JP3845247B2 - Electronics - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a structure of an electronic device that turns on / off a power source by an electrical signal such as a remote control device, and more particularly, a switch having a power saving auto on / off function that can turn on a switch circuit with a small signal. The present invention relates to a structure of an electronic device having a device.
[0002]
[Prior art]
The structure of a conventional electronic 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. 2. Description of the Related Art A structure of an electronic device using a switch device provided with an electromagnetic solenoid that attracts a slide member in a pressing direction is known.
[0003]
In the conventional electronic device 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. At the same time, the slide member is locked by a lock 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]
Apart from this, when a conventional electronic 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 above-described conventional electronic device, 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. 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 an electronic device having an auto on / off function, and 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 an electronic device that can be switched on with a capacitor and that can reduce the size of a power storage circuit and elements used therein.
[0007]
[Means for Solving the Problems]
In order to solve the above-described problems, the present invention provides as a first means a primary-side power supply circuit, a secondary-side power supply circuit supplied with power from the primary-side power supply circuit, and the secondary-side power supply. A control system circuit connected to the circuit, a contact portion, a switch device having an operation member that can be turned on and off manually and automatically, and between the control system circuit and the switch device The switch device is connected to the primary-side power supply circuit, and has an operating means capable of automatically turning on the contact portion, from the control system circuit At the time of automatic on based on the signal, the operating means is operated by the discharge current from the power storage circuit, the contact portion is turned on to turn on the primary power supply circuit, and from the primary power circuit Before supplied By the power of the secondary power supply circuit to drive the operating member, characterized in that it has to hold turned on without fail the switching device.
[0008]
As a second means, the switch device is connected to the housing, a slide member slidably provided in the housing, a contact portion that is brought into contact with and separated from the slide member, and the slide member. And a drive member that moves the slide member in a locking direction, the contact portion is movably disposed in the housing, and the housing is provided with an operating means for operating the contact portion. At the time of automatic on based on a signal from the control system circuit, before the slide member moves, the contact means is actuated by the actuating means to turn on the contact part, and then the current flowing through the contact part The drive member is driven to move the slide member to the lock position.
[0009]
As a third means, the operating means is constituted by an electromagnetic coil or an electromagnetic solenoid.
[0010]
As a fourth means, the drive member is composed of an electromagnetic solenoid, and the drive member and the operating means are constituted by a single electromagnetic solenoid, and the electromagnetic solenoid, the contact portion, and the slide member are connected in series. It is characterized by doing so.
[0011]
As a fifth means, the switch device is provided with a detection switch portion that is operated in conjunction with the movement of the slide member, and when the slide member is locked in the lock position, It is characterized in that the energization to the drive member is stopped based on the signal.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of an electronic apparatus having an auto on / off function according to the present invention are shown in FIGS. FIG. 1 is a circuit diagram showing the structure of an electronic apparatus according to an embodiment of the present invention. As an electronic device in this case, a home electronic device such as a television or a video is generally used.
[0013]
In the figure, 21 is a primary side power supply circuit, 21a is a power supply terminal, 22 is a power transformer, 23 is a signal system and motor system power circuit, 24 is a control system power supply circuit, 25 and 26 are rectifier diodes, and 27 is Signal system and motor system circuit, 28 is a control system circuit, 29 is a capacitor which is a storage circuit, 30 and 31 are driving transistors, and 32 is a switch device.
[0014]
The switch device 32 is connected in series to the primary-side power supply circuit 21. In the figure, contact portions 3a and 4a, which will be described later as the switch device, are in an OFF state. From this state, when a signal is transmitted to the control unit 28 by an electrical signal such as remote control, the driving transistor 30 is turned on. Then, a discharge current from the capacitor 29 as the power storage circuit is energized to the electromagnetic coil 10 for turning on the contact, which will be described later, or the electromagnetic solenoid 13, which is the operating means, and the contact portions 3a, 4a of the switch device 32. Only turned on. In this state, there is no movement of a slide member 6 which will be described later, which is an operation member provided in the switch device, and it is in a stationary state.
[0015]
When the contact portions 3a and 4a are turned on, the primary power supply circuit 21 is energized, and the power transformer 22 is excited along with this, so that the control power supply circuit 24, which is the secondary power supply circuit, is provided. Driven, the drive transistor 31 is turned on. Then, the slide member 6 described later as a switch device is attracted to the lock position by energizing the electromagnetic solenoids 11, 15, 16 for slide suction described later, and then the electromagnetic force from the control unit 29 is moved after full stroke movement. By stopping the signals to the solenoids 11, 15, 16, the slide member 6 is locked at the lock position, and the switch device 32 maintains the on state.
[0016]
In order to turn off the electronic device from this state, when a signal is transmitted to the control system circuit 28 by an electrical signal such as remote control, the signal is transmitted to the drive transistor 31 again and turned on, and the electromagnetic solenoid 11 15 and 16 are energized again, the slide member 6 of the switch device 32 is sucked. At this time, the lock member is released and released, and the slide member 6 returns to the initial position. . As the slide member 6 is restored, the contact portions 3a and 4a are turned off, and the power supply of the electronic device is turned off.
In the case where the electronic device is manually turned on, a description thereof will be omitted because it will be described in an embodiment of a switch device described later.
[0017]
According to the above-described embodiment of the present invention, the switch device 32 connected to the one-magnet-side power supply circuit 21 is connected to the contact means 3a, 4a of the switch device 32 by the operating means capable of automatically turning on. An electromagnetic coil 10 and an electromagnetic solenoid 13 are provided, and at the time of automatic turning on based on a signal from the control system circuit 28, the electromagnetic coil 10 and the electromagnetic solenoid which are the operation means by a discharge current from the capacitor 29 which is the storage circuit. 13 is operated to turn on the contact portions 3a and 4a to turn on the primary power supply circuit 21 and to control the secondary power supply circuit supplied from the primary power supply circuit 21. The slide member 6 of the switch device, which will be described later, which is the operation member is driven by the electric power of the system circuit 24 to reliably hold the switch device in the ON state. As a result, the discharge current from the capacitor 29 for driving the operating means may be a small amount of energy for operating the contact portions 3a, 4a, and the operation member is driven on the electronic device side. Since the power from the main circuit can be used, there is no need to store a large amount of energy in the power storage circuit including the capacitor 29 on the electronic device side, and the circuit is enlarged. The problem that it cannot be used in a circuit that can store only energy (small capacity) can be solved.
[0018]
Embodiments of a switch device used in an electronic apparatus having an auto on / off function according to the present invention will be described below with reference to FIGS. 2 and 3 show a first embodiment of the switch device, FIG. 2 is a plan view of a state in which a part of the switch device is broken, and FIG. 3 is a front view of the same.
[0019]
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 formed of a conductive metal plate are attached to the central bottom portion of the storage portion 1a, and the pair of fixed terminals 2a and 2b are electrically connected to the inner bottom surface side. 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 can be connected to and separated from each other in a state of facing each other.
[0020]
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 in the longitudinal direction, and a swing operation portion 3d that is engaged with a slide member 6 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 in accordance with the movement of the slide member 6, 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.
[0021]
The fixed contact 4 is formed of a thin plate-like metal material in a leaf spring shape. One end side of the fixed contact 4 is fixed to the inner bottom surface of the housing 1 so as to be swingable, and the contact portion 4a is fixed to the opposite other end side. Further, one end side of a connecting member 5 connected to an arm portion 10b of an electromagnetic coil 10 described later is connected to the central portion of the fixed contact 4.
Thus, since the fixed contact 4 is formed of a metal material in a leaf spring shape, the contact portion 4a of the fixed contact 4 is interlocked with the movement of an arm portion 10b of the electromagnetic coil 10 described later. The movable contact 3 is movable in the direction of the contact portion 3a.
[0022]
The slide member 6 is formed of an insulating material such as a synthetic resin, and has a rectangular base portion 6a stored in the storage portion 1a of the housing 1 and extends from the base portion 6a. And an operation portion 6b that protrudes to the right.
The base 6a is provided with an opening 6c in which the movable contact 3 and the fixed contact 4 are disposed. The swinging operation of the movable contact 3 is provided on one side of the opening 6c. An operation groove portion 6d with which the movement portion 3d is engaged is formed. Further, on the upper surface side of the base portion 6a, an engaging groove portion 6e is formed to be engaged with one end portion of a connecting member 7 connected to an iron core portion 11a of an electromagnetic solenoid 11 described later.
[0023]
A spring housing portion 6f is provided at the center of the operation portion 6b, and a coiled return spring 8 is in contact with the outer edge portion of the housing 1 at the spring housing portion 6f. It is stored. Further, a pressing portion 6g is provided at the distal end side of the operation portion 6b, and a heart cam portion (not shown) having a lock cam for locking the slide member 6 at the switch ON position is provided on the opposite side. It has been. One end portion of a lock pin 9 made of a metal wire is slid on the heart cam portion, and the other end portion of the lock pin 9 is pivotally supported on the housing 1.
[0024]
The electromagnetic coil 10 which is an operating means is an electromagnetic coil for contact ON which has an electrical exciting iron core 10a in the center and is formed by winding a conductive wire around the exciting iron core 10a. It is arrange | positioned at the rear-end side of the said accommodating part 1a. The electromagnetic coil 10 is provided with a metallic arm portion 10b so as to be rotatable, and one end side of the arm portion 10b is provided so as to be attracted to the other end side. One end side of the connecting member 5 to be connected is connected.
When the electromagnetic coil 10 is energized, the arm portion 10 b is attracted and the fixed contact 4 is oscillated via the connecting member 5.
[0025]
The electromagnetic solenoid 11 serving as a driving member is a sliding suction solenoid having an iron core 11a slidable inside, and is disposed at the tip of the iron core 11a of the electromagnetic solenoid 11 disposed on the upper surface side of the housing 1. The connecting member 7 is provided, and the connecting member 7 is engaged with the engaging groove 6 e of the slide member 6.
When the electromagnetic solenoid 11 is energized, the iron core 11a is attracted, and the slide member 6 is attracted and moved in the pressing direction via the connecting member 7.
[0026]
The cover member 12 is formed of a plate-shaped metal plate, and is attached on the housing 1 so as to cover the storage portion 1 a opened on the upper surface of the housing 1. Further, the cover member 12 is formed with mounting leg portions 12a for mounting on a circuit board or the like.
[0027]
Next, the operation of the switch device described above will be described.
First, when mechanically operating with a human finger or the like, the slide member 6 is moved by pressing the pressing portion 6g of the operation portion 6b against the urging force of the return spring 8, which is not shown. It is locked in the pressing position by the lock cam of the heart cam portion and the lock pin 9. At this time, the movable contact 3 disposed in the opening 6c of the slide member 6 has its swing operating portion 3d pressed by the operating groove 6d provided on one side of the opening 6c. 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.
[0028]
When the switch is turned off from this state, the lock pin 9 is released from the lock cam of the heart cam portion (not shown) by pressing the pressing portion 6g of the operation portion 6d again, and the slide member 6 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 8, and the switch is turned off by moving the contact portion 3a away from the contact portion 4a of the fixed contact 4. Become.
[0029]
Next, when the electrical operation is performed by an electrical signal, the electrical storage circuit including the capacitor 29 on the electronic device side is turned on by the electrical signal of the remote control device or the like, and the discharge from the capacitor 29 is performed. The electromagnetic coil 10 is energized by an electric current. At this time, the metallic arm portion 10b is rotatably disposed on the electromagnetic coil 10, and one end side of the arm portion 10b is adsorbed so that the other end side is connected to the other end side. The fixed contact 4 is pressed and oscillated through the connecting member 7, the contact portion 4 a comes into contact with the contact portion 3 a of the movable contact 3, and the contacts are turned on.
[0030]
In this case, since the discharge current from the capacitor 29 for driving the electromagnetic coil 10 may be small energy that presses and swings the fixed contact 4, the discharge current of the 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.
[0031]
In the state where each of the contacts is turned on, the main circuit on the electronic device side is turned on. Therefore, the electromagnetic solenoid 11 for sliding suction is energized by the large electric power obtained from the main circuit. By this energization, the iron core 11a of the electromagnetic solenoid 11 is attracted, whereby the slide member 6 is attracted and moved in the pressing direction against the biasing force of the return spring 8 via the connecting member 7, and a heart cam (not shown) The lock cam of the portion is locked at the lock position by the lock pin 9. At this time, the movable contact 3 disposed in the opening 6c of the slide member 6 has its swing operating portion 3d pressed by the operating groove 6d provided on one side of the opening 6c. As a result, the switch is maintained in an ON state by reversing and reversing, and the contact portion 3a is reliably pressed against the contact portion 4a of the fixed contact 4. At this time, the fixed contact 4 is formed of a thin plate-like metal material 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 more reliable contact is obtained by this elasticity. It will be a thing.
[0032]
In this case, in order to drive the electromagnetic solenoid 11, the slide member 6 must be attracted and moved against the urging force of the return spring 8. Is driven by the electric power from the main circuit on the electronic device side, so that 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.
[0033]
Next, when the switch is electrically turned off, the iron core 11a is attracted by re-energizing the electromagnetic solenoid 11 in the main circuit on the electronic device side by an electrical signal from a remote control device or the like. The slide member 6 is again sucked and moved in the pressing direction via the connecting member 7 to release the lock pin 9 from a lock cam of a heart cam portion (not shown), and the slide member 6 is returned to the return spring 8 by a return force. Thus, the movable contact 3 is swung and reversed by returning to the initial state and the contact portion 3a is separated from the contact portion 4a of the fixed contact 4 to turn off the switch.
[0034]
4 and 5 show the structure of the switch device according to the second embodiment, FIG. 4 is a plan view of the switch device with a part thereof broken, and FIG. 5 is a front view thereof.
Note that the same parts described in FIGS. 2 and 3 are denoted by the same reference numerals and description thereof is omitted.
[0035]
In this case, the first embodiment differs from the first embodiment in that a slightly smaller first electromagnetic solenoid 13 is provided in place of the electromagnetic coil 10 which is a contact-on actuating means for pressing and swinging the fixed contact 4. It becomes the composition which is done.
That is, the first electromagnetic solenoid 13 is disposed on one end side of the housing portion 1 a of the housing 1, and an L-shaped connecting member 14 is provided at the tip of the iron core 13 a of the first electromagnetic solenoid 13. The other end side of the connecting member 14 is connected to the fixed contact 4. In addition, the housing 1 a of the housing 1 is provided with a slightly larger second electromagnetic solenoid 15 for slide suction, which is provided in parallel with the first electromagnetic solenoid 13.
[0036]
When the switch device having the above-described configuration is electrically operated, a power storage circuit including the capacitor 29 on the electronic device side is turned on by an electric signal from a remote control device or the like, and a discharge current from the capacitor 29 is turned on. As a result, the first electromagnetic solenoid 13 is energized. At this time, when the iron core 13a of the first electromagnetic solenoid 13 is attracted, the fixed contact 4 is pressed and swung through the connecting member 14 connected to the iron core 13a, and the contact portion 4a is The contact portion 3a of the movable contact 3 comes into contact with each other, and the contacts are turned on.
[0037]
Even in this case, since the discharge current from the capacitor 29 for driving the first electromagnetic solenoid 13 may be a small energy that presses and swings the fixed contact 4, a capacitor on the electronic device side, etc. Since there is no need to increase the capacity of the power storage circuit made up of, it is possible to avoid the problem that the circuit becomes larger and the problem that it cannot be used in a circuit in which only a small amount of energy can be stored in the power storage circuit (small capacity) It is possible.
[0038]
In the state where the contacts are turned on, the main circuit on the electronic device side is turned on, so that the second electromagnetic solenoid 15 for sliding suction is energized by the large electric power obtained from the main circuit. When the iron core 15a of the second electromagnetic solenoid 15 is attracted by this energization, the slide member 6 is attracted and moved in the pressing direction against the urging force of the return spring 8, and a heart cam portion (not shown) The lock cam is locked at the lock position by the lock pin 9. At this time, the movable contact 3 disposed in the opening 6c of the slide member 6 has its swing operating portion 3d pressed by the operating groove 6d provided on one side of the opening 6c. As a result, the switch is maintained in an ON state by reversing and reversing, and the contact portion 3a is reliably pressed against the contact portion 4a of the fixed contact 4. At this time, the fixed contact 4 is formed of a thin plate-like metal material 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 more reliable contact is obtained by this elasticity. It will be a thing.
[0039]
FIG. 6 shows the structure of a switch device according to a third embodiment, and FIG. 6 is a plan view of a state in which a part of the switch device is broken.
Note that the same components described in FIGS. 2 to 5 are denoted by the same reference numerals and description thereof is omitted.
[0040]
In this case, the difference from the first and second embodiments is that the contact-on actuating means for pressing and swinging the fixed contact 4 and the slide suction driving member are constituted by one electromagnetic solenoid. .
That is, the electromagnetic solenoid 16 is disposed on one end side of the housing portion 1 a of the housing 1, and a substantially L-shaped leaf spring is connected to the tip of the iron core 16 a of the electromagnetic solenoid 16 via the connecting member 17. One end side of the fixed contact 4 is attached. The central portion of the fixed contact 4 is supported by a swing support portion 1 b provided on the inner bottom surface of the housing 1, and the contact portion 4 a is provided on the other end side of the fixed contact 4.
The iron core 16a is composed of a slightly narrow shaft portion 16b and a slightly thicker locking portion 16c provided at the tip of the shaft portion 16b. The shaft portion 16b of the iron core 16a is connected to the slide member 6 by the shaft portion 16b. The connecting arm portion 6h provided on the rear end side is connected in a loosely fitted state. Therefore, the iron core 16a is engaged so as to be slidable in the suction direction independently of the movement of the slide member 6.
[0041]
When the switch device having the above-described configuration is electrically operated, a power storage circuit including the capacitor 29 on the electronic device side is turned on by an electric signal from a remote control device or the like, and a discharge current from the capacitor 29 is turned on. Thus, the electromagnetic solenoid 16 is energized. At this time, the iron core 16a of the electromagnetic solenoid 16 is sucked until the locking portion 16c at the tip comes into contact with the connecting arm portion 6h of the slide member 6. At this time, the connecting member 17 is brought into contact with the iron core 16a. The fixed contact 4 attached via the pivot is rotated with the swing support portion 1b as a fulcrum, and the contact portion 4a comes into contact with the contact portion 3a of the movable contact 3, and the contacts are turned on.
[0042]
Even in this case, since the discharge current from the capacitor 29 for driving the electromagnetic solenoid 16 may be a small amount of energy that only attracts and rotates the fixed contact 4, it is possible to store electricity including a capacitor on the electronic device side. Since there is no need to increase the capacity of the circuit, it is possible to avoid the problem that the circuit is enlarged 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). It has become.
[0043]
In the state where each of the contacts is turned on, the main circuit on the electronic device side is turned on. Therefore, the energization to the electromagnetic solenoid 16 is further increased by the large electric power obtained from the main circuit. As a result of this increase in energization, the iron core 16a of the electromagnetic solenoid 16 is further sucked from the state in contact with the connecting arm portion 6h, and the slide member 6 is pressed against the urging force of the return spring 8. The lock cam of the heart cam portion 18 is locked at the lock position by the lock pin 9. At this time, the movable contact 3 disposed in the opening 6c of the slide member 6 has its swing operating portion 3d pressed by the operating groove 6d provided on one side of the opening 6c. As a result, the switch is maintained in an ON state by reversing and reversing, and the contact portion 3a is reliably pressed against the contact portion 4a of the fixed contact 4. At this time, the fixed contact 4 is formed of a thin plate-like metal material 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 more reliable contact is obtained by this elasticity. It will be a thing.
[0044]
According to the above-described embodiment, since the electromagnetic solenoid that is the contact-on actuating means and the electromagnetic solenoid that is the slide suction drive member are configured by the single electromagnetic solenoid 16, the number of parts is reduced. Therefore, it is possible to reduce the size and cost of the switch device.
[0045]
7 and 8 show the structure of the switch device according to the fourth embodiment. FIG. 7 is a partial cross-sectional view with a detection switch attached, and FIG. 8 is a partial cross-sectional view with the switch turned on.
Note that the same components described in FIGS. 2 to 6 are denoted by the same reference numerals and description thereof is omitted.
[0046]
In this case, the difference from the first to third embodiments is that a detection switch portion 19 that is operated in conjunction with the movement of the slide member 6 is provided at the rear portion of the housing 1 of the switch device 32. Is a point.
That is, a detection switch portion 19 in which a pair of opposed contact portions 20a and 20b are disposed is provided at the rear portion of the housing 1, and the detection member 19 is provided at the rear end portion of the slide member 6. A pressing projection 6i that presses the contact portions 20a and 20b of the switch 19 to connect the contact portions 20a and 20b is provided, and when the slide member 6 is locked at the lock position, the pressing projection 6i. Thus, the detection switch unit 19 is turned on.
[0047]
By providing the detection switch part 19 at the rear part of the housing 1, when the slide member 6 is locked at the lock position by suction by energization of the electromagnetic solenoids 11, 15, 16, the detection switch part 19 Since it is possible to control the energization of the electromagnetic solenoids 11, 15, and 16 based on the ON signal, a control circuit for controlling the energization time of the electromagnetic solenoids 11, 15, and 16 becomes unnecessary. Can support power saving.
[0048]
According to the embodiment of the switch device of the present invention described above, the contact portions 3 and 4 that are brought into contact with and separated from each other as the slide member 6 moves are movably disposed in the housing 1 and the housing 1 The electromagnetic coil 10, the first electromagnetic solenoid 13, or the electromagnetic solenoid 16, which is an operating means for operating the contact portions 3 and 4, is provided, and the slide is performed when the switch is turned on by an electrical signal. Before the member 6 moves, the contact portions 3 and 4 are operated by the electromagnetic coil 10, the first electromagnetic solenoid 13, or the electromagnetic solenoid 16 to turn on the contact portions 3 and 4. The slide solenoids are driven by driving the electromagnetic solenoids 11 and 16 and the second electromagnetic solenoid 15 for suction by a current flowing between the contact parts 3 and 4. 6 is moved to the lock position, the discharge current from the capacitor 29 for driving the electromagnetic coil 10, the first electromagnetic solenoid 13, or the electromagnetic solenoid 16 is the contact portion 3a, 4a, and the electromagnetic solenoids 11 and 16 for sliding suction and the second electromagnetic solenoid 15 can be driven by electric power from the main circuit on the electronic device side. In the case where there is no need to store a large amount of energy in the power storage circuit including the capacitor 29 on the side, and the circuit becomes large, or in a circuit where only a small amount of energy can be stored in the power storage circuit (small capacity) The problem that it cannot be used can be solved.
[0049]
【The invention's effect】
As described above, the structure of the electronic device according to the present invention is provided with an operating means capable of automatically turning on the contact portion of the switch device in the switch device connected to the one-magnet-side power supply circuit. When the power is automatically turned on based on the signal from the power supply circuit, the operating means is operated by the discharge current from the power storage circuit, the contact portion is turned on, the primary power supply circuit is turned on, and the primary power supply circuit is supplied. Since the operating member is driven by the electric power of the control system circuit which is the secondary power supply circuit, and the switch device is securely held in the ON state, the power storage composed of a capacitor on the electronic device side at the time of auto-ON The switch can be turned on with a small capacity without increasing the capacity of the circuit, and the power storage circuit and the elements used therefor can be miniaturized. Electrical circuit section of the vessel can be reduced to miniaturize becomes simple.
[0050]
The switch device includes a housing, a slide member provided in the housing so as to be slidable, a contact portion that is brought into contact with and separated from the slide member, and a direction in which the slide member is locked. The contact portion is movably disposed in the housing, and the housing is provided with an operating means for operating the contact portion. When the automatic ON based on a signal from the control system circuit, the slide portion is provided. Before the member moves, the contact portion is operated by the operating means to turn on the contact portion, and then the drive member is driven by the current flowing through the contact portion to move the slide member to the lock position. Switch with a small capacity without increasing the capacity of the storage circuit consisting of capacitors on the electronic device side during auto-on. It is possible to turn on, the miniaturization of the storage circuit and elements used therewith can be reduced.
[0051]
In addition, since the operation means is constituted by an electromagnetic coil or an electromagnetic solenoid, it can be driven by a power storage circuit, so there is no need to increase the capacity of the power storage circuit including a capacitor on the electronic device side. Miniaturization can be achieved.
[0052]
In addition, the drive member is composed of an electromagnetic solenoid, and the drive member and the operating means are configured by one electromagnetic solenoid, and the electromagnetic solenoid, the contact portion, and the slide member are connected in series, thereby reducing the number of parts. Therefore, it is possible to reduce the size and cost of the switch device.
[0053]
Further, the switch device is provided with a detection switch portion that is operated in conjunction with the movement of the slide member, and when the slide member is locked at the lock position, the energization to the drive member is stopped based on the signal of the detection switch portion. As a result, a control circuit or the like for controlling the energization time of the electromagnetic solenoid is not necessary, and it is possible to cope with power saving.
[Brief description of the drawings]
FIG. 1 is a circuit diagram illustrating a structure of an electronic apparatus according to the invention.
FIG. 2 is a plan view showing a state in which a part of the switch device according to the first embodiment of the present invention is broken.
FIG. 3 is a front view showing a state in which a part of the switch device of the present invention is also broken.
FIG. 4 is a plan view showing a state in which a part of a switch device according to a second embodiment of the present invention is broken.
FIG. 5 is a front view showing a state in which a part of the switch device of the present invention is also broken.
FIG. 6 is a plan view showing a state in which a part of a switch device according to a third embodiment of the present invention is broken.
FIG. 7 is a partial sectional view showing a state in which a detection switch is attached to a switch device according to a fourth embodiment of the present invention.
FIG. 8 is a partial cross-sectional view showing the ON state of the detection switch of 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, 7, 14, 17 Connecting member
6 Slide member (operation member)
6a base
6b Operation unit
6c opening
6d Operation groove
6e engagement groove
6f Spring storage
6g pressing part
6h Connecting arm
6i Pressing protrusion
8 Return spring
9 Lock pin
10 Electromagnetic coil (actuating means)
10a Exciting iron core
10b Arm part
11 Electromagnetic solenoid (drive member)
11a iron core
12 Cover member
12a Leg
13 First electromagnetic solenoid (actuating means)
13a iron core
15 Second electromagnetic solenoid (drive member)
15a iron core
16 Electromagnetic solenoid
16a iron core
16b Shaft
16c Locking part
18 Heart Cam Club
19 Detection switch
20a, 20b Contact part
21 Primary power supply circuit
21a Power supply terminal
22 Power transformer
23 Signal system and motor system power supply circuit
24 Control system power supply circuit
25, 26 Rectifier diode
27 Signal system and motor system circuit
28 Control system circuit
29 Capacitor (storage circuit)
30, 31 Driving transistor
32 switch device

Claims (5)

A primary side power supply circuit, a secondary side power supply circuit supplied with power from the primary side power supply circuit, a control system circuit connected to the secondary side power supply circuit, and a contact portion; A switch device having an operation member capable of turning on and off the contact portion manually and automatically; and a storage circuit connected between the control system circuit and the switch device, the switch device comprising: It is connected to the primary side power supply circuit, and has an operating means capable of automatically turning on the contact portion, and at the time of automatic turning on based on a signal from the control system circuit, the discharge current from the power storage circuit The operating member is operated to turn on the contact portion to turn on the primary-side power supply circuit, and the operation member is powered by the power of the secondary-side power supply circuit supplied from the primary-side power supply circuit. The drive Electronic apparatus, characterized in that it has to hold turned on without fail the switching device so. The switch device is connected to the housing, a slide member slidably provided in the housing, a contact portion that is brought into contact with and separated from the slide member as the slide member moves, and the slide member to lock the slide member. A drive member that moves in the direction, and the contact portion is movably disposed in the housing, and the housing is provided with an operating means for actuating the contact portion, and receives a signal from the control system circuit. At the time of automatic ON based, before the slide member moves, the contact means is actuated by the actuating means to turn on the contact part, and then the drive member is driven by the current flowing through the contact part to cause the slide The electronic apparatus according to claim 1, wherein the member is moved to a lock position. The electronic device according to claim 1, wherein the actuating means is configured by an electromagnetic coil or an electromagnetic solenoid. The drive member is an electromagnetic solenoid, and the drive member and the actuating means are constituted by one electromagnetic solenoid, and the electromagnetic solenoid, the contact portion, and the slide member are connected in series. The electronic device according to claim 1 or 2. The switch device is provided with a detection switch portion that is operated in conjunction with the movement of the slide member, and when the slide member is locked in the lock position, the switch device is connected to the drive member based on a signal from the detection switch portion. The electronic device according to claim 1, wherein the energization of the electronic device is stopped.

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