JP2017103999A - Indoor ac/dc multipass power supply system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an indoor AC/DC multipass power supply system that reduces the occurrence of defects such as maintenance, trouble isolation, damage to electric appliances and wiring.SOLUTION: An indoor AC/CD multipass power supply system comprises: a lead wire; an AC mains ammeter; a master control system; a branch line switch; an AC branch controller; a test module; a manual switch; an AC ammeter; an AC interface; a switching power supply; a large power storage device; a DC switch; a DC transformer; a DC ammeter; a DC branch controller; a test module; a manual switch; a DC interface; a small power storage device; and emergency power supply. In an indoor power supply system, a mobile controller is added based on the above system.SELECTED DRAWING: Figure 2

Description

  The present invention relates to the field of electric power, and more particularly to an indoor AC / DC multipath power supply system.

  Many of the conventional indoor power supply systems are artificially controlled. When a circuit or electrical appliance is damaged, the user cannot find the problem and immediately turn on the power in a situation where maintenance work cannot be performed. In some cases (for example, replacing the fuse with copper wire, shorting the protective switch, or forcibly closing the circuit protector repeatedly), there is room for improvement, and the status of each receiving end is reflected in real time. If there is a system that can do this, it is advantageous for isolating the defective wiring, it is also advantageous for finding the problematic electric appliance, and the occurrence of the defect that a part or the whole of the wiring goes down due to damage of one electric appliance. Can be reduced.

  In order to solve the problems described in the background art, the present invention provides an indoor AC / DC multipath power supply system that provides a power supply system that is safe and easy to isolate a fault.

  The present invention includes the following technical contents.

  1. An indoor AC / DC multipath power supply system, including a lead-in line, an AC main line ammeter, a master control system, a branch line switch, an AC branch line controller, a test module, a manual switch, an AC ammeter, and an AC Interface, switching power supply, large power storage device, DC switch, DC transformer, DC ammeter, DC branch controller, test module, manual switch, DC interface, small power storage device, emergency use Power supply, and

  Between the lead-in line and the input end of the main line ammeter, it has an electrical connection form for transmitting power,

  Between the power input end of the AC switch and the output end of the main line ammeter, there is an electrical connection form for transmitting power,

  Between the output end of the AC switch and the input end of the AC ammeter, there is an electrical connection form for transmitting power,

  Between the output terminal of the AC ammeter and the AC interface, there is an electrical connection form connected via a manual switch to transmit power, and the manual switch is connected to the output of the AC ammeter. Control of electrical connection form for transmitting power between the end and the AC interface;

  The output end of the AC interface can be used to connect AC appliances,

  Between the main line ammeter and the master control system, there is an electrical connection form for transmitting a signal including data on the magnitude of the main line current. Data of the size of

  There is an electrical connection form for transmitting data and control signals between the AC branch controller and the master control system, and the AC branch controller can transmit data to the master control system. The control system can control the operation of the AC branch controller,

  Between the AC branch controller and the AC switch, there is an electrical connection form for transmitting a control signal, and the AC branch controller can control the contact and separation of the power path of the AC switch.

  Between the AC ammeter and the AC branch controller, there is an electrical connection form for transmitting AC branch current data. The AC branch controller has an electrical connection form with the AC ammeter. Via the AC ammeter can be obtained data representing the current magnitude of the AC branch line,

  Between the test module and the AC interface, there is an electrical connection form for transmitting a test signal of the test AC appliance state via the manual switch, and the manual switch is connected to the test module and the AC interface. Can control the connection and disconnection of electrical connection between

  Between the test module and the AC branch controller, there is an electrical connection form for transmitting test results and control signals, and the AC branch controller acquires data representing the test results via the test module. AC branch controller can control the test operation of the test module,

  Between the manual switch and the AC branch controller, there is an electrical connection form for transmitting a manual switch contact / separation state signal, and the AC branch controller acquires a signal representing the manual switch contact / separation state. Can

  The manual switch is provided with two independent switch branches, and one switch branch in the manual switch is used to control the connection / disconnection of the electrical connection form with the AC interface output from the AC ammeter. And the other one of the manual switches is for controlling the electrical connection between the test module and the AC interface.

  Between the output end of the main line ammeter and the input end of the switching power supply, there is an electrical connection form for transmitting AC power,

  There is an electrical connection form for transmitting DC power between the large power storage device and the output end of the switching power supply, and the DC power output from the output end of the switching power supply is stored in the large power storage device. It is possible to

  There is an electrical connection form for transmitting DC power between the input end of the DC switch and the large power storage device, and the large power storage device can supply power to the input end of the DC switch. ,

  Between the input end of the DC switch and the output end of the switching power supply, there is an electrical connection form for transmitting DC power, and the switching power supply can supply power to the input end of the DC switch. Can

  Between the output end of the DC switch and the input end of the DC transformer, there is an electrical connection form for transmitting DC power,

  Between the input end of the DC ammeter and the output end of the DC transformer, there is an electrical connection form for transmitting DC power,

  Between the output terminal of the DC ammeter and the DC interface, there is an electrical connection form through a manual switch for transmitting DC power, and the manual switch is connected between the DC ammeter and the DC interface. Can control the electrical connection form of the

  The DC interface can be used for electrical connection of DC appliances,

  There is an electrical connection form for transmitting DC power between the output terminal of the DC interface and the small power storage device, so that the DC power output from the DC interface can be stored in the small power storage device. And

  Between the input terminal of the emergency power supply and the DC interface, there is an electrical connection form for transmitting DC power,

  Between the input terminal of the emergency power supply and the small power storage device, there is an electrical connection form for transmitting DC power, and the emergency power supply can acquire power from the small power storage device,

  There is an electrical connection form for transmitting data and control signals between the DC branch controller and the master control system, and the DC branch controller can transmit data to the master control system. The control system can control the operation of the DC branch controller,

  Between the DC branch controller and the DC switch, there is an electrical connection form for transmitting a control signal, and the DC branch controller can control the connection and separation of the power path of the DC switch,

  Between the DC ammeter and the DC branch controller, there is an electrical connection form for transmitting DC branch current data, and the DC branch controller has an electrical connection form with the DC ammeter. Through which data representing the magnitude of the DC branch current collected by the DC ammeter can be acquired,

  Between the test module and the DC interface, there is an electrical connection for transmitting a test signal of the test DC appliance state via the manual switch, and the manual switch is connected to the test module and the DC interface. Can control the connection and disconnection of electrical connection between

  The test module and the DC branch controller have an electrical connection form for transmitting test results and control signals, and the DC branch controller acquires data representing the test results via the test module. The DC branch controller can control the test operation of the test module,

  Between the manual switch and the DC branch controller, there is an electrical connection form for transmitting a manual switch contact / separation state signal, and the DC branch controller acquires a signal indicating the manual switch contact / separation state. Can

  The manual switch is provided with two independent switch branches, and one switch branch in the manual switch is for controlling the connection and disconnection of the electrical connection form with the DC interface output from the DC ammeter. The other one of the manual switches is for controlling the connection / disconnection of the electrical connection between the test module and the DC interface.

  2. In the indoor AC / DC multipath power supply system described in the technical content 1, the AC switch is a relay.

  3. In the indoor AC / DC multipath power supply system described in the technical content 2, the relay is a semiconductor relay.

  4). In the indoor AC / DC multipath power supply system described in the technical content 1, the master control system includes a computer.

  5. In the indoor AC / DC multipath power supply system described in the technical content 1, the test module can test the load attribute of the AC / DC electrical appliance at the end of the branch line. (The load property is, for example, an inductive load, a capacitive load, or a resistance load, and the attribute data is, for example, a resistance value, a capacitance value, or an impedance value).

  6). In the indoor AC / DC multipath power feeding system described in the technical content 1, the test module can test the function of the load attribute and attribute data of the AC / DC appliance at the end of the branch line.

  7). The indoor AC / DC multi-path power supply system described in the technical content 1 further includes a mobile controller in addition to having all the features of the technical idea described in the technical content 1, and the mobile controller is configured through wireless communication. Data transmission can be performed with a master control system, and the master control system is controlled by operation of a mobile controller.

  8). In the indoor AC / DC multipath power feeding system described in the technical content 7, the mobile controller is operated by a human hand.

  9. In the indoor AC / DC multipath power supply system described in the technical content 7, encrypted communication is used for data transmission between the mobile controller and the AC branch controller.

  10. In the indoor AC / DC multi-path power supply system described in the technical content 7, the control authority of the mobile controller with respect to the system master controller is higher than the authority of the automatic control program included in the system master controller.

  Explanation of technical contents and their beneficial effects

  Description of the technical content: The present invention is easy to maintain, and in particular, the AC / DC branch controller in the system of the present invention acquires switch information when a manual switch is shut off during maintenance fault isolation. The branch line controller can shut off the AC / DC switch, and when the maintenance worker determines that the fault isolation in the maintenance has been completed and connects the manual switch, the AC / DC branch line controller first starts the AC / DC appliance. By testing the state of the above and further performing an operation as to whether the AC switch is connected or not, it is advantageous to reduce the trouble that the electric appliance and the circuit wiring are damaged because the electric appliance is repeatedly energized. The system of the present invention can further assist maintenance personnel as a multimeter for efficient maintenance (after controlling the master control system with the mobile controller, the AC / DC branch controller again turns on the AC switch through the master control system. Shut down, control to activate the test module).

  The present invention facilitates maintenance and fault isolation, and reduces the occurrence of defects that damage electrical appliances and wiring.

1 is a schematic diagram of Example 1. FIG. 6 is a schematic diagram of Example 2. FIG.

  Hereinafter, the present invention will be described together with examples.

  In Example 1, as shown in FIG. 1, the indoor AC / DC multipath power feeding system includes a lead-in line, an AC main line ammeter, a master control system, a branch line switch, an AC branch line controller, and a test module. A manual switch, an AC ammeter, an AC interface, a switching power supply, a large power storage device, a DC switch, a DC transformer, a DC ammeter, a DC branch controller, a test module, a manual switch, A DC interface, a small power storage device, and an emergency power source are provided.

  Between the lead-in line and the input end of the main line ammeter, there is an electrical connection form for transmitting power.

  Between the power input end of the AC switch and the output end of the main line ammeter, there is an electrical connection form for transmitting power.

  Between the output end of the AC switch and the input end of the AC ammeter, there is an electrical connection form for transmitting power.

  Between the output terminal of the AC ammeter and the AC interface, there is an electrical connection form connected via a manual switch to transmit power, and the manual switch is connected to the output of the AC ammeter. The contact / separation of the electrical connection form for transmitting electric power between the end and the AC interface can be controlled.

  The output end of the AC interface can be used to connect an AC appliance.

  Between the main line ammeter and the master control system, there is an electrical connection form for transmitting a signal including data on the magnitude of the main line current. The master control system is connected to the main line through the main line ammeter. Data on the magnitude of current can be acquired.

  There is an electrical connection form for transmitting data and control signals between the AC branch controller and the master control system, and the AC branch controller can transmit data to the master control system. The control system can control the operation of the AC branch controller.

  Between the AC branch controller and the AC switch, there is an electrical connection form for transmitting a control signal, and the AC branch controller can control the connection and separation of the power path of the AC switch.

  Between the AC ammeter and the AC branch controller, there is an electrical connection form for transmitting AC branch current data. The AC branch controller has an electrical connection form with the AC ammeter. Thus, data representing the magnitude of the current of the AC branch line collected by the AC ammeter can be acquired.

  Between the test module and the AC interface, there is an electrical connection form for transmitting a test signal of the test AC appliance state via the manual switch, and the manual switch is connected to the test module and the AC interface. It is possible to control the contact and separation of the electrical connection form between the two.

  Between the test module and the AC branch controller, there is an electrical connection form for transmitting test results and control signals, and the AC branch controller acquires data representing the test results via the test module. The AC branch controller can control the test operation of the test module.

  Between the manual switch and the AC branch controller, there is an electrical connection form for transmitting a manual switch contact / separation state signal, and the AC branch controller acquires a signal representing the manual switch contact / separation state. can do.

  The manual switch is provided with two independent switch branches, and one switch branch in the manual switch is used to control the connection / disconnection of the electrical connection form with the AC interface output from the AC ammeter. The other one of the manual switches is for controlling the electrical connection between the test module and the AC interface.

  Between the output terminal of the main line ammeter and the input terminal of the switching power supply, there is an electrical connection form for transmitting AC power.

  There is an electrical connection form for transmitting DC power between the large power storage device and the output end of the switching power supply, and the DC power output from the output end of the switching power supply is stored in the large power storage device. It can be done.

  Between the input end of the DC switch and the large power storage device, there is an electrical connection form for transmitting DC power, and the large power storage device can supply power to the input end of the DC switch. .

  Between the input end of the DC switch and the output end of the switching power supply, there is an electrical connection form for transmitting DC power, and the switching power supply can supply power to the input end of the DC switch. it can.

  Between the output end of the DC switch and the input end of the DC transformer, there is an electrical connection form for transmitting DC power.

  Between the input end of the DC ammeter and the output end of the DC transformer, there is an electrical connection form for transmitting DC power.

  Between the output terminal of the DC ammeter and the DC interface, there is an electrical connection form through a manual switch for transmitting DC power, and the manual switch is connected between the DC ammeter and the DC interface. It is possible to control the contact / separation of the electrical connection form.

  The DC interface can be used for electrical connection of DC appliances.

  There is an electrical connection form for transmitting DC power between the output terminal of the DC interface and the small power storage device, so that the DC power output from the DC interface can be stored in the small power storage device. It has become.

  Between the input terminal of the emergency power supply and the DC interface, there is an electrical connection form for transmitting DC power.

  There is an electrical connection form for transmitting DC power between the input terminal of the emergency power supply and the small power storage device, and the emergency power supply can acquire power from the small power storage device.

  There is an electrical connection form for transmitting data and control signals between the DC branch controller and the master control system, and the DC branch controller can transmit data to the master control system. The control system can control the operation of the DC branch controller.

  Between the DC branch controller and the DC switch, there is an electrical connection form for transmitting a control signal, and the DC branch controller can control the contact and separation of the power path of the DC switch.

  Between the DC ammeter and the DC branch controller, there is an electrical connection form for transmitting DC branch current data, and the DC branch controller has an electrical connection form with the DC ammeter. Thus, data representing the current magnitude of the DC branch line collected by the DC ammeter can be acquired.

  Between the test module and the DC interface, there is an electrical connection for transmitting a test signal of the test DC appliance state via the manual switch, and the manual switch is connected to the test module and the DC interface. It is possible to control the contact and separation of the electrical connection form between the two.

  The test module and the DC branch controller have an electrical connection form for transmitting test results and control signals, and the DC branch controller acquires data representing the test results via the test module. The DC branch controller can control the test operation of the test module.

  Between the manual switch and the DC branch controller, there is an electrical connection form for transmitting a manual switch contact / separation state signal, and the DC branch controller acquires a signal indicating the manual switch contact / separation state. can do.

  The manual switch is provided with two independent switch branches, and one switch branch in the manual switch is for controlling the connection and disconnection of the electrical connection form with the DC interface output from the DC ammeter. The other one of the manual switches is for controlling the electrical connection between the test module and the DC interface.

  The AC switch is a semiconductor relay.

  The master control system has a computer.

  The test module can test the load attribute and attribute data of the AC / DC appliance at the branch end.

  The DC interface includes a voltage display that displays the output voltage so that the user can intuitively see the output voltage of the DC.

  In the second embodiment, as shown in FIG. 2, the indoor AC / DC multipath power feeding system improved based on the technical idea described in the first embodiment, and all of the technical ideas described in the first embodiment. In addition to the above-described features, the mobile controller further includes a mobile controller, which can perform data transmission with the master control system through wireless communication. The master control system is controlled by operation of the mobile controller, and the mobile controller is And the encrypted communication is used for data transmission between the mobile controller and the AC branch controller, and the control authority of the mobile controller for the system master controller is an automatic included in the system master controller. Control program authority Remote, characterized in that high.

The above is a typical design of the present invention, and is not a limitation on the protection scope of the present invention.

Claims (10)

An indoor AC / DC multipath power supply system, including a lead-in line, an AC main line ammeter, a master control system, a branch line switch, an AC branch line controller, a test module, a manual switch, an AC ammeter, and an AC Interface, switching power supply, large power storage device, DC switch, DC transformer, DC ammeter, DC branch controller, test module, manual switch, DC interface, small power storage device, emergency use Power supply, and
Between the lead-in line and the input end of the main line ammeter, it has an electrical connection form for transmitting power,
Between the power input end of the AC switch and the output end of the main line ammeter, there is an electrical connection form for transmitting power,
Between the output end of the AC switch and the input end of the AC ammeter, there is an electrical connection form for transmitting power,
Between the output terminal of the AC ammeter and the AC interface, there is an electrical connection form connected via a manual switch to transmit power, and the manual switch is connected to the output of the AC ammeter. Control of electrical connection form for transmitting power between the end and the AC interface;
The output end of the AC interface can be used to connect AC appliances,
Between the main line ammeter and the master control system, there is an electrical connection form for transmitting a signal including data on the magnitude of the main line current. The master control system is connected to the main line through the main line ammeter. You can get the current magnitude data,
There is an electrical connection form for transmitting data and control signals between the AC branch controller and the master control system, and the AC branch controller can transmit data to the master control system. The control system can control the operation of the AC branch controller,
Between the AC branch controller and the AC switch, there is an electrical connection form for transmitting a control signal, and the AC branch controller can control the contact and separation of the power path of the AC switch.
Between the AC ammeter and the AC branch controller, there is an electrical connection form for transmitting AC branch current data. The AC branch controller has an electrical connection form with the AC ammeter. Via which the data representing the magnitude of the AC branch current collected by the AC ammeter can be obtained,
Between the test module and the AC interface, there is an electrical connection form for transmitting a test signal of the test AC appliance state via the manual switch, and the manual switch is connected to the test module and the AC interface. Can control the connection and disconnection of electrical connection between
Between the test module and the AC branch controller, there is an electrical connection form for transmitting test results and control signals, and the AC branch controller acquires data representing the test results via the test module. AC branch controller can control the test operation of the test module,
Between the manual switch and the AC branch controller, there is an electrical connection form for transmitting a manual switch contact / separation state signal, and the AC branch controller acquires a signal representing the manual switch contact / separation state. Can
The manual switch is provided with two independent switch branches, and one switch branch in the manual switch is used to control the connection / disconnection of the electrical connection form with the AC interface output from the AC ammeter. And the other one of the manual switches is for controlling the electrical connection between the test module and the AC interface.
Between the output end of the main line ammeter and the input end of the switching power supply, there is an electrical connection form for transmitting AC power,
There is an electrical connection form for transmitting DC power between the large power storage device and the output end of the switching power supply, and the DC power output from the output end of the switching power supply is stored in the large power storage device. It is possible to
There is an electrical connection form for transmitting DC power between the input end of the DC switch and the large power storage device, and the large power storage device can supply power to the input end of the DC switch. ,
Between the input end of the DC switch and the output end of the switching power supply, there is an electrical connection form for transmitting DC power, and the switching power supply can supply power to the input end of the DC switch. Can
Between the output end of the DC switch and the input end of the DC transformer, there is an electrical connection form for transmitting DC power,
Between the input end of the DC ammeter and the output end of the DC transformer, there is an electrical connection form for transmitting DC power,
Between the output terminal of the DC ammeter and the DC interface, there is an electrical connection form through a manual switch for transmitting DC power, and the manual switch is connected between the DC ammeter and the DC interface. Can control the electrical connection form of the
The DC interface can be used for electrical connection of DC appliances,
There is an electrical connection form for transmitting DC power between the output terminal of the DC interface and the small power storage device, so that the DC power output from the DC interface can be stored in the small power storage device. And
Between the input terminal of the emergency power supply and the DC interface, there is an electrical connection form for transmitting DC power,
Between the input terminal of the emergency power supply and the small power storage device, there is an electrical connection form for transmitting DC power, and the emergency power supply can acquire power from the small power storage device,
There is an electrical connection form for transmitting data and control signals between the DC branch controller and the master control system, and the DC branch controller can transmit data to the master control system. The control system can control the operation of the DC branch controller,
Between the DC branch controller and the DC switch, there is an electrical connection form for transmitting a control signal, and the DC branch controller can control the connection and separation of the power path of the DC switch,
Between the DC ammeter and the DC branch controller, there is an electrical connection form for transmitting DC branch current data, and the DC branch controller has an electrical connection form with the DC ammeter. Through which data representing the magnitude of the DC branch current collected by the DC ammeter can be obtained,
Between the test module and the DC interface, there is an electrical connection for transmitting a test signal of the test DC appliance state via the manual switch, and the manual switch is connected to the test module and the DC interface. Can control the connection and disconnection of electrical connection between
The test module and the DC branch controller have an electrical connection form for transmitting test results and control signals, and the DC branch controller acquires data representing the test results via the test module. The DC branch controller can control the test operation of the test module,
Between the manual switch and the DC branch controller, there is an electrical connection form for transmitting a manual switch contact / separation state signal, and the DC branch controller acquires a signal indicating the manual switch contact / separation state. Can
The manual switch is provided with two independent switch branches, and one switch branch in the manual switch is for controlling the connection and disconnection of the electrical connection form with the DC interface output from the DC ammeter. And the other one of the manual switches is for controlling the connection / disconnection of the electrical connection form between the test module and the DC interface. .   The indoor AC / DC multipath power feeding system according to claim 1, wherein the AC switch is a relay.   The indoor AC / DC multipath power feeding system according to claim 2, wherein the relay is a semiconductor relay.   The indoor AC / DC multipath power supply system according to claim 1, wherein the master control system includes a computer.   The test module can test the load attribute of the AC / DC appliance at the end of the branch line (load properties are, for example, inductive load, capacitance load, and resistance load, and attribute data is, for example, resistance value, electrostatic load 2. The indoor AC / DC multipath power feeding system according to claim 1, wherein the indoor AC / DC multipath power feeding system is a capacitance value and an impedance value.   2. The indoor AC / DC multipath power supply system according to claim 1, wherein the test module tests the function of load attributes and attribute data of an AC / DC electrical appliance at a branch end.   In addition to having all the features of the technical idea described in the technical content 1, the mobile controller further includes a mobile controller, and the mobile controller can perform data transmission with the master control system through wireless communication. The indoor AC / DC multipath power feeding system according to claim 1, wherein the indoor AC / DC multipath power feeding system is controlled by operation of a mobile controller.   The indoor AC / DC multipath power feeding system according to claim 7, wherein the mobile controller is operated by a human hand.   The indoor AC / DC multipath power feeding system according to claim 7, wherein encrypted communication is used for data transmission between the mobile controller and the AC branch controller. 8. The indoor AC / DC multi-path power supply system according to claim 7, wherein the control authority of the mobile controller with respect to the system master controller is higher than the authority of the automatic control program included in the system master controller.