JP7298558B2 - Display device - Google Patents

Description

The present disclosure relates to a display device mounted on a vehicle.

Patent Literature 1 describes a vehicle-mounted liquid crystal display device.

JP 2019-184643 A

2. Description of the Related Art In-vehicle display devices installed in vehicles may be damaged due to the temperature of the in-vehicle display devices becoming high due to external light entering the interior of the vehicle from the outside of the vehicle.
An object of the present disclosure is to suppress damage to a display device.

One aspect of the present disclosure is a display device (1, 101) mounted on a vehicle, comprising at least one display section (22, 122a, 122b, 122c), a reflector (3), and at least one shield. a heating section (26, 126a, 126b, 126c).

At least one display unit has a display screen on which display light representing an image to be displayed is illuminated under an eaves-like member (MF) that is installed in the vehicle interior and protrudes from the front to the rear of the vehicle. It is installed so as to face downward, and is configured to irradiate display light from the display screen.

The reflecting section is configured to reflect display light emitted from at least one display section.
At least one heat shield is provided between the eaves-like member and the at least one display, and is configured to suppress transmission of heat emitted from the eaves-like member to the at least one display. be.

In the display device of the present disclosure configured as described above, display light emitted from at least one display unit is reflected by the reflection unit and emitted into the vehicle interior. As a result, a virtual image is projected onto the reflecting portion, and the occupant in the vehicle can visually recognize this virtual image. Further, the display device of the present disclosure includes at least one heat shield portion between the eaves-like member and at least one display portion. Thus, in the display device of the present disclosure, the heat generated in the eaves-like member when the eaves-like member is irradiated with external light entering the vehicle interior from the outside of the vehicle is transmitted to at least one display unit. can be suppressed. Therefore, the display device of the present disclosure can prevent the display device from becoming hot, and can prevent damage to the display device.

It is a sectional view showing arrangement of a display of a 1st embodiment in a vehicle interior. It is a perspective view which shows arrangement|positioning of a meter hood and a reflecting mirror. It is a sectional view of the irradiation part of a 1st embodiment. It is an exploded perspective view of an irradiation part of a 1st embodiment. It is a sectional view showing arrangement of a display of a 2nd embodiment in a vehicle interior. It is an exploded perspective view of the irradiation part of 2nd Embodiment. It is a sectional view of the irradiation part of a 2nd embodiment. FIG. 4 is a cross-sectional view of a portion where two organic EL displays overlap each other;

[First embodiment]
A first embodiment of the present disclosure will be described below with reference to the drawings.
A display device 1 of the present embodiment is mounted, for example, in an automatically operated vehicle capable of both automatic operation and manual operation, and includes an irradiation unit 2, a reflector 3, and a heat sink 4, as shown in FIG. .

The irradiation unit 2 irradiates display light DL representing an image to be displayed from the display screen. The irradiation unit 2 is attached to the lower surface LS of the meter hood MF which is installed below the windshield WS of the vehicle and is formed to protrude toward the rear of the vehicle so that the display screen faces downward. The irradiation unit 2 is formed in a rectangular plate shape. Of the upper surface and the lower surface of the irradiation unit 2 formed in a rectangular plate shape, the lower surface on which the display screen is formed is hereinafter also referred to as the display surface.

The reflecting mirror 3 is installed below the irradiation unit 2 and reflects the display light DL emitted from the display screen of the irradiation unit 2 toward the rear of the vehicle. Accordingly, the vehicle occupant can visually recognize the image displayed by the display device 1 . A dashed rectangle VI indicates the position of the virtual image viewed by the vehicle occupant.

The heat sink 4 is installed so as to contact the irradiation section 2 on the side opposite to the driver's seat with the reflecting mirror 3 interposed therebetween, and releases heat generated in the irradiation section 2 .
As shown in FIG. 2, the meter hood MF is attached so as to bridge between the left A-pillar PL1 of the vehicle and the right A-pillar PL2 of the vehicle.

The reflector 3 includes a thin glass plate 11 having a thickness of 0.3 mm to 0.5 mm, and a mirror coat layer 12 formed on the surface of the glass plate 11, as shown in FIG. As shown in FIG. 2, the reflecting mirror 3 extends along the width direction D1 of the vehicle under the meter hood MF so as to span between the A pillars PL1 and PL2. 1 is a cross-sectional view taken along line II in FIG.

As shown in FIGS. 3 and 4, the irradiation section 2 includes a surface glass plate 21, an organic EL display 22, an adhesive layer 23, a heat dissipation section 24, an adhesive layer 25, a heat shield plate 26, and an adhesive layer 27 arranged in the stacking direction SD. It is formed by sequentially laminating along the .

The organic EL display 22 is formed in a rectangular plate shape by arranging a plurality of organic EL elements in a matrix.
The surface glass plate 21 is made of colorless and transparent glass, and is formed in a rectangular plate shape that substantially matches the shape of the outer periphery of the display surface of the organic EL display 22 .

The adhesive layer 23 is used to attach the organic EL display 22 to the heat dissipation portion 24 . The adhesive layer 23 is a heat conductive optically transparent adhesive (hereinafter referred to as OCA), and is a member formed into a rectangular film that substantially matches the shape of the outer circumference of the display surface of the organic EL display 22 . OCA is an abbreviation for Optical Clear Adhesive. The thermal conductivity of OCA is obtained by dispersing metal fillers in OCA.

The heat radiation part 24 is formed by vertically bending a rectangular plate-like member made of a metal (for example, copper) having a high thermal conductivity so as to have a first mounting part 24a and a second mounting part 24b. formed.

The first attachment portion 24 a is formed in a rectangular plate shape that substantially matches the shape of the outer circumference of the display surface of the organic EL display 22 . The first mounting portion 24a is arranged such that its surface is perpendicular to the stacking direction SD. The organic EL display 22 is attached via the adhesive layer 23 to the surface of the first attachment portion 24a.

The second mounting portion 24b is formed in a rectangular plate shape whose long sides match the long sides of the first mounting portion 24a. The second attachment portion 24b is arranged such that its surface is parallel to the stacking direction SD. The heat sink 4 is attached to the surface of the second attachment portion 24b.

The adhesive layer 25 is used to attach the heat radiating portion 24 to the heat shield plate 26 . The adhesive layer 25 is an OCA having a heat shielding property, and is a member formed in a rectangular film shape that substantially matches the shape of the outer periphery of the display surface of the organic EL display 22 . The heat shielding property of OCA is obtained, for example, by incorporating a component that reflects infrared rays into OCA.

The heat shield plate 26 is made of metal (for example, stainless steel), and is formed in a rectangular plate shape that substantially matches the shape of the outer circumference of the display surface of the organic EL display 22 so as to have a hollow inside.
The heat shield plate 26 is formed to have a vacuum closed space 33 between a lower metal thin plate 31 in contact with the adhesive layer 25 and an upper metal thin plate 32 in contact with the adhesive layer 27 .

The adhesive layer 27 is used to attach the heat shield plate 26 to the meter hood MF. The adhesive layer 27 is a member made of heat-conductive OCA and formed into a rectangular film shape that substantially matches the shape of the outer circumference of the display surface of the organic EL display 22 .

The display device 1 configured as described above is mounted on a vehicle and includes an organic EL display 22 , a reflector 3 , and a heat shield plate 26 .
The organic EL display 22 is installed in the passenger compartment of the vehicle, and the display screen illuminated with the display light DL representing the image to be displayed faces downward under the meter hood MF projecting from the front to the rear of the vehicle. It is installed in such a manner that the display light DL is emitted from the display screen.

Reflector 3 reflects display light DL emitted from organic EL display 22 .
The heat shield plate 26 is installed between the meter hood MF and the organic EL display 22 to prevent the heat emitted from the meter hood MF from being transferred to the organic EL display 22 . The heat shield plate 26 includes an upper metal thin plate 32 arranged on the meter hood MF side and formed of metal, a lower metal thin plate 31 arranged on the organic EL display 22 side and formed of metal, and an upper metal thin plate 32. and a lower metal sheet 31 and a closed space 33 that is vacuum-sealed. The closed space 33 arranged between the meter hood MF and the organic EL display 22 is in a vacuum, and there are very few gas molecules that transmit heat in the closed space 33 . Therefore, the heat shield plate 26 can suppress heat conduction between the meter hood MF and the organic EL display 22 .

In this way, the display device 1 reflects the display light DL emitted from the organic EL display 22 by the reflecting mirror 3 and irradiates it into the vehicle interior. As a result, a virtual image VI is projected onto the reflecting mirror 3, and the occupants in the vehicle can visually recognize this virtual image VI. The display device 1 has a heat shield plate 26 between the meter hood MF and the organic EL display 22 . As a result, the display device 1 suppresses the heat generated in the meter hood MF from being transmitted to the organic EL display 22 when the meter hood MF is irradiated with external light entering the vehicle interior from the outside of the vehicle. be able to. Therefore, the display device 1 can prevent the display device 1 from becoming hot, and can prevent damage to the display device 1 .

The display device 1 also includes a heat radiating section 24 that is disposed between the heat shield plate 26 and the organic EL display 22 and made of a material that conducts heat emitted from the organic EL display 22 . Thereby, the heat generated in the organic EL display 22 can be released to the outside of the display device 1 through the heat radiation portion 24 . Therefore, the display device 1 can prevent the display device 1 from becoming hot, and can further prevent damage to the display device 1 .

In the embodiment described above, the organic EL display 22 corresponds to the display section, the reflecting mirror 3 corresponds to the reflecting section, the heat shield plate 26 corresponds to the heat shield section, and the meter hood MF corresponds to the eaves-like member. .

The upper thin metal plate 32 corresponds to the upper metal member, the lower thin metal plate 31 corresponds to the lower metal member, the sealed space 33 corresponds to the sealed space, and the heat radiating section 24 corresponds to the heat conducting section.
[Second embodiment]
A second embodiment of the present disclosure will be described below with reference to the drawings. In addition, in the second embodiment, portions different from the first embodiment will be described. The same code|symbol is attached|subjected about a common structure.

A display device 101 of the second embodiment differs from the display device 1 of the first embodiment in that, as shown in FIG.

The irradiation unit 102 irradiates display light DL representing an image to be displayed from the display screen. The irradiation unit 102 is attached to the lower surface LS of the meter hood MF, which is installed below the windshield WS of the vehicle and is formed to protrude toward the rear of the vehicle, with the display screen facing downward.

The reflecting mirror 3 is installed below the irradiation unit 102 and reflects the display light DL emitted from the display screen of the irradiation unit 102 toward the rear of the vehicle.
The heat sink 104 is installed so as to contact the irradiation unit 102 on the opposite side of the driver's seat with the reflecting mirror 3 interposed therebetween, and releases heat generated in the irradiation unit 102 .

As shown in FIGS. 6 and 7, the irradiation section 2 includes a surface glass plate 121, an adhesive layer 128, an organic EL display group 122, an adhesive layer 123, a heat radiating section 124, an adhesive layer 125, a heat shield group 126, and an adhesive layer. 127 are formed by sequentially stacking them along the stacking direction SD.

The organic EL display group 122 includes organic EL displays 122a, 122b, and 122c. The organic EL displays 122a, 122b, and 122c are formed in a rectangular plate shape by arranging a plurality of organic EL elements in a matrix.

The organic EL display 122a, the organic EL display 122b, and the organic EL display 122c are arranged along the width direction D1 of the vehicle from the left A-pillar PL1 toward the right A-pillar PL2 in order from the left A-pillar PL1. be done.

The organic EL display 122b is installed so that its left edge covers the right edge of the organic EL display 122a. The organic EL display 122c is installed so that its left edge covers the right edge of the organic EL display 122b.

The surface glass plate 121 is made of colorless and transparent glass, and is formed in a rectangular plate shape that substantially matches the shape of the outer circumference of the display surface of the organic EL display group 122 .
On the surface 121a of the surface glass plate 121 on the side facing the organic EL display group 122 (hereinafter referred to as the back surface 121a), the outer peripheral edge of the back surface 121a and the portion facing the place where the organic EL display 122a and the organic EL display 122b overlap A black light-shielding pattern 141 is formed by printing so as to cover the overlapping portion of the organic EL display 122b and the organic EL display 122c.

The adhesive layer 123 includes adhesive layers 123a, 123b, and 123c. The adhesive layers 123a, 123b, and 123c are used to attach the organic EL displays 122a, 122b, and 122c to the radiator 124, respectively. The adhesive layers 123a, 123b, and 123c are OCA having thermal conductivity, and are members formed in a rectangular film shape substantially matching the shape of the perimeter of the display surface of the organic EL displays 122a, 122b, and 122c.

The heat radiating portion 124 is formed by vertically bending a rectangular plate-shaped member made of a metal (e.g., copper) with high thermal conductivity so as to include a first mounting portion 124a and a second mounting portion 124b. formed.

The first attachment portion 124 a is formed in a rectangular plate shape that substantially matches the shape of the outer periphery of the display surface of the organic EL display group 122 . The first mounting portion 124a is arranged such that its surface is perpendicular to the stacking direction SD. The organic EL display group 122 is attached to the surface of the first attachment portion 124a via the adhesive layer 123. As shown in FIG.

The second mounting portion 124b is formed in a rectangular plate shape whose long sides match the long sides of the first mounting portion 124a. The second mounting portion 124b is arranged such that its surface is parallel to the stacking direction SD. A heat sink 104 is attached to the surface of the second attachment portion 124b.

The adhesive layer 125 is used to attach the heat radiating section 124 to the heat shield plate group 126 . The adhesive layer 125 is an OCA having a heat shielding property, and is a member formed in a rectangular film shape substantially matching the shape of the periphery of the display surface of the organic EL display group 122 .

The heat shield plate group 126 includes heat shield plates 126a, 126b, and 126c. The heat shields 126a, 126b, and 126c are made of metal (for example, stainless steel), similarly to the heat shield 26, and are hollow inside so as to cover the outer peripheries of the display surfaces of the organic EL displays 122a, 122b, and 122c. It is formed in a rectangular plate shape that substantially matches the shape.

The heat shields 126 a , 126 b , 126 c , like the heat shield 26 , create a vacuum between the lower metal sheet 131 in contact with the adhesive layer 125 and the upper metal sheet 132 in contact with the adhesive layer 127 . It is formed to have a closed space 133 .

The adhesive layer 127 is used to attach the heat shield plate group 126 to the meter hood MF. The adhesive layer 127 is an OCA having heat conductivity, and is a member formed in a rectangular film shape that substantially matches the shape of the outer periphery of the display surface of the organic EL display group 122 .

The adhesive layer 128 is used to attach the surface glass plate 121 to the display surface of the organic EL display group 122 . The adhesive layer 128 is a colorless and transparent OCA, and is a member formed into a rectangular film that substantially matches the shape of the periphery of the display surface of the organic EL display group 122 .

The display device 101 configured as described above is mounted on a vehicle and includes organic EL displays 122a, 122b, and 122c, a reflector 3, and heat shields 126a, 126b, and 126c.

The organic EL displays 122a, 122b, and 122c are display screens illuminated with display light DL representing an image to be displayed under a meter hood MF that is installed in the vehicle interior and protrudes from the front to the rear of the vehicle. is installed so as to face downward, and the display light DL is emitted from the display screen.

Reflector 3 reflects display light DL emitted from organic EL displays 122a, 122b, and 122c.
The heat shield plates 126a, 126b, 126c are installed between the meter hood MF and the organic EL displays 122a, 122b, 122, respectively, so that the heat emitted from the meter hood MF is transferred to the organic EL displays 122a, 122b, 122. suppress The organic EL displays 122a, 122b, and 122 include an upper metal thin plate 132 which is arranged on the meter hood MF side and formed of metal, a lower metal thin plate 131 which is arranged on the organic EL display 22 side and is formed of metal, A closed space 133 is arranged between the upper metal sheet 32 and the lower metal sheet 31 and sealed with vacuum.

In this manner, the display device 101 reflects the display light DL emitted from the organic EL displays 122a, 122b, and 122c by the reflecting mirror 3 and irradiates it into the vehicle interior. As a result, a virtual image VI is projected onto the reflecting mirror 3, and the occupants in the vehicle can visually recognize this virtual image VI. The display device 101 includes heat shield plates 126a, 126b and 126c between the meter hood MF and the organic EL displays 122a, 122b and 122c. As a result, the display device 101 transmits heat generated in the meter hood MF to the organic EL displays 122a, 122b, and 122c by irradiating the meter hood MF with external light entering the vehicle interior from the outside of the vehicle. can be suppressed. Therefore, the display device 101 can prevent the display device 101 from becoming hot, and can prevent the display device 101 from being damaged.

The heat shields 126a, 126b, 126c are installed between the meter hood MF and the organic EL displays 122a, 122b, 122c so as to face the organic EL displays 122a, 122b, 122c, respectively. As a result, the display device 101 prepares the same number of heat shields as the organic EL displays, and installs the heat shields so as to face each organic EL display. It is possible to easily cope with the increase and decrease of

The display device 101 also includes a transparent front glass plate 121 and an adhesive layer 128 . The surface glass plate 121 is arranged below the organic EL displays 122a, 122b, 122c so as to cover the display screens of the organic EL displays 122a, 122b, 122c. The adhesive layer 128 is arranged between the surface glass plate 121 and the organic EL displays 122a, 122b, 122c to bond the surface glass plate 121 to the organic EL displays 122a, 122b, 122c.

As a result, for example, as shown in FIG. 8, even if a step is formed on the display surface of the organic EL displays 122b and 122c by arranging the ends of the organic EL displays 122b and 122c so as to overlap each other, By covering the display surfaces of the organic EL displays 122b and 122c with the adhesive layer 128, the surface 128a of the adhesive layer 128 that is not in contact with the organic EL displays 122b and 122c can be flattened. Therefore, in the display device 101, the adhesive layer 128 can absorb steps formed by arranging the organic EL displays 122a, 122b, and 122c so that the display screens of the organic EL displays 122a, 122b, and 122c can be reduced. Installation of the covering surface glass plate 121 can be facilitated.

In the embodiments described above, the organic EL displays 122a, 122b, 122c correspond to the display section, and the heat shielding plates 126a, 126b, 126c correspond to the heat shielding section.
The upper thin metal plate 132 corresponds to the upper metal member, the lower thin metal plate 131 corresponds to the lower metal member, the closed space 133 corresponds to the closed space, and the heat radiation portion 124 corresponds to the heat conduction portion.

Further, the surface glass plate 121 corresponds to a plate member, and the adhesive layer 128 corresponds to an adhesive layer.
An embodiment of the present disclosure has been described above, but the present disclosure is not limited to the above embodiment, and can be implemented in various modifications.

[Modification 1]
For example, in the above embodiment, the sealed spaces 33 and 133 are evacuated. However, the closed spaces 33 and 133 may be closed spaces whose pressure is reduced from the atmospheric pressure.

[Modification 2]
In the above embodiment, the heat shields 126a, 126b, 126c are arranged to face the organic EL displays 122a, 122b, 122c, respectively. However, one heat shield plate may be installed facing all of the organic EL displays 122a, 122b, and 122c.
[Modification 3]
In the above embodiment, the irradiation unit 2 has the organic EL display 22, but it may have a liquid crystal display instead of the organic EL display.

A plurality of functions possessed by one component in the above embodiment may be implemented by a plurality of components, or a function possessed by one component may be implemented by a plurality of components. Also, a plurality of functions possessed by a plurality of components may be realized by a single component, or a function realized by a plurality of components may be realized by a single component. Also, part of the configuration of the above embodiment may be omitted. Also, at least part of the configuration of the above embodiment may be added or replaced with respect to the configuration of the other above embodiment.

REFERENCE SIGNS LIST 1, 101: display device 3: reflector 22, 122a, 122b, 122c: organic EL display 26, 126a, 126b, 126c: heat shield

Claims (4)

A display device (1, 101) mounted on a vehicle,
A display screen, which is illuminated with display light representing an image to be displayed, faces downward under an eaves-like member (MF) that is installed in the vehicle interior and protrudes from the front to the rear of the vehicle. at least one display unit (22, 122a, 122b, 122c) installed in the display screen and configured to irradiate the display light from the display screen;
a reflector (3) configured to reflect the display light emitted from the at least one display;
At least one device installed between the eaves-like member and the at least one display unit configured to suppress transmission of heat emitted from the eaves-like member to the at least one display unit A heat shield (26, 126a, 126b, 126c) and
The at least one heat shield (26, 126a, 126b, 126c)
an upper metal member (32, 132) arranged on the side of the eaves-shaped member and made of metal;
a lower metal member (31, 131) arranged on the side of the at least one display section and made of metal;
a sealed space (33, 133) disposed between the upper metal member and the lower metal member and sealed under vacuum or reduced pressure;
with
A display device in which the at least one heat shield part and the at least one display part are adhered via an adhesive layer (25) . The display device according to claim 1 ,
a heat conducting portion (24, 124) disposed between the at least one heat shielding portion and the at least one display portion and formed of a material that conducts heat emitted from the at least one display portion; Display device provided. The display device according to claim 1 or claim 2 ,
The at least one display unit is a plurality of display units (122a, 122b, 122c),
The at least one heat shielding part is a plurality of heat shielding parts (126a, 126b, 126c) in the same number as the plurality of display parts,
A display device in which each of the plurality of heat shielding sections is arranged between the eaves-like member and the plurality of display sections so as to face each of the plurality of display sections. The display device according to any one of claims 1 to 3 ,
The at least one display unit is a plurality of display units (122a, 122b, 122c),
each of the plurality of display units is an organic EL display;
a transparent plate-like member (121) disposed below the plurality of display units so as to cover the display screens of the plurality of display units;
and an adhesive layer (128) arranged between the plate-like member and the plurality of display portions to adhere the plate-like member to the plurality of display portions.

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