JP4166055B2 - controller - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a controller that is operated when, for example, a mark displayed on a monitor screen is moved to an arbitrary position.
[0002]
[Prior art]
Video games installed in game centers and the like are equipped with a controller for operating marks (characters) displayed on a monitor screen. In general, a lever (joystick) protruding from the operation panel is used as the controller. The shaft constituting the joystick is held so as to be able to tilt forward, backward, left and right with respect to the operation panel via a joint. A grip is attached to one end side of the shaft so that the player can easily grip it, and a plate is attached to the multi-end side. Around the plate, microswitches are attached to the front, rear, left and right four parts so as to surround the plate.
When the player tilts the shaft forward, the plate comes into contact with the microswitch attached rearward, and the desired mark displayed on the monitor screen moves forward. When the player tilts the shaft to the right, the plate comes into contact with the microswitch attached to the left, and the desired mark displayed on the monitor screen moves to the left. When both the front-rear microswitch and the left-right microswitch are turned on by the plate, for example, when the shaft is tilted to the right diagonally forward, the rear microswitch and the left microswitch 2 One switch is turned on in contact with the plate, and the desired mark moves diagonally right forward on the monitor screen.
[0003]
[Problems to be solved by the invention]
However, the controller in the above prior art has the following problems.
The mark moves in the horizontal 8 directions on the monitor screen based on the operation of the controller. However, since the controller of the above prior art tilts through the joint, the grip gripped by the player is actually a circular movement instead of a horizontal movement. is doing.
That is, although the mark moves horizontally on the monitor screen, the grip of the controller operated by the player is an arc movement. For this reason, the player feels uncomfortable with the operation of the controller. For this reason, there is a problem that the quality of the entire game is lowered, and as a result, the fun is lowered.
The present invention has been made to solve the above problems, and an object of the present invention is to provide a controller having a grip that can be translated with respect to a base.
[0004]
[Means for Solving the Problems]
In order to achieve the above object, the invention according to claim 1 provides a grip base. In A support member that supports the support member so as to be movable in parallel, an urging unit that constantly urges the support member from the outside in a neutral direction, and a periphery of the support member. Radially at 90 ° intervals Provided, While having a contact piece urged in a protruding direction by elastic force, As the grip moves Above In contact with the support member Four pressed And a switch The biasing means is a fixed plate having a substantially square top plate and four side plates suspended from each side of the top plate, and is attached to each side plate of the fixed plate and is located above the top plate. And four leaf springs that urge the support member from four directions to the neutral direction by protruding pressing portions, and each of the switches is positioned between the leaf springs in plan view. When the supporting member presses only the contact piece of any one of the four switches by the operation of the grip, the two leaf springs arranged on both sides of the switch are arranged. On the other hand, when pressing the contact pieces of two adjacent switches among the four switches at the same time, one leaf spring disposed between the two switches To elastic force To move This is the gist.
The gist of the invention described in claim 2 is that, in the invention described in claim 1, the grip is horizontally moved with its movement amount regulated by the guide means.
According to a third aspect of the present invention, in the second aspect of the present invention, the guide means includes a circular hole and a guide pin that contacts an inner peripheral edge of the circular hole, and the circular hole is formed on the support member side or the base side. The gist of the present invention is that the guide pin formed on either one of the support member and the base is formed on the other side.
In invention of Claim 4, in the invention in any one of Claims 1-3, the said support member of the said Four The gist of the present invention is that the input portion for the switch is configured as an arc portion equidistant from the center of the support member.
[0005]
(Function)
In the first aspect of the present invention, when the grip is translated with respect to the base, the support member contacts one of the switches. The moving direction of the grip is detected based on a signal from the contacted switch. When the player removes the force from the grip, the grip is returned to the neutral position by the biasing force of the biasing means.
In the invention described in claim 2, in addition to the operation of the invention described in claim 1, when the grip is moved, the grip can be smoothly translated by the guide means.
In addition to the effect | action of the invention of Claim 2, in invention of Claim 3, in any one of a support member side or a base side with respect to the circular hole formed in any one of a support member side or a base side The guide pin formed on the other side is in contact with the inner peripheral edge thereof to restrict the movement of the grip and is guided by the inner peripheral edge to allow the grip to move circularly.
In the invention according to the fourth aspect, in addition to the action of the invention according to any one of the first to third aspects, an action that is difficult to occur in a normal grip operation of the player, for example, a “twist” that rotates the grip itself. Even when such an operation is performed, the input portion is formed in an arc shape, so that the input portion does not interfere with the switch, and unscheduled input is less likely to occur. The input part shape may be a disk shape in which arc shapes are connected.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment in which the present invention is embodied in a game machine with a monitor screen will be described with reference to the drawings.
As shown in FIG. 1, a monitor screen 12 is installed on the upper surface of the housing 11. On the monitor screen 12, a star-shaped mark M1 and a circular mark M2 are displayed. A controller 13 is installed in front of and behind the monitor screen 12.
As shown in FIGS. 2 to 4, the base 14 constituting the controller 13 is attached and fixed to the upper surface of the housing 11 by screws 10 so as to be parallel to the monitor screen 12. A micro switch mounting plate 15 is attached to the center of the base 14. Four microswitches of the first microswitch S1, the second microswitch S2, the third microswitch S3, and the fourth microswitch S4 are attached to the microswitch mounting plate 15 radially at intervals of 90 degrees. Each of the microswitches S1 to S4 is connected to a control device (not shown).
[0007]
A contact piece 16 extending obliquely upward protrudes from each of the microswitches S1 to S4. The contact piece 16 is supported by a case 18 so as to be rotatable about a shaft 17. A spring (not shown) is accommodated in the case 18, and the contact piece 16 is always urged upward by the elastic force of the spring. In this state, each of the microswitches S1 to S4 is in an off state. A force against the elastic force of the spring is applied to the contact piece 16, and when the contact piece 16 rotates by a certain amount, the microswitches S1 to S4 output an ON signal to the control device. .
A disk-shaped pressing plate 19 constituting a support member and an input unit is placed on the contact piece 16 of each microswitch S1 to S4. A shaft 20 constituting a support member is supported at the central portion of the pressing plate 19. The upper part of the shaft 20 has a quadrangular prism shape, and a screw hole 21 is formed on the upper end surface.
[0008]
A fixing plate 22 is attached and fixed to the base 14 with screws 23 so as to surround the microswitch mounting plate 15 and the pressing plate 19. A first plate spring B1, a second plate spring B2, a third plate spring B3, and a fourth plate spring B4 as urging means are attached and fixed to the four side plates 24 of the fixed plate 22 by screws 25. The upper ends of the plate springs B1 to B4 protrude upward from the top plate 26, and the tip portions thereof are pressing portions 27 that are bent toward the top plate 26 side. Yes. A through hole 28 is formed in the central portion of the top plate 26, and the shaft 20 is inserted therethrough. The shaft 20 can move freely in the through hole 28 in the front-rear and left-right directions. Two columnar guide pins 29 constituting guide means are erected on the upper surface of the top plate 26 so as to sandwich the through hole 28.
[0009]
On the top plate 26, a square guide plate 30 constituting a supporting member is placed. A fitting hole 32 for fitting with the shaft 20 is formed at the center of the guide plate 30. The guide plate 30 is formed with a guide hole 33 that constitutes a guide means through which the guide pin 29 of the fixed plate 22 is inserted. The guide hole 33 is formed with a larger diameter than the guide pin 29. In the state where the guide plate 30 is placed on the top plate 26 without applying external force, the guide plate 30 is moved against the top plate 26 by the elastic force of each of the leaf springs B1 to B4 as shown in FIG. It is arranged in the central part (neutral position).
Each member except the base 14 is shielded by a cup-shaped grip 34 so that it cannot be seen from the outside. A hole 35 is formed at the center of the grip 34, and a screw 36 is screwed into the screw hole 21 of the shaft 20 through the hole 35. As a result, the grip 34, the guide plate 30, and the pressing plate 19 are integrally moved via the shaft 20. When the grip 34 is in the neutral position, that is, when the pressing plate 19 is in the state shown in FIGS. 3 and 4, the microswitches S <b> 1 to S <b> 4 are held in the off state.
A plurality of balls 40 are interposed between the pressing plate 19 and the top plate 26 of the fixed plate 22 and between the guide plate 30 and the top plate 26. By this ball 40, the pressing plate 19 and the guide plate 30 can be smoothly translated with respect to the fixed plate 22.
[0010]
Next, the electrical configuration will be briefly described.
As described above, each of the microswitches S1 to S4 is connected to a control device. When an ON signal is input from the first micro switch S1, the control device moves the marks M1 and M2 displayed on the monitor screen 12 in the forward direction. Further, when the ON signal is input from the second micro switch S2, the control device moves the marks M1 and M2 displayed on the monitor screen 12 in the backward direction. Further, when an ON signal is input from the third micro switch S3, the control device moves the marks M1 and M2 displayed on the monitor screen 12 in the left direction. Further, when the ON signal is input from the fourth micro switch S4, the control device moves the marks M1 and M2 displayed on the monitor screen 12 in the right direction.
[0011]
In addition, when the ON signal is input from both the first micro switch S1 and the third micro switch S3, the control device moves the marks M1 and M2 diagonally forward to the left. In addition, when the ON signal is input from both the first micro switch S1 and the fourth micro switch S4, the control device moves the marks M1 and M2 diagonally forward to the right. Further, when the ON signal is input from both the second micro switch S2 and the third micro switch S3, the control device moves the marks M1 and M2 diagonally to the left rear. Further, when the ON signal is input from both the second micro switch S2 and the fourth micro switch S4, the control device moves the marks M1 and M2 diagonally to the right rear.
[0012]
Next, the operation of the controller 13 configured as described above will be described.
First, when the grip 34 of the controller 13 is in the neutral position, that is, as shown in FIGS. 3 and 4, the marks M1 and M2 on the monitor screen 12 are at the positions when the micro switches S1 to S4 are off. It is held stagnant.
When the player wants to move the position of the mark M1 (M2) forward, the player holds the grip 34 and resists the elastic force of the leaf springs B1 and B4 as shown in FIGS. Slide the grip 34 forward. Then, the guide plate 30 and the pressing plate 19 move together with the grip 34 via the shaft 20. The amount of movement of the grip 34 is regulated by the interference between the guide pins 29 of the fixed plate 22 and the guide holes 35 of the guide plate 30. As the grip 34 moves, the pressing plate 19 presses the contact piece 16 of the first micro switch S1, and the switch S1 is turned on. When the first micro switch S1 is turned on, the mark M1 (M2) on the monitor screen 12 moves forward.
When the player wants to stop the movement of the mark M1 (M2), the player releases the external force applied to the grip 34. That is, the force on the grip 34 is released. Then, the guide plate 30 is pressed backward by the elastic force of the leaf springs B1 and B4, and the grip 34 and the pressing plate 19 are returned to the neutral positions of FIGS. When the pressing plate 19 returns to the neutral position, the microswitch S1 is turned off, and the forward movement of the mark M1 (M2) is stopped.
[0013]
When the player wants to move the mark M1 (M2) backward, the player holds the grip 34 and moves backward (front) against the elastic force of the leaf springs B2 and B3 as shown in FIG. The grip 34 is slid. Then, the guide plate 30 and the pressing plate 19 move integrally with the grip via the shaft 20. The amount of movement of the grip 34 is regulated by the interference between the guide pins 29 of the fixed plate 22 and the guide holes 35 of the guide plate 30. As the grip 34 moves, the pressing plate 19 presses the contact piece 16 of the second microswitch S2, and the switch S2 is turned on. When the second micro switch S2 is turned on, the mark M1 (M2) on the monitor screen 12 moves forward. When the player wants to stop the movement of the mark M1 (M2), the player releases the external force applied to the grip 34. That is, the force on the grip 34 is released. Then, the guide plate 30 is pressed backward by the elastic force of the leaf springs B2 and B3, and the grip 34 and the pressing plate 19 are returned to the neutral positions of FIGS. When the pressing plate 19 returns to the neutral position, the second micro switch S2 is turned off, and the movement of the mark M1 (M2) is stopped.
[0014]
If the player wishes to move the mark M1 (M2) to the right, the player holds the grip 34 and resists the biasing force of the leaf springs B1 and B2, as shown in FIG. Slide the grip 34 to the right. Then, the guide plate 30 and the pressing plate 19 move together with the grip 34 via the shaft 20. The amount of movement of the grip 34 is regulated by the interference between the guide pins 29 of the fixed plate 22 and the guide holes 35 of the guide plate 30. As the grip 34 moves, the pressing plate 19 presses the contact piece 16 of the fourth micro switch S4, and the switch S4 is turned on. When the fourth micro switch S4 is turned on, the mark M1 (M2) on the monitor screen 12 moves to the right.
When the player wants to stop the movement of the mark M1 (M2), the player releases the force on the grip 34. Then, the guide plate 30 is pressed backward by the elastic force of the leaf springs B1 and B2, and the grip 34 and the pressing plate 19 are returned to the neutral positions of FIGS. When the pressing plate 19 returns to the neutral position, the fourth micro switch S4 is turned off, and the movement of the mark M1 (M2) is stopped.
[0015]
When the player wants to move the position of the mark M1 (M2) to the left, the player holds the grip 34 and moves it to the left against the elastic force of the leaf springs B3 and B4 as shown in FIG. The grip 34 is slid. Then, the guide plate 30 and the pressing plate 19 move together with the grip 34 via the shaft 20. The amount of movement of the grip 34 is regulated by the interference between the guide pins 29 of the fixed plate 22 and the guide holes 35 of the guide plate 30. As the grip 34 moves, the pressing plate 19 presses the contact piece 16 of the third micro switch S3, and the switch S3 is turned on. When the third micro switch S3 is turned on, the mark M1 (M2) on the monitor screen 12 moves to the left.
When the player wants to stop the movement of the mark M1 (M2), the player releases the external force applied to the grip 34. That is, the force on the grip 34 is released. Then, the guide plate 30 is pressed backward by the elastic force of the leaf springs B3 and B4, and the grip 34 and the pressing plate 19 are returned to the neutral positions of FIGS. When the pressing plate 19 returns to the neutral position, the third micro switch S3 is turned off, and the movement of the mark M1 (M2) is stopped.
[0016]
Further, when the player wants to move the position of the mark M1 (M2) diagonally forward to the right, the player holds the grip 34 and moves it to the right against the elastic force of the leaf springs B1 and B2, as shown in FIG. Slide the grip 34 diagonally forward. Then, the guide plate 30 and the pressing plate 19 move together with the grip 34 via the shaft 20. The amount of movement of the grip 34 is regulated by the interference between the guide pins 29 of the fixed plate 22 and the guide holes 35 of the guide plate 30. As the grip 34 moves, the pressing plate 19 presses the contact pieces 16 of the first micro switch S1 and the fourth micro switch S4, and both switches S1 and S4 are turned on. When both switches S1 and S4 are turned on, the mark M1 (M2) on the monitor screen 12 moves diagonally right forward.
When the player wants to stop the movement of the mark M1 (M2), the player releases the external force applied to the grip 34. That is, the force on the grip 34 is released. Then, the guide plate 30 is pressed diagonally to the left by the elastic force of the leaf spring B1, and the grip 34 and the pressing plate 19 are returned to the neutral position in FIGS. When the pressing plate 19 returns to the neutral position, the first micro switch S1 and the fourth micro switch S4 are turned off, and the movement of the mark M1 (M2) is stopped.
[0017]
When the player wants to move the position of the mark M1 (M2) diagonally to the left, the player holds the grip 34 and slides the grip 34 diagonally to the left against the elastic force of the leaf spring B4. Then, the guide plate 30 and the pressing plate 19 move together with the grip 34 via the shaft 20. The amount of movement of the grip 34 is regulated by the interference between the guide pins 29 of the fixed plate 22 and the guide holes 35 of the guide plate 30. As the grip 34 moves, the pressing plate 19 presses the contact pieces 16 of the first microswitch S1 and the third microswitch S3, and both switches S1 and S3 are turned on. When both the micro switches S1 and S4 are turned on, the mark M1 (M2) on the monitor screen 12 moves diagonally leftward and forward.
When the player wants to stop the movement of the mark M1 (M2), the player releases the external force applied to the grip 34. That is, the force on the grip 34 is released. Then, the guide plate 30 is pressed backward by the elastic force of the leaf spring B4, and the grip 34 and the pressing plate 19 are returned to the neutral positions of FIGS. When the pressing plate 19 returns to the neutral position, both the micro switches S1 and S4 are turned off, and the movement of the mark M1 (M2) is stopped.
[0018]
When the player wants to move the position of the mark M1 (M2) diagonally to the left, the player holds the grip 34 and slides the grip 34 diagonally to the left diagonally against the elastic force of the leaf spring B3. Then, the guide plate 30 and the pressing plate 19 move together with the grip 34 via the shaft 20. The amount of movement of the grip 34 is regulated by the interference between the guide pins 29 of the fixed plate 22 and the guide holes 35 of the guide plate 30. As the grip 34 moves, the pressing plate 19 presses the contact pieces 16 of the second microswitch S2 and the third microswitch S3, and both switches S2 and S3 are turned on. When both the microswitches S2 and S3 are turned on, the mark M1 (M2) on the monitor screen 12 moves diagonally leftward and backward.
When the player wants to stop the movement of the mark M1 (M2), the player releases the external force applied to the grip 34. That is, the force on the grip 34 is released. Then, the guide plate 30 is pressed backward by the elastic force of the leaf spring B3, and the grip 34 and the pressing plate 19 are returned to the neutral positions of FIGS. When the pressing plate 19 returns to the neutral position, both the micro switches S2 and S3 are turned off, and the movement of the mark M1 (M2) is stopped.
[0019]
When the player wants to move the position of the mark M1 (M2) diagonally to the right, the player holds the grip 34 and slides the grip 34 diagonally to the right against the elastic force of the leaf spring B2. Then, the guide plate 30 and the pressing plate 19 move together with the grip 34 via the shaft 20. The amount of movement of the grip 34 is regulated by the interference between the guide pins 29 of the fixed plate 22 and the guide holes 35 of the guide plate 30. As the grip 34 moves, the pressing plate 19 presses the contact pieces 16 of the second micro switch S2 and the fourth micro switch S4, and both switches S2 and S4 are turned on. When both the micro switches S2 and S4 are turned on, the mark M1 (M2) on the monitor screen 12 moves to the right and rearward.
When the player wants to stop the movement of the mark M1 (M2), the player releases the external force applied to the grip 34. That is, the force on the grip 34 is released. Then, the guide plate 30 is pressed backward by the elastic force of the leaf spring B2, and the grip 34 and the pressing plate 19 are returned to the neutral positions of FIGS. When the pressing plate 19 returns to the neutral position, both the micro switches S2 and S4 are turned off, and the movement of the mark M1 (M2) is stopped.
Here, the grip 34 is once returned to the neutral position, but it is also possible to operate without returning to the neutral position from a certain direction (for example, rearward) to a certain direction (for example, diagonally rearward to the right). In this case, the grip 34 is moved circularly while the guide pin 29 and the guide hole 33 in the interference state are in sliding contact with the inner peripheral edge of the guide hole 33 as they are.
[0020]
Here, when the player is enthusiastic about the play and operates the grip 34, the grip 34 may move other than the above-mentioned schedule. Specifically, there is a possibility that the player twists the grip to give the pressing plate 19 or the guide plate 30 a rotational (spinning) motion around the shaft 20. Since the guide plate 30 is only surrounded by the leaf springs B1 to B4 from four directions, such a twist cannot be reliably prevented. The leaf springs B1 to B4 are pushed outward by the rotation of the guide plate 30. However, since the pressing plate 19 is formed in a disc shape, even if such a rotational movement occurs, the contact of the microswitches S1 to S4 with the contact piece 16 does not occur in principle. .
If this is, for example, a square pressing plate, the distance from the center to the peripheral edge is different, so that a rotational movement occurs, causing interference with the unintended contact piece 16 and possibly causing the controller 13 to become inoperable. There is. However, since the disc-shaped pressing plate 19 is equidistant from the center to the peripheral edge, there is no interference with the contact piece 16 even if such an unintended operation of the grip 34 is performed. There is no hindrance to the operation.
[0021]
As described above, by configuring the controller 13 in this embodiment, the following effects can be obtained.
Unlike the conventional controller that performs an input operation by moving the grip in a circular arc, the grip 34 is moved parallel to the base 14 to perform the input operation. Thus, even when the marks M1 and M2 that move horizontally on the monitor screen 12 are moved, the player can enjoy the game without feeling uncomfortable with the operation of the controller 13.
A guide pin 29 is erected on the top plate 26 of the fixed plate 22, and a guide hole 33 is provided in the guide plate 30. Then, the movement amount of the grip 34 is regulated by the interference between the guide pin 29 and the guide hole 35. Thereby, it is possible to prevent the grip 34 from being moved more than a predetermined amount, and it is possible to prevent the micro switches S1 to S4 and various members from being damaged.
Further, by horizontally moving the grip 34 while sliding the inner peripheral edge of the guide hole 33 to the guide pin 29, the grip 34 can be smoothly moved in a circular direction in the horizontal direction, not intermittently. As a result, the marks M1 and M2 can be quickly moved in eight directions diagonally forward, backward, left and right, and the operability can be further improved.
In order to return the grip 34 to the neutral position, the elastic force of the leaf springs B1 to B4 is used, but the leaf springs B1 to B4 are simply fixed to the side 24 of the fixed plate 22 by screws 25. Therefore, it is easier to assemble than when a coil spring is used, and the cost can be reduced.
Since the pressing plate 19 is formed in a disc shape, even if the player is enthusiastic about playing and twists the grip 34 to cause a rotational movement with respect to the pressing plate 19, interference with the contact piece 16 does not occur. There is no problem in the operation of the controller 13.
[0022]
The present invention may be embodied as follows.
In the above embodiment, the four urging springs B1 to B4 are used as the urging means, but the urging means may be embodied using a coil spring, a rubber plate, or the like.
In the above embodiment, the controller 13 is mounted on the game machine having the monitor screen 12 and the marks M1 and M2 displayed on the monitor screen 12 are moved in accordance with the operation of the grip 34. A controller of the present embodiment may be embodied in a remote controller such as an airplane or a robot.
In the above embodiment, the four microswitches of the first microswitch S1 to the fourth microswitch S14 are used, but the embodiment is implemented using less than four or more than five microswitches. Also good. Moreover, the direction to be controlled may be eight or more directions or less than eight directions.
In the above embodiment, when two adjacent micro switches are turned on at the same time, they are moved in an oblique direction. That is, in the above embodiment, the marks M1 and M2 can be moved in eight directions, but the movement of the marks M1 and M2 may be embodied only in the four directions of front, rear, left and right.
In the above embodiment, two guide pins 29 are provided on the top plate 26 of the fixed plate 22, and the guide plate 30 is provided with the guide hole 33 through which the guide pin 29 is inserted. You may actualize without providing. Further, the number of the guide pins 29 and the guide holes 33 may be appropriately changed and embodied.
In the above embodiment, the pressing plate 19 has a disk shape. In short, it is only necessary to maintain an equal distance from the center in the rotational movement. It need not be in the form.
In the above embodiment, the movement direction of the grip 34 is arranged in the horizontal direction so as to be parallel to the monitor screen 12. However, when the monitor screen 12 is provided vertically, the movement direction of the grip 34 is set to the vertical direction. The controller 13 may be arranged and embodied.
[0023]
【The invention's effect】
According to the first aspect of the invention, unlike the prior art controller that performs the input operation by moving the grip in an arc, the input operation is performed by moving the grip parallel to the base. Thus, even when moving a mark or the like that moves horizontally on the monitor screen, the player can play a game or the like more realistically without feeling uncomfortable with the operation of the controller.
According to the invention described in claim 2, in addition to the effect of the invention described in claim 1, since the grip can be smoothly moved in parallel, there is an excellent effect that the operability can be improved.
According to the invention described in claim 3, in addition to the effect of the invention described in claim 2, the movement of the grip is restricted by the guide pin being in contact with the inner peripheral edge thereof, and the grip circle is guided by the inner peripheral edge. Operability can be improved because movement is allowed.
According to the invention described in claim 4, in addition to the effect of the invention described in any one of claims 1 to 4, an action that is difficult to occur in a normal grip operation of the player, for example, a “twist” that rotates the grip itself. Even when such an action is applied, since the input portion is formed in an arc shape, it is difficult to generate an unscheduled input to the switch of the input portion, so that there is no problem in operation of the controller.
[0024]
[Brief description of the drawings]
FIG. 1 is a perspective view of a game machine according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view of a controller.
FIG. 3 is a front sectional view of the controller when the grip is in a neutral position.
FIG. 4A is a partial plan view of a controller showing a state of each micro switch in a state where a grip is in a neutral position. (B) is a partial plan view of the controller showing the state of each leaf spring and guide plate when the grip is in a neutral position.
FIG. 5 is a front sectional view of the controller in a state where the grip is slid forward.
FIG. 6A is a partial plan view of a controller showing a state of each micro switch in a state where a grip is slid forward. (B) is a partial plan view of the controller showing the state of each leaf spring and guide plate in a state where the grip is slid forward.
FIG. 7A is a partial plan view of a controller showing a state of each micro switch in a state where a grip is slid downward. (B) is a partial plan view of the controller showing the state of each leaf spring and guide plate in a state where the grip is slid downward.
FIG. 8A is a partial plan view of the controller showing the state of each micro switch in a state where the grip is slid to the right. (B) is a partial plan view of the controller showing the state of each leaf spring and guide plate in a state where the grip is slid rightward.
FIG. 9A is a partial plan view of the controller showing the state of each micro switch in a state where the grip is slid to the left. (B) is a partial plan view of the controller showing the state of each leaf spring and guide plate when the grip is slid to the left.
FIG. 10A is a partial plan view of the controller showing a state of each micro switch in a state where the grip is slid obliquely forward to the right. (B) is a partial plan view of the controller showing the state of each leaf spring and guide plate in a state in which the grip is slid obliquely forward to the right.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 13 ... Controller, 14 ... Base, 19 ... Press plate which comprises support member, 20 ... Shaft which comprises support member, 29 ... Guide pin which comprises guide means, 30 ... Guide plate which comprises support member, 33 ... Guide Guide hole constituting means, 34 ... grip, S1 ... first micro switch as switch, S2 ... second micro switch as switch, S3 ... third micro switch as switch, S4 ... fourth micro switch as switch , B1... First plate spring as urging means, B2... Second plate spring as urging means, B3... Third plate spring as urging means, B4.

Claims (4)

A support member for supporting movably in parallel against the base of the grip,
Biasing means for constantly biasing the support member from the outside in a neutral direction;
Radially provided at intervals of 90 ° around the support member, the four switches and having a contact piece which is biased in the projecting direction by the elastic force, which is pressed in contact with the support member with the movement of the grip It equipped with a door,
The urging means includes a fixed plate having a substantially square top plate and four side plates suspended from each side of the top plate, and is attached to the side plates of the fixed plate and projects upward from the top plate. Comprising four leaf springs for urging the support member from four directions to the neutral direction by the pressing portion that
Each of the switches is disposed so as to be positioned between each of the leaf springs in a plan view,
When the supporting member presses only the contact piece of any one of the four switches by operating the grip, the elastic force of the two leaf springs arranged on both sides of the switch On the other hand, when the contact pieces of two adjacent switches among the four switches are pressed simultaneously, the elastic force of one leaf spring disposed between the two switches Move against
A controller characterized by that . The controller according to claim 1, wherein the grip is horizontally moved with a movement amount restricted by guide means.   The guide means includes a circular hole and a guide pin that contacts the inner peripheral edge of the circular hole. The circular hole is formed on either the support member side or the base side, and the guide pin is on the support member side or the base side. The controller according to claim 2, wherein the controller is formed on one of the other. The controller according to any one of claims 1 to 3, wherein an input portion for the four switches of the support member is configured as an arc portion that is equidistant from the center of the support member.

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