CN213906376U

CN213906376U - Differentiated standby power control structure

Info

Publication number: CN213906376U
Application number: CN202022744514.1U
Authority: CN
Inventors: 赵秦川; 王艳
Original assignee: Shaanxi Xinjiang Morning Information Technology Co ltd
Current assignee: Shaanxi Xinjiang Morning Information Technology Co ltd
Priority date: 2020-11-24
Filing date: 2020-11-24
Publication date: 2021-08-06
Anticipated expiration: 2030-11-24

Abstract

The application discloses differentiation is equipped with electric control structure belongs to and is equipped with electric technical field, can solve the problem that current is equipped with the differentiation power consumption demand that electric equipment can't satisfy between the different operators and different communication equipment. The differential standby power control structure comprises a plurality of control assemblies, wherein each control assembly comprises a first busbar, an electric drive switch and a second busbar; the first bus bars of the control components are integrally connected, one end of each first bus bar is connected with a first wiring terminal, and the other end of each first bus bar is used for being connected with one household or one path of electric equipment; two main wiring ends of the electric drive switch are respectively connected with a second wiring terminal and one end of a second busbar; the other end of the second busbar is used for being connected with a household or a path of electric equipment. The application can meet the differentiated power utilization requirements of different operators and different communication devices.

Description

Differentiated standby power control structure

Technical Field

The application relates to the technical field of standby power devices, in particular to a differentiated standby power control structure.

Background

The communication base station is capable of providing wireless coverage, i.e. enabling wireless signal transmission between a wired communication network and a wireless terminal. Existing communication base stations are commonly shared for multiple operators, i.e. multiple operators' devices are accessed on the same communication base station, and each operator simultaneously accesses 2G, 3G, 4G and 5G devices.

Under the normal condition, the communication base station uses alternating current to supply power to the accessed equipment, and in the power failure state, in order to ensure the normal operation of the equipment, a battery pack or an oil engine in the base station can be started to reserve power for the equipment so as to maintain the continuous operation of the equipment. However, the existing power supply equipment supplies power and cuts off power to different operators and different communication equipment of the same operator at the same time, so that the power consumption differentiation requirements between different operators cannot be met, and the power consumption differentiation requirements of different communication equipment cannot be met.

Disclosure of Invention

The embodiment of the application solves the problem that the existing power supply equipment cannot meet the differentiated power utilization requirements of different operators and different communication equipment by providing the differentiated power supply control structure.

The embodiment of the utility model provides a differentiation is equipped with electric control structure, including a plurality of control assembly, control assembly includes first female arranging, electric drive switch and second female arranging; the first bus bars of the control assemblies are integrally connected, one end of each first bus bar is connected with a first wiring terminal, and the other end of each first bus bar is used for being connected with a household or a path of electric equipment; two main wiring ends of the electric drive switch are respectively connected with a second wiring terminal and one end of a second busbar; the other end of the second busbar is used for being connected with one household or one path of electric equipment.

In one possible implementation, the control assembly further comprises a circuit breaker; the end part of the first bus bar, which is far away from the first wiring terminal, and the end part of the second bus bar, which is far away from the electric drive switch, are connected with one side of the circuit breaker; the other side of the circuit breaker is used for connecting a household or a path of electric equipment.

In one possible implementation, one side of one or more of the circuit breakers is connected to an end of one of the second busbars remote from the electrically driven switch.

In a possible implementation manner, the control assembly further comprises a detection feedback busbar, one end of the detection feedback busbar is connected with one side of the circuit breaker connected with the first busbar, and the other end of the detection feedback busbar is connected with the control module and used for feeding back the switching state of the circuit breaker to the control module.

In a possible implementation manner, the control assembly further includes an insulating member, and two ends of the insulating member are respectively connected between the first busbar and the second busbar.

In one possible implementation, the control assembly further comprises a flow divider; the shunt is arranged between the second busbar and the electric equipment, or between the second busbar and the corresponding main wiring end of the electric drive switch.

In one possible implementation, the control assembly further comprises a first electrically conductive member and a second electrically conductive member; one main wiring terminal of the electric drive switch is connected with one end of the second busbar through the first conductive piece, and the other main wiring terminal is connected with the second wiring terminal through the second conductive piece.

In one possible implementation, the electrically driven switch includes a contactor.

The embodiment of the utility model provides an in one or more technical scheme, following technological effect or advantage have at least:

the embodiment of the utility model provides a pair of differentiation is equipped with electric control structure has a plurality of control assembly, and every control assembly includes that first female arranging, electric drive switch and second are female arranges. A plurality of control assembly's first female row body coupling, this first female one end of arranging is connected with first binding post, and the other end is connected with one house or all the way consumer. Two main wiring ends of the electric drive switch are respectively connected with the second wiring terminal and one end of the second busbar. The other end of the second busbar is connected with one household or one path of electric equipment. This differentiation is equipped with electric control structure when using, when the differentiation consumer between a plurality of control assembly and different operators is connected, the differentiation power consumption demand between different operators can be satisfied to operation control assembly's break-make. When a plurality of control assemblies are connected with different electric equipment of the same operator, the on-off of the operation control assemblies can meet the differentiated electricity utilization requirements of different communication equipment.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments of the present invention will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a differentiated standby power control structure according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a differentiated power supply device according to an embodiment of the present application.

Icon: 1-a first busbar; 2-an electrically driven switch; 21-a main terminal; 22-coil terminals; 3-a second busbar; 4-a first connecting terminal; 5-a second connecting terminal; 6-a circuit breaker; 7-detecting a feedback busbar; 8-an insulator; 9-a flow divider; 10-a first conductive member; 11-a second conductive member.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the embodiments of the present invention, it should be noted that the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Furthermore, the terms "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the embodiments of the present invention can be understood by those skilled in the art according to specific situations.

An embodiment of the present invention provides a differentiated standby power control structure, which is shown in fig. 1 and fig. 2.

As shown in fig. 1, the differentiated standby power control structure includes a plurality of control assemblies, and each control assembly includes a first bus bar 1, an electrically-driven switch 2, and a second bus bar 3. When the first busbar 1 is a positive busbar, the second busbar 3 is a negative busbar; when the first busbar 1 is a negative busbar, the second busbar 3 is a positive busbar. The first busbar 1 and the second busbar 3 are conductive metal bars, such as copper bars.

A plurality of control assembly's first female 1 body coupling that arranges, the one end and the first binding post 4 of first female 1 of arranging are connected, and the other end is used for being connected with one family or electric equipment all the way. When the first busbar 1 is a positive busbar, the first wiring terminal 4 is a positive terminal; when the first busbar 1 is a negative busbar, the first wiring terminal 4 is a negative terminal.

In practical applications, a user refers to all the electric devices of one operator. An electric device refers to an electric device on a branch, such as a 2G, 3G, 4G or 5G device of an operator.

Fig. 1 and fig. 2 show a case that the differentiated power backup control structure has six control components, and of course, in practical applications, different numbers of control components may be set according to the number of actual operators in the base station and the number of electric devices of each operator.

When the plurality of control assemblies are connected with different operators for electric equipment, the on-off of the operation control assemblies can meet the differentiated power utilization requirements among different operators; when a plurality of control assembly are connected with the different consumer of same operator, the differentiation power consumption demand of different consumer can be satisfied to the break-make of operation control assembly.

As shown in fig. 1, the electrically driven switch 2 has two main terminals 21 and two coil terminals 22, and the two main terminals 21 of the electrically driven switch 2 are connected to the second connection terminals 5 and one end of the second bus bar 3, respectively. When the second busbar 3 is a positive busbar, the second wiring terminal 5 is a positive terminal; when the second busbar 3 is a negative busbar, the second wiring terminal 5 is a negative terminal.

The other end of the second busbar 3 is used for being connected with a household or a piece of electric equipment. When the power supply device is used, the other end of the first busbar 1 and the other end of the second busbar 3 are connected with one household or one path of electric equipment, the control circuit board or the controller is connected with the two coil wiring terminals 22 on the electric drive switch 2, the power-on and power-off conditions are set in the control circuit board or the controller, and then the control circuit board or the controller can control the connection and disconnection of the two main wiring terminals 21 of the electric drive switch 2 by sending electric signals to the coil wiring terminals 22, so that whether power is supplied to one household or one path of electric equipment is controlled.

The embodiment of the utility model provides a pair of differentiation is equipped with electric control structure has a plurality of control assembly, and every control assembly includes that first female arranging 1, electric drive switch 2 and second are female arranges 3. A plurality of control assembly's first female 1 body coupling that arranges, this first female one end of arranging 1 is connected with first binding post 4, and the other end is connected with one household or electric equipment all the way. Two main terminals 21 of the electrically driven switch 2 are connected to the second connection terminal 5 and one end of the second busbar 3, respectively. The other end of the second busbar 3 is connected with one household or one path of the electric equipment. This differentiation is equipped with electric control structure when using, when the differentiation consumer between a plurality of control assembly and different operators is connected, the differentiation power consumption demand between different operators can be satisfied to operation control assembly's break-make. When a plurality of control assemblies are connected with different electric equipment of the same operator, the on-off of the operation control assemblies can meet the differentiated electricity utilization requirements of different communication equipment.

As shown in fig. 1 and 2, the control assembly further comprises a circuit breaker 6. The end part of the first busbar 1, which is far away from the first wiring terminal 4, and the end part of the second busbar 3, which is far away from the electric drive switch 2, are connected with one side of the circuit breaker 6. The other side of the circuit breaker 6 is used to connect a household or a piece of electrical equipment.

The circuit breaker 6 has overload, short circuit and under-voltage protection functions, and has the capacity of protecting lines and power supplies. Because every control assembly all has circuit breaker 6, and then this differentiation is equipped with electric controlling means can protect the consumer and the power module of being connected with it, prevents that consumer and power module from damaging because of overload, short circuit and undervoltage in the use.

In practical application, one side of one or more circuit breakers 6 is connected to an end portion, far away from the electrically driven switch 2, of one second busbar 3, that is, one side of one circuit breaker 6 is connected to an end portion, far away from the electrically driven switch 2, of one second busbar 3, or one side of two circuit breakers 6 is connected to an end portion, far away from the electrically driven switch 2, of one second busbar 3, or one side of three circuit breakers 6 is connected to an end portion, far away from the electrically driven switch 2, of one second busbar 3. Since the other ends of the circuit breakers 6 are connected to one household or one electric device, the other ends of the plurality of circuit breakers 6 can be connected to a plurality of one household or one electric device, respectively. One end of the second bus bar 3 is connected with the end part of one electric drive switch 2, and when the other end of the second bus bar is connected with one side of one circuit breaker 6, one electric drive switch 2 can only control one household or one path of electric equipment; when the other end is connected with one side of a plurality of circuit breakers 6, one electrically driven switch 2 can control a plurality of households or a plurality of electric devices. And technical personnel in the field can select and set the quantity of circuit breakers 6 of the end connection of the second busbar 3 far away from the electric drive switch 2 according to the actual use requirement, thereby enabling the differentiated standby power control structure to be wider in application range and more convenient.

As shown in fig. 1, the control assembly further comprises a detection feedback busbar 7, one end of the detection feedback busbar 7 and one side of the circuit breaker 6 connected with the first busbar 1 are connected, and the other end of the detection feedback busbar 7 is connected with the control module and used for feeding back the on-off state of the circuit breaker 6 to the control module, so that the working state of the circuit breaker 6 can be accurately mastered. The control module comprises a control circuit board or a controller and the like. The detection feedback bus bar 7 is a conductive metal bar, such as a copper bar.

With continued reference to fig. 1, the control assembly further includes an insulating member 8, and two ends of the insulating member 8 are respectively connected between the first busbar 1 and the second busbar 3. The insulating part 8 can improve the fixity that first female row 1 and second were arranged 3, even first female row 1 and second arrange 3 structures more firmly, be difficult to loose to can also improve the insulating nature that first female row 1 and second were arranged 3, ensure promptly that first female row 1 and second are arranged 3 and can not communicate. Wherein the first insulator 8 may be an insulator.

Certainly, as shown in fig. 1, when the control assembly further includes the detection feedback busbar 7, the detection feedback busbar 7 is connected to the middle of the insulating member 8, and the two ends of the insulating member 8 are respectively connected to the first busbar 1 and the second busbar 3, so that the fixity and the insulativity of the first busbar 1, the detection feedback busbar 7 and the second busbar 3 can be improved.

Optionally, the control assembly further comprises a flow divider 9. The shunt 9 is disposed between the second busbar 3 and the electric device, or between the second busbar 3 and the main terminal 21 of the corresponding electric drive switch 2.

Take for example the shunt 9 shown in fig. 1 and 2 as being arranged between the second busbar 3 and the main terminal 21 of the corresponding electrically driven switch 2. One end of the shunt 9 is connected with a main wiring end 21 of the electric drive switch 2, and the other end of the shunt is connected with the second busbar 3, specifically, the shunt 9 and the wiring end of the electric drive switch 2, and the shunt 9 and the second busbar 3 can be connected by bolts and nuts, and other connection modes such as welding can also be adopted.

The shunt 9 is disposed between the second busbar 3 and the electric device, that is, one end of the shunt 9 is connected to the second busbar 3, and the other end is connected to the electric device, specifically, the shunt 9 and the second busbar 3 may be connected by bolts and nuts, or by welding or other connection methods, and the shunt 9 and the electric device may be connected by screws and wires.

The shunt 9 is generally a resistor with a fixed value, and after receiving a voltage value at two ends of the shunt 9, the current collecting module divides the voltage value by the resistor of the shunt 9, that is, a current value of a branch on which the shunt 9 is installed, where the current value is a current value of an electric device connected to a control component corresponding to the shunt 9, and then transmits the current value to the control module. The control module can calculate the power consumption of the electric equipment of one user or one path of electric equipment according to the power supply voltage of the electric equipment and the power supply duration of the electric equipment, and then allows the control assembly to control the on-off of the electric equipment of one user or one path of electric equipment according to the power consumption.

As shown in fig. 1 and 2, the control assembly further includes a first conductive member 10 and a second conductive member 11; one main terminal 21 of the electrically driven switch 2 is connected to one end of the second bus bar 3 through the first conductive member 10, and the other main terminal 21 is connected to the second connection terminal 5 through the second conductive member 11. The first and second conductive members 10 and 11 facilitate the connection of the two main terminals 21 of the electrically driven switch 2 with the second busbar 3 and the second connection terminal 5, respectively.

The electrically driven switch 2 shown in fig. 1 and 2 comprises a contactor, but the electrically driven switch 2 may be other switches that can be driven by electric energy, such as a relay or the like.

The embodiments in the present specification are described in a progressive manner, and the same or similar parts among the embodiments may be referred to each other, and each embodiment focuses on the differences from the other embodiments.

The above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the present application; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the present disclosure.

Claims

1. A differentiated standby power control structure is characterized by comprising a plurality of control assemblies, wherein each control assembly comprises a first busbar, an electric drive switch and a second busbar;

the first bus bars of the control assemblies are integrally connected, one end of each first bus bar is connected with a first wiring terminal, and the other end of each first bus bar is used for being connected with a household or a path of electric equipment;

two main wiring ends of the electric drive switch are respectively connected with a second wiring terminal and one end of a second busbar;

the other end of the second busbar is used for being connected with one household or one path of electric equipment.

2. The differentiated power-ready control structure according to claim 1, wherein the control assembly further comprises a circuit breaker;

the end part of the first bus bar, which is far away from the first wiring terminal, and the end part of the second bus bar, which is far away from the electric drive switch, are connected with one side of the circuit breaker;

the other side of the circuit breaker is used for connecting a household or a path of electric equipment.

3. The differential power backup control structure according to claim 2, wherein one side of one or more of the circuit breakers is connected to an end of one of the second bus bars distal from the electrically driven switch.

4. The differential power supply control structure according to claim 2, wherein the control assembly further comprises a detection feedback busbar, one end of the detection feedback busbar is connected with one side of the circuit breaker connected with the first busbar, and the other end of the detection feedback busbar is connected with the control module and used for feeding back the on-off state of the circuit breaker to the control module.

5. The differential power supply control structure according to claim 1, wherein the control assembly further comprises an insulating member, and two ends of the insulating member are respectively connected between the first busbar and the second busbar.

6. The differentiated power-ready control structure of claim 1, wherein the control assembly further comprises a shunt;

the shunt is arranged between the second busbar and the electric equipment, or between the second busbar and the corresponding main wiring end of the electric drive switch.

7. The differentiated power-ready control structure of claim 1, wherein the control assembly further comprises a first conductive member and a second conductive member;

one main wiring terminal of the electric drive switch is connected with one end of the second busbar through the first conductive piece, and the other main wiring terminal is connected with the second wiring terminal through the second conductive piece.

8. The differentiated power-ready control structure according to claim 1, wherein the electrically driven switch comprises a contactor.