JP3845248B2 - Switch device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a structure of a switch used as a power switch of an electronic device or the like that is turned on / off by an electrical signal such as a remote control device, and particularly supports power saving that can turn on a switch circuit with a small signal. The present invention relates to a structure of a switch device having an automatic on / off function.
[0002]
[Prior art]
The structure of a conventional switch device having an auto on / off function includes a slide member that switches a contact portion by sliding when an operation portion is pressed inside the switch device, and is connected to the slide member. A structure having an electromagnetic solenoid for attracting a slide member in a pressing direction is known.
[0003]
In the conventional switch device, in a normal operation, the slide member is moved by pressing the operation portion of the slide member with a human finger or the like, and the contact portion is switched to turn on the switch circuit. The slide member is locked by a member at a lock position where the switch circuit is turned on. Further, when the switch circuit is turned off, the operation portion of the slide member in the locked state is released again by pressing it, and is returned to the initial position before the slide member is pressed by the biasing force of the return spring. Thus, the switch circuit is turned off by switching the contact portion.
[0004]
Separately, when the conventional switch device is electrically operated (automatic on / off), the electromagnetic solenoid provided in the switch device is energized by an electrical signal from a remote control device or the like, and this electromagnetic By driving the solenoid, the slide member connected to the electromagnetic solenoid is attracted and the contact portion is switched to turn on / off the switch circuit.
Further, when the switch circuit is electrically turned off, the electromagnetic solenoid is again energized by a remote control device or the like from the lock position of the slide member in which the switch circuit is in the on state, and is connected to the electromagnetic solenoid. The slide member is released from the locked state by sucking the slide member again, and the switch circuit is turned off by returning the slide member to the initial position by the biasing force of the return spring and switching the contact portion. It is supposed to be.
[0005]
[Problems to be solved by the invention]
However, in the structure of the conventional switch device described above, when the switch is turned on (automatically turned on) by an electrical signal such as a remote control device, the electromagnetic solenoid provided in the switch device is driven, and the slide member Therefore, the slide member must be sucked against the urging force of the return spring, and a large amount of driving power is required to suck the slide member. In order to mount a switch device having an on / off function, the capacity of the power storage circuit composed of a capacitor on the electronic device side must be increased, and there is a problem that the circuit becomes larger, and there is a small amount of energy in the power storage circuit. There is a problem that it cannot be used in a circuit that can only store (small capacity).
[0006]
Therefore, the present invention solves the above-described problems, and has a structure of a switch device having an auto on / off function, which is small without increasing the capacity of a power storage circuit including a capacitor on the electronic device side at the time of auto on. It is an object of the present invention to provide a switch device that can turn on a switch with a capacitor and can reduce the size of a power storage circuit and elements used therefor.
[0007]
[Means for Solving the Problems]
In order to solve the above-described problems, the present invention provides, as a first means, a housing, a slide member slidably provided on the housing, a contact portion that is brought into contact with and separated from the slide member, A drive member that switches the contact portion according to a signal, and the drive member includes a first electromagnetic solenoid coupled to the contact portion and a second electromagnetic solenoid coupled to the slide member, The contact portion is turned on by a first electromagnetic solenoid, and the slide member is moved to a lock position by the second electromagnetic solenoid so that the contact portion is locked in an on state.
[0008]
As a second means, a lock pin whose one end is pivotally supported on the housing and the other end is rotatably provided, and a heart cam portion which is provided on the slide member and on which the other end of the lock pin slides. A return spring that urges the slide member in a return direction, a movable contact and a fixed contact that are brought into and out of contact with the movement of the slide member, and an operation that is attracted by an electrical signal to activate the fixed contact and connect to the movable contact The first electromagnetic solenoid to be moved, and the second electromagnetic solenoid that is attracted by an electrical signal and moves the slide member to the locked position of the heart cam portion against the biasing force of the return spring, When the switch is turned on by a signal, the first electromagnetic solenoid is driven by the discharge current from the storage circuit, and the fixed contact and the movable contact are turned on. In addition, the second electromagnetic solenoid is driven by a signal flowing between the contacts to move the slide member to the lock position of the lock pin of the heart cam portion, and when the switch is turned off, the second electromagnetic solenoid is driven. By energizing a solenoid, the slide member is moved to the unlock position of the heart cam portion to unlock the lock pin.
[0009]
As a third means, the fixed contact is formed of a thin metal plate having elasticity in a leaf spring shape. .
[0010]
As a fourth means, the first electromagnetic solenoid operates with a smaller energizing current than the second electromagnetic solenoid.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
1 to 5 show an embodiment of a switch device having an auto on / off function according to the present invention. 1 is an explanatory view showing an initial state in which a part of the switch device is broken, FIG. 2 is an explanatory view showing a state where the first electromagnetic solenoid for turning on the contact is driven and the contact portion is turned on, FIG. Fig. 4 is an explanatory view showing a state in which the second electromagnetic solenoid for slide suction is driven after the contact portion is turned on and the slide member is sucked, and Fig. 4 is also moved to a position where the lock pin can be locked with the lock cam. FIG. 5 is an explanatory diagram showing a state in which energization to the second electromagnetic solenoid is stopped and the slide member is locked at the lock position.
[0012]
In the figure, the housing 1 is made of an insulating material such as synthetic resin, and has a box-shaped storage portion 1a having an upper surface opened therein. A pair of fixed terminals 2a and 2b made of a conductive metal plate are attached to the inner bottom of the central portion of the storage portion 1a. The fixed terminals 2a and 2b are electrically connected to the fixed terminals 2a and 2b. The movable contact 3 and the fixed contact 4 made of the same conductive metal material are disposed so that the contact portions 3a and 4a are connected to each other and can be contacted and separated while facing each other.
[0013]
At the center of the movable contact 3, one end side is locked to the movable contact 3 and the other end side is pivotally supported by the fixed terminal 4, and the one end side is also the movable contact 3. And a substantially U-shaped leaf spring 3c for reversal, the other end of which is pivotally supported by the fixed terminal 2a. Further, the contact portion 3a is fixed to one end side in the longitudinal direction, and a swing operation portion 3d that is engaged with a slide member 5 (to be described later) and swings is provided on the other end facing the contact portion 3a. The leaf spring 3c is inverted by being swung together with the support piece 3b as the slide member 5 moves, so that the leaf spring 3c can be brought into contact with and separated from the contact portion 4a of the fixed contact 4. It has become a thing.
[0014]
The fixed contact 4 is a thin plate-like metal plate having elasticity and is formed in a substantially Z shape. The central portion of the fixed contact 4 is rotatably supported by a swing support portion 1b formed on the inner bottom surface of the housing 1, and the contact portion 4a is provided on one end side of the fixed contact 4. Yes. The other end of the fixed contact 4 is connected to an iron core 8a of a first electromagnetic solenoid 8 for turning on the contact, which will be described later, and the fixed contact 4 is energized when the first electromagnetic solenoid 8 is energized. However, the swing support part 1b is rotated as a fulcrum, and the contact part 4a is connected to the contact part 3a of the movable contact 3.
[0015]
The slide member 5 is formed of an insulating material such as a synthetic resin, and has a rectangular base portion 5a stored in the storage portion 1a of the housing 1 and extends from the base portion 5a. And an operation portion 5b that protrudes to the right.
The base 5a is provided with an opening 5c in which the movable contact 3 and the fixed contact 4 are disposed, and the swinging operation of the movable contact 3 is provided on one side of the opening 5c. An operating groove portion 5d is formed with which the moving portion 3d is engaged. Further, on the rear side of the base portion 5a, there is formed an engaging arm portion 5e with which a locking portion 9b on one end side of an iron core 9a of a second electromagnetic solenoid 9 for slide suction described later is engaged. It has become.
[0016]
A spring housing portion 5f is provided in the center of the operation portion 5b, and a coiled return spring 6 is in contact with the outer edge portion of the housing 1 at the spring housing portion 5f. It is stored. A pressing portion 5g is provided on the distal end side of the operation portion 5b, and a heart cam portion 5h having a lock cam for locking the slide member 5 at the switch ON position is provided on the opposite side. One end portion of a lock pin 7 made of a metal wire is slid on the heart cam portion 5h, and the other end portion of the lock pin 7 is pivotally supported on the housing 1. .
[0017]
The first electromagnetic solenoid 8 is a contact-on solenoid having an iron core 8 a that can slide inside, and is disposed on the rear end side of the housing portion 1 a of the housing 1. One end of the fixed contact 4 is connected to the tip of the iron core 8a of the first electromagnetic solenoid 8, and when the first electromagnetic solenoid 8 is energized, the iron core 8a is adsorbed, The fixed contact 4 is rotated with the swing support portion 1b as a fulcrum.
[0018]
The second electromagnetic solenoid 9 is a slide suction solenoid having an iron core 9a slidable therein, and is arranged alongside the first electromagnetic solenoid 8 on the rear end side of the housing portion 1a of the housing 1. ing. A locking portion 9b is provided at the tip of the iron core 9a of the second electromagnetic solenoid 9, and the engaging arm portion 5e of the slide member 5 is engaged with the locking portion 9b. Yes.
When the second electromagnetic solenoid 9 is energized, the iron core 9a is sucked, and the slide member 5 is sucked and moved in the pressing direction via the engaging arm portion 5e.
[0019]
A cover member (not shown) made of a plate-shaped metal plate is disposed on the upper surface side of the housing 1, and this cover member covers the storage portion 1 a opened on the upper surface of the housing 1. Mounted on the housing 1. The cover member is formed with mounting legs (not shown) for mounting on a circuit board or the like.
[0020]
Next, the operation of the above-described switch device of the present invention will be described.
First, when mechanically operating with a human finger or the like, the slide member 5 moves by pressing the pressing portion 5g of the operation portion 5b against the urging force of the return spring 6, and the heart cam It is locked in the pressing position by the lock cam of the portion 5 h and the lock pin 7. At this time, the movable contact 3 disposed in the opening 5c of the slide member 5 has its swing operating portion 3d pressed by the operating groove 5d provided on one side of the opening 5c. As a result, the switch is turned on when the contact portion 3a comes into contact with the contact portion 4a of the fixed contact 4.
[0021]
When the switch is turned off from this state, the lock pin 7 is released from the lock cam of the heart cam portion 5h by pressing the pressing portion 5g of the operation portion 5d again, and the slide member 5 is returned to the return position. The movable contact 3 is swung and reversed by returning to the initial state before pressing by the return force of the spring 6, and the switch is turned off by moving the contact portion 3a away from the contact portion 4a of the fixed contact 4. Become.
Thus, when the switch device is mechanically operated, the first and second electromagnetic solenoids 8 and 9 are not driven.
[0022]
Next, the case where it electrically operates with an electrical signal will be described with reference to the drawings. In the initial state shown in FIG. 1, since the first and second electromagnetic solenoids 8 and 9 are not energized, the contact part 3a of the movable contact 3 and the contact part 4a of the fixed contact 4 are in an off state. It has become.
[0023]
Next, when a power storage circuit including a capacitor on the electronic device side is turned on by an electrical signal from a remote control device or the like, the first electromagnetic solenoid 8 for turning on the contact is energized by a discharge current from the capacitor. The At this time, when the iron core 8a of the first electromagnetic solenoid 8 is attracted, the fixed contact 4 connected to one end side of the iron core 8a is rotated with the swing support portion 1b as a fulcrum, The contact portion 4a comes into contact with the contact portion 3a of the movable contact 3, and the contacts are turned on. At this time, the second electromagnetic solenoid 9 is not energized, the slide member 5 is stationary, and the movable contact 3 is not rocked and reversed. (Figure 2)
[0024]
In this case, since the discharge current from the capacitor for driving the first electromagnetic solenoid 8 may be a small amount of energy sufficient to rotate the fixed contact 4, the discharge current of the power storage circuit including the capacitor on the electronic device side is sufficient. Since there is no need to increase the capacity, it is possible to avoid the problem that the circuit is increased in size and the problem that it cannot be used in a circuit in which only a small amount of energy is stored in the power storage circuit (small capacity). Yes.
[0025]
Next, in a state where the contacts are turned on, the main circuit on the electronic device side is turned on. Therefore, the second electromagnetic solenoid 9 for sliding suction is generated by a large electric power obtained from the main circuit. Will be energized. And by this energization, the iron core 9a of the second electromagnetic solenoid 9 is attracted, whereby the slide member 5 is moved to the return spring via the engagement arm portion 5e connected to one end of the iron core 9a. It is sucked and moved in the pressing direction against the urging force 6. (Figure 3)
[0026]
From this state, when the slide member 5 is further sucked and moved, the movable contact 3 disposed in the opening 5c of the slide member 5 has its swing operating portion 3d positioned at one of the openings 5c. By being pressed by the actuating groove portion 5d provided on the side portion, the swinging and reversal is performed, and the contact portion 3a is reliably pressed against the contact portion 4a of the fixed contact 4 so that the switch is maintained in an ON state. It will be a thing. At this time, the fixed contact 4 is formed of a thin metal plate having elasticity in the shape of a leaf spring, and is slightly bent in the pressing direction by the pressing force of the movable contact 3, and further reliable contact is achieved by this elasticity. It will be obtained. (Fig. 4)
[0027]
Next, by stopping energization of the second electromagnetic solenoid 9, the slide member 5 is slightly returned by the urging force of the return spring 6, and the lock cam of the heart cam portion 5 h is connected to the lock pin 7. It is engaged and locked at the lock position. At this time, in the first electromagnetic solenoid 8, the iron core 8a is returned to the initial position by the elasticity of the plate spring-like fixed contact 4. (Fig. 5)
[0028]
In this case, in order to drive the second electromagnetic solenoid 9, the slide member 5 must be sucked and moved against the urging force of the return spring 6, so that a large amount of power is required. Since the second electromagnetic solenoid 9 is driven by electric power from the main circuit on the electronic device side, it is not necessary to store a large amount of energy in the power storage circuit, and an increase in the size of the circuit can be avoided. It has become.
[0029]
Next, when the switch is electrically turned off, the second electromagnetic solenoid 9 is energized again by a main circuit on the electronic device side by an electrical signal from a remote control device or the like, thereby causing the iron core 9a to pass through. By sucking and moving the slide member 5 again in the pressing direction via the engaging arm portion 5e, the lock pin 7 is released from the lock cam of the heart cam portion 5h, and the slide member 5 is returned. The movable contact 3 is swung and reversed by returning to the initial state by the return force of the spring 6, and the switch is turned off by separating the contact portion 3a from the contact portion 4a of the fixed contact 4.
[0030]
According to the above-described embodiment of the present invention, the contact portions 3a and 4a that are brought into contact with and separated from each other as the slide member 5 is slidably provided on the housing 1, and the contact portions by electrical signals. A drive member for switching between 3a and 4a, the drive member being the first electromagnetic solenoid 8 coupled to the contact portions 3a and 4a and the second electromagnetic solenoid coupled to the slide member 5. The contact portion 3a, 4a is turned on by the first electromagnetic solenoid 8, and the slide member 5 is moved to the lock position by the second electromagnetic solenoid 9, so that the contact portion 3a, 4a is turned on. Since the discharge current from the capacitor for driving the first electromagnetic solenoid 8 operates the contact portions 3a and 4a. The second electromagnetic solenoid 9 for sliding suction can be driven by power from the main circuit on the electronic device side, so that the storage circuit made up of a capacitor on the electronic device side is large. It is possible to solve the problem that it is not necessary to store the energy of the capacity and the circuit becomes large, and the problem that it cannot be used in a circuit in which only a small amount of energy is stored in the power storage circuit (small capacity).
[0031]
In addition, since the first and second electromagnetic solenoids 8 and 9 are composed of two solenoids having different sizes (ratings), a small ( Rating) Since the first solenoid can be used to turn on only the contact portions 3a and 4a, power saving can be achieved.
[0032]
【The invention's effect】
As described above, the structure of the switch device according to the present invention has a contact portion that is brought into contact with and separated from the housing as the slide member is slidably moved, and a drive that switches the contact portion by an electrical signal. A first electromagnetic solenoid connected to the contact portion and a second electromagnetic solenoid connected to the slide member, and the contact portion is turned on by the first electromagnetic solenoid, Since the slide member is moved to the locked position by the second electromagnetic solenoid and the contact portion is locked in the ON state, the capacity of the power storage circuit including the capacitor on the electronic device side at the time of auto-on is not increased. In addition, the switch can be turned on with a small capacity, and the power storage circuit and the elements used therefor can be miniaturized.
[0033]
Also, a lock pin whose one end is pivotally supported by the housing and the other end is rotatably provided, a heart cam portion which is provided on the slide member and on which the other end of the lock pin slides, and biases the slide member in the return direction. A return spring, a movable contact and a fixed contact that are brought into and out of contact with the movement of the slide member, a first electromagnetic solenoid that is attracted by an electrical signal to actuate the fixed contact and connect to the movable contact, and attracts by an electrical signal And a second electromagnetic solenoid that moves the slide member to the lock position of the heart cam portion against the biasing force of the return spring, and when the switch is turned on by an electrical signal, the first electromagnetic is generated by the discharge current from the storage circuit. The solenoid is driven to turn on the fixed contact and the movable contact, and the second electromagnetic solenoid is driven by a signal flowing between the contacts to The id member is moved to the lock position of the lock pin of the heart cam portion, and when the switch is turned off, the second electromagnetic solenoid is energized to move the slide member to the lock release position of the heart cam portion to unlock the lock pin. As a result, when the electromagnetic solenoid is driven by a power storage circuit composed of a capacitor or the like, the first electromagnetic solenoid having a small rating can be driven to turn on only the contact portion. Therefore, the circuit can be downsized and power saving can be achieved.
[0034]
In addition, since the fixed contact is made of a thin metal plate having elasticity and is formed in a leaf spring shape, it can follow the movement of the contact portion of the movable contact, making contact of the contact portion more reliable. be able to.
[0035]
In addition, since the first electromagnetic solenoid operates with a smaller energization current than the second electromagnetic solenoid, the first electromagnetic solenoid can be made smaller (rated) and can be reduced in size.
[Brief description of the drawings]
FIG. 1 is an explanatory view showing an initial state in which a part of a switch device according to an embodiment of the present invention is partially broken.
FIG. 2 is an explanatory view showing a state in which the first electromagnetic solenoid for turning on the contact is driven and the contact portion is turned on according to the present invention.
FIG. 3 is an explanatory view showing a state in which the second electromagnetic solenoid for slide suction is driven and the slide member is sucked after the contact portion is turned on according to the present invention.
FIG. 4 is an explanatory view showing a state where the slide member is moved to a position where the lock pin can be locked with the lock cam according to the present invention.
FIG. 5 is an explanatory view showing a state in which energization of the second electromagnetic solenoid is stopped and the slide member is locked at the lock position according to the present invention.
[Explanation of symbols]
1 Housing
1a Storage part
1b Swing support
2a, 2b fixed terminal
3 movable contacts
3a Contact part
3b Support piece
3c leaf spring
3d rocking actuator
4 Fixed contacts
4a Contact part
5 Slide members
5a base
5b Operation part
5c opening
5d Operation groove
5e engagement arm
5f Spring storage part
5g pressing part
5h Heart cam club
6 Return spring
7 Lock pin
8 First electromagnetic solenoid (drive member)
8a iron core
9 Second electromagnetic solenoid (drive member)
9a Iron core
9b Locking part

Claims (4)

A housing, a slide member provided slidably on the housing, a contact portion that is brought into contact with and separated from the slide member, and a drive member that switches the contact portion by an electrical signal, The drive member includes a first electromagnetic solenoid connected to the contact portion and a second electromagnetic solenoid connected to the slide member, and the contact portion is turned on by the first electromagnetic solenoid. 2. A switch device according to claim 2, wherein the slide member is moved to a lock position by an electromagnetic solenoid to lock the contact portion in an ON state. A lock pin, one end of which is pivotally supported by the housing, the other end of which is rotatably provided, a heart cam portion which is provided on the slide member, and on which the other end of the lock pin slides, and the slide member in the return direction. A return spring that biases, a movable contact and a fixed contact that are brought into and out of contact with movement of the slide member, and the first electromagnetic solenoid that is attracted by an electric signal to activate the fixed contact and connect the movable contact. And a second electromagnetic solenoid that is attracted by an electrical signal and moves the slide member to a locked position of the heart cam portion against the biasing force of the return spring, and when the switch is turned on by the electrical signal, The first electromagnetic solenoid is driven by a discharge current from the circuit to turn on the fixed contact and the movable contact, and By driving the second electromagnetic solenoid by a signal flowing between them, the slide member is moved to the lock position of the lock pin of the heart cam portion, and when the switch is turned off, the second electromagnetic solenoid is energized. The switch device according to claim 1, wherein the slide member is moved to a lock release position of the heart cam portion to release the lock of the lock pin. 3. The switch device according to claim 1, wherein the fixed contact is formed of a thin metal plate having elasticity in a leaf spring shape. 4. The switch device according to claim 1, wherein the first electromagnetic solenoid operates with a smaller energizing current than the second electromagnetic solenoid. 5.

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