JP2004237895A - Monitor opening/closing controlling device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To automatically return a monitor to a using position when the monitor is swung due to applied external force, in a monitor opening/closing controlling device for opening and closing the monitor such as a television provided on a ceiling of a building, a vehicle or the like between a storage position and the using position. <P>SOLUTION: This monitor opening/closing controlling device is provided with a stepping motor 28 performing opening/closing operation of the monitor 11, a potentiometer 35 detecting the opening/closing operation of the monitor 11, and a controller 63 controlling the stepping motor 28 to hold the monitor 11 at the using position based on an angle detected by the potentiometer 35 and a set target opening angle. The controller 63 is provided with a monitor deviance correction part 88 returning the monitor 11 to the using position in accordance with the swing angle detected by the potentiometer 35 when the monitor 11 is swung due to the applied external force and the potentiometer detects the swing angle of the monitor 11. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a monitor-opening / closing control device for opening / closing a display device such as a television supported on a predetermined installation location such as in a building or a vehicle.
[0002]
[Prior art]
2. Description of the Related Art A monitor-opening / closing device that supports an in-vehicle AV device such as a liquid crystal television and a car navigation device so as to be able to open and close between a storage position on a ceiling surface inside a vehicle and a use position suspended from the ceiling surface is known. Have been. (Japanese Patent Application Laid-Open No. 2002-204409)
[0003]
This monitor opening / closing device is responsive to detection signals from the position detection switch for detecting the storage of the AV device, an angle detection sensor for detecting the opening / closing angle of the AV device, and the position detection switch and the angle detection sensor. A control unit for controlling the opening / closing (turning) operation of the AV apparatus.
[0004]
[Problems to be solved by the invention]
In the above monitor-opening / closing device, when the display device, which is an AV device, opens from the storage position, the angle detection sensor detects the actual opening degree of the display device (the angle at which the display device actually opens). When the detected opening angle reaches the preset target opening angle, the control unit regulates the position of the display device to the use position (open position).
[0005]
However, this type of monitor-opening / closing device is subject to the vibration of a vehicle or the like, and the opening angle at the position where the display device is used changes, or a part of the human body or baggage hits the display device, and the use of the display device is reduced. The opening angle at the position may change.
[0006]
If the use position opening angle of the display device changes, the display device becomes difficult to see, so the display device is temporarily returned to the storage position, and the display device is opened again from the storage position to regulate the position to the use position. Was needed.
[0007]
In view of the above-described circumstances, the present invention provides a monitor-opening / closing control device including a displacement correction unit that automatically returns the display device to the use position when the display device at the use position receives an external force and changes the opening angle. The purpose is to provide.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides, as a first invention, a drive device that opens and closes a display device between a storage position provided at a predetermined location such as a vehicle and a use position where the display device is opened, An angle detection sensor for detecting the opening / closing operation of the display device, and control means for restricting the display device to a use position under the control of the driving device by a detection angle of the angle detection sensor and a preset target opening angle. In the monitor opening / closing control device provided with the display device, the display device at the use position oscillates by receiving an external force, and the angle detection sensor detects the oscillating angle, so that the display device is used in accordance with the detection angle of the angle detection sensor. A monitor-opening / closing control device comprising a control unit including a displacement correcting unit for returning to a position is proposed.
[0009]
According to the first aspect, when the display device is performing the opening operation to the use position, the opening angle is changed by receiving vibration of a vehicle or the like, or a part of a human body, baggage, or the like is hit. When the opening angle, which is the use position of the display device, changes due to an external force, such as when the opening angle changes, the displacement correcting means operates, and the display device returns to the use position.
[0010]
Therefore, even if the target opening angle of the display device changes due to an external force, the monitor-opening / closing control device can automatically return to the use position without operating the monitor.
[0011]
According to a second aspect of the present invention, in the monitor-opening / closing control device described above, the monitor-opening-and-closing control device further includes a control unit that deactivates the shift correction unit when the swing angle of the display device detected by the angle detection sensor is within a predetermined range. A monitor-opening / closing control device characterized by this is proposed.
[0012]
The monitor-opening / closing control device according to the second aspect of the present invention is characterized in that, when the display device oscillates under an external force, and when the oscillating angle is within a predetermined range, that is, when the display device oscillates, the deviation correcting means is provided. Inactive.
[0013]
This is because when the shake of the display device is small, for example, within “2 °”, it is less likely that the display device is hard to see, and such small shake correction is prevented from being performed continuously. I do.
[0014]
According to a third invention, in the monitor-opening / closing control device according to the first and second inventions, the control includes a displacement correcting means for returning the display device after a lapse of a predetermined time after the display device swings by receiving an external force. A monitor-opening / closing control device characterized by comprising means is proposed.
[0015]
According to the monitor-opening / closing control device of the third invention, the display device returns to the use position after a lapse of a predetermined time after the display device has been shaken by the external force. The display device returns to the use position after the display device moves away from the opening / closing operation area of the display device.
That is, it is possible to prevent the display device from hitting a part of the human body or the like when returning.
[0016]
According to a fourth invention, in the monitor-opening / closing control device according to any one of the first to third inventions described above, it is possible to lock the display device at the storage position and manually release the locking device. The present invention provides a monitor-opening / closing control device characterized by comprising a manual release means capable of performing the above operation, and a control means for disabling the displacement correction means when the lock device is manually released.
[0017]
The monitor-opening / closing control device according to the fourth aspect of the present invention is configured such that when the lock device of the display device is manually unlocked, the opening and closing operation of the display device can be manually performed freely.
[0018]
According to a fifth invention, in the monitor-opening / closing control device according to any one of the first to fourth inventions, when the display device is in the use position, the driving device holds the display device with low torque. A monitor-opening / closing control device characterized by having a configuration is proposed.
[0019]
In the monitor-opening / closing control device according to the fifth aspect of the present invention, the driving device that opens and closes the display device holds the display device at the use position with a low torque, so that the display device can be slightly shaken due to vibration of a vehicle or the like. Can be prevented.
[0020]
According to a sixth aspect, in the monitor-opening / closing control device according to any one of the first to fifth aspects, a stepping motor is provided as a drive source of the driving device. Suggest a device.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, an embodiment of a monitor-opening / closing control device provided with the present invention in a vehicle such as a sightseeing bus will be described with reference to the drawings.
1 to 13 show an example of a mechanical configuration of the monitor-opening / closing device according to the present invention.
[0022]
1A is a bottom view of the monitor-opening / closing device, FIG. 1B is a side view of a state where the display device is closed, and FIG. 1C is a side view of a state where the display device is open.
In the embodiments described below, the display device is simply referred to as “monitor”.
[0023]
FIG. 2 is a cross-sectional view of the inside of the monitor-opening / closing device shown in FIG. 1 taken along line 2-2 in FIG.
[0024]
3 is a cross-sectional view of the monitor-opening / closing device shown in FIG. 1 taken along line 3-3 in FIG. 2, and FIG. 4 shows a state in which the monitor of the monitor-opening-closing device shown in FIG. FIG. 4 is a sectional view similar to FIG. 3.
[0025]
5A is an enlarged sectional side view near the striker of the monitor opening / closing device shown in FIG. 1, FIG. 5B is an enlarged sectional front view near the striker, and FIG. 5C is an enlarged view near the striker. FIG. 5D is a sectional view taken along line 5d-5d in FIG. 5B.
[0026]
6 (a) and 6 (b) are a rear view and a front view, respectively, of the lock device for the monitor-opening / closing device shown in FIG. 1, and FIG. 7 (a) shows the lock device for the monitor-opening / closing device shown in FIG. FIG. 7B is a cross-sectional side view when the lock device is in the unlocked state.
[0027]
8 is a cross-sectional side view showing the inside of the lock device when the lock device is in a locked state, and FIG. 9 is a cross-sectional side view showing the inside of the lock device when the lock device is electrically unlocked. .
[0028]
FIG. 10 is a cross-sectional side view showing the inside of the lock device when unlocking of the lock device is completed, and FIG. 11 is a cross-sectional side view showing the inside of the lock device when the monitor starts opening operation from the storage position. .
[0029]
FIG. 12 is a cross-sectional side view showing a state where the slide plate of the lock device holds the fork lever in the unlock position.
FIG. 13 is a sectional side view when the fork lever of the lock device is manually unlocked.
[0030]
First, referring to FIGS. 1 and 2, reference numeral 10 denotes a fixed base provided on the interior ceiling 2 of a vehicle such as a sightseeing bus, and reference numeral 11 denotes a monitor having a panel-shaped display unit 12.
The panel-shaped display section 12 is not particularly limited as long as it can display a received video image such as a television reception image and a video, and is not particularly limited. For example, a liquid crystal display section, a plasma discharge display section, or the like can be used.
[0031]
The monitor 11 includes a monitor base 13 attached to the back of the display unit 12 and two monitors fixed to the back side of the monitor base 13 near the left and right sides of the monitor base 13. A base arm 14; a monitor case 13 attached to the monitor base 13 so as to surround the monitor base 13 and the monitor base arms 14; have.
[0032]
The monitor base arms 14, 14 each have one end 14a, 14a projecting from the base end of the monitor base 13 and extending from the base base side of the monitor base 13. One end portions 14a, 14a of these monitor base arms 14, 14 are fixedly provided via shaft stays 16, 16 on a rotating shaft 18 extending in parallel.
[0033]
As shown in FIGS. 2 and 3, the fixed base 10 has a base plate 19 and a base cover 20, and one end 14a of the monitor base arms 14, 14. The portions near both ends of the rotating shaft 18 outside the monitor case 15 surrounding the monitor case 14a are rotated by bearing stays 22, 22 fixed to the base plate 19 via bearings 21, 21, respectively. Supported as possible.
Thus, the monitor 11 is supported by the fixed base 10 so as to be capable of opening and closing with the rotation shaft 18 as a fulcrum.
[0034]
Further, a stepping motor 28 as a driving source of an opening / closing driving device is attached to the base plate 19 via a motor stay, and the driving force of the stepping motor 28 is transmitted through a gear train 30. It is transmitted to the rotating shaft 18.
[0035]
Here, the gear train 30 includes a driven gear 31 integrally attached to a substantially central portion of the rotating shaft 18 in the longitudinal direction via a key, and a driven gear attached to an output shaft of the stepping motor 28. A drive gear 33 meshes with the drive gear 31.
[0036]
Further, a potentiometer 35 for detecting the rotation of the rotary shaft 18 and detecting the opening operation of the monitor 11 is attached to the base plate 19, and the potentiometer 35 is driven. It has a potential gear 36 that rotates while meshing with the gear 31.
This potentiometer 35 constitutes an angle detection sensor.
[0037]
As shown in FIGS. 2 and 3, outside the bearing stays 22, 22, both ends of the rotating shaft 18 extend in a direction perpendicular to the axis of the rotating shaft 18 and are integrated with the rotating shaft 18. Arms 37, 37 which rotate are mounted.
[0038]
A gas spring as an operating spring for urging the arms 37, 37 between the distal ends of the arms 37, 37 and the mounting portions 38, 38 provided on the base plate 19, respectively. 39, 39 are attached.
The gas springs 39 use the pressure of the high-pressure gas sealed in the cylinder tube as a spring.
[0039]
When the monitor 11 rotates from the closed position (storage position) to the open position (use position) at a predetermined angle (use position) (see FIG. 1C), the urging force of the gas spring 39 is applied to the arm 37. Is attached to the rotating shaft 18 so as to act on the rotating shaft 18 as a force moment f2 in a direction to cancel the moment of force f1 due to the weight of the motor.
[0040]
More specifically, when the monitor 11 is in the closed position and in a substantially horizontal posture (see FIG. 3), the arm 37 is in a position extending substantially vertically upward from the rotating shaft 18, and at this time, the gas spring Reference numeral 39 denotes a substantially horizontal posture, and is disposed so as to be substantially perpendicular to the arm 37.
[0041]
Next, the lock device incorporated in the monitor opening / closing device will be described. As shown in FIGS. 2 and 5, a striker 40 is attached to the distal end of the monitor base 13, and A lock device body 41 is attached to the plate 19.
[0042]
As shown in FIGS. 5 (a), 5 (b), 5 (c) and 5 (d), a striker engaging hole 42 is formed on the side surface on the distal end side of the monitor case 15.
The striker 40 has a roller shape, and is disposed in a recess inside the striker engaging hole 42 and has a pair of striker stays 43 fixed to the monitor base 13. Is supported.
[0043]
Referring to FIGS. 6, 7 and 8, the lock device main body 41 has a pair of lock bases 44 and 45 fixed to the base plate 19, and a space between the lock bases 44 and 45 is provided. Is provided with a fork lever 46 and a slide plate 47.
[0044]
As shown in FIGS. 6 and 8, the fork lever 46 has a base end 46a rotatably attached to both lock bases 44, 45 via an attachment shaft 48.
The fork lever 46 is formed in a substantially C-shape from a base end 46a to a tip end 46b, and extends rearward from an intermediate point between the base end 46a and the tip end 46b. -Has a rubber part 46c.
[0045]
A coil spring 49 is stretched between the tip of the arm portion 46c and one of the lock bases 44, and the fork lever 46 is moved from the unlocked position shown in FIG. 8 toward the lock position.
Further, the distal end portion 46b of the fork lever 46 is formed in a bifurcated upper and lower shape, so that it can be engaged with the striker 40 at the lock position.
[0046]
As shown in FIGS. 6, 7 and 8, lock bases 44 and 45 are formed with elongated holes 50 and 51 extending in the vertical direction, and engaging pins 52 fixed to the slide plate 47. The slide plate 47 is slidably engaged with the long holes 50, 51, so that the slide plate 47 allows the fork lever 46 to advance with respect to the lock bases 44, 45 (FIGS. 8 and 9). 9 and a position (see FIGS. 11 and 12) for preventing the fork lever 46 from advancing.
[0047]
The slide plate 47 is directed downward by a coil spring 54 stretched between the slide plate 47 and one of the lock bases 44, that is, to a position where the forward lever 46 is prevented from advancing. Have been energized.
[0048]
As shown in FIGS. 7B and 8, a monitor receiving portion 47a is provided on an upper portion of the slide plate 47 so as to protrude inward of a housing portion for housing the monitor-11.
[0049]
The monitor-receiving portion 47a is pivoted in the closing direction from the open position where the monitor 11 is hung downward, and contacts the upper edge of the distal end of the monitor 11 when approaching the storage position, that is, the closed position. Touch
[0050]
The fork lever 46 is allowed to advance from a position where the fork lever 46 is prevented from being advanced (see FIGS. 11 and 12) by being pushed upward by the upper edge of the distal end portion of the monitor 11. Position (see FIGS. 8 and 9).
[0051]
As shown in FIGS. 6 (a) and 6 (b), a lock motor 55 which is driven in conjunction with the opening / closing operation of the monitor 11 is attached to the outside of one of the lock bases 44. A lock cam 56 rotated by the lock motor 55 is disposed inside the lock cam 55.
The lock cam 56 has a projecting portion 56a which contacts the lower surface of the arm portion 46c of the fork lever 46 to move the fork lever 46 to the unlock position.
(See Fig. 8)
[0052]
Further, the lock motor 55 stops once when the projection 56a of the lock cam 56 moves to the unlock position shown in FIGS. 10 and 11 and the fork lever 46 moves to the unlock position. The lock cam 56 is again rotated to the lockable position so that the protrusion 56a of the lock cam 56 returns to the original position (see FIGS. 8, 12, and 13) outside the drive range of the fork lever 46. Moving.
[0053]
Further, when the protrusion 56a of the lock cam 56 reaches the origin position (see FIGS. 8, 12, and 13) inside one of the lock bases 44, the protrusion 56a comes into contact with the protrusion 56a and outputs a detection signal. When the cam SW (cam switch) 57 and the fork lever 46 reach the unlock position (see FIGS. 10, 11, 12, and 13), the cam SW (cam switch) 57 contacts the fork lever 46 and unlocks. And an unlock SW (unlock switch) 58 for outputting the same.
[0054]
As shown in FIGS. 7A and 7B, when the fork lever 46 reaches the lock position (see FIGS. 7A and 8) outside the other lock base 45. A lock SW (lock switch) 59 that contacts the fork lever 46 and generates a lock detection signal is provided.
The lock SW 59 detects the storage position of the monitor-11.
[0055]
Further, the fork lever 46 is provided with a manual operation arm 60 which can directly unlock the fork lever 46 by directly operating the fork lever 46. The lock base 45 protrudes outward from the lock base 45 through an arc-shaped opening 61 formed in the lock base 45.
[0056]
In addition, in FIG. 2, reference numeral 62 denotes a connector for electrically connecting a battery power source, a key cylinder, an operation opening / closing switch, a television image output unit, and the like of the vehicle. The opening / closing control of the monitor 11 and the lock / unlock control of the lock device are performed in accordance with the input.
[0057]
The connector 62 and the controller 63 are provided on the base plate 19 by utilizing an empty space on the base plate 19 inside the two monitor base arms 14, 14. ing.
[0058]
FIG. 14 is a block diagram of a monitor-opening / closing control circuit for controlling the above-described monitor-opening / closing device.
As shown in the figure, this control circuit is supplied with power by a battery power supply 70 of a vehicle such as a sightseeing bus. -11 can be supplied with power.
This is to ensure that the power supply of the monitor 11 is turned off by turning off the ACCSW such as when the key is pulled out from the key cylinder 71.
That is, forgetting to turn off the power of the monitor 11 is prevented.
[0059]
When the ACCSW is turned on, the open / close SW input unit 75 is operated by the power supply switching unit 74 of the open / close SW (operation open / close switch) 73, and the ON signal of the open / close SW can be input to the controller 63.
The operation opening / closing SW 73 is turned on only when operated, and turned off when the operation is released.
Further, the operation opening / closing SW can be configured as a remote control switch using a wireless signal, an optical signal, or the like, in addition to a mechanical switch.
[0060]
Similarly, when the ACCSW is turned on, the STP motor drive circuit 78 is operated to be capable of supplying power by the power supply switching unit 77, and the lock motor 55 is driven by the operation of the power supply switching unit 79.
As described above, unless the ACCSW is turned ON, the power supply switching unit 74 and the power supply switching units 77 and 79 operate to shut off the power supply and enter the standby mode.
[0061]
The controller 63 includes an opening / closing control unit 87 for the monitor 11, a shift correction unit 88 for correcting the opening angle deviation of the monitor 11, a control unit for instructing unlocking of the lock device, a CPU, a memory, and the like. Also provided is an origin angle memory 80 for storing the origin angle of the potentiometer 35, an opening angle setting value memory 81 for the monitor 11, and opening angle data stored in the opening angle setting value memory 81 for setting the opening angle. An opening angle setting value selection unit 83 for performing a selection operation according to the setting value of the SW 82 is provided.
[0062]
The controller 63 also includes a target opening angle correction unit 84 for correcting the target opening angle based on the target opening angle set by the opening angle setting switch 82 and the origin angle read from the origin angle memory 80. A correction value memory 85 for storing target opening angle data is provided.
Note that the target opening angle correction unit 84 is a correction unit that calculates an origin angle + a set opening angle (a target opening angle).
Here, the origin angle is a detection angle detected by the potentiometer 35 when the monitor 11 is at the storage position.
[0063]
The opening angle setting SW 82 can be configured by a dip SW or the like, and operates the selector 83 so that the target opening angle can be set at a step interval of 5 ° within a range of 90 ° to 120 °.
[0064]
Next, the operation of the above-mentioned monitor opening / closing control circuit will be described with reference to flowcharts shown in FIGS.
First, FIG. 15 is a flowchart showing the overall operation of the controller 63. When the ACCSW is turned on in an initially set state, the flow shifts to the monitor open mode step. (ST100 to ST106)
[0065]
When the lock switch 59 is OFF (see FIGS. 7B and 9) regardless of whether the ACCSW is ON or OFF, the monitor-close mode is set.
That is, when the lock device is unlocked, the mode always shifts to the monitor-close mode. (ST101, ST106, ST107)
[0066]
Specifically, when the monitor 11 is at the closed position (storage position), the lock SW 59 is turned on in conjunction with the locking operation of the lock device.
Accordingly, the controller 63 enters the power down mode in response to the ON signal of the lock SW 59. (ST102)
[0067]
In this power down mode, the controller 63 operates the holding torque movable section 86 shown in FIG. 14, and supplies a holding torque current from the STP motor drive circuit section 78 to the STP motor 28.
[0068]
When the operation opening / closing switch 73 is turned on in the power down mode, the process proceeds to the monitor opening mode shown in FIG. 16 on condition that the lock switch 59 is turned on. (ST102, ST103, ST104, ST105)
[0069]
When the monitor 11 opens from the closed position, the step operation shown in FIG. 16 is performed.
First, the controller 63 releases the power down mode, and then determines whether the unlock switch 58 is ON or OFF.
[0070]
At this stage, since the monitor 11 is in the closed position and the unlock switch 58 is OFF, the lock motor 55 is driven until the unlock switch 58 is turned ON, and then the lock motor 55 is stopped. (ST202, ST203, ST204)
[0071]
That is, the controller 63 drives the lock motor 55 in response to the ON signal of the operation opening / closing SW 73.
Accordingly, as shown in FIGS. 9 and 10, the lock cam 56 rotates, the fork lever 46 turns in the unlocking direction, and the unlock SW 58 is turned on at the turning position where the fork lever 46 is unlocked. . (See Fig. 10)
[0072]
The controller 63 stops the lock motor 55 in response to the ON signal of the unlock switch 58.
With this operation, the lock of the monitor 11 is released, and the opening operation of the monitor 11 becomes possible.
[0073]
Subsequently, the controller 63 proceeds to the setting of the maximum opening angle. (ST205)
In this step ST205, the driving pulse of the STP motor 28 is set so as to open the monitor 11 to 170 °.
[0074]
The monitor 11 is controlled by the controller 63 so as to stop at an opening angle of 90 ° to 120 ° according to the detection angle of the potentiometer 35, but the potentiometer 35 is detected due to a failure or the like. Even when the monitor 11 is disabled, the monitor 11 does not open beyond 170 °.
[0075]
After setting such a maximum opening angle, a drive pulse is supplied from the STP motor drive circuit section 78 to the STP motor 28, and the rotation of the STP motor 28 moves the monitor 11 from the closed position to the open position. Open operation toward. (See Fig. 11)
[0076]
The opening operation of the monitor 11 is the operation of ST206 to ST214.
Since the opening operation of the monitor 11 is detected by the potentiometer 35, the controller 63 compares the monitor opening angle, which is the detection signal, with the target opening angle, which is the set opening angle. (ST206)
[0077]
Then, the steps of ST206 to ST214 are repeated until monitor-actual opening angle> target opening angle.
However, the lock motor 55 is driven and the lock cam 56 is returned to the origin position shown in FIGS. 11 and 12 and rotated until the monitor actual opening angle ≧ 3 °. (ST208 to ST212)
[0078]
Thus, by returning the lock cam 56 at an early stage of the opening operation, the monitor 11 can be manually returned to the closed position when a power failure occurs during the monitor-opening operation.
[0079]
Immediately after the monitor actual opening angle> the target opening angle, the controller 63 stops the STP motor 28 and shifts to the power down mode, and then turns on the monitor power supply.
With the above opening operation, the monitor 11 opens to the target opening angle position, and the monitor 11 such as a television can be viewed.
[0080]
The target opening angle described here is the target opening angle corrected by the origin angle of the potentiometer 35, which will be described later.
Also, by changing the program of the controller 63, the STP motor 28 can be stopped when the actual opening angle of the monitor = the target opening angle, and the power down mode can be achieved.
On the other hand, when the potentiometer 35 cannot be detected, the STP motor 28 is stopped by the controller 63 when the monitor 11 is opened up to 170 ° at the maximum, and the power down mode is set. Become. (ST206, ST215)
[0081]
After the monitor power is turned on in step ST216, the monitor shift correction flag is set, and the operation returns to the initial setting mode shown in FIG.
The displacement correction of the monitor 11 will be described later.
[0082]
On the other hand, returning to FIG. 15, the operation of returning the monitor 11 to the closed position will be described.
When the monitor 11 is in the open position, if the ACCSW is ON and the lock SW 59 is OFF, the monitor close mode is set by turning on the operation opening / closing SW 73. (ST101, ST102, ST103, ST104, ST107)
That is, this is when the lock device is in the unlocked state.
[0083]
The monitor closing mode is performed according to the flowchart shown in FIG.
In the monitor-close operation, first, it is detected whether or not the lock cam 56 has returned to the home position. If not, the lock motor 55 is driven to return the lock cam 56 to the home position. (ST301 to ST304)
[0084]
This step is to ensure that the fork lever 46 is advanced to the lock position. At this stage, the tip 46b of the fork lever 46 abuts against the slide plate 47 with spring force. (See Fig. 12)
[0085]
Subsequently, the monitor power is turned off and the process proceeds to the release of the power down mode. (ST305, ST306)
After that, a drive pulse is supplied to the STP motor 28 by setting the maximum closing angle of the monitor 11, and the maximum closing angle is set to be up to 170 from the open position even when the lock SW 59 is undetectable. When the closing operation is performed, the STP motor 28 is stopped by the controller 63. (ST307)
[0086]
The closing operation of the monitor 11 is performed by reversing the STP motor 28, and becomes the step operation of ST308 to ST311.
That is, the steps of the closing operation are repeated until the lock SW 59 is turned on, and the closing operation of the monitor 11 stops when the lock SW 59 is turned on. (ST308)
[0087]
That is, when the monitor 11 approaches the closed position (storage position), the slide plate 47 is pushed up by the distal end of the monitor and rises. The clevers 46 are engaged with the striker 40 to be locked.
At this time, the fork lever 46 turns on the lock SW 59. (See Fig. 7)
[0088]
When the monitor 11 is turned to the closed position, the power is shifted to the power down mode following the useless pushing and closing drive, and thereafter, the STP motor is stopped. (ST312, ST313, ST314)
After the monitor 11 is closed as described above, the shift correction flag of the monitor 11 is cleared and the operation returns to the initial setting mode shown in FIG. (ST315, ST100)
The clearing of the deviation correction flag will be described later.
[0089]
Next, the initialization mode shown in FIG. 15 will be described.
This initial setting mode is the operation of the flowchart shown in FIG.
[0090]
That is, the controller 63 acquires the current opening / closing angle of the monitor in response to the detection signal of the potentiometer 35. (ST401)
Then, it is determined whether the lock SW 59 is ON or OFF. If the lock SW 59 is OFF, that is, if the lock device is unlocked, the process proceeds to the position detection step of the opening angle setting SW 82. (ST402, ST405)
[0091]
When the lock switch 59 is ON, that is, when the lock device is locked, it is determined whether or not the detection angle of the potentiometer 35 is within 50 °. The process proceeds to the position detection step ST405 of the angle setting SW82.
If the detected angle is within 50 °, the origin angle is replaced with the detected angle. (ST402, ST403, ST404)
[0092]
Specifically, the current opening / closing angle obtained from the potentiometer 35 is the sum of the origin angle and the actual opening angle of the monitor 11, so that the monitor 11 has an angle of 90 ° to 120 °. When the lock SW 59 is OFF at the open position, the normal operation is performed, and the position of the open angle setting SW 82 is immediately detected, and the set open angle (target open angle) by the open angle setting SW 82 is detected. .
[0093]
Therefore, in the position detection step ST405 of the opening angle setting switch 82, the set opening angle is selected from the opening angle setting value memory 81 according to the setting position of the opening angle setting switch 82.
The selected set opening angle is corrected as a target opening angle in the next step ST406. (ST405, ST406)
[0094]
In step ST406 for correcting the target opening angle, the target opening angle correction section 84 of the controller 63 adds the origin angle read from the origin angle memory 80 to the selected target opening angle, and the corrected target opening angle obtained by the addition is obtained. The target opening angle data is stored in the correction value memory 85.
[0095]
As a result, if the monitor 11 is opened until the detection angle of the potentiometer 35 becomes equal to the target opening angle which is the memory data of the correction value memory 85, the target opening angle set by the opening angle setting switch 82 is set. , The monitor 11 can be opened.
[0096]
On the other hand, if it is determined in step 402 that the lock SW 59 is ON, the following operation is performed.
That is, when the acquired opening / closing angle (origin angle + actual opening angle of monitor−) exceeds 50 °, the process proceeds to step ST405 of the opening angle setting SW 82 as described above.
That is, in this case, the target opening angle set using the origin angle read from the origin angle memory 80 is corrected.
[0097]
If the angle is within 50 °, the origin angle read from the origin angle memory 80 is replaced with the current opening / closing angle. (ST403, ST404)
That is, the fact that the lock SW 59 is ON is usually a locked state of the monitor-11.
Therefore, in steps ST403 and ST404, the locking device is manually operated while the monitor 11 is open, and the processing operation is performed even if the locking device is locked by mistake.
[0098]
If the obtained opening / closing angle is within 50 °, the opening / closing angle at that time is changed to the origin angle and corrected as the target opening angle.
In this case, the monitor 11 is opened from the predetermined open position to the use position. However, since such an operation does not occur except when an erroneous operation is performed, the opening operation hardly occurs.
[0099]
On the other hand, when the monitor 11 is retracted, the actual opening angle of the monitor 11 is “0”, so that only the origin angle is acquired as the current opening / closing angle, and the lock SW 59 is also ON. , ST403 to ST405, the target opening angle is corrected by the origin angle.
In other words, the same operation is performed even when the origin angle is 50 °.
[0100]
That is, even if the deviation of the origin angle of the potentiometer 35 is 50 °, the target opening angle is normally corrected by this origin angle.
As a result, when the potentiometer 35 is mounted, the initial detection angle may be set to the origin angle within 50 °, so that the mounting is simplified and the adjustment of the origin angle is not required.
Since the deviation of the origin angle is caused by the careless rotation of the potentiometer 36 when the potentiometer 35 is mounted, it is not necessarily limited to 50 ° but can be set to any angle.
[0101]
Returning to FIG. 15, the shift correction mode will be described.
Here, the deviation correction is an operation of returning the opening angle that changes when the monitor 11 swings by receiving an external force at the use position to the target opening angle.
[0102]
Therefore, the operation is performed when the monitor 11 is opened to the use position and the shift correction flag is set.
When the shift correction operation is performed, the monitor power supply is turned on, and the shift correction mode is set. (ST108, ST109, ST110)
Here, since the monitor 11 is shaken by the external force, the power may be turned off even though the monitor 11 is in the use position. Therefore, the monitor-power is checked.
[0103]
The shift correction mode operates as a flowchart shown in FIGS.
The shift correction operation is performed when the lock SW 59 is turned on until the monitor 11 is housed, the ACCSW is turned off, or when the monitor is immediately returned and the opening angle of the monitor reaches the target opening angle. Instead, as shown in FIG. 20, after returning to the power down mode, the operation returns to the initial setting mode shown in FIG. (ST501, ST502, ST504, ST522)
[0104]
The controller 63 acquires the current monitor opening / closing angle from the potentiometer 35 on condition that the lock SW 59 is OFF and the ACCSW is ON, and sets the actual opening angle of the monitor to the corrected target opening angle. If larger, the process proceeds to steps ST506 to ST513. (ST503, ST504, ST505)
[0105]
That is, when the monitor 11 swings in the opening direction, it is determined whether or not the shake is within 2 °, and if it is within 2 °, the process shifts to the power down mode without correcting the displacement. (ST506)
When the shake is 2 ° or more, after waiting for 3 seconds, the operations of steps ST508 to ST513 are repeated.
[0106]
More specifically, the STP motor 28 is driven in the monitor closing direction by 0.5 ° while comparing the current opening / closing angle obtained from the potentiometer 35 with the target opening angle, and the opening / closing angle <the target opening angle. When the angle is reached, the shift correction is terminated and the operation moves to the power down mode. (ST510, ST511, ST512, ST513, ST522)
[0107]
If the opening / closing angle <the target opening angle in step ST505 for judging the monitor shake, the operation of the flowchart shown in FIG. 20 is performed when the monitor 11 is touched in the closing direction.
[0108]
In this case as well, when the vibration is within 2 °, the process proceeds to the power-down mode without correcting the deviation, and when the vibration exceeds 2 °, after waiting for 3 seconds, the process proceeds to the correction steps of ST516 to ST521. (ST514, ST515, ST522)
[0109]
The correction operation in steps ST516 to ST521 is performed while judging the current opening / closing angle obtained from the potentiometer 35 in the same manner as described above. However, in this case, the STP motor 28 is set at 0. When the opening / closing angle is greater than the target opening angle, the power is shifted to the power down mode, and thereafter, the operation returns to the initial setting mode shown in FIG. (ST519, ST521, ST522)
[0110]
Next, returning to FIG. 15, the standby mode will be described.
In the standby mode, the standby operation is performed on the condition that the monitor 11 is in the closed position, the deviation correction flag is cleared, and the ACCSW is OFF.
If it is determined in step ST111 that the ACCSW is OFF, it is determined that the ACCSW is ON, and the process returns to the initial setting mode. (ST108, ST111, ST112)
[0111]
The standby mode is performed according to a flowchart shown in FIG.
That is, since the monitor is in the monitor-closed position and is in the locked state, it is determined that the lock SW 59 is ON, and then the monitor-power supply is turned off to be in a standby state. (ST601, ST602, ST603)
[0112]
That is, the power supply to the monitor 11 is cut off by the power supply switching unit 72.
This standby state is maintained while the ACCSW is OFF. (ST603, ST604)
This operation prevents the monitor-power supply from being forgotten to be turned off.
[0113]
When the ACCSW is turned on in the standby state, the standby is released and the operation returns to the initial setting mode shown in FIG. (ST604, ST605)
When the lock switch 59 is OFF, that is, when the lock device is unlocked, the operation returns to the initial setting mode without performing the standby operation.
[0114]
In the standby step ST603, the monitor 11 is locked at the storage position, the lock SW 59 is turned on, the monitor power is turned off when the ACCSW is turned off, and the STP motor drive unit 78 is turned off. ing.
Therefore, during this standby operation, the manual release arm 60 is operated to unlock the lock device, and the monitor 11 can be manually opened.
[0115]
More specifically, the manual release arm 60 is operated to rotate the fork lever 46 against the spring force of the coil spring 49 as shown in FIG. Release the suspension.
By releasing the lock, the monitor 11 can be manually opened as shown by the arrow in the figure.
In this way, the monitor 11 can be manually opened to repair a failure of the monitor opening / closing device.
[0116]
Further, since the above-described standby operation is performed in the operation mode when the deviation correction flag is not set, when the lock is manually released as described above, the controller 63 does not perform the deviation correction. In other words, the shift correction means is kept inactive.
[0117]
Although the embodiment of the present invention has been described above, the angle detection sensor is not limited to the potentiometer 35, and other similar angle detection sensors can be used. The switch may be any switch that can detect the storage position of the monitor. Therefore, the switch is not necessarily linked to the locking operation of the lock device, and the position detection switch may be configured as an optical chair. .
[0118]
【The invention's effect】
As described above, in the present invention, when the display device that has been opened to the use position swings by receiving an external force, the displacement correction means for returning the display device to the use position is provided. A monitor-opening / closing control device that can automatically correct is provided.
[0119]
In addition, according to the present invention, the deviation correction unit does not operate with respect to the wiggle of the display device, and by adopting a configuration in which the wiggle of the display device is absorbed, fine vibration of the display device can be prevented. The display device is moved back after a predetermined time has elapsed after the display device has been shaken by an external force, whereby it is possible to prevent the display device from hitting a part of a human body or the like when the display device is moved back. .
[0120]
Further, the present invention includes a lock device for locking the display device in the storage position and a manual unlock device for manually unlocking the lock device, and holds the shift correcting means in a non-operation state in the standby mode. With this configuration, the monitor-opening / closing control device can manually release the lock device and manually open the display device.
[Brief description of the drawings]
1A and 1B show a monitor-opening / closing device, wherein FIG. 1A is a bottom view, FIG. 1B is a side view of the monitor closed, and FIG. 1C is a side view of the monitor open state. is there.
FIG. 2 is a cross-sectional view of the inside of the monitor-opening / closing device shown in FIG. 1, taken along line 2-2 in FIG. 1 (b).
FIG. 3 is a sectional view of the monitor-opening / closing device shown in FIG. 1, taken along line 3-3 in FIG. 2;
FIG. 4 is a sectional view similar to FIG. 3, showing a state in which the monitor shown in FIG. 1 is open.
5 (a) is an enlarged sectional side view near a striker of the monitor-opening / closing device shown in FIG. 1, (b) is an enlarged sectional front view near the striker, and (c) is an enlarged transverse section near the striker. (D) is a cross-sectional view taken along line 5d-5d in (b).
FIGS. 6A and 6B are a rear view and a front view, respectively, of the lock device of the monitor-opening / closing device shown in FIG.
7A is a cross-sectional side view when the lock device of the monitor-opening / closing device shown in FIG. 1 is in a locked state, and FIG. 7B is a cross-sectional side view when the lock device is in an unlocked state.
FIG. 8 is a sectional side view showing the inside of the lock device when the lock device is in a locked state.
FIG. 9 is a sectional side view showing the inside of the lock device when the lock device is electrically unlocked.
FIG. 10 is a cross-sectional side view showing the inside of the lock device when the lock release of the lock device is completed.
FIG. 11 is a sectional side view showing the inside of the lock device when the display device starts the opening operation from the storage position.
FIG. 12 is a sectional side view showing a state in which a slide plate of the lock device holds the fork lever in an unlock position.
FIG. 13 is a sectional side view when the fork lever of the lock device is manually unlocked.
FIG. 14 is a circuit block diagram of a monitor-opening / closing control device shown as one embodiment of the present invention.
FIG. 15 is a flowchart showing an overall operation of the monitor-opening / closing control device.
FIG. 16 is a flowchart showing the opening operation of the monitor.
FIG. 17 is a flowchart showing the closing operation of the monitor.
FIG. 18 is a flowchart showing an initial setting operation.
FIG. 19 is a flowchart showing a monitor displacement correcting operation.
FIG. 20 is a flowchart similar to FIG. 19;
FIG. 21 is a flowchart showing a standby operation.
[Explanation of symbols]
11 Monitor
14 Monitor base arm
18 rotating shaft
28 STP motor
31 driven gear
32 drive gear
35 Potentiometer
36 Potentiation gear
37 Arm
39 gas spring
40 striker
46 Fork lever
47 striker plate
55 Rock Motor
56 Lock cam
57 Cam SW
58 Unlock SW
59 Lock SW
60 Manual release arm
63 Controller
70 Battery Power
71 key cylinder
72 Power supply switching unit
73 Operation open / close SW
74 Power supply switching unit
75 Open / close SW input section
77 Power supply switching section
78 STP drive circuit section
79 Power supply switching section
80 Origin angle memory
82 Open angle setting SW
84 Target opening angle correction unit
85 Correction value memory
86 Holding torque variable section

Claims (6)

A driving device that opens and closes the display device between a storage position provided at a predetermined location such as a vehicle and a use position where the display device is opened, an angle detection sensor that detects opening and closing operations of the display device, and an angle detection sensor. A monitor-opening / closing control device comprising: a control unit for restricting a display device to a use position under the control of the driving device by a detection angle of a predetermined target opening angle
A control including a displacement correcting means for causing the display device at the use position to shake due to an external force and for the angle detection sensor to detect the shake angle to return the display device to the use position in accordance with the detection angle of the angle detection sensor. A monitor-opening / closing control device comprising means. The monitor-opening / closing control device according to claim 1,
A monitor-opening / closing control device comprising control means for disabling a shift correction means when a shake angle of a display device detected by an angle detection sensor is within a predetermined range. 3. The monitor-opening / closing control device according to claim 1, further comprising a control unit including a displacement correcting unit that causes the display device to return after a predetermined time has elapsed after the display device has been shaken by receiving an external force. Monitor-opening / closing control device. The monitor-opening / closing control device according to claim 1,
A lock device that locks the display device in the storage position, and a manual release unit that can manually release the lock device are provided,
A monitor-opening / closing control device comprising control means for disabling the shift correction means when the lock device is manually released. The monitor-opening / closing control device according to any one of claims 1 to 4,
The monitor-opening / closing control device, wherein the driving device holds the display device with low torque when the display device is in the use position. The monitor-opening / closing control device according to claim 1,
A monitor opening / closing control device comprising a stepping motor as a driving source of the driving device.

Images