CN220021674U - Plug-in communication type data center track bus duct and plug-in box plug-in connector thereof - Google Patents

Abstract

The utility model discloses a bus duct of a plug-in communication type data center track and a plug-in box plug connector thereof, which comprise a plug-in box and a bus duct section bar with a cavity, wherein the plug-in end of the plug-in box is provided with power taking heads capable of deforming in a linear array manner, and elastic sheets capable of deforming are arranged at the same linear position of the plug-in end of the plug-in box and the power taking heads so as to facilitate the completion of current conduction action through contact; the ABCN main bus bar is in a convex shape, two ABCN main buses form a group, and the convex surfaces of each group of two ABCN main bus bars are oppositely arranged; the ABCN main bus bar group is arranged in the bus duct section cavity in a linear array mode, the whole device is communicated in a plugging communication mode, operation is simple, connection with the ABCN main bus bar and the PE main bus bar in mutual contact is relatively stable by means of deformation, and therefore the whole device can be widely applied to bus ducts and plug-in box plug-in connectors.

Description

Plug-in communication type data center track bus duct and plug-in box plug-in connector thereof

Technical Field

The utility model relates to a plugging communication type data center track bus duct and a plugging box plug connector thereof.

Background

In data center construction, a large number of bus ducts are required for centralized power transmission, wherein the jack box is one of important parts communicated with the outside.

The bus duct in the data center can generally adopt the orbital bus duct, and orbital bus duct is when installing the jack box, generally needs to insert the less one side of jack box plug width in the track earlier, waits to insert the back of finishing, with the help of rotating, links to each other the plug conductive part with the interior main bus of guide tracked bus duct, is fixing it with the help of fixed establishment, and its overall operation is comparatively loaded down with trivial details to very easily cause the damage to the jack head because of artificial error at pivoted in-process, thereby form certain potential safety hazard.

Therefore, there is a need for a data center track bus duct and plug thereof that can achieve plug-in connections without requiring a large number of cumbersome operations.

Disclosure of Invention

The utility model aims to provide a plug-in connection type data center track bus duct and a plug-in box plug-in connector thereof, so as to solve the problems in the background technology.

In order to solve the technical problems, the utility model provides the following technical scheme: including jack box and be bus duct section bar of cavity, its characterized in that: the electric power taking device comprises an electric power taking device, a power taking device and an electric power taking device, wherein the electric power taking device is characterized in that the plugging end of the plug box is provided with deformable power taking heads in a linear array, and elastic pieces capable of being deformed are arranged at the same linear position of the plugging end of the plug box and the power taking heads so as to facilitate the completion of current conduction action through contact;

the ABCN main bus bar is in a convex shape, two ABCN main buses form a group, and the convex surfaces of each group of two ABCN main bus bars are oppositely arranged;

the ABCN main busbar group is arranged in a linear array in the bus duct section cavity, a PE main busbar is arranged in the bus duct section cavity, the PE main busbar is in a convex shape, and a space is formed between the convex surface of the PE main busbar and the side wall of the bus duct section cavity;

the power taking head can be inserted into the ABCN main busbar group, and the elastic sheet can be inserted into a space formed by the PE main busbar convex surface and the side wall of the busway section cavity so as to complete the circuit communication action.

Preferably, a plurality of wrapping type insulating sheaths are arranged at the top end position in the bus duct section cavity in a linear array, and the ABCN main busbar is arranged on the wrapping type insulating sheaths, a C-shaped insulating sheath is arranged at the top end position in the bus duct section cavity, and the PE main busbar is arranged on the C-shaped insulating sheath.

Preferably, the jack box plug end is provided with electricity taking seats in a linear array, electricity taking heads are symmetrically arranged on the electricity taking seats, the jack box plug end is provided with pins, and the elastic sheets are arranged on the pins.

Preferably, end plastic parts are arranged on the left side and the right side of the surface of the bus duct section.

Preferably, the ABCN main busbar and the PE main busbar are arranged on the peripheral side of the cavity of the end plastic part, and are provided with main busbar clamping blocks.

Preferably, the bottom surface of the bus duct section bar is provided with a dustproof protection plate.

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

when the novel electric power socket is used, the dustproof protection plate is firstly cut into holes with preset sizes at designated places of the bus duct section, the electric power pick-up heads on the jack boxes are aligned with gaps in the ABCN main bus bar groups and are inserted inwards, the electric power pick-up heads are extruded by the convex faces of the ABCN main bus bar in the inserting process, so that the electric power pick-up heads are forced to deform and then are attached to the convex faces of the ABCN main bus bar, the elastic sheets are deformed under the extrusion action of the inner walls of the cavity of the bus duct section and the PE main bus bar, the surfaces of the PE main bus bar are attached to each other, the passages are completed, after the jack boxes and the bus duct section are connected together by means of the external fixing mechanism, the novel electric power socket is installed, the novel electric power socket is communicated in a plugging communicating mode, and is simple to operate, and the connection of the novel electric power socket is relatively stable by means of mutual contact of deformation and the ABCN main bus bar and the PE main bus bar, and the novel electric power socket connector can be widely applied to the bus duct.

Drawings

FIG. 1 is a schematic diagram of an ABCN main bus and a PE main bus and their surface structures according to an embodiment of the utility model;

FIG. 2 is a schematic side view of a bus duct section bar according to an embodiment of the present utility model;

FIG. 3 is an exploded view of a busway profile according to an embodiment of the present utility model;

fig. 4 is a schematic sectional view of a bus duct section according to an embodiment of the present utility model.

In the figure: 1. a jack box; 2. a power taking seat; 3. taking an electric head; 4. pins; 5. an elastic sheet; 6. bus duct section bar; 7. a wrapped insulating sheath; 8. c-shaped insulating sheath; 9. ABCN master bus bar; 10. PE main busbar; 11. an end plastic piece; 12. a dust-proof protection plate; 13. and the main busbar clamping blocks.

Detailed Description

In order to solve the problem, the embodiment of the utility model provides a track bus duct of a plug-in communication type data center and a plug-in box plug-in connector thereof. 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. 1-3, the present embodiment provides a bus duct of a plugging communication type data center and a plugging box plug thereof, including a plugging box 1 and a bus duct section 6 which is a cavity, and is characterized in that: the electric power taking device is characterized in that the plugging end of the plug box 1 is provided with deformable electric power taking heads 3 in a linear array, and elastic pieces 5 capable of deforming are arranged at the same linear position of the plugging end of the plug box 1 and the electric power taking heads 3 so as to facilitate the completion of current conduction action through contact;

the ABCN master bus 9 is in a convex shape, two ABCN master buses form a group, and the convex surfaces of the two ABCN master buses 9 in each group are oppositely arranged;

the ABCN main bus bar 9 groups are arranged in a cavity of the bus duct section bar 6 in a linear array, a PE main bus bar 10 is arranged in the cavity of the bus duct section bar 6, the PE main bus bar 10 is in a convex shape, and a space is formed between the convex surface of the PE main bus bar 10 and the side wall of the cavity of the bus duct section bar 6;

the electricity taking head 3 can be inserted into the ABCN main busbar 9 group, and the elastic piece 5 can be inserted into a space formed by the convex surface of the PE main busbar 10 and the side wall of the cavity of the bus duct section bar 6, so that the circuit communication action is completed.

Specifically, a plurality of wrapping type insulating sheaths 7 are arranged at the top end position in the cavity of the bus duct section bar 6 in a linear array, an ABCN main busbar 9 is arranged on the wrapping type insulating sheaths 7, a C-shaped insulating sheath 8 is arranged at the top end position in the cavity of the bus duct section bar 6, and a PE main busbar 10 is arranged on the C-shaped insulating sheath 8; the ABCN main busbar 9 is connected to the busway profile 6 by means of the wrap-around insulating sheath 7 and the PE main busbar 10 is connected to the busway profile 6 by means of the C-shaped insulating sheath 8.

Specifically, the plugging end of the plug box 1 is provided with a power taking seat 2 in a linear array, power taking heads 3 are symmetrically arranged on the power taking seat 2, the plugging end of the plug box 1 is provided with pins 4, and elastic sheets 5 are arranged on the pins 4; the electricity taking seat 2 is used for bearing the electricity taking head 3 and connecting the electricity taking head 3 with the plug box 1, and the pins 4 are used for bearing the elastic piece 5 and connecting the electricity taking head 3 with the plug box 1.

Specifically, end plastic parts 11 are arranged on the left side and the right side of the surface of the bus duct section bar 6; the two ends of the bus duct section bar 6 are plugged by the end plastic parts 11, so that impurities such as dust and the like are isolated, a relatively stable environment is formed inside the bus duct section bar 6, and the main bus bar clamping blocks 13 are blocked from moving.

Specifically, the main busbar clamping blocks 13 are arranged on the outer peripheral side of the cavity of the end plastic piece 11, where the ABCN main busbar 9 and the PE main busbar 10 are located; the ABCN main busbar 9 and the PE main busbar 10 are clamped by the main busbar clamping blocks 13, and are prevented from moving.

Specifically, the bottom surface of the bus duct section bar 6 is provided with a dustproof protection plate 12; by means of the dustproof protection plate 12, impurities such as dust cannot enter the cavity from the notch of the bus duct section bar 6, and the internal running environment is ensured.

When in use, the utility model is characterized in that:

when the novel electric power socket is used, the dustproof protection plate 12 is firstly cut at a designated place to form a hole with a preset size, the electric power pick-up head 3 on the plug-in box 1 is aligned with a gap in the ABCN main busbar 9 group and is inserted inwards, in the inserting process, the convex surface of the ABCN main busbar 9 can extrude the electric power pick-up head 3 so as to force the electric power pick-up head to deform, and then the electric power pick-up head is attached to the convex surface of the ABCN main busbar 9, and in the same way, the elastic sheet 5 is deformed under the extrusion action of the inner wall of the bus duct section cavity and the PE main busbar 10 so as to be attached to the surface of the PE main busbar 10, a passage is completed, and after the insertion is completed, the plug-in box 1 and the bus duct section 6 are connected together by an external fixing mechanism so as to complete the installation

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a grafting intercommunication formula data center track bus duct and jack box bayonet joint thereof, is bus duct section bar (6) of cavity, its characterized in that including jack box (1) and inside: the electric power taking device is characterized in that the plugging end of the plug box (1) is provided with power taking heads (3) capable of deforming in a linear array, and elastic sheets (5) capable of deforming are arranged at the same linear position of the plugging end of the plug box (1) and the power taking heads (3) so as to facilitate the completion of current conduction action through contact;

the ABCN main bus bar (9) is in a convex shape, two ABCN main buses form a group, and the convex surfaces of each group of two ABCN main bus bars (9) are oppositely arranged;

the ABCN main bus bar (9) group is arranged in a cavity of the bus duct section bar (6) in a linear array, a PE main bus bar (10) is arranged in the cavity of the bus duct section bar (6), the PE main bus bar (10) is in a convex shape, and a space is formed between a convex surface of the PE main bus bar (10) and the side wall of the cavity of the bus duct section bar (6);

the power taking head (3) can be inserted into the ABCN main busbar (9) group, and the elastic piece (5) can be inserted into a space formed by the convex surface of the PE main busbar (10) and the side wall of the cavity of the bus duct section bar (6) so as to complete the circuit communication action.

2. The plug-in communication type data center track bus duct and plug-in box plug thereof according to claim 1, wherein: the bus duct section bar (6) is characterized in that a plurality of wrapping type insulating sheaths (7) are arranged at the top end position in the cavity of the bus duct section bar (6) in a linear array mode, an ABCN main busbar (9) is arranged on the wrapping type insulating sheaths (7), a C-shaped insulating sheath (8) is arranged at the top end position in the cavity of the bus duct section bar (6), and a PE main busbar (10) is arranged on the C-shaped insulating sheath (8).

3. The plug-in communication type data center track bus duct and plug-in box plug thereof according to claim 1, wherein: the electric power supply device is characterized in that the electric power supply seat (2) is arranged at the plugging end of the plug box (1) in a linear array, the electric power supply heads (3) are symmetrically arranged on the electric power supply seat (2), the plug end of the plug box (1) is provided with the pins (4), and the elastic sheets (5) are arranged on the pins (4).

4. The plug-in communication type data center track bus duct and plug-in box plug thereof according to claim 1, wherein: the left side and the right side of the surface of the bus duct section bar (6) are respectively provided with an end plastic part (11).

5. The plug-in communication type data center track bus duct and plug-in box plug thereof according to claim 4, wherein: the ABCN main busbar (9) and the PE main busbar (10) are positioned on the outer peripheral side of the cavity of the end plastic piece (11), and a main busbar clamping block (13) is arranged.

6. The plug-in communication type data center track bus duct and plug-in box plug thereof according to claim 1, wherein: the bottom surface of the bus duct section bar (6) is provided with a dustproof protection plate (12).