JP3950221B2 - Display device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a display device that can be in a display state and a storage state.
[0002]
[Prior art]
There is known a display device that can arbitrarily move a display surface of a display between a display state and a storage state. The display state or the storage state is moved manually or by a motor as disclosed in, for example, Japanese Patent Laid-Open No. 8-9291.
For example, when the display device is provided in an automobile room, the height of the line of sight directed toward the display is reflected by the display display surface due to illumination light reflected from the interior or the exterior of the vehicle or the difference in height. Therefore, if the angle (tilt) of the display state of the display is constant, the display may be difficult to see. Therefore, a display device is known that can adjust the tilt of the display at the display position. This makes it possible to adjust the display to an easy-to-view angle.
[0003]
[Problems to be solved by the invention]
However, the conventional apparatus has the following problems.
When a driving source such as a motor is used for the operation of the display, the number of parts increases, so the cost becomes relatively high and the weight also increases.
In addition, when the manual method is used, the number of parts is small and the cost can be reduced as compared with those using a motor or the like, but the operability is deteriorated. Even if the inclination of the display position is adjusted, it is necessary to adjust the inclination of the display position again after the display position is set to the storage position.
The object of the present invention is to automate the operation of changing the display from the display state to the storage state, or from the storage state to the display state without using a motor, and after adjusting the tilt of the display in the display display state, the tilt position Is stored so that there is no need to readjust the tilt.
[0004]
[Means for Solving the Problems]
The present invention for solving the above problems is as follows.
The display device common to all the embodiments of the present invention comprises the following as shown in FIGS. However, parts common to all the embodiments of the present invention are denoted by common reference numerals throughout the embodiments.
A display 100 that is pivotably attached to the bezel 1 and can take a display display state and a display storage state by the rotation, a tilt member 2 that is pivotally attached coaxially to the display 100, and a predetermined load or more The tilt mechanism 200 for rotating the display 100 with respect to the tilt member 2, the fixing means 300 for fixing the tilt member 2 to the bezel 1 in the display display state, and the display 100 in any direction with respect to the bezel. Urging means 3 for urging the display 100 and holding means 400 for holding the display 100 in either the display display state or the display storage state against the urging force of the urging means 3 and capable of releasing the holding. .
[0005]
As shown in FIGS. 4 and 5, the tilt mechanism 200 includes a moderation ball 210 biased from the display side toward the tilt member side, and a moderation shape 220 formed on the tilt member 2 and pressed against the moderation ball 210. It is made up of.
[0006]
The display device according to the first embodiment of the present invention comprises the following as shown in FIGS.
The fixing means 300 includes a pin 310 attached to the tilt member 2 and a lock member 320 that comes into contact with the pin 310 in the display display state. The biasing means 3 includes a spring that biases the display in the closing direction. 400 includes a lock member 320 that abuts the pin 310 in the display state, and has a release means 500 including a solenoid 510 connected to the lock member 320 for releasing the hold of the hold means 400.
[0007]
The display device of the second embodiment of the present invention comprises the following as shown in FIGS.
The fixing means 300 comprises a solenoid 350 attached to the bezel side, the urging means 3 comprises a spring for urging the display 100 in the opening direction, and the holding means 400 is fixed to the display and the pin 420 fixed to the display. It consists of a heart cam 430.
[0008]
The display device common to all the embodiments of the present invention has the biasing means 3 for biasing the display in either direction with respect to the bezel, so that the display state is changed to the storage state or the storage state. The operation from to the display state is automatic.
In addition, since the tilt mechanism 200 is provided and the display 100 in the display state is rotated with respect to the tilt member 2 with a predetermined load or more, the display position (tilt) of the display 100 in the display state can be arbitrarily adjusted, and the adjusted tilt It is possible to operate to the storage state while keeping When the display state is set again, the display position of the display is left adjusted.
[0009]
The tilt mechanism 200 includes a moderation ball 210 biased from the display side toward the tilt member side, and a moderation shape 220 formed on the tilt member 2 and pressed against the moderation ball 210, so that the display display state When the rotation of the tilt member 2 is stopped, if a predetermined load or more is applied to the display 100 in the opening or closing direction, the moderation ball 210 moves from the moderation shape 220, and the display 100 is independent of the tilt member 2. Only turn. When the load applied to the display 100 is equal to or less than a predetermined load while the rotation of the tilt member 2 is stopped, the moderation ball 210 remains in the moderation shape 220 and the display 100 does not rotate. In a state where the movement of the tilt member 2 is not stopped by the lock member 320, the display 100 and the tilt member 210 rotate integrally while the moderation ball 210 remains in the moderation shape 220.
[0010]
In the display device according to the first embodiment of the present invention, since the spring for biasing the display in the closing direction is provided, the operation from the display state of the display to the retracted state is automatic.
[0011]
In the display device according to the second embodiment of the present invention, since the spring for urging the display in the opening direction is provided, the operation from the storage state of the display to the display state is automatic.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Each example will be described. Each embodiment takes an automobile display device as an example.
A first embodiment of the present invention will be described with reference to FIGS.
The display 100 includes a display body (liquid crystal display or the like) (not shown), a case 120 that holds the display body, and a door 130 that is fixed to the case 120.
The bezel (housing) 1, the retainer 7, and the rail 8 are fixed to, for example, an instrument panel in the automobile interior. The bezel 1 has a window portion that opens toward the passenger compartment. The retainer 7 is disposed at a position facing the bezel 1 and constitutes a portion for housing the display 100. The rails 8 are attached to both sides of the retainer 7.
The case 120 is attached to the rail 7 by a pin 51 so as to be rotatable about the shaft 4, and the display 100 rotates about the shaft 4.
A rack 121 is attached to the inner wall surface of the case 120, and the gear of the damper 9 is engaged with the rack 121, so that the case 120 rotates gently.
[0013]
In the display 100, the display surface of the display 100 is exposed from the window portion of the bezel 1 in the display display state, and the door 130 of the display 100 is hidden from the window portion of the bezel 1 in the display storage state.
[0014]
A spring (biasing means) 3 is interposed between the case 120 of the display 100 and the rail 8, and the display 100 is always urged in the closing direction (forward rotation direction).
[0015]
A tilt member 2 that rotates coaxially with the rotation shaft 4 of the case 120 is attached to the case 120 by pins 51. The tilt member 2 is sandwiched between the case 120 and the rail 8, and the pin 310 protrudes to the rail 8 side. The pin 310 passes through an arc-shaped long hole 8 a provided in the rail 8. The long hole 8a has a shape along the rotation locus of the pin 310 provided on the tilt member 2 that rotates about the rotation shaft 4.
[0016]
A moderation ball 210 is provided between the case 120 and the tilt member 2. The moderation ball 210 is urged from the case 120 toward the tilt member 2 by a spring 230. In addition, the tilt member 2 where the moderation ball 210 hits has a plurality of concave moderation shapes 220 that can hold the moderation ball 210, for example, a display device that is attached to the instrument panel from the front side (see the display device). 3 are applied in order from the front side).
[0017]
A lock member 320 extending in the vertical direction is attached to the rail 8 by a pin 52 so as to be rotatable. The lock member 320 is always biased backward by the spring 340. The lower end of the lock member 320 is connected to the solenoid 510. For example, the solenoid 510 is energized for a predetermined time by an ON switch (not shown).
When the solenoid 510 is not in operation and no external force is applied to the lock member 320, as shown in FIG. 2, the solenoid 510 is in the initial position, and the tip of the lock member 320 is located at the front end in the elongated hole 8a. The solenoid 510 prevents the lock member 320 from rotating further backwards.
When the solenoid 510 is controlled to be positioned backward for a predetermined time by turning on the ON switch or the like, the solenoid 510 moves backward for a predetermined time after the switch is turned on, as indicated by a solid line in FIG. Therefore, the lock member 320 rotates forward. After the predetermined time has elapsed, the solenoid 510 returns to the initial position, so that the tip of the lock member 320 is located at the front end in the long hole 8a.
[0018]
In order to prevent the display 100 from rotating backward from a predetermined position in the display state, a stopper portion 330 that contacts the tilt member 2 from the opposite direction to the lock member 320 in the display display state may be provided. A part of the tilt member 2 and a part substantially fixed to the bezel may be brought into contact with each other, for example, the tilt member 2 and the bezel 1 are brought into contact with each other. However, if the case 120 and the bezel are brought into contact with each other, the display display position cannot be adjusted in some cases, so that it is not necessary to bring the case 120 and the bezel 1 into contact with each other.
[0019]
In order to prevent the display 100 in the retracted state from further rotating in the closing direction, for example, the case 120 and the bezel 1 abut in the retracted state. Alternatively, a portion that rotates integrally with the case 120 and a portion that is substantially fixed to the bezel 1 may be applied. However, the rotation is not stopped by applying the tilt member 2 to the case 120. Further, it is desirable that the pin 310 of the tilt member 2 does not hit the rear end of the long hole 8a.
[0020]
The operation of the above apparatus will be described.
In the display display state, as shown by a solid line in FIG. 2, the display 100 is held in a state where the display surface of the display main body is exposed from the window portion of the bezel 1 by the biasing force of the spring 3. .
At this time, since the solenoid 510 connected to the lower end of the lock member 320 is not activated (energized) and is in the initial position, the tip is located at the front end in the long hole 8a and further rotates backward. It is blocked from moving.
The upper end of the lock member 320 abuts on the rear portion of the pin 310 of the tilt member 2 protruding from the long hole 8a of the rail 8, and stops the pin 310 from moving in the long hole 8a. Since the pin 310 does not move, the tilt member 2 to which the pin 310 is attached does not rotate. Therefore, the display 100 that can rotate integrally with the tilt member 2 does not rotate and maintains the display state.
[0021]
Next, the operation in which the display 100 in the display state as shown by the solid line in FIG. 2 enters the retracted state shown by the solid line in FIG. 3 will be described.
First, energization is performed by turning on the ON switch or the like, and the solenoid 510 is retracted for a predetermined time. The lock member 320 rotates forward as the solenoid 510 moves backward. For this reason, since the lock member 320 moves below the pin 310, the pin 310 is allowed to move in the long hole 8a, and the tilt member 2 to which the pin 310 is attached is allowed to rotate. The integrally rotatable display 100 is rotated in the closing direction (forward rotation) by the biasing force of the spring 3. The display 100 is brought into a retracted state (FIG. 3) when the case 120 abuts against the bezel 1 and stops rotating.
When the energization of the solenoid 510 stops for a certain time (about 1 to several seconds), the lock member 320 is rotated backward by the urging force of the spring 340. Since the solenoid 510 returns to the initial position, the locking member 320 stops rotating when the tip reaches the front end in the long hole 8a. Since the energization time is short, the power consumption of the battery can be suppressed.
In addition, the operation of the solenoid 510 can be interlocked not only with a switch but also with an ignition key turned off, etc., thereby preventing the display 100 from being forgotten to close.
[0022]
Next, an operation in which the display 100 in the storage state indicated by the solid line in FIG. 3 is changed to the display state indicated by the solid line in FIG. 2 will be described.
When the display 100 in the retracted state is manually rotated in the opening direction, the pin 310 of the tilt member 2 at the rear of the long hole 8a of the rail 8 pushes down the upper end of the lock member 320 in the long hole 8a. While moving forward. When the pin 310 reaches the front end of the long hole 8a of the rail 8, the lock member 320 is rotated backward by the urging force of the spring 340, but the tip is positioned at the front end in the long hole 8a by the solenoid 510. At that point, the rotation is stopped. In this state, if the manual rotation of the display 100 in the opening direction is stopped, the display 100 biased in the closing direction by the biasing force of the spring 3 rotates in the closing direction. Since the front end of 320 abuts against the rear portion of the pin 310 and prevents the pin 310 from moving backward in the long hole 8a, the rotation is stopped and the display state is maintained.
[0023]
When there is the stopper portion 330, manual rotation of the display 100 may be stopped when the stopper portion 330 stops the rotation of the display 100 in the opening direction.
[0024]
Next, adjustment of the display position (tilt) of the display 100 in the display display state (tilt mechanism 200) will be described.
Since the moderation ball 210 urged from the case 12 side is in pressure contact with the moderation shape 220 formed of a plurality of recesses of the tilt mechanism 200, the display 100 is in a state where the rotation of the pin 310 is not prevented by the lock member 320. And the tilt member 2 are integrally rotated to switch between the display display state and the display storage state.
Even if the display 100 is manually pushed downward in the display state shown by the solid line in FIG. 2, the tilt member 2 prevents the pin 310 from moving backward by the front end of the lock member 320 coming into contact with the rear portion of the pin 310. It will not move. However, when the force that pushes down the display 100 becomes equal to or greater than the force that allows the moderation ball 210 to move from the moderation shape (concave portion) 221 (more than a predetermined load), the moderation ball 210 moves and independent of the tilt member 2. Only the display 100 rotates in the closing direction. Then, as indicated by the solid line in FIG. 6, when the moderation ball 210 enters the adjacent recess 222, the display 100 stops rotating at that position. Thus, the inclination of the display 100 can be changed by manually moving the display 100 in the display display state.
In the display display state, as shown in FIG. 2, when the moderation ball 210 enters the foremost recess 221 of the moderation shape 220, the display 100 is further rotated in the closing direction to change the inclination. I can't.
Further, in the display state, as shown in FIG. 8, the display 100 cannot be rotated in the opening direction from the state where the moderation ball 210 enters the recess 223 at the rearmost part of the moderation shape 220.
[0025]
For example, as shown in FIG. 6, when the moderation ball 210 enters the recess 222 at the center of the moderation shape 220 and the display 100 is in the display display state and the solenoid 510 is activated, the pin 310 of the tilt member 2 The contact between the rear portion and the front end of the lock member 320 is released, and the display 100 and the tilt member 2 are integrally rotated in the closing direction by the urging force of the spring 3, and the display is stored as shown in FIG. While the display 100 rotates, the display 100 and the tilt member 2 do not move relative to each other. Accordingly, the display display (tilt) position immediately before the display storage state is substantially stored, and it is not necessary to adjust the display display position every time the display storage state is changed to the display state.
The display display position is similarly stored wherever the moderation ball 210 is located in the recess of the moderation shape 220. As shown in FIG. 8, even when the moderation ball 210 enters the recess 223 at the rearmost portion of the moderation shape in the display state and the display is stored, the moderation ball 210 is in the recess as shown in FIG. 9. 223 remains embedded and the tilt of the display is substantially stored.
With the above structure, a display device having a semi-automatic and tilt mechanism can be realized without using a drive source such as a motor.
[0026]
Next, a second embodiment is shown.
In the display device of the second embodiment, the display 100 is biased in the opening direction by the spring 3.
The case 120 of the display 100 is provided with a pin 420 protruding outward. The pin 420 can be engaged with a heart cam 430 having a heart-shaped groove formed on the bezel side. The holding means 400 is constituted by the pin 420 and the heart cam 430.
A solenoid 350, which is a fixing means 300, is fixed on the bezel side. A pin 420 protrudes from the tip of the solenoid 350. The pin 420 is urged in the protruding direction by a spring (not shown).
A cam 2 a having an inclined surface is provided at the lower end of the tilt member 2. The cam 2a is provided with a notch with which the pin 420 can be engaged.
[0027]
Next, the operation will be described.
First, an operation in which the display in the retracted state becomes the display state will be described.
When the display 100 is in the retracted state, the pin 420 of the case 120 is located at the locking position c of the heart cam 430 and is engaged with the heart cam 430 as shown in FIG. When the display 100 is pushed downward from this state, the pin 420 moves to the deep part d of the groove of the heart cam 430. When the pushing force to the display 100 is released, the pin 420 moves in the heart cam in the e direction outside the heart cam, and the engagement with the heart cam 430 is released. The display 100 is rotated in the opening direction (backward) by the urging force of the spring 3.
As the display 100 rotates, the tilt member 2 also rotates together. As the tilt member 2 rotates, the pin 351 of the solenoid 350 contacts the cam 2b at the lower end of the tilt member 2, and the display 100 rotates while the pin 351 of the solenoid 350 is engaged with the notch 2b of the cam 2a. Stops and enters the display state.
[0028]
The display 100 is rotatable relative to the tilt member 2, and the display position (tilt) of the display in the display display state can be adjusted by the tilt mechanism 200 according to the first embodiment.
[0029]
Next, an operation in which the display in the display state is in the retracted state will be described.
When a switch (not shown) that operates the solenoid 350 is operated from the display state, the pin 351 of the solenoid 350 is retracted and the engagement of the tilt member 2 with the notch 2b of the cam 2a is released. In addition, when the display 100 is manually rotated in the closing direction, the pin 420 of the case 120 enters the heart cam groove from the position shown in FIG. . When the pushing force on the display 100 is released, the pin 420 is guided to the locking position c of the heart cam 430. As a result, the display 100 is prevented from rotating in the opening direction, and the display is stored as shown in FIG.
[0030]
As described above, since the display 100 (case 12) is held on the bezel side in the display storage state and the tilt member 2 is held on the bezel side in the display display state, the display position of the display 100 adjusted in the display display state ( Inclination does not change during normal operation, and the display display position is substantially stored as in the first embodiment.
[0031]
Since the energizing direction of the case is set to the opening direction, it is not necessary to largely rotate the case by hand when the display display state is set.
[0032]
【The invention's effect】
According to the display device according to claim 1, the Tilt mechanism, since the display relative to the tilt member above the predetermined load is rotated, can be arbitrarily adjusted the display position of the display of the display state (inclined). In addition, since it can be operated to the retracted state while maintaining the adjusted inclination, the display position of the display remains in the previously adjusted state when the display state is restored, and there is no need to adjust again.
In addition, the tilt mechanism includes a moderation ball urged from the display side toward the tilt member side and a moderation shape formed on the tilt member and pressed against the moderation ball. When a predetermined load or more is applied to the display in the opening or closing direction when the rotation of the display is stopped, the moderation ball moves from the moderation shape, and only the display rotates independently of the tilt member, thereby tilting the display. Can be adjusted.
Further, since the spring for biasing the display in the closing direction is provided, the operation from the display state of the display to the retracted state is automatic.
According to the display device of the second aspect, since the display is rotated with respect to the tilt member with a predetermined load or more by the tilt mechanism, the display position (tilt) of the display in the display state can be arbitrarily adjusted. In addition, since it can be operated to the retracted state while maintaining the adjusted inclination, the display position of the display remains in the previously adjusted state when the display state is restored, and there is no need to adjust again.
In addition, the tilt mechanism includes a moderation ball urged from the display side toward the tilt member side and a moderation shape formed on the tilt member and pressed against the moderation ball. When a predetermined load or more is applied to the display in the opening or closing direction when the rotation of the display is stopped, the moderation ball moves from the moderation shape, and only the display rotates independently of the tilt member, thereby tilting the display. Can be adjusted.
Further, since the spring for biasing the display in the opening direction is provided, the operation from the storage state of the display to the display state is automatic.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view of a display apparatus according to a first embodiment of the present invention.
FIG. 2 is a cross-sectional view of the display apparatus according to the first embodiment of the present invention.
FIG. 3 is a cross-sectional view of the display device according to the first embodiment of the present invention.
4 is a cross-sectional view taken along line AA in FIG.
5 is a cross-sectional view taken along line BB in FIG.
FIG. 6 is a cross-sectional view of the display apparatus according to the first embodiment of the present invention.
FIG. 7 is a cross-sectional view of the display device according to the first embodiment of the present invention.
FIG. 8 is a cross-sectional view of the display apparatus according to the first embodiment of the present invention.
FIG. 9 is a cross-sectional view of the display device according to the first embodiment of the present invention.
FIG. 10 is a cross-sectional view of a display device according to a second embodiment of the present invention.
FIG. 11 is a cross-sectional view of a display device according to a second embodiment of the present invention.
FIG. 12 is a diagram for explaining the order in which pins are led into the grooves of the heart cam of the display device according to the second embodiment of the present invention;
[Explanation of symbols]
1 Bezel 2 Tilt member 2a Cam 3 Biasing means (spring)
4 axis 100 display 200 tilt mechanism 210 moderation ball 220 moderation shape 300 fixing means 310 pin 320 locking member 350 solenoid 400 holding means 420 pin 430 heart cam 500 releasing means 510 solenoid

Claims (2)

A display that is pivotably attached to the bezel and can take a display display state and a display storage state by the rotation;
A tilt member that is coaxially rotatable with the display, and a tilt mechanism that rotates the display with respect to the tilt member at a predetermined load or more;
Fixing means for fixing the tilt member to the bezel in the display display state;
Biasing means for biasing the display in a closing direction with respect to the bezel ;
A display device comprising :
The tilt mechanism is composed of a moderation ball urged from the display side toward the tilt member side, and a moderation shape formed on the tilt member and pressed against the moderation ball,
The fixing means includes a pin attached to the tilt member and a lock member that comes into contact with the pin in a display state.
Having release means comprising a solenoid coupled to the lock member;
When the rotation of the tilt member is stopped in the display state, when the predetermined load or more is applied to the display, the moderation ball moves from the moderation shape, and only the display is independent of the tilt member. When the load applied to the display is less than or equal to a predetermined load with the rotation of the tilt member stopped, the moderation ball remains in the moderation shape and the display does not rotate. In the state where the movement of the tilt member is not stopped by the fixing means, the display and the tilt member rotate integrally while the moderation ball is still in the moderation shape . A display that is pivotably attached to the bezel and can take a display display state and a display storage state by the rotation;
A tilt member that is coaxially rotatable with the display, and a tilt mechanism that rotates the display with respect to the tilt member at a predetermined load or more;
Fixing means for fixing the tilt member to the bezel in the display display state;
A biasing means for biasing the display in the opening direction with respect to the bezel;
A display device comprising:
The tilt mechanism is composed of a moderation ball urged from the display side toward the tilt member side, and a moderation shape formed on the tilt member and pressed against the moderation ball,
The fixing means comprises a solenoid attached to the bezel side, and the solenoid engages with a notch provided in the tilt member to fix the tilt member and engage with the notch when the solenoid is activated. It has a pin to release the joint,
Holding the display in a display storage state against the urging force of the urging means, and having holding means capable of releasing the holding;
When the rotation of the tilt member is stopped in the display state, when the predetermined load or more is applied to the display, the moderation ball moves from the moderation shape, and only the display is independent of the tilt member. When the load applied to the display is less than or equal to a predetermined load with the rotation of the tilt member stopped, the moderation ball remains in the moderation shape and the display does not rotate. In the state where the movement of the tilt member is not stopped by the fixing means, the display and the tilt member rotate integrally while the moderation ball is still in the moderation shape .

Images