JP2012230822A - Switching device and apparatus equipped with the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a switching device which permits a switch to be turned on by electrical control from a unit external to the switch which has its power supply cut off by a switch-off, and also permits a switch to be turned on or off at any time by a switch operator.SOLUTION: The switching device comprises: a switch which, when turned on, supplies power, and, when turned off, shuts down power supply; a first mechanism which turns the switch on or off in response to the operation by an operator; a second mechanism which changes the switch from the OFF side to the ON side in response to an input electric signal; power storage means which stores therein electric energy supplied when the switch is on; ON control means which determines a timing at which the switch is turned on from off, and, at the timing thus determined, feeds an electric signal into the second mechanism by using the stored electric energy, thereby turning the switch on; and shutdown means which shuts down energy supply from the power supply to the ON control means when the switch is off.

Description

  The present invention relates to a switch device that supplies and cuts off power, or energizes and cuts off electric signals. Further, the present invention relates to a technology related to a system or device provided with the switch device. More specifically, by an external control of an electrical signal or a switch whose power is turned off, by inputting an electrical signal from the electrical energy stored in the power storage means when the switch operating unit is turned on. This is a technique for resuming energization of electric signals and supply of power by turning on.

  As a general usage method of a conventional switch, there is a usage method in which an ON / OFF operation is performed by applying an external force to an operation of a switch operator or a switch operation unit. As a slightly different usage method, there is a method of using a “switch with a reset function” sold by switch manufacturers. In this method, when the switch is turned on, power is supplied to the connection unit. Also, in this method, the switch may be turned off by the switch-off operation of the user of the device, and when the OFF condition is judged by the connecting unit and executed, the coil with a built-in switch with a reset function is energized. Then, the switch operating portion is changed from the ON side to the OFF side by electrical control.

  Such a usage method is actually used in a copying machine or the like. For example, if a copier is used with a normal switch ON and the ambient brightness remains dark for a certain time or longer, the copier is forcibly turned off to reduce wasteful power consumption. . Such a switch device and a device equipped with the switch device are excellent in appliance properties and are convenient. In the technology of the switch with such a reset function, it is excellent that the OFF of the switch can be controlled by an electric signal.

  However, in the conventional technique, it is not possible to control the switch OFF → ON by an electric signal. When the switch is OFF, the power supply to the connection unit is cut off and there is no energy for ON determination or ON execution, which makes it difficult to control the switch OFF → ON with an electric signal. There is also no switch that can do this.

  A device that can achieve a similar function by combining components such as a relay is also conceivable. However, the relay is disadvantageous from the viewpoint of energy saving because the exciting current must be kept flowing to maintain the contact ON. In addition, when contact control is performed using a relay, the switch operator cannot directly execute ON / OFF of the switch. The operator operates an indirect switch, detects the state of the switch, and controls the relay.

  The present invention has been made in view of the above, and (1) provides a switch device capable of turning on a switch by electrical control from a switch external unit whose power supply is cut off by the switch being turned off; (2) An object of the switch ON / OFF is to provide a switch device that can be arbitrarily operated by a switch operator at any time.

  In order to solve the above-described problems and achieve the object, the present invention provides a switch that supplies power when turned on and shuts off the power when turned off, and turns the switch on and off in response to an operator's on / off operation. A first mechanism; a second mechanism for changing the switch from an OFF side to an ON side in accordance with an input electric signal; and a power storage means for storing electric energy of the power source supplied when the switch is turned ON. And determining when to turn on the switch when the switch is turned off, and inputting the electric signal to the second mechanism using the electric energy stored in the power storage means at the determined time, ON control means for turning on the switch, and shut-off means for shutting off the energy supply from the power source to the ON control means when the switch is turned off. The features.

  The present invention also provides a switch that supplies power when ON and shuts off the power when OFF, a first mechanism that turns ON / OFF the switch in response to an operator's ON / OFF operation, and an input electric signal. Accordingly, a second mechanism for changing the switch from the OFF side to the ON side, a third mechanism for changing the switch from the ON side to the OFF side according to the input electric signal, and ON of the switch Power storage means for storing electrical energy of the power source supplied at the time, and when to turn on the switch when the switch is turned off, and using the electrical energy stored in the power storage means at the determined time By inputting an electric signal to the second mechanism, the ON control means for turning on the switch, and when the switch is turned off, the power supply to the ON control means A means for shutting off the energy supply, and a timing for turning off the switch when the switch is turned on, and turning off the switch by inputting an electric signal to the third mechanism at the judged time. And a control means.

  The present invention also provides a switch that supplies power when ON and shuts off the power when OFF, a first mechanism that turns ON / OFF the switch in response to an operator's ON / OFF operation, and an input electric signal. Accordingly, a second mechanism for changing the switch from the OFF side to the ON side, a third mechanism for changing the switch from the ON side to the OFF side according to the input electric signal, and ON of the switch Power storage means for storing electrical energy of the power source supplied at the time, and when to turn on the switch when the switch is turned off, and using the electrical energy stored in the power storage means at the determined time By inputting an electric signal to the second mechanism, the ON control means for turning on the switch, and when the switch is turned off, the power supply to the ON control means A means for shutting off the energy supply, and a timing for turning off the switch when the switch is turned on, and an electrical signal is input to the third mechanism using the electrical energy of the power source at the judged time. And an OFF control means for turning off the switch.

  According to the present invention, (1) the switch can be turned on by electrical control from the switch external unit whose power supply is cut off by the switch OFF. (2) The switch operator can perform any operation at any time by the switch operator. There is an effect that can be done.

FIG. 1 is a diagram for explaining a configuration example of the switch device according to the first embodiment. FIG. 2 is a diagram for explaining a configuration example of the switch device according to the first embodiment. FIG. 3 is a diagram for explaining a configuration example of the switch device according to the second embodiment. FIG. 4 is a diagram for explaining a configuration example of the switch device according to the second embodiment. FIG. 5 is a diagram for explaining a configuration example of the switch device according to the third embodiment. FIG. 6 is a diagram for explaining a configuration example of the switch device according to the third embodiment. FIG. 7 is a diagram for explaining a configuration example of the switch device according to the fourth embodiment. FIG. 8 is a diagram for explaining a configuration example of the switch device according to the fourth embodiment. FIG. 9 is a diagram for explaining a configuration example of the switch device according to the fifth embodiment. FIG. 10 is a diagram for explaining a configuration example of the switch device according to the fifth embodiment.

  Hereinafter, an embodiment of a switch device according to the present invention will be described in detail with reference to the accompanying drawings.

(First embodiment)
FIG. 1 is a diagram for explaining a configuration example of the switch device according to the first embodiment. As shown in FIG. 1, the switch of this embodiment includes a power switch 10, an operation unit 13, a rod-shaped member 14, a switch ON solenoid 15, a switch OFF solenoid 16, a device control unit 17, and a DC5V conversion. A power source 20, a capacitor 21, a power switch ON control unit 22, and a diode 23 are provided. The device control unit 17 includes a power switch OFF control unit 18 and various device / device / machine control units 19.

  The power switch 10 is indicated by a unit indicated by a broken line. The contact open circuit 11 is connected to a commercial AC power source. The connection destination of the contact opening circuit 11 may be a power source such as a battery other than the commercial AC power source. Further, the movable part 12 of the power switch 10 has a hole in the upper part and is connected to the operation part 13 installed at a distant place by a bar-like member 14. The operation unit 13 is a part where the operator performs ON / OFF operation of the switch. A hole is also formed in the upper part of the operation unit 13. The rod-shaped member 14 is disposed substantially horizontally and is connected to a switch ON solenoid 15 (operating in the right direction when the solenoid is energized) and a switch OFF solenoid 16 (operating in the left direction by energizing the solenoid) that are movable substantially in the horizontal direction. The rod-shaped member 14 can be operated in the left-right direction by energizing either one of the solenoids. In synchronization with this operation, the movable portion 12 and the operation portion 13 of the power switch 10 also rotate around a small black circle as shown in the figure. Further, when the solenoid is not energized, the rod-like member 14 can freely move in the left-right direction by operating the operation unit 13, and the movable unit 12 of the power switch 10 is centered on the small black circle shown in the figure. It can be rotated.

  A power source via the contact opening 11 of the power switch 10 is connected to a DC5V conversion power source 20 and an image forming apparatus, an electric device, a medical device, a machine tool, an automobile, a transportation device, and the like 200. Therefore, when the contact opening 11 of the power switch 10 is in the OFF (open) state, there is no energy consumption of the power source.

  The DC5V conversion power supply 20 generates and outputs a DC5V voltage from a commercial AC power supply or a power supply such as a battery. The DC5V conversion power supply 20 supplies power for operating the control unit for controlling ON / OFF of the switch and various devices. The power supply is divided into two systems.

  The first system is directly supplied to the power switch OFF control unit 18 and the various device / device / machine control unit 19. Therefore, when the contact opening 11 of the power switch 10 is in the OFF (open) state, the operations of the power switch OFF control unit 18 and the various device / device / machine control unit 19 are stopped, and the power consumption is zero.

  The second system is connected via a diode 23 (forward direction) to a capacitor 21 that is a power storage means and a power switch ON control unit 22. Therefore, when the contact open circuit 11 of the power switch 10 is in the OFF (open) state, the power switch ON control unit 22 can operate with the energy from the charged capacitor 21 although the energy supplied from the power source is zero. It is. Further, in this case, the diode 23 is wasted in the DC5V conversion power supply 20, the power switch OFF control unit 18 and the various device / device / machine control unit 19 whose output is stopped. (Blocking means).

  The power switch ON control unit 22 and the power switch OFF control unit 18 are preferably designed such that the power consumption is extremely small, such as selecting a power saving CPU as the minimum necessary configuration.

  FIG. 2 is a diagram for explaining an example of the switch device when the contact opening 11 is in an ON (closed) state.

  When the contact open circuit 11 of the power switch 10 is in the ON (closed) state, the power switch OFF control unit 18 and the various devices, devices, machines, etc. control unit 19 are operating and determine when the power switch 10 is turned off after an appropriate time. However, these devices are controlled by outputting control signals to the image forming apparatus 200, electrical equipment, medical equipment, machine tool, automobile, transportation equipment 200 and the like.

  When the contact open circuit 11 of the power switch 10 is in the OFF (open) state (FIG. 1), the power switch ON control unit 22 operates by supplying energy from the capacitor 21 and determines when the power switch 10 is turned on after an appropriate time. doing. At this time, wasteful energy consumption is caused by current flowing to the DC5V conversion power supply 20, the power switch OFF control unit 18 and the various device / equipment / machine control unit 19 whose output is stopped from the capacitor 21. It is prevented.

  The power switch OFF control unit 18 and the power switch ON control unit 22 are an ON / OFF instruction, brightness, sound, date and time of the power switch of the image forming apparatus 200, the electrical device, the medical device, the machine tool, the automobile, the transportation device 200 Information such as the presence or absence of a human body and machine operation is input.

  For example, the following can be considered as a specific determination method. An illuminance sensor for detecting the brightness around the switch device is provided outside the switch device. The power switch ON control unit 22 sets a condition for determining when to turn on the power switch 10 when the ambient brightness of the switch device continues for a predetermined time or more. In addition, the power switch OFF control unit 18 sets a condition for determining when to turn off the power switch 10 when the ambient brightness of the switch device is below a predetermined brightness for a predetermined time or longer.

  A volume detection unit for detecting the volume around the switch device is provided outside the switch device. The power switch ON control unit 22 sets a condition for determining when to turn on the power switch 10 when the surrounding volume of the power switch 10 is more than a predetermined volume for a predetermined time. In addition, the power switch OFF control unit 18 sets a condition for determining when to turn off the power switch 10 when the surrounding volume of the switch device continues for a predetermined time or more.

  A human sensor for detecting the presence of a human body around the switch device is provided outside the switch device. The power switch ON control unit 22 uses the case where the presence of a human body around the switch device can be detected as a condition for determining when to turn on the power switch 10. Moreover, the power switch OFF control part 18 makes the condition which judges the time to turn off the power switch 10 when the state which cannot detect the presence of the human body around a switch apparatus continues more than predetermined time.

  A current time acquisition unit that acquires the current time is provided outside the switch device. The power switch ON control unit 22 uses the current time acquired by the current time acquisition unit as a predetermined time as a condition for determining when to turn on the power switch 10. In addition, the power switch OFF control unit 18 sets a condition for determining when to turn off the power switch 10 when the current time acquired by the current time acquisition unit becomes a predetermined time.

  A recognition unit is provided outside the switch device for recognizing a time when the switch device device including the switch device is not operated or a time when the switch device is not operating. The power switch OFF control unit 18 uses the time when the switch device is not operated or the time when the switch device is not operated for a predetermined time or more as a condition for determining when to turn off the power switch 10. .

  An operation detection unit that detects the operation of the switch device device or the operation of the switch device device and a determination unit that determines the frequency of the operation of the switch device device or the operation of the switch device device within a predetermined time are provided outside the switch device. . The power switch OFF control unit 18 uses the case where the frequency is equal to or lower than the predetermined frequency as a condition for determining when to turn off the power switch 10.

  A current date acquisition unit for acquiring the current date and day of the week is provided outside the switch device. The power switch ON control unit 22 uses the current date and day of the week acquired by the current date and time acquisition unit as a condition for determining when to turn on the power switch 10 when the current date and day of a predetermined condition are met. In addition, the power switch OFF control unit 18 determines a time for turning off the power switch 10 when the current date and day of the week and the day of the week acquired by the current date and time acquisition unit become the date and day of a predetermined condition.

  It should be noted that the setting of the predetermined time or date and day of the predetermined condition can be arbitrarily set in a programmable manner.

  The power switch 10 is turned off by outputting a coil energization signal from the power switch OFF control unit 18 to the switch OFF solenoid 16 and operating the switch OFF solenoid 16 to the left side. FIG. 1 shows a state in which the switch OFF solenoid 16 is operated to the left side.

  The power switch 10 is turned on by outputting a coil energization signal from the power switch ON controller 22 to the switch ON solenoid 15 and operating the switch ON solenoid 15 to the right. FIG. 2 shows a state in which the switch ON solenoid 15 is operated to the right side.

  The coil energization time for the switch-off solenoid 16 and the switch-on solenoid 15 is a time until the operation of the solenoid is completed, and the position of the operation unit 13 is preferably maintained by a click feeling of the power switch 10 itself. That is, what is necessary is just to comprise so that the operation part 13 may be maintained in the position corresponding to either the ON side or the OFF side according to the force which the power switch 10 tends to stabilize on the ON side or the OFF side.

  FIG. 1 shows an OFF state of the switch device, and FIG. 2 shows an ON state of the switch device. FIG. 1 shows a state after the operator turns off the switch device, or a state after the switch device is OFF-controlled by the power switch OFF control unit 18. Compared to FIG. 2, the rod-shaped member 14 is located on the left side, and the operation unit 13 and the movable unit 12 of the power switch 10 are rotated counterclockwise.

  FIG. 2 shows a state after the operator turns on the switch device or a state after the switch device is ON-controlled by the power switch ON control unit 22. Compared to FIG. 1, the rod-shaped member 14 is positioned on the right side, and the operation unit 13 and the movable unit 12 of the power switch 10 are rotated clockwise.

(Second Embodiment)
3 and 4 are diagrams for explaining a configuration example of the switch device according to the second embodiment. 3 shows the OFF state of the switch device, and FIG. 4 shows the ON state of the switch device. Description of the same or equivalent parts as in FIG. The same applies to each drawing described later.

  The difference between the second embodiment shown in FIGS. 3 and 4 and the first embodiment shown in FIG. 1 is that the power switch 10-2 is a switch with a reset function, and the power switch 10 is turned off in the first embodiment. The switch OFF solenoid 16 provided for control is replaced with a switch with a reset function.

  In the first embodiment of FIG. 1, the power switch 10 is turned OFF by outputting a coil energization signal from the power switch OFF control unit 18 to the switch OFF solenoid 16 and operating the switch OFF solenoid 16 to the left side. In the second embodiment shown in FIG. 3, a coil energization signal is output from the power switch OFF control unit 18-2 in the device control unit 17-2 to the coil of the power switch 10-2 that is a switch with a reset function. The switch 10-2 is reset (OFF). When a current is passed through the coil set inside the power switch 10-2 when the power switch 10-2 is ON, the movable portion 12 of the power switch 10-2 operates to the OFF (left) side and the contact opening 11 is also set. OFF (open) state.

  In FIG. 3, when a current is passed through the coil, a large black circle portion approaches the coil and the power switch 10-2 is turned off as an image diagram.

  The switches with reset function shown in the second embodiment are, for example, AJ8R series manufactured by Panasonic Electric Works (R), RS3 series manufactured by Hirose Electric (R), and A8G series manufactured by OMRON Corporation (R). Then, the movable part 12 may be deformed.

  The switch device described in Japanese Patent Application No. 2010-279907 (not disclosed) filed on December 15, 2010 by the inventor of the present application can also be applied to this embodiment as a switch with a reset function.

(Third embodiment)
5 and 6 are diagrams for explaining a configuration example of the switch device according to the third embodiment. FIG. 5 shows an OFF state of the switch device, and FIG. 6 shows an ON state of the switch device. The difference between the third embodiment shown in FIG. 5 and FIG. 6 and the second embodiment shown in FIG. 3 and FIG. 4 is a switch capable of switching supply / cutoff of DC5V to the power switch ON control unit 22 24-3 (switching means). The switch 24-3 is ON / OFF controlled by the power switch OFF control unit 18-3 in the device control unit 17-3. If a latching relay is used as the switch 24-3, power consumption is not always generated unlike a general relay, which is preferable from the viewpoint of energy saving.

  When the DC5V power is supplied to the power switch OFF control unit 18-3 and the various device / equipment / machine control unit 19 by turning on the power switch 10-2, the operation of each control unit is started and the initial control is performed. Thus, the switch 24-3 is turned off. This is because, for the time being, it is not necessary to determine when the power switch ON control unit 22 turns on after a certain amount of time.

  By using the switch 24-3, it is possible to carry out DC5V power supply to the power switch ON control unit 22 only when necessary, thereby suppressing wasteful energy consumption.

  When the power switch 10-2 is turned off by the power switch OFF controller 18-3, the switch 24-3 is turned on from the power switch OFF controller 18-3 before that. This is because after the OFF control of the power switch 10-2, it is necessary to continue to determine the time when the power switch ON control unit 22 turns on after that.

  If the switch 24-3 is turned on and then information on the current date and next ON control scheduled condition is transmitted from the power switch OFF control unit 18-3 to the power switch ON control unit 22, the power switch ON control unit 22 Can reduce power consumption as the minimum required configuration. After the information is transmitted, the power switch 10-2 is turned off by the power switch OFF controller 18-3.

  In the case of the third embodiment, when the operator turns off the switch device, the switch 24-3 cannot be turned on, so that the power switch ON control unit 22 cannot determine when to turn it on. In such a case, it is inconvenient and inconvenient.

  Therefore, when the switch device of the third embodiment (the same applies to the fourth embodiment and the fifth embodiment) is mounted on an image forming apparatus, an electric device, a medical device, a machine tool, an automobile, a transportation device, etc. The switch device OFF operation by the operator is an emergency power-off operation. Normally, the power switch OFF control unit 18-3 uses the power switch OFF control unit 18-3 to input the power switch 10-2 OFF instruction information input to various devices. It is preferable to perform the OFF control of 10-2.

(Fourth embodiment)
7 and 8 are diagrams for explaining a configuration example of the switch device according to the fourth embodiment. 7 shows the OFF state of the switch device, and FIG. 8 shows the ON state of the switch device. The difference between the fourth embodiment shown in FIGS. 7 and 8 and the third embodiment shown in FIGS. 5 and 6 is that the OFF control of the switch 24-3 in the device control unit 17-4 is the power switch OFF control. The control of the switch 24-3 is controlled by the power switch ON control unit 22-4.

  When the DC5V power is supplied to the power switch OFF control unit 18-4 and the various device / equipment / machine control unit 19 by turning on the power switch 10-2, the operation of each control unit is started and the information is This is transmitted to the switch ON control unit 22-4. The power switch ON control unit 22-4 that has received the information controls the switch 24-3 to be OFF.

(Fifth embodiment)
9 and 10 are diagrams for explaining a configuration example of the switch device according to the fifth embodiment. 9 shows the OFF state of the switch device, and FIG. 10 shows the ON state of the switch device. Differences between the fifth embodiment shown in FIGS. 9 and 10 and the fourth embodiment shown in FIGS. 7 and 8 are as follows. First, the power switch ON control unit 22-5 detects that DC5V power is supplied to the power switch OFF control unit 18-4 and the various device / equipment / machine control unit 19 by turning on the power switch 10-2. To do. The power switch ON control unit 22-5 that has detected the supply controls the switch 24-3 to be OFF.

  As described above, the switch device of the above embodiment has a circuit configuration in which energy is not supplied from the power source to the power switch ON control unit when the switch is OFF, so that the output of the power source can be stopped when the switch is OFF. It can contribute to energy saving. Power supply operation can be completely stopped.

  The power switch ON control unit that determines when the switch is turned on when the switch is turned off is supplied from power storage means or a battery that stores electric energy of the power supplied when the switch is turned on. As a result, the power source can be changed from the OFF (output stop) state to the ON (output) state by the second mechanism that can change the switch operation unit from the OFF side to the ON side by inputting an electric signal. In other words, it is possible to provide a switch device that can be turned on by external control even when the power is off.

  Furthermore, electrical energy for changing the switch from the OFF side to the ON side from the determination result by the power switch ON control unit is supplied from the power storage means. For this reason, since the minimum energy can be stored in the power storage means and the switch can be changed from the OFF side to the ON side, a switch device excellent in energy saving can be provided.

  The switch device further includes a third mechanism that can change the switch operation unit from the ON side to the OFF side by inputting an electric signal, and a power switch OFF control unit that determines when the switch is turned off after the switch is turned on. It has. For this reason, even when the switch is ON, the switch operation unit can be controlled from the ON side to the OFF side. That is, various devices and devices provided with the switch device of the above embodiment can be stopped, and a switch device excellent in energy saving can be provided.

  The switch device further supplies electric energy from the power source when the switch is changed from the ON side to the OFF side based on the determination result by the power switch OFF control unit. For this reason, the switch device can be provided with a simple configuration or at a low cost by effectively using the energy supplied from the power supply when the switch is turned on.

  In the switch device, the switch operation unit and the operation unit on / off operation by the operator are located separately and separated from each other, and both portions are connected by a bar-shaped member. For this reason, the switch device can be provided with a simple configuration or at a low cost.

  The switch device further operates the rod-shaped member by energizing a solenoid connected so that the rod-shaped member is operable in the longitudinal direction. For this reason, the switch device can be provided with a simple configuration or at a low cost.

  The switch device further controls the solenoid energization OFF when the operation of the energized solenoid is completed or at a time when the operation is expected to be completed. Therefore, the switch device can reduce wasteful power consumption and is excellent in energy saving. Can be provided.

  The switch device also has a special switch because the position of the switch device ON state and the switch device OFF state is maintained by the click feeling of the switch body (switch unit including switch contacts, connection terminals and switch operation unit). Therefore, the switch device can be provided with a simple configuration or at a low cost.

  In the switch device, the power switch ON control unit is composed of a CPU supplied with power from the power storage means, and the power switch OFF control unit is composed of a CPU supplied with power from a direct current output only when the switch is ON. Is done. For this reason, when the switch is turned off, the output of the power supply can be stopped, which can contribute to energy saving, and a switch device can be provided with a simple configuration or at a low cost.

  Further, in the switch device, the change in the positional energy of the component movement due to the ON / OFF change of the switch as the entire switch device system is substantially zero. For this reason, the energy required for the ON / OFF operation of the switch is minimal, and wasteful power consumption can be reduced, and a switch device excellent in energy saving can be provided.

  Furthermore, since the rod-shaped members are arranged substantially horizontally, the switch device can be provided with a simple configuration or at a low cost.

  Further, since the moving direction of the solenoid is arranged substantially horizontally, the switching device can be provided with a simple configuration or at a low cost.

  Furthermore, since the power storage means is the capacitor 21, the switch device can provide a switch apparatus excellent in energy saving by using the power storage means excellent in charge / discharge characteristics.

  The switch device further includes a switch capable of switching supply / cutoff of power to the power switch ON control unit, and can control supply / cutoff of power to the power switch ON control unit as necessary. For this reason, the switch apparatus excellent in energy saving can be provided.

  The switch device further includes means for detecting that the power switch OFF control unit has started control, or means for detecting that power is supplied to the power switch OFF control unit. For this reason, the switch device can be provided with a simple configuration or at a low cost.

  The switch device further controls the power switch OFF controller to turn on / off the power supply to the power switch ON controller, and then supplies the current date and next ON control scheduled condition information to the power switch. Transmit from the OFF control unit to the power switch ON control unit. For this reason, the power switch ON controller configuration is simple and can be reduced in size. When the switch is turned on, power supply is not required, which can contribute to energy saving, and the switch can be configured with a simple structure or at low cost. An apparatus can be provided.

The switch device further sets the determination conditions for performing the ON / OFF control of the switch as the following conditions (1) to (14). For this reason, ON / OFF control of a switch apparatus is possible on various conditions, and a more convenient switch apparatus can be provided.
(1) Judgment of switch ON control by switch OFF → ON instruction.
(2) The switch OFF control is determined by the switch ON → OFF instruction.
(3) The switch ON control is judged by brightness.
(4) The switch OFF control is judged by the darkness.
(5) The switch ON control is judged by sound.
(6) The switch OFF control is judged by sound.
(7) The switch ON control is judged by the human body.
(8) The switch OFF control is determined by the human body.
(9) Judgment of ON control of the switch with a clock.
(10) The switch OFF control is judged with a clock.
(11) Calendar for determining switch OFF control.
(12) The switch ON control is determined by calendar.
(13) Judgment of switch OFF control by operation or action.
(14) The switch OFF control is determined by the operation frequency.

  Furthermore, since the setting of the predetermined time, the date and day of the predetermined condition, and the day of the week can be arbitrarily set in the switch device, a more convenient switch device can be provided.

  Moreover, although the said embodiment demonstrated as an example the switch apparatus which turns ON / OFF commercial AC power supply, it is not limited to this. For example, the switch device of each of the embodiments described above can be applied to a battery-equipped vehicle, a transportation device, an image forming apparatus, an electrical device, a machine tool, a medical device, or the like. As described above, since the switch device can be applied to various devices and apparatuses, more convenient various devices and apparatuses can be provided.

(Configuration example 1)
A switch that supplies power when ON and shuts off when OFF;
A first mechanism for turning on / off the switch in response to an operator's ON / OFF operation;
A second mechanism for changing the switch from the OFF side to the ON side in accordance with the input electrical signal;
Power storage means for storing electrical energy of the power source supplied when the switch is turned on;
When the switch is turned off, it is determined when to turn on the switch, and at the determined time, an electric signal is input to the second mechanism using the electric energy stored in the power storage means. ON control means for turning on;
Shut-off means for shutting off the energy supply from the power source to the ON control means when the switch is OFF;
A switch device comprising:
(Configuration example 2)
A switch that supplies power when ON and shuts off when OFF;
A first mechanism for turning on / off the switch in response to an operator's ON / OFF operation;
A second mechanism for changing the switch from the OFF side to the ON side in accordance with the input electrical signal;
A third mechanism for changing the switch from the ON side to the OFF side in accordance with the input electrical signal;
Power storage means for storing electrical energy of the power source supplied when the switch is turned on;
When the switch is turned off, it is determined when to turn on the switch, and at the determined time, an electric signal is input to the second mechanism using the electric energy stored in the power storage means. ON control means for turning on;
Shut-off means for shutting off the energy supply from the power source to the ON control means when the switch is OFF;
An OFF control means for determining when to turn off the switch at the time of turning on the switch, and turning off the switch by inputting an electric signal to the third mechanism at the determined time;
A switch device comprising:
(Configuration example 3)
A switch that supplies power when ON and shuts off when OFF;
A first mechanism for turning on / off the switch in response to an operator's ON / OFF operation;
A second mechanism for changing the switch from the OFF side to the ON side in accordance with the input electrical signal;
A third mechanism for changing the switch from the ON side to the OFF side in accordance with the input electrical signal;
Power storage means for storing electrical energy of the power source supplied when the switch is turned on;
When the switch is turned off, it is determined when to turn on the switch, and at the determined time, an electric signal is input to the second mechanism using the electric energy stored in the power storage means. ON control means for turning on;
Shut-off means for shutting off the energy supply from the power source to the ON control means when the switch is OFF;
When the switch is turned on, it is determined when to turn off the switch, and at the determined time, an electrical signal is input to the third mechanism using the electrical energy of the power source, so that the switch is turned off. Means,
A switch device comprising:
(Configuration example 4)
The first mechanism includes an operation unit that an operator performs ON / OFF operation, and a rod-shaped member that connects the movable unit of the switch and the operation unit,
In response to the operator's ON / OFF operation, the rod-shaped member operates in the longitudinal direction, and the movable portion of the switch is turned ON / OFF.
In conjunction with the operation of the movable part of the switch from the OFF side to the ON side by the second mechanism, the rod-shaped member operates in the longitudinal direction, and the operation unit is changed from the OFF side to the ON side. about,
The switch device according to Configuration Example 1 characterized by:
(Configuration example 5)
The first mechanism includes an operation unit that an operator performs ON / OFF operation, and a rod-shaped member that connects the movable unit of the switch and the operation unit,
In response to the operator's ON / OFF operation, the rod-shaped member operates in the longitudinal direction, and the movable portion of the switch is turned ON / OFF.
In conjunction with the operation from the OFF side to the ON side of the movable part of the switch by the second mechanism, the rod-shaped member operates in the longitudinal direction, and the operation unit is changed from the OFF side to the ON side,
In conjunction with the operation of the movable part of the switch from the ON side to the OFF side by the third mechanism, the rod-shaped member operates in the longitudinal direction, and the operation unit is changed from the ON side to the OFF side. about,
4. The switch device according to Configuration Example 2 or 3, wherein
(Configuration example 6)
The second mechanism includes a solenoid coupled to the rod-like member so that the rod-like member can operate in a longitudinal direction;
The ON control means turns on the switch by energizing the solenoid to operate the rod-shaped member;
The switch device according to Configuration Example 4 or 5, characterized by:
(Configuration example 7)
The configuration example 6 is characterized in that the ON control means controls the energization to the solenoid to be OFF when the operation of the solenoid is completed or when the operation of the solenoid is expected to be completed. Switch device.
(Configuration example 8)
The position of the ON state of the switch and the OFF state of the switch is maintained with a click feeling of the switch,
The switch device according to Configuration Example 7, which is characterized in that:
(Configuration example 9)
The third mechanism includes a solenoid coupled to the rod-shaped member so that the rod-shaped member can operate in a longitudinal direction;
The OFF control means turns off the switch by energizing the solenoid to operate the rod-shaped member,
The switch device according to any one of Configuration Examples 4 to 8, wherein:
(Configuration example 10)
The OFF control means, when the operation of the solenoid is completed, or when the operation of the solenoid is expected to be completed, to turn off the energization to the solenoid;
The switch device according to Configuration Example 9 characterized by:
(Configuration Example 11)
The position of the ON state of the switch and the OFF state of the switch is maintained with a click feeling of the switch,
The switch device according to Configuration Example 10 characterized by:
(Configuration example 12)
The switch is a switch with a reset function including a coil that changes the switch from ON side to OFF side by energization,
Further comprising OFF control means for determining when to turn off the switch when the switch is turned on, and turning off the switch by energizing the coil at the determined time;
The switch device according to Configuration Example 1 characterized by:
(Configuration Example 13)
The OFF control means, when the operation of the switch due to energization to the coil is completed, or when the operation of the switch is expected to be completed, to turn off the energization of the coil;
The switch device according to Configuration Example 12, which is characterized in that:
(Configuration Example 14)
The position of the ON state of the switch and the OFF state of the switch is maintained with a click feeling of the switch,
The switch device according to Configuration Example 13 characterized by the above.
(Configuration Example 15)
The ON control means is composed of a CPU supplied with power from the power storage means,
The OFF control means is composed of a CPU that is supplied with power from a direct current that is output when the switch is ON.
The switch apparatus of the structural example 2-the structural example 14 characterized by these.
(Configuration Example 16)
The change in the positional energy of the component movement due to the change of the switch from ON to OFF and the change from OFF to ON is substantially zero.
The switch device according to any one of Configuration Examples 1 to 15, wherein:
(Configuration Example 17)
The rod-shaped member is disposed substantially horizontally;
The switch device according to Configuration Example 4 or 5, characterized by:
(Configuration Example 18)
The moving direction of the solenoid is arranged substantially horizontally,
The switch apparatus as described in any one of the structural examples 6-11 characterized by these.
(Configuration Example 19)
A switching means for supplying power to the ON control means when ON and shutting off the power to the ON control means when OFF;
The OFF control means performs OFF control of the switching means after the start of control, and performs ON control of the switching means before performing OFF control of the switch.
4. The switch device according to Configuration Example 2 or 3, wherein
(Configuration example 20)
A switching means for supplying power to the ON control means when ON and shutting off the power to the ON control means when OFF;
When the ON control means detects that the OFF control means has started control, it controls the switching means to be OFF,
The OFF control means performs ON control of the switching means before performing OFF control of the switch,
The switch device according to any one of Configuration Examples 1 to 19, wherein:
(Configuration example 21)
A switching means for supplying power to the ON control means when ON and shutting off the power to the ON control means when OFF;
When the ON control means detects that power is supplied to the OFF control means, it controls the switching means to be OFF,
The OFF control means performs ON control of the switching means before performing OFF control of the switch,
The switch device according to any one of Configuration Examples 1 to 19, wherein:
(Configuration Example 22)
The OFF control means transmits the information on the current date and time and the next ON control scheduled condition to the ON control means after performing the ON control of the switching means, and performs the OFF control of the switch after the transmission,
The switch device according to any one of configuration examples 19 to 21 characterized by:
(Configuration Example 23)
In the ON control means, the condition for determining when to turn on the switch is that a switch OFF → ON instruction is detected,
The switch device according to any one of Configuration Examples 1 to 22 characterized by:
(Configuration Example 24)
In the OFF control means, the condition for determining when to turn off the switch is that a switch ON → OFF instruction is detected,
4. The switch device according to Configuration Example 2 or 3, wherein
(Configuration example 25)
A volume detector for detecting a volume around the switch device;
In the ON control means, the condition for determining when to turn on the switch is that the volume around the switch device is higher than a predetermined volume for a predetermined time or longer.
The switch device according to any one of Configuration Examples 1 to 22 characterized by:
(Configuration example 26)
A volume detector for detecting a volume around the switch device;
In the OFF control means, the condition for determining when to turn off the switch is that the volume around the switch device is below a predetermined volume for a predetermined time or more.
4. The switch device according to Configuration Example 2 or 3, wherein
(Configuration example 27)
A human body detection unit for detecting the presence of a human body around the switch device;
In the ON control means, the condition for determining when to turn on the switch is a case where the presence of a human body around the switch device is detected,
The switch device according to any one of Configuration Examples 1 to 22 characterized by:
(Configuration example 28)
A human body detection unit for detecting the presence of a human body around the switch device;
In the OFF control means, the condition for determining when to turn off the switch is that the state in which the presence of the human body around the switch device is not detected continues for a predetermined time,
4. The switch device according to Configuration Example 2 or 3, wherein
(Configuration example 29)
It further includes a current time acquisition unit for acquiring the current time,
In the ON control means, the condition for determining when to turn on the switch is that the current time acquired by the current time acquisition unit is a predetermined time,
The switch device according to any one of Configuration Examples 1 to 22 characterized by:
(Configuration example 30)
It further includes a current time acquisition unit for acquiring the current time,
In the OFF control means, the condition for determining when to turn off the switch is that the current time acquired by the current time acquisition unit is a predetermined time,
4. The switch device according to Configuration Example 2 or 3, wherein
(Configuration example 31)
A recognition unit for recognizing a time when the switch device is not operated or a time when the switch device is not operated;
In the OFF control means, the condition for judging when to turn off the switch is that the time when the switch device is not operated or the time when the switch device is not operated recognized by the recognition unit continues for a predetermined time or more. If you do,
4. The switch device according to Configuration Example 2 or 3, wherein
(Configuration example 32)
An operation detector for detecting an operation of the switch device or an operation of the switch device;
A determination unit that determines the frequency of operation of the switch device or operation of the switch device within a predetermined time; and
In the OFF control means, the condition for determining when to turn off the switch is that the frequency determined by the determination unit is equal to or less than a predetermined frequency,
4. The switch device according to Configuration Example 2 or 3, wherein

DESCRIPTION OF SYMBOLS 10, 10-2 Power switch 11 Contact opening 12 Movable part 13 Operation part 14 Bar-shaped member 15 Switch ON solenoid 16 Switch OFF solenoid 17, 17-2, 17-3, 17-4 Device control part 18, 18-2, 18-3, 18-4 Power switch OFF control unit 19 Various device / equipment / machine control unit 20 DC5V conversion power supply 21 Capacitor 22, 22-4, 22-5 Power switch ON control unit 23 Diode 24-3 Switch 200 Image Forming equipment, electrical equipment, medical equipment, machine tools, automobiles, transportation equipment, etc.

JP 2002-8490 A JP 2002-159143 A

Claims (10)

A switch that supplies power when ON and shuts off when OFF;
A first mechanism for turning on / off the switch in response to an operator's ON / OFF operation;
A second mechanism for changing the switch from the OFF side to the ON side in accordance with the input electrical signal;
Power storage means for storing electrical energy of the power source supplied when the switch is turned on;
When the switch is turned off, it is determined when to turn on the switch, and at the determined time, an electric signal is input to the second mechanism using the electric energy stored in the power storage means. ON control means for turning on;
Shut-off means for shutting off the energy supply from the power source to the ON control means when the switch is OFF;
A switch device comprising: A switch that supplies power when ON and shuts off when OFF;
A first mechanism for turning on / off the switch in response to an operator's ON / OFF operation;
A second mechanism for changing the switch from the OFF side to the ON side in accordance with the input electrical signal;
A third mechanism for changing the switch from the ON side to the OFF side in accordance with the input electrical signal;
Power storage means for storing electrical energy of the power source supplied when the switch is turned on;
When the switch is turned off, it is determined when to turn on the switch, and at the determined time, an electric signal is input to the second mechanism using the electric energy stored in the power storage means. ON control means for turning on;
Shut-off means for shutting off the energy supply from the power source to the ON control means when the switch is OFF;
An OFF control means for determining when to turn off the switch at the time of turning on the switch, and turning off the switch by inputting an electric signal to the third mechanism at the determined time;
A switch device comprising: A switch that supplies power when ON and shuts off when OFF;
A first mechanism for turning on / off the switch in response to an operator's ON / OFF operation;
A second mechanism for changing the switch from the OFF side to the ON side in accordance with the input electrical signal;
A third mechanism for changing the switch from the ON side to the OFF side in accordance with the input electrical signal;
Power storage means for storing electrical energy of the power source supplied when the switch is turned on;
When the switch is turned off, it is determined when to turn on the switch, and at the determined time, an electric signal is input to the second mechanism using the electric energy stored in the power storage means. ON control means for turning on;
Shut-off means for shutting off the energy supply from the power source to the ON control means when the switch is OFF;
When the switch is turned on, it is determined when to turn off the switch, and at the determined time, an electrical signal is input to the third mechanism using the electrical energy of the power source, so that the switch is turned off. Means,
A switch device comprising: The first mechanism includes an operation unit that an operator performs ON / OFF operation, and a rod-shaped member that connects the movable unit of the switch and the operation unit,
The second mechanism includes a solenoid coupled to the rod-like member so that the rod-like member can operate in a longitudinal direction;
The ON control means turns on the switch by energizing the solenoid to operate the rod-shaped member;
The switch device according to any one of claims 1 to 3. The first mechanism includes an operation unit that an operator performs ON / OFF operation, and a rod-shaped member that connects the movable unit of the switch and the operation unit,
The third mechanism includes a solenoid coupled to the rod-shaped member so that the rod-shaped member can operate in a longitudinal direction;
The OFF control means turns off the switch by energizing the solenoid to operate the rod-shaped member,
The switch device according to claim 2 or 3. The switch is a switch with a reset function including a coil that changes the switch from ON side to OFF side by energization,
Further comprising OFF control means for determining when to turn off the switch when the switch is turned on, and turning off the switch by energizing the coil at the determined time;
The switch device according to claim 1. The power storage means is a capacitor;
The switch device according to any one of claims 1 to 6, wherein: A brightness detector for detecting brightness around the switch device;
In the ON control means, the condition for determining when to turn on the switch is a case where the ambient brightness of the switch device is more than a predetermined brightness for a predetermined time or more.
In the OFF control means, the condition for judging when to turn off the switch is that the brightness around the switch device is not more than a predetermined brightness for a predetermined time or more,
The switch device according to claim 2 or 3. It further includes a current date and time acquisition unit that acquires the current date and day of the week,
In the ON control means, the condition for determining when to turn on the switch is that the current date and day of the week and the day of the week acquired by the current date and time acquisition unit are the date and day of a predetermined condition,
In the OFF control means, the condition for determining when to turn off the switch is a case where the current date and day of the week acquired by the current date and time acquisition unit are the date and day of a predetermined condition,
The setting of the predetermined time or date and day of the predetermined condition can be arbitrarily set programmably,
The switch device according to claim 2 or 3.   An apparatus that is any one of an image forming apparatus, an electrical apparatus, a medical apparatus, a machine tool, an automobile, and a transport apparatus, comprising the switch device according to any one of claims 1 to 9.

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