JP2021017177A - Display device - Google Patents

Abstract

To provide a display device capable of inhibiting attachment distortion of a display panel.SOLUTION: A display device 1 according to an embodiment includes: a display unit 40 having a display screen at the front; a circuit board 50 disposed at the rear opposite to the front; a case 10 having a metal part 70 made of a metal, the case 10 disposed behind the circuit board 50; and a first screw structure 110 which screws the display unit 40, the circuit board 50, and the metal part 70 together. The display unit 40 is screwed to the metal part 70 only with the first screw structure 110.SELECTED DRAWING: Figure 3

Description

The present invention relates to a display device mounted on a vehicle such as an automobile.

The display device includes a display panel and a circuit board for controlling the display panel. The display panel and the circuit board are fixed and housed in the case. Conventionally, there is known a technique for suppressing distortion that occurs in a display panel when the display panel is attached to another member.

Japanese Unexamined Patent Publication No. 11-268557

Today, display panels tend to grow in size as the amount of information displayed increases. Along with this, the distortion generated in the display panel may also increase. Further, depending on the mounting position and mounting destination of the display panel, it may be difficult to alleviate the distortion, or the distortion may easily occur due to vibration during traveling.

The present disclosure has been made in consideration of such circumstances, and an object of the present disclosure is to provide a display device capable of suppressing mounting distortion of a display panel.

In order to solve the above-mentioned problems, the display device of the present disclosure has a display unit having a display screen in front, a circuit board arranged in the rear opposite to the front, and a metal portion made of metal. A case arranged behind the circuit board and a first screwing structure for screwing the display unit, the circuit board, and the metal portion together are provided, and the display unit is provided only with the first screwing structure. It is screwed to the metal part.

In the display device of the present disclosure, mounting distortion of the display panel can be suppressed.

The block diagram which saw the display device which is the embodiment of the display device of this disclosure from the front side. The block diagram which looked at the display device of FIG. 1 from the back side. Sectional drawing along line III-III of FIG. The perspective view which shows the resin part of a case from the back side. The perspective view which shows the metal part of a case from the back side. FIG. 2 is a cross-sectional view taken along the line VI-VI of FIG. FIG. 2 is a cross-sectional view taken along the line VII-VII of FIG. FIG. 2 is a cross-sectional view taken along the line VIII-VIII of FIG.

An embodiment of the display device of the present disclosure will be described with reference to the accompanying drawings. The display device according to the present disclosure is mounted on, for example, vehicles such as automobiles and motorcycles, ships, agricultural machines, and construction machines. In the present embodiment, as an example, the display device of the present disclosure will be described using a display device mounted in the instrument panel of the vehicle as a mounting destination.

FIG. 1 is a configuration diagram of a display device 1 according to an embodiment of the display device of the present disclosure as viewed from the front side.
FIG. 2 is a configuration diagram of the display device 1 of FIG. 1 as viewed from the rear side.
FIG. 3 is a cross-sectional view taken along the line III-III of FIG.

In the following description, "front (front)", "rear (rear)", "top", "bottom", "right", and "left" are defined as "Fr.", "Fr." in FIGS. 1 to 8. Follow "Re.", "To.", "Bo.", "R", and "L". The side where the display device 1 is visually recognized by the user is defined as "front".

The display device 1 is mounted in the instrument panel of the vehicle. The display device 1 mainly includes a case 10, a visor 20, a cover 30, a display unit 40, and a circuit board 50.

The case 10 is arranged behind the display unit 40 and the circuit board 50. The case 10 accommodates the display unit 40 and the circuit board 50 in the internal space, and protects them from external impact, dust, and the like. The case 10 has a substantially quadrangular opening 11 in front that exposes the display screen 41. The case 10 has a resin portion 60 and a metal portion 70. Details of the resin portion 60 and the metal portion 70 will be described later.

The visor 20 is made of a light-shielding synthetic resin (for example, polypropylene resin) such as black. The visor 20 is attached to the resin portion 60 of the case 10 from the front via a hook or the like, and also functions as a case in front of the display device 1. The visor 20 has a main body 21 and a visor plate 25. The main body 21 has an opening 22 having an opening surface that is inclined downward and gradually away from the display screen 41. The visor plate 25 is formed separately from the main body 21 and is arranged behind the main body 21. The visor plate 25 covers an unnecessary area inside the case 10 and divides the display screen 41 of the display unit 40 into a rectangle.

The cover 30 is made of a translucent inorganic glass or resin (for example, polymethyl methacrylate resin (PMMA)). The cover 30 covers the opening 22 of the main body 21 from the front, and protects the display unit 40 and the circuit board 50 inside the case 10 from dust and the like.

The display unit 40 (display unit) is supported by the circuit board 50 and the case 10 and arranged inside the case 10. The display unit 40 includes a display panel and a backlight unit. The display unit 40 has screw holes as a part of the screwing structures 110 and 120 described later.

The display panel is, for example, a TFT (Thin Film Transistor) type liquid crystal display panel. The display panel is, for example, a large panel of 12 inches or more. The display panel has a display screen 41 in front. The display panel has a pair of surface glass substrates that enclose the liquid crystal layer. A transparent electrode is formed on the pair of glass substrates by ITO (Indium Tin Oxide) or the like. Further, the display panel has a pair of surface polarizing plates (polarizing filters) arranged so as to sandwich the pair of surface glass substrates. The display panel is connected to the circuit board 50 via a flexible printed circuit board (FPC (Flexible Printed Circuits)) (not shown). The display panel is controlled by the control unit 51 of the circuit board 50, so that a drive voltage is applied to the liquid crystal layer via the transparent electrodes. As a result, the orientation of the liquid crystal molecules in the liquid crystal layer is controlled, and the transmittance of each pixel of the display panel changes, so that the display panel displays an image.

The backlight unit is provided behind the display panel. The backlight unit comprises a light source substrate and a light guide body, and illuminates the display panel from the rear. A plurality of LEDs (Light Emitting Diodes), which are an example of a light source, are mounted on the light source substrate. The light source substrate is connected to the circuit board 50 via a flexible substrate such as an FPC. When the drive current is supplied, the LED emits light toward the light guide body. The light guide guides the light emitted by the LED toward the display panel. The light guide is a transparent resin (for example, PMMA) formed in a flat plate shape.

The circuit board 50 is supported by the case 10 and arranged inside the case 10 behind the display unit 40. The circuit board 50 mainly has a control unit 51 for controlling the display unit 40. The circuit board 50 mounts the control unit 51 on the back surface 50b. The control unit 51 is a so-called GDC (Graphics Display Controller), which is a heating element that emits relatively high heat. The control unit 51 has a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), and the like, and executes a predetermined arithmetic process according to a program written in the ROM, for example. For example, the control unit 51 acquires vehicle speed, engine speed, various vehicle information, navigation information, and the like from the vehicle's ECU (Electronic Control Unit) via various sensors and the like. The control unit 51 causes the display unit 40 to display the information based on the acquired information.

The circuit board 50 has a plurality of connectors 52 on the back surface 50b. The connector 52 penetrates and exposes the case 10 and connects to a cable (not shown) extending from the vehicle. Further, the circuit board 50 has a nut 54 because of the screwing structure described later (FIG. 7). The nut 54 is a nut (which can be mounted on the circuit board 50) corresponding to the surface mount, and the corresponding screw is screwed. The circuit board 50 has screw holes as a part of the screwing structures 110, 120, 130, 140 described later.

Next, the details of the case 10 will be described.

FIG. 4 is a perspective view showing the resin portion 60 of the case 10 from the back surface 62b side.
FIG. 5 is a perspective view showing the metal portion 70 of the case 10 from the back surface 74b side.
FIG. 6 is a cross-sectional view taken along the line VI-VI of FIG.

The resin portion 60 has a box shape including a base surface 62 and a side wall 65 rising forward from the base surface 62, and forms a substantially outer shape of the case 10. The resin portion 60 is made of a resin such as black (for example, polypropylene resin). The base surface 62 has a back opening 63, a protruding hole 64 for a connector, and a plurality of screw holes.

The back opening 63 is a base surface 62 and is formed mainly in a region where the metal portion 70 is arranged. The protruding hole 64 for a connector has a tubular shape by exposing the terminal 53 of the connector 52 while covering the periphery of the connector 52 in the front-rear direction. The plurality of screw holes are screw holes as a part of the screwing structures 110, 130, 140, 150 described later, and screw holes for being screwed with the metal portion 70 and the screw 13.

The metal portion 70 is made of a relatively lightweight metal (for example, magnesium alloy, aluminum alloy) having excellent thermal conductivity and rigidity. The metal portion 70 is formed of one continuous member. The metal portion 70 is attached to the resin portion 60 with screws 13 from the rear so as to overlap the back surface 62b of the resin portion 60. Further, the case 10 is not formed by attaching a metal portion in which a plurality of metal members are combined to the resin portion 60, but the metal portion 70 as one component (one component, a single component) is formed. It is formed by being combined with the resin portion 60.

The metal portion 70 (heat radiating portion) has a base surface 74, a heat contact portion 75, heat radiating fins 76, a hole for protruding holes 77, an upper mounting stay 78, and a lower mounting stay 79.

The base surface 74 is a flat plate-shaped member having a substantially trapezoidal shape having an upper side 71 and a lower side 72. The upper side 71 is a side of the base surface 74 located on the upper side in the vertical (gravity) direction when the display device 1 is attached to the vehicle. The lower side 72 is a side of a base surface 74 facing the upper side 71, which is located on the lower side in the vertical direction with respect to the upper side 71 when mounted on a vehicle. The base surface 74 has a screw hole as a part of the screwing structures 110 and 130 described later, and a screw hole for being screwed to the resin portion 60 with a screw 13.

As shown in FIG. 3, the thermal contact portion 75 is a portion provided on the front surface 74a of the base surface 74 and in thermal contact with the control unit 51 of the circuit board 50. The thermal contact unit 75 contacts the control unit 51 via the heat conductive sheet 90. The heat conductive sheet 90 (heat conductive member) is provided to efficiently transfer the heat of the control unit 51 to the metal unit 70. The heat conductive sheet 90 is made of, for example, a flexible and good heat conductive silicone, acrylic, or polyolefin having excellent adhesion.

The heat radiating fin 76 dissipates heat transferred from the control unit 51. The heat radiating fin 76 is a plurality of rib-shaped members provided on the back surface 74b with the heat contact portion 75 substantially at the center. The heat radiating fin 76 extends in the vertical direction and projects rearward from the back surface 74b. In order to increase the surface area of the base surface 74, it is preferable that the heat radiation fins 76 are provided in large numbers at positions where they can be formed.

The protrusion hole 77 is formed at a position corresponding to the connector protrusion 64 of the resin portion 60. The protrusion hole 77 projects the connector protrusion 64 rearward from the back surface 74b of the metal portion 70. As a result, the protruding hole hole 77 is located between the metal portion 70 and the connector 52, and it is possible to prevent the metal portion 70 from interfering with the connector 52.

The upper mounting stay 78 and the lower mounting stay 79 are used for mounting the display device 1 in the instrument panel of the vehicle to which the display device 1 is mounted. The upper mounting stay 78 is provided on the upper side 71 of the base surface 74 at a position where at least a part of the upper side 71 and the lower side 72 overlaps the thermal contact portion 75 in the side direction (left-right direction). The two lower mounting stays 79 are provided at both ends of the lower side 72 in the left-right direction.

In the case 10 formed in this way, the metal portion 70 forms at least the upper mounting stay 78 and the heat radiation fin 76, and the resin portion 60 forms a portion other than the portion formed by the metal portion 70. Further, the resin portion 60 is arranged closer to the circuit board 50 than the metal portion 70 at the position where the case 10 comes into contact with the circuit board 50. That is, the case 10 is formed so that the metal portion 70 does not come into contact with the circuit board 50. For example, the contact portion 15 between the case 10 and the circuit board 50 in FIG. 3 overlaps the position of the metal portion 70 in the rear view, but the screw hole 66 of the resin portion 60 covers the screw hole 80 of the metal portion 70 in the front view. Is formed like this. As a result, the resin portion 60 is arranged between the metal portion 70 and the circuit board 50.

Next, the assembly structure of the display device 1 will be described in detail.

FIG. 7 is a cross-sectional view taken along the line VII-VII of FIG.
FIG. 8 is a cross-sectional view taken along the line VIII-VIII of FIG.

The display device 1 has a first screwing structure 110, a second screwing structure 120, a third screwing structure 130, a fourth screwing structure 140, and a fifth screwing structure 150.

The first screwing structure 110 screwes the display unit 40, the circuit board 50, and the case 10 (metal portion 70) together. Specifically, in the first screwing structure 110, each member arranged in the order of the metal portion 70, the resin portion 60, the circuit board 50, and the display unit 40 is screwed in order from the rear. The first screwed structure 110 is located at a substantially central position on the back surface of the display device 1 in the left-right direction, and is inside a triangle connecting one upper mounting stay 78 and two lower mounting stays 79, and is thermally generated. It is provided at only one location near the contact portion 75 (FIG. 2). The display unit 40 is screwed to the metal portion 70 only in the first screwing structure 110.

The first screwed structure 110 not only supports the display unit 40 and the like, but also indirectly supports the heat conductive sheet 90. That is, the heat conductive sheet 90 is sandwiched and supported between the control unit 51 and the metal portion 70 by the tightening force of the screws of the first screwing structure 110. As a result, the heat conductive sheet 90 is held in the heat contact portion 75 in a suitable light compression state.

The second screwing structure 120 screws the display unit 40 and the circuit board 50 together. Specifically, in the second screwing structure 120, each member arranged in the order of the circuit board 50 and the display unit 40 from the rear is screwed in order from the rear. The second screwing structure 120 is provided at four locations on the substantially diagonal line of the display unit 40 and the circuit board 50 so as to surround the first screwing structure 110.

The third screwing structure 130 is provided between the first screwing structure 110 and the second screwing structure 120, and screws the circuit board 50 and the case 10 together. Specifically, in the third screwing structure 130, each member arranged in the order of the metal portion 70, the resin portion 60, and the circuit board 50 from the rear is screwed in order from the rear. In the third screwing structure 130, the lines connecting the upper mounting stay 78 and each lower mounting stay 79 are symmetrically arranged vertically or horizontally, and the first screwing structure 110 is connected to the second screwing structure 120. It is provided at four locations on the substantially diagonal line of the circuit board 50 so as to surround the inside. By providing the third screwing structure 130 avoiding the line connecting the upper mounting stay 78 and the lower mounting stay 79, it is possible to (indirectly) transmit the vibration of the vehicle easily transmitted from the mounting stays 78 and 79 to the display unit 40. It can be suppressed, and the distortion of the display unit 40 can be suppressed.

The fourth screwing structure 140 is outside the second screwing structure 120, and both the circuit board 50 and the case 10 are screwed together. Specifically, in the fourth screwing structure 140, each member arranged in the order of the resin portion 60 and the circuit board 50 is screwed in order from the rear. The fourth screwed structure 140 is provided at four positions on the substantially diagonal line of the circuit board 50 so as to be surrounded by the outer side (outer edge side of the display device 1) of the second screwed structure 120. At this time, by screwing the visor 20 together, the rattling between the visor 20 and the cover 30 can be reduced.

In the fifth screwing structure 150, the case 10 and the visor 20 are screwed on the outermost peripheral side of the screwing structure (display device 1). The fifth screwing structure 150 may be omitted as long as the visor 20 is firmly fixed by the fourth screwing structure 140.

The display device 1 having such screwed structures 110, 120, 130, 140, 150 can suppress mounting distortion even when the display panel of the display unit 40 is enlarged.

That is, the display device 1 has a metal portion 70 in the case 10 in order to dissipate heat generated by the control unit 51, which increases as the display panel becomes larger. Since the metal portion 70 is preferably provided in a wide area from the viewpoint of heat dissipation, it is difficult to avoid a structure in which the display unit 40 and the metal portion 70 are screwed together. For example, when the display unit 40 is screwed to the rigid metal portion 70 at a plurality of locations, the display unit 40, which is softer than the metal portion 70, may be distorted. Further, in the screwed structure with the metal portion 70, it is difficult to alleviate this mounting distortion, and as a result, there is a possibility that display abnormalities such as whitening may occur on the display panel.

On the other hand, the display device 1 attaches the display unit 40 and the metal portion 70 only at one place of the first screwing structure 110 to which the display unit 40, the circuit board 50, and the case 10 (metal portion 70) are screwed together. Screw it down. The display unit 40 is screwed to another member made of a material softer than the metal portion 70 by another screwing structure, so that the other member functions as a buffer to alleviate mounting distortion.

Further, the display device 1 has, in particular, a first screwing structure 110 that firmly fixes the display unit 40 at a substantially central position in the left-right direction, so that, for example, the first screwing structure 110 is located on the outer peripheral side of the display unit 40. Compared with the case of having, the influence of dimensional error and mounting error can be reduced, and mounting accuracy can be improved. Therefore, the display device 1 can suppress the mounting distortion of the display panel, which may occur due to the provision of the metal portion 70.

Further, the display device 1 has a second screwing structure 120 for screwing the display unit 40 and the circuit board 50 as another screwing structure. Further, the display device 1 has a third screwing structure 130 for screwing the circuit board 50, the resin portion 60, and the metal portion 70. As a result, the display unit 40 is firmly fixed to the metal portion 70 in the first screwed structure 110, and is fixed to the circuit board 50 and the second screwed structure 120, which are softer than the metal portion 70 and perform a cushioning function. Further, when the display unit 40 is enlarged, there is a possibility that distortion due to vibration during traveling may occur only by fixing in the first screwing structure 110 and the second screwing structure 120. On the other hand, in the display device 1, the display unit 40 is indirectly connected via the circuit board 50 by providing the third screwing structure 130 between the first screwing structure 110 and the second screwing structure 120. It was fixed to the case 10. As a result, the display device 1 can suppress the vibration of the display unit 40 between the first screwed structure 110 and the second screwed structure 120.

Further, as another screwing structure, the display device 1 has a fourth screwing structure 140 for screwing the circuit board 50 and the resin portion 60 together on the outside of the second screwing structure 120. The display unit 40 can further fix the circuit board 50 to the case 10, and can reduce the distortion of the circuit board 50. As a result, the distortion of the display unit 40 indirectly fixed via the circuit board 50 can be reduced, and the display abnormality of the display panel can be suppressed.

Further, from the viewpoint of heat dissipation, it is preferable that the heat conductive sheet 90 is sandwiched and fixed in an appropriate light compression state between the control unit 51 and the metal unit 70. The display device 1 in the present embodiment can also fix the display unit 40 and the heat conductive sheet 90 by the first screwing structure 110. That is, since the first screwed structure 110 is fixed so as to sandwich the circuit board 50 between the metal portion 70 and the display unit 40, the circuit board 50 (control unit 51) and the thermal contact portion 75 are brought into close contact with each other. Can be done. Therefore, the display device 1 can also improve the heat dissipation efficiency.

Further, in the display device 1, in the first screwed structure 110 and the third screwed structure 130, the resin portion 60 is arranged between the circuit board 50 and the metal portion 70. As a result, the display device 1 can prevent the contact surface from being scraped, scratched, or dusted due to contact between the circuit board 50 and the metal portion 70 due to vibration or the like. Further, since the display device 1 makes the circuit board 50 and the metal portion 70 non-contact, unnecessary conduction between the circuit board 50 and the metal portion 70 can be suppressed.

Although some embodiments of the present invention have been described, these embodiments are presented as examples and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other embodiments, and various omissions, replacements, and changes can be made without departing from the gist of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are also included in the scope of the invention described in the claims and the equivalent scope thereof.

For example, the shapes and regions of the metal portion 70 and the resin portion 60 in the case 10 are examples, and for example, all of the case 10 may be the metal portion 70.

The display device 1 may have an inner case for guiding light or the like between the circuit board 50 and the display unit 40. In this case, the nut 54 of the circuit board 50 may be omitted, and a boss may be provided in the inner case.

1 Display device 10 Case 11 Opening 13 Screw 15 Contact point 20 Visor 21 Main body 22 Opening 25 Visor plate 30 Cover 40 Display unit (display unit)
41 Display screen 50 Circuit board 50b Back 51 Control unit (heating element)
52 Connector 53 Terminal 54 Nut 60 Resin part 62 Base surface 62b Back side 63 Back side opening 64 Connector protrusion hole 65 Side wall 66, 80 Screw hole 70 Metal part (heat dissipation part)
71 Upper side 72 Lower side 74 Base surface 74a Front surface 74b Back surface 75 Thermal contact part 76 Heat dissipation fin 77 Protrusion hole hole 78 Upper mounting stay 79 Lower mounting stay 90 Heat conductive sheet (heat conductive member)
110 1st screwing structure 120 2nd screwing structure 130 3rd screwing structure 140 4th screwing structure 150 5th screwing structure

Claims (6)

A display unit with a display screen in front,
A circuit board arranged at the rear opposite to the front,
A case having a metal part made of metal and arranged behind the circuit board,
A plurality of screwing structures including a first screwing structure for screwing the display unit, the circuit board, and the metal portion together are provided.
A display device in which the display unit is screwed to the metal portion only in the first screwing structure. A second screwing structure for screwing both the display unit and the circuit board,
The display device according to claim 1, further comprising a third screwing structure provided between the first screwing structure and the second screwing structure and screwing the circuit board and the case together. .. The display device according to claim 2, further comprising a fourth screwing structure for screwing both the circuit board and the case outside the second screwing structure. The display device according to claim 3, wherein the case has a resin portion made of resin at a portion screwed by the fourth screwing structure. Further provided with a heat conductive member that transfers heat to the metal part,
The circuit board has a heating element that emits heat on the rear surface.
The display device according to claim 1, wherein the heat conductive member is sandwiched and supported between the heating element and the metal portion by the tightening force of a screw having a first screwing structure. A display unit with a display screen in front,
A circuit board arranged behind the front and having a heating element that generates heat on the rear surface,
A case having a heat radiating portion made of metal that dissipates the heat transmitted from the heating element and being arranged behind the heating element.
A heat conductive member arranged between the heating element and the heat radiating portion to transfer the heat of the heating element to the heat radiating portion.
By screwing the display unit, the circuit board, and the heat radiating portion together, a screwing structure for sandwiching and supporting the heat conductive member between the heating element and the heat radiating portion by the tightening force of the screw. Prepare,
The display device is a display device that is screwed to the heat radiating unit only in the screwed structure.

Images