CN115036798A

CN115036798A - Novel no wiring switch board

Info

Publication number: CN115036798A
Application number: CN202210217717.6A
Authority: CN
Inventors: 黄峰; 吴仙丽; 吴国钦
Original assignee: Shenzhen Huatong Electrical Equipment Co ltd
Current assignee: Shenzhen Huatong Electrical Equipment Co ltd
Priority date: 2022-03-07
Filing date: 2022-03-07
Publication date: 2022-09-09

Abstract

The invention provides a novel no-wiring power distribution cabinet, which comprises an operation box and a controller, wherein the operation box is connected with the controller; the operation box comprises an operation box processor module, an operation box wireless module and an operation box display screen, and remote control software is installed in an operation system of the operation box; the controller comprises a controller processor module and a controller wireless module, and remote control software is installed in a controller operating system; the controller management software is installed in the controller operation system and is provided with switch icons, the switch icons can be synchronously displayed on the display screen of the operation box through the remote control software, and the electromagnetic switch or the relay can be switched on or off by clicking the switch icons on the display screen of the operation box. According to the invention, the same remote control software is respectively installed on the processor module of the operation box and the processor module of the controller, and the electromagnetic switch or the relay can be switched on or off by clicking the switch icon on the display screen of the operation box, so that power supply management is facilitated, safety accidents are reduced, and the working efficiency is improved.

Description

Novel no wiring switch board

Technical Field

The invention relates to the technical field of power distribution cabinets, in particular to a novel non-wiring power distribution cabinet.

Background

The power distribution cabinets are generally used for high voltage, and power for illumination and industrial use are all 220 or 380 volt high voltage, even several kilovolt power transmission lines, and the operation of the power distribution cabinets has certain dangers. Although the situation is that the high voltage is controlled by the low voltage, the operator still needs to go to the field, namely near the power distribution cabinet, so that the electric shock of the operator can be caused if the power distribution cabinet leaks electricity. Because the high voltage contacts the ground, the ground has an electric arc from far to near, the electricity is invisible, and an operator can hardly avoid danger by experience or feeling.

At present, the power distribution cabinet can not be remotely controlled and operated.

Disclosure of Invention

The invention aims to provide a novel non-wiring power distribution cabinet to solve the problem of remote control operation of the power distribution cabinet in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a novel no-wiring power distribution cabinet comprises an operation box and a controller;

the operation box comprises an operation box processor module, an operation box wireless module for wireless connection and an operation box display screen for displaying a switch, wherein the operation box processor module is electrically connected with the operation box wireless module and the operation box display screen;

the controller comprises a controller processor module and a controller wireless module for wireless connection, the controller processor module is electrically connected with the controller wireless module, the controller processor module is electrically connected with an electromagnetic switch or a relay on an electric wire through a connecting wire, the controller processor module can close or open the electromagnetic switch or the relay through the connecting wire to electrify or cut off the electric wire, a controller operating system or a virtual controller operating system is installed in the controller processor module, remote control software which is the same as the remote control software in the operation box processor module is installed in the controller operating system so that the controller processor module can be used as a controlled end, a demagnetization module is arranged between two wires connected with the same electric equipment so as to eliminate the damage of surge current, and the demagnetization module is a zinc oxide resistor and/or a silicon carbide resistor;

the wireless module of the operation box can be wirelessly connected with the wireless module of the controller, controller management software for managing the electromagnetic switch or the relay is installed in the operation system of the controller, the controller management software is provided with a switch icon corresponding to the electromagnetic switch or the relay, the switch icon can be synchronously displayed on a display screen of the operation box through remote control software, and the controller processor module can drive the electromagnetic switch or the relay to be switched on or off by clicking the switch icon on the display screen of the operation box.

As a preferred aspect of the present invention, the controller management software may modify the name of the electromagnetic switch or relay so as to be able to directly see the power supply area controlled by the electromagnetic switch or relay.

As a preferred scheme of the present invention, the shell of the controller is marked with the name, device number, and connection password of the remote control software so as to connect the controller processor module as a controlled end with the operation box processor module as a main control end.

As a preferred scheme of the present invention, the operation box processor module is connected to a plurality of controller processor modules, and the controller processor modules are electrically connected to only one electromagnetic switch or relay.

As a preferred scheme of the present invention, the operation box processor module is electrically connected to only one controller processor module, the controller processor module is electrically connected to all the electromagnetic switches or relays, and the switch icons displayed on the display screen of the operation box correspond to the electromagnetic switches or relays on the wires one to one.

As a preferred scheme of the invention, the wireless connection mode, the equipment number and the connection password of the wireless module of the controller are marked on the outer side of the shell of the controller.

As a preferred scheme of the present invention, the connection mode of the controller wireless module may be WIFI and/or BT and/or 4G and/or 5G.

As a preferable scheme of the invention, the remote control software can be one or more of sunflower, network person and third eye.

As a preferred scheme of the present invention, the controller management software includes a power supply line diagram, the power supply line diagram is provided with a switch icon, and the electromagnetic switch or the relay can be turned on or off by clicking the switch icon on the power supply line diagram.

As a preferred scheme of the invention, the demagnetization module comprises a first zinc oxide demagnetization resistor, a first silicon carbide demagnetization resistor, a second zinc oxide demagnetization resistor, a second silicon carbide demagnetization resistor, a third zinc oxide demagnetization resistor and a third silicon carbide demagnetization resistor, wherein the first zinc oxide demagnetization resistor, the first silicon carbide demagnetization resistor, the second zinc oxide demagnetization resistor, the second silicon carbide demagnetization resistor, the third zinc oxide demagnetization resistor and the third silicon carbide demagnetization resistor have equal resistance values, the first zinc oxide demagnetization resistor is connected in series with the first silicon carbide demagnetization resistor and then arranged between two outgoing lines, the third zinc oxide demagnetization resistor and the third zinc carbide demagnetization resistor are connected in series and then arranged between two outgoing lines, and the second silicon carbide demagnetization resistor and the third silicon carbide demagnetization resistor are connected in series and then arranged between two outgoing lines.

Compared with the prior art, the non-wiring power distribution cabinet provided by the invention has the following advantages:

1. the electromagnetic switch or the relay is directly arranged on the wire, and is not connected to the power distribution cabinet, and the power distribution cabinet transmits a signal to the controller on the wire to instruct the electromagnetic switch or the relay to execute, so that an operator is far away from the wire, and the safety of the operator is guaranteed.

2. The switch icons displayed on the display screen correspond to the electromagnetic switches or relays on the electric wires one to one, and the same effect as that of directly operating the electromagnetic switches or relays on the electric wires is achieved.

3. And a demagnetization module is arranged between the two wires, so that surge current is eliminated, and electric equipment is protected.

Drawings

FIG. 1 is a schematic diagram of the present invention;

FIG. 2 is a schematic wiring diagram provided by a first embodiment of the present invention;

FIG. 3 is a perspective view of a first embodiment of the present invention;

FIG. 4 is a schematic wiring diagram provided by a second embodiment of the present invention;

fig. 5 is a perspective view of a second embodiment of the present invention.

Description of reference numerals: 1-an operation box processor module, 2-an operation box wireless module, 3-an operation box display screen, 4-a controller processor module, 5-a controller wireless module, 6-an electromagnetic switch or relay, and 7-an electric wire.

Claims

1. The utility model provides a novel no wiring switch board which characterized in that: comprises an operation box and a controller;

the controller comprises a controller processor module and a controller wireless module for wireless connection, the controller processor module is electrically connected with the controller wireless module, the controller processor module is electrically connected with the electromagnetic switch or the relay on the electric wire through a connecting wire, the controller processor module can close or open the electromagnetic switch or relay through a connecting wire to energize or de-energize the wire, a controller operating system or a virtual controller operating system is installed in the controller processor module, the controller operating system is internally provided with remote control software which is the same as the remote control software in the operating box processor module so that the controller processor module is used as a controlled end, a demagnetization module is arranged between two wires connected with the same electric equipment so as to eliminate the damage of surge current, and the demagnetization module is a zinc oxide resistor and/or a silicon carbide resistor;

the operation box wireless module can be connected with the controller wireless module in a wireless mode, controller management software used for managing the electromagnetic switch or the relay is installed in the controller operation system, the controller management software is provided with switch icons corresponding to the electromagnetic switch or the relay, the switch icons can be synchronously displayed on the operation box display screen through the remote control software, and the controller processor module can be driven to be switched on or switched off by clicking the switch icons on the operation box display screen.

2. The novel cordless power distribution cabinet of claim 1, wherein: the controller management software may modify the name of the electromagnetic switch or relay so that the power supply area controlled by the electromagnetic switch or relay can be directly seen.

3. The novel cordless power distribution cabinet of claim 1, wherein: the shell of the controller is marked with the name, equipment number and connection password of remote control software so as to enable the controller processor module to be used as a controlled end to be connected with the operation box processor module used as a main control end.

4. The novel cordless power distribution cabinet of claim 1, wherein: the operation box processor module is connected with the plurality of controller processor modules, and the controller processor modules are only electrically connected with one electromagnetic switch or one relay.

5. The novel cordless power distribution cabinet of claim 1, wherein: the operation box processor module is electrically connected with only one controller processor module, the controller processor module is electrically connected with all the electromagnetic switches or relays, and the switch icons displayed on the display screen of the operation box correspond to the electromagnetic switches or relays on the electric wires one to one.

6. The novel cordless power distribution cabinet of claim 1, wherein: the wireless connection mode, the equipment number and the connection password of the controller wireless module are marked on the outer side of the controller shell.

7. The novel cordless power distribution cabinet of claim 6, wherein: the connection mode of the wireless module of the controller can be WIF worker and/or BT and/or 4G and/or 5G.

8. The novel cordless power distribution cabinet of claim 1, wherein: the remote control software can be one or more of sunflower, network person and third eye.

9. The novel cordless power distribution cabinet of claim 5, wherein: the controller management software comprises a power supply line diagram, and the switch icons are arranged in the power supply line diagram.

10. The new type of cordless power distribution cabinet of claim 1, wherein said degaussing module comprises a first ZnO degaussing resistor, a first SiC degaussing resistor, a second ZnO degaussing resistor, a second SiC degaussing resistor, a third ZnO degaussing resistor, and a third SiC degaussing resistor, the first zinc oxide degaussing resistor, the first silicon carbide degaussing resistor, the second zinc oxide degaussing resistor, the second silicon carbide degaussing resistor, the third zinc oxide degaussing resistor and the third silicon carbide degaussing resistor are all equal in resistance, wherein the first zinc oxide degaussing resistor and the first silicon carbide degaussing resistor are connected in series and then arranged between the two outgoing lines, the second zinc oxide degaussing resistor and the third zinc oxide degaussing resistor are connected in series and then arranged between the two outgoing lines, and the second silicon carbide degaussing resistor and the third silicon carbide degaussing resistor are connected in series and then arranged between the two outgoing lines.