CN209911414U - Distributed communication power supply storage battery grid-connected nuclear capacity cabinet - Google Patents

Abstract

The utility model discloses a distributed communication power supply battery nuclear capacity cabinet that is incorporated into power networks, include: the cabinet body is respectively connected with a side door plate, a front door plate, a first rear door plate and a second rear door plate; the cabinet body includes: the upper cross beam and the lower cross beam are arranged between the upper cross beam and the lower cross beam, and comprise a right front vertical rod, a left front vertical rod, a right rear vertical rod and a left rear vertical rod which are arranged between the upper cross beam and the lower cross beam, a first cross rod arranged between the left front vertical rod and the left rear vertical rod, and a second cross rod arranged between the right front vertical rod and the right rear vertical rod; be provided with mounting panel, third horizontal pole between first horizontal pole, the second horizontal pole, one side of mounting panel is provided with: a copper bar assembly, a fuse and a separator; a guide rail component is arranged between the mounting plate and the inner door plate. The utility model discloses an establish the cabinet body, side door board, preceding door plant, first back door plant, second back door plant into independent structure, but fast assembly and dismantlement improve the portability of installation.

Description

Distributed communication power supply storage battery grid-connected nuclear capacity cabinet

Technical Field

The utility model relates to a nuclear of being incorporated into the power networks holds the cabinet field, especially relates to a distributed communication power supply battery nuclear of being incorporated into the power networks holds cabinet.

Background

The power supply storage battery grid-connected nuclear capacity cabinet (aging test cabinet) is widely applied to the industries such as communication industry, power industry, electrolytic aluminum production workshop, laboratory and the like, and the existing power supply storage battery grid-connected nuclear capacity cabinet has the disadvantages of higher total capacity, various product capacities, decentralized and decentralized non-centralized control due to lower voltage and higher current, and causes certain difficulty for the overall test, aging and maintenance work of a power supply system. Meanwhile, the power supply storage battery grid-connected nuclear capacitor cabinet is complex in structure, complex in wiring mode, poor in heat dissipation performance and inconvenient to install and disassemble, and accordingly both the portability and the safety in the installation process are low.

Accordingly, the prior art is deficient and needs improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming prior art's not enough, provide a distributed communication power battery is incorporated into power networks nuclear and holds cabinet, solve power battery and be incorporated into power networks nuclear and hold cabinet because the structure is more complicated, walk the line mode complicated, the installation and dismantle inconveniently, and lead to the portability in the installation and the all lower problem of security.

The technical scheme of the utility model as follows: a distributed communication power supply storage battery grid-connected nuclear capacity cabinet comprises: the cabinet body is respectively connected with a side door plate, a front door plate, a first rear door plate and a second rear door plate; the first rear door panel, the second rear door panel and the front door panel are arranged on two sides of the cabinet body in parallel; the cabinet body includes: the device comprises an upper cross beam, a lower cross beam, a right front vertical rod, a left front vertical rod, a right rear vertical rod and a left rear vertical rod which are arranged between the upper cross beam and the lower cross beam, an upper base plate arranged on one side of the upper cross beam, a lower base plate arranged on one side of the lower cross beam, a first cross rod arranged between the left front vertical rod and the left rear vertical rod, and a second cross rod arranged between the right front vertical rod and the right rear vertical rod; be provided with interior door plant between right front montant, the left front montant, be provided with mounting panel, third horizontal pole between first horizontal pole, the second horizontal pole, one side of mounting panel is provided with: a copper bar assembly, a fuse and a separator; and a guide rail assembly is arranged between the mounting plate and the inner door plate. The cabinet body, the side door plate, the front door plate, the first rear door plate and the second rear door plate are independent structures and can be assembled and disassembled quickly; copper bar subassembly, fuse, separator and guide rail set up respectively in the both sides of mounting panel, each other do not influence, and personnel are when installation or certain position of maintenance, open the door plant of relevant position and can maintain, need not to open other door plants, guarantee maintenance process's security and portability.

Further, the rail assembly includes: a first guide rail and a second guide rail; the first guide rail and the second guide rail are of L-shaped structures, one side of a right-angle side of each L-shaped structure is bent towards the inner parallel and level, and through holes and counter bores are formed in the first guide rail and the second guide rail. The width of the right-angle side of the L-shaped structure is 25mm, and the width of the inward parallel and level bent part of the right-angle side of the L-shaped structure is 20 mm; the structure that the inboard parallel and level was bent is set up, easy to assemble and the pull-out of dismantlement process make dismantlement, maintenance more convenient.

Further, the copper bar assembly includes: the first copper bar, the second copper bar, the third copper bar, the fourth copper bar and the fifth copper bar; the fuse includes: a first fuse, a second fuse; first fuse, second fuse are all fixed on the mounting panel.

Furthermore, the first copper bar is arranged on one side of the first guide rail, and one end of the first copper bar is sequentially connected with the first fuse, the second copper bar, the shunt and the third copper bar; the fourth copper bar, the second fuse and the fifth copper bar are arranged on one side of the second guide rail, and the second fuse is arranged between the fourth copper bar and the fifth copper bar; and the third copper bar and the fifth copper bar are fixed on the third cross bar.

Further, a fixing plate is arranged on the third cross rod; the first guide rail and the second guide rail are fixed on the fixing plate through the counter bores.

Furthermore, insulators are arranged on one sides of the first copper bar, the second copper bar, the third copper bar, the fourth copper bar and the fifth copper bar; the third copper bar and the fifth copper bar are respectively provided with a first wiring hole and a second wiring hole; the first wiring hole with the parallel dislocation set of second wiring hole, first wiring hole with the distance in second wiring hole is 30 mm. First wiring hole, the parallel dislocation set in second wiring hole for walk the line simpler, required wire rod still less, reduction in production cost, simultaneously, reduce the work load that personnel settled in earlier stage.

Furthermore, two square openings are formed in the inner door panel, an upper side plate is arranged on one side of the inner door panel, square holes are formed in the upper side plate, heat dissipation holes are formed in the front door panel, the first rear door panel and the second rear door panel, and the heat dissipation holes in the front door panel are convex holes; the first rear door plate and the second rear door plate are arranged on one side of the mounting plate in parallel. Set up the louvre behind door plant, first back door plant, the second in the front, be favorable to the heat dissipation of each components and parts in the course of the work, effectively avoid the overheated incident of electric wire that the long-time work of machine causes.

Further, the length, the width and the height of the cabinet body are respectively as follows: 800mm, 600mm, 1400 mm; the length, width and height can be respectively expanded according to the proportion as follows: 600mm/1000mm, 800mm/1000mm, 1600mm/1800mm/2000mm/2200 mm.

By adopting the scheme, the utility model provides a distributed communication power supply battery is incorporated into power networks and is managed appearance cabinet, through setting up the cabinet body, side door plant, front door plant, first back door plant, second back door plant as independent structure, can assemble fast and dismantle; the copper bar assembly, the fuse, the separator and the guide rail assembly are respectively arranged on two sides of the mounting plate and are not mutually influenced, the first wiring hole and the second wiring hole are arranged in a parallel and staggered mode, wiring is simpler, fewer wires are required, production cost is reduced, meanwhile, when a person installs or maintains a certain position, the door plate at the corresponding position is opened for maintenance, other door plates do not need to be opened, and safety and portability of the maintenance process are guaranteed; set up the louvre, be favorable to the heat dissipation of each components and parts in the course of the work, effectively avoid the overheated incident of electric wire that the long-time work of machine causes, improve the security of course of the work.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the cabinet body of the present invention;

fig. 3 is a schematic structural diagram of the rear view angle of the present invention;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 3;

fig. 5 is a schematic structural view of a third copper bar of the present invention;

fig. 6 is a schematic structural view of the guide rail assembly of the present invention.

Wherein: the cabinet comprises a cabinet body 1, a side door panel 2, a front door panel 3, a first rear door panel 4, a second rear door panel 5, an upper base plate 6, a lower base plate 7, an upper cross beam 8, a lower cross beam 9, a right front vertical rod 10, a left front vertical rod 11, a right rear vertical rod 12, a left rear vertical rod 13, a first cross rod 14, a second cross rod 15, a third cross rod 16, an inner door panel 17, an upper side plate 18, a first guide rail 19, a second guide rail 20, a fixing plate 21, a mounting plate 22, a first copper bar 23, a second copper bar 24, a third copper bar 25, a fourth copper bar 26, a fifth copper bar 27, a first fuse 28, a second fuse 29, a shunt 30, an insulator 31, a first wiring hole 32, a second wiring hole 33, a through hole 34 and a countersunk hole 35.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1-6, the utility model provides a distributed communication power supply battery is incorporated into power networks nuclear capacity cabinet, includes: the cabinet comprises a cabinet body 1, a side door panel 2, a front door panel 3, a first rear door panel 4 and a second rear door panel 5 which are respectively connected with the cabinet body 1; the first rear door panel 4, the second rear door panel 5 and the front door panel 3 are arranged on two sides of the cabinet body 1 in parallel; the cabinet 1 includes: the structure comprises an upper cross beam 8, a lower cross beam 9, a right front vertical rod 10, a left front vertical rod 11, a right rear vertical rod 12 and a left rear vertical rod 13 which are arranged between the upper cross beam 8 and the lower cross beam 9, an upper base plate 6 arranged on one side of the upper cross beam 8, a lower base plate 7 arranged on one side of the lower cross beam 9, a first cross rod 14 arranged between the left front vertical rod 11 and the left rear vertical rod 13, and a second cross rod 15 arranged between the right front vertical rod 10 and the right rear vertical rod 12; be provided with interior door plant 17 between right front vertical rod 10, the left front vertical rod 11, be provided with mounting panel 22, third horizontal pole 16 between first horizontal pole 14, the second horizontal pole 15, one side of mounting panel 22 is provided with: a copper bar assembly, a fuse and a separator; a guide rail assembly is arranged between the mounting plate 22 and the inner door panel 17. The cabinet body 1, the side door panel 2, the front door panel 3, the first rear door panel 4 and the second rear door panel 5 are independent structures and can be assembled and disassembled quickly; copper bar subassembly, fuse, separator and guide rail set up respectively in the both sides of mounting panel 22, each other do not influence, and personnel are when installation or certain position of maintenance, open the door plant of relevant position and can maintain, need not to open other door plants, guarantee maintenance process's security and portability.

In this embodiment, the rail assembly includes: a first rail 19 and a second rail 20; first guide rail 19, second guide rail 20 are L type structure, and the right angle limit of L type structure one side is bent to inside parallel and level, be provided with through-hole 34, counter sink 35 on first guide rail 19, the second guide rail 20. The width of the right-angle side of the L-shaped structure is 25mm, and the width of the inward parallel and level bent part of the right-angle side of the L-shaped structure is 20 mm; the structure that the inboard parallel and level was bent is set up, easy to assemble and the pull-out of dismantlement process make dismantlement, maintenance more convenient.

The copper bar subassembly includes: a first copper bar 23, a second copper bar 24, a third copper bar 25, a fourth copper bar 26 and a fifth copper bar 27; the fuse includes: first fuse 28, second fuse 29; the first fuse 28 and the second fuse 29 are fixed to the mounting plate 22.

Referring to fig. 3, the first copper bar 23 is disposed on one side of the first guide rail 19, and one end of the first copper bar 23 is sequentially connected to the first fuse 28, the second copper bar 24, the shunt 30, and the third copper bar 25; the fourth copper bar 26, the second fuse 29 and the fifth copper bar 27 are all arranged on one side of the second guide rail 20, and the second fuse 29 is arranged between the fourth copper bar 26 and the fifth copper bar 27; the third copper bar 25 and the fifth copper bar 27 are fixed on the third cross bar 16.

A fixing plate 21 is arranged on the third cross bar 16; the first guide rail 19 and the second guide rail 20 are fixed on the fixing plate 21 through the counter bores 35.

Referring to fig. 4 and 5, insulators 31 are disposed on one sides of the first copper bar 23, the second copper bar 24, the third copper bar 25, the fourth copper bar 26, and the fifth copper bar 27; the third copper bar 25 and the fifth copper bar 27 are respectively provided with a first wiring hole 32 and a second wiring hole 33; the first wiring hole 32 and the second wiring hole 33 are arranged in a parallel staggered mode, and the distance between the first wiring hole 32 and the second wiring hole 33 is 30 mm. First wiring hole 32, the parallel dislocation set of second wiring hole 33 for walk the line simpler, required wire rod is still less, reduction in production cost, simultaneously, reduces the work load that personnel settled earlier stage.

The inner door panel 17 is provided with two square openings, one side of the inner door panel 17 is provided with an upper side plate 18, the upper side plate 18 is provided with a square hole, the front door panel 3, the first rear door panel 4 and the second rear door panel 5 are all provided with heat dissipation holes, and the heat dissipation holes in the front door panel 3 are convex holes; the first rear door panel 4 and the second rear door panel 5 are arranged in parallel on one side of the mounting plate 22. Set up the louvre behind door plant 3, first back door plant 4, the second in the front, be favorable to the heat dissipation of each components and parts in the course of the work, effectively avoid the overheated incident of electric wire that the long-time work of machine causes.

The length, the width and the height of the cabinet body 1 are respectively as follows: 800mm, 600mm, 1400 mm; the length, width and height can be respectively expanded according to the proportion as follows: 600mm/1000mm, 800mm/1000mm, 1600mm/1800mm/2000mm/2200 mm.

To sum up, the utility model provides a distributed communication power storage battery grid-connected nuclear capacity cabinet, which can be assembled and disassembled quickly by arranging the cabinet body, the side door plate, the front door plate, the first rear door plate and the second rear door plate as independent structures; the copper bar assembly, the fuse, the separator and the guide rail assembly are respectively arranged on two sides of the mounting plate and are not mutually influenced, the first wiring hole and the second wiring hole are arranged in a parallel and staggered mode, wiring is simpler, fewer wires are required, production cost is reduced, meanwhile, when a person installs or maintains a certain position, the door plate at the corresponding position is opened for maintenance, other door plates do not need to be opened, and safety and portability of the maintenance process are guaranteed; set up the louvre, be favorable to the heat dissipation of each components and parts in the course of the work, effectively avoid the overheated incident of electric wire that the long-time work of machine causes, improve the security of course of the work.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. The utility model provides a distributed communication power supply battery nuclear capacity cabinet that is incorporated into power networks which characterized in that includes: the cabinet body is respectively connected with a side door plate, a front door plate, a first rear door plate and a second rear door plate; the first rear door panel, the second rear door panel and the front door panel are arranged on two sides of the cabinet body in parallel; the cabinet body includes: the device comprises an upper cross beam, a lower cross beam, a right front vertical rod, a left front vertical rod, a right rear vertical rod and a left rear vertical rod which are arranged between the upper cross beam and the lower cross beam, an upper base plate arranged on one side of the upper cross beam, a lower base plate arranged on one side of the lower cross beam, a first cross rod arranged between the left front vertical rod and the left rear vertical rod, and a second cross rod arranged between the right front vertical rod and the right rear vertical rod; be provided with interior door plant between right front montant, the left front montant, be provided with mounting panel, third horizontal pole between first horizontal pole, the second horizontal pole, one side of mounting panel is provided with: a copper bar assembly, a fuse and a separator; and a guide rail assembly is arranged between the mounting plate and the inner door plate.

2. The distributed communication power supply storage battery grid-connected nuclear capacity cabinet as claimed in claim 1, wherein the guide rail assembly comprises: a first guide rail and a second guide rail; the first guide rail and the second guide rail are of L-shaped structures, one side of a right-angle side of each L-shaped structure is bent towards the inner parallel and level, and through holes and counter bores are formed in the first guide rail and the second guide rail.

3. The distributed communication power supply storage battery grid-connected nuclear capacity cabinet as claimed in claim 2, wherein the copper bar assembly comprises: the first copper bar, the second copper bar, the third copper bar, the fourth copper bar and the fifth copper bar; the fuse includes: a first fuse, a second fuse; first fuse, second fuse are all fixed on the mounting panel.

4. The distributed communication power supply storage battery grid-connected nuclear capacity cabinet as claimed in claim 3, wherein the first copper bar is arranged on one side of the first guide rail, and one end of the first copper bar is sequentially connected with a first fuse, a second copper bar, a shunt and a third copper bar; the fourth copper bar, the second fuse and the fifth copper bar are arranged on one side of the second guide rail, and the second fuse is arranged between the fourth copper bar and the fifth copper bar; and the third copper bar and the fifth copper bar are fixed on the third cross bar.

5. The distributed communication power supply storage battery grid-connected nuclear capacity cabinet as claimed in claim 2, wherein a fixing plate is arranged on the third cross bar; the first guide rail and the second guide rail are fixed on the fixing plate through the counter bores.

6. The distributed communication power supply storage battery grid-connected nuclear power cabinet according to claim 3, wherein insulators are arranged on one sides of the first copper bar, the second copper bar, the third copper bar, the fourth copper bar and the fifth copper bar; the third copper bar and the fifth copper bar are respectively provided with a first wiring hole and a second wiring hole; the first wiring hole with the parallel dislocation set of second wiring hole, first wiring hole with the distance in second wiring hole is 30 mm.

7. The distributed communication power supply storage battery grid-connected nuclear capacity cabinet as claimed in claim 1, wherein two square openings are arranged on the inner door panel, an upper side plate is arranged on one side of the inner door panel, square holes are arranged on the upper side plate, heat dissipation holes are arranged on the front door panel, the first rear door panel and the second rear door panel, and the heat dissipation holes on the front door panel are convex holes; the first rear door plate and the second rear door plate are arranged on one side of the mounting plate in parallel.

8. The distributed communication power supply storage battery grid-connected nuclear capacity cabinet as claimed in claim 1, wherein the length, width and height of the cabinet body are respectively as follows: 800mm, 600mm, 1400 mm; the length, width and height can be respectively expanded according to the proportion as follows: 600mm/1000mm, 800mm/1000mm, 1600mm/1800mm/2000mm/2200 mm.

Images