CN220553733U - Direct current output control module coupling assembling - Google Patents

Abstract

The utility model relates to the technical field of module connecting pieces, in particular to a direct-current output control module connecting assembly which comprises a drawer frame assembly, an insulator, a contactor, a fuse, a shunt, a power-in copper bar, a wire-in terminal, a switching power supply, a control panel assembly, a relay, an electricity meter and a wire-out terminal, wherein the drawer frame assembly is used as a main supporting piece, the insulator and the contactor are directly fixed on the drawer frame assembly, the power-in copper bar is fixed in the drawer frame assembly through the insulator and the contactor, and the fuse and the shunt are fixed on the power-in copper bar. The utility model has the advantages of regular and drawable appearance, reasonable and compact layout and maintainability to the control unit from the front. Because the appearance is regular and can be convenient transport the power station and carry out the replacement of whole module, loading and unloading and debugging are all more convenient during the maintenance, make the production debugging and the maintenance process of control panel become more convenient and fast to whole operation cost has been reduced.

Description

Direct current output control module coupling assembling

Technical Field

The utility model relates to the technical field of module connectors, in particular to a direct-current output control module connecting assembly.

Background

The control module connecting assembly is a connecting frame for supporting the control module, so that the installation and supporting effects of the control module are achieved.

When the existing control module connecting assembly is used, the control module is often only connected and supported in position, the layout among the modules is unreasonable, the overall structure is easy to be compact, the wiring is complex, the installation and maintenance are difficult, and the usability and the effect are affected.

Disclosure of Invention

The utility model aims to provide a direct current output control module connecting assembly, which solves the problems that the prior art has unreasonable layout among modules, is easy to cause the compactness of the whole structure, complex in wiring, difficult to install and maintain and affects the service performance and effect.

In order to achieve the above purpose, the utility model provides a direct current output control module connecting assembly, which comprises a drawer frame assembly, an insulator, a contactor, a fuse, a shunt, an incoming copper bar, an incoming terminal, a switch power supply, a control panel assembly, a relay, an electric quantity meter and an outgoing terminal, wherein the drawer frame assembly is used as a main supporting piece, the insulator and the contactor are directly fixed on the drawer frame assembly, the incoming copper bar is fixed in the drawer frame assembly through the insulator and the contactor, the fuse and the shunt are fixed on the incoming copper bar, the incoming terminal is connected with the switch power supply, the control panel assembly, the relay and the electric quantity meter by using a cable, the outgoing terminal is used for outgoing wires, the inner side of the drawer frame assembly is fixedly connected with a supporting plate, the surface of the contactor is fixedly connected with a pole, and the incoming copper bar is connected with the contactor through the pole.

Preferably, the overall layout of the drawer frame assembly is approximately rectangular.

Preferably, the inner part of the drawer frame assembly is a power part and a control part, an insulator and a contactor of the power part in the drawer frame assembly are directly fixed on an inner bottom plate of the drawer frame assembly, and the power feeding copper bars are arranged on the contactors in two groups and penetrate through the contactors to be connected with the fuse and the current divider.

Preferably, the control part in the drawer frame assembly is connected with the switch power supply, the relay, the electricity meter and the control panel assembly through the cable in the wire inlet terminal, so that the strong and weak current separation is realized.

Preferably, the power part in the drawer frame assembly is at the left side of the control part, and the fuse of the power part of the drawer frame assembly is at the left side of the diverter.

Preferably, the control part in the drawer frame assembly is arranged on the right side of the power part, the incoming line terminal of the control part is fixed on the front assembly of the drawer frame assembly, the outgoing line terminal of the control part is fixed on the rear assembly of the drawer frame assembly, and the switching power supply of the control part is fixed on the inner bottom plate of the drawer frame assembly.

Preferably, the control panel assembly is fixed above the switching power supply through an internal structural member of the drawer frame assembly, and the relay and the electricity meter of the control part are fixed on an internal bottom plate of the drawer frame assembly side by side and close to the rear assembly.

Compared with the prior art, the utility model has the beneficial effects that:

the module has regular and drawable appearance, reasonable and compact layout and can be maintained to the control unit from the front. Because the appearance is regular and can be convenient transport the power station and carry out the replacement of whole module, loading and unloading and debugging are all more convenient during the maintenance, make the production debugging and the maintenance process of control panel become more convenient and fast to whole operation cost has been reduced.

Drawings

FIG. 1 is a schematic perspective view of the structure of the present utility model;

FIG. 2 is a schematic side perspective view of the structure of the present utility model;

FIG. 3 is a schematic top view of the structure of the present utility model;

fig. 4 is a schematic structural perspective view of the outlet terminal of the present utility model;

fig. 5 is an enlarged schematic view of the structure of fig. 1 a according to the present utility model.

In the figure: 1. a drawer frame assembly; 2. an insulator; 3. a contactor; 4. a fuse; 5. a shunt; 6. a power-in copper bar; 7. a wire inlet terminal; 8. a switching power supply; 9. a control panel assembly; 10. a relay; 11. an electricity meter; 12. a wire outlet terminal; 13. a support plate; 14. a pole.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, an embodiment of the present utility model is provided:

the utility model provides a direct current output control module coupling assembling, including drawer frame assembly 1, the insulator 2, contactor 3, the fuse 4, shunt 5, advance electric copper bar 6, inlet wire terminal 7, switch power 8, control panel assembly 9, relay 10, electricity meter 11 and wire outlet terminal 12, drawer frame assembly 1 is as main support piece, insulator 2 and contactor 3 are directly fixed on drawer frame assembly 1, advance electric copper bar 6 and fix in drawer frame assembly 1 through insulator 2, contactor 3, fuse 4 and shunt 5 are fixed on advancing electric copper bar 6, inlet wire terminal 7 uses cable connection switch power 8, control panel assembly 9, relay 10 and electricity meter 11, and use wire outlet terminal 12 to go out the wire, the inboard fixedly connected with backup pad 13 of drawer frame assembly 1, the surface fixedly connected with post 14 of contactor 3, advance electric copper bar 6 is connected through post 14 and contactor 3, through the effect of drawer frame assembly 1, realize distributing and supporting effect to the module between, under the effect of wire outlet terminal 12 and terminal 7, the wire is connected to the wire-binding effect.

Furthermore, the overall layout of the drawer frame assembly 1 is nearly rectangular, the layout is reasonable and compact, and the front side can be maintained to the power and control part assembly.

Further, the inside of the drawer frame assembly 1 is divided into a power part and a control part, an insulator 2 and a contactor 3 of the power part in the drawer frame assembly 1 are directly fixed on the inner bottom plate of the drawer frame assembly 1, an incoming copper bar 6 is installed on the contactor 3 in two groups and penetrates through the contactor 3 to be connected with a fuse 4 and a shunt 5, the effect of the insulator 2 is achieved, an insulating connection effect is achieved, the control part in the drawer frame assembly 1 is formed by connecting a switching power supply 8, a relay 10, an electricity meter 11 and a control panel assembly 9 through an incoming cable terminal 7, the power part in the drawer frame assembly 1 is arranged on the left side of the control part, the fuse 4 of the power part in the drawer frame assembly 1 is arranged on the left side of the shunt 5, the control part in the right side of the power part, the incoming copper bar 7 of the control part is fixed on the front assembly of the drawer frame assembly 1, an outgoing cable terminal 12 of the control part is fixed on the rear assembly of the drawer frame assembly 1, the switching power supply 8 of the control part is fixed on the inner bottom plate of the drawer frame assembly 1, the assembly 9 is fixed on the inner bottom plate of the drawer frame assembly 1 through an incoming cable connection switching power supply 8, the relay 10 and the relay 10 are distributed on the position of the control panel 1, the position of the relay 10 is distributed on the support frame assembly 1 and the position of the relay 10 and the relay 5, the position of the relay 13 is distributed on the inner side of the control panel 1, the position of the relay 13 is distributed on the support frame assembly 1, and the position of the relay 13 is distributed on the position of the control panel, and the position of the relay 13 is distributed on the inner side of the support frame assembly 1, and the position of the relay 13 is distributed on the support frame 13.

Working principle: the drawer frame assembly 1 is used as a main supporting piece, the insulator 2 and the contactor 3 of the power part are directly fixed on the drawer frame assembly 1, the power-in copper bar 6 is fixed in the drawer frame assembly 1 through the insulator 2 and the contactor 3, the fuse 4 and the current divider 5 are fixed on the power-in copper bar 6, the control part is connected with the switch power supply 8, the control panel assembly 9, the relay 10 and the electric quantity meter 11 through the wire inlet terminal 7 by using cables, the wire outlet terminal 12 is used for wire outlet, the assembled module is pushed into a preset slideway of the cabinet body, the power-in copper bar 6, the wire inlet terminal 7 and the wire outlet terminal 12 are connected with a copper bar cable of the cabinet body, and when the power-in electric power-saving type power-saving cabinet is operated, the power part collects output current and voltage, and the control part controls electric output.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The utility model provides a direct current output control module coupling assembling, includes drawer frame assembly (1), insulator (2), contactor (3), fuse (4), shunt (5), advances electric copper bar (6), inlet wire terminal (7), switching power supply (8), control panel subassembly (9), relay (10), electricity meter (11) and outlet terminal (12), its characterized in that: the utility model discloses a novel electric power supply device, including drawer frame subassembly (1), insulator (2), contactor (3), wire inlet copper bar (6), fuse (4) and shunt (5), wire inlet terminal (7) use cable connection switching power supply (8), control panel subassembly (9), relay (10) and electric quantity meter (11), and use wire outlet terminal (12) to go out the wire, the inboard fixedly connected with backup pad (13) of drawer frame subassembly (1), the fixed surface of contactor (3) is connected with post (14), wire inlet copper bar (6) are connected through post (14) and contactor (3) inside drawer frame subassembly (1), fuse (4) and shunt (5) are fixed on wire inlet copper bar (6).

2. The direct current output control module connection assembly of claim 1, wherein: the overall layout of the drawer frame assembly (1) is nearly rectangular.

3. The direct current output control module connection assembly of claim 1, wherein: the inner part of the drawer frame assembly (1) is a power part and a control part, an insulator (2) of the power part and a contactor (3) in the drawer frame assembly (1) are directly fixed on an inner bottom plate of the drawer frame assembly (1), and the power-in copper bars (6) are arranged on the contactor (3) in two groups and penetrate through the contactor (3) to be connected with the fuse (4) and the current divider (5).

4. A dc output control module connection assembly as in claim 3, wherein: the drawer frame assembly (1) is characterized in that a control part is connected with a switching power supply (8), a relay (10), an electricity meter (11) and a control panel assembly (9) through an internal cable of a wire inlet terminal (7) to realize strong and weak current separation.

5. A dc output control module connection assembly as in claim 3, wherein: the power part in the drawer frame assembly (1) is arranged at the left side of the control part, and the fuse (4) of the power part of the drawer frame assembly (1) is arranged at the left side of the diverter (5).

6. A dc output control module connection assembly as in claim 3, wherein: the control part in the drawer frame assembly (1) is arranged on the right side of the power part, the incoming line terminal (7) of the control part is fixed on the front assembly of the drawer frame assembly (1), the outgoing line terminal (12) of the control part is fixed on the rear assembly of the drawer frame assembly (1), and the switching power supply (8) of the control part is fixed on the inner bottom plate of the drawer frame assembly (1).

7. A dc output control module connection assembly as in claim 3, wherein: the control panel assembly (9) is fixed above the switch power supply (8) through an internal structural part of the drawer frame assembly (1), and the relay (10) and the electricity meter (11) of the control part are fixed on an internal bottom plate of the drawer frame assembly (1) side by side and close to the rear assembly.