CN217563088U - Micro-module data center power distribution cabinet - Google Patents

Abstract

The utility model discloses a micromodule data center switch board, including basement and bearing, the switch board box is installed to the upper end of basement, and the outside of switch board box is provided with the polyethylene-propylene coating, the linkage plate is installed to the surface top of switch board box, and the upper end mid-mounting of switch board box has the fixed block, the lower extreme of fixed block is provided with and is used for radiating coupling assembling, both ends all are provided with the ring channel about the switch board box. This micromodule data center switch board box base plays the effect of protection to it when using, avoid switch board box and ground direct contact, then protect the switch board box through polyethylene propylene coating when overcast and rainy weather, avoid the moisture to get into inside, cause the damage to inside relevant equipment, outside air accessible links up the bleeder vent on plate surface and gets into in the switch board box, come the inside air of entering device to give off through ventilative screen panel through the fan after that.

Description

Micro-module data center power distribution cabinet

Technical Field

The utility model relates to a switch board technical field specifically is a micromodule data center switch board.

Background

With the rapid development of the electronic information industry, the development of data centers also enters a new stage, and a micro-module data center power distribution cabinet is applied to the field of micro-module data centers to distribute and monitor power to a micro-module system and a cabinet in the system.

On the internal frame plate of cabinet was arranged in with a large amount of monitoring module of micromodule data center switch board in market, the frame plate was fixed, inconvenient system connection, for this reason, we propose a micromodule data center switch board.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a micromodule data center switch board to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a micromodule data center switch board, includes basement and bearing, the switch board box is installed to the upper end of basement, and the outside of switch board box is provided with the polyethylene propylene coating, the connection board is installed to the surface top of switch board box, and the upper end mid-mounting of switch board box has the fixed block, the lower extreme of fixed block is provided with and is used for radiating coupling assembling, both ends all are provided with the ring channel about the switch board box, the upper and lower both ends of ring channel all are provided with the location axle, the bearing sets up in the outside of location axle, two the middle part of bearing is connected with the backup pad, two the middle part of ring channel is provided with the flat board, and dull and stereotyped surperficial middle part has seted up wiring hole machine.

Further, coupling assembling includes the fan, ventilative screen panel and heat dissipation pipeline, ventilative screen panel is installed to the lower extreme of fan, and both ends all are provided with the heat dissipation pipeline about ventilative screen panel.

Furthermore, a wiring pipeline is installed at the rear end of the flat plate, and a limiting hole is formed in the surface of the wiring pipeline.

Furthermore, a box door is installed on the surface of the box body of the power distribution cabinet, and a handle is installed on the left side of the surface of the box door.

Furthermore, an alarm is arranged above the surface of the box door, and a visual window is arranged below the alarm.

Further, the right side surface of the power distribution cabinet box body is provided with heat dissipation holes, and the surface of the connecting plate is provided with air holes.

Furthermore, two groups of air holes are symmetrically arranged about the transverse central axis of the connecting plate, and the air holes are distributed at equal intervals.

The utility model provides a micromodule data center switch board possesses following beneficial effect: this micromodule data center switch board adopts inside the polyvinyl propyl coating avoids outside moisture entering device, cause the damage of device internal plant, it is more convenient when bearing and dull and stereotyped person of facilitating the use need maintain inside equipment simultaneously, can also pass the circuit of equipment and lay wire hole and external circuit and carry out the wiring, avoid the circuit to take place the winding, the inside condition of staff's device can in time effectually be reminded to the alarm simultaneously, when inside special circumstances takes place, the staff can be timely handle.

1. The utility model discloses the basement plays the effect of protection to it when the switch board box uses, avoid switch board box and ground direct contact, then come to protect the switch board box through polyethylene propylene coating when overcast and rainy weather, avoid the moisture to get into inside, cause the damage to inside relevant equipment, make it can't carry out normal function, outside air accessible links up the surperficial bleeder vent and gets into in the switch board box, the fan gives off the inside air of access arrangement through ventilative screen panel after that, it is outside to be convenient for heat that produces inside relevant equipment along heat dissipation pipeline conveyor, with the inside circulation of air of assurance device, avoid inside to cause the unable normal operating of device because of the heat is too high simultaneously.

2. The utility model discloses a bearing corresponds sliding fit and installs in the ring channel, both sides fixed mounting has the magnetite in the front and back of ring channel of switch board box, the peripheral fixed mounting of bearing has the iron sheet of the mutual magnetism of magnetite and inhales the complex can pull out the flat board, when relevant equipment needs the wiring, pass the wiring hole with the circuit of equipment, in order to avoid the circuit winding of equipment, the follow-up inspection maintenance of also being convenient for, the staff can lay external circuit along wiring pipeline inside, when equipment needs be connected with external circuit, take external circuit out along spacing hole, be convenient for connect with the circuit of relevant equipment, avoid the circuit of equipment and external circuit to take place the winding effectively, be not convenient for the staff later stage to maintain.

3. The utility model discloses when the alarm takes place the sound, the staff at first observes the inside condition through the visual window, opens the chamber door through the handle and comes to carry out careful detection to switch board box inside after that, finds the reason by that the alarm takes place the sound more fast effectively, when inside all equipment moves simultaneously, comes to give off the heat that produces through the louvre, improves the radiating efficiency of device, and effectual avoiding device can't give off the damage that causes equipment because of the heat.

Drawings

Fig. 1 is a schematic view of the overall structure of a micro-module data center power distribution cabinet of the present invention;

fig. 2 is an enlarged schematic structural diagram of a position a in fig. 1 of the power distribution cabinet of the micromodule data center of the present invention;

fig. 3 is the utility model relates to a chamber door spatial structure schematic diagram of micromodule data center switch board.

In the figure: 1. a substrate; 2. a power distribution cabinet body; 3. a polyethylene acrylic coating; 4. a connector tile; 5. a fixed block; 6. a connecting assembly; 601. a fan; 602. a breathable net cover; 603. a heat dissipation pipe; 7. a wiring duct; 8. a limiting hole; 9. an annular groove; 10. a support plate; 11. positioning the shaft; 12. a bearing; 13. a flat plate; 14. a box door; 15. a handle; 16. an alarm; 17. heat dissipation holes; 18. a visual window; 19. air holes are formed; 20. and (6) wiring holes.

Detailed Description

As shown in fig. 1, a micro-module data center power distribution cabinet comprises a substrate 1 and a bearing 12, a power distribution cabinet case 2 is installed at the upper end of the substrate 1, and a polyvinyl acrylic coating 3 is disposed outside the power distribution cabinet case 2, when the power distribution cabinet case 2 is used, the substrate 1 plays a role of protecting the power distribution cabinet case 2, so as to prevent the power distribution cabinet case 2 from directly contacting with the ground, then the power distribution cabinet case 2 is protected by the polyvinyl acrylic coating 3 in rainy weather, so as to prevent moisture from entering the inside, causing damage to internal related equipment, making the internal related equipment unable to operate normally, an engaging plate 4 is installed above the surface of the power distribution cabinet case 2, a fixing block 5 is installed at the middle part of the upper end of the power distribution cabinet case 2, a connecting assembly 6 for heat dissipation is provided at the lower end of the fixing block 5, the connecting assembly 6 comprises a fan 601, a breathable mesh enclosure 602 and a heat dissipation pipeline 603, a breathable mesh 602 is installed at the lower end of the fan 601, and heat dissipation pipelines 603 are provided at the left and right ends of the breathable mesh 602, so that external air can enter the power distribution cabinet case 2 through a high-temperature wiring line 7, when the external wiring pipeline 7 is installed, and the external wiring pipeline 7 is laid along the internal wiring line, and the external wiring line 7, and the wiring line 7, thereby preventing the external wiring line from flowing along the wiring line 7, be convenient for connect with the circuit of relevant equipment, avoid the circuit of equipment and external circuit to take place the winding effectively, the staff later stage of being not convenient for maintains.

As shown in fig. 2-3, positioning shafts 11 are disposed at upper and lower ends of an annular groove 9, bearings 12 are disposed outside the positioning shafts 11, support plates 10 are connected to middle portions of the two bearings 12, a flat plate 13 is disposed in middle portions of the two annular grooves 9, and wiring holes 20 are disposed in middle portions of surfaces of the flat plate 13, the bearings 12 are mounted in the annular groove 9 in a sliding fit manner, magnets are fixedly mounted on front and rear sides of the annular groove 9 of a cabinet 2, peripheral fixing portions of the bearings 12 are fixedly mounted with iron sheets magnetically matched with the magnets to pull out the flat plate 13, when relevant equipment needs to be wired, a circuit of the equipment passes through the wiring holes 20 to avoid winding of the circuit of the equipment, subsequent inspection and maintenance are facilitated, a cabinet door 14 is mounted on a surface of the cabinet 2, a handle 15 is mounted on a heat dissipation hole on a left side of the surface of the cabinet door 14, an alarm 16 is mounted on a surface of the cabinet door 14, a window 18 is disposed below the alarm 16, when the alarm 16 makes a sound, a worker observes internal conditions of the cabinet door 18 through the cabinet door 15 when the alarm 16 makes a sound, a sound is generated, a sound generated by opening the cabinet door 15 to detect internal heat dissipation hole of the cabinet 2, when the cabinet door 19 is generated, the cabinet 2, a heat dissipation device is damaged by a heat dissipation hole 19, and the heat dissipation device, the heat dissipation hole 19 is effectively prevented, and the heat dissipation device is effectively generated by the cabinet 2, and the heat dissipation device, and the heat dissipation hole 19, the heat dissipation device, the heat dissipation hole 19, and the heat dissipation device is effectively improved.

In conclusion, when the micro-module data center power distribution cabinet is used, firstly, according to the structure shown in fig. 1-3, the power distribution cabinet body 2 and the base 1 are installed through screws, then, the power distribution cabinet body 2 is protected through the polyethylene-acrylic coating 3 in rainy weather, the situation that moisture enters the interior of the device to cause short circuit of circuits in the power distribution cabinet body 2 is avoided, then, the position of the bearing 12 is limited through the positioning shaft 11, the bearing 12 is prevented from being misplaced in the drawing process, then, the bearing 12 is correspondingly installed in the annular groove 9 in a sliding fit manner, the power distribution cabinet body 2 is fixedly provided with magnets on the front side and the rear side of the annular groove 9, iron sheets which are mutually magnetically attracted and matched with the magnets are fixedly arranged on the periphery of the bearing 12, the flat plate 13 can be drawn out, a user can conveniently place related equipment on the flat plate 13, and the installation and maintenance of the power distribution cabinet are more convenient, then, the worker arranges the lines of the equipment and then passes through the wiring holes 20, and simultaneously connects the lines of the equipment with an outer boundary line laid inside the wiring pipeline 7 to ensure the normal operation of the related equipment, when the equipment in the cabinet body 2 of the power distribution cabinet is operated, the fan 601 disperses the air entering the device from the air vents 19 along the air permeable net cover 602 to facilitate the cooling of the equipment, and simultaneously the fan 601 also disperses the heat generated by the related equipment to the outside of the device along the heat dispersion pipeline 603 to realize the air circulation inside and outside the cabinet body 2 of the power distribution cabinet to ensure the normal operation of the device, when the alarm 16 (model is JT-BF-03 MI) gives an alarm, the worker firstly observes the condition inside the device through the visual window 18, and after confirming the internal condition, the worker opens the cabinet door 14 through the handle 15 to repair the problem generated inside, the heat dissipation holes 17 are formed to improve the heat dissipation effect of the device.

Claims (7)

1. The utility model provides a micromodule data center switch board, includes base (1) and bearing (12), its characterized in that, switch board box (2) are installed to the upper end of base (1), and the outside of switch board box (2) is provided with polyethylene propylene coating (3), linkage plate (4) are installed to the surperficial top of switch board box (2), and the upper end mid-mounting of switch board box (2) has fixed block (5), the lower extreme of fixed block (5) is provided with and is used for radiating coupling assembling (6), both ends all are provided with ring channel (9) about switch board box (2), the upper and lower both ends of ring channel (9) all are provided with location axle (11), bearing (12) set up in the outside of location axle (11), two the mid-portion of bearing (12) is connected with backup pad (10), two the middle part of ring channel (9) is provided with flat board (13), and wiring hole (20) have been seted up at the surperficial middle part of flat board (13).

2. The micro-module data center power distribution cabinet according to claim 1, wherein the connecting assembly (6) comprises a fan (601), an air-permeable mesh enclosure (602) and heat dissipation pipes (603), the air-permeable mesh enclosure (602) is installed at the lower end of the fan (601), and the heat dissipation pipes (603) are installed at the left end and the right end of the air-permeable mesh enclosure (602).

3. The micro-module data center power distribution cabinet according to claim 1, wherein a wiring pipeline (7) is installed at the rear end of the flat plate (13), and a limiting hole (8) is formed in the surface of the wiring pipeline (7).

4. The micromodule data center power distribution cabinet according to claim 1, wherein a cabinet door (14) is installed on a surface of the cabinet body (2), and a handle (15) is installed on a left side of a surface of the cabinet door (14).

5. The micromodule data center power distribution cabinet according to claim 4, wherein an alarm (16) is installed above the surface of the cabinet door (14), and a visible window (18) is arranged below the alarm (16).

6. The micro-module data center power distribution cabinet according to claim 1, wherein heat dissipation holes (17) are formed in the right side surface of the power distribution cabinet body (2), and air holes (19) are formed in the surface of the connection plate (4).

7. The micro-module data center power distribution cabinet according to claim 6, wherein the air holes (19) are symmetrically arranged in two groups about a transverse central axis of the connecting plate (4), and the air holes (19) are distributed at equal intervals.

Images