JP3803488B2 - Support device for display device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a support device for a display device that opens and closes a thin display device such as a car navigation system or a vehicle-mounted television device between a storage state and a visible state.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in vehicles such as automobiles, in-vehicle television apparatuses, navigation systems, and the like using thin display devices such as liquid crystal display devices have been used. This thin display device is known to have a structure in which a display surface is fixed to a center cluster or the like toward the occupant side, and a structure that is supported from a center console using a flexible arm or the like.
[0003]
However, in the configuration in which the display surface of the display device is fixed to the center cluster, the display device is generally provided at a low position that does not interfere with the field of view, and is formed in rounded corners so as not to cause corners. The display surface is disposed at a position relatively lower than the line of sight during driving, and the amount of movement of the user's line of sight increases.
[0004]
Further, in the support structure using the flexible arm, there is a possibility of deterioration or damage due to direct sunlight or heat if the display surface (screen display unit) is held in the vehicle. And a cumbersome work of attaching and detaching the display device. Moreover, although the structure which covers a display apparatus with covers, such as cloth, can be considered, such a cover is also troublesome to attach and detach, and has the problem of taking the trouble of storing the removed cover appropriately.
[0005]
In this regard, for example, as disclosed in Japanese Patent Laid-Open No. 6-16093, a configuration in which a thin display device is stored in a center cluster in a horizontal state and is used by being pulled out and rotated toward the occupant side as necessary. It has been. However, in this configuration, the display surface of the display device is provided at a low position and is located further on the occupant side than the surface facing the occupant of the center cluster. The burden on the driver who watches is large, and the display device has a problem that it may block the air-conditioning outlet and the operation unit of the air-conditioner.
[0006]
Also, as disclosed in JP-A-8-9277, a display device is stored in the center of the upper surface of the instrument panel located above the center cluster, and is used by moving or standing up as needed. It has been known. In this configuration, in the storage state, the display device is stored substantially horizontally in the recess provided along the upper surface of the instrument panel with the front display surface facing downward, and on the back side. That is, the upper side is covered with a lid. In this display device, the first fulcrum located at the upper end portion in the standing state, that is, the occupant side portion (hereinafter referred to as the rear side portion) in the retracted state is pivotally supported by the lid, and the lower end portion in the standing state, that is, the retracted state The second fulcrum located on the side opposite to the passenger (hereinafter referred to as the front side) is pivotally supported by a linear guide provided in the recess so as to be slidable and rotatable. Further, the lid body is rotatably supported on the upper surface of the instrument panel with the front side portion as a fulcrum, and is driven by a motor. Therefore, when the motor is driven to open the lid, that is, when the rear side portion is rotated upward, the display device has the first fulcrum lifted upward by the lid, and the second fulcrum is along the guide. By moving to the rear side, the whole stands up, and the display surface faces the rear side, that is, the passenger side. On the other hand, when the motor is driven to close the lid, that is, when the rear side portion is rotated downward, the display device has the first fulcrum pushed downward by the lid, and the second fulcrum is guided by this force. , The entire body collapses, the display surface faces the lower side, and is stored in the recess. Further, in this configuration, the second fulcrum that is pushed downward is slid forward along the guide in order to enable the storage operation of the display device that is pushed and moved by the lid. As described above, even when the display device is maximally raised, the display surface of the display device has a depression angle, that is, a state in which the display device is inclined downward.
[0007]
[Problems to be solved by the invention]
However, in the configuration described in Japanese Patent Laid-Open No. 8-9277, the second fulcrum that is pushed downward is made to enable the storage operation of the display device that is pushed and moved by the lid. Even when the display device is maximally raised so that it slides forward along the guide, the display surface of the display device forms a depression angle, that is, it is inclined downward, and the top surface of the instrument panel There is a problem that it is difficult to improve visibility for a driver having a viewpoint at a higher position.
[0008]
The present invention has been made in view of the above points, and provides a display device support device that supports a display device so that the display device can be opened and closed, can easily improve visibility during deployment, and can effectively use space. For the purpose.
[0009]
[Means for Solving the Problems]
The display device support device according to claim 1, wherein the display device having the display unit is stored in a storage space provided along a surface of the installation surface unit with the display unit facing the back surface side of the installation surface unit. A support device for a display device that is expanded from the installation surface portion to the surface side of the installation surface portion, and is movably supported between the display portion and a deployment position where the display portion can be viewed toward the occupant side, A first support shaft that is substantially parallel to the surface of the vehicle and orthogonal to the direction of the occupant and the anti-occupant as an axial direction, and rotatably supports the display device; and the first support shaft, Parallel and a position on the back side of the installation surface portion from the first support shaft in the deployed position of the display device In the display device A second support shaft that rotatably supports the display device, a support portion that supports the first support shaft that supports the display device movably along a substantially front-back direction of the installation surface portion, and the second support shaft. A guide portion that guides the support shaft along a line substantially along the direction of the occupant and the anti-occupant and the surface of the installation surface portion, and the line of the guide portion is an axis of the second support shaft. The angle on the anti-occupant side on the surface side where the tangent line of the trajectory intersects with the line segment connecting the first support shaft and the second support shaft is 100 degrees in the half portion on the occupant side of the trajectory. The curve is set to be 135 degrees or less.
[0010]
In this configuration, when the support unit is moved to the surface side while the display device is in the retracted position, the first support shaft is pulled up by the support unit, and the second support shaft extends along the guide unit. Then, the vehicle moves from the non-occupant side to the occupant side, and reaches the deployed position, that is, the visible position. Further, when the support unit is moved to the back side in a state where the display device is in the unfolded position, the first support shaft is pushed down by the support unit, and the second support shaft is slidably contacted with the guide unit. It moves from the occupant side to the non-occupant side along the section and reaches the storage position. And the guide part which guides the second spindle is arranged on the surface side where the tangent of the locus of the axis of the second spindle and the line connecting the first spindle and the second spindle intersect. Since the angle on the occupant side is set to a curve of 100 degrees or more and 135 degrees or less in the occupant side portion of the trajectory, the display space of the display device at the storage position is set substantially parallel to the surface of the installation surface portion, so that the storage space is reduced. The display device that moves thinly and moves from the storage position to the deployment position is greatly rotated, so that the angle of the installation surface is increased so that the visibility toward the occupant can be easily improved and deployed. When moving from the position to the storage position, the second support shaft smoothly contacts the guide portion, and the storage operation becomes smooth. That is, when the above angle is smaller than 100 degrees, the component force toward the storing direction of the force that pushes down the first support shaft is small, and the storing operation is not smooth. On the other hand, if the above angle exceeds 135 degrees, it is necessary to set the guide portion so as to make a large angle with respect to the surface of the installation surface portion, and it becomes necessary to set the depth of the storage space to be large. Use becomes difficult.
[0011]
According to a second aspect of the present invention, there is provided the display device support device according to the first aspect, wherein the support portion constitutes a lid that covers the back surface of the display device.
[0012]
In this configuration, the display device is protected from direct sunlight by the lid.
[0013]
According to a third aspect of the present invention, there is provided the support device for the display device according to the first or second aspect, wherein the holding device holds the position by suppressing the movement of the display device in at least one of the deployed position and the storage position. It is provided.
[0014]
In this configuration, the display unit is stably held by the holding unit, and failure of the display device due to vibration is prevented.
[0015]
According to a fourth aspect of the present invention, there is provided the support device for the display device according to the third aspect, wherein the holding means elastically presses and holds the display device at the storage position.
[0016]
In this configuration, the display device in the storage position is held elastically and stably, and failure of the display device due to vibration is prevented.
[0017]
According to a fifth aspect of the present invention, there is provided the display device supporting apparatus according to any one of the first to fourth aspects, wherein the second support shaft is formed integrally with the display device.
[0018]
And in this structure, by using a display apparatus as a structural member, the number of parts is reduced and manufacturing cost is reduced.
[0019]
The display device support device according to claim 6 is the display device support device according to any one of claims 1 to 5, wherein the installation surface portion constitutes an instrument panel, and the display device is in the storage position in the instrument. It is located in the back surface side from the virtual surface substantially continuous with the surface of the panel, and is stored in a storage space recessed from the surface of the instrument panel to the back surface side.
[0020]
And in this structure, a display apparatus is stored in an instrument panel without a feeling of protrusion, and an external appearance improves.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of a support device for a display device of the present invention will be described with reference to the drawings.
[0022]
2 and 3, reference numeral 1 denotes an automobile casing which is a vehicle, and an instrument panel 2 as an installation surface portion is provided in the casing 1. As shown by the arrows in FIG. 2, hereinafter, the front side of the vehicle body is the front side (front) A as the non-occupant side, the rear side direction of the vehicle body is the rear side (rear) B as the passenger side, An upper side (upper) C with the upper side (ceiling) direction as the front surface side, a lower side (downward) D with the lower side direction of the vehicle body as the back surface side, and a width direction of the vehicle body will be described as both side directions.
[0023]
The instrument panel 2 is provided along the both sides on the lower side of the windshield in front of the driver seat 4 and the passenger seat 5. And the surface 2a which is the upper surface of this instrument panel 2 is located below the viewpoint of the occupant of the driver's seat 4, forms a smooth curved surface, the front side is substantially horizontal, and the rear side is rear. The inclined surface is directed downward toward the side. A center cluster 6 is provided smoothly and continuously at the rear end of the central portion of the instrument panel 2, and an air outlet 7 of the air conditioner is provided in the center cluster 6.
[0024]
Further, a display device 11 is provided at a substantially central portion of the surface 2a of the instrument panel 2 by a support device (opening / closing device) 12 so as to be opened and closed. As shown in FIG. 1 and FIG. ), The display device 11 in the unfolded position F protrudes upward from the surface 2a of the instrument panel 2 and faces the occupant. As shown in FIGS. 1 and 3, in the retracted state, the display device 11 is located inside the display device 11 in the retracted position G. It is stored harmoniously in the periphery.
[0025]
The display device 11 constitutes, for example, an automobile navigation system or a vehicle-mounted television device. The display device 11 includes a liquid crystal display device and the like, and includes a rectangular flat display portion 14 on the front side of the housing 13. Thus, a so-called thin display device 11 in which the depth dimension of the housing 13 is smaller than the width dimension and the height dimension of the display unit 14 is configured. In addition, the housing 13 has a pair of horizontal side walls 16 that are vertically opposed to each other on the periphery of the display unit 14, and a pair of vertical side walls 17 that intersect the horizontal side walls 16 and face both the left and right sides. Inside the housing 13, a drive circuit for driving the liquid crystal display device, a backlight device, and the like are housed.
[0026]
On the other hand, as shown in FIGS. 1 to 7, the support device 12 has a base 21 embedded in a storage space 20 formed along the surface 2 a of the instrument panel 2. A bottom plate portion 22 that is installed horizontally and a pair of side plate portions 23 that rise vertically from both sides of the bottom plate portion 22 are provided. Further, a circular hole-shaped bearing portion 25 is formed in a portion in which the upper end portion of the front portion of the side plate portion 23 protrudes in a semicircular shape toward the upper side, and along the vicinity of the upper portion of the side plate portion 23. A guide portion 26 is formed which is a slit having a predetermined arcuate curve whose upper ends are centered upward. Note that the upper end portion of the side plate portion 23 has an inclined edge in which the rear side portion is directed downward toward the rear side.
[0027]
A cylindrical shaft 28 is horizontally installed between the bearing portions 25 on both sides, with both directions being axial directions, and a pair of horizontal arms (H arms) 31 are pivotally supported at both ends of the shaft 28. Has been. The horizontal arm 31 is formed with a front shaft support portion 33 supported by the shaft 28 at a front end portion which is one end portion of a main body portion 32 having a vertical plate shape with the front-rear direction as a longitudinal direction. A rear shaft support part 34 as a support part is formed at the rear end part, which is a part, protruding downward. Furthermore, bracket portions 35 are formed at a plurality of locations on the upper portion of the main body portion 32 at predetermined intervals. A lid (lid) 37 is disposed on the upper side of these horizontal arms 31, and is fixed to the bracket portion 35 with screws.
[0028]
Further, as shown in FIG. 3, the surface 37a of the lid 37 is flush with a virtual surface obtained by extending the surface 2a of the instrument panel 2 in the retracted state, that is, continues to the surface 2a of the instrument panel 2. It is like that.
[0029]
Further, a vertical arm (V arm) 41 is provided supported by the rear shaft support portion 34 of the horizontal arm 31 and the guide portion 26 of the base 21. The vertical arm 41 is formed with an upper shaft support portion 43 protruding rearward at an upper end portion which is one end portion of a main body portion 42 having a vertical plate shape with the vertical direction as a longitudinal direction. A first support shaft 44 projecting horizontally from the side is supported on the rear shaft support portion 34 of the horizontal arm 31 in a rotatable manner. Further, a lower shaft support portion 45 is formed at the lower end portion which is the other end portion so as to protrude to the front side, and a second support shaft which is a columnar protrusion projecting horizontally from the lower shaft support portion 45 to the side. 46 is rotatably and slidably inserted into the guide portion 26 of the base 21 and guided. Further, attachment portions 47 are bent and formed in an L-shaped cross section at the rear side portion of the intermediate portion of the main body portion 42, and the vertical side wall 17 of the casing 13 of the display device 11 is screwed to these attachment portions 47. The display device 11 and the vertical arm 41 are moved together.
[0030]
The shaft 28 is wound with a spring 51, which is an elastic body as a biasing means, and biases the horizontal arm 31 in the direction in which the lid 37 is opened, that is, the direction in which the display device 11 is deployed. A speed reduction device that does not operate is incorporated, and the lid 37 moves at a predetermined speed in the opening direction.
[0031]
Further, the support device 12 incorporates a lock mechanism 53 as a holding means, and elastically holds the lid body 37 in the closed state in which the lid body 37 is closed, and the surface 37a of the lid body 37 from the stored state. Is released, the lid 37 is opened by the biasing force of the spring 51, and the position of the lid 37 is locked by pressing the lid 37 from the deployed position to the retracted position. The door is opened and closed by repeating the so-called 1 push open 2 push lock. As shown in FIG. 5 and FIG. 7, the lock mechanism 53 includes a lock pin that protrudes laterally from a base portion 54 that protrudes downward from an intermediate portion of the main body portion 32 of the horizontal arm 31. 55 and a holding cam 56 for engaging and releasing the lock pin 55 by the above-described operation.
[0032]
Next, the movement of the display device 11 during this opening / closing operation will be described.
[0033]
First, when the display device 11 is in the retracted position G, the surface 37a of the lid 37 is pushed to release the engagement of the lock mechanism 53, and the lid 37 is rotated by the biasing force of the spring 51. The first support shaft 44 of the display device 11 is pulled up, and the second support shaft 46 is pulled and moved forward along the guide portion 26 to reach the developed position, that is, the visible position F.
[0034]
In the unfolded state, as shown by a two-dot chain line in FIG. 1, the display unit 14 faces the occupant at an elevation angle, and as shown in FIG. 6 and the like, the second support shaft 46 of the display device 11 is It is located at the rear end portion of the guide portion 26.
[0035]
In this state, when a pressing force in the closing direction indicated by an arrow H in FIG. 1 is applied, the second support shaft 46 that supports the lower side of the display device 11 is guided by the guide portion 26 and moved to the front side. 11 is tilted so that the display unit 14 faces downward, that is, has a depression angle, and is stored on the bottom plate part 22 of the base 21, that is, in the storage space 20.
[0036]
The curve of the guide portion 26 is a line segment X connecting the first support shaft 44 and the second support shaft 46 which are the upper and lower pivot points of the display device 11, that is, the vertical arm 41, and the second support shaft 46. The angle θ formed by the tangent to the center of the axis, that is, the tangent Y of the curve of the guide portion 26 passing through the axis of the second support shaft 46, is θx at an arbitrary position between θ0 at the time of deployment and θz at the time of storage. , It is always set to be in the range of 100 ° to 135 °. For example, in FIG. 1, θ0 is set to 130 °, θz is set to 120 °, and θx is set to 110 °.
[0037]
When the angle θ is set to 100 ° or more, the second support shaft 46 can be smoothly slidably brought into contact with the guide portion 26 during the storing operation. That is, when the angle θ is 90 °, the direction in which the pressing force H is applied and the guide portion 26 are orthogonal to each other, there is no component force in the storage direction J indicated by the arrow J in FIG. The storing operation is not performed. When the angle θ exceeds 90 °, a component force in the storage direction J is generated. However, when the angle θ is set to 100 ° or more, it can be operated smoothly.
[0038]
On the other hand, by further increasing the angle θ, the component force of the pressing force H in the retracting direction J further increases, but the operating locus K of the lower end portion of the display device 11 shown in FIG. Overall height increases. FIG. 9 is a graph showing this relationship, where the vertical axis is the height position M of the lowest end point of the operating locus K with respect to the lower end L on the front side of the display device 11 when unfolded, and the horizontal axis is the display device 11. That is, the line segment X connecting the first support shaft 44 and the second support shaft 46 which are upper and lower pivot points of the vertical arm 41 and the axis of the second support shaft 46 passes through the tangent line Y of the curve of the guide portion 26. The angle θ0 at the time of development is defined. As shown in the graph of FIG. 9, when the thickness dimension of the display device 11 is 40 mm, the angle θ reaches about 80 mm, which is doubled at 135 °, and the practical range in consideration of the layout of the air conditioner is as follows: The upper limit is 135 °. That is, if it is 135 ° or less, not only the storage state of the display device 11 but also the operation trajectory K requires only a small space below, so that the height of the entire device can be reduced.
[0039]
In the graph of FIG. 10, the vertical axis represents the height position M of the lowest end point of the operation locus K with respect to the lower end L on the front side of the display device 11 during deployment, and the horizontal axis represents the first support shaft 44. On the other hand, the horizontal position (distance) N of the second support shaft 46a extending rearward from the first support shaft 44 when the second support shaft 46 is displaced rearward is shown. Then, by adjusting the horizontal position N of the second support shaft 46a according to the graph of FIG. 10, the height position of the lowest end point of the operating locus K with respect to the lower end portion L on the front side of the display device 11 at the time of deployment. It can be seen that M is adjusted.
[0040]
As described above, according to the present embodiment, the display unit 14 of the display device 11 can be expanded at an elevation angle toward the occupant, the amount of movement of the line of sight can be reduced, and the visibility can be improved. The height can be stored small, the limited space such as the top of the instrument panel 2 can be used effectively, the display device 12 can be installed, and the layout of the device can be done without obstructing other devices or operation units. Can be easily done. Further, in such a support device 12, the curve of the guide portion 26 is a line segment X connecting the first support shaft 44 and the second support shaft 46 which are upper and lower pivot points of the display device 11, that is, the vertical arm 41. And the tangent line Y of the curve of the guide portion 26 passing through the axis of the second support shaft 46 is always 100 at any position θx between θ0 at the time of deployment and θz at the time of storage. Since the angle is not less than °, the storage operation of the display device 11 can be smoothly performed, and since the angle is not more than 135 °, the height of the entire apparatus can be reduced.
[0041]
Further, since the display device 11 is covered with the lid 37 so as to be separated from the back surface, the display device 11 can be protected from direct sunlight during deployment and storage.
[0042]
Since the display device 11 at the storage position is elastically pressed and held by the lock mechanism 53, the stored display device 11 can be stably held without rattling, and a failure of the display device 11 due to vibration can be prevented.
[0043]
The deployed display device 11 is pressed by the urging force of the spring 51, and can stably support the display unit 14 toward the occupant.
[0044]
Further, since the display device 11 is stored at the storage position G below the virtual surface substantially continuous with the surface 2a of the instrument panel 2, the display device 11 is stored in the instrument panel 2 without a sense of protrusion. And the appearance can be improved.
[0045]
In the above embodiment, the display device 11 is fixed to the vertical arm 41. However, the vertical arm 41, that is, the first and second support shafts 44 and 46 are integrated with the vertical side wall 17 of the housing 13 of the display device 11. Thus, the display device 11 can be used as a structural member, the number of parts can be reduced, and the manufacturing cost can be reduced.
[0046]
Further, the curve of the guide portion 26 can be smoothly operated if the above-mentioned conditions of 100 ° to 135 ° are satisfied at least in the half of the passenger side. It can also be configured by combining curves or straight lines. For example, as shown in FIG. 11, the portion on the occupant side, that is, the rear side with respect to the center O of the entire length of the guide portion 26, is an arc having a radius R1 that satisfies the above-mentioned angle θ of 100 ° to 135 °. 61, an arc 62 having a radius R2 is connected to the front side of the arc 61, and an arc 63 having a radius R3 is connected to the front side of the arc 62, and the angle θ is 135 ° or more at the arcs 62 and 63. It can also be.
[0047]
In the above embodiment, the display device 11 provided in the instrument panel 2 at a position lower than the line of sight of the occupant is improved in visibility by setting the elevation angle at the time of deployment. For the display device 11 provided at a position higher than the line of sight of the occupant, the above-described support mechanism can be used upside down and arranged so as to have a depression angle when deployed, thereby improving visibility.
[0048]
【The invention's effect】
According to the support device of the display device according to claim 1, the first support shaft is pulled up by the support portion by moving the support portion to the surface side while the display device is in the retracted position, and the second The support shaft can be moved from the non-occupant side to the occupant side along the guide portion to reach the deployed position, that is, the visible position. In addition, when the display device is in the unfolded position, the support portion is moved to the back surface side, so that the first support shaft is pushed down by the support portion and the second support shaft is slidably contacted with the guide portion to guide the display device. It can be moved from the occupant side to the non-occupant side along the section to reach the storage position. And the guide part which guides the second spindle is arranged on the surface side where the tangent of the locus of the axis of the second spindle and the line connecting the first spindle and the second spindle intersect. The angle on the occupant side is set to a curve of not less than 100 degrees and not more than 135 degrees on the occupant side portion of the trajectory, so that the display space of the display device at the storage position is substantially parallel to the surface of the installation surface portion to reduce the storage space. In addition, the display device that moves from the retracted position to the deployed position can be greatly rotated to increase the visibility at the time of deployment toward the occupant with a so-called elevation angle with respect to the surface of the installation surface portion. When moving from the storage position to the storage position, the second support shaft can be smoothly slid in contact with the guide portion, and the storage operation can be performed smoothly.
[0049]
According to the support device for a display device according to claim 2, in addition to the effect of claim 1, in the configuration in which the support portion forms a lid that covers the back surface of the display device, the display device is directly irradiated by the lid. Can be protected from sunlight.
[0050]
According to the support device for a display device according to claim 3, in addition to the effect of claim 1 or 2, there is provided holding means for holding the position by suppressing the movement of the display device in at least one of the deployment position and the storage position. Therefore, the holding means can stably hold the display device and prevent the display device from being broken due to vibration.
[0051]
According to the display device support apparatus of the fourth aspect, in addition to the effect of the third aspect, the holding means elastically presses and holds the display device at the storage position, so that the display device at the storage position is elastic. The display device can be held stably and the display device can be prevented from being damaged by vibration.
[0052]
According to the support device for a display device according to claim 5, in addition to the effect of any one of claims 1 to 4, the second support shaft is formed integrally with the display device, so that the display device is used as a structural member. As a result, the number of parts can be reduced and the manufacturing cost can be reduced.
[0053]
According to the support device for a display device according to a sixth aspect, in addition to the effect according to any one of the first to fifth aspects, the installation surface portion constitutes an instrument panel, and the display device is provided at the retracted position of the instrument panel. The display device can be stored in the instrument panel without a sense of protrusion by storing it in the storage space recessed from the surface of the instrument panel to the back side, located on the back side from the virtual surface that is substantially continuous with the surface. Can be improved.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of an operation showing an embodiment of a support device for a display device of the present invention.
FIG. 2 is a perspective view showing a developed state of a part of the supporting device of the passenger compartment of the automobile provided with the supporting device.
FIG. 3 is a perspective view of the support device in the retracted state.
FIG. 4 is a perspective view showing a state in which the display device of the support device is attached.
FIG. 5 is a perspective view showing a state in which the display device of the supporting device is removed.
FIG. 6 is an enlarged perspective view of a part of the support device.
FIG. 7 is a side view of a part of the supporting device, partly cut away.
FIG. 8 is an explanatory view of the operation of the support device.
FIG. 9 shows the height position of the lowest end point of the operation locus with respect to the lower end portion on the front side of the display device when the support device is deployed, and the first support shaft which is the upper and lower pivot points of the display device, that is, the vertical arm; It is a graph which shows the relationship between the angle | corner at the time of the expansion | deployment which the line segment which ties with a 2nd spindle and the tangent of the curve of a guide part which passes along the axis of a 2nd spindle.
FIG. 10 shows the height position of the lowest end point of the operation locus with respect to the lower end portion on the front side of the display device when the support device is deployed, and the second support shaft is biased rearward with respect to the first support shaft. It is a graph which shows the relationship with the horizontal position of the 2nd spindle which goes back from the 1st spindle when it is made to position.
FIG. 11 is an explanatory view showing another embodiment of the guide portion of the support device of the display device of the present invention.
[Explanation of symbols]
2 Instrument panel as installation surface
2a surface
11 Display device
12 Support device
14 Display
20 Storage space
26 Guide
34 Rear shaft support as support
37 lid
44 First spindle
46 Second spindle
53 Locking mechanism as holding means
F Deployment position
G Storage position

Claims (6)

A display device having a display unit is stored in a storage space provided along the surface of the installation surface unit with the display unit facing the back surface side of the installation surface unit, and from the installation surface unit to the surface side of the installation surface unit. A display device support device that supports the display unit so as to be movable between a deployment position that allows the display unit to be visually recognized toward the occupant side,
A first support shaft that is substantially parallel to the surface of the installation surface portion and is provided with the direction substantially orthogonal to the direction of the occupant and the anti-occupant as an axial direction, and rotatably supports the display device;
A second support shaft that is parallel to the first support shaft and that rotatably supports the display device at a position on the back surface side of the installation surface portion with respect to the first support shaft in the deployed position of the display device. When,
A support portion that supports the first support shaft that supports the display device so as to be movable along a substantially front-back direction of the installation surface portion;
A guide portion that guides the second support shaft along a line substantially along the direction of the occupant and the anti-occupant and the surface of the installation surface portion;
The line of the guide portion is on the surface side opposite the occupant side where the tangent to the locus of the axis of the second support shaft intersects with the line segment connecting the first support shaft and the second support shaft. The support device for a display device, wherein the angle is set to a curve that is not less than 100 degrees and not more than 135 degrees in a half portion on the passenger side of the trajectory. The support device of the display device according to claim 1, wherein the support portion constitutes a lid that covers a back surface of the display device. The support device for a display device according to claim 1, further comprising a holding unit that holds the position by suppressing the movement of the display device in at least one of the unfolded position and the storage position. The support device for a display device according to claim 3, wherein the holding means elastically presses and holds the display device in the storage position. The support device for a display device according to any one of claims 1 to 4, wherein the second support shaft is formed integrally with the display device. The installation surface part constitutes the instrument panel,
In the storage position, the display device is located on the back side from the virtual surface substantially continuous to the surface of the instrument panel, and is stored in a storage space recessed from the surface of the instrument panel to the back side. The display apparatus supporting apparatus according to claim 1, wherein the display apparatus supporting apparatus is a display apparatus.

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