CN217656900U - Data center computer lab waste heat utilization equipment - Google Patents

Abstract

The application relates to a data center computer lab waste heat utilization equipment, including the computer lab, the top of computer lab is provided with and is used for the circulation the heat pipe of the hot-air in the computer lab, the heat pipe is snakelike setting, the week side of heat pipe is provided with a plurality of heat conduction ring canal, the heat pipe is snakelike setting, coolant tank is worn to be equipped with by the heat pipe, coolant tank has installed the cooling water, coolant tank's play water end is provided with the stoving case, the stoving incasement is provided with the stoving pipe, be provided with the drive assembly who is used for driving the coolant flow on the stoving case. This application has and is provided with coolant tank and stoving case at the side of computer lab, utilizes the coolant water in the coolant tank to absorb the heat of the hot-air that the computer lab produced, and when the coolant water flowed into the stoving incasement for the temperature of stoving incasement risees, thereby the effect of drying is carried out article to convenient to use stoving case.

Description

Data center computer lab waste heat utilization equipment

Technical Field

The utility model belongs to the technical field of energy-saving equipment's technique and specifically relates to a data center computer lab waste heat utilization equipment is related to.

Background

A data center is a globally collaborative network of devices that is used to communicate, accelerate, present, compute, store data information over an internet network infrastructure. Most of the electronic components of the data center are driven by low direct current power supplies to operate. The generation of data centers has led to the introduction of people's awareness from the quantitative, structured world to the uncertain and unstructured world, which, like traffic and network communications, will gradually become part of the infrastructure of modern society, thus positively affecting many industries.

Data centers typically contain a large number of communication devices, such as data devices, switching devices, etc., for communicating, accelerating, displaying, computing, storing data information over the internet network infrastructure, and the large amount of heat generated by these devices during operation is typically dissipated using room air conditioning and exhaust fans in cooperation.

However, when the existing data center room dissipates heat, hot air in the room is directly exhausted outside the room through the air conditioner and the exhaust fan, so that the increase of the ambient temperature outside the room also causes the dissipation and waste of a large amount of heat.

SUMMERY OF THE UTILITY MODEL

When dispelling the heat in order to improve current data center computer lab, directly discharge the hot-air in the computer lab outside the computer lab for outside the computer lab ambient temperature's rising also can lead to scattering and disappearing and extravagant phenomenon of a large amount of heats, the utility model provides a data center computer lab waste heat utilization device.

The utility model provides a pair of data center computer lab waste heat utilization equipment adopts following technical scheme:

the utility model provides a data center computer lab waste heat utilization equipment, includes the computer lab, the top of computer lab is provided with and is used for the circulation the heat pipe of hot air in the computer lab, the heat pipe is snakelike setting, the week side of heat pipe is provided with a plurality of heat conduction ring canal, the heat pipe is snakelike setting, coolant tank has been worn to be equipped with to the heat pipe, coolant tank has installed the cooling water, coolant tank's play water end is provided with the stoving case, the stoving incasement is provided with the stoving pipe, be provided with the drive assembly who is used for driving the coolant flow on the stoving case.

Through adopting above-mentioned technical scheme, the side at the computer lab is provided with the heat pipe, the heat pipe inhales the hot-air in the computer lab to the coolant tank in for the coolant tank cooling water absorbs the heat of the hot-air in the heat pipe and the temperature risees, later through drive assembly drive coolant flow, the coolant water enters into the stoving incasement, make the heat of coolant water spread to the stoving incasement, make the temperature of the stoving incasement rise, be convenient for use the stoving case to dry article, thereby utilize the waste heat of computer lab.

Preferably, the heat conducting ring pipe is hollow, and openings at two ends of the heat conducting ring pipe are communicated with the inner wall of the heat conducting pipe.

Through adopting above-mentioned technical scheme, make the heat conduction ring pipe for cavity setting for when hot-air passed in the heat conduction pipe, enter into the heat conduction ring pipe, increased the area of contact between hot-air and the cooling water, be favorable to accelerating the heat exchange between hot-air and the cooling water, make the cooling water absorb the heat of hot-air.

Preferably, the opening of the heat-conducting ring pipe is obliquely provided with an air deflector for guiding air into the heat-conducting ring pipe.

By adopting the technical scheme, the air deflector is arranged at the opening of the heat conduction ring pipe, and the air deflector is inclined towards the opening of the heat conduction ring pipe so as to guide heat air into the heat conduction ring pipe.

Preferably, a heat absorbing plate for absorbing heat is arranged in the machine room, and the air inlet of the heat conducting pipe is attached to the surface of the heat absorbing plate.

Through adopting above-mentioned technical scheme, be provided with the absorber plate in the computer lab, absorb and transmit the top of computer lab through the heat absorber plate to the heat of other positions in the computer lab for the heat pipe can be more quick will absorb the hot-air.

Preferably, the outlet duct of heat pipe is provided with the dust removal case that is arranged in getting rid of the dust in the air, be provided with the dust removal board in the dust removal case.

Through adopting above-mentioned technical scheme, make the heat pipe be connected with the dust removal case for air in the heat pipe is through the absorption dust of dust removal case, thereby returns in the computer lab again.

Preferably, the dust removal incasement is provided with the groove that slides, the tip of dust removal board is provided with slides along, slide along slide set up in slide the inslot.

Through adopting above-mentioned technical scheme, be provided with the groove that slides in the dust removal incasement for the dust removal board slides along the groove that slides and installs in the dust removal incasement, thereby is convenient for dismantle the change to the dust removal board.

Preferably, the driving assembly comprises a connecting water pipe arranged at the water outlet end of the cooling water tank, a driving water pump is arranged on the connecting water pipe, and the output end of the driving water pump is communicated with the drying pipe.

Through adopting above-mentioned technical scheme, be provided with the drive water pump at cooling water tank's play water end, utilize the drive water pump to drive the cooling water and flow into the stoving incasement to in order to accelerate the mobile speed of cooling water in the drying tube.

Preferably, the drying pipe is attached to the inner wall of the drying box and is arranged in a snake shape instead.

Through adopting above-mentioned technical scheme, make the drying duct be snakelike setting, increase the heat radiating area of drying duct in the stoving incasement, be favorable to making the cooling water in the drying duct with heat transfer to the stoving incasement.

In summary, the present application includes at least one of the following beneficial technical effects:

1. a cooling water tank and a drying box are arranged beside the machine room, the cooling water in the cooling water tank is used for absorbing the heat of the hot air generated by the machine room, and when the cooling water flows into the drying box, the temperature in the drying box is raised, so that the drying box is convenient to use for drying the articles;

2. the heat conduction pipe is provided with the heat conduction ring pipe, the air deflector is arranged at the opening of the heat conduction ring pipe, hot air can be guided into the heat conduction ring pipe, the contact area between the hot air and cooling water is increased, and the cooling water is accelerated to absorb the heat of the hot air.

Drawings

FIG. 1 is a schematic view of the overall structure in the present embodiment;

FIG. 2 is a sectional view showing the internal structure of the cooling water tank in the present embodiment;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a sectional view showing an internal structure of the dust removing box according to the present embodiment;

fig. 5 is a sectional view for embodying an internal structure of the drying box in the present embodiment.

Description of reference numerals: 10. a machine room; 11. a heat absorbing plate; 12. a vent hole; 13. a suction port; 14. an air inlet; 20. a heat conducting pipe; 21. an air pump; 22. a heat conducting ring pipe; 23. an air deflector; 30. a cooling water tank; 31. a water return port; 32. a water outlet; 33. connecting a water pipe; 34. driving a water pump; 40. a dust removal box; 41. a sliding groove; 42. a dust removal plate; 43. a sliding edge; 50. a drying box; 51. and a drying pipe.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The utility model provides a data center computer lab waste heat utilization equipment, refers to figure 1, includes computer lab 10, installs a plurality of regulator cubicle in the computer lab 10, has laid on the inner wall of computer lab 10 and has been used for the absorber plate 11 of heat transfer to computer lab 10 top in the computer lab 10, and a plurality of air vent 12 has been seted up on the surface of absorber plate 11, and a plurality of air vent 12 distributes along the surperficial equidistance of absorber plate 11. The top of computer lab 10 has seted up suction port 13, and suction port 13 laminates on the heat-conducting plate at computer lab 10 top, and the air inlet 14 has been seted up to the bottom of computer lab 10.

Referring to fig. 1 and 2, a heat pipe 20 for extracting hot air from the machine room 10 is connected to the suction port 13, and the other end of the heat pipe 20 is communicated with the air inlet 14, so as to circulate the air. An air suction pump 21 for sucking hot air is installed on the heat conduction pipe 20 near the suction port 13, a cooling water tank 30 is installed beside the machine room 10, and cooling water is filled in the cooling water tank 30. The heat pipe 20 is disposed in the cooling water tank 30, and the cooling water is immersed in the surface of the heat pipe 20, and the heat pipe 20 is disposed in the cooling water tank 30 in a serpentine shape.

Referring to fig. 2 and 3, a plurality of heat conductive pipes 22 for increasing a contact area between the heat conductive pipes 20 and the cooling water are integrally formed on the circumferential side of the heat conductive pipes 20, and the plurality of heat conductive pipes 22 are equidistantly distributed along the length direction of the heat conductive pipes 20. The heat conducting ring pipe 22 is arranged in a v-21274shape, the interior of the heat conducting ring pipe 22 is hollow, openings are arranged at the edges of two ends of the heat conducting ring pipe 22, and the two openings of the heat conducting ring pipe 22 are distributed back and forth along the length direction of the heat conducting pipe 20. An opening of the heat conductive ring pipe 22 is fixedly connected with an air deflector 23 for guiding the hot air into the air guide sheet towards the flowing direction of the hot air, the air deflector 23 is positioned at one end of the heat conductive ring pipe 22 close to the suction port 13 in the heat conductive pipe 20, and the air deflector 23 is obliquely arranged towards the opening of the heat conductive ring pipe 22, so that the hot air circulating in the heat conductive pipe 20 enters the heat conductive ring pipe 22 through the air deflector 23, and the contact area of the hot air and the cooling water is increased.

Referring to fig. 4, the end of the heat pipe 20 penetrating through the cooling water tank 30 is connected with a dust removal box 40, a dust removal plate 42 used for adsorbing dust in air is detachably mounted in the dust removal box 40, specifically, a sliding groove 41 is mounted on the inner wall of the dust removal box 40, a sliding edge 43 is mounted at the edge of each of two ends of the dust removal plate 42, and the sliding edge 43 slides along the sliding groove 41, so that the dust removal plate 42 is detached from the dust removal box 40.

Referring to fig. 2 and 5, return water mouth 31 and delivery port 32 have been seted up respectively to the lateral wall of cooling water tank 30's top and bottom, delivery port 32 department installs the drive assembly who is used for driving the cooling water to flow, it is concrete, drive assembly includes the connecting water pipe 33 of being connected with delivery port 32 department, install drive water pump 34 on the connecting water pipe 33, the other end of connecting water pipe 33 is connected with the stoving case 50 that is used for drying the object, install stoving pipe 51 in the stoving case 50, the tip and the stoving pipe 51 intercommunication of connecting water pipe 33, stoving pipe 51 laminates in the inner wall of stoving case 50, and stoving pipe 51 is snakelike setting. The other end of the drying duct 51 is connected to the return port 31 through the side wall of the drying box 50.

The application has the implementation principle that: when the electrical cabinet in the machine room 10 works normally, the temperature in the machine room 10 rises, the heat absorbing plate 11 absorbs heat in the machine room 10, the air suction pump 21 sucks hot air into the heat conducting pipe 20 through the suction port 13 at the top of the machine room 10, the heat conducting pipe 20 penetrates through the cooling water tank 30, and the cooling water in the cooling water tank 30 absorbs heat of the hot air in the heat conducting pipe 20, so that the temperature of the air in the heat conducting pipe 20 is reduced, and the temperature of the cooling water rises. Then, the air in the heat conduction pipe 20 passes through the dust removal box 40, absorbs dust in the air, and is then discharged into the machine room 10 again.

The cooling water in the cooling water tank 30 is firstly sucked into the drying pipe 51 through the water outlet 32 at the bottom of the cooling water tank 30 and the driving water pump 34, the drying pipe 51 is attached to the inner wall of the drying box 50, the temperature in the drying box 50 is increased by using the temperature diffusion, so that other objects can be dried, and then the cooling water with the reduced temperature returns to the cooling water tank 30 through the water return port 31.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a data center computer lab waste heat utilization equipment, includes computer lab (10), its characterized in that: the heat pipe (20) used for circulating hot air in the machine room (10) is arranged at the top of the machine room (10), the heat pipe (20) is arranged in a snake shape, a plurality of heat conduction ring pipes (22) are arranged on the peripheral sides of the heat pipe (20), the heat pipe (20) is arranged in a snake shape, a cooling water tank (30) is arranged in the heat pipe (20) in a penetrating mode, cooling water is installed in the cooling water tank (30), a drying box (50) is arranged at the water outlet end of the cooling water tank (30), a drying pipe (51) is arranged in the drying box (50), and a driving assembly used for driving the cooling water to flow is arranged on the drying box (50).

2. The waste heat utilization device of the data center machine room according to claim 1, wherein: the heat conducting ring pipe (22) is arranged in a hollow mode, and openings at two ends of the heat conducting ring pipe (22) are communicated with the inner wall of the heat conducting pipe (20).

3. The waste heat utilization device of the data center machine room according to claim 2, wherein: an air deflector (23) used for guiding air into the heat conducting ring pipe (22) is obliquely arranged at the opening of the heat conducting ring pipe (22).

4. The waste heat utilization device of the data center machine room according to claim 1, characterized in that: a heat absorption plate (11) used for absorbing heat is arranged in the machine room (10), and an air inlet (14) of the heat conduction pipe (20) is attached to the surface of the heat absorption plate (11).

5. The waste heat utilization device of the data center machine room according to claim 1, characterized in that: the air outlet pipe of heat pipe (20) is provided with dust removal case (40) that is arranged in getting rid of the dust in the air, be provided with dust removal board (42) in dust removal case (40).

6. The waste heat utilization device of the data center machine room according to claim 5, wherein: be provided with in dust removal case (40) and slide groove (41), the tip of dust removal board (42) is provided with slides along (43), slide along (43) slide set up in slide groove (41).

7. The waste heat utilization device of the data center machine room according to claim 1, wherein: the driving assembly comprises a connecting water pipe (33) arranged at the water outlet end of the cooling water tank (30), a driving water pump (34) is arranged on the connecting water pipe (33), and the output end of the driving water pump (34) is communicated with the drying pipe (51).

8. The waste heat utilization device of the data center machine room according to claim 7, wherein: the drying pipe (51) is attached to the inner wall of the drying box (50) and is arranged in a snake shape.

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