CN111164550A - touch panel display device - Google Patents

Abstract

One end of the arm (4) is rotatably supported on the back of the touch panel display (2), and the other end is connected to the operating device (3) on the front surface of the touch panel display (2). The operating device (3) slides on the front surface of the touch panel display (2) with the one end of the arm (4) as the rotation center (A).

Description

Touch panel display device

Technical Field

The present invention relates to a display device (hereinafter referred to as a "touch panel display device") in which a capacitive touch panel is integrated.

Background

In vehicle-mounted products such as navigation devices, audio devices, or center displays, demand for touch panel display devices has increased. Since the surface of a conventional touch panel display device has no irregularities, a passenger such as a driver needs to operate a touch panel while viewing the display.

In the input display apparatus of patent document 1, an operation device is provided on a touch panel type display apparatus, and the operation device is caused to be detected by a touch panel by a finger of a driver contacting the operation device. The driver can perform intuitive operation by operating the operation device without observing the display during driving.

Documents of the prior art

Patent document

Patent document 1:

japanese patent laid-open No. 2016-206930

Disclosure of Invention

Technical problem to be solved by the invention

In the case where the operation device is fixed to the display, the display screen becomes small to the extent corresponding to the area to which the operation device is fixed. Further, in the case where the operation device is supported by the slide structure so as to be slidable in the up-down direction or the like on the display screen, the display screen may be reduced by an area of the side surface of the display provided with the slide structure. In addition, in the case where the operation device is disposed at a position close to both the driver seat and the passenger seat in order to improve the operability of the operation device, the display screen becomes small because two or more operation devices are disposed on the display. As described above, the conventional touch panel display device including an operation device has a problem of a small display screen.

The present invention has been made to solve the above-described problems, and an object of the present invention is to increase a display screen of a touch panel display device including an operation device.

Technical scheme for solving technical problem

The touch panel display device of the present invention includes: a touch panel display; an operation device having a rotation operation portion operated to rotate and a conductive contact portion provided on one surface side of the rotation operation portion and contacting a front surface of the touch panel display; and an arm portion having one end portion rotatably supported on a back surface of the touch panel display and the other end portion connected to the operation device at a front surface of the touch panel display, the operation device being slidably moved on the front surface of the touch panel display with the one end portion of the arm portion as a rotation center.

Effects of the invention

According to the present invention, the operation device is slidably moved on the front surface of the touch panel display with the one end portion of the arm portion supported on the back surface of the touch panel display as the rotation center, and therefore, the display screen can be enlarged as compared with the conventional one.

Drawings

Fig. 1 is a front view showing an example of the configuration of a touch panel display device according to embodiment 1.

Fig. 2 is a perspective view showing an example of installation of a touch panel display device in a vehicle according to embodiment 1.

Fig. 3 shows an example of the configuration of a touch panel display device according to embodiment 1, in which fig. 3A is a front view, fig. 3B is a side view, and fig. 3C is a rear view.

Fig. 4 is a rear view showing a configuration example of a contact portion provided in the operation device of embodiment 1.

Fig. 5A and 5B are diagrams illustrating an operation of the return mechanism according to embodiment 1.

Fig. 6A, 6B, and 6C are reference examples for facilitating understanding of the touch panel display device 1 according to embodiment 1.

Fig. 7A is a rear view showing a state in which the operation device is at an initial position in the touch panel display apparatus of embodiment 2, and fig. 7B is an enlarged view of the position holding mechanism.

Fig. 8A is a rear view showing a state in which the operation device holds a position at the slide movement target position in the touch panel display apparatus of embodiment 2, and fig. 8B is an enlarged view of the position holding mechanism.

Fig. 9A, 9B, and 9C are views for explaining the operation of the position holding mechanism according to embodiment 2.

Fig. 10 is a front view showing an example of the configuration of a touch panel display device according to embodiment 3.

Fig. 11 is a front view showing an example of the configuration of a touch panel display device according to embodiment 4.

Detailed Description

Hereinafter, embodiments for carrying out the present invention will be described in more detail with reference to the accompanying drawings.

Embodiment mode 1

Fig. 1 is a front view showing an example of the configuration of a touch panel display device 1 according to embodiment 1. The touch panel display apparatus 1 mainly includes a touch panel display 2, an operation device 3, and an arm portion 4.

Fig. 2 is a perspective view showing an example of installation of the touch panel display device 1 in a vehicle according to embodiment 1. In the example of fig. 2, the touch panel display device 1 is disposed between a driver's seat and a passenger's seat, and the touch panel display device 1 is held by both the driver of the driver's seat and the passenger of the passenger's seat. Hereinafter, the operation device 3 is simply referred to as a "user" without distinguishing a driver, a passenger, and the like who operate the operation device.

In fig. 1 and 2, the lower portion of the touch panel display 2 is covered, but may not be covered.

Fig. 3 shows an example of the configuration of the touch panel display device 1 according to embodiment 1, where fig. 3A is a front view, fig. 3B is a side view, and fig. 3C is a rear view. Fig. 4 is a rear view showing an example of the configuration of the contact portion 3b of the operation device 3 according to embodiment 1. The touch panel display 2 is fixed by a frame 2b, with an electrostatic capacitance touch panel being superimposed on the display.

The arm portion 4 has a first arm portion 4a, a second arm portion 4b, and a bent portion 4 c. The first arm portion 4a is disposed on the rear surface 2c side of the touch panel display 2. The second arm portion 4b is disposed on the display screen 2a side of the touch panel display 2. The bent portion 4c connects the first arm portion 4a and the second arm portion 4b in a state of sandwiching the touch panel display 2. One end of the first arm 4a is rotatably supported by a hinge 5 or the like on the back surface 2c of the touch panel display 2. One end of the second arm portion 4b is connected to the other end of the first arm portion 4a via a bent portion 4 c. The operation device 3 is connected to the other end of the second arm portion 4 c. The operation device 3 slides in the sliding direction B on the display screen 2a of the touch display 2 with the one end of the arm 4 as the rotation center a by the user's operation. The position of the operating device 3 shown in fig. 2 and 3 is the "initial position".

The operation device 3 has a rotation operation portion 3a and one or more contact portions 3 b. The rotation operation portion 3a is formed of, for example, a conductive member, and is rotated in the rotation operation direction C by the hand operation of the user. The contact portion 3b is a conductive member provided on the back surface of the rotation operation portion 3a, and contacts the front surface of the touch panel display 2 in a state of being electrically connected to the rotation operation portion 3 a. As the rotational operation portion 3a moves in the sliding direction B and the rotational operation direction C, the contact portion 3B also moves in contact with the front surface of the touch panel display 2. The touch panel display 2 detects the three contact portions 3B, calculates the center of gravity of the three contact portions 3B, and sets the calculated center of gravity as the position in the sliding direction B of the operation device 3. The touch panel display 2 detects the rotation locus of the three contact portions 3b, and sets the detected rotation locus as the rotation operation amount in the rotation operation direction C.

In the illustrated example, the rotation operating portion 3a is formed in a ring shape with a hole opened at the center thereof, but may have any shape. Further, three contact portions 3b are provided on the back surface of the rotational operation portion 3a, but the number of the contact portions 3b may be any number as long as the number is two or more. The rotation operation portion 3a may be formed of a member other than the conductive member.

Next, a detailed configuration example of the rear surface 2c side of the touch panel display 2 will be described.

As shown in fig. 3B, the plates 11 and 12 are coupled to the first arm portion 4a by screws. The plate 13 is combined with the plates 11 and 12 by screws. The plates 11, 12, 13 slide together with the first arm 4 a. The board 14 is combined with the back surface 2c of the touch panel display 2 by screws. The plates 13 and 14 are connected by two springs 6.

One of the two springs 6 has one end supported by a hook 13a provided at the right end of the plate 13 and the other end supported by a hook 14a provided at the right end of the frame 14. One end of the other of the two springs 6 is supported by a hook 13a provided at the left end of the plate 13, and the other end is supported by a hook 14a provided at the left end of the frame 14. The two springs 6 are return mechanisms for returning the operation device 3 to the initial position.

Fig. 5A and 5B are diagrams illustrating an operation of the return mechanism according to embodiment 1. In fig. 5A, the user slides the operation device 3 from the initial position to move in the arrow direction. The user can perform the rotation operation of the rotation operation unit 3 without separating the hand from the operation device 3 that slides in the arrow direction. In fig. 5B, when the user's hand is separated from the operation device 3, the operation device 3 moves in the arrow direction and returns to the initial position by the load of the spring 6. During the period when the user does not operate the operation device 3, the operation device 3 is held at the initial position by the balance of the loads of the two springs 6.

The return mechanism is not limited to the spring 6, and may be a magnet, a damper, or the like. Further, the operation device 3 may be returned to the initial position by the weight of the operation device 3 and the arm 4.

As shown in fig. 3B, a cushion member 15 is provided on each of the right and left sides of the first arm portion 4 a. The buffer member 15 alleviates the impact in the case where the operation device 3 moves in the sliding direction B and collides with a member around the touch panel display device 1.

The ball plunger 21 is fixed to the frame 11 and elastically contacts the upper end of the frame 14. The ball plunger 21 is supported by the upper end portion of the frame 14 to prevent the operation device 3 from falling when an impact is applied to the operation device 3 downward due to an erroneous operation by a user or the like. The ball plunger 22 is fixed to the frame 13 and is in elastic contact with the first arm portion 4 a. The ball plunger 23 is fixed to the first arm portion 4a and is in elastic contact with the plate 14. The ball plunger 22 and the ball plunger 23 prevent the deviation in the depth direction of the operation device 3.

Fig. 6A, 6B, and 6C are reference examples for facilitating understanding of the touch panel display device 1 according to embodiment 1. The touch panel display devices 100a, 100b, and 100c of the reference example are arranged between the driver's seat and the front passenger seat as in the touch panel display device 1 of embodiment 1.

The touch panel display apparatus 100a of the reference example shown in fig. 6A has two operation devices 3 fixed outside the display screen 2a of the touch panel display 2. The display screen 2 is narrowed to such an extent that the two operation devices 3 are fixed so as to be operable by both the driver in the driver's seat and the passenger in the passenger's seat.

The touch panel display apparatus 100B of the reference example shown in fig. 6B has two operation devices 3 fixed within the display screen 2a of the touch panel display 2. In the reference example of fig. 6B, the display screen 2 is also narrowed to the extent that two operation devices 3 are fixed.

An arm 101 that slides in the up-down direction is provided on the right side of the touch panel display device 100C of the reference example shown in fig. 6C, and the operation device 3 is connected to the arm 101. Further, an arm 101 that slides in the up-down direction is also provided on the left side of the touch panel display device 100c, and the operation device 3 is connected to the arm 101. In order to provide the two arm portions 101, the width of the left and right frames 2b of the touch panel display device 100c is increased, and the display screen 2a is narrowed by the corresponding amount. Further, since the operation device 3 of the touch panel display apparatus 100c linearly slides in the vertical direction, the hand of the user who moves the operation device 3 moves unnaturally, and a burden is imposed on the body.

In contrast, the touch panel display device 1 according to embodiment 1 includes: a touch panel display 2; an operation device 3 having a rotation operation portion 3a operated to rotate and a conductive contact portion 3b, the contact portion 3b being provided on one surface side of the rotation operation portion 3a and being in contact with the front surface of the touch panel display 2; and an arm portion 4 having one end portion rotatably supported by the back surface 2c of the touch panel display 2 and the other end portion connected to the operation device 3 in the front surface of the touch panel display 2. Further, the operation device 3 takes one end portion of the arm portion 4 as a rotation center a, and slidingly moves in a sliding direction B on the front surface of the touch panel display 2. In the touch panel display device 1 according to embodiment 1, since one operation device 3 is moved to the driver seat side and the passenger seat side, it is not necessary to provide a plurality of operation devices 3 in the touch panel display 2. One end of the arm 4 is supported by the back surface 2c of the touch panel display 2. Therefore, the touch panel display device 1 according to embodiment 1 can enlarge the display screen 2a of the touch panel display device 2 as compared with the touch panel display devices 100a, 100b, and 100c of the reference example. Further, the operation device 3 of embodiment 1 is slidingly moved in an arc shape, and therefore, the user can move the operation device 3 by an ergonomically natural motion. Further, in the operation device 3 of embodiment 1, since the operation device 3 is slid upward from the initial position, the stop position of the operation device 3 can be transmitted to the user by feel, and operability is improved.

Further, the operation device 3 of embodiment 1 is configured to be slidably moved in the left-right direction on the lower side of the front surface of the touch panel display 2. According to the above configuration, the operation device 3 can be easily operated by both the driver in the driver's seat and the passenger in the passenger's seat.

The application of the touch panel display device 1 is not limited to the in-vehicle application. The position at which the operation device 3 is slidingly moved is not limited to the front surface lower portion side of the touch panel display 2, and can be changed according to the positional relationship between the user and the touch panel display apparatus 1. Further, the direction of the sliding movement of the operation device 3 is not limited to the left-right direction, and can be changed according to the positional relationship between the user and the touch panel display apparatus 1.

The touch panel display device 1 according to embodiment 1 is configured to include a return mechanism such as a spring 6 for returning the operation device 3 after the sliding movement to a predetermined initial position. According to the above configuration, when the user takes the hand off the operation device 3, the operation device 3 automatically returns to the initial position. By disposing the operation device 3 at the initial position when the user is not operating, the user can hold the operation device 3 with the hand when the user is operating the operation device without delay. Therefore, the driver can operate the operation device 3 without moving the line of sight while the vehicle is running, and operability is improved.

Further, the contact portion 3b of the operation device 3 of embodiment 1 is configured to slide while being in contact with the front surface of the touch panel display 2. By detecting the contact portion 3B by the touch panel display 2, it is possible to detect both the movement of the operation device 3 in the sliding direction B and the movement of the rotation operation portion 3a in the rotation operation direction C. Thus, a sensor for detecting the operation device 3 is not required in addition to the touch panel display 2.

The rotation operation portion 3a of the operation device 3 according to embodiment 1 is formed of a conductive member and is configured to be electrically connected to the contact portion 3 b. According to the above configuration, the touch panel display 2 can detect whether or not the user's hand touches the operation device 3. Therefore, the touch panel display device 1 can realize the following operations: the application program is started only when the user touches the operation device 3 with his hand, and is closed when the operation device 3 is not touched. As a result, the user can perform intuitive operations.

Embodiment mode 2

The operation device 3 of embodiment 1 is configured to automatically return to an initial position when the user's hand is removed. In contrast, the operation device 3 of embodiment 2 is configured not to return to the initial position even if the user's hand is separated, but to be held at the position where the hand is separated.

Fig. 7A is a rear view showing a state in which the operation device 3 is located at an initial position in the touch panel display apparatus 1 of embodiment 2, and fig. 7B is an enlarged view of the position holding mechanism. Fig. 8A is a rear view showing a state where the operation device 3 holds a position at the slide movement target position in the touch panel display apparatus 1 of embodiment 2, and fig. 8B is an enlarged view of the position holding mechanism. In fig. 7 and 8, the same or corresponding portions as those in fig. 1 to 5 are denoted by the same reference numerals, and the description thereof is omitted.

The position holding mechanism is constituted by, for example, the ball plunger 24 and the recess 14b into which the ball plunger 24 is fitted. The ball plunger 24 is fixed to the plate 14 side of the first arm portion 4a, and is in elastic contact with the lower end portion of the plate 14. At least one recess 14b is formed at the lower end of the plate 14. As the sliding movement of the operation device 3 and the arm portion 4, the ball plunger 24 moves toward the position of the concave portion 14b, the ball portion of the ball plunger 24 is fitted into the concave portion 14b, and thereby the operation device 3 and the arm portion 4 are held at the position. In the example of fig. 7 and 8, two concave portions 14b are formed at two positions on the left and right of the lower end portion of the plate 14, but the formation position and the number of the concave portions 14b are not limited to this. For example, the concave portion 14b may be formed also at the center of the lower end portion of the plate 14, that is, at the initial position.

Fig. 9A, 9B, and 9C are views for explaining the operation of the position holding mechanism according to embodiment 2. In fig. 9A, the user slidingly moves the operation device 3 from the initial position in the arrow direction. In fig. 9B, the ball plunger 24 is fitted into the recess 14B, and therefore, even if the user takes his hand off the operation device 3, the position of the operation device 3 is maintained. In fig. 9C, the user can continuously rotate the rotational operation unit 3a by operating it at the same position even after separating the hand from the operation device 3. Therefore, the movement of the hand can be reduced, and the operation stroke of the user can be reduced. When the user wants to return the operation device 3 to the initial position, the user lightly touches the operation device 3 with a hand, the engagement between the ball plunger 24 and the concave portion 14b is released, and the load of the spring 6 acts to slide the operation device 3 in the arrow direction and return the operation device 3 to the initial position.

The curvature of the movement trajectory of the ball plunger 24 may be made larger than the curvature of the lower end portion of the plate 14. According to the above configuration, the ball plunger 24 does not contact the lower end portion of the plate 14 when the operation device 3 is located near the initial position, and the ball plunger 24 contacts the lower end portion of the plate 14 only when the operation device 3 moves to the left and right ends in the sliding direction B. Since the ball plunger 24 does not contact the lower end portion of the plate 14 in the middle of the sliding movement of the operation device 3 by the user, a smooth operation feeling can be provided to the user.

As described above, the touch panel display device 1 according to embodiment 2 is configured to include a position holding mechanism such as the ball plunger 24 that holds the operation device 3 after the sliding movement at the position after the sliding movement. According to the above configuration, the user can hold the position of the operation device 3 in a state where the user pulls the operation device 3 near the user, and operability is improved.

Embodiment 3

Fig. 10 is a front view showing an example of the configuration of the touch panel display device 1 according to embodiment 3. In fig. 10, the same reference numerals are given to the same or corresponding parts as those in fig. 1 to 5, 7 and 8, and the description thereof will be omitted.

The arm portion 4 of embodiment 3 has an expansion/contraction portion 4d in a portion of the second arm portion 4 b. The expansion/contraction unit 4D expands and contracts by itself to move the operation device 3 in an expansion/contraction direction D different from the sliding direction B, that is, in a direction parallel to the front surface of the touch panel display 2. The expansion/contraction portion 4d is formed of a plurality of cylindrical bodies having different sizes. A small circle of the cylinder is housed in the outermost cylinder, and a smaller cylinder is also housed in the small circle of the cylinder. An operating device 3 is connected to the innermost cylinder.

In this manner, the arm portion 4 has the telescopic portion 4d, whereby the moving range of the operation device 3 in the front surface of the touch panel display 2 becomes large.

The extensible part 4d according to embodiment 3 can be combined with the arm part 4 according to any one of embodiments 1 and 2.

Embodiment 4

Fig. 11 is a front view showing an example of the configuration of the touch panel display device 1 according to embodiment 4. In fig. 11, the same reference numerals are given to the same or corresponding parts as those in fig. 1 to 5, 7 and 8, and the description thereof will be omitted.

The arm portion 4 of embodiment 4 has a rotation shaft portion 4e in a portion of the bent portion 4 c. The rotation shaft 4e rotatably connects the first arm 4a and the second arm 4 b. The rotation shaft 4e is, for example, a hinge. The operation device 3 rotates and moves in the rotation direction F on the front surface of the touch panel display 2 with the rotation axis 4E as the rotation center E.

In this manner, the arm portion 4 has the rotation shaft portion 4e, whereby the moving range of the operation device 3 on the front surface of the touch panel type display 2 becomes large.

The rotation shaft 4e according to embodiment 3 can be combined with the arm 4 according to any one of embodiments 1 and 2.

The rotation shaft 4e of embodiment 3 can be combined with the expansion/contraction portion 4d of embodiment 3. Thereby, the moving range of the operation device 3 is further expanded.

The present invention can freely combine the embodiments, change arbitrary components of the embodiments, or omit arbitrary components of the embodiments within the scope of the present invention.

The touch panel display device 1 according to each embodiment is not limited to being mounted on a vehicle.

(availability in industry)

The touch panel display device of the present invention has an increased display screen, and is therefore suitable for use in car-mounted products such as navigation devices, audio devices, or center monitors.

(symbol description)

1. 100a, 100b, 100c touch panel display devices; 2 touch panel displays; 2a displaying a picture; 2b a frame; 2c a back side; 3 operating the equipment; 3a rotation operation part; 3b a contact portion; 4. 101 an arm part; 4a first arm portion; 4b a second arm portion; 4c a curved portion; 4d a telescopic part; 4e a rotation shaft; 5, a hinge; 6 spring (return mechanism); 11. 12, 13, 14 plates; 13a, 14a are hooked; 14b a recess (position holding mechanism); 15 a buffer member; 21. 22, 23 ball plugs; 24 ball plunger (position holding mechanism); A. e, a rotation center; b, sliding direction; c, rotating the operation direction; d, stretching and retracting directions; and F, rotating direction.

Claims (9)

1. A touch panel display device characterized by comprising:

a touch panel display;

an operation device having a rotation operation portion operated to rotate and a conductive contact portion provided on one surface side of the rotation operation portion and contacting a front surface of the touch panel display; and

an arm portion having one end portion freely rotatably supported on a rear surface of the touch panel display and the other end portion connected to the operation device at a front surface of the touch panel display,

the operation device is slidably moved on a front surface of the touch panel display with the one end portion of the arm portion as a rotation center.

2. The touch panel display device according to claim 1,

the operation device is slidably moved in the left-right direction on a lower side of a front surface of the touch panel display.

3. The touch panel display device according to claim 1,

the arm portion has a bent portion that is bent at a portion that reaches a front surface from a back surface of the touch panel display.

4. The touch panel display device according to claim 1,

the touch panel display apparatus includes a return mechanism that returns the operation device after the sliding movement toward a predetermined initial position.

5. The touch panel display device according to claim 1,

the touch panel display apparatus includes a position holding mechanism that holds the operation device after the sliding movement at a position after the sliding movement.

6. The touch panel display device according to claim 1,

the arm portion has a telescopic portion that moves the operation device in a direction different from a sliding movement direction with the one end portion as a rotation center, that is, in a direction parallel to a front surface of the touch panel display.

7. The touch panel display device according to claim 1,

the arm portion has: a first arm portion rotatably supported on a back surface of the touch panel display; a second arm portion that is disposed on a front surface of the touch panel display and is connected to the operation device; and a rotation shaft portion that connects the first arm portion and the second arm portion so as to be rotatable,

the operation device rotates and moves on the front surface of the touch panel display with the rotation shaft as a rotation center.

8. The touch panel display device according to claim 1,

the contact portion of the operation device is slidably moved in a state of being in contact with a front surface of the touch panel display.

9. The touch panel display device according to claim 1,

the rotation operation portion of the operation device is formed of a conductive member and is in conduction with the contact portion.

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