阅读说明：本技术 一种适用于数据中心机房配电的密集型母线槽 (Intensive bus duct suitable for power distribution of data center machine room ) 是由 崔兵 潘峰 欧荣辉 于 2021-08-24 设计创作，主要内容包括：本发明涉及密集型母线槽技术领域,且公开了一种适用于数据中心机房配电的密集型母线槽,包括外壳、散热机构和组装机构,所述外壳上方安装有散热机构,所述散热机构包括散热片、支撑板、固定螺栓、防尘网、连接卡块和连接卡槽,所述散热片设置在外壳的上方,所述散热片的两端均设置有支撑板。该适用于数据中心机房配电的密集型母线槽,通过组装机构、组装槽和组装块的结构设计,实现了对该密集型母线槽提供一个快速拆卸安装的功能,解决了该密集型母线槽产生故障需要更换时,需要花费大量时间来进行拆卸更换安装,不能够满足快速拆卸安装的需求,给现场安装施工带来了诸多不便的问题,为该密集型母线槽的拆装效果提供了更好的保障。(The invention relates to the technical field of intensive bus ducts, and discloses an intensive bus duct suitable for power distribution of a data center machine room. This intensive bus duct suitable for distribution of data center computer lab, through equipment mechanism, the structural design of equipment groove and equipment piece, realized providing the function of a quick dismantlement installation to this intensive bus duct, when having solved this intensive bus duct and producing the trouble and need changing, need spend a large amount of time to dismantle the change installation, can not satisfy the demand of quick dismantlement installation, brought a great deal of inconvenient problem for the on-the-spot erection and construction, the dismouting effect for this intensive bus duct provides better guarantee.)

1. The utility model provides an intensive bus duct suitable for distribution of data center computer lab, includes shell (1), heat dissipation mechanism (2) and equipment mechanism (3), its characterized in that: heat dissipation mechanism (2) is installed to shell (1) top, heat dissipation mechanism (2) includes fin (201), backup pad (202), fixing bolt (203), dust screen (204), connects fixture block (205) and connecting slot (206), fin (201) set up the top in shell (1), the both ends of fin (201) all are provided with backup pad (202), all be fixed with a plurality of fixing bolt (203) on backup pad (202), dust screen (204) set up at fin (201) inboardly, the both ends of dust screen (204) all are provided with and connect fixture block (205), connecting slot (206) have been seted up to one side of connecting fixture block (205), equipment mechanism (3) set up the below in shell (1), equipment mechanism (3) are including equipment groove (301), spacing hole (302), equipment piece (303), The assembling device comprises a limiting block (304), a reset spring (305) and a connecting seat (306), wherein an assembling groove (301) is arranged below a shell (1), limiting holes (302) are formed in two sides of the assembling groove (301), an assembling block (303) is arranged below the assembling groove (301), the limiting block (304) is arranged on two sides of the assembling block (303), one end of the limiting block (304) is connected with the reset spring (305), and the other end of the reset spring (305) is connected with the connecting seat (306);

the bottom plate (4) is welded below the assembly block (303), hinges (5) are arranged at two ends of the bottom plate (4), one end of each hinge (5) is connected with an installation fixing plate (6), a plurality of threaded holes (7) are formed in the installation fixing plate (6), the rubber pads (8) are installed below the installation fixing plate (6), a plurality of first screw rods (9) are fixed on the inner side of the installation fixing plate (6), the connecting plate (10) is arranged at one end of the assembly groove (301), a protective isolation plate (11) is arranged above the connecting plate (10), a bakelite pad (12) is installed on the surface of the protective isolation plate (11), a fixing piece (13) is fixed on one side of the bakelite pad (12), the splicing fixture block (14) is arranged at one end of the shell (1), and the splicing clamping groove (15) is arranged at the other end of the shell (1), the sealing ring (16) is arranged on the inner side of the shell (1), and a plurality of second screw rods (17) are fixed on the sealing ring (16).

2. The dense bus duct suitable for power distribution of a data center room of claim 1, wherein: the radiating fins (201) are in threaded connection with the shell (1) through fixing bolts (203), and the supporting plates (202) are arranged in a mode of being symmetrical to the vertical middle axis of the radiating fins (201).

3. The dense bus duct suitable for power distribution of a data center room of claim 1, wherein: the dustproof net (204) is clamped and connected with the radiating fin (201) through a connecting clamping block (205), and the connecting clamping block (205) is arranged by a vertical middle axis symmetry axis of the radiating fin (201).

4. The dense bus duct suitable for power distribution of a data center room of claim 1, wherein: the assembling groove (301) is connected with the bottom plate (4) in a clamping mode through assembling blocks (303), and the assembling blocks (303) are vertically distributed with the bottom plate (4).

5. The dense bus duct suitable for power distribution of a data center room of claim 1, wherein: the limiting block (304), the return spring (305) and the connecting seat (306) form a telescopic structure, and the return spring (305) and the connecting seat (306) are vertically distributed.

6. The dense bus duct suitable for power distribution of a data center room of claim 1, wherein: the installation fixing plate (6) is movably connected with the bottom plate (4) through a hinge (5), and the hinge (5) is arranged by a vertical middle axis symmetry axis of the bottom plate (4).

7. The dense bus duct suitable for power distribution of a data center room of claim 1, wherein: rubber pad (8) are through first screw rod (9) and installation fixed plate (6) swing joint, and first screw rod (9) are the equidistant distribution on installation fixed plate (6).

8. The dense bus duct suitable for power distribution of a data center room of claim 1, wherein: the bakelite pad (12) is movably connected with the protective isolation plate (11) through a fixing piece (13), and the threaded holes (7) are distributed at equal intervals on the installation fixing plate (6).

9. The dense bus duct suitable for power distribution of a data center room of claim 1, wherein: the splicing fixture block (14) is clamped and connected with the shell (1) through a splicing clamping groove (15), and the size of the splicing fixture block (14) is identical with that of the splicing clamping groove (15).

10. The dense bus duct suitable for power distribution of a data center room of claim 1, wherein: the sealing ring (16) is movably connected with the shell (1) through a second screw rod (17), and the second screw rods (17) are distributed on the shell (1) at equal intervals.

Technical Field

The invention relates to the technical field of intensive bus ducts, in particular to an intensive bus duct suitable for power distribution of a data center machine room.

Background

The bus duct is a closed metal device consisting of copper and aluminum bus posts, is used for distributing larger power for each element of a decentralized system, has increasingly replaced electric wires and cables in indoor low-voltage power transmission main line engineering projects, is popularized in developed countries abroad, hong Kong, Australia and the like in China, and is used for outgoing lines of more than twelve building power distribution rooms in Guangdong Guangzhou of China, namely, the bus duct is used for more than ninety percent of main lines leading to floors; bus ducts are used in 630KVA transformers to power distribution cabinets, and are now indispensable for electrical equipment and power systems in high-rise buildings, factories, and the like. Because of the wide establishment of other data centers such as data center machine rooms, the position of the data center machine room is in the core area of a building and also needs electric power for supporting, and the demand tends to increase year by year, the original circuit wiring mode, namely a pipe penetrating mode, is used, a lot of difficulties are brought to construction, and when a power distribution system needs to be changed, the simplicity of the power distribution system is almost impossible, however, if a bus duct is adopted, the purpose can be achieved very easily, in addition, a power distribution room of the data center machine room can be more attractive, and the types of the bus ducts are various, such as a dense bus duct.

The intensive bus duct is suitable for alternating-current three-phase four-wire and three-phase five-wire systems, is used as auxiliary equipment of power supply and distribution equipment in industrial and mining, enterprises and high-rise buildings, is particularly suitable for the transformation of workshops and old enterprises and the power distribution of a data center machine room located in a core area, and therefore the intensive bus duct suitable for the power distribution of the data center machine room is needed.

The effect of most of dismouting of current intensive bus duct is not good, when this intensive bus duct produced the trouble and need be changed during operation, need spend a large amount of time to dismantle the change installation, can not satisfy the demand of quick dismantlement installation, brought a great deal of inconvenience for the on-the-spot erection and construction to reduce work efficiency, so need improve it.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an intensive bus duct suitable for power distribution of a data center machine room, which has the advantages of being fast to assemble and disassemble and the like, and solves the problems that when the intensive bus duct breaks down and needs to be replaced during working, a large amount of time is needed for disassembly, replacement and installation, the requirement for fast disassembly and installation cannot be met, and inconvenience is brought to field installation and construction.

(II) technical scheme

In order to achieve the purpose of quick assembly and disassembly, the invention provides the following technical scheme: an intensive bus duct suitable for power distribution of a data center machine room comprises a shell, a heat dissipation mechanism and an assembling mechanism, wherein the heat dissipation mechanism is installed above the shell and comprises a heat dissipation sheet, a support plate, fixing bolts, a dustproof net, a connecting clamping block and a connecting clamping groove, the heat dissipation sheet is arranged above the shell, the support plate is arranged at each end of the heat dissipation sheet, a plurality of fixing bolts are fixed on the support plate, the dustproof net is arranged on the inner side of the heat dissipation sheet, the connecting clamping block is arranged at each end of the dustproof net, the connecting clamping groove is formed in one side of the connecting clamping block, the assembling mechanism is arranged below the shell and comprises an assembling groove, limiting holes, an assembling block, a limiting block, a reset spring and a connecting seat, the assembling groove is arranged below the shell, the limiting holes are formed in each of the two sides of the assembling groove, the assembling block is arranged below the assembling groove, limiting blocks are arranged on two sides of the assembling block, one end of each limiting block is connected with a return spring, and the other end of each return spring is connected with a connecting seat.

The utility model discloses a rubber gasket, including bottom plate, installation fixed plate, connecting plate, rubber pad, concatenation draw-in groove, bottom plate welding is in the below of equipment piece, the both ends of bottom plate all are provided with the hinge, the one end of hinge is connected with the installation fixed plate, a plurality of screw holes have all been seted up on the installation fixed plate, the rubber pad is installed in installation fixed plate below, installation fixed plate inboard all is fixed with a plurality of first screw rods, the connecting plate sets up in equipment groove one end, the top of connecting plate all is provided with the protection division board, the surface mounting of protection division board has the bakelite pad, one side of bakelite pad is fixed with the stationary blade, the concatenation fixture block sets up the one end at the shell, the concatenation draw-in groove sets up the other end at the shell, the sealing washer sets up the inboard at the shell, all be fixed with a plurality of second screw rods on the sealing washer.

Preferably, the heat sink is screw-coupled to the housing by a fixing bolt, and the support plate is disposed with a vertical central axis symmetry axis of the heat sink.

Preferably, the dustproof net is connected with the radiating fins in a clamping mode through connecting clamping blocks, and the connecting clamping blocks are arranged in a symmetrical axis mode through the vertical middle axis of the radiating fins.

Preferably, the assembly groove is connected with the bottom plate in a clamping manner through an assembly block, and the assembly block is vertically distributed with the bottom plate.

Preferably, the limiting block, the return spring and the connecting seat form a telescopic structure, and the return spring and the connecting seat are vertically distributed.

Preferably, the mounting and fixing plate is movably connected with the bottom plate through a hinge, and the hinge is arranged on a vertical middle axis symmetry axis of the bottom plate.

Preferably, the rubber pad is movably connected with the installation fixing plate through a first screw rod, and the first screw rods are distributed on the installation fixing plate at equal intervals.

Preferably, the bakelite pad is movably connected with the protective isolation plate through a fixing piece, and the threaded holes are distributed on the mounting and fixing plate at equal intervals.

Preferably, the splicing fixture block is connected with the shell in a clamping mode through the splicing clamping groove, and the size of the splicing fixture block is matched with that of the splicing clamping groove.

Preferably, the sealing ring is movably connected with the shell through a second screw rod, and the second screw rods are distributed on the shell at equal intervals.

Three beneficial effects

Compared with the prior art, the invention provides an intensive bus duct suitable for power distribution of a data center machine room, which has the following beneficial effects:

this intensive busway suitable for distribution of data center computer lab, through the hinge, the installation fixed plate, the screw hole, the cooperation work of rubber pad, can carry out a fixed mounting's effect to the base, during the installation, run through the fixed screw through the installation fixed plate and twist into the screw hole and fix it, the setting of rubber pad can carry out a protection effect to the surface of being installed simultaneously, after fixing the bottom plate, install this intensive busway on the base, press into intensive busway hard and make equipment groove card go into the equipment piece, can play a fast assembly's effect to this intensive busway, provide better lower efficiency for the site erection construction, after installing suitable position, the stopper blocks into spacing pore through reset spring card and carries out chucking fixing to it, provide better guarantee for this intensive busway's stability, through heat dissipation mechanism, The structure design of the radiating fin, the supporting plate and the fixing bolt realizes the function of effectively radiating the intensive bus duct, solves the problem of internal naked fire caused by high internal heat due to long-time work, fixes the radiating fin with the shell through the fixing bolt when in use, provides better guarantee for the safety of the intensive bus duct, installs the dustproof net at the inner side of the radiating fin after the radiating fin is installed, enables the connecting clamping block to be clamped into the connecting clamping groove for installation, can provide better guarantee for the dust resistance inside the intensive bus duct, realizes the function of providing an insulation for the whole intensive bus duct through the structure design of the bakelite pad and the fixing piece, solves the problem of electric leakage of the intensive bus duct during work, provides better guarantee for the reliability and the safety of the intensive bus duct, and through the structure design of the splicing clamping block and the splicing clamping groove, the function of splicing the intensive bus duct is realized, the problem that the application range is limited due to the fact that the intensive bus duct cannot be spliced is solved, the application range of the intensive bus duct is greatly expanded, the function of sealing the inside is realized through the structural design of the sealing ring and the second screw rod, the problem that dust permeates into the inside to cause work failure is solved, and better guarantee is provided for the sealing performance of the intensive bus duct.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a sectional view of the heat dissipation mechanism of the present invention;

FIG. 3 is a sectional view of the assembly mechanism of the present invention;

FIG. 4 is a schematic view of the mounting plate and hinge of the present invention;

FIG. 5 is an enlarged view of the structure at A in FIG. 1 according to the present invention

FIG. 6 is an enlarged view of the structure of FIG. 3 at B according to the present invention.

In the figure: 1. a housing; 2. a heat dissipation mechanism; 201. a heat sink; 202. a support plate; 203. fixing the bolt; 204. a dust screen; 205. connecting a clamping block; 206. a connecting clamping groove; 3. an assembly mechanism; 301. an assembly groove; 302. a limiting hole; 303. assembling the blocks; 304. a limiting block; 305. a return spring; 306. a connecting seat; 4. a base plate; 5. a hinge; 6. mounting a fixed plate; 7. a threaded hole; 8. a rubber pad; 9. a first screw; 10. a connecting plate; 11. a protective barrier; 12. a bakelite pad; 13. a fixing sheet; 14. splicing the fixture blocks; 15. splicing the clamping grooves; 16. a seal ring; 17. a second screw.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, an intensive bus duct suitable for power distribution of a data center machine room comprises a housing 1, a heat dissipation mechanism 2 and an assembly mechanism 3, wherein the heat dissipation mechanism 2 is installed above the housing 1, the heat dissipation mechanism 2 comprises a heat dissipation plate 201, a support plate 202, a fixing bolt 203, a dust screen 204, a connection clamping block 205 and a connection clamping groove 206, the heat dissipation plate 201 is installed above the housing 1, the support plate 202 is installed at both ends of the heat dissipation plate 201, the fixing bolts 203 are fixed on the support plate 202, the dust screen 204 is installed at the inner side of the heat dissipation plate 201, the connection clamping block 205 is installed at both ends of the dust screen 204, the connection clamping groove 206 is installed at one side of the connection clamping block 205, the assembly mechanism 3 is installed below the housing 1, the assembly mechanism 3 comprises an assembly groove 301, a limiting hole 302, an assembly block 303, a limiting block 304, a return spring 305 and a connection seat 306, the assembly groove 301 is installed below the housing 1, spacing hole 302 has all been seted up to the both sides of equipment groove 301, and equipment piece 303 sets up in equipment groove 301 below, and the both sides of equipment piece 303 all are provided with stopper 304, and the one end of stopper 304 is connected with reset spring 305, and reset spring 305's the other end is connected with connecting seat 306.

Bottom plate 4 welding is in the below of equipment piece 303, the both ends of bottom plate 4 all are provided with hinge 5, the one end of hinge 5 is connected with installation fixed plate 6, a plurality of screw holes 7 have all been seted up on installation fixed plate 6, rubber pad 8 is installed in installation fixed plate 6 below, 6 inboard a plurality of first screw rods 9 that all are fixed with of installation fixed plate, connecting plate 10 sets up in equipment groove 301 one end, the top of connecting plate 10 all is provided with protection division board 11, the surface mounting of protection division board 11 has bakelite pad 12, one side of bakelite pad 12 is fixed with stationary blade 13, concatenation fixture block 14 sets up the one end at shell 1, concatenation draw-in groove 15 sets up the other end at shell 1, sealing washer 16 sets up the inboard at shell 1, all be fixed with a plurality of second screw rods 17 on the sealing washer 16.

This embodiment, fin 201 passes through fixing bolt 203 and 1 threaded connection of shell, and the backup pad 202 sets up with the perpendicular axis of symmetry of fin 201, through heat dissipation mechanism 2, fin 201, backup pad 202, fixing bolt 203's structural design, realized carrying out effective radiating function to this intensive bus duct, solved long-time work and caused the problem that inside heat is higher to cause inside production naked light, provide better guarantee for this intensive bus duct security.

This embodiment, dust screen 204 is connected with fin 201 block through connecting fixture block 205, and connect fixture block 205 and set up with the perpendicular axis symmetry of fin 201, through dust screen 204, connect fixture block 205 and connecting slot 206's structural design, realized playing a dirt-proof function to fin 201, when having solved long-term placing, the dust causes the problem of inside power cord short circuit through fin 201 infiltration inboard, press dust screen 204 hard during the installation, make connecting fixture block 205 card go into connecting slot 206 and install it, thereby the dirt proofness of this intensive bus duct inside provides better guarantee.

This embodiment, the equipment groove 301 is connected with 4 block of bottom plate through equipment piece 303, and equipment piece 303 and 4 perpendicular distributions of bottom plate, through equipment mechanism 3, the structural design of equipment groove 301 and equipment piece 303, realized providing the function of a quick dismantlement installation to this intensive bus duct, when having solved this intensive bus duct and having produced the trouble and need change, need spend plenty of time to dismantle the change installation, can not satisfy the demand of quick dismantlement installation, a great deal of inconvenient problem has been brought for on-the-spot installation, the dismouting effect for this intensive bus duct provides better guarantee.

This embodiment, stopper 304, reset spring 305 and connecting seat 306 constitute extending structure, and reset spring 305 and connecting seat 306 are the vertical distribution, through stopper 304, reset spring 305 and connecting seat 306's structural design, realized letting equipment groove 301 and equipment piece 303 carry out the dead function of card, the easy not hard up problem when having solved this intensive bus duct installation provides better guarantee for this intensive bus duct's installation stability.

This embodiment, installation fixed plate 6 passes through hinge 5 and 4 swing joint of bottom plate, and hinge 5 sets up with bottom plate 4's perpendicular well axis symmetry, through hinge 5, installation fixed plate 6 and threaded hole 7's structural design, has realized installing fixed function to bottom plate 4, produces not hard up problem easily when having solved bottom plate 4 installation, provides better guarantee for bottom plate 4 stability.

This embodiment, rubber pad 8 is through first screw rod 9 and 6 swing joint of installation fixed plate, and first screw rod 9 is equidistant distribution on installation fixed plate 6, through the structural design of rubber pad 8 and first screw rod 9, has realized providing the function of protection to the installation face, and installation fixed plate 6 causes the problem of damage to the installation face when having solved the use, provides better protection for the installation face.

This embodiment, bakelite pad 12 passes through stationary blade 13 and 11 swing joint of protection division board, and screw hole 7 is equidistant distribution on installation fixed plate 6, through the structural design of bakelite pad 12 and stationary blade 13, has realized providing an insulating function to this intensive bus duct is whole, has solved the problem of this intensive bus duct electric leakage of during operation, provides better guarantee for the reliability and the security of intensive bus duct.

This embodiment, the concatenation fixture block 14 is connected with 1 block of shell through concatenation draw-in groove 15, and the size of concatenation fixture block 14 is identical with the size of concatenation draw-in groove 15, through the structural design of concatenation fixture block 14 and concatenation draw-in groove 15, has realized carrying out the function of splicing to this intensive bus duct, has solved and has spliced the problem that causes application range to receive the limitation to the application range that this intensive bus duct has been provided greatly.

This embodiment, sealing washer 16 is through second screw rod 17 and 1 swing joint of shell, and second screw rod 17 is equidistant distribution on shell 1, through sealing washer 16 and second screw rod 17's structural design, has realized carrying out sealed function to inside, thereby has solved the inside problem that causes the malfunction of dust gap infiltration to the leakproofness of this intensive bus duct provides better guarantee.

When in use, firstly, the rubber pad 8 is arranged on one side of the installation fixing plate 6, the rubber pad 8 is fixedly arranged on the installation fixing plate 6 through the first screw rod 9, after the fixation, the bottom plate 4 is fixedly arranged, a fixing screw is arranged on one side of the installation fixing plate 4 through the installation fixing plate 6 by penetrating and screwing the fixing screw into the inner side of the threaded hole 7, after the installation and fixation, the shell 1 is arranged on one side of the bottom plate 4, the shell 1 is pressed into the shell 1 by force to enable the assembly groove 301 to be clamped into the assembly block 303, after the installation and the fixation, the limiting block 304 is clamped into the limiting hole 302 through the reset spring 305 to clamp and fix the limiting block, after the fixation, the radiating fin 201 is arranged on one side of the shell 1, the radiating fin 201 is arranged on the shell 1 by the fixing bolt 203 for the fixed installation, then the dustproof net 204 is arranged on the inner side of the radiating fin 201, the dustproof net 204 is fixedly arranged with the radiating fin 201 through the connecting clamping block 205 and the connecting clamping groove 206, and then the bakelite pad 12 is arranged on the surface of the protective isolation plate 11, the bakelite pad 12 is fixedly installed with the protective isolation plate 11 through the fixing piece 13, and finally the sealing ring 16 is installed on the inner side of the shell 1, so that the sealing ring 16 is fixedly installed with the shell 1 through the second screw 17, but needs to be spliced, and the splicing clamping block 14 of the intensive bus duct is clamped into the splicing clamping groove 15 of another intensive bus duct for splicing.

To sum up, this intensive bus duct suitable for data center computer lab distribution can advantages such as quick assembly and disassembly, when having solved this intensive bus duct of during operation and producing the trouble and need changing, need spend the plenty of time to dismantle the change installation, can not satisfy the demand of dismantling the installation fast, has brought a great deal of inconvenient problem for the site erection construction.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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