CN109617378B - Cabinet array power module and array cabinet - Google Patents

Abstract

The invention discloses a cabinet array power supply module and an array cabinet, and the key point of the technical scheme is that the cabinet array power supply module comprises: the power supply comprises a power supply body, a multi-loop bus bar, a wiring terminal and a power output unit, wherein the multi-loop bus bar comprises a plurality of copper bars which are parallel to each other and an insulating frame for supporting the copper bars; the wiring terminal is arranged on one side of the multi-loop busbar and is used for connecting the UPS and the multi-loop busbar; compared with the power supply mode of a traditional strong electric array head cabinet, the cabinet array power supply module provided by the invention has the advantages that the structural layout is more reasonable, the space occupied by the machine room strong electric array head cabinet is liberated while multi-system power supply is realized, the power distribution wiring quantity of a power supply is reduced, the safety coefficient is improved, the repair time is reduced, the field work load and the artificial failure rate are effectively reduced, and meanwhile, the power can be distributed online.

Description

Cabinet array power module and array cabinet

Technical Field

The invention relates to the field of cabinets, in particular to a cabinet array power supply module and an array cabinet.

Background

With the development of the IT technology, the market puts higher requirements on the safety level, maintainability, life cycle cost and the like of the construction of a data center machine room. On the premise of an Uninterruptible Power Supply (UPS), in order to reduce the energy consumption of safe operation heat management, the standard cabinet in the current stage generally adopts an array type energy-saving layout, and a high-voltage power array head cabinet directly supplies power to each standard cabinet in an array.

Disclosure of Invention

The first purpose of the invention is to provide a cabinet array power supply module, which is convenient for cable connection between the cabinet array power supply module and a standard cabinet.

The technical purpose of the invention is realized by the following technical scheme:

a cabinet array power module, comprising: a power supply body having a mounting cavity; the multi-loop busbar is arranged in the installation cavity and comprises a plurality of copper bars parallel to each other and an insulating frame for supporting the copper bars; the wiring terminal is arranged on one side of the multi-loop busbar and is used for connecting the UPS and the multi-loop busbar; and the power output unit comprises an output terminal which is matched with the multi-loop busbar and is used for the PDU connection of the standard cabinet.

By adopting the technical scheme, the power transmission sequence of the cabinet array power supply module disclosed by the invention is as follows: firstly, an Uninterruptible Power Supply (UPS) is connected with a wiring terminal; the wiring terminal is connected with the multi-loop busbar; the multi-loop busbar is connected with the power output unit; and the output terminal of the power output unit is connected with the PDU in the standard cabinet. The PDU is a power distribution unit, i.e., a power distribution socket for a cabinet. The structure of foretell transmission of electricity mode is comparatively simple, can make things convenient for the wiring of whole array rack, can be according to the number of the standard rack in the array rack to adjust the number of power output unit. In the prior art, two PDUs are typically provided in a standard cabinet. The array cabinet has a standard cabinet, namely two power output units are required to be arranged.

Compared with the traditional power supply mode of the strong electric array head cabinet, the cabinet array power supply module provided by the invention has more reasonable structural layout, and can correspond the power output unit with the standard cabinet, so that the wire quantity arranged outside is reduced, the safety coefficient is improved, the field wiring quantity is reduced, and the fault removal when the array cabinet breaks down is facilitated.

As a further improvement of the invention, the wiring terminal comprises at least one C-shaped mounting frame with a downward opening and fixed on the inner bottom surface of the power supply body and a plurality of wiring units corresponding to the copper bars one by one, the wiring units are mounted on the top surface of the C-shaped mounting frame or the inner bottom surface of the power supply body, the wiring units on the top surface of the same C-shaped mounting frame or the inner bottom surface of the power supply body form a wiring unit group, the wiring unit groups are arranged in a step shape, the heights of the wiring units in the plurality of groups are gradually reduced along the direction close to the multi-loop busbar, and a notch through which a power supply line passes is formed between the.

Through adopting above-mentioned technical scheme, set up C shape mounting bracket and make the wiring unit group can form the echelonment, compare in the structure that traditional is located the coplanar, can conveniently arrange the electric wire on the wiring unit.

As a further improvement of the invention, the wiring terminal is provided with two C-shaped mounting frames and nine wiring units, the wiring unit group comprises three wiring units, the three wiring units are respectively mounted on the two C-shaped mounting frames and the inner bottom surface of the power supply body, and nine copper bars are arranged in the multi-loop busbar.

The Uninterrupted Power Supply (UPS) adopts three-phase five-wire, namely a wiring mode of three live wires, one zero wire and one ground wire, and adopts two ways of UPS in the structure for six live wires, two zero wires and one ground wire, and the ground wire is shared by two groups of UPS.

As a further improvement of the invention, a plurality of copper bars are arranged in a step shape.

By adopting the technical scheme, the copper bars correspond to the wiring power supplies one by one, so that the number of the copper bars is nine. And the copper bar is the echelonment and arranges, can further make things convenient for being connected of copper bar and wiring unit, also can conveniently be connected the copper bar with power output unit.

As a further improvement of the invention, the power supply body comprises a bottom plate, a left side plate, a right side plate, a rear side plate, a front cover assembly and a top cover assembly, wherein a plurality of mounting upright posts are arranged on the front side edge of the bottom plate at intervals, the front cover assembly comprises a plurality of front side plates which are detachably mounted between adjacent mounting upright posts, the top cover assembly comprises a plurality of top plates which are hinged to the tops of the rear side plates and correspond to the front side plates one by one, the front side plates and the rear side plates are respectively supported at the front end and the rear end of the bottom surface of the top plate, and the top surface of the front side plate is provided with a magnet groove which is embedded with a.

Through adopting above-mentioned technical scheme, the front cover subassembly can be dismantled from the power organism, and the top cover subassembly can open the upper end opening of power organism through hinge structure, and the setting of above-mentioned structure can conveniently be opened the front end opening and the upper end opening of power organism with the power organism to the convenience is maintained and is rearranged the wiring to rack array power module.

Simultaneously, because top cap subassembly includes the polylith roof, the protecgulum subassembly includes polylith front side board for when maintaining or changing the wiring, can only open/dismantle corresponding front side board and roof, can further make things convenient for the maintenance of rack array power module and rearrange the wiring.

As a further improvement of the invention, a seaming piece hinged to the rear side plate is further arranged between two adjacent top plates, the left side and the right side of the seaming piece are respectively provided with a first seaming groove for clamping the edges of the top plates at the two sides, the rear side plate and the mounting upright post are respectively supported at the front end and the rear end of the bottom surface of the seaming piece, and the seaming piece is matched and fixed with the mounting upright post through a bolt.

Through adopting above-mentioned technical scheme, the piece that closes can cover the clearance between two roof to reduce the dust volume that falls to the installation cavity in the clearance between two roof, also can promote the protection to the copper bar. Simultaneously, the joint close piece passes through the bolt and the installation stand cooperation is fixed, can promote the structural strength of whole power organism, back being twisted out the bolt, can be rotatory with the joint close piece to make things convenient for rack array power module's wiring and maintenance.

As a further improvement of the invention, the side surfaces of the mounting upright columns facing the adjacent mounting upright columns are respectively provided with a fixing groove arranged along the mounting direction of the front side plate, the upper edge and the lower edge of the fixing groove are respectively provided with a plunger groove, a ball spring plunger is arranged in the plunger groove, the front side plate is provided with a fixing insert matched with the fixing grooves of the mounting upright columns on the two sides of the front side plate, and the upper surface and the lower surface of the fixing insert are respectively provided with a positioning groove for the ball spring plunger to be embedded in.

Through adopting above-mentioned technical scheme, the cooperation of above-mentioned fixed slot and fixed inserted block, the cooperation of bulb spring plunger and constant head tank has realized the detachable mounting means of preceding curb plate on the installation stand. And the installation mode has simple structure and convenient disassembly and assembly, thereby further facilitating the maintenance and wiring of the cabinet array power supply module.

As a further improvement of the invention, the rear side plate is provided with an air outlet, the top plate is provided with an air outlet, the power supply body is provided with filter screens covering the air inlet/the air outlet at the air inlet and the air outlet, and the rear side plate is also provided with a cooling fan which is used for pumping air in the mounting cavity at the air outlet.

Through adopting above-mentioned technical scheme, radiator fan's setting can pass through the air outlet with the hot-air in the installation cavity and take out for the cold air in the power organism outside enters into the installation cavity through the air intake, thereby reduces the temperature in the installation cavity. Meanwhile, the filter screens are arranged at the air inlet and the air outlet, so that the dust amount entering the installation cavity through the air inlet and the air outlet can be reduced.

As a further improvement of the invention, the device is also provided with a control host and a temperature sensor connected with the control host; the temperature sensor is arranged in the mounting cavity and used for detecting the temperature in the mounting cavity and outputting a first temperature signal to the control host; the control host is used for controlling the temperature sensor, the cooling fan and the storage and processing of data, and a reference temperature signal is preset in the control host; the control host receives the first signal and responds to the first temperature signal, and when the first temperature signal is greater than the reference temperature signal, the control host controls the cooling fan to operate; otherwise, the control host controls the cooling fan not to run.

Through adopting above-mentioned technical scheme, when control host computer and temperature sensor can make the temperature in the installation cavity rise to a height, radiator fan opens automatically to make rack array power module have the function of the temperature in the control installation cavity.

A second object of the present invention is to provide an array-type cabinet.

The technical purpose of the invention is realized by the following technical scheme:

an array type cabinet comprises a cabinet body and the cabinet array power supply module, wherein the cabinet array power supply module is arranged at the top of the cabinet body.

By adopting the technical scheme, compared with the power supply mode of the traditional strong electric array head cabinet, the cabinet array power supply module and the array cabinet with the cabinet array power supply module provided by the invention can reduce the number of cables in the array cabinet, reduce the field wiring amount and facilitate the troubleshooting when the array cabinet breaks down. Meanwhile, the number of cables exposed to the outside is greatly reduced, so that the safety coefficient of the whole array type cabinet can be improved.

In conclusion, the invention has the following beneficial effects:

1. compared with the power supply mode of a traditional strong power line head cabinet, the cabinet array power supply module is more reasonable in structural layout and can correspond the power output unit with a standard cabinet, so that the quantity of electric wires arranged on the outer side is reduced, the safety coefficient is improved, the field wiring quantity is reduced, and the fault removal when the array cabinet breaks down is facilitated;

2. the wiring unit groups are arranged in a step-like manner, and the copper bars are arranged in a step-like manner, so that wiring between the wiring unit and the copper bars and connection wiring between the wiring unit and the UPS can be facilitated;

3. the power supply body comprises a bottom plate, a left side plate, a right side plate, a rear side plate, a front cover assembly and a top cover assembly, and the front cover assembly and the top cover assembly can open a front end opening and an upper end opening of the power supply body, so that the cabinet array power supply module is convenient to maintain and rewire;

4. through setting up control host, radiator fan and temperature sensor to the temperature in the convenient control power organism reduces the phenomenon emergence of the high temperature in the installation cavity of power organism.

Drawings

FIG. 1 is a schematic diagram of an array cabinet according to the present invention;

fig. 2 is a schematic structural front view of a cabinet array power module in embodiment 1;

fig. 3 is a schematic back structure diagram of a cabinet array power module in embodiment 1;

FIG. 4 is an enlarged view taken at A in FIG. 3;

FIG. 5 is an enlarged view at B in FIG. 3;

fig. 6 is a schematic structural diagram of a cabinet array power module in embodiment 1, where a left side plate, a leftmost top plate, and a leftmost front side plate are not installed;

FIG. 7 is an enlarged view at C of FIG. 6;

FIG. 8 is a schematic view showing the structure of a mounting pillar in embodiment 1;

FIG. 9 is a schematic sectional view of a ball spring plunger according to embodiment 1;

FIG. 10 is a schematic structural view of a front side plate in embodiment 1;

FIG. 11 is an enlarged view taken at D of FIG. 10;

FIG. 12 is an enlarged view at E in FIG. 10;

fig. 13 is a schematic structural diagram of a multi-circuit busbar and a terminal in embodiment 1.

In the figure: 1. a power supply body; 11. a base plate; 111. an outlet; 112. a heat radiation fan; 12. a left side plate; 14. a rear side plate; 141. an air outlet; 15. installing a cavity; 16. mounting the upright post; 161. a groove is embedded; 162. fixing grooves; 163. a plunger groove; 164. a ball spring plunger; 164a, plunger housing; 164b, a spring; 164c, a ball; 17. a front side plate; 171. fixing the insert block; 171a, a positioning groove; 172. fixing a magnet; 18. a top plate; 181. an air inlet; 19. seaming the parts; 191. a first seaming slot; 192. a rubber gasket; 2. a multi-loop busbar; 21. copper bars; 22. an insulating plate; 221. a ventilation through hole; 3. a wiring terminal; 31. a C-shaped mounting bracket; 311. a notch; 32. a wiring unit; 4. a power output unit; 41. an electricity meter; 42. a micro switch; 43. an output terminal; 5. installing a partition plate; 51. a signal slot; 6. a filter screen; 9. a cabinet body; 91. and (4) a standard cabinet.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example 1:

referring to fig. 1 and 6, a cabinet array power module mainly includes a power supply body 1, a multi-circuit bus bar 2, a wiring terminal 3, and a power output unit 4. In this embodiment, the cabinet array power module corresponds to four standard cabinets 91, and each of the four standard cabinets 91 has two PDUs.

Referring to fig. 2, 3 and 6, the power supply body 1 includes a bottom plate 11, a left side plate 12, a right side plate, a rear side plate 14, a front cover assembly and a top cover assembly, and the power supply body 1 is formed with an installation cavity 15 between the bottom plate 11, the left side plate 12, the right side plate, the rear side plate 14, the front cover assembly and the top cover assembly, and the multi-circuit busbar 2, the terminal machine and the power output unit 4 are all installed in the installation cavity 15.

Referring to fig. 6, the power supply body 1 is provided with a plurality of mounting posts 16 at intervals along the front side edge of the bottom plate 11. In this embodiment, five mounting pillars 16 are disposed in the power supply body 1, two of the mounting pillars 16 are located at two ends of the front edge of the bottom plate 11 and respectively attached to the left side plate 12/the right side plate, and the distances between the adjacent mounting pillars 16 are the same. The front cover assembly basically includes a plurality of front side plates 17 detachably mounted between adjacent mounting posts 16.

Referring to fig. 8 and 9, the mounting posts 16 are opened with an insertion groove 161 facing a side surface of an adjacent mounting post 16, into which the front plate 17 (see fig. 10) is inserted, and a fixing groove 162 is formed along the mounting direction of the front plate 17, and a plunger groove 163 is further formed at upper and lower edges of the fixing groove 162, and a ball spring plunger 164 is disposed in the plunger groove 163. The ball spring plunger 164 basically includes a plunger housing 164a, a spring 164b mounted within the plunger housing 164a and balls 164 c. In the present embodiment, the fixing groove 162 has a rectangular parallelepiped shape, and the plunger housing 164a also has a rectangular parallelepiped shape and is interference-fitted into the fixing groove 162.

Referring to fig. 8, 10 and 11, the front plate 17 has a fixing insert 171 engaged with the fixing grooves 162 of the mounting posts 16 on both sides thereof, and the fixing insert 171 has a positioning groove 171a formed on both upper and lower surfaces thereof for receiving the ball spring plunger 164. In the present embodiment, the front plate 17 is provided with two fixing insertion blocks 171 on one side facing the side of the mounting cavity 15, that is, one side of the mounting post 16 is provided with two fixing grooves 162 corresponding to the two fixing insertion blocks.

Referring to fig. 2, 4, 10 and 12, the cover assembly includes a plurality of top panels 18 hinged to the top of the rear side panel 14 and corresponding one-to-one to the front side panel 17. The front side plate 17 and the rear side plate 14 are respectively supported at the front end and the rear end of the bottom surface of the top plate 18, a magnet groove is formed in the top surface of the front side plate 17, and a fixed magnet 172 for attracting the top plate 18 is embedded in the magnet groove. In the present embodiment, the number of the top plates 18 is four, and each front side plate 17 is provided with two magnet grooves and two corresponding fixed magnets 172.

Referring to fig. 2, 3 and 4, a seaming piece 19 hinged to the rear side plate 14 is further arranged between two adjacent top plates 18.

Referring to fig. 7, the left and right sides of the joint closing piece 19 are both provided with first joint closing grooves 191 for the edges of the top plates 18 at the two sides to be clamped into. The rear side plate 14 and the mounting upright post 16 are respectively supported at the front end and the rear end of the bottom surface of the joint close piece 19, and the joint close piece 19 is matched and fixed with the mounting upright post 16 through bolts. Wherein, a rubber gasket 192 adhered to the bottom edge of the top plate 18 is laid on the top of the first joint groove 191.

Referring to fig. 13, the multi-circuit busbar 2 is disposed in the installation cavity 15 and includes a plurality of parallel copper bars 21 and an insulating frame for supporting the copper bars 21. In the present embodiment, the number of the copper bars 21 in the multi-circuit busbar 2 is nine, and the nine copper bars 21 are arranged in a step shape, and the height of the copper bars 21 gradually increases along the direction approaching the rear side plate 14. The insulating frame includes that the polylith fixes insulating board 22 on power organism 1, and insulating board 22 has the copper bar groove that supplies the installation of copper bar 21 and insulating board 22 passes through the fix with screw on the bottom plate 11 and the posterior lateral plate 14 of power frame. In the present embodiment, the number of the insulating plates 22 is 5.

In order to promote air circulation in the mounting cavity 15, the insulating plate 22 has air-permeable through holes 221 penetrating through the left and right side surfaces thereof.

Referring to fig. 13, the connection terminal 3 is disposed at one side of the multi-circuit busbar 2 and is used for connecting the UPS and the multi-circuit busbar 2. The connecting terminal 3 comprises two C-shaped mounting frames 31 with downward openings and fixed on the inner bottom surface of the power supply body 1 and a plurality of connecting units 32 corresponding to the copper bars 21 one by one, namely the connecting terminal 3 has nine connecting units 32. Wherein the two C-shaped mounting brackets 31 have different heights.

The wiring unit 32 is installed on the top surface of the C-shaped installation frame 31 or the inner bottom surface of the power supply body 1, the wiring unit 32 located on the top surface of the same C-shaped installation frame 31 or the inner bottom surface of the power supply body 1 forms a wiring unit 32 group, the wiring unit 32 group is arranged in a ladder shape, and a notch 311 for passing a power supply line is formed between the inner bottom surfaces of the C-shaped installation frame 31 and the power supply body 1. Each wiring unit 32 group comprises three wiring units 32 which are arranged in parallel, the top surfaces of the two C-shaped mounting brackets 31 are provided with three parallel wiring units 32, and the bottom plate 11 is also provided with three parallel wiring units 32. In the present embodiment, the height along which the group of wiring units 32 is gradually reduced in the direction approaching the copper bar 21.

Referring to fig. 6, the power output unit 4 mainly includes an ammeter 41, a micro switch 42, and an output terminal 43 which is engaged with the multi-circuit busbar 2 and is connected to a PDU of a standard cabinet. Wherein, power supply body 1 arranges 2 and binding post 3's front side at the multiloop and is provided with installation baffle 5, and installation baffle 5 arranges along power supply body 1's length direction, and ammeter 41, micro switch 42 and output terminal 43 all install on installation baffle 5 keeps away from multiloop and arranges 2 and binding post 3's the side, and set up the opening that the display gauge outfit of power supply table 41 and micro switch 42's switch portion stretched out on the preceding curb plate 17. The power supply body 1 is further provided with a signal slot 51 for laying signal lines of the ammeter 41 on the side surface on which the partition plate 5 is mounted, so as to facilitate wiring of the signal lines of the ammeter 41.

For the convenience of wiring, the power supply casing is provided with an outlet 111 on the bottom plate 11 below the output terminal 43. Meanwhile, the top of the cabinet body 9 of the array type cabinet matched with the modified cabinet array power supply module is also provided with a wire inlet corresponding to the wire outlet 111, so that cables exposed outside the array type cabinet are effectively reduced, and the safety performance of the whole array type cabinet is improved.

Since the installation manners of the electric meter 41 and the micro switch 42 are the prior art, the description is omitted, and the output terminal 43 has three interfaces, namely, a live wire interface, a zero wire interface and a ground wire interface. In the present embodiment, each standard cabinet 91 corresponds to two output terminals 43, that is, the number of output terminals 43 in the cabinet array power module is eight.

The cabinet array power supply module adopts two paths of three lines and five lines, wherein one path is a live line A1, a live line B1, a live line C1 and a zero line L1; the other path is a live wire A2, a live wire B2, a live wire C2 and a zero wire L2; there is also a common ground line D. The nine lines are respectively in one-to-one correspondence with the wiring units 32 and the copper bars 21.

Because the same standard cabinet 91 is provided with two output terminals 43 correspondingly, when the live wire, the zero wire and the ground wire of the output terminals 43 are selected, one of the output terminals 43 can select the live wire, the zero wire and the ground wire of one path, and the other output terminal 43 needs to select the live wire, the zero wire and the ground wire of the other path. For example, when one of the corresponding output terminals 43 of the first standard cabinet 91 selects the live line a1, the neutral line L1 and the ground line D, the other corresponding output terminal 43 of the first standard cabinet 91 must select any one of the live lines a2, B2 and C2, the neutral line needs to select L2, and the ground line selects the ground line D.

Referring to fig. 2, fig. 3 and fig. 5, in order to reduce the temperature in the power supply body 1, the power supply body 1 is provided with an air outlet 141 on the rear side plate 14, the top plate 18 is provided with an air inlet 181, the power supply body 1 is provided with filter screens 6 covering the air inlet 181/the air outlet 141 at the air inlet 181 and the air outlet 141, and the power supply body 1 is further provided with a cooling fan 112 for drawing out the air in the installation cavity 15 at the air outlet 141. In this embodiment, the power supply body 1 is provided with two air outlets 141 and a heat dissipation fan 112 installed at the air outlets 141 on the rear side plate 14 at intervals, and the power supply body 1 is provided with an air inlet 181 in the middle of each top plate 18.

The cabinet array power supply module is also provided with a control host and a temperature sensor connected with the control host. The temperature sensor is arranged in the installation cavity 15 and used for detecting the temperature in the installation cavity 15 and outputting a first temperature signal to the control host, and in the embodiment, the temperature sensor is arranged in the center of the top surface of the bottom plate; the control host is used for controlling the temperature sensor, the cooling fan 112 and the storage and processing of data, and a reference temperature signal is preset in the control host; the control host receives the first signal and responds to the first temperature signal, and when the first temperature signal is greater than the reference temperature signal, the control host controls the operation of the cooling fan 112; otherwise, the control host controls the cooling fan 112 not to operate. In the present embodiment, the sharp-turn temperature signal is set to 60 ℃, and when the temperature in the installation cavity 15 is greater than 60 ℃, the cooling fan 112 is turned on; when the temperature in the installation cavity 15 is less than 60 c, the heat dissipation fan 112 is not turned on.

Example 2:

referring to fig. 1, an array type cabinet includes a cabinet body 9 and a cabinet array power module in embodiment 1, where the cabinet array power module is disposed at the top of the cabinet body 9, and the length of the cabinet is the same as that of the cabinet array power module.

The cabinet body 9 has four standard cabinets 91, and two PDUs are disposed in the four standard cabinets 91.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (9)

1. The utility model provides a rack array power module which characterized in that: the power supply comprises a power supply body (1), wherein the power supply body (1) is provided with an installation cavity (15); the multi-circuit bus bar (2) is arranged in the installation cavity (15) and comprises a plurality of parallel copper bars (21) and an insulating frame for supporting the copper bars (21); the wiring terminal (3) is arranged on one side of the multi-loop busbar (2) and is used for connecting the UPS and the multi-loop busbar (2); the power output unit (4), the power output unit (4) comprises an output terminal (43) which is matched with the multi-loop busbar (2) and is used for PDU connection of a standard cabinet;

binding post (3) include that at least one opening is downward and fix a plurality of wiring unit (32) at C shape mounting bracket (31) and copper bar (21) one-to-one of bottom in power organism (1), wiring unit (32) are installed on the interior bottom surface of the top surface of C shape mounting bracket (31) or power organism (1), and wiring unit (32) that are located the bottom surface in the top surface of same C shape mounting bracket (31) or power organism (1) form the wiring unit group, and the wiring unit group is the echelonment and arranges, forms notch (311) that the power supply line passes through between the bottom surface in C shape mounting bracket (31) and power organism (1).

2. The cabinet array power module of claim 1, wherein: binding post (3) have two C shape mounting bracket (31) and nine wiring unit (32), just wiring unit (32) group is including three wiring unit (32), and three wiring unit (32) install respectively in two C shape mounting bracket (31) and power organism (1) on the bottom surface, copper bar (21) in the female (2) of arranging of multiloop are nine.

3. The cabinet array power module of claim 2, wherein: the copper bars (21) are arranged in a step shape.

4. The cabinet array power module of claim 1, wherein: power organism (1) includes bottom plate (11), left side board (12), right side board, posterior lateral plate (14), protecgulum subassembly and top cap subassembly, power organism (1) is provided with a plurality of installation stand columns (16) along the interval at the front side of bottom plate (11), the protecgulum subassembly includes preceding curb plate (17) of polylith demountable installation between adjacent installation stand column (16), top cap subassembly includes that the polylith articulates in posterior lateral plate (14) top and roof (18) with preceding curb plate (17) one-to-one, both ends around the bottom surface of roof (18) are supported respectively in preceding curb plate (17) and posterior lateral plate (14), and the top surface of preceding curb plate (17) is seted up the fixed (172) that magnet groove and magnet inslot inlay and be equipped with and be used for actuation magnet roof (18).

5. The cabinet array power module of claim 4, wherein: still be equipped with between two adjacent roof (18) and articulate joint piece (19) in posterior lateral plate (14), the first joint groove (191) that joint piece (19) left and right sides all offered roof (18) border card income that supplies its both sides, both ends around posterior lateral plate (14) and installation stand (16) support respectively in the bottom surface of joint piece (19), and joint piece (19) are fixed through bolt and installation stand (16) cooperation.

6. The cabinet array power module of claim 5, wherein: installation stand (16) all offer along fixed slot (162) that the installation direction of preceding curb plate (17) set up and all offered plunger groove (163) at the upper and lower border of fixed slot (162) towards the side of adjacent installation stand (16), install bulb spring plunger (164) in plunger groove (163), preceding curb plate (17) have rather than both sides installation stand (16) fixed inserted block (171) of fixed slot (162) complex, constant head tank (171a) that supply bulb spring plunger (164) embedding are all seted up to the last lower face of fixed inserted block (171).

7. The cabinet array power module of claim 6, wherein: the rear side plate (14) is provided with an air outlet (141), the top plate (18) is provided with the air outlet (141), the power supply body (1) is provided with filter screens (6) covering the air inlet (181)/the air outlet (141) at the air inlet (181) and the air outlet (141), and the rear side plate (14) is further provided with a cooling fan (112) for pumping out air in the installation cavity (15) at the air outlet (141).

8. The cabinet array power module of claim 7, wherein: the temperature sensor is connected with the control host; the temperature sensor is arranged in the mounting cavity (15) and used for detecting the temperature in the mounting cavity (15) and outputting a first temperature signal to the control host; the control host is used for controlling the temperature sensor, the cooling fan (112) and the storage and processing of data, and a reference temperature signal is preset in the control host; the control host receives the first signal and responds to the first temperature signal, and when the first temperature signal is greater than the reference temperature signal, the control host controls the cooling fan (112) to operate; otherwise, the control host controls the heat radiation fan (112) not to run.

9. An array cabinet, characterized by comprising a cabinet body (9) and the cabinet array power module of any one of claims 1 to 8, wherein the cabinet array power module is arranged on the top of the cabinet body (9).

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