JP2008277140A - Emergency operation electric power supply device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve problems that, when an operation electric power for a motor operated switch or a solenoid operated switch is failed due to a certain trouble, it is impossible to carry out the switching operation, and hence, when a usual operation electric power is out of service, it is impossible to supply an electric power to a load by carrying out the switching operation. <P>SOLUTION: An emergency operation electric power supply device supplies the electric power to the motor operated switch or the solenoid operated switch when the electric power of the operation electric power device is failed, to subject the motor operated switch or the solenoid operated switch to the switching operation. The emergency operation electric power supply device is provided with a power generation section constituted by a hand dynamo, a power accumulator that temporarily stores an electric power obtained by the output of the power generation section up to a voltage of enabling the switch to be operated, an outputting section that supplies the electric power from the power accumulator to the switch, a control section that controls charging-discharging of the power accumulator by suitably changing over the connection from the power accumulator to the outputting section. These units are contained in a portable containing case. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an emergency operation used when an operation power source of an electric operation type switch that performs an opening / closing operation using a motor or an electromagnetic operation type switch that performs an opening / closing operation using an electromagnetic coil is lost. The present invention relates to a power supply device.

  In the electric operation type switch or electromagnetic operation type switch, an operation power source is required to drive the motor, charge the electromagnetic coil excitation capacitor, and supply power to the control circuit that controls them. When power is lost, the switch cannot be opened or closed. Patent documents 1, 2, and 3 are listed as related documents of the present invention.

JP 11-75344 A (pages 5-7, FIG. 6) JP 2003-297197 A (page 2-3, FIG. 2) JP 2001-332156 A

As described above, when the operation power source of the electric operation type switch or the electromagnetic operation type switch is lost due to some trouble, it becomes impossible to perform the opening / closing operation. Therefore, when the normal operation power source cannot be used, the opening / closing operation cannot be performed. There is a problem that it becomes impossible to perform power supply to loads (all electric devices receiving power from the power system).
The present invention has been made to solve the above-described problems. A portable manual power generator is used to quickly drive an electric operation type switch or an electromagnetic operation type switch, and a control circuit for these switches. It is an object of the present invention to obtain a portable emergency operation power supply device that can supply power to the switch and enable the opening / closing operation of the switch without using a normal operation power supply.

  An emergency operation power supply device for a switch according to the present invention comprises an electric operation system switch or an electromagnetic operation system switch that normally performs switching operation of a load by supplying power from the operation power supply apparatus. In the emergency operation power supply device that supplies power to the electric operation type switch or the electromagnetic operation type switch and opens and closes the electric operation type switch or the electromagnetic operation type switch when the power is lost. A power storage unit composed of a power storage unit, and a storage battery that temporarily stores the electric power obtained by the output of the power generation unit until the voltage that can be operated by the electric operation type switch or the electromagnetic operation type switch An output unit that supplies electric power from the power storage unit to the electric operation system switch or electromagnetic operation system switch, connection from the power generation unit to the power storage unit, and connection from the power storage unit By switching the connection to the output unit suitably it is obtained by accommodating the control unit and is constituted by a storage case of portable these members to control the charging and discharging of the power storage unit.

  According to the emergency operation power supply device of the present invention, when a switch requiring power supply from the operation power supply becomes inoperable due to loss of power, for example, at the time of a power failure, no power supply can be obtained. Even in such a case, the manual power generator housed in the portable case can quickly open and close the switch, and the entire device can be stored compactly in the portable case, making the emergency operation power supply easy to carry. Can be provided.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
In the drawings, the same reference numerals indicate the same or corresponding parts.

Embodiment 1 FIG.
In the first embodiment, an electric operation type switch that performs an opening / closing operation using a motor or an electromagnetic operation type switch that performs an opening / closing operation using an electromagnetic coil is used when the opening / closing operation is performed in a state where the operation power is lost. Among emergency operation power supply devices, it is an emergency operation power supply device used for electromagnetic operation type switches.
FIG. 1 is a perspective view showing the structure of an emergency operation power supply apparatus according to Embodiment 1 of the present invention, and FIG. 2 is a normal electromagnetic operation type switch (hereinafter referred to as “switch”) using a DC power supply 14. FIG. 3 is a circuit diagram showing a case where the switch is operated using the emergency operation power supply device of FIG. 1 when the DC power supply 14 supplied to the switch control circuit 12 is lost, for example, in the event of a power failure. FIG. 4 is a graph showing the relationship between the charging voltage of the power storage capacitor in the emergency operation power supply device and the exciting capacitor in the switch according to Embodiment 1 of the present invention.

In FIG. 1, a power generator storage case 1 includes a manual generator 2 and a rectifier (21 in FIG. 3) that constitute a power generation unit, a power storage capacitor 3 and a resistor 10 that constitute a power storage unit, and a control unit. 3 is housed to form the power supply circuit 20 shown in FIG.
A detachable rotary handle 6 having a built-in one-way clutch 5 is connected to the manual generator 1 via a transmission mechanism 7.
A carrying handle 8 for facilitating transportation of the power supply device is attached to the upper surface of the storage case 1, and an output connector 9 for supplying power to the switch and a select switch 11 are provided on the front surface of the storage case 1. ing.

In FIG. 2, 12 is a switch control circuit, and 13 is a normal operation power supply. When power is supplied from the DC power supply 14 of the operation power supply 13 via the safety breaker 15, the control circuit 12 closes the contact 16 and charges the excitation capacitor 18 of the electromagnetic coil 17. When the switch is driven, a normal switching operation is performed by closing the contact 19 and supplying power from the exciting capacitor 18 to the electromagnetic coil 17.
Incidentally, 44 is energized capacitor 18, a chopper section 41, in the reactor unit 42, resistors 43 and 45 diodes 45 normal step-up chopper circuit configured by such (about 50KH _Z), its operation is as follows.
Energy is stored in the reactor 42 when the chopper 41, which is an element that performs high-speed, high-frequency switching operations such as FETs, is on. When the chopper 41 is off, stored energy and energy from the power source 14 are stored. Is supplied to the exciting capacitor 18. Here, the voltage E ₁ of the power source 14, the voltage E ₂ of the excitation capacitor 18, the chopper unit 41 is time T _ON of the ON and chopper unit 41 and T _OFF time off, the E ₁ and E ₂ The relationship can be expressed as: That is, since E ₂ becomes larger than E ₁ , the boosting operation of FIG. 4 described later can be performed.

In FIG. 3, 12 shows the switch control circuit 12 as in FIG. 2, and 20 shows the power supply circuit of the emergency operation power supply.
Hereinafter, based on FIG. 3, for example, when the DC power supply 14 to be supplied to the switch control circuit 12 is lost in the event of a power failure, the circuit configuration for operating the switch using the emergency operation power supply device of FIG. The operation will be described together.
The control circuit 12 of the switch and the power circuit 20 of the emergency operation power supply device are connected via an output connector 9 that constitutes an output unit.
The output connector 9 becomes usable when the selector switch 11 is opened to disconnect the storage capacitor 3 and the resistor 10. That is, the connection between the storage capacitor 3 and the resistor 10 is disconnected when the user operates the selector switch 11 when using the power supply device. The resistor 10 is for discharging the storage capacitor 3 for safety when the power supply device is not used.

As shown in FIG. 4, the switch has a variable range with respect to the rated operating voltage, and the switch control circuit 12 is set so as not to operate even when a voltage outside the variable range is input. . Therefore, in the first embodiment, a method of temporarily storing power in the storage capacitor 3 is adopted so that power can be stably supplied to the switch.
Further, as the storage capacitor 3, a capacitor having a sufficiently large rated voltage with respect to the rated operating voltage of the switch is selected. That is, when the rated voltage of the storage capacitor 3 is equal to or less than the rated operating voltage of the switch, the voltage is supplied as soon as power is supplied to the switch control circuit 12 even if the storage capacitor 3 is charged to the rated voltage. Since the control circuit of the switch does not operate below the rated operating voltage of the switch even if it falls below the rated operating voltage of the switch or the capacitor 3 for storage is charged to the rated voltage, the battery is stored to compensate for these operations. As described above, the capacitor 3 having a sufficiently large rated voltage with respect to the rated operating voltage of the switch is selected. Further, if the peak value of the output voltage of the manual generator 2 exceeds the rated voltage of the storage capacitor 3, the insulation of the storage capacitor 3 is broken and the life is shortened. The peak value of is not exceeding the rated voltage of the capacitor 3 for electricity storage.

Next, the operation will be described.
(1) When the generator 2 is manually turned, the generated power is charged into the storage capacitor 3 starting from 0 volts via the rectifier 21.
(2) When the charging voltage 22 of the storage capacitor 3 is close to the upper limit (for example, 120 V) of the above-described voltage fluctuation range, the relay 23 in the relay circuit 4 operates to close the contact 24.
(3) Thereby, the relay 25 is operated, and the contacts 26 and 27 on the generator side are opened and the contact 28 on the switch side is closed by this operation.
(4) Thereby, the storage capacitor 3 is temporarily disconnected from the generator 2 and starts to supply power to the control circuit 12 of the switch via the output connector 9.
Note that the relay circuit 4 is in two stages. In the case of one stage, there is a moment when both the generator-side contact 26 and the switch-side contact 28 open when the contacts are switched. This is because there is a possibility of causing a malfunction by being divided. The relay circuit 4 is provided with resistors 29 and 30 for adjusting the operating voltage of the relay 23 to near the upper limit of the voltage fluctuation range.
(5) When the contact 27 is opened by the operation (3) in conjunction with the operation (2) of the relay 23, the combined resistance value of the resistors 29 and 30 changes, and the return voltage of the relay 23 is the voltage described above. Near the lower limit of the fluctuation range.
(6) On the other hand, when power is supplied to the control circuit 12 of the switch, the contact 16 is closed and the excitation capacitor 18 is charged as described above, and the voltage 22 of the storage capacitor 3 gradually decreases.
(7) When the voltage 22 becomes close to the lower limit (for example, 60 V) of the voltage fluctuation range described above, the relay circuit 4 is restored, the connection is switched to the generator side, and charging of the storage capacitor 3 is started again.
(8) If the generator 2 continues to rotate, the series of operations (1) to (6) up to this point are automatically repeated by the relay circuit 4, and the charging voltage 31 of the excitation capacitor 18 is described with reference to FIG. By the operation of the boosting chopper circuit 44, the voltage rises stepwise as shown in FIG.
(9) When charging of the excitation capacitor 18 is completed (for example, 190 V), the power supply from the storage capacitor 3 only operates the control circuit 12 of the switch, and the voltage 22 drops slowly.
For this reason, it is possible to obtain a sufficient time until the relay circuit 4 returns, and it is possible to operate the switch while stopping the hand turning the generator 2.

  Although FIG. 3 shows the case where the storage capacitor 3 is used, the same effect can be expected even if a storage battery is used instead of the storage capacitor 3 as a modification of the first embodiment.

Embodiment 2. FIG.
FIG. 5 is a perspective view showing an external structure of an emergency operation power supply device according to Embodiment 2 of the present invention, and FIG. 6 is a case where an electromagnetic operation type switch is operated using the emergency operation power supply device of FIG. FIG.
In the first embodiment, the configuration relies only on manual power generation. However, in the second embodiment, the external power supply AC plug 32 is connected in parallel to the power generation capacitor 3 with respect to the storage capacitor 3. In addition, 33 is a rectifier and 34 is a selector switch.
Thus, the user can select whether to charge from the AC plug 32 or the generator 2 by operating the selector switch 34.
In addition, the AC plug 32, the rectifier 33, and the selector switch 34 are provided in the storage case 1 as shown in FIG.
Therefore, when there is an AC outlet on the switch side, or when there is an AC outlet that can be used near the switch, power can be obtained from the AC plug 32 by inserting it into the AC plug 32. There is the convenience that the capacitor 3 for electricity storage can be charged.
Further, when there is an AC outlet that can be used near the switch, it is not necessary to generate power manually, and the switch can be easily operated.
In addition, about the same part as Embodiment 1, description is abbreviate | omitted.

Embodiment 3 FIG.
FIG. 7 is a circuit diagram in the case of operating an electromagnetically operated switch using the emergency operation power supply device according to the third embodiment of the present invention.
In the first embodiment, only the manual power generation is used. In the second embodiment, the storage capacitor 3 is charged using an external AC power supply. In the third embodiment, the main circuit of the switch is used. When 36 is connected to the instrument transformer 37, the low voltage side 37 b of the instrument transformer is connected in parallel to the power storage capacitor 3. In addition, 33 is a rectifier and 34 is a select switch. Accordingly, the user can select whether to charge from the low voltage side 37b of the instrument transformer or the generator 2 by operating the select switch 34.
Therefore, when the main circuit 36 of the switch is connected to the instrument transformer 37, electric power can be obtained therefrom, and there is the convenience that the storage capacitor 3 can be selectively charged. When the main circuit 36 of the switch is connected to the instrument transformer 37, it is not necessary to generate power manually, and the switch can be easily operated.
In addition, about the same part as Embodiment 1, description is abbreviate | omitted.

Embodiment 4 FIG.
FIG. 8 is a circuit diagram when an electromagnetically operated switch is operated using an emergency operating power supply apparatus according to Embodiment 4 of the present invention.
In the first embodiment, only manual power generation is used. In the second embodiment, the storage capacitor 3 is charged using an external AC power source. In the third embodiment, the main circuit 36 of the switch is used. Is connected to the instrument transformer 37, the power storage capacitor 3 is charged by obtaining power from the low voltage side 37b of the instrument transformer. In the fourth embodiment, the electromagnetically operated switch A dry battery 38 having an output voltage equivalent to the rated operating voltage is connected in parallel with the power generation unit. Reference numeral 34 denotes a select switch. Thus, the user can select whether to charge from the dry battery 38 or the generator 2 by operating the select switch 34.
Therefore, when there is a dry battery 38, electric power can be obtained therefrom, and there is the convenience that the storage capacitor 3 can be selectively charged.
Further, when there is a dry battery 38, it is not necessary to generate power manually, and the switch can be easily operated. As the dry cell 38, a fuel cell, an automobile battery, or the like can be adopted.
In addition, about the same part as Embodiment 1, description is abbreviate | omitted.

Embodiment 5. FIG.
FIG. 9 is a block circuit diagram in the case of operating an electromagnetically operated switch using the emergency operation power supply device according to the fifth embodiment of the present invention.
In the fifth embodiment, the power is obtained from the manual generator 2 according to the first embodiment, the power is obtained from the AC plug 32 according to the second embodiment, and the power is obtained from the instrument transformer according to the third embodiment. All the devices that obtain power from the battery 38 (dry cell, fuel cell, automobile battery, etc.) that is the fourth embodiment are adopted, and the power source is selected and used by the user according to the situation by the select switch 40 It is something that can be done.
Therefore, the effects of each device can be appropriately exhibited by properly using each device.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a structure of an emergency operation power supply device according to a first embodiment of the present invention, FIG. 1 (a) is a perspective view showing the inside, and FIG. It is a circuit diagram which shows the electromagnetic operation system switch in the normal time by DC power supply. It is a circuit diagram in the case of operating an electromagnetic operation type switch using the emergency operation power supply device of FIG. 1 when the DC power supply 14 is lost. It is a graph which shows the relationship between the charge voltage of the capacitor | condenser for electrical storage in the emergency operation power supply device in Embodiment 1 of this invention, and the capacitor | condenser for excitation in an electromagnetic operation system switch. It is a perspective view which shows the external appearance structure of the emergency operation power supply device which is Embodiment 2 of this invention. It is a circuit diagram of the emergency operation power supply device which is Embodiment 2 of this invention. It is a circuit diagram of the emergency operation power supply device which is Embodiment 3 of this invention. It is a circuit diagram of the emergency operation power supply device which is Embodiment 4 of this invention. It is a block circuit diagram of the emergency operation power supply device which is Embodiment 5 of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Storage case 2 Manual generator 3 Power storage capacitor 4 Relay circuit 5 One-way clutch 6 Rotating handle 7 Transmission mechanism 8 Carrying handle 9 Output connector 10 Resistor 11 Selector switch 12 Switch control circuit 13 Switch operation power supply 14 DC power supply 15 Safety Breaker 16 Contact 17 Electromagnetic coil 18 Excitation capacitor 19 Contact 20 Emergency power supply power supply circuit 21 Rectifier 22 Capacitor charging voltage for storage 23 Relay 24 Contact 25 Relay 26 Contact 27 Contact 28 Contact 29 Resistance 30 Resistance 31 Excitation capacitor charging voltage 32 AC plug 33 Rectifier 34 Selector switch 35 Caster 36 Main circuit of switch 37 Instrument transformer 37a High voltage side of instrument transformer 37b Low voltage side of instrument transformer 38 Dry cell (battery)
39 Instrument transformer plug 40 Selector switch.
41 Chopper part 42 Reactor part 43 Resistance 44 Boost chopper circuit 45 Diode.

Claims (7)

  Usually, it is equipped with an electric operation type switch or an electromagnetic operation type switch that performs an opening / closing operation of a load by supplying power from the operation power supply unit, and when the operation power supply unit loses power, the electric operation type switch or In the emergency operation power supply device that supplies electric power to the electromagnetic operation type switch and opens and closes the electric operation type switch or the electromagnetic operation type switch, the power generation unit configured by a manual generator and the output of the power generation unit A power storage unit consisting of a storage battery or a capacitor that temporarily stores the obtained power until the voltage that can be operated by the electric operation method switch or the electromagnetic operation method switch, and the electric power from the power storage unit is switched to the electric operation method switch. The storage unit or the output unit to be supplied to the electromagnetic operation system switch, the connection from the power generation unit to the power storage unit, and the connection from the power storage unit to the output unit are switched as appropriate to charge / discharge the power storage unit Emergency operation power supply apparatus characterized by a control unit that controls, these members are constituted by accommodating the portable storage case a.   The manual generator includes a handle for rotating the manual generator, and the handle is connected to the manual generator via a one-way clutch that transmits rotational force only in a certain direction. Item 2. The emergency operation power supply device according to Item 1.   The rated voltage of the storage battery or capacitor in the power storage unit is set to be equal to or higher than the rated operating voltage of the electric operation system switch or electromagnetic operation system switch to be operated, and the peak value of the output voltage of the manual generator is The emergency operation power supply device according to claim 1, wherein the operation voltage is set to be equal to or lower than a rated voltage of a storage battery or a capacitor in the power storage unit. An AC plug for external power supply connected in parallel to the power generation unit with respect to the power storage unit, a switch for appropriately switching connection of the power storage unit with the power generation unit or the AC plug,
The emergency operation power supply apparatus according to any one of claims 1 to 3, wherein only one of the power generation unit or the AC outlet is switched and connected to the power storage unit by the switch. A transformer provided in a main circuit of the electric operation type switch or the electromagnetic operation type switch and having a low voltage side terminal connected to the power storage unit in parallel with the power generation unit, and the power storage unit as the transformer or the power generation Equipped with a switch to switch and connect to the appropriate part,
4. The emergency operation power supply device according to claim 1, wherein only one of the power generation unit or the transformer is switched and connected to the power storage unit by the switch. 5. A battery connected in parallel to the power generation unit with respect to the power storage unit and having an output voltage equivalent to a rated operation voltage of the electric operation type switch or electromagnetic operation type switch, and the power storage unit as the power generation unit or the battery It is equipped with a switch for switching connection as appropriate,
The emergency operation power supply apparatus according to any one of claims 1 to 3, wherein only one of the power generation unit and the battery is switched and connected to the power storage unit by the switch. The power generation unit, the AC plug, the transformer connection plug, and the battery are connected in parallel to the power storage unit, and the power storage unit is connected to the power generation unit, the AC plug, the transformer connection plug, and the battery. It has a select switch that can be switched and connected as appropriate.
The emergency switch according to any one of claims 1 to 3, wherein the selector switch is switched to one of the power generation unit, the AC plug, the transformer connection plug, and the battery. Operation power supply.

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