CN113922498A - Bus duct remote control system and bus duct remote management device - Google Patents

Abstract

Bus duct remote control system and bus duct remote management device. The invention provides a bus duct remote control system and a bus duct connector, belonging to the field of power distribution equipment, wherein the bus duct remote control system comprises a terminal and a remote control end, the terminal comprises a processor I, a monitoring module, a pressing spring piece type module, a relay and a communication module I, and the monitoring module is used for monitoring the internal condition of a bus duct in real time; the extrusion spring piece type module and the relay are used for controlling the on-off of the power supply of the bus duct; the remote control end comprises a processor II, a storage module, an operation module and a communication module II, wherein the storage module is used for storing data and allowing the processor II to read the data; the operation module is used for a user to operate so as to send an instruction to the processor II; and the communication module II and the communication module I realize data and instruction transmission of the terminal and the remote control terminal. The invention can control the on-off of the loop power supply through the matching of the remote control end and the terminal, and meets the requirements of users in different application occasions.

Description

Bus duct remote control system and bus duct remote management device

Technical Field

The invention belongs to the field of distribution equipment, particularly relates to a bus duct remote control system, and further relates to a bus duct remote management device.

Background

Busways are enclosed metal devices consisting of copper and aluminum busways to distribute large amounts of power to the various components of a decentralized system, and have increasingly replaced electrical wiring and cabling in indoor low voltage power transmission mains engineering projects.

However, the traditional bus duct loop control adopts manual operation in an electric room, the initial stage of the loop design is limited by engineering budget, the loop section control function is not designed or reserved, along with the continuous change of the form of a power utilization terminal, the intelligent power supply system is continuously popularized, and the traditional bus duct loop design can not adapt to the market demand gradually.

Disclosure of Invention

Based on the background problem, the invention aims to provide a bus duct remote control system, which can realize remote control of a bus duct and sectional control of a loop, is not limited by areas and loop lengths, and is convenient for sectional maintenance; the invention further aims to provide a bus duct remote management device.

In order to achieve the above object, in one aspect, the embodiment of the present invention provides a technical solution:

bus duct remote control system, including terminal and remote control end, the terminal includes:

a processor I;

the monitoring module is electrically connected with the processor I and is used for monitoring the internal condition of the bus duct in real time;

the extrusion spring sheet type module is electrically connected between the two sections of bus ducts;

the relay is electrically connected with the processor I, is electrically connected with the extrusion spring piece type module and is used for controlling the closing and the separation of spring pieces of the extrusion spring piece type module so as to realize the power supply and the power off of a bus duct loop;

the communication module I is in communication connection with the processor I; the remote control terminal includes:

a processor II;

the storage module is in communication connection with the processor II and is used for storing the data acquired by the monitoring module and allowing the data to be read by the processor II;

the operation module is electrically connected with the processor II and is used for being operated by a user to send an instruction to the processor II;

and the communication module II is in communication connection with the processor II and the communication module I respectively so as to realize data and instruction transmission of the terminal and the remote control terminal.

Further, the remote control terminal further comprises:

and the display module is electrically connected with the processor II and is used for displaying the data information stored by the storage module.

Further, at least one terminal is provided.

On the other hand, the embodiment of the invention provides a bus duct remote management device, which comprises a bus duct, a connector, a remote control box and the bus duct remote control system.

Further, the processor I, the monitoring module and the communication module I are installed in the bus duct; the processor II, the storage module and the communication module II are arranged in the remote control box; the surface of the remote control box is provided with the operation module.

Further, the connector is internally provided with the compression spring plate type module and the relay.

Further, the compression blade module includes:

an insulating column;

the two groups of fixing pieces are arranged on the insulating column in a penetrating mode and are arranged oppositely;

the two groups of insulating supporting pieces are arranged on the insulating column in a penetrating mode and are positioned between the two groups of fixing pieces;

the two groups of end elastic pieces penetrate through the insulating column and are positioned between the two groups of insulating supporting pieces;

and the middle elastic pieces are sequentially arranged on the insulating column in a penetrating manner and are positioned between the two end elastic pieces.

Furthermore, the insulating column is composed of a bolt and an insulating sleeve sleeved on the bolt, and the end part of the bolt penetrating out of the fixing part is locked through a nut.

Furthermore, a groove is formed in the outer side surface of the fixing piece, an elastic disc pad is arranged in the groove, and a waterproof gasket is arranged between the elastic disc pad and the groove;

an annular groove is formed in the inner side surface of the fixing piece, and a waterproof gasket is arranged in the annular groove.

Furthermore, the end elastic sheet consists of an end clapboard and a connecting copper plate I embedded inside the end clapboard;

the middle spring plate consists of a middle partition plate, a connecting copper plate II and a connecting copper plate III which are embedded at two sides of the middle partition plate;

and the connecting copper plate I, the connecting copper plate II and the connecting copper plate III are connected with and separated from the bus duct conductor through relay control.

Compared with the prior art, the embodiment of the invention at least has the following effects:

1. the invention provides a bus duct remote control system, which can control the on-off of loop power supply through the cooperation of a remote control end and a terminal, and meets the requirements of users in different application occasions.

2. The terminal can be provided with a plurality of terminals, each terminal corresponds to one bus duct, so that sectional control of a bus duct loop can be realized through a remote control end, the limitation of areas and loop lengths is avoided, and sectional maintenance is facilitated.

3. The monitoring module is used for monitoring the internal condition of the bus duct, transmitting the video information to the processor II through the processor I, the communication module I and the communication module I, storing the video information through the storage module, and sending an instruction to the processor II through the operation module by a user so that the processor II reads the video data stored by the storage module and displays the video data through the display module, thereby facilitating the checking of the user.

4. When a user finds that the bus duct is abnormal through the display module, the operation module sends an instruction, the instruction is transmitted to the processor I through the processor II, the communication module II and the communication module I, the processor I controls the relay to be closed, the elastic pieces of the pressing elastic piece type module are separated, and therefore power supply of the bus duct is closed, and meanwhile the user can timely and accurately maintain the bus duct.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below.

Fig. 1 is a schematic circuit connection diagram of a bus duct remote control system in embodiment 1 of the present invention;

FIG. 2 is a schematic diagram of an operation module in embodiment 1 of the present invention;

fig. 3 is a schematic view of the internal structure of the connector in embodiment 2 of the present invention;

fig. 4 is a schematic structural diagram of a compression spring sheet module in embodiment 2 of the present invention;

fig. 5 is an exploded view of a squeeze tab module in example 2 of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "top", "bottom", "left", "right", "vertical", "horizontal", "inner", "outer", "front", "rear", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings of the specification, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Example 1

In order to solve the defects of the existing bus duct loop control, the present embodiment provides a bus duct remote control system, as shown in fig. 1, which includes a plurality of terminals and a remote control end, where the terminals are provided, that is, the remote control of a plurality of bus ducts can be realized through the remote control end, and the structure of each terminal is the same, and this embodiment is described in detail by taking one of the terminals as an example.

In this embodiment, the terminal includes: the device comprises a processor I, a monitoring module, a compression spring piece type module, a relay and a communication module I.

The monitoring module is electrically connected with the processor I and used for monitoring the internal condition of the bus duct in real time, the monitoring module can be specifically a monitor and is arranged in the bus duct so as to collect video information in the bus duct, and the collected video information is sent to the processor I.

The electric connection of the elastic sheet type module for the bus duct is between two sections of bus ducts, the relay is electrically connected with the processor I and electrically connected with the elastic sheet type module for the bus duct, when the bus duct is abnormal, the elastic sheet of the elastic sheet type module for the bus duct can be controlled to be separated through the relay, so that the elastic sheet of the elastic sheet type module for the bus duct is separated from a conductor of the bus duct, the power supply inside the bus duct is closed, and when the bus duct is supplied with power, the elastic sheet of the elastic sheet type module for the bus duct is controlled to be closed through the relay and is connected with the conductor of the bus duct.

The communication module I is in communication connection with the processor I, and the video data received by the processor I are sent to the communication module I and then sent to the remote control end through the communication module I.

In this embodiment, the remote control terminal includes: processor II, storage module, operation module, display module and communication module II.

The storage module is in communication connection with the processor II and used for storing data collected by the monitoring module and being read by the processor I, and the storage module is specifically a storage card.

The operation module is electrically connected with the processor II and used for sending instructions to the processor II, and specifically, as shown in fig. 2, the operation module is provided with an operation panel, and the operation panel is provided with a plurality of operation buttons to send different instructions.

The display module is electrically connected with the processor II and used for displaying the data acquired by the monitoring module, when a user needs to check the data, the operation module sends an instruction to the processor II, and the processor II reads the data stored by the storage module and displays the data through the display module, so that the data are convenient to watch; the display module of the present embodiment is specifically a display.

Communication module II respectively with treater II, communication module I communication connection, the data that the monitoring module gathered are sent to communication module II through communication module I, and communication module I sends data for treater II, and treater II sends data to storage module storage again.

The working principle of the embodiment is as follows:

video information that monitoring module gathered sends to treater I, and treater I sends data transmission to communication module I, and communication module sends data transmission to communication module II, and communication module II sends data transmission to treater II, and treater II is data transmission to storage module storage again.

When needing to look over, the user sends the instruction to treater II through operation module, and treater II reads the data of storage module storage and sends to the display module and shows, and when the data that which section bus duct gathered appeared unusually simultaneously, can look over through the video information that the display module shows.

When the data of bus duct appeared unusually, the user sent the instruction to treater II through operation module, treater II sends the instruction to communication module II, communication module II sends the instruction for communication module I, communication module I sends the instruction for treater I, treater I control relay makes the shell fragment of extrusion shell fragment formula module separately to the power supply of disconnection bus duct, the user also can in time accurately maintain the bus duct simultaneously, thereby remote control has been realized.

Example 2

The bus duct remote management device, as shown in fig. 3, includes a bus duct 1, a connector 2, a remote control box, and a bus duct remote control system in embodiment 1.

In this embodiment, the processor I, the monitoring module, and the communication module I are disposed in the bus duct 1.

In this embodiment, the connector 2 is disposed between two segments of bus ducts 1, and is used for connecting the two segments of bus ducts 1, and the squeeze tab module 301 and the relay are disposed in the connector 2.

As shown in fig. 4 and 5, the compression spring plate type module 301 includes: insulating column 301-1, end spring plate 301-2, middle spring plate 301-3, insulating support member 301-4 and fixing member 301-5.

Specifically, as shown in fig. 5, the insulating column 301-1 is composed of a bolt 301-1-1 and an insulating sleeve 301-1-2 sleeved on the bolt 301-1-1.

As shown in fig. 4 and 5, two sets of the fixing members 301-5 are provided, the two sets of the fixing members 301-5 are arranged on the insulating column 301-1 in a penetrating manner, the two sets of the fixing members 301-5 are arranged oppositely, and one end of the bolt 301-1-1 penetrating through the fixing member 301-5 is fastened by a nut.

The outer side surface of the fixing piece 301-5 is provided with grooves, elastic disc pads 301-5-1 are arranged in the grooves, the inner side surface of the fixing piece 301-5 is also provided with annular grooves, and waterproof gaskets 301-5-2 are arranged in the annular grooves and between the elastic disc pads 301-5-1 and the grooves.

Two groups of insulating supporting pieces 301-4 are arranged, the two groups of insulating supporting pieces 301-4 are arranged on the insulating column 301-1 in a penetrating mode, the two groups of insulating supporting pieces 301-4 are arranged oppositely, and the insulating supporting pieces 301-4 are embedded in the inner side face of the fixing piece 301-5.

The end elastic pieces 301-2 are provided with two groups, two groups of the end elastic pieces 301-2 penetrate through the insulating column 301-1, the two groups of the end elastic pieces 301-2 are arranged oppositely, the middle elastic piece 301-3 is provided with three groups, and the three groups of the middle elastic pieces 301-3 sequentially penetrate through the insulating column 301-1 and are positioned between the two groups of the end elastic pieces 301-2.

As shown in fig. 5, the end spring plate 301-2 is composed of an end partition plate 301-2-1 and a connecting copper plate I301-2-2 embedded inside the end partition plate 301-2-1, and the middle spring plate 301-3 is composed of a middle partition plate 301-3-1, a connecting copper plate II 301-3-2 and a connecting copper plate III 301-3-3 embedded on two sides of the middle partition plate 301-3-1; the connecting copper plate I301-2-2, the connecting copper plate II 301-3-2 and the connecting copper plate III 301-3-3 are connected with and separated from the bus duct conductor through relay control.

When the relay is powered on, the pressing spring piece type module 301 is in a pressing state, at the moment, the connecting copper plate and the bus duct conductor are in a connecting state, the bus duct is normally powered, when the relay is powered off, the pressing spring piece type module 301 is in a loosening state, at the moment, the connecting copper plate and the bus duct conductor are in a separating state, the bus duct is disconnected from power supply, and therefore power supply and power outage of the bus duct are achieved.

In this embodiment, the inside of the remote control box is provided with the processor II, the storage module and the communication module II, and the surface of the remote control box is fixedly provided with the operation module.

It should be noted that, for those skilled in the art, various changes and modifications can be made without departing from the inventive concept of the present invention, and these changes and modifications belong to the protection scope of the present invention.

Claims (10)

1. Bus duct remote control system, its characterized in that, including terminal and remote control end, the terminal includes:

a processor I;

the monitoring module is electrically connected with the processor I and is used for monitoring the internal condition of the bus duct in real time;

the extrusion spring sheet type module is electrically connected between the two sections of bus ducts;

the relay is electrically connected with the processor I, is electrically connected with the extrusion spring piece type module and is used for controlling the closing and the separation of spring pieces of the extrusion spring piece type module so as to realize the power supply and the power off of a bus duct loop;

the communication module I is in communication connection with the processor I; the remote control terminal includes:

a processor II;

the storage module is in communication connection with the processor II and is used for storing the data acquired by the monitoring module and allowing the data to be read by the processor II;

the operation module is electrically connected with the processor II and is used for being operated by a user to send an instruction to the processor II;

and the communication module II is in communication connection with the processor II and the communication module I respectively so as to realize data and instruction transmission of the terminal and the remote control terminal.

2. The bus duct remote control system of claim 1, wherein the remote control end further comprises:

and the display module is electrically connected with the processor II and is used for displaying the data information stored by the storage module.

3. The bus duct remote control system of claim 1, wherein at least one terminal is provided.

4. A bus duct remote management device is characterized by comprising a bus duct, a connector, a remote control box and a bus duct remote control system as set forth in any one of claims 1-3.

5. The bus duct remote management device according to claim 4, wherein the processor I, the monitoring module and the communication module I are installed in the bus duct; the processor II, the storage module and the communication module II are arranged in the remote control box; the surface of the remote control box is provided with the operation module.

6. A bus duct remote management device as set forth in claim 4, wherein said compression spring plate module and relay are mounted within said connector.

7. A bus duct remote management device in accordance with claim 6, wherein said compression spring plate module comprises:

an insulating column;

the two groups of fixing pieces are arranged on the insulating column in a penetrating mode and are arranged oppositely;

the two groups of insulating supporting pieces are arranged on the insulating column in a penetrating mode and are positioned between the two groups of fixing pieces;

the two groups of end elastic pieces penetrate through the insulating column and are positioned between the two groups of insulating supporting pieces;

and the middle elastic pieces are sequentially arranged on the insulating column in a penetrating manner and are positioned between the two end elastic pieces.

8. The bus duct remote management device of claim 7, wherein the insulating column is composed of a bolt and an insulating sleeve sleeved on the bolt, and the end of the bolt penetrating out of the fixing piece is locked by a nut.

9. The bus duct remote management device according to claim 7, wherein a groove is formed in the outer side surface of the fixing member, an elastic disc pad is arranged in the groove, and a waterproof gasket is arranged between the elastic disc pad and the groove;

an annular groove is formed in the inner side surface of the fixing piece, and a waterproof gasket is arranged in the annular groove.

10. The bus duct remote management device according to claim 7, wherein the end spring is composed of an end partition plate and a connecting copper plate I embedded inside the end partition plate;

the middle spring plate consists of a middle partition plate, a connecting copper plate II and a connecting copper plate III which are embedded at two sides of the middle partition plate;

and the connecting copper plate I, the connecting copper plate II and the connecting copper plate III are connected with and separated from the bus duct conductor through relay control.

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