WO2010026680A1 - Monitor panel device - Google Patents

Abstract

A monitor panel device (1) adapted such that a monitor panel (7) can be tilted by pushing out the lower part of the monitor panel (7) forward by means of a drive means provided to a device body (2).  A guide roller contact surface (4) is provided to a side face of a sub-panel (3) in front of the device body (2).  A guide roller (11) is mounted to a side face of the monitor panel (7).  A rubber roller (12) is mounted to the side face of the monitor panel (7) so as to be coaxial with the guide roller (11).  A rubber roller contact surface (5) with which the rubber roller (12) makes elastic contact is formed on the side opposite the guide roller contact surface (4).  The guide roller (11) is pressed against the guide roller contact surface (4) by rubber elastic force produced when the rubber roller (12) is elastically deformed by making contact with the rubber contact surface (5).

Description

Monitor panel device

The present invention relates to a monitor panel device that reduces vibration of the monitor panel.

Some monitor panel devices equipped with a liquid crystal monitor panel or the like have a liquid crystal monitor panel movable with respect to the device body, such as a car navigation system. In such a monitor panel device, there is a model in which the monitor panel is opened and closed by sliding an upper fulcrum of the monitor panel in a groove on the device main body side. In such a model, the slider mounted on the apparatus main body and driven back and forth is connected to the lower fulcrum of the monitor panel, and the upper fulcrum of the monitor panel slides in the groove in conjunction with the movement of the slider.

However, in order for the upper fulcrum of the monitor panel to slide without smoothly squeezing the groove on the apparatus body side, it is necessary to provide a margin between the upper fulcrum of the monitor panel and the groove. When an external force such as vibration due to the engine rotation or road surface reaction force during traveling is received, there is a problem that it becomes a cause of abnormal noise.

In order to reduce such backlash, a technique for energizing the monitor panel with a spring force is considered. For example, Patent Document 1 discloses a device in which a tension roller is interposed between a panel on the apparatus main body side and a monitor panel. Further, although the upper fulcrum is not moved along the groove, there is one disclosed in Patent Document 2 in which the monitor panel is urged by a spring.

Japanese Patent No. 3426474 Japanese Patent No. 3922616

However, the one described in Patent Document 1 and Patent Document 2 is not designed to absorb the play of the upper fulcrum itself, and in the one described in Patent Document 1, the tension roller is installed and the force is adjusted. There are also problems such as being difficult. Further, in the case of a monitor panel provided with an operation switch, the one described in Patent Document 1 and Patent Document 2 has a problem such as rattling when the operation switch is pressed because the biasing direction is opposite to the operation switch pressing direction. .

The present invention has been made in view of such a technical situation. The backlash between the fulcrum on the monitor panel side and the guide surface on the apparatus body side is eliminated, and not only when the monitor panel is closed but also in a predetermined state. It is an object of the present invention to prevent rattling from occurring even in the tilted state and to prevent rattling from occurring when the operation switch is pressed.

The monitor panel device according to the present invention is a monitor in which a monitor panel is disposed at a front portion of the apparatus main body, and the lower portion of the monitor panel is pushed forward by a driving means provided in the apparatus main body so that the monitor panel can be tilted. In the panel device, a guide surface facing the device body direction and the monitor panel direction is provided on the front side surface of the device body, and a guide roller that contacts the guide surface facing the monitor panel direction is provided on the side surface of the monitor panel. A rubber roller is provided coaxially with the guide roller, a rubber roller contact surface is formed on the side facing the guide surface facing the apparatus body, and the rubber roller is in contact with the rubber roller. The rubber roller is in contact with the rubber roller contact surface. The guide roller is pushed against the guide surface facing the monitor panel by a rubber elastic force generated by elastic deformation. It is configured to attach.

According to the monitor panel device of the present invention, when the monitor panel moves and when the monitor panel is stopped at a predetermined angle, the guide roller faces the monitor panel direction by the rubber elastic force due to the deformation of the rubber roller. Since it is pressed against the guide surface, backlash between the guide roller and the guide surface is absorbed, and even if the monitor panel device receives external force such as vibration, the monitor panel does not rattle and generate abnormal noise. Further, even when an external force such as pressing an operation switch is applied, there is no rattling. Further, the guide panel and its guide surface are made of metal, whereby the guide panel can be grounded.

3 is a schematic side view of a front portion of the monitor panel device according to Embodiment 1. FIG. 2 is a perspective view of a monitor panel of the monitor panel device according to Embodiment 1. FIG. 3 is a rear view of the monitor panel in the monitor panel device according to Embodiment 1. FIG. FIG. 4 is a cross-sectional view taken along the line IV-IV in FIG. 3. 4 is a simplified enlarged view around a guide roller in the monitor panel device according to Embodiment 1. FIG. 3 is a perspective view of a guide roller portion in the monitor panel device according to Embodiment 1. FIG. It is the perspective view which looked at the sub panel in the monitor panel apparatus concerning Embodiment 1 from the front. It is a perspective view of the torsion coil spring which urges | biases a monitor panel. 3 is a schematic side view of the monitor panel device according to Embodiment 1 with the monitor panel closed. 4 is a schematic side view of a state in which the monitor panel of the monitor panel device according to Embodiment 1 is slightly tilted. 2 is a schematic side view of a state in which the monitor panel of the monitor panel device according to Embodiment 1 is tilted. 3 is a schematic side view of the monitor panel device according to Embodiment 1 in a state where the monitor panel is most opened. 5 is a cross-sectional view of a roller assembly in a monitor panel device according to Embodiment 2. FIG. 6 is a cross-sectional view of a roller assembly in a monitor panel device according to Embodiment 3. FIG. FIG. 6 is a cross-sectional view of a roller assembly in a monitor panel device according to a fourth embodiment.

Hereinafter, in order to describe the present invention in more detail, modes for carrying out the present invention will be described with reference to the accompanying drawings.
Embodiment 1 FIG.
Hereinafter, a first embodiment in which a monitor panel device according to the present invention is applied to a monitor panel device of a car navigation system will be described in detail with reference to the drawings. 1 is a schematic side view of a front portion of a monitor panel device according to Embodiment 1, FIG. 2 is a perspective view of the monitor panel, FIG. 3 is a rear view of the monitor panel, and FIG. FIG. 5 is a simplified enlarged view around the guide roller, FIG. 6 is a perspective view of the guide roller portion, FIG. 7 is a perspective view of the sub panel viewed from the front, and FIG. 8 biases the monitor panel. It is a perspective view of a torsion coil spring.

A rectangular frame-shaped sub-panel 3 is provided at the front of the device body 2 (only part of which is shown) of the monitor panel device 1 of the car navigation system. The sub-panel 3 is formed of a hard resin or metal, and the guide roller contact surface 4 is vertically arranged on the side of the apparatus main body 2 of the both side walls 3a as shown in FIGS. Is formed. The guide roller contact surface 4 extends further downward in the middle of the sub-panel 3 in the vertical direction. The guide roller contact surface 4 is slightly inclined toward the front side of the monitor panel device 1 in the lower part. Rubber roller contact surfaces 5 are formed on both side walls 3a of the sub-panel 3 so as to face the guide roller contact surface 4 as often shown in FIGS. As shown in FIG. 4, the width of the rubber roller contact surface 5 is smaller than the width of the guide roller contact surface 4, and is formed closer to the side wall 3 a side of the sub-panel 3. The rubber roller contact surface 5 has a length similar to that of the guide roller contact surface 4 and extends downward, and a stopper surface 5a is formed at the lower end thereof. An insertion slot 6 such as a CD is formed in the upper part of the back surface 3b of the sub panel 3. A drive such as a CD is assembled in the apparatus main body 2.

The monitor panel 7 is arranged inside the sub panel 3. The monitor rear panel 8 at the rear of the monitor panel 7 is a sheet metal part, and a roller assembly 9 serving as an upper fulcrum is provided on the upper part of the monitor rear panel 8 as shown in FIGS. The roller assembly 9 includes a guide roller 11 that is rotatably provided on a pin shaft 10 that is attached to the monitor rear panel 8 by caulking, and a cross-section that is fitted to a flange portion 11a that is integral with the guide roller 11 and is located on the side. The rubber roller 12 has a U-shape. The diameter of the rubber roller 12 is smaller than that of the guide roller 11. In the state where the roller assembly 9 is assembled, as shown in FIGS. 4 and 5, the rubber roller 12 is deformed (collapsed) into contact with the rubber roller contact surface 5. A space 11b that allows deformation of the rubber roller 12 is secured between the rubber roller 12 and the flange portion 11a. Due to the rubber elastic force generated by the deformation of the rubber roller 12, the guide roller 11 coaxial with the rubber roller 12 is elastically pressed against and contacts the guide roller contact surface 4. 4 and 5, the shape of the rubber roller 12 before being deformed is indicated by a one-dot chain line.

The slider 13 is provided on the left and right sides of the lower part of the apparatus body 2 so as to be able to drive in and out. A driving device for the slider 13 is incorporated in the apparatus main body 2. The front end portion of the slider 13 is a linear connecting portion 13b via a curved portion 13a, and the connecting portion 13b is a lower fulcrum shaft 14 provided at the lower part of the monitor rear panel 8 on both sides of the monitor panel 7. It is pivotally attached to. A coil portion 15a of a torsion coil spring 15 shown in FIG. One arm portion 15 b of the torsion coil spring 15 is fastened to a spring receiver 16 provided on the monitor panel 7. The other arm portion 15 c of the torsion coil spring 15 has a U shape and is fitted into the curved portion 13 a of the slider 13. Therefore, the spring force of the torsion coil spring 15 acts to push the lower side of the monitor panel 7 forward with the curved portion 13a of the slider 13 as a reaction force receiving portion.

Although not shown, various buttons for operating the monitor panel device 1 are arranged on the front surface of the monitor panel 7. As buttons, buttons for tilting the monitor panel 7 are provided in addition to buttons for operating the car navigation system. A touch panel for operating the car navigation system is provided on the front surface of the display unit of the monitor panel 7.

Next, the opening / closing operation of the monitor panel 7 of the monitor panel device 1 will be described with reference to FIGS.
FIG. 9 shows a state in which the monitor panel 7 in the monitor panel device 1 is housed in the sub-panel 3. This state is a state in which the slider 13 is most drawn to the apparatus main body 2 side by the driving device. The guide roller 11 as an upper fulcrum is in contact with the upper part of the guide roller contact surface 4. The rubber roller 12 is in contact with the rubber roller contact surface 5 at the top. As shown in FIGS. 4 and 5, the guide roller 11 is pressed against the guide roller contact surface 4 by the rubber elastic force generated by the rubber roller 12 deforming and contacting the rubber roller contact surface 5. Therefore, the monitor panel 7 does not rattle due to vehicle vibration or touch panel operation.

¡Tilt of the monitor panel 7 is performed by pressing an operation button on the front of the monitor panel 7. When the button is pressed, the slider driving device in the apparatus main body 2 is operated, and the slider 13 is pushed forward as shown in FIG. When the slider 13 is pushed out, the lower fulcrum shaft 14 of the monitor panel 7 is pushed out, the lower part of the monitor panel 7 is moved forward, and the monitor panel 7 is tilted. The guide roller 11 rolls or slides on the guide roller contact surface 4 and descends. Also at this time, the guide roller 11 is pressed against the guide roller contact surface 4 by the rubber elastic force generated by the rubber roller 12 being elastically deformed and contacting the rubber roller contact surface 5. Therefore, the guide roller 11 always contacts the guide roller contact surface 4 and does not float from the guide roller contact surface 4. Further, since the spring force of the torsion coil spring 15 provided on the lower fulcrum shaft 14 acts to rotate the roller assembly 9 side of the monitor panel 7 backward with the lower fulcrum shaft 14 as a fulcrum, the guide roller 11 The contact force to the guide roller contact surface 4 is assisted. Therefore, the monitor panel 7 does not rattle due to vehicle vibration or touch panel operation. The rubber roller 12 coaxial with the guide roller 11 moves while rolling or sliding on the rubber roller contact surface 5 in a deformed state.

FIG. 11 shows a state where the slider 13 is further pushed out and the monitor panel 7 is further tilted. The monitor panel 7 is used even when the guide roller 11 is in the middle of the guide roller contact surface 4. Even in this state, the spring force of the torsion coil spring 15 provided on the lower fulcrum shaft 14 acts to rotate the roller assembly 9 side of the monitor panel 7 backward using the lower fulcrum shaft 14 as a fulcrum. The roller 11 is pressed against the guide roller contact surface 4. Therefore, the monitor panel 7 does not rattle due to vehicle vibration or the like.

FIG. 12 shows a state where the slider 13 is further pushed out and the monitor panel 7 is tilted to the maximum. The rubber roller 12 contacts the stopper surface 5 a at the lower end of the rubber roller contact surface 5. Even in this state, the spring force of the torsion coil spring 15 provided on the lower fulcrum shaft 14 acts to rotate the roller assembly 9 side of the monitor panel 7 backward using the lower fulcrum shaft 14 as a fulcrum. The roller 11 is pressed against the guide roller contact surface 4. Therefore, the monitor panel 7 does not rattle due to vehicle vibration or the like.

Further, by making the guide roller 11 and the guide roller contact surface 4 made of metal, the monitor panel 7 can be grounded through contact between these metals.

Embodiment 2. FIG.
In FIG. 13, the cross section of the roller assembly 21 in the monitor panel apparatus 1 which concerns on Embodiment 2 is shown. The roller assembly 21 includes a guide pin 22 attached to the monitor rear panel 8, a guide roller 23 rotatably fitted on the guide pin 22, and a rubber fitted in an annular groove 24 formed in the guide roller 23. A ring 25; The rubber ring 25 constitutes a rubber roller. The rubber ring 25 elastically deforms and contacts the rubber roller contact surface 5 of the sub-panel 3, and the guide roller 23 elastically contacts the guide roller contact surface 4. The guide roller 23 elastically contacts the guide roller contact surface 4 by the rubber elastic force generated by the rubber ring 25 elastically deforming and contacting the rubber roller contact surface 5. A gap 25 a is secured between the rubber ring 25 and the groove 24 as a margin for allowing deformation of the rubber ring 25. Operations such as opening and closing of the monitor panel 7 of the monitor panel device 1 provided with the roller assembly 21 are the same as those of the first embodiment shown in FIGS.

According to the monitor panel device 1 according to the second embodiment, the same effect as in the first embodiment is obtained, and the rubber ring 25 serving as a rubber roller is provided on the guide roller 23, so that the roller assembly is the same as in the first embodiment. The number of parts of the solid 21 can be reduced.

Embodiment 3 FIG.
In FIG. 14, the cross section of the roller assembly 31 in the monitor panel apparatus 1 which concerns on Embodiment 3 is shown. The roller assembly 31 includes a guide pin 32 attached to the monitor rear panel 8, a guide roller 33 rotatably fitted on the guide pin 32, and a rubber roller 34 provided on the guide pin 32 separately from the guide roller 33. It consists of. The rubber roller 34 includes a shaft portion 34a fitted into the guide pin 32 and a rubber ring 34c fitted into a groove portion 34b provided on the peripheral surface of the shaft portion 34a. The rubber ring 34 c deforms and contacts the rubber roller contact surface 5 of the sub-panel 3, and the guide roller 33 contacts the guide roller contact surface 4. The rubber ring 34c is elastically deformed and contacts the rubber roller contact surface 5. When the rubber ring 34 c of the rubber roller 34 contacts the rubber roller contact surface 5 of the sub panel 3, the guide roller 33 contacts the guide roller contact surface 4. The guide roller 33 is brought into contact with the guide roller contact surface 4 so as to be elastically pressed by a rubber elastic force generated when the rubber roller 34 is deformed in contact with the rubber roller contact surface 5. Operations such as opening and closing of the monitor panel 7 of the monitor panel device 1 provided with the roller assembly 31 are the same as those of the first embodiment shown in FIGS.

According to the monitor panel device 1 according to the third embodiment, since the guide roller 33 and the rubber roller 34 are separate members, the influence of the behavior of the rubber roller 34 that the guide roller 33 moves by rubbing the rubber roller contact surface 5 is affected. You will not receive it.

Embodiment 4 FIG.
FIG. 15 shows a roller assembly 41 which is a modification of the roller assembly 21 according to the second embodiment shown in FIG. In this roller assembly 41, the guide roller is a metal guide roller 23, and a metal guide member 43 is provided between the apparatus main body 2 side sub-panel 3 with which the guide roller 23 comes into contact, and a metal guide roller contact surface 43 a. Is forming. Operations such as opening and closing of the monitor panel 7 by the monitor panel device 1 provided with the roller assembly 41 are the same as those of the first embodiment shown in FIGS. The monitor panel 7 can be grounded through the metal guide roller contact surface 43a.

According to the monitor panel device 1 according to the fourth embodiment, not only the effects similar to those of the first embodiment are obtained, but also the guide roller 23 on the monitor panel 7 side and the guide roller contact surface 43a on the device main body 2 side are provided. Since it is made of metal, the monitor panel 7 can be grounded, and it is not necessary to equip another structure for grounding.

As described above, the monitor panel device according to the present invention eliminates the play between the fulcrum on the monitor panel side and the guide surface on the device body side, and not only when the monitor panel is closed but also in a predetermined tilted state. In order to prevent rattling and play when the operation switch is pressed, a guide surface is provided on the front side surface of the apparatus body, and a guide roller and a rubber roller are provided on the side surface of the monitor panel. Since the rubber roller contact surface is formed on the side facing the guide surface, and the rubber roller presses the guide roller against the guide surface by rubber elastic force, the monitor panel device of a liquid crystal panel used in a car navigation system is used. Suitable for use.

Claims (3)

1. In a monitor panel device in which a monitor panel is arranged at a front portion of the apparatus main body and the lower portion of the monitor panel is pushed forward by a driving means provided in the apparatus main body so that the monitor panel can be tilted. A guide surface facing the device main body direction and the monitor panel direction is provided on the side surface of the device, a guide roller contacting the guide surface facing the monitor panel direction is provided on the side surface of the monitor panel, and a rubber roller coaxial with the guide roller A rubber roller contact surface that elastically contacts the rubber roller on the side facing the guide surface facing the apparatus main body, and the rubber elasticity generated by the rubber roller contacting and elastically deforming the rubber roller contact surface The guide roller is configured to be pressed against the guide surface facing the monitor panel by force. Nitapaneru apparatus.
2. The guide surface and the guide roller facing the monitor panel are made of metal, and the monitor panel unit can be grounded through the guide roller and the guide surface facing the monitor panel. Item 2. The monitor panel device according to Item 1.
3. A slider that is moved in the front-rear direction by the driving means is pivotally attached to the lower side surface of the monitor panel, and a torsion coil spring is attached to a pivot point of the slider on the lower side surface of the monitor panel. 2. The monitor panel device according to claim 1, wherein a spring force in a direction in which the guide roller is pressed against a guide surface facing the monitor panel is urged against the monitor panel.

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