JP2012014322A - Display opening/closing detection apparatus - Google Patents

Abstract

An object of the present invention is to provide a display open / close detection device with high accuracy by suppressing the influence of external light when infrared light is incident when a display open / close detection device using infrared light emitting / receiving elements is employed.
The present invention relates to a display open / close detection device including a display unit, a support unit that can rotate the display unit, and a main body unit that is connected to the display unit by the support unit. The light emitting unit 6 that emits infrared rays provided inside the display unit 1, the light receiving unit 10 that receives infrared rays provided inside the main body unit, and the infrared rays emitted from the light emitting unit 6 are collected and collected on the light receiving unit 10. A light guide unit 12 that guides infrared light and a light receiving unit 10 are connected to the light guide unit 10. The control unit 13 turns off the display when the light receiving unit 10 receives infrared light. And shielding means 14 that shields external light so that external light other than infrared light emitted from the light emitting unit 6 is not incident.
[Selection] Figure 5

Description

  The present invention relates to an open / close detection device for a vehicle display.

  As a display open / close detection device, there is known a device having an infrared light emitting / receiving element, and detecting either by installing it in an open / close operation unit. (See Patent Document 1)

Japanese Patent Laid-Open No. 6-044878

  However, when a display open / close detection device using an infrared light emitting / receiving element is employed, there is a problem that the switch malfunctions due to the influence of external light when the infrared light is incident.

  The present invention has been made to solve this problem, and an object of the present invention is to provide an open / close detection device with high accuracy by suppressing the influence of external light when infrared rays are incident.

  In order to achieve the above object, the present invention provides a display unit that displays an image, a support unit that can rotate the display unit, and a display unit that is connected to the display unit by the support unit and is stored when the display unit is closed. In the display open / close detection device provided with a main body for delivering video in a state where the display is opened, the display has a light emitting unit that emits infrared light provided inside the display. A light receiving unit that is provided inside the main unit and receives infrared light when the display unit is closed, and a light receiving unit that is provided inside the main unit and that emits light when the display unit is closed. A light guide unit that guides infrared light to the light receiving unit and a light receiving unit connected to the light receiving unit. When the light receiving unit receives infrared light when the display unit is closed, the display is turned off. A control unit that is disposed outside of the main body, a display-off detection device and a shielding means for shielding external light incident on the light guide portion.

  According to the present invention, it is possible to prevent erroneous detection of the light receiving unit due to external light and to increase the open / close detection accuracy of the display unit using the infrared light emitting / receiving element.

The perspective view at the time of the closed state of the display part of the display opening / closing detection apparatus in embodiment of this invention The perspective view at the time of the open state of the display part of the display opening / closing detection apparatus in embodiment of this invention The disassembled side view of the display apparatus in embodiment of this invention The figure when the AA sectional view of the same figure 1 is seen from arrow C The figure when the BB cross section of the same figure 2 is seen from arrow D The figure which shows the shape of the light guide part in the display opening / closing detection apparatus in embodiment of this invention.

  Hereinafter, a display open / close detection device according to an embodiment of the present invention will be described with reference to the drawings.

  FIG. 1 is a perspective view when the display unit of the display open / close detection device according to the embodiment is closed, and FIG. 2 is a perspective view when the display unit of the display open / close detection device according to the embodiment is open.

  In FIG. 1, the display open / close detection device includes a main body 2 fixed to the ceiling of an automobile and a display 1 fixed to the main body.

  In FIG. 1, the display unit 3 of the display unit 1 is housed, and the power supply of the display unit 3 is OFF.

  In FIG. 2, the display unit 3 of the display unit 1 is in an open state, and the power source of the display unit 1 is in an ON state.

  FIG. 3 is an exploded side view of the display device according to the embodiment of the present invention.

  The display unit 1 includes a display unit 3, a front panel 4, a display unit substrate 5, a light emitting element 6, and a rear panel 7.

  The front panel 4 is an exterior member arranged so as to cover the outer frame of the surface on which the display unit 3 is displayed. The display unit substrate 5 is connected to the display unit 3 and mounted with a light emitting element 6 that emits infrared light. The rear panel 7 is an exterior member that is disposed on the back of the display surface of the display unit 3.

  The main body 2 includes a housing 8, a main substrate 9, a light receiving element 10, a base cover 11, a light guide 12, a controller 13, and a garnish 14.

  The casing unit 8 is an exterior member fixed to the automobile ceiling. The main board 9 is disposed on the surface opposite to the surface fixed to the automobile ceiling of the housing portion 8. The light receiving element 10 is mounted on the main substrate 9 and receives infrared rays. The base cover 11 is connected to the main board 9 and is disposed so as to cover the bottom surface of the main board 9 in FIG. The light guide unit 12 is disposed between the main substrate 9 and the base cover 11, and receives infrared light from the light emitting element 6 and guides it to the light receiving element 10 that receives light. The control unit 13 is disposed on the main substrate 9 for detecting that the light receiving element 10 has received infrared rays. The garnish 14 is disposed so as to cover the side surface portion of the housing portion 8.

  The light guide unit 12 uses an acrylic resin having high transparency.

  Further, a garnish 14 that is an external light shielding means for covering the entire main body 2 and protecting the main body and making it difficult for outside light other than infrared rays to enter the hole 21 is disposed.

  The display unit 1 and the main body unit 2 are connected by a hinge unit 15 which is a support means.

FIG. 4 is a view of the AA cross-sectional view of FIG.

As shown in FIG. 4, the front panel 4 is provided with a hole 20 for allowing infrared rays to pass through in an upper side portion of a surface on which the display unit 3 is displayed. The base cover 11 has a hole 21 through which infrared rays from the light emitting element 6 pass.

  In the state where the display unit 1 is closed, the infrared light emitted from the light emitting element 6 passes through the hole 20 provided in the front panel 4 and passes through the hole 21 provided in the base cover 11 to the light guide unit 12. And reach. Infrared rays that reach the light guide unit 12 are guided to the light receiving element 10. The light receiving element 10 is connected to the control unit 13 on the main substrate 9. The control unit 13 detects that the light receiving element 10 has received infrared rays. And if the control part 13 detects that the light receiving element 10 received infrared rays, the control part 13 will instruct | indicate the power supply part (not shown) of the display part 3 so that the display part 3 may be lighted out. That is, when the display unit 1 is closed, the power source of the display unit 3 is turned off.

FIG. 5 is a view of the BB cross-sectional view of FIG.

  As shown in FIG. 5, when the display is open, the infrared rays 302 emitted from the light emitting elements 6 pass through the holes 20 provided in the front panel 4 and reach the base cover 11. Therefore, the infrared light emitted from the light emitting element 6 does not enter the hole 21 of the base cover 11 and does not reach the light receiving element 10. And since the control part 13 to which the light receiving element 10 is connected does not detect the infrared light reception by the light receiving element 10, the power supply of a display will be in an ON state.

  At this time, the opening angle of the display is 125 degrees, and the gap between the rear panel 7 and the garnish 14 is curved. Since the distance between the two is 1.5 mm, external light does not directly pass through the hole 21 and enter the light guide unit 12 as shown by 301 in FIG. Therefore, the light receiving element 10 is not easily affected by external light.

  FIG. 6 is a diagram showing the shape of the light guide unit 12 in the display open / close detection device according to the embodiment of the present invention.

  In the present embodiment, two triangular protrusions 31 and 32 are installed at locations where the infrared light emitted from the light emitting element 6 is incident on the light guide section 12, thereby being guided to the light receiving element. Two infrared paths were used. The protrusions 31 and 32 have an isosceles triangle shape, and a contact surface with the light guide unit 12 is a base. The protrusions 31 and 32 have an angle formed between the base and the apex of 50 degrees.

  As seen from FIG. 6 of the protrusions 31 and 32, infrared rays 104a and 104b are incident from the left side and refracted in the light guide portion 12 to become infrared rays 105a and 105b.

  Thereby, the incident infrared rays 105 a and 105 b reach the surface 101. The surface 101 is a surface inclined by 39.5 degrees with respect to the surface 109. When the infrared rays 105a and 105b reach the surface 101, the infrared rays 105a and 105b are reflected by the surface 101 to become infrared rays 106a and 106b. At this time, the infrared rays 106 a and 106 b follow the optical path almost parallel to the surface 107 and reach the surface 102.

The surface 102 is a surface inclined by 39.5 degrees with respect to the surface 109. When the infrared rays 106a and 106b reach the surface 102, they are reflected by the surface 102 and become infrared rays 107a and 107b.
The infrared rays 107 a and 107 b reach the surface 103.

The surface 103 is a surface inclined by 39.5 degrees with respect to the surface 110. When the infrared rays 107a and 107b reach the surface 103, they are reflected by the surface 103 to become infrared rays 108a and 108b. The infrared rays 108 a and 108 b reach the light receiving element 10.

  By providing the two protrusions 31 and 32, the infrared light emitted from the light emitting element 6 can be collected more than when only one protrusion is provided.

  Since the total reflection angle of the acrylic resin is 42.1 degrees, the surfaces 101 to 103 are set to 39.5 degrees, which is a total reflection angle of 42.1 degrees or less.

  The display open / close detection device of the present invention is particularly useful as an open / close detection device for a rotary display mounted on the ceiling of an automobile.

DESCRIPTION OF SYMBOLS 1 Display part 2 Main body part 3 Display part 4 Front panel 5 Display part board | substrate 6 Light emitting element 7 Rear panel 8 Housing | casing part 9 Main board 10 Light receiving element 11 Base cover 12 Light guide part 13 Control part 14 Garnish 15 Hinge part 20, 21 hole 31, 32 Protrusions 101, 102, 103 surfaces 104a to 108a, 104b to 108b Infrared path

Claims (3)

A display unit for displaying an image, a support unit that allows the display unit to rotate, and the support unit is connected to the display unit by the support unit, and the display unit is stored in a closed state, and the display unit is opened. In the state, in the display open / close detection device comprising a main body for distributing video,
The display unit is
A light-emitting unit that emits infrared light provided inside the display unit;
The main body is
A light receiving unit that is provided inside the main body and receives infrared rays when the display unit is in a closed state;
A light guide unit that is provided inside the main body unit, collects infrared rays emitted from the light emitting unit when the display unit is in a closed state, and guides the infrared rays to the light receiving unit;
A control unit that is connected to the light receiving unit and turns off the display when the light receiving unit receives infrared rays when the display unit is in a closed state;
A display open / close detection device comprising: a shielding unit that is disposed outside the main body unit and shields external light incident on the light guide unit.   2. The display open / close detection device according to claim 1, wherein the light guide part has two isosceles triangular protrusions to collect infrared light emitted from the light emitting part.   The display open / close detection device according to claim 1, wherein the shielding means has a gap with a back surface of the display unit in an open state, and extends downward along the back surface of the display unit.