CN213403880U

CN213403880U - Extensible cabinet power distribution unit

Info

Publication number: CN213403880U
Application number: CN202022327747.1U
Authority: CN
Inventors: 姚伟军; 贾继伟; 黄林阳; 陈善民; 邵国栋
Original assignee: Zhejiang Post & Telecommunication Engineering Construction Co ltd
Current assignee: Zhejiang Post & Telecommunication Engineering Construction Co ltd
Priority date: 2020-09-18
Filing date: 2020-10-19
Publication date: 2021-06-08
Anticipated expiration: 2030-10-19
Also published as: CN112333970A; CN112333970B

Abstract

The utility model belongs to the communication equipment field, concretely relates to expanded rack power distribution unit, including end box, total input module, the spacing subassembly of a plurality of copper bars, copper bar and a plurality of expansion module, total input module cooperation is installed in end box, the spacing subassembly of copper bar is laid in end box, the copper bar is spacing and be connected with total input module electricity by the spacing subassembly of copper bar, in expansion module laid end box, every expansion module can be followed end box in individual plug, expansion module set up supply socket and be used for the plug spare of being connected with the copper bar electricity. The utility model discloses a modular design, extension module can increase and decrease as required, and the disappearance of arbitrary certain module does not influence the intercommunication of other extension module circuits.

Description

Extensible cabinet power distribution unit

Technical Field

The utility model belongs to the communication equipment field, concretely relates to expanded rack power distribution unit.

Background

At present, in the field of communication, most of socket assemblies of power distribution units for communication equipment are of an integral structure, so that when a certain socket in the socket assembly is damaged and needs to be replaced, the whole power distribution unit for the communication equipment needs to be powered off, and the normal operation of a cabinet is greatly influenced; moreover, since the socket assembly can only be replaced as a whole, a waste of resources is caused.

SUMMERY OF THE UTILITY MODEL

In order to compensate for the deficiencies of the prior art, the utility model provides a technical scheme of expanded rack power distribution unit.

The utility model provides an expanded rack power distribution unit, its characterized in that includes end box, total input module, the spacing subassembly of a plurality of copper bars, copper bar and a plurality of expansion module, total input module cooperation is installed in end box, the spacing subassembly of copper bar is laid in end box, the copper bar is spacing by the spacing subassembly of copper bar and is connected with total input module electricity, in expansion module laid end box, every expansion module can be followed in end box individual plug, expansion module sets up supply socket and is used for the plug spare of being connected with the copper bar electricity.

The expandable cabinet power distribution unit is characterized in that the bottom box is matched with the expansion module in a limiting and plugging manner through a concave-convex structure at least arranged on one side.

The concave-convex structure comprises a limiting guide rail and a guide rail groove, the limiting guide rail protrudes from the inner wall of the bottom box, the guide rail groove is formed in the expansion module, and the guide rail groove is used for being matched with the limiting guide rail correspondingly.

The power distribution unit of the expandable cabinet is characterized in that the copper bar limiting assembly comprises a first bottom cover fixedly mounted with the bottom box, a first guide piece and a top cover, wherein the first guide piece is mounted on the first bottom cover in a matched mode and used for limiting a copper bar, and the top cover is mounted on the first guide piece in a matched mode and located at the upper end of the copper bar.

The power distribution unit of the expandable cabinet is characterized in that the plugging piece comprises a second bottom cover fixedly installed with the expansion module, a second guide piece installed on the second bottom cover in a matched mode, and a conducting strip installed in the second guide piece in a matched mode and used for being in contact with a copper bar.

The expandable cabinet power distribution unit is characterized in that the first bottom cover and the second bottom cover have the same structure, and the first guide piece and the second guide piece have the same structure.

The expandable cabinet power distribution unit is characterized in that the first guide piece is provided with a limiting opening for the copper bar to penetrate and limit, and the conducting strip is provided with a clamping part for clamping with the copper bar.

The expandable cabinet power distribution unit is characterized in that the expansion module is further provided with one or more of a circuit breaker, a wire arranging piece, an indicator light and a handle.

The power distribution unit of the expandable cabinet is characterized in that when the expansion module in the bottom box is not full, a hollow panel can be installed at the hollow part of the bottom box in a matched mode.

The expandable cabinet power distribution unit is characterized in that the bottom box is also provided with a binding piece and an air switch fixing piece which is used for fixing an air switch of the main input module in a matching way; two ends of the bottom box are also provided with cabinet fixing pieces, and at least one cabinet fixing piece is provided with a wire inlet hole.

Compared with the prior art, the utility model discloses a modular design, extension module can increase and decrease as required, and the disappearance of certain arbitrary module does not influence the intercommunication of other extension module circuits.

Drawings

FIG. 1 is an exploded view of the present invention;

FIG. 2 is a schematic structural view of the middle bottom case of the present invention;

fig. 3 is a schematic structural diagram of the middle expansion module of the present invention;

FIG. 4 is a schematic structural view of the middle plug-in member of the present invention;

FIG. 5 is a schematic view of the structure of the middle conductive sheet of the present invention;

FIG. 6 is a schematic structural view of a copper bar limiting assembly of the present invention;

fig. 7 is a schematic view of a connection structure between the first guide member and the copper bar of the present invention;

fig. 8 is a schematic structural view of the plug guide assembly of the present invention;

fig. 9 is a schematic view of the structure of the fixing member of the middle cabinet of the present invention.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in the figure, an expanded rack power distribution unit, including end box 1, total input module 2, the spacing subassembly 3 of a plurality of copper bars, copper bar 4 and a plurality of expansion module 5, total input module 2 cooperation is installed in end box 1, the spacing subassembly 3 of copper bar is laid in end box 1, copper bar 4 has three, by spacing subassembly 3 spacing and be connected with total input module 2 electricity of copper bar, expansion module 5 is laid in end box 1, and every expansion module 5 can follow and independently plug in end box 1, and expansion module 5 sets up supply socket 6 and for the plug 7 of being connected with copper bar 4 electricity, and supply socket 6 sets up in expansion module 5's top, and plug 7 sets up in expansion module 5's bottom, is convenient for be connected with copper bar 4.

As an optimization: the bottom box 1 and the expansion module 5 are matched in a limiting and plugging mode through concave-convex structures arranged on two sides.

Furthermore, the concave-convex structure comprises a plurality of limiting guide rails 100 protruding from the inner walls of the two sides of the bottom case 1 and a plurality of guide rail grooves 500 arranged on the two sides of the expansion module 5, the limiting guide rails 100 are arranged along the length direction of the bottom case 1, and the guide rail grooves 500 are used for being correspondingly matched with the limiting guide rails 100. Wherein, the concave-convex structure arrangement mode of the two sides can be different, for example, one side is matched with the guide rail groove 500 through one limit guide rail 100, and the two sides are matched with the guide rail groove 500 through two limit guide rails 100.

As an optimization: the copper bar limiting assembly 3 comprises a first bottom cover 300 fixedly mounted with the bottom box 1, a first guide piece 301 mounted on the first bottom cover 300 in a matched mode and used for limiting the copper bar 4, and a top cover 302 mounted on the first guide piece 301 in a matched mode and covering the upper end of the copper bar 4. Wherein, the two sides of the top cover 302 and the two sides of the first guide 301 are clamped by a conventional snap structure. The first guiding element 301 has a limiting opening 3010 for inserting and limiting the copper bar 4.

As an optimization: the plug member 7 includes a second bottom cover 700 for fixedly mounting with the expansion module 5, a second guide member 701 fittingly mounted on the second bottom cover 700, and a conductive plate 702 fittingly mounted in the second guide member 701 for contacting with the copper bar 4. The conductive sheet 702 is a copper sheet, and the conductive sheet 702 has a clamping portion 7020 for clamping with the copper bar 4.

In the above structure, the first bottom cover 300 and the second bottom cover 700 are identical in structure and can be interchanged, and they are collectively called bottom covers, and the first guide 301 and the second guide 701 are identical in structure and can be interchanged, and they are collectively called guides. In fact, the bottom cover, the guide member, the conductive sheet 702 and the top cover 302 can be combined into a plug guide assembly as shown in fig. 8, which is more convenient for production, part replacement and part storage.

As an optimization: the expansion module 5 is also provided with a circuit breaker, a wire arranging piece 8, an indicator light 9 and a handle 10. The circuit breaker is preferably a fuse 16, and the expansion module 5 is provided with a cover 17 corresponding to the fuse. In addition, the circuit breaker may also employ an air switch.

As an optimization: work as when extension module 5 in the end box 1 is not full, the vacancy department of end box 1 can cooperate installation blank panel 11, the utility model provides a blank panel 11 and total input module 2's both sides have equally for corresponding complex guide rail groove structure with stop rail 100, and blank panel 11 and total input module 2's area is the same with extension module 5's area, the installation of blank panel 11 and total input module 2 of being convenient for.

As an optimization: the bottom box 1 is also provided with a binding wire piece 12 and an air switch fixing piece 13 which is used for fixing an air switch of the main input module 2 in a matching way; two ends of the bottom box 1 are further provided with cabinet fixing pieces 14, and at least one of the cabinet fixing pieces 14 is provided with a wire inlet hole 1400.

To the further explanation of the utility model:

1) the utility model discloses have three copper bars, directly put into the spacing mouth 3010 of first guide 301 to it is fixed with top cap 302.

2) The plug guide combination external member comprises a plug piece 7 and a copper bar limiting component which can be freely combined into a power-on plug piece.

3) The conductive plate 702 of the plug 7 may be connected with a wire and then be led out from the holes at both sides of the second bottom cover 700 of the plug 7.

4) The power socket 6 of the expansion module 5 is an anti-tripping power socket.

5) After the expansion module 5 is inserted into the bottom case 1, the conductive plate 702 on the expansion module 5 clamps the copper bar 4 on the bottom case 1 and is located in the middle area of the copper bar 4, and the contact is good.

6) The main input module 2, the expansion module 5 and the hollow panel 11 are provided with non-falling screws, so that the screws are prevented from falling off in the installation process, and the non-falling screws are fixed with the bottom box 1 after the main input module 2, the expansion module 4 and the hollow panel 11 are in place.

7) The main input module 2 is distributed at the top of the power distribution unit and comprises a main input air switch and a ground terminal; the expansion module 5 distributes in this power distribution unit's remaining part region, when expansion module 5 is not full, with empty panel 11 shutoff in vacancy, the utility model discloses insulating properties satisfies relevant electrical requirement.

8) The utility model is in a vertical state when being installed, the two ends of the utility model adopt the assembled cabinet fixing parts 14, and different styles are adopted according to different cabinets; the utility model discloses a last inlet wire mode leaves inlet wire hole 1400 in the 14 departments of rack mounting at top to the protective ring is installed.

9) The utility model discloses can regard as the AC distribution unit to use according to the needs of rack distribution, also can regard as the DC distribution unit to use.

10) The utility model discloses the power along separate routes sign 101 has all been made in the plug department that 1 both sides of box correspond expansion module 5 at the bottom.

11) The utility model adopts the modular design, the expansion module 5 can increase or decrease any module according to the requirement, and the deletion of any module does not influence the communication of the circuits of other expansion modules 5; the circuit phase of the plug-in piece 7 on the expansion module 5 is consistent with the circuit phase of the three copper bars 4 on the bottom box 1; the power socket 6 has an anti-trip device to prevent loosening and disconnection of the plug.

The utility model discloses an installation: 1, mounting a first guide 301 at the mounting position of each expansion module 5 to ensure the erection of the copper bar 4 and facilitate the mounting of the expansion module 5, wherein three copper bars 4 are positioned behind the first guide 301 and fixed with a main input space (or terminal) to communicate a circuit, after the copper bars 4 are positioned, a top cover 302 needs to be mounted on each first guide 301, and the top cover 302 and the first guide 301 are locked by buckles at two sides to fix the copper bars; the bottom box 1 and the expansion module 5 are assembled respectively, after the internal circuits are connected, the main input module 2 and the expansion module 5 are installed in the bottom box 1 along the guide rail, when the expansion module 5 is installed, the main input module and the expansion module 5 need to be pressed down forcibly to enable the modules to be inserted in place, and the inserting and pulling piece 7 clamps the copper bar; in the region of the back box 1 where the expansion module 5 is not mounted, an empty panel 11 is mounted.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled 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; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. An expandable cabinet power distribution unit, characterized by comprising a bottom box (1), a total input module (2), a plurality of copper bar limit components (3), a copper bar (4) and a plurality of expansion modules (5) , the total input module (2) is installed in the bottom box (1), the copper bar limiting assembly (3) is laid in the bottom box (1), and the copper bar (4) is limited by the copper bar limiting assembly (3) Limiting and electrically connecting with the main input module (2), the expansion modules (5) are laid in the bottom box (1), and each expansion module (5) can be individually plugged and unplugged from the bottom box (1). , the expansion module (5) is provided with a power socket (6) and a plug (7) for electrical connection with the copper bar (4).

2 . The power distribution unit of an expandable cabinet according to claim 1 , wherein the bottom box ( 1 ) and the expansion module ( 5 ) are plug-and-pulled through a concave-convex structure provided on at least one side. 3 .

3. An expandable cabinet power distribution unit according to claim 2, characterized in that the concave-convex structure comprises a limit guide rail (100) protruding from the inner wall of the bottom box (1) and a limit rail (100) disposed on the expansion module (5) ) of the guide rail groove (500), the guide rail groove (500) is used to match with the limit guide rail (100).

4. An expandable cabinet power distribution unit according to claim 1, characterized in that the copper bar limiting assembly (3) comprises a first bottom cover (300) for fixed installation with the bottom box (1) , a first guide (301) mounted on the first bottom cover (300) and used to limit the copper bar (4) and a first guide (301) mounted on the first guide (301) and located at the upper end of the copper bar (4) Top cover (302).

5. An expandable cabinet power distribution unit according to claim 4, characterized in that the plug (7) comprises a second bottom cover (700) for fixed installation with the expansion module (5), a matching A second guide piece (701) mounted on the second bottom cover (700) and a conductive sheet (702) fitted in the second guide piece (701) and used for contacting the copper bar (4).

6. An expandable cabinet power distribution unit according to claim 5, characterized in that the first bottom cover (300) and the second bottom cover (700) have the same structure, and the first guide member (301) is connected to the second bottom cover (700). The two guides (701) have the same structure.

7. An expandable cabinet power distribution unit according to claim 5, characterized in that the first guide member (301) has a limit opening (3010) for the copper bar (4) to be inserted and limited, The conductive sheet (702) has a clamping portion (7020) for being in contact with the copper bar (4).

8. An expandable cabinet power distribution unit according to any one of claims 1-7, characterized in that the expansion module (5) is further provided with a circuit breaker, a wire management member (8), and an indicator light (9) , one or more of the handles (10).

9. An expandable cabinet power distribution unit according to any one of claims 1-7, characterized in that when the expansion modules (5) in the bottom box (1) are not fully configured, the bottom box (1) ) to fit the blank panel (11).

10. An expandable cabinet power distribution unit according to any one of claims 1-7, characterized in that the bottom box (1) is also fitted with a cable tie (12) for fixing the total input module (2) The air switch fixing member (13) of the air switch; the two ends of the bottom box (1) are also provided with cabinet fixing members (14), and at least one of the cabinet fixing members (14) is provided with a wire inlet hole (1400). ).