JP2011188576A - Module for supplying power during power failure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an electric actuator which can be used as an ordinary electric actuator and as an electric actuator having an emergency shutoff function without changing configuration. <P>SOLUTION: The power supply module 300 for power failure includes: a power failure detecting circuit 16, a power supply unit 17 for power failure, a motor power supply switching circuit 18, a control signal generating circuit 19 for power failure, and a control signal switching circuit 20. When no failure of an alternating power supply AC to the electric actuator 100 is detected, the motor power supply switching circuit 18 and the control signal switching circuit 20 transmit an alternating power supply AC and a set opening θsp to the electric actuator 100. When the power failure of the alternating power supply AC to the electric actuator 100 is detected, the motor power supply switching circuit 18 and the control signal switching circuit 20 transmit a power supply EC for power failure and an opening θSH for power failure to the electric actuator 100. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a power supply module during a power failure that is used by being connected to an electric actuator that performs flow rate control by adjusting the opening of a control target such as a valve or a damper.

  Conventionally, in air conditioning equipment, the control target is a valve provided in the cold / hot water pipe, a damper that adjusts the volume of conditioned air supplied to the air conditioning area through the duct, and the opening degree of the control target is adjusted. An electric actuator is used for this purpose.

  This type of normal electric actuator is provided with an AC motor as a drive motor inside the electric actuator because AC power is supplied as an operating power source, and in response to a control command from an air conditioning controller, the control target is actually opened. A control operation is performed so that the degree matches the set opening. In such an electric actuator that operates with an AC power supply, when a power failure occurs in the supplied AC power supply, the controlled object whose opening is controlled remains at the operation opening immediately before the power failure, and appropriate opening control is no longer possible. It becomes impossible to do.

  Therefore, when the AC power supplied to the electric actuator has a power failure, it is forced to operate at a predetermined opening (for example, fully closed) until the AC power returns to the energized state again. An electric actuator that maintains the above has been proposed and already exists. Hereinafter, this type of electric actuator is referred to as an electric actuator with an emergency cutoff function.

  At present, two types of electric actuators with an emergency shut-off function have been proposed. One type is called a spring return type, and the other type is called a secondary power supply type.

[Spring return type electric actuator]
The spring return type electric actuator is equipped with a return spring that is urged so as to maintain a fully closed state with respect to the drive shaft of the electric actuator, and resists the urging force of the return spring when AC power is supplied. Then, the opening degree of the control object is adjusted by driving the drive motor, and when a power failure occurs, the opening degree of the control object is forcibly set to a predetermined opening degree by the urging force of the return spring (for example, see Patent Document 1). ).

[Secondary power drive type electric actuator]
On the other hand, the secondary power source drive type electric actuator uses a DC motor as the drive motor for the electric actuator, and additionally includes a secondary power source (DC power source) composed of a secondary battery, an electric double layer capacitor, etc. When power is supplied, this AC power is converted to DC and the DC motor is driven to adjust the opening of the controlled object. In the event of a power failure, the secondary power is used as the operating power. A DC motor is driven by a power source (DC power supply) to forcibly set the opening degree to be controlled to a predetermined opening degree (see, for example, Patent Document 2).

  By the way, comparing these two types of electric actuators with an emergency shut-off function, the spring return type electric actuator overcomes the resistance because the urging force of the return spring acts as a resistance against normal motor drive. Therefore, a motor having a large torque must be used as a drive motor, which has the disadvantages of increasing the size, weight, and cost of the electric actuator.

  On the other hand, the secondary power source drive type electric actuator does not have the disadvantages of the spring return type, and in recent years, the capacity of secondary batteries and electric double layer capacitors as secondary power sources has been improved. , Is becoming advantageous.

JP 2002-174269 A JP 2008-89109 A

  However, in the conventional electric actuator, the structure of an electric actuator having an emergency cutoff function and an electric actuator having no emergency cutoff function (ordinary electric actuator) are greatly different, so two types of electric actuators are manufactured. There was a need.

  In addition, if a user who used a normal electric actuator later wants to have an emergency shut-off function for the electric actuator, the existing electric actuator will be significantly modified or an electric actuator with an emergency shut-off function. Had to be purchased separately and replaced with an existing electric actuator, which required cost, modification and replacement.

  For example, when an ordinary electric actuator is remodeled to a secondary power source drive type electric actuator, an AC motor is used for the drive motor of the ordinary electric actuator. Change, and the addition of a module with an emergency shutdown function is required. In addition, the replaced parts must be discarded. As described above, when a normal electric actuator is remodeled to a secondary power source drive type electric actuator, the cost and labor required for the remodeling become excessive.

  The present invention has been made to solve such a problem, and the object of the present invention is to use an electric actuator having the same configuration as a normal electric actuator or an electric actuator having an emergency shut-off function. An object of the present invention is to provide a power supply module during a power failure.

  In order to achieve such an object, the present invention is detected by an AC motor, an actual opening degree detecting means for detecting an actual opening degree of a controlled object driven by the AC motor, and the actual opening degree detecting means. Control means for generating a control output for causing the actual opening to coincide with the set opening, drive output generation means for receiving a control output generated by the control means and generating a drive output to the AC motor, and the drive output generation means The power supply module in the event of a power failure is detachably connected via a cable to an electric actuator equipped with an AC power supply input unit and a set opening input unit as an energy source for the drive output generated by the AC power supply relay means for relaying the AC power supply, power failure detection means for detecting a power failure of the AC power supply to the electric actuator, and an energy source in the event of a power failure replacing the AC power supply A power supply means, a set opening relay means for relaying a set opening to the electric actuator, a power outage opening output means for outputting a predetermined opening to be controlled during a power outage as a power outage opening means, AC power relay as an AC power input to the electric actuator when the power failure detection means does not detect the AC power failure when the power failure detection means does not detect the AC power failure. A power supply selection supply means for selecting a power supply during a power failure from a power supply means during a power failure as an AC power input to the electric actuator when the power failure detection means detects a power failure of the AC power supply, When the power failure detection means has not detected a power failure of the AC power supply, select the set opening that the set opening relay means relays as the set opening to be input to the electric actuator. When the power failure detection means detects a power failure of the AC power supply, a set opening selection transmission means for selecting the power failure opening output output by the power failure opening output means is provided as the set opening to be input to the electric actuator. It is a thing.

  When the power supply module at the time of power failure of the present invention is not connected to the electric actuator, the electric actuator operates by receiving the AC power supply from the input unit and the set opening, and sets the actual opening to be controlled to the set opening. Control is performed to match. Thereby, the electric actuator functions as a normal electric actuator.

  When the power supply module at the time of power failure of the present invention is connected to the electric actuator, the presence or absence of a power failure of the AC power supply to the electric actuator is detected in the power supply module at the time of power failure. AC power supply and the set opening relayed by the set opening relay means are supplied to the electric actuator, and when a power failure is detected, the power supply during a power failure during a power failure and the power outage during the power outage during a power failure The opening is supplied to the electric actuator.

  As a result, when a power failure has not occurred, the electric actuator operates in response to the supply of AC power and the set opening from the power supply module at the time of a power failure, and control is performed so that the actual opening of the controlled object matches the set opening. Done. In the event of a power failure, the electric actuator operates upon receiving the power supply during power failure and the power failure opening from the power module during power failure, and the actual opening of the controlled object matches the power failure opening (for example, fully closed) Such control is performed. Thereby, the electric actuator functions as an electric actuator having an emergency cutoff function.

  According to the power supply module at the time of power failure of the present invention, when not connected to the electric actuator, the electric actuator is caused to function as a normal electric actuator, and when connected to the electric actuator, the electric actuator is subjected to an emergency cutoff function. The electric actuator with the same configuration can be used as a normal electric actuator or an electric actuator with an emergency shut-off function depending on whether or not the power supply module is connected during a power failure It becomes possible to do so.

It is a block diagram which shows the principal part of the electric actuator before the power supply module at the time of a power failure concerning this invention is connected. It is an external view of this electric actuator. It is a figure which shows the state which connected one Embodiment (Embodiment 1) of the power supply module at the time of a power failure which concerns on this electric actuator to this electric actuator. It is a block diagram of the principal part at the time of connecting a power supply module at the time of a power failure to this electric actuator. It is a figure which shows the structure inside the power supply module at the time of a power failure. It is a figure which shows the example (Embodiment 2) which comprised the DC / AC power supply conversion part in the power supply part at the time of a power failure in Embodiment 1 by the class D amplifier and the power supply filter.

  Embodiments of a power failure module according to the present invention will be described below in detail with reference to the drawings.

[Electric actuator]
FIG. 1 is a block diagram showing a main part of an electric actuator before connecting a power supply module during a power failure according to the present invention. In the figure, 100 is an electric actuator, and 200 is a valve (control target) whose opening degree is controlled by this electric actuator 100.

  The electric actuator 100 includes a terminal block 1, a power supply circuit 2, a control board 3, a motor drive circuit 4, an AC motor (AC motor) 5, and a gear train 6 that transmits the driving force of the AC motor 5. An output shaft 7 that adjusts the opening of the valve 200 as an output end of the gear train 6, a potentiometer 8 that detects the rotational angle position of the output shaft 7 as the actual opening θpv of the valve 200, and a predetermined rotation of the output shaft 7 And a limit switch 9 for detecting the arrival at the angular position.

  In the electric actuator 100, an AC power supply AC is input to the terminal block 1 as an operation power supply from the outside. The AC power supply AC is supplied to the control board 3 after being used as a required internal power supply in the power supply circuit 2. The terminal block 1 receives a set opening θsp as a control command from an air conditioning controller (not shown), and the input set opening θsp is sent to the control board 3 as a set opening signal S1. . Further, the actual opening degree θpv of the valve 200 from the potentiometer 8 is given to the control board 3 as an actual opening degree detection signal S2, and a signal indicating the arrival of the output shaft 7 from the limit switch 9 to a predetermined rotational angle position. Is given as the predetermined rotation angle position arrival signal S3.

  The control board 3 receives the set opening signal S1 from the air conditioning controller and the actual opening detection signal S2 from the potentiometer 8, and generates a control output S4 that matches the actual opening θpv of the valve 200 with the set opening θsp. The generated control output S4 is sent to the motor drive circuit 4. The motor drive circuit 4 receives the control output S4 from the control board 3 and generates a drive output M1 to the AC motor 5.

  FIG. 2 shows an external view of the electric actuator 100. In the figure, reference numeral 10 denotes a power & signal line for drawing the AC power source AC and the set opening degree θsp into the electric actuator 100.

  In the electric actuator 100, the drive output M1 generated by the motor drive circuit 4 is sent to the AC motor 5, and control is performed so that the actual opening θpv of the valve 200 matches the set opening θsp. Thereby, this electric actuator 100 functions as a normal electric actuator.

[When used as an electric actuator with emergency shutdown function]
When it is desired to use the electric actuator 100 as an electric actuator having an emergency shut-off function, as shown in FIG. 3, a power supply module 300 during a power failure is connected between the electric actuator 100 and the power line 12 and the signal line 13 via the cable 11. To do.

  That is, the current & signal line 10 is disconnected from the electric actuator 100, the power line 12 and the signal line 13 are connected to the input side of the power supply module 300 during a power failure, and the output side of the power supply module 300 during power failure and the input side of the electric actuator 100 Are connected by a cable 11.

  FIG. 4 shows a block diagram of the main part when the power supply module 300 is connected to the electric actuator 100 during a power failure. The power failure module 300 is an embodiment (embodiment 1) of the power failure module according to the present invention, and includes a terminal block 15, a power failure detection circuit 16, a power failure power supply unit 17, and a motor power switching circuit. 18, a power failure control signal generation circuit 19, and a control signal switching circuit 20.

  When connecting the power supply module 300 during power failure to the electric actuator 100, the power module 300 during power failure connects the power line 12 and the signal line 13 to the terminal block 15, and the AC power AC relayed by the terminal block 15 is used as the motor power supply. The set opening degree θsp relayed by the terminal block 15 is sent to the control signal switching circuit 20.

  In the power supply module 300 during a power failure, the power failure detection circuit 16 monitors the AC power supply AC relayed by the terminal block 15 and outputs a power failure detection presence / absence signal S5 that informs whether or not a power failure has occurred in the AC power supply AC.

  The power supply unit 17 at the time of a power failure includes an AC / DC power conversion unit 17-1 that converts the branch input into a DC power supply using the AC power supply AC relayed by the terminal block 15 as a branch input, and an AC / DC power supply conversion unit 17-1. Charged circuit 17-2 that operates by receiving the converted DC power supply, a capacitor (electric double layer capacitor or lithium ion capacitor) 17-3 charged by this charging circuit 17-2, and stored in capacitor 17-3 And a DC / AC power conversion unit 17-4 that generates an AC power from the generated electric charge and outputs it as a power supply EC during a power failure. Note that an inverter is used as the DC / AC power converter 17-4.

  The motor power supply switching circuit 18 receives the AC power supply AC sent from the terminal block 15 and the power supply EC at the time of power failure sent from the power supply unit 17 at the time of a power failure as input, and a power failure detection presence / absence signal S5 from the power failure detection circuit 16. If the power failure detection circuit 16 does not detect a power failure of the AC power source AC, the AC power source AC sent from the terminal block 15 is selected as the AC power source to be supplied to the electric actuator 100, and the power failure detection circuit 16 When a power failure of the AC power supply AC is detected, a power failure time power EC sent from the power failure time power supply unit 17 is selected as the AC power source to be supplied to the electric actuator 100. The selected AC power source from the motor power source switching circuit 18 is sent to the terminal block 1 of the electric actuator 100.

  When the power failure detection circuit 16 detects a power failure of the AC power supply AC based on the power failure detection presence / absence signal S5 from the power failure detection circuit 16, the control signal generation circuit 19 at the time of a power failure Is output as a power failure opening θSH (power failure control signal).

  The control signal switching circuit 20 receives the set opening degree θsp sent from the terminal block 15 and the power failure time opening degree θSH sent from the power failure control signal generation circuit 19 as inputs, and receives a power failure from the power failure detection circuit 16. Based on the detection presence / absence signal S5, when the power failure detection circuit 16 does not detect a power failure of the AC power supply AC, the set opening θsp sent from the terminal block 15 is selected as the set opening to be input to the electric actuator 100. When the power failure detection circuit 16 detects a power failure of the AC power supply AC, the power failure opening θSH sent from the power failure control signal generation circuit 19 is selected as the set opening to be input to the electric actuator 100. The selected set opening from the control signal switching circuit 20 is sent to the terminal block 1 of the electric actuator 100 as a set opening signal (control signal) S1.

  In this case, the cable 11 connecting the power supply module 300 during power failure and the electric actuator 100 is connected to the relay line of the AC power supply AC and power supply EC selectively transmitted from the motor power supply switching circuit 18 and the control signal switching circuit 20. It is composed of a relay line of a set opening θsp and a power failure opening θSH that are selectively sent.

  FIG. 5 shows the internal structure of the power supply module 300 during a power failure. FIG. 5B is a view of the power supply module 300 during a power failure when the cover is opened and the inside is viewed. FIG. 5A is a view of the terminal block 15 side in FIG. (C) is the figure which looked at the capacitor 17-3 side in FIG.5 (b) from the B direction. A large number of capacitors (electric double layer capacitors and lithium ion capacitors) 17-3 are provided in the power supply module 300 at the time of power failure in order to secure a large capacity power supply during a power failure.

[When there is no power outage]
The motor power supply switching circuit 18 in the power supply module 300 at the time of a power failure is sent from the terminal block 15 based on a power failure detection presence / absence signal S5 from the power failure detection circuit 16 when the AC power supply AC to the electric actuator 100 does not have a power failure. The alternating current power supply AC is selected as the alternating current power supply to be supplied to the electric actuator 100. The selected AC power supply AC from the motor power supply switching circuit 18 is sent to the terminal block 1 of the electric actuator 100.

  Further, the control signal switching circuit 20 in the power failure module 300 is sent from the terminal block 15 based on the power failure detection presence / absence signal S5 from the power failure detection circuit 16 when the AC power supply AC to the electric actuator 100 does not have a power failure. The incoming set opening θsp is selected as the set opening to be input to the electric actuator 100. The set opening degree θsp from the selected control signal switching circuit 20 is sent to the terminal block 1 of the electric actuator 100.

  As a result, when there is no power failure in the AC power supply AC to the electric actuator 100, the electric actuator 100 generates the drive output M1 from the motor drive circuit 4 using the AC power supply AC as an energy source, and the valve 200 is actually opened. Control is performed so that the degree θpv matches the set opening degree θsp.

[When a power failure occurs]
When a power failure occurs in the AC power supply AC to the electric actuator 100, the motor power supply switching circuit 18 in the power supply module 300 during a power failure is based on the power failure detection presence / absence signal S5 from the power failure detection circuit 16, and The hour power supply EC is selected as an AC power supply to be supplied to the electric actuator 100. The power supply EC at the time of power failure from the selected motor power supply switching circuit 18 is sent to the terminal block 1 of the electric actuator 100.

  Further, the control signal switching circuit 20 in the power failure module 300 is based on the power failure detection presence / absence signal S5 from the power failure detection circuit 16 when a power failure occurs in the AC power supply AC to the electric actuator 100. Is selected as a set opening to be input to the electric actuator 100. The power loss opening degree θSH from the selected control signal switching circuit 20 is sent to the terminal block 1 of the electric actuator 100.

  As a result, when a power failure occurs in the AC power supply AC, the electric actuator 100 generates the drive output M1 from the motor drive circuit 4 using the power source EC during the power failure as an energy source, and the actual opening θpv of the valve 200 is set during the power failure. Control is performed to match the opening θSH.

  In this example, when the power failure detection circuit 15 detects a power failure of the AC power supply AC, the power failure control signal generation circuit 19 outputs the power failure opening θSH. However, regardless of whether or not a power failure is detected. It is possible to always provide the control signal switching circuit 20 with the power loss opening degree θSH.

[When power failure is restored]
In the power supply module 300 during a power failure, even if a power failure occurs in the AC power supply AC, the power failure detection circuit 16 continues to monitor the AC power supply AC using the power supply EC during a power failure generated by the power supply unit 17 during a power failure. When the power failure of the AC power supply AC is restored, the power failure detection circuit 16 notifies the motor power supply switching circuit 18, the power failure control signal generation circuit 19 and the control signal switching circuit 20 by a power failure detection presence / absence signal S5.

  When the power failure detection circuit 16 informs that the AC power supply AC has recovered from the power failure, the motor power supply switching circuit 18 selects the AC power supply AC sent from the terminal block 15 as the AC power supply to be supplied to the electric actuator 100. . The selected AC power supply AC from the motor power supply switching circuit 18 is sent to the terminal block 1 of the electric actuator 100.

  Further, when the power failure detection circuit 16 informs that the AC power supply AC has been restored, the control signal switching circuit 20 inputs the set opening θsp sent from the terminal block 15 to the electric actuator 100. Select as degree. The set opening degree θsp from the selected control signal switching circuit 20 is sent to the terminal block 1 of the electric actuator 100.

  As a result, when the AC power supply AC is restored from the power failure, the electric actuator 100 generates the drive output M1 from the motor drive circuit 4 using the AC power supply AC as an energy source in the same manner as before the power failure. Control is performed so that the opening θpv matches the set opening θsp.

  Thus, when the power supply module 300 at the time of power failure is connected to the electric actuator 100, the electric actuator 100 that has been functioning as a normal electric actuator until then starts to function as an electric actuator having an emergency cutoff function.

  In this electric actuator 100, the terminal block 1 corresponds to the input part of the AC power source and the set opening degree according to the present invention, the control board 3 corresponds to the control means, the motor drive circuit 4 corresponds to the drive output generation means, The AC motor 5 corresponds to an AC motor, and the potentiometer 8 corresponds to an actual opening degree detecting means. Further, in the power supply module 300 during a power failure, the terminal block 15 corresponds to the AC power relay means and the set opening relay means referred to in the present invention, the power failure detection circuit 16 corresponds to the power failure detection means, and the power supply unit 17 during the power failure corresponds to the power failure. The motor power supply switching circuit 18 corresponds to a power supply selection supply means, the power failure control signal generation circuit 19 corresponds to a power failure opening output means, and the control signal switching circuit 20 transmits a set opening selection transmission. Corresponds to means.

  As described above, according to the power supply module 300 at the time of power failure of the present embodiment, when not connected to the electric actuator 100, the electric actuator 100 is functioned as a normal electric actuator and connected to the electric actuator 100. In this case, the electric actuator 100 can be made to function as an electric actuator having an emergency cutoff function.

  In this case, connection work of the cable 11, the power line 12, and the signal line 13 is necessary, but it is not necessary to modify the electric actuator 100, and the electric actuator 100 having the same configuration depends on whether or not the power supply module 300 is connected during a power failure. Can be used as both a normal electric actuator and an electric actuator having an emergency shut-off function.

  This eliminates the need for the manufacturer to manufacture two types of electric actuators. In addition, it is possible to easily change from a normal electric actuator to an electric actuator having an emergency cutoff function at the site.

  Further, in this example, since the electric actuator 100 is a secondary power source drive type, the drive motor has a higher capacity and a higher strength of the gear is not required because there is no urging force of the return spring compared to the spring return type. It becomes. Moreover, since the power supply module 300 at the time of a power failure can be installed at an arbitrary position, the electric actuator 100 can be changed to an electric actuator having an emergency cutoff function even in a narrow place.

[Embodiment 2]
In the first embodiment described above, an inverter is used as the DC / AC power converter 17-4 in the power supply unit 17 at the time of power failure. However, as shown in FIG. The DC / AC power converter 17-4 may be configured by the amplifier (DC → AC) 17-41 and the power filter 17-42, or may be configured by an AC power amplifier.

  In the above-described example, the power supply unit 17 during a power failure is configured using a capacitor (an electric double layer capacitor or a lithium ion capacitor) in the power module 300 during a power failure, but a secondary battery such as a lithium battery is used. Or a primary battery may be used. As described above, various devices such as a primary power source, a secondary battery, and an electric double layer capacitor can be used as means for generating the power supply EC at the time of power failure, and can be appropriately selected and used.

  The power supply module for power failure according to the present invention can be used in various fields such as air conditioning equipment as a power module for power failure connected to an electric actuator that performs flow control by adjusting the opening of a control target such as a valve or a damper. Is possible.

  DESCRIPTION OF SYMBOLS 1 ... Terminal block, 2 ... Power supply circuit, 3 ... Control board, 4 ... Motor drive circuit, 5 ... AC motor (AC motor), 6 ... Gear train, 7 ... Output shaft, 8 ... Potentiometer, 9 ... Limit switch, 10 ... Current & signal line, 11 ... Cable, 12 ... Power line, 13 ... Signal line, 15 ... Terminal block, 16 ... Power failure detection circuit, 17 ... Power supply during power failure, 17-1 ... AC / DC power conversion unit, 17- 2 ... charging circuit, 17-3 ... capacitor (electric double layer capacitor or lithium ion capacitor), 17-4 ... DC / AC power converter, 17-41 ... class D amplifier, 17-42 ... power filter, 18 ... motor Power supply switching circuit, 19 ... control signal generation circuit at power failure, 20 ... control signal switching circuit, 100 ... electric actuator, 200 ... valve, 300 ... power supply module at power failure.

Claims (3)

An AC motor, an actual opening detecting means for detecting an actual opening of a control object driven by the AC motor, and a control output for matching the actual opening detected by the actual opening detecting means with the set opening. A control means for generating, a drive output generating means for receiving a control output generated by the control means and generating a drive output to the AC motor, and an alternating current used as an energy source of the drive output generated by the drive output generating means A power supply module during a power failure that is detachably connected to an electric actuator having a power input unit and an input unit of the set opening degree via a cable,
AC power supply relay means for relaying AC power to the electric actuator;
A power failure detection means for detecting a power failure of the AC power supply to the electric actuator;
A power supply means at the time of a power failure that is an energy source at the time of a power failure instead of the AC power source;
Set opening relay means for relaying the set opening to the electric actuator;
A power outage opening degree output means for outputting a predetermined opening degree to be maintained at the time of a power outage as a power outage opening degree,
AC power input from the AC power supply relay means and the power supply during a power failure from the power supply means during a power failure are input to the electric actuator when the power failure detection means does not detect a power failure of the AC power supply. When an AC power supply relayed by the AC power supply relay means is selected, and the power failure detection means detects a power failure of the AC power supply, an AC power input to the electric actuator is a power failure during a power failure from the power failure means Power supply selection supply means for selecting a power supply;
When the power failure detection means does not detect a power failure of the AC power supply, the set opening degree relayed by the setting opening relay means is selected as the setting opening degree to be input to the electric actuator, and the power failure detection means A set opening selection transmitting means for selecting an opening at the time of a power failure output by the opening output means at the time of a power failure as a set opening to be input to the electric actuator when a power failure of the AC power supply is detected, Power supply module during power failure. In the power supply module at the time of power failure described in claim 1,
The power supply module during a power failure, wherein the power supply device during a power failure outputs a power supply during a power failure obtained by converting a direct current power supply to the power selection / supply means. In the power supply module at the time of power failure described in claim 1,
The power supply means at the time of power failure is
AC / DC power conversion means for converting the branch input into a DC power supply using the AC power supply relayed by the AC power supply relay means as a branch input;
Power storage means for storing a charge obtained from a DC power source converted by the AC / DC power source conversion means;
A power supply module during a power failure comprising: a DC / AC power conversion means that generates an alternating current power from the electric charge stored in the power storage means and outputs the power as a power supply during a power failure to the power supply selection supply means.

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