CN211209565U - Cable connecting device of integrated power cabinet - Google Patents

Abstract

The utility model is suitable for a wiring technical field of power cabinet provides a cable connecting device of integration power cabinet. The device includes: the current Hall element, the leakage current Hall element, the output wiring terminal and the plurality of wire slots are arranged on the base; the current Hall element, the leakage current Hall element, the output wiring terminal and the plurality of wire slots are respectively arranged at preset positions of the integrated power cabinet; strong current wires in the integrated power cabinet sequentially penetrate through the current Hall element and the leakage current Hall element and then are connected to the output wiring terminal; and weak current wires in the integrated power cabinet are output through the wire slots at the corresponding positions. The embodiment of the utility model provides a through arranging forceful electric power electric wire and light current electric wire separation for with strong and light current separation under the limited space of integration power cabinet, thereby can solve the problem that signal interference appears between a large amount of strong and light electric wires of integration power cabinet, and make power cabinet or external equipment's subsequent maintenance more convenient.

Description

Cable connecting device of integrated power cabinet

Technical Field

The utility model belongs to the technical field of the wiring of power cabinet, especially, relate to a cable connecting device of integration power cabinet.

Background

A large number of power lines and signal lines are distributed on the integrated power cabinet, wherein the power lines and the signal lines comprise strong current wires and weak current wires. When being connected power cabinet and external equipment, need be connected power cabinet and external equipment according to the line mode of walking of design, however when arranging the line to power cabinet's power cabinet, directly walk the line according to the external equipment with treating to be connected among the prior art, lead to probably appearing signal interference between a large amount of power cabinet or external equipment, and be unfavorable for power cabinet or external equipment's subsequent maintenance.

SUMMERY OF THE UTILITY MODEL

In view of this, the embodiment of the present invention provides a cable connection device of an integrated power cabinet to solve the problem that signal interference occurs between a large number of strong and weak wires and is not favorable for subsequent maintenance of the power cabinet or external equipment.

The embodiment of the utility model provides a first aspect provides a cable connecting device of integration power cabinet, include: the current Hall element, the leakage current Hall element, the output wiring terminal and the plurality of wire slots are arranged on the base;

the current Hall element, the leakage current Hall element, the output wiring terminal and the plurality of wire slots are respectively arranged at preset positions of the integrated power cabinet;

strong current wires in the integrated power cabinet sequentially penetrate through the current Hall element and the leakage current Hall element and then are connected to the output wiring terminal;

and the weak current wires in the integrated power cabinet are output through the wire slots at the corresponding positions.

In one embodiment, the current Hall element is arranged at the upper end of a current Hall group in the integrated power cabinet;

the leakage current Hall element is arranged at the upper end of a leakage current Hall group in the integrated power cabinet;

the output wiring terminal is arranged at the upper end of the terminal block of the integrated power cabinet;

the plurality of wire grooves are respectively arranged on any side of the current Hall group, any side of the leakage current Hall group and any side of the terminal strip.

In an embodiment, a first strong electric wire of the strong electric wires in the integrated power cabinet passes through the current hall element and the leakage current hall element in sequence and then is connected to the output terminal, and a second strong electric wire of the strong electric wires in the integrated power cabinet passes through the upper end of the current hall element and then passes through the leakage current hall element and then is connected to the output terminal.

In one embodiment, the weak current wires in the integrated power cabinet comprise a current hall signal wire, a leakage current hall signal wire and an output voltage sampling wire;

the current Hall signal wire is output through a first wire slot arranged at one side of the current Hall group;

the leakage current Hall signal wire is output through a second wire slot arranged at one side of the leakage current Hall group;

and the output voltage sampling line is output through a third wire slot arranged on one side of the terminal row.

In one embodiment, the system further comprises a branch data monitoring module;

the branch data monitoring module is arranged at the lower end of the terminal block;

the output voltage sampling line is collected to the outlet of the third wire groove through the third wire groove and is connected with the branch data monitoring module.

In one embodiment, the device further comprises a current Hall signal adapter plate;

the current Hall signal adapter plate is arranged at the lower end of the current Hall group;

the current Hall signal line is collected to the first line slot outlet through the first line slot, is connected with the current Hall signal adapter plate, and is output to the branch data monitoring module through the current Hall signal adapter plate.

In one embodiment, the leakage current Hall signal adapter plate is further included;

the leakage current Hall signal adapter plate is arranged at the lower end of the leakage current Hall group;

the leakage current Hall signal wire is converged to the outlet of the second wire slot through the second wire slot to be connected with the leakage current Hall signal adapter plate, and is output to the direct current insulation monitoring module through the leakage current Hall signal adapter plate.

In one embodiment, the device further comprises a plurality of metal plates;

the plurality of metal plates are respectively corresponding to the current Hall element, the leakage current Hall element, the output wiring terminal, the plurality of wire slots, the current Hall signal adapter plate and the leakage current Hall signal adapter plate and are used for providing carriers for the current Hall element, the leakage current Hall element, the output wiring terminal, the plurality of wire slots, the current Hall signal adapter plate and the leakage current Hall signal adapter plate, wherein the carriers are connected with the integrated power cabinet.

In one embodiment, the current hall element, the leakage current hall element and the output wiring terminal are fixed on the corresponding metal plate through a first connecting hole arranged on the current hall element, the leakage current hall element and the output wiring terminal;

the plurality of wire grooves, the current Hall signal adapter plate and the leakage current Hall signal adapter plate are respectively provided with a plurality of second connecting holes, and the plurality of wire grooves, the current Hall signal adapter plate and the leakage current Hall signal adapter plate are respectively fixed on corresponding metal plates through the plurality of second connecting holes.

In an embodiment, a plurality of third connecting holes are respectively formed in the plurality of metal plates, and the plurality of metal plates are fixed at corresponding positions in the integrated power cabinet through the plurality of third connecting holes.

Compared with the prior art, the embodiment of the utility model beneficial effect who exists is: the current Hall element, the leakage current Hall element, the output wiring terminal and the plurality of wire slots are respectively arranged at preset positions of the integrated power cabinet; strong current wires in the integrated power cabinet sequentially penetrate through the current Hall element and the leakage current Hall element and then are connected to the output wiring terminal; and weak current wires in the integrated power cabinet are output through the wire slots at the corresponding positions. The embodiment of the utility model provides a through arranging forceful electric power electric wire and light current electric wire separation for with strong and light current separation under the limited space of integration power cabinet, thereby can solve the problem that signal interference appears between a large amount of strong and light electric wires of integration power cabinet, and make power cabinet or external equipment's subsequent maintenance more convenient.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is a schematic structural diagram of a cable connection device of an integrated power cabinet according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a front view of a strong electric wire according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a side view of a strong electric wire according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a cable connection device of an integrated power cabinet according to another embodiment of the present invention.

Detailed Description

In the following description, for purposes of explanation and not limitation, specific details are set forth, such as particular system structures, techniques, etc. in order to provide a thorough understanding of the embodiments of the invention. It will be apparent, however, to one skilled in the art that the present invention may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, devices, circuits, and methods are omitted so as not to obscure the description of the present invention with unnecessary detail.

In order to explain the technical solution of the present invention, the following description is made by using specific examples.

Example one

As shown in fig. 1, an embodiment of the present invention provides a cable connection device of an integrated power cabinet, which may include a current hall element 1, a leakage current hall element 2, an output terminal 3, and a plurality of wire slots 4;

the current Hall element 1, the leakage current Hall element 2, the output wiring terminal 3 and the plurality of wire slots 4 are respectively arranged at preset positions of the integrated power cabinet;

strong electric wires in the integrated power cabinet sequentially penetrate through the current Hall element 1 and the leakage current Hall element 2 and then are connected to the output wiring terminal 3;

and weak current wires in the integrated power cabinet are output through the wire slots 4 at corresponding positions.

Above-mentioned cable connecting device of integration power cabinet arranges through separating forceful electric power electric wire and light current electric wire for with strong and light current separation under the limited space of integration power cabinet, thereby can solve the problem that signal interference appears between a large amount of strong and light electric wires of integration power cabinet, and make power cabinet or external equipment's subsequent maintenance more convenient.

Optionally, as shown in fig. 1, from right to left, the integrated power cabinet is provided with a current hall group 10, a leakage current hall group 20, and a terminal block 30, which are divided into three large areas. The current Hall element 1 is arranged at the upper end of a current Hall group 10 in the integrated power cabinet; the leakage current Hall element 2 is arranged at the upper end of a leakage current Hall group 20 in the integrated power cabinet; the output wiring terminal 3 is arranged at the upper end of a terminal block 30 of the integrated power cabinet;

the plurality of wire grooves 4 are respectively arranged on any side of the current Hall group, any side of the leakage current Hall group and any side of the terminal strip, and each wire groove in figure 1 comprises three wire grooves which are respectively arranged on the right side of the current Hall group, the right side of the leakage current Hall group and the right side of the terminal strip. It can be understood that the wire slots can also be arranged on the left side of the current hall group, the left side of the leakage current hall group and the left side of the terminal strip. In order to avoid the mutual influence of the arranged wire slots and reasonably utilize the space of the integrated power cabinet, the wire slots can be arranged on the same side of the current hall group, the leakage current hall group and the terminal strip, but in the embodiment, the wire slots are not limited to be arranged on the current hall group, the leakage current hall group and the terminal strip.

Optionally, as shown in the front connection view of the high-voltage electric wire in fig. 2 and the side view in fig. 3, a first high-voltage electric wire in the integrated power supply cabinet sequentially passes through the current hall element 1 and the leakage current hall element 2 and then is connected to the output connection terminal 3, and a second high-voltage electric wire in the integrated power supply cabinet passes through the upper end of the current hall element 1, then passes through the leakage current hall element 2, and is connected to the output connection terminal 3. Alternatively, the first strong current line may be a direct current output DC + line and the second strong current line may be a direct current output DC-line.

Optionally, as shown in fig. 4, the weak current wires in the integrated power supply cabinet may include a current hall signal line, a leakage current hall signal line, and an output voltage sampling line.

The current Hall signal wire is output through a first wire slot arranged at one side of the current Hall group, namely the wire slot arranged at one side of the current Hall group is used as the first wire slot;

and the leakage current Hall signal wire is output through a second wire slot arranged on one side of the leakage current Hall group, namely the wire slot arranged on one side of the leakage current Hall group is used as the second wire slot.

The output voltage sampling line is output through a third wire slot arranged on one side of the terminal strip, namely the wire slot arranged on one side of the terminal strip is used as the third wire slot.

Optionally, the cable connection device of the integrated power cabinet may further include a branch data monitoring module 5. And the branch data monitoring module 5 is used for monitoring signals transmitted by the output voltage sampling line and the current Hall signal line.

As shown in fig. 4, the branch data monitoring module 5 is disposed at the lower end of the terminal block; the output voltage sampling line is collected to the outlet of the third wire groove through the third wire groove and is connected with the branch data monitoring module 5.

Optionally, the cable connection device of the integrated power cabinet may further include a current hall signal adapter plate 6; the current Hall signal adapter plate 6 is used for switching a current Hall signal wire in the integrated power cabinet to the branch data monitoring module 5, so that the branch data monitoring module 5 can monitor.

As shown in fig. 4, the current hall signal adapter plate 6 is arranged at the lower end of the current hall group; the current Hall signal line is collected to the first line slot outlet through the first line slot, is connected with the current Hall signal adapter plate, and is output to the branch data monitoring module through the current Hall signal adapter plate.

Optionally, the cable connection device of the integrated power cabinet may further include a leakage current hall signal adapter plate 7; the leakage current Hall signal adapter plate 7 is used for switching out a leakage current Hall signal wire in the integrated power cabinet, for example, switching to a direct current insulation monitoring module.

As shown in fig. 4, the leakage current hall signal adapter plate 7 is arranged at the lower end of the leakage current hall group; the leakage current Hall signal wire is converged to the outlet of the second wire slot through the second wire slot to be connected with the leakage current Hall signal adapter plate, and is output to the direct current insulation monitoring module through the leakage current Hall signal adapter plate.

Optionally, it should be noted that, the branch data monitoring module 5, the current hall signal adapter plate 6 and the leakage current hall signal adapter plate 7 may also be disposed at other positions of the integrated power cabinet, in this embodiment, the branch data monitoring module 5, the current hall signal adapter plate 6 and the leakage current hall signal adapter plate 7 are respectively disposed at the lower end of the integrated power cabinet, so that the branch data monitoring module can be separated from the strong current electric wire, so that the strong current and the weak current do not interfere with each other, and the space of the integrated power cabinet can be reasonably utilized, so that the flat cable is clear, and the patch cord is convenient to connect.

Optionally, as shown in fig. 4, the cable connection device of the integrated power cabinet may further include a plurality of metal plates 8, and the plurality of metal plates 8 are independent of each other.

The plurality of metal plates 8 are respectively corresponding to the current hall element 1, the leakage current hall element 2, the output wiring terminal 3, the plurality of wire slots 4, the current hall signal adapter plate 6 and the leakage current hall signal adapter plate 7 and are used for respectively providing carriers for the current hall element 1, the leakage current hall element 2, the output wiring terminal 3, the plurality of wire slots 4, the current hall signal adapter plate 6 and the leakage current hall signal adapter plate 7, wherein the carriers are connected with the integrated power cabinet. Namely, the metal plate can be arranged at the positions corresponding to the current hall element 1, the leakage current hall element 2, the output wiring terminal 3, the plurality of wire slots 4, the current hall signal adapter plate 6 and the leakage current hall signal adapter plate 7.

Then respectively with electric current hall element 1, leak current hall element 2, output binding post 3, a plurality of wire casings 4, electric current hall signal keysets 6 and leak current hall signal keysets 7 set up on the panel beating that corresponds, like this when electric current hall element 1, leak current hall element 2, output binding post 3, a plurality of wire casings 4, electric current hall signal keysets 6 and leak current hall signal keysets 7 arbitrary component in break down, can directly take off as an independent module and maintain convenient and fast.

Optionally, the current hall element 1, the leakage current hall element 2, the output wiring terminal 3, the plurality of wire slots 4, the current hall signal adapter plate 6 and the leakage current hall signal adapter plate 7 may be arranged on corresponding metal plates, and then the plurality of metal plates are fixed on the integrated power cabinet.

Optionally, the current hall element 1, the leakage current hall element 2, and the output connection terminal 3 are fixed on the corresponding metal plate through first connection holes arranged on the current hall element 1, the leakage current hall element 2, and the output connection terminal 3;

a plurality of second connecting holes are formed in the wire grooves 4, the current Hall signal adapter plate 6 and the leakage current Hall signal adapter plate 7 respectively, and the wire grooves 4, the current Hall signal adapter plate 6 and the leakage current Hall signal adapter plate 7 are fixed on corresponding metal plates respectively through the second connecting holes. For example, four connection holes are respectively provided at four corners of the plurality of wire grooves 4, the current hall signal patch panel 6, and the leakage current hall signal patch panel 7.

Optionally, a plurality of third connecting holes are respectively formed in the plurality of metal plates, and the plurality of metal plates are fixed to corresponding positions in the integrated power cabinet through the plurality of third connecting holes. For example, four connecting holes are arranged at four corners of the metal plate.

Above-mentioned cable connecting device of integration power cabinet arranges the forceful electric power electric wire of integration power cabinet in the upper end of integration power cabinet through electric current hall element, leakage current hall element and output binding post, walks the line through a plurality of wire casings that correspond the setting with the light current electric wire of integration power cabinet, collects a large amount of hall signal lines respectively on the keysets of the correspondence of wire casing exit, and monitoring module is connected to the rethread keysets. In the embodiment, a large amount of strong and weak electricity in the integrated power cabinet is separated, so that interference is reduced; rationally arrange the wire rod in limited space for the wire rod return circuit is clear, and the segmentation is connected, and the assembly is more convenient, and assembly efficiency improves, reduces the time of seeking the problem greatly on the maintenance in later stage.

The above-mentioned embodiments are only used for illustrating the technical solution of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention.

Claims (10)

1. A cable connecting device of an integrated power supply cabinet is characterized by comprising: the current Hall element, the leakage current Hall element, the output wiring terminal and the plurality of wire slots are arranged on the base;

the current Hall element, the leakage current Hall element, the output wiring terminal and the plurality of wire slots are respectively arranged at preset positions of the integrated power cabinet;

strong current wires in the integrated power cabinet sequentially penetrate through the current Hall element and the leakage current Hall element and then are connected to the output wiring terminal;

and the weak current wires in the integrated power cabinet are output through the wire slots at the corresponding positions.

2. The cable connection device of the integrated power supply cabinet according to claim 1, wherein the current hall element is arranged at the upper end of the current hall group in the integrated power supply cabinet;

the leakage current Hall element is arranged at the upper end of a leakage current Hall group in the integrated power cabinet;

the output wiring terminal is arranged at the upper end of the terminal block of the integrated power cabinet;

the plurality of wire grooves are respectively arranged on any side of the current Hall group, any side of the leakage current Hall group and any side of the terminal strip.

3. The cable connection device of the integrated power cabinet as claimed in claim 2, wherein a first strong electric wire of the strong electric wires in the integrated power cabinet passes through the current hall element and the leakage current hall element in sequence and then is connected to the output terminal, and a second strong electric wire of the strong electric wires in the integrated power cabinet passes through the upper end of the current hall element and then passes through the leakage current hall element and then is connected to the output terminal.

4. The cable connection device of the integrated power cabinet as claimed in claim 2, wherein the weak current wires in the integrated power cabinet comprise a current hall signal line, a leakage current hall signal line and an output voltage sampling line;

the current Hall signal wire is output through a first wire slot arranged at one side of the current Hall group;

the leakage current Hall signal wire is output through a second wire slot arranged at one side of the leakage current Hall group;

and the output voltage sampling line is output through a third wire slot arranged on one side of the terminal row.

5. The cable connection device of the integrated power cabinet according to claim 4, further comprising a branch data monitoring module;

the branch data monitoring module is arranged at the lower end of the terminal block;

the output voltage sampling line is collected to the outlet of the third wire groove through the third wire groove and is connected with the branch data monitoring module.

6. The cable connection device of an integrated power supply cabinet according to claim 5, further comprising a current Hall signal adapter plate;

the current Hall signal adapter plate is arranged at the lower end of the current Hall group;

the current Hall signal line is collected to the first line slot outlet through the first line slot, is connected with the current Hall signal adapter plate, and is output to the branch data monitoring module through the current Hall signal adapter plate.

7. The cable connection device of an integrated power cabinet according to claim 6, further comprising a leakage current Hall signal adapter plate;

the leakage current Hall signal adapter plate is arranged at the lower end of the leakage current Hall group;

the leakage current Hall signal wire is converged to the outlet of the second wire slot through the second wire slot to be connected with the leakage current Hall signal adapter plate, and is output to the direct current insulation monitoring module through the leakage current Hall signal adapter plate.

8. The cable connection device of an integrated power cabinet according to claim 7, further comprising a plurality of metal plates;

the plurality of metal plates are respectively corresponding to the current Hall element, the leakage current Hall element, the output wiring terminal, the plurality of wire slots, the current Hall signal adapter plate and the leakage current Hall signal adapter plate and are used for providing carriers for the current Hall element, the leakage current Hall element, the output wiring terminal, the plurality of wire slots, the current Hall signal adapter plate and the leakage current Hall signal adapter plate, wherein the carriers are connected with the integrated power cabinet.

9. The cable connection device of the integrated power cabinet according to claim 8, wherein the current hall element, the leakage current hall element and the output connection terminal are fixed on the corresponding metal plates through first connection holes provided on the current hall element, the leakage current hall element and the output connection terminal;

the plurality of wire grooves, the current Hall signal adapter plate and the leakage current Hall signal adapter plate are respectively provided with a plurality of second connecting holes, and the plurality of wire grooves, the current Hall signal adapter plate and the leakage current Hall signal adapter plate are respectively fixed on corresponding metal plates through the plurality of second connecting holes.

10. The cable connection device of the integrated power cabinet according to claim 9, wherein a plurality of third connection holes are respectively formed in the plurality of metal plates, and the plurality of metal plates are fixed at corresponding positions in the integrated power cabinet through the plurality of third connection holes.

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