional view showing a table module. FIG. 2 is a cross-sectional view showing a table module. FIG. 11 is an exploded perspective view showing a table module according to a second embodiment. FIG. 2 is a cross-sectional view showing a table module. FIG. 2 is a cross-sectional view showing a table module. FIG. 2 is a cross-sectional view showing a table module. FIG. 11 is a cross-sectional view showing a table module of a third embodiment. FIG. 2 is a cross-sectional view showing a table module.

First Embodiment
Hereinafter, a first embodiment of an instrument panel structure will be described with reference to the drawings.

In the following description, the fore-aft direction, vehicle width direction, and up-down direction when the vehicle is positioned on a horizontal plane are referred to as the fore-aft direction L, vehicle width direction W, and up-down direction Z, respectively. Additionally, the front and rear in the fore-aft direction L are referred to as the front and rear. The top and bottom in the up-down direction Z are referred to as the top and bottom.

<Instrument panel>
As shown in Figures 1 and 2, an instrument panel 11 is provided in front of a passenger seat 10a of a vehicle 10. The instrument panel 11 includes an upper surface portion 11a and a rear surface portion 11b located below the upper surface portion 11a. The upper surface portion 11a and the rear surface portion 11b extend in the front-rear direction L and the vehicle width direction W. A panel opening 11c is formed in the instrument panel 11 between the upper surface portion 11a and the rear surface portion 11b in the vertical direction Z. The panel opening 11c communicates with the interior of the instrument panel 11 and opens rearward beyond the instrument panel 11.

Abutment portion 11d is provided on a portion of rear surface portion 11b. In other words, instrument panel 11 has abutment portion 11d. Abutment portion 11d constitutes, for example, a portion located at the top of rear surface portion 11b.

As shown in FIG. 1, a reinforcement 12 extending in the vehicle width direction W is provided inside the instrument panel 11. A windshield 13 is disposed above the instrument panel 11, and is inclined so that the upper portion of the windshield 13 is positioned further rearward. An airbag module 14 and a table module 20 are provided inside the instrument panel 11.

<Airbag module>
The airbag module 14 includes an airbag case 15, an airbag 16, and an inflator 17. The airbag case 15 has an airbag opening 15a that opens rearward. The airbag opening 15a may face, for example, a rear surface portion 11b of the instrument panel 11 in the front-rear direction L. The front end of the airbag case 15 is closed. When the airbag 16 deploys and inflates, the airbag 16 passes through the airbag opening 15a.

The airbag case 15 is located inside the instrument panel 11. In particular, the airbag case 15 is preferably provided at the same position as the reinforcement 12 in the vertical direction Z, or below the reinforcement 12. The airbag case 15 is spaced downward from the upper surface portion 11a of the instrument panel 11.

The inflator 17 is attached to the front end of the airbag case 15. The inflator 17 generates inflation gas and supplies the inflation gas to the airbag 16.

The airbag 16 is a well-known structure that unfolds and inflates when inflation gas is supplied from the inflator 17. The airbag 16 is stored in the airbag case 15 in a folded state.

In the initial stage of inflation of the airbag 16, the airbag 16 is deployed behind the instrument panel 11 by the supply of gas. As shown by the two-dot chain line in FIG. 1, the airbag 16 has an upper inflatable portion 16a and a lower inflatable portion 16b. The upper inflatable portion 16a has a size that allows it to deploy and inflat between the instrument panel 11 and the upper body of the occupant P, particularly between the upper surface portion 11a of the instrument panel 11 and the area from the head PH to the chest PT of the occupant P. The lower inflatable portion 16b has a size that allows it to deploy and inflat between the instrument panel 11 and the knees PK of the occupant P.

<Table module>
3, the table module 20 includes a case 21, a table 22, a coupling member 23, a connection member 24, and a pair of support members 25. The table module 20 is located inside the instrument panel 11.

<Case>
The case 21 includes a case tubular portion 35 and a case end surface portion 36. The case tubular portion 35 is a rectangular tube extending in the front-rear direction L. The case end surface portion 36 closes an opening at the front end of the case tubular portion 35. The case end surface portion 36 is a rectangular flat plate extending perpendicular to the front-rear direction L. A case opening 37 that opens rearward is formed at the rear end of the case tubular portion 35. The case opening 37 is defined by the rear end of the case tubular portion 35. The case opening 37 is a rectangular opening.

As shown in FIG. 1, the case 21 is adjacent to the upper surface 11a of the instrument panel 11 inside the instrument panel 11. More specifically, the upper surface of the case tubular portion 35 is adjacent to the upper surface 11a of the instrument panel 11 in the vertical direction Z. The case 21 is located above the airbag case 15. The case 21 is located such that the case opening 37 faces the panel opening 11c in the front-rear direction L.

<Table>
3 and 4, the table 22 is in the shape of a rectangular flat plate. The dimension of the table 22 in the vehicle width direction W is smaller than the dimension of the inner faces of the case cylindrical portion 35 in the vehicle width direction W. The table 22 is formed with a table shaft portion 38 and a table recess 39.

The table shaft 38 is provided on each of the right and left sides of the table 22. The table recess 39 is provided on each of the right and left sides of the table 22. The table shaft 38 provided on the right side of the table 22 is, for example, cylindrical and extends to the right from the right side of the table 22. The table shaft 38 provided on the left side of the table 22 is, for example, cylindrical and extends to the left from the left side of the table 22. The table recess 39 provided on the right side of the table 22 is, for example, a cylindrical recess that opens to the right of the table 22. The table recess 39 provided on the left side of the table 22 is, for example, a cylindrical recess that opens to the left of the table 22. The table shaft 38 is, for example, provided at the front end of the table 22. The table recess 39 is, for example, provided at the rear end of the table 22.

<Connecting member>
The connecting member 23 in this embodiment corresponds to a rotating member. The connecting member 23 includes a pair of connecting body portions 41 and a first protruding portion 42. The dimension of the connecting member 23 in the vehicle width direction W is smaller than the dimension between the inner surfaces of the case tubular portion 35 in the vehicle width direction W.

The pair of connecting body parts 41 are spaced apart from each other in the vehicle width direction W. Each of the pair of connecting body parts 41 is a substantially rectangular prism extending in the front-rear direction L. A first recess 47 and a second recess 48 are formed in the pair of connecting body parts 41.

Of the pair of connecting main bodies 41, the first recess 47 and the second recess 48 formed in the right connecting main body 41 are cylindrical recesses that open to the right. Of the pair of connecting main bodies 41, the first recess 47 and the second recess 48 formed in the left connecting main body 41 are cylindrical recesses that open to the left. In each of the pair of connecting main bodies 41, the first recess 47 and the second recess 48 are spaced apart from each other in the front-to-rear direction L. In each of the pair of connecting main bodies 41, the first recess 47 is located rearward of the second recess 48.

A first connecting rotation shaft 45 and a second connecting rotation shaft 46 are formed in the pair of connecting main bodies 41. The first connecting rotation shaft 45 is provided on the left side surface of the right connecting main body 41 and the right side surface of the left connecting main body 41 of the pair of connecting main bodies 41. The second connecting rotation shaft 46 is provided on the left side surface of the right connecting main body 41 and the right side surface of the left connecting main body 41 of the pair of connecting main bodies 41. The first connecting rotation shaft 45 and the second connecting rotation shaft 46 provided on the right connecting main body 41 of the pair of connecting main bodies 41 are, for example, cylindrical extending leftward from the left side surface of the connecting main body 41. The first connecting rotation shaft 45 and the second connecting rotation shaft 46 provided on the left connecting main body 41 of the pair of connecting main bodies 41 are, for example, cylindrical extending rightward from the right side surface of the connecting main body 41. In each of the pair of connecting body parts 41, the first connecting rotation shaft 45 and the second connecting rotation shaft 46 are separated from each other in the front-rear direction L, and the first connecting rotation shaft 45 is located rearward of the second connecting rotation shaft 46. In this embodiment, the first connecting rotation shaft 45 corresponds to the second rotation shaft.

The first protrusion 42 is provided at the front end of the pair of connecting body parts 41. The first protrusion 42 extends in the vehicle width direction W between the pair of connecting body parts 41. The first protrusion 42 has a first end surface portion 42a at both ends in the vehicle width direction W. The first end surface portion 42a is a triangular plane extending perpendicular to the vehicle width direction W. The first end surface portion 42a located at the right end of the first protrusion 42 is flush with the right end surface of the adjacent connecting body part 41 in the front-rear direction L. The first end surface portion 42a located at the left end of the first protrusion 42 is flush with the left end surface of the adjacent connecting body part 41 in the front-rear direction L.

The first protrusion 42 has a sloped surface 42b. The sloped surface 42b is a rectangular flat surface located in front of the first protrusion 42. The sloped surface 42b extends in the front-rear direction L at an angle such that the more rearward the portion is positioned upward. The front end of the sloped surface 42b is connected to the front end of the first end surface 42a.

<Connection parts>
The connection member 24 includes a connection main body 51 and a pair of second protrusions 52. The dimension of the connection member 24 in the vehicle width direction W is larger than the dimension of the table 22 in the vehicle width direction W and smaller than the dimension between the inner surfaces of the case cylindrical portions 35 in the vehicle width direction W.

The connection body portion 51 includes a body upper surface portion 55, a pair of body side portions 56, and a body end surface portion 57. The body upper surface portion 55 is a rectangular flat plate extending perpendicular to the up-down direction Z. Each of the pair of body side portions 56 is a rectangular flat plate extending perpendicular to the vehicle width direction W. The pair of body side portions 56 are separated from each other in the vehicle width direction W. Of the pair of body side portions 56, the right body side portion 56 extends downward from the right end of the body upper surface portion 55. Of the pair of body side portions 56, the left body side portion 56 extends downward from the left end of the body upper surface portion 55. The body end surface portion 57 is a rectangular flat plate extending perpendicular to the front-rear direction L. The body end surface portion 57 extends downward from the front end of the body upper surface portion 55. A space is defined inside the connection body 51 by the body top surface 55, a pair of body side surfaces 56, and the body end surface 57.

Of the pair of second protrusions 52, one second protrusion 52 extends rearward from the rear end of the body side surface portion 56 located on the right side of the pair of body side surfaces 56, and the other second protrusion 52 extends rearward from the rear end of the body side surface portion 56 located on the left side of the pair of body side surfaces 56. The pair of second protrusions 52 are separated from each other in the vehicle width direction W. Of the pair of second protrusions 52, the left end face of the right second protrusion 52 is flush with the left end face of the body side surface portion 56 adjacent to this second protrusion 52 in the fore-and-aft direction L. Of the pair of second protrusions 52, the right end face of the left second protrusion 52 is flush with the right end face of the body side surface portion 56 adjacent to this second protrusion 52 in the fore-and-aft direction L.

As shown in FIG. 4 and FIG. 5, a rotating shaft 58 is provided on each of the pair of second protrusions 52. In this embodiment, the rotating shaft 58 corresponds to the first rotating shaft. The rotating shaft 58 includes an axle body 58a and an elastic member 58b. The axle body 58a is cylindrical and extends in the vehicle width direction W. In the rotating shaft 58 provided on the right second protrusion 52 of the pair of second protrusions 52, the axle body 58a extends leftward from the second protrusion 52. In the rotating shaft 58 provided on the left second protrusion 52 of the pair of second protrusions 52, the axle body 58a extends rightward from the second protrusion 52.

The elastic member 58b is, for example, a spring. The elastic member 58b is connected to the second protrusion 52 and the shaft body 58a. In the rotating shaft 58 provided on the right second protrusion 52 of the pair of second protrusions 52, the elastic member 58b biases the shaft body 58a toward the left. In the rotating shaft 58 provided on the left second protrusion 52 of the pair of second protrusions 52, the elastic member 58b biases the shaft body 58a toward the right. The elastic member 58b is expandable and contractible in the vehicle width direction W. The shaft body 58a is displaced in the vehicle width direction W in response to the contraction of the elastic member 58b.

When the tip of the shaft body 58a is pressed towards the second protrusion 52, the elastic member 58b contracts, displacing the position of the shaft body 58a in a direction closer to the second protrusion 52. When the tip of the shaft body 58a is released from the pressed state, the elastic member 58b returns to its natural length, displacing the position of the shaft body 58a in a direction away from the second protrusion 52.

<Pair of Support Members>
The pair of support members 25 are spaced apart from each other in the vehicle width direction W. Each of the pair of support members 25 is in the form of a flat plate extending perpendicular to the vehicle width direction W. A first support hole 61 and a second support hole 62 are formed in each of the pair of support members 25. The first support hole 61 and the second support hole 62 are through holes that penetrate the support member 25. The first support hole 61 and the second support hole 62 are, for example, round holes. The first support hole 61 is located, for example, at the rear end of the support member 25. The second support hole 62 is located, for example, at the front end of the support member 25.

<Positional relationship of each component of the table module>
The table 22 is stored inside the connecting member 23. The table 22 is located between the pair of connecting main bodies 41 in the vehicle width direction W. The right end surface of the table 22 is aligned along the left end surface of the right connecting main body 41 of the pair of connecting main bodies 41. The left end surface of the table 22 is aligned along the right end surface of the left connecting main body 41 of the pair of connecting main bodies 41. The pair of support members 25 are located between the table 22 and the pair of connecting main bodies 41.

The first connecting rotation shaft 45 of the connecting member 23 is inserted into the table recess 39. This allows the table 22 to be rotatably connected to the connecting member 23. In detail, the table 22 is connected to the connecting member 23 via the first connecting rotation shaft 45 as the second rotation shaft. This allows the table 22 to rotate relative to the connecting member 23 by rotating around the first connecting rotation shaft 45 as the second rotation shaft.

The table shaft 38 is inserted into the second support hole 62 of the pair of support members 25. This allows the table 22 to be rotatably connected to the pair of support members 25. The table 22 rotates relative to the pair of support members 25 by rotating around the table shaft 38.

The second connecting rotation shaft 46 is inserted into the first support hole 61 of the pair of support members 25. This allows the pair of support members 25 to be rotatably connected to the connecting member 23. The pair of support members 25 rotate relative to the connecting member 23 by rotating around the second connecting rotation shaft 46.

The front portions of the table 22, the connecting member 23, and the pair of support members 25 are stored inside the case 21. The rear portions of the table 22, the connecting member 23, and the pair of support members 25 are exposed to the outside of the case 21 through the case opening 37 of the case 21. The connection member 24 is stored inside the case 21. The main body end surface portion 57 of the connection member 24 is aligned along the case end surface portion 36. Of the pair of connection main body portions 41, the right end surface of the right connection main body portion 41 and the left end surface of the left connection main body portion 41 are aligned along the inner surface of the case tube portion 35. The pair of main body side surface portions 56 of the connection member 24 are located between the case tube portion 35 and the pair of connection main body portions 41 in the vehicle width direction W.

When the relative positions of the linking member 23 and the connecting member 24 are such that the rotating shaft 58 and the first recess 47 face each other, the shaft body 58a is inserted into the first recess 47. When the relative positions of the linking member 23 and the connecting member 24 are such that the rotating shaft 58 and the second recess 48 face each other, the shaft body 58a is inserted into the second recess 48. In this way, by inserting the rotating shaft 58 into either the first recess 47 or the second recess 48, the linking member 23 is connected to the connecting member 24 via the rotating shaft 58.

When the rotating shaft 58 is inserted into the second recess 48, the table 22, the connecting member 23, and the pair of support members 25 can rotate relative to the connection member 24 around the rotating shaft 58 as the center of rotation. In other words, the connecting member 23 rotates relative to the instrument panel 11 around the rotating shaft 58 as the first rotating shaft. The table 22 is displaced in the vertical direction Z by the table 22 rotating together with the connecting member 23 around the rotating shaft 58. In other words, the connecting member 23 displaces the table 22 in the vertical direction Z by rotating relative to the instrument panel 11. The rotating shaft 58 as the first rotating shaft is located inside the instrument panel 11 regardless of the position of the table 22.

The table 22, the coupling member 23, the connection member 24, and the pair of support members 25 can be displaced in the front-rear direction L relative to the case 21. The table 22, the coupling member 23, and the pair of support members 25 can be displaced in the front-rear direction L relative to the connection member 24.

For example, at least one of the coupling member 23 and the connecting member 24 may be displaceable in the front-rear direction L inside the case 21 while sliding against the inner surface of the case cylindrical portion 35. For example, at least one of the coupling member 23 and the connecting member 24 may be displaceable in the front-rear direction L inside the case 21 along a rail member (not shown) by being connected to the rail member provided on the inner surface of the case 21.

The table 22 can be displaced between a first position P1 and a second position P2. Furthermore, the table 22 can be displaced to a third position P3. In this embodiment, the table 22 can be displaced to a first intermediate position P4 and a second intermediate position P5 in addition to the first position P1, the second position P2, and the third position P3.

<First position>
As shown in Fig. 1 and Fig. 4, the first position P1 is a position where the table 22 is adjacent to the upper surface portion 11a of the instrument panel 11. In detail, when the table 22 is in the first position P1, the table 22, the coupling member 23, the front portions of the pair of support members 25, and the entire connecting member 24 are stored inside the case 21. When the table 22 is in the first position P1, the table 22, the coupling member 23, the connecting member 24, and the pair of support members 25 are each located entirely inside the instrument panel 11. Therefore, when the table 22 is in the first position P1, the rotating shaft 58 is located inside the instrument panel 11. The table 22 is located at the first position P1 by being stored inside the instrument panel 11 so as to extend in the horizontal direction. The front-rear direction L and the vehicle width direction W correspond to the horizontal direction.

When the table 22 is in the first position P1, the first protrusion 42 of the linking member 23 is stored inside the connection member 24. The rotating shaft 58 is inserted into the first recess 47. Therefore, the linking member 23 and the connection member 24 are integrated via the rotating shaft 58. When the table 22 is in the first position P1, the table 22 is located above the position of the airbag case 15, which is the storage position of the airbag 16.

<First intermediate position>
6, the table 22 is displaced to a first intermediate position P4 by being pulled backward from the first position P1. That is, the first intermediate position P4 is a position behind the first position P1. The table 22 is displaced to the first position P1 by being pushed forward from the first intermediate position P4.

While the rotating shaft 58 remains inserted in the first recess 47, the table 22 displaces between the first position P1 and the first intermediate position P4. As the table 22 displaces, the linking member 23, the connecting member 24, and the pair of support members 25 displace. When the table 22 displaces from the first position P1 to the first intermediate position P4, the table 22, the linking member 23, the connecting member 24, and the pair of support members 25 displace backward relative to the case 21. When the table 22 is located between the first position P1 and the first intermediate position P4 in the front-rear direction L, the relative positions of the linking member 23, the connecting member 24, and the pair of support members 25 to the table 22 do not change.

The table module 20 has a restricting portion (not shown) that restricts the rearward displacement of the connection member 24 when the table 22 is in the first intermediate position P4. When the rotating shaft 58 is inserted into the first recess 47, the restriction of the displacement of the connection member 24 by the restricting portion restricts the table 22, the coupling member 23, the connection member 24, and the pair of support members 25 from being displaced rearward beyond the position where the table 22 is located in the first intermediate position P4.

When the table 22 is in the first intermediate position P4, the front portion of the linking member 23 and the front portion of the connection member 24 are stored inside the case 21. The entire connection member 24 and the front portion of the linking member 23 including the portion where the first recess 47 and the second recess 48 are formed are located inside the instrument panel 11. Therefore, when the table 22 is in the first intermediate position P4, the rotation shaft 58 is located inside the instrument panel 11. The entire table 22, the rear portion of the linking member 23, and the entire pair of support members 25 are exposed to the outside of the instrument panel 11.

The table 22 is stored inside the instrument panel 11 so that it extends horizontally in the first position P1, so that when the table 22 is pulled rearward from the first position P1 and displaced to the first intermediate position P4, it is positioned so that it extends horizontally.

<Second Position>
7, the table 22 is displaced to the second position P2 by being pulled backward from the first intermediate position P4. That is, the table 22 is displaced to the second position P2 by being pulled backward from the first position P1. The second position P2 is a position behind the first position P1. The table 22 is displaced to the first intermediate position P4 by being pushed forward from the second position P2.

When the table 22 is displaced from the first intermediate position P4 to the second position P2, the connecting member 23 and the pair of support members 25 are displaced along with the displacement of the table 22. When the table 22 is displaced from the first intermediate position P4 to the second position P2, the table 22, the connecting member 23, and the pair of support members 25 are displaced rearward relative to the case 21 and the connecting member 24. When the table 22 is located between the first intermediate position P4 and the second position P2 in the front-rear direction L, the relative positions of the connecting member 23 and the pair of support members 25 to the table 22 do not change.

The position of the connection member 24 does not change between when the table 22 is in the first intermediate position P4 and when it is in the second position P2. In other words, the entire connection member 24 is located inside the instrument panel 11. Therefore, when the table 22 is in the second position P2, the rotation shaft 58 is located inside the instrument panel 11.

The position of the connecting member 24 does not change when the table 22 is in the second position P2 and when it is in the second intermediate position P5 and the third position P3 described below. When the table 22 is in the second position P2, the rotating shaft 58 is inserted into the second recess 48. The state in which the rotating shaft 58 is inserted into the second recess 48 is maintained when the table 22 is in the second position P2 and when it is in the second intermediate position P5 and the third position P3 described below. Therefore, just like when the table 22 is in the second position P2, when the table 22 is in the second intermediate position P5 and the third position P3 described below, the rotating shaft 58 is located inside the instrument panel 11.

As shown in FIG. 5, when the table 22 is displaced rearward from the first intermediate position P4, the connecting member 24 is not displaced, and therefore the rotating shaft 58 is not displaced. As the table 22 is displaced rearward, the tip of the shaft body 58a is pressed against the connecting body portion 41 of the connecting member 23. This causes the elastic member 58b to contract and the shaft body 58a to come out of the first recess 47. While the table 22 is displaced together with the connecting member 23 between the first intermediate position P4 and the second position P2, the tip of the shaft body 58a slides against the connecting body portion 41.

When the table 22 is displaced to the second position P2, the shaft body 58a faces the second recess 48 in the vehicle width direction W. At this time, the shaft body 58a is biased by the elastic member 58b and displaces toward the connecting body part 41, so that the shaft body 58a is inserted into the second recess 48. In this way, when the table 22 is in the second position P2, the connecting member 23 and the connecting member 24 are connected via the rotating shaft 58.

As shown in FIG. 7, when the table 22 is in the second position P2, the inclined surface 42b is farther rearward from the main body end surface 57 than when the table 22 is in the first intermediate position P4, and the dimension of the connecting member 23 exposed from the connection member 24 in the front-rear direction L increases. Therefore, when the table 22 is in the second position P2, the connecting member 23 is rotatable relative to the connecting member 24 around the rotation axis 58. That is, the connecting member 23 rotates relative to the instrument panel 11. The connecting member 23 rotates relative to the instrument panel 11 around the rotation axis 58, which serves as the first rotation axis.

When the table 22 is in the second position P2, the connecting member 23 rotates around the rotation axis 58 as the first rotation axis. When the table 22 is in the second position P2, the table 22 and the pair of support members 25 can rotate around the rotation axis 58 together with the connecting member 23. Since the table 22, the connecting member 23, and the pair of support members 25 are rotatable, the table 22 is not maintained at the second position P2 unless these members are supported by the occupant P. When the table 22 is in the second position P2, the table 22, the connecting member 23, and the pair of support members 25 rotate around the rotation axis 58 so as to be displaced downward by their own weight.

<Second intermediate position>
8, the table 22, together with the coupling member 23 and the pair of support members 25, rotates with respect to the connection member 24 around the rotation shaft 58 as the center of rotation. As a result, the table 22 is displaced from the second position P2 to a second intermediate position P5. The table 22, the coupling member 23, and the pair of support members 25 rotate with the rotation shaft 58 inserted in the second recess 48.

When the table 22 is in the second intermediate position P5, the table 22 is located lower than the second position P2. As a result, when the table 22 is in the second intermediate position P5, the table 22 is located lower than the second position P2. When the table 22 is in the second intermediate position P5, the table 22 extends at an incline so that the more rearward the portion is positioned lower. When the table 22 is in the second intermediate position P5, the connecting member 23 and the pair of support members 25 also extend at an incline so that the more rearward the portion is positioned lower, just like the table 22.

When the table 22 is in the second intermediate position P5, the connecting member 23 in this embodiment is aligned with the abutment portion 11d in the vertical direction Z and is spaced upward from the abutment portion 11d.

As the table 22 is displaced from the second position P2 to the second intermediate position P5, the sloped surface 42b of the connecting member 23 approaches the upper wall of the case tube portion 35. When the table 22 is in the second intermediate position P5, the sloped surface 42b and the upper wall of the case tube portion 35 come into contact with each other. This contact maintains the position of the connecting member 23 at the position it was in when the table 22 was in the second intermediate position P5.

When the table 22 is in the second intermediate position P5, the table 22 can rotate relative to the connecting member 23 around the first connecting rotation shaft 45. When the table 22 is in the second intermediate position P5, the pair of support members 25 can rotate relative to the connecting member 23 around the second connecting rotation shaft 46. Therefore, unless the table 22 and the pair of support members 25 are supported by the occupant P, the table 22 is not maintained at the second intermediate position P5. When the table 22 is in the second intermediate position P5, the table 22 rotates around the first connecting rotation shaft 45 due to its own weight, and the pair of support members 25 rotate around the second connecting rotation shaft 46 in conjunction with the rotation of the table 22.

<Third position>
9, the table 22 is displaced to a third position P3 by rotating about the first connecting rotation shaft 45 as the second rotation shaft. During the displacement from the second position P2 to the third position P3, the connecting member 23 rotates relative to the instrument panel 11 and the table 22 rotates relative to the connecting member 23, so that the table 22 can be displaced to a third position P3 lower than the second position P2. More specifically, the connecting member 23 rotates about the rotation shaft 58 as the first rotation shaft and the table 22 rotates about the first connecting rotation shaft 45 as the second rotation shaft, so that the table 22 is displaced from the second position P2 to the third position P3.

When the table 22 is in the third position P3, the central portion 22a is located lower than when the table 22 is in the second position P2. Therefore, the third position P3 is also the position of the table 22 where the central portion 22a is located lower than when the table 22 is in the second position P2.

The table 22 is displaced from the second intermediate position P5 to the third position P3 by rotating relative to the connecting member 23 around the first connecting rotation shaft 45. The table 22 rotates so that the front end of the table 22 is positioned lower than when the table 22 is in the second intermediate position P5. As a result, when the table 22 is in the third position P3, the front end of the table 22 is positioned downward and away from the connecting member 23.

As the table 22 is displaced to the third position P3, the pair of support members 25 rotate relative to the connecting member 23 around the second connecting rotation shaft 46. The pair of support members 25 rotate so that their front ends are positioned lower than the pair of support members 25 when the table 22 is in the second intermediate position P5. As a result, when the table 22 is in the third position P3, the front ends of the pair of support members 25 are positioned downward and away from the connecting member 23.

When the table 22 is located at the third position P3, the central portion 22a of the table 22 extends horizontally. The central portion 22a of the table 22 is a portion of the table 22 that is located at the center of the table 22 in the front-rear direction L and at the center of the table 22 in the vehicle width direction W. Note that when the table 22 is located at the third position P3, not only the central portion 22a of the table 22 but also the entire table 22 may extend horizontally.

When the table 22 is in the third position P3, the pair of support members 25 are connected to the table 22 and the connecting member 23, so that the central portion 22a of the table 22 is maintained in a position extending horizontally. In other words, the pair of support members 25 extend between the table 22 and the connecting member 23 so that the central portion 22a of the table 22 is in a position extending horizontally. For example, the pair of support members 25 are positioned at an angle such that the rear portions are positioned higher.

<Lower position>
When the table 22 is in the third position P3 and a large downward load acts on the table 22, such as when an object heavier than the load capacity of the connecting member 23 is placed on the top surface of the table 22, the table 22 may be displaced downward from the third position P3. At this time, as the table 22 is displaced downward, the connecting member 23 is displaced so that the rear part of the connecting member 23 is positioned lower, as shown by the two-dot chain line in Fig. 9. As a result, the connecting member 23 is positioned at a lower position LP where the rear end 23a of the connecting member 23 is positioned lower than the position of the connecting member 23 when the table 22 is in the third position P3.

When in the lower position LP, the connecting member 23 abuts against the abutment portion 11d. More specifically, a pair of connecting body portions 41 in the connecting member 23 abut against the abutment portion 11d. When the connecting member 23 is in the lower position LP, the abutment portion 11d can abut against the connecting member 23 from below the connecting member 23. In this manner, the connecting member 23 abuts against the abutment portion 11d, thereby preventing the connecting member 23 from being displaced below the lower position LP. Therefore, deformation of the connecting member 23 caused by the connecting member 23 being displaced below the lower position LP can be prevented.

The operation of the first embodiment will be described.
1, the table 22 is preferably disposed at a position in the vertical direction Z that is easy for the occupant P to use. For example, when the table 22 is in the third position P3, the table 22 is preferably located at an appropriate position above the knees PK of the occupant P.

Depending on the first position P1, there is a risk that the first position P1 and the third position P3 will be far apart in the vertical direction Z. For example, as in this embodiment, when the table 22 is in the first position P1 and positioned higher than the storage position of the airbag 16, the first position P1 will be adjacent to the upper surface 11a of the instrument panel 11. In such a case, because the first position P1 is in a relatively high position, the first position P1 and the third position P3 will be far apart in the vertical direction Z.

Here, if the downward displacement of the table 22 from the first position P1 to the third position P3 is performed only by rotating the table 22, the table 22 can only be rotated within a range where the inclination of the table 22 is inconvenient for use. Therefore, it is difficult to displace the table 22 significantly downward. According to this embodiment, the table 22 can be displaced to the third position P3, which is lower than the second position P2, by rotating the connecting member 23 relative to the instrument panel 11 and rotating the table 22 relative to the connecting member 23. Therefore, the table 22 can be displaced significantly downward by rotating the connecting member 23. Furthermore, by rotating the table 22 relative to the connecting member 23, the inclination of the table 22 can be set to a level, such as horizontal, that is inconvenient for use.

According to the first embodiment, the following effects can be obtained.
(1-1) The connecting member 23 rotatably connects the table 22 and rotates relative to the instrument panel 11 to displace the table 22 in the vertical direction Z. The table 22 can be displaced to a third position P3 lower than the second position P2 by the connecting member 23 rotating relative to the instrument panel 11 and the table 22 rotating relative to the connecting member 23. Therefore, compared to a case in which the downward displacement of the table 22 is performed only by the rotation of the table 22, the table 22 can be displaced downward by a large amount by the rotation of the connecting member 23. Therefore, the table 22 can be disposed at a position in the vertical direction Z that is easy for the occupant P to use.

(1-2) The connecting member 23 rotates around the rotation axis 58 as the first rotation axis, and the table 22 rotates around the first connecting rotation axis 45 as the second rotation axis, so that the table 22 is displaced from the second position P2 to the third position P3. Therefore, by rotating the connecting member 23 around the rotation axis 58, the table 22 can be displaced significantly downward, and by rotating the table 22 around the first connecting rotation axis 45, the inclination of the table 22 can be adjusted.

(1-3) The table 22 is located at the first position P1 by being stored inside the instrument panel 11 so as to extend horizontally. The table 22 is displaced to the second position P2 by being pulled rearward from the first position P1. If the table 22 is stored inside the instrument panel 11 in an inclined state, the table 22 will be pulled rearward in an inclined state, but the table 22 of this embodiment is easier to pull out than in such a case. Therefore, the work efficiency of the occupant P in pulling out the table 22 can be improved.

(1-4) The rotating shaft 58 serving as the first rotating shaft is located inside the instrument panel 11 regardless of the position of the table 22. This improves the appearance compared to when the rotating shaft 58 is exposed to the outside of the instrument panel 11.

(1-5) The instrument panel 11 has an abutment portion 11d. The abutment portion 11d can abut against the connecting member 23 from below the connecting member 23 when the connecting member 23 is located at a lower position LP where the rear end portion 23a of the connecting member 23 is located lower than the position of the connecting member 23 when the table 22 is located at the third position P3. Therefore, the abutment between the connecting member 23 and the abutment portion 11d prevents the connecting member 23 from being displaced below the lower position LP. Therefore, deformation of the connecting member 23 caused by the connecting member 23 being displaced below the lower position LP can be prevented.

(1-6) When the table 22 is located at the third position P3, the central portion 22a of the table 22 extends horizontally. This makes it easy to place objects on the table 22.
Second Embodiment
Hereinafter, a second embodiment of the instrument panel structure will be described with reference to the drawings. Note that the second embodiment differs from the first embodiment in the configuration of the table module 20. In the following description, the differences from the first embodiment will be mainly described. Descriptions of the same configuration as the first embodiment will be omitted as appropriate.

<Table module>
10, the table module 20 in this embodiment includes a case 21, a table 22, a connecting member 23, and a pair of support members 25. The table module 20 in this embodiment does not include the connecting member 24 in the first embodiment. The case 21 has a similar configuration to the case 21 in the first embodiment.

<Table>
In the present embodiment, the table 22 is formed with a first table rotation shaft 138 and a second table rotation shaft 139 instead of the table shaft portion 38 and the table recess 39. In the present embodiment, the first table rotation shaft 138 corresponds to the second rotation shaft. The second table rotation shaft 139 corresponds to the fourth rotation shaft.

The first table rotation shaft 138 is provided on each of the right and left sides of the table 22. The second table rotation shaft 139 is provided on each of the right and left sides of the table 22. The first table rotation shaft 138 and the second table rotation shaft 139 provided on the right side of the table 22 are, for example, cylindrical and extend to the right from the right side of the table 22. The first table rotation shaft 138 and the second table rotation shaft 139 provided on the left side of the table 22 are, for example, cylindrical and extend to the left from the left side of the table 22. The first table rotation shaft 138 is located forward of the second table rotation shaft 139.

<Connecting member>
Similarly to the first embodiment, the connecting member 23 includes a pair of connecting body parts 41 and a first protruding part 42. The pair of connecting body parts 41 does not have a first recess 47 and a second recess 48, but has a first connecting rotation shaft 45 and a second connecting rotation shaft 46. In this embodiment, the second connecting rotation shaft 46 corresponds to the first rotation shaft. The first connecting rotation shaft 45 corresponds to the third rotation shaft.

In this embodiment, the first connecting rotation shaft 45 is provided on the right side surface of the right connecting body 41 and the left side surface of the left connecting body 41 of the pair of connecting bodies 41. In this embodiment, the second connecting rotation shaft 46 is provided on the left side surface of the right connecting body 41 and the right side surface of the left connecting body 41 of the pair of connecting bodies 41. The first connecting rotation shaft 45 and the second connecting rotation shaft 46 are, for example, cylindrical and extend in the vehicle width direction W. In each of the pair of connecting bodies 41, the first connecting rotation shaft 45 and the second connecting rotation shaft 46 are separated from each other in the front-rear direction L, and the first connecting rotation shaft 45 is located rearward of the second connecting rotation shaft 46.

The first protrusion 42 is provided at the front end of the pair of connecting body parts 41, as in the first embodiment. The first protrusion 42 in this embodiment has a different shape from the first protrusion 42 in the first embodiment. For example, the first protrusion 42 in this embodiment is a rectangular flat plate extending perpendicular to the vertical direction Z.

<Pair of Support Members>
Each of the pair of support members 25 has a first rotating member 125 and a second rotating member 225. In this embodiment, the support members 25 correspond to rotating members. Of the pair of support members 25, the first rotating member 125 of one support member 25 and the first rotating member 125 of the other support member 25 are separated from each other in the vehicle width direction W. Of the pair of support members 25, the second rotating member 225 of one support member 25 and the second rotating member 225 of the other support member 25 are separated from each other in the vehicle width direction W.

Each of the first rotating member 125 and the second rotating member 225 is a flat plate extending perpendicular to the vehicle width direction W. Each of the first rotating member 125 and the second rotating member 225 has a first hole 71 and a second hole 72 formed therein. The first hole 71 and the second hole 72 are through holes that penetrate the first rotating member 125 and the second rotating member 225. The first hole 71 and the second hole 72 are, for example, round holes. The first hole 71 is located, for example, at the rear end of each of the first rotating member 125 and the second rotating member 225. The second hole 72 is located, for example, at the front end of each of the first rotating member 125 and the second rotating member 225.

<Positional relationship of each component of the table module>
The table 22 and the connecting member 23 are adjacent to each other in the front-rear direction L. The second rotating member 225 is located to the right of the right end surface of the table 22 and to the left of the left end surface of the table 22. The second rotating member 225 is located to the right of the right connecting body portion 41 and to the left of the left connecting body portion 41 of the pair of connecting main bodies 41. The first connecting rotation shaft 45 of the connecting member 23 is inserted into the second hole 72 of the second rotating member 225. The second table rotation shaft 139 of the table 22 is inserted into the first hole 71 of the second rotating member 225.

The first rotating member 125 is located to the right of the right end surface of the table 22 and to the left of the left end surface of the table 22. The first rotating member 125 is located to the left of the right connecting body part 41 of the pair of connecting body parts 41 and to the right of the left connecting body part 41. The second connecting rotation shaft 46 of the connecting member 23 is inserted into the second hole 72 of the first rotating member 125. The first table rotation shaft 138 of the table 22 is inserted into the first hole 71 of the first rotating member 125.

The table 22 is rotatably connected to the support member 25, which serves as a rotating member. The support member 25 can rotate relative to the instrument panel 11 by rotating relative to the connecting member 23.

The first rotating member 125 can rotate relative to the connecting member 23 around the second connecting rotation shaft 46 as the first rotation shaft. That is, the first rotating member 125 rotates relative to the instrument panel 11 around the second connecting rotation shaft 46 as the first rotation shaft. The table 22 is connected to the first rotating member 125 via the first table rotation shaft 138 as the second rotation shaft.

The second rotating member 225 can rotate relative to the connecting member 23 around the first connecting rotating shaft 45 as the third rotating shaft. That is, the second rotating member 225 rotates relative to the instrument panel 11 around the first connecting rotating shaft 45 as the third rotating shaft. The table 22 is connected to the second rotating member 225 via the second table rotating shaft 139 as the fourth rotating shaft.

The pair of support members 25, which serve as rotating members, rotate relative to the instrument panel 11 to displace the table 22 in the up-down direction Z. The table 22, the connecting member 23, and the pair of support members 25 are displaceable in the front-rear direction L relative to the case 21. For example, the connecting member 23 may be displaceable in the front-rear direction L inside the case 21 while sliding against the inner surface of the case cylindrical portion 35.

The table 22 is displaceable between a first position P1 and a second position P2, and further, the table 22 is displaceable to a third position P3.
<First position>
As shown in Fig. 11, the first position P1 is a position where the table 22 is adjacent to the upper surface portion 11a of the instrument panel 11. When the table 22 is in the first position P1, a front portion of the table 22, the entire connecting member 23, the entire first rotating member 125, and a front portion of the second rotating member 225 are housed inside the case 21. A rear portion of the table 22 and a rear portion of the second rotating member 225 are exposed to the outside of the case 21 through a case opening 37 of the case 21. When the table 22 is in the first position P1, the entirety of each of the table 22, the connecting member 23, and the pair of support members 25 are located inside the instrument panel 11. The table 22 is located at the first position P1 by being housed inside the instrument panel 11 so as to extend horizontally.

The first connecting rotation shaft 45 in the connecting member 23 is inserted into the second hole 72 of the second rotating member 225. The second table rotation shaft 139 in the table 22 is inserted into the first hole 71 of the second rotating member 225. The second connecting rotation shaft 46 in the connecting member 23 is inserted into the second hole 72 of the first rotating member 125. The first table rotation shaft 138 in the table 22 is inserted into the first hole 71 of the first rotating member 125. The table 22, the connecting member 23, and the pair of support members 25 are integrated by inserting the shafts into these holes. Since the table 22 is displaced while the shafts are maintained inserted into the above holes, the table 22, the connecting member 23, and the pair of support members 25 are maintained in an integrated state regardless of the position of the table 22.

<Second Position>
12, the table 22 is displaced to the second position P2 by being pulled backward from the first position P1. That is, the second position P2 is a position behind the first position P1. The table 22 is displaced to the first position P1 by being pushed forward from the second position P2.

As the table 22 is displaced, the connecting member 23 and the pair of support members 25 are displaced. When the table 22 is displaced from the first position P1 to the second position P2, the table 22, the connecting member 23, and the pair of support members 25 are displaced rearward relative to the case 21. When the table 22 is displaced between the first position P1 and the second position P2 in the front-rear direction L, the relative positions of the connecting member 23 and the pair of support members 25 to the table 22 do not change.

The table module 20 includes a restricting portion (not shown) that restricts the rearward displacement of the connecting member 23 when the table 22 is in the second position P2. By restricting the displacement of the connecting member 23 by the restricting portion, the table 22, the connecting member 23, and the pair of support members 25 are restricted from being displaced rearward beyond the position where the table 22 is located in the second position P2.

When the table 22 is in the second position P2, the front portion of the connecting member 23 is stored inside the case 21. The entire table 22, the rear portion of the connecting member 23, and the entire pair of support members 25 are exposed to the outside of the instrument panel 11.

The table 22 is stored inside the instrument panel 11 so that it extends horizontally in the first position P1, so when the table 22 is pulled rearward from the first position P1 and displaced to the second position P2, it is positioned so that it extends horizontally.

When the table 22 is in the second position P2, the first rotating member 125 can rotate relative to the instrument panel 11 around the second connecting rotating shaft 46 as the first rotating shaft. The table 22 can rotate relative to the first rotating member 125 around the first table rotating shaft 138 as the second rotating shaft.

The second rotating member 225 can rotate relative to the instrument panel 11 around the first connecting rotating shaft 45 as the third rotating shaft. The table 22 can rotate relative to the second rotating member 225 around the second table rotating shaft 139 as the fourth rotating shaft.

By rotating the table 22 around the first table rotation axis 138 as the second rotation axis and the second table rotation axis 139 as the fourth rotation axis, the table 22 is displaced from the second position P2 to the third position P3.

<Third position>
13, when the table 22 is pulled downward, the table 22 is displaced from the second position P2 to the third position P3. When the table 22 is pushed upward in a state where the table 22 is in the third position P3, the table 22 is displaced from the third position P3 to the second position P2.

The table 22 can be displaced to a third position P3 below the second position P2 by the support member 25 as a rotating member rotating relative to the instrument panel 11 and the table 22 rotating relative to the support member 25. More specifically, the first rotating member 125 rotates around the second connecting rotating shaft 46 as the first rotating shaft, and the second rotating member 225 rotates around the first connecting rotating shaft 45 as the third rotating shaft, so that the table 22 is displaced from the second position P2 to the third position P3. The table 22 rotates around the first table rotating shaft 138 as the second rotating shaft and the second table rotating shaft 139 as the fourth rotating shaft, so that the table 22 is displaced from the second position P2 to the third position P3.

When the table 22 is in the third position P3, the central portion 22a is located lower than when the table 22 is in the second position P2. Therefore, the third position P3 is also the position of the table 22 where the central portion 22a is located lower than when the table 22 is in the second position P2.

While displacing from the second position P2 to the third position P3, the table 22 rotates relative to the first rotating member 125 by rotating about the first table rotation axis 138 as the second rotation axis. The table 22 rotates relative to the second rotating member 225 by rotating about the second table rotation axis 139 as the fourth rotation axis. In this way, the table 22 displaces from the second position P2 to the third position P3 while rotating relative to the first rotating member 125 and the second rotating member 225.

The first rotating member 125 rotates about the second connecting rotation shaft 46, and rotates relative to the connecting member 23 so that the rear end of the first rotating member 125, in which the first hole 71 is formed, is displaced downward. This promotes downward displacement of the table 22 via the first table rotation shaft 138 inserted into the first hole 71 of the first rotating member 125.

The second rotating member 225 rotates around the first connecting rotation shaft 45, and rotates relative to the connecting member 23 so that the rear end of the second rotating member 225, in which the first hole 71 is formed, is displaced downward. This promotes downward displacement of the table 22 via the second table rotation shaft 139 inserted into the first hole 71 of the second rotating member 225.

When the table 22 is located at the third position P3, the central portion 22a of the table 22 extends horizontally. When the table 22 is in the third position P3, the pair of support members 25 are connected to the table 22 and the connecting member 23, so that the central portion 22a of the table 22 is maintained in a position extending horizontally. In other words, the pair of support members 25 extend between the table 22 and the connecting member 23 so that the central portion 22a of the table 22 is in a position extending horizontally. For example, the pair of support members 25 are positioned at an angle so that the rear portions are positioned downward.

According to the second embodiment, it is possible to achieve the same effect as the first embodiment.
According to the second embodiment, in addition to the effects (1-1), (1-3), and (1-6) in the first embodiment, the following effects can be obtained.

(2-1) The first rotating member 125 rotates relative to the instrument panel 11 around the second connecting rotation shaft 46 as the first rotation shaft, and the table 22 is connected via the first table rotation shaft 138 as the second rotation shaft. The second rotating member 225 rotates relative to the instrument panel 11 around the first connecting rotation shaft 45 as the third rotation shaft, and the table 22 is connected via the second table rotation shaft 139 as the fourth rotation shaft. The first rotating member 125 rotates around the second connecting rotation shaft 46, the second rotating member 225 rotates around the first connecting rotation shaft 45, and the table 22 rotates around the first table rotation shaft 138 and the second table rotation shaft 139. As a result, the table 22 is displaced from the second position P2 to the third position P3. Therefore, by rotating the first rotating member 125 around the second connecting rotating shaft 46 as the first rotating shaft and by rotating the second rotating member 225 around the first connecting rotating shaft 45 as the third rotating shaft, the table 22 can be displaced significantly downward. By rotating the table 22 around the first table rotating shaft 138 and the second table rotating shaft 139, the inclination of the table 22 can be adjusted.

Third Embodiment
Hereinafter, a third embodiment of the instrument panel structure will be described with reference to the drawings. The third embodiment differs from the first embodiment in the shape of the instrument panel 11 and the configuration of the table module 20. The following description will focus on the differences from the first embodiment. Descriptions of the same configuration as the first embodiment will be omitted as appropriate.

<Instrument panel>
14, the panel opening 11c in this embodiment is formed at a position in the instrument panel 11 that is different from the panel opening 11c in the first embodiment. The panel opening 11c is formed, for example, in the upper surface portion 11a of the instrument panel 11. The panel opening 11c is a through-hole that penetrates the upper surface portion 11a.

<Table module>
The table module 20 includes a table 22 and a pair of support members 25. In this embodiment, the table 22 is located outside the instrument panel 11. For example, the table 22 is located above the upper surface portion 11a of the instrument panel 11.

The table 22 has a horizontal surface portion 22c and a curved surface portion 22d connected to the horizontal surface portion 22c. A horizontally extending central portion 22a is formed in the center of the horizontal surface portion 22c. When the table 22 is located above the upper surface portion 11a of the instrument panel 11, the table 22 is positioned such that the horizontal surface portion 22c is located below the curved surface portion 22d. A placement portion extending horizontally along the horizontal surface portion 22c of the table 22 may be formed in the portion of the upper surface portion 11a of the instrument panel 11 below the table 22. The table 22 may be positioned above the upper surface portion 11a of the instrument panel 11 with the horizontal surface portion 22c of the table 22 in contact with this placement portion.

A table rotation shaft 140 is formed on both ends of the table 22 in the vehicle width direction W. The table rotation shaft 140 has, for example, a cylindrical shape extending in the vehicle width direction W.
The pair of support members 25 are spaced apart from each other in the vehicle width direction W. Each of the pair of support members 25 is, for example, in the form of a flat plate extending perpendicular to the vehicle width direction W. Each of the pair of support members 25 is formed with a first hole 71 and a second hole 72. Each of the pair of support members 25 has a shape extending between a first end 25a where the first hole 71 is formed and a second end 25b where the second hole 72 is formed.

A portion of the pair of support members 25, including the second end 25b, is located inside the instrument panel 11. A portion of the pair of support members 25, including the first end 25a, is exposed to the outside of the instrument panel 11 through a panel opening 11c formed in the upper surface portion 11a.

Of the pair of support members 25, the portions located inside the instrument panel 11 are positioned so that the airbag module 14 is located between the pair of support members 25 in the vehicle width direction W. Of the pair of support members 25, the portions located inside the instrument panel 11 are spaced rearward from the reinforcement 12.

A support shaft 141 is inserted into the second hole 72 of the pair of support members 25. In this embodiment, the support shaft 141 corresponds to the first rotating shaft. The support shaft 141 is a shaft fixed inside the instrument panel 11. Therefore, the support shaft 141 as the first rotating shaft is located inside the instrument panel 11 regardless of the position of the table 22.

The support shaft 141 is, for example, cylindrical and extends in the vehicle width direction W. In this embodiment, the pair of support members 25 correspond to rotating members. The pair of support members 25 as rotating members can rotate relative to the instrument panel 11 around the support shaft 141 as a first rotating shaft.

The first ends 25a of the pair of support members 25 are located to the right and left of the table 22 in the vehicle width direction W. The table rotation shaft 140 formed at the right end of the table 22 is inserted into the first hole 71 of the support member 25 located to the right of the table 22 in the vehicle width direction W. The table rotation shaft 140 formed at the left end of the table 22 is inserted into the first hole 71 of the support member 25 located to the left of the table 22 in the vehicle width direction W.

By inserting the table rotation shaft 140 into the first hole 71, the table 22 is rotatably connected to the pair of support members 25 as rotating members. In this embodiment, the table rotation shaft 140 corresponds to the second rotation shaft. The table 22 is connected to the pair of support members 25 as rotating members via the table rotation shaft 140 as the second rotation shaft. The table 22 rotates relative to the pair of support members 25 as rotating members by rotating around the table rotation shaft 140 as the second rotation shaft.

The table 22 is displaced by the pair of support members 25 rotating relative to the instrument panel 11 around the support shaft 141. The pair of support members 25 as rotating members displace the table 22 in the vertical direction Z by rotating relative to the instrument panel 11. The table 22 can be displaced between a first position P1 and a second position P2. The pair of support members 25 as rotating members displace the table 22 from the first position P1 to the second position P2 by rotating relative to the instrument panel 11 around the support shaft 141 as the first rotation shaft. The table 22 can be displaced to a third position P3 in addition to the first position P1 and the second position P2.

<First position>
The first position P1 is a position where the table 22 is adjacent to the upper surface portion 11a of the instrument panel 11. Regardless of the position of the table 22, the table 22 is located outside the instrument panel 11. When the table 22 is in the first position P1, the table 22 is located above the upper surface portion 11a of the instrument panel 11. The first ends 25a of the pair of support members 25 are exposed to the outside of the instrument panel 11 through the panel opening 11c formed in the upper surface portion 11a. Therefore, outside the instrument panel 11, the first ends 25a are connected to the table 22 by inserting the table rotation shaft 140 of the table 22 into the first hole 71. When the table 22 is in the first position P1, the portions of the pair of support members 25 other than the first ends 25a are located inside the instrument panel 11.

<Second Position>
As shown in Fig. 15, the table 22 is displaced from a first position P1 to a second position P2 indicated by a two-dot chain line in Fig. 15 by rotating. The second position P2 is a position rearward of the first position P1. The table 22 is displaced to the second position P2 by being displaced rearward while rotating from the first position P1. The table 22 is displaced to the first position P1 by being displaced forward while rotating from the second position P2.

The pair of support members 25 rotate together with the rotation of the table 22. The pair of support members 25 rotate around the support shaft 141. As the pair of support members 25 rotate around the support shaft 141, the first ends 25a of the pair of support members 25 rotate around the support shaft 141. Since the table 22 is connected to the pair of support members 25 via the table rotation shaft 140 inserted into the first hole 71 of the first end 25a, the table 22 rotates together with the pair of support members 25 around the support shaft 141. By rotating around the support shaft 141, the table 22 is displaced from the first position P1 to the second position P2. As the table 22 approaches the second position P2 from the first position P1, the portion of the pair of support members 25 exposed from the panel opening 11c increases.

When the table 22 is in the second position P2, the pair of support members 25 are restricted from further rotation by a restricting portion (not shown). Therefore, when the table 22 reaches the second position P2, further rotation of the table 22 and the pair of support members 25 about the support shaft 141 is restricted. Note that, among the rotations of the table 22 and the pair of support members 25 about the support shaft 141, rotation in the direction in which the table 22 is displaced from the second position P2 to the first position P1 is not restricted.

When the table 22 is in the second position P2, the table 22 can rotate around the table rotation axis 140 serving as the second rotation axis relative to the pair of support members 25. When the table 22 rotates around the table rotation axis 140 serving as the second rotation axis, the table 22 is displaced from the second position P2 to the third position P3.

<Third position>
15, the table 22 is displaced from the second position P2 to the third position P3. The table 22 is displaced forward while rotating from the third position P3, and is thereby displaced sequentially to the second position P2 and the first position P1.

The table 22 can be displaced to a third position P3 lower than the second position P2 by the support member 25 as a rotating member rotating relative to the instrument panel 11 and the table 22 rotating relative to the support member 25. In detail, the table 22 is displaced from the first position P1 to the second position P2 by the support member 25 rotating relative to the instrument panel 11, and then the table 22 is displaced from the second position P2 to the third position P3 by rotating about the table rotation axis 140. In this embodiment, the table 22 rotates about the table rotation axis 140 so that the rear end of the table 22 is positioned lower than when it is in the second position P2.

When the table 22 is in the third position P3, the central portion 22a is located lower than when the table 22 is in the second position P2. Therefore, the third position P3 is also the position of the table 22 where the central portion 22a is located lower than when the table 22 is in the second position P2.

When the table 22 is in the third position P3, the table 22 is in a position where the horizontal surface portion 22c including the central portion 22a is located at the top of the table 22. When the table 22 is in the third position P3, the central portion 22a of the table 22 extends in the horizontal direction. When the table 22 is in the third position P3, the position of the table 22 may be maintained by a maintenance mechanism (not shown) in a position where the central portion 22a extends in the horizontal direction.

According to the third embodiment, it is possible to achieve the same effect as the first embodiment.
According to the third embodiment, in addition to the effects (1-1), (1-4), and (1-6) in the first embodiment, the following effects can be obtained.

(3-1) The pair of support members 25 as rotating members rotate relative to the instrument panel 11 around the support shaft 141 as the first rotation shaft, thereby displacing the table 22 from the first position P1 to the second position P2. The table 22 is connected to the pair of support members 25 via the table rotation shaft 140 as the second rotation shaft. The table 22 rotates relative to the pair of support members 25 by rotating around the table rotation shaft 140. The table 22 is displaced from the second position P2 to the third position P3 by rotating around the table rotation shaft 140. Therefore, by rotating the pair of support members 25 as rotating members around the support shaft 141 as the first rotation shaft, the table 22 can be displaced significantly downward. By rotating the table 22 around the table rotation shaft 140 as the second rotation shaft, the inclination of the table 22 can be adjusted.

<Example of change>
The embodiment can be modified as follows: The embodiment and the following modified examples can be combined with each other to the extent that there is no technical contradiction.

- In the second embodiment, the contact portion 11d may be provided on the instrument panel 11. In the second embodiment, when the contact portion 11d is provided on the instrument panel 11, the contact portion 11d can contact the pair of support members 25 from below when the rear ends of the pair of support members 25 are positioned lower than when the table 22 is positioned at the third position P3.

- In the first embodiment, the abutment portion 11d may be omitted from the instrument panel 11. The abutment portion 11d may also be provided on a member other than the instrument panel 11.

- In the first embodiment, either the first recess 47 or the second recess 48 may be omitted from the connecting member 23. In this case, the state in which the rotating shaft 58 is inserted into either the first recess 47 or the second recess 48 may be maintained regardless of the position of the table 22. In addition, by omitting the elastic member 58b from the rotating shaft 58, the state in which the shaft body 58a is inserted into either the first recess 47 or the second recess 48 may be maintained.

- In the first and second embodiments, the table 22 may be located at the first position P1 by being stored inside the instrument panel 11 so that it extends at an angle relative to the horizontal direction. In this case, the table 22 is displaced from the first position P1 to the second position P2 by being pulled out rearward in an inclined state.

When the table 22 is located at the third position P3, the central portion 22a of the table 22 may extend at an angle relative to the horizontal direction.
In the first embodiment, the rotation shaft 58 may be located outside the instrument panel 11 depending on the position of the table 22. The rotation shaft 58 may be located outside the instrument panel 11 regardless of the position of the table 22.

- In the third embodiment, the support shaft 141 may be located outside the instrument panel 11 depending on the position of the table 22. The support shaft 141 may be located outside the instrument panel 11 regardless of the position of the table 22.

In the first embodiment, at least one of the case 21 and the connecting member 24 may be omitted from the table module 20 .
In the second embodiment, at least one of the case 21 and the connecting member 23 may be omitted from the table module 20. In the case where the connecting member 23 is omitted, the pair of support members 25 are rotatably connected to the instrument panel 11, for example.

L...fore-and-aft direction as horizontal direction LP...lower position P1...first position P2...second position P3...third position W...vehicle width direction as horizontal direction Z...up-down direction 11...instrument panel 11a...upper surface portion 11d...contact portion 22...table 22a...central portion 23...connecting member as rotating member 23a...rear end portion 25...support member as rotating member 45...first connecting rotating shaft as second rotating shaft and third rotating shaft 46...second connecting rotating shaft as first rotating shaft 58...rotating shaft as first rotating shaft 138...first table rotating shaft as second rotating shaft 139...second table rotating shaft as fourth rotating shaft 140...table rotating shaft as second rotating shaft 141...support shaft as first rotating shaft 125...first rotating member 225...second rotating member

Claims (8)

An instrument panel structure comprising a table displaceable between a first position adjacent to an upper surface of an instrument panel and a second position rearward of the first position,
a rotating member to which the table is rotatably connected and which rotates relative to the instrument panel to displace the table in a vertical direction;
The table is displaceable to a third position lower than the second position by the rotating member rotating relative to the instrument panel and the table rotating relative to the rotating member. the rotating member rotates relative to the instrument panel about a first rotation axis,
the table is displaced to the second position by being pulled backward from the first position, is coupled to the rotating member via a second rotating shaft, and rotates relative to the rotating member by rotating about the second rotating shaft;
2. The instrument panel structure according to claim 1, wherein the table is displaced from the second position to the third position by the rotating member rotating about the first rotation axis and the table rotating about the second rotation axis. the rotating member includes a first rotating member that rotates relative to the instrument panel about a first rotation shaft and is connected to the table via a second rotation shaft, and a second rotating member that rotates relative to the instrument panel about a third rotation shaft and is connected to the table via a fourth rotation shaft,
the table is displaced to the second position by being pulled backward from a state in which the table is in the first position, rotates relative to the first rotating member by rotating about the second rotation axis, and rotates relative to the second rotating member by rotating about the fourth rotation axis,
2. The instrument panel structure according to claim 1, wherein the first rotating member rotates about the first rotation axis, the second rotating member rotates about the third rotation axis, and the table rotates about the second rotation axis and the fourth rotation axis, thereby displacing the table from the second position to the third position. the rotating member rotates about a first rotation axis relative to the instrument panel to displace the table from the first position to the second position;
the table is coupled to the rotating member via a second rotation shaft and rotates relative to the rotating member by rotating about the second rotation shaft;
2. The instrument panel structure according to claim 1, wherein the table is displaced from the second position to the third position by rotating about the second rotation axis. The instrument panel structure according to any one of claims 1 to 3, wherein the table is located at the first position by being stored inside the instrument panel so as to extend horizontally, and is displaced to the second position by being pulled rearward from the first position. The instrument panel structure according to claim 2 or 4, wherein the first rotation axis is located inside the instrument panel regardless of the position of the table. The instrument panel structure according to any one of claims 1 to 3, wherein the instrument panel includes an abutment portion that can abut against the rotating member from below the rotating member when the rotating member is positioned at a lower position where the rear end of the rotating member is positioned lower than the position of the rotating member when the table is positioned at the third position. The instrument panel structure according to any one of claims 1 to 3, wherein the central portion of the table extends horizontally when the table is in the third position.

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