CN215063913U - Latent heat recovery device of data center - Google Patents

Abstract

The utility model discloses a latent heat recovery device of a data center, which comprises a processing box, a heat inlet pipe, a heat exhaust pipe A, a heat exhaust pipe B, a replacement mechanism and a heat preservation mechanism, the replacement mechanism consists of an exhaust valve A, a water tank, a folding connecting pipe, an exhaust valve B, a water inlet pipe, a drain pipe, a throttle valve and an exhaust valve C, a wind power heat source entering the heat inlet pipe is discharged into the folding connecting pipe from the heat discharge pipe A after passing through the treatment box, the folded connecting pipe heats water in the water tank by radiating heat outwards through the pipe wall after the water is heated, the heated water can be continuously put into use from the water discharge pipe by opening the throttle valve, and residual low-temperature wind power in the folded connecting pipe is discharged into the heat discharge pipe B to be conveyed into the working chamber, so that the working chamber obtains a cooling effect, hot gas can be prevented from entering the folded connecting pipe after the exhaust valve A and the exhaust valve B are closed, and the original heat supply utilization mode of the treatment box can be recovered by opening the exhaust valve C.

Description

Latent heat recovery device of data center

Technical Field

The utility model relates to a data center latent heat recovery technical field, in particular to data center latent heat recovery unit.

Background

The internet data center is a service platform with perfect equipment (including high-speed internet access bandwidth, high-performance local area network, safe and reliable computer room environment and the like), specialized management and perfect application. On the basis of the platform, the IDC service provider provides Internet basic platform services (server hosting, virtual host, mail caching, virtual mail and the like) and various value-added services (site renting services, domain name system services, load balancing systems, database systems, data backup services and the like) for the client.

Patent number CN 202020552090.6's a heat recovery plant field, concretely relates to latent heat recovery device of data center. Including front end open-ended processing case, it has the shrouding to handle the case front end can dismantle fixed seal, a serial communication port, be fixed with on the shrouding with handle the second play tuber pipe of incasement portion intercommunication, it goes out first play tuber pipe and the air-supply line rather than inside intercommunication to be fixed with on case left side wall and the right side wall respectively, the air-supply line communicates with data center's exhaust device, the air-out end that the second goes out the tuber pipe is located the office area, the air-out end that first goes out the tuber pipe extends to outdoor, it is provided with the baffle of falling L shape to slide in the case to handle, be provided with second filter mechanism between straight portion and the shrouding, straight portion with handle and be provided with first filter mechanism between the case rear side wall. The utility model discloses, can carry the heat that data center produced to the office area in winter and utilize, can the effectual energy consumption that reduces the office area.

1. The latent heat recovery device of the existing data center can introduce latent heat of the data center into the processing box from the heat inlet pipe by means of wind power, dust-containing heat flow is discharged into a working chamber from the heat discharge pipe at the top end of the processing box after being filtered and dedusted to be heated and utilized in winter, and the latent heat recovery device is lack of a replacement mechanism, so that the latent heat of the recovery device is inconvenient to be effectively utilized in summer, and the replacement and utilization in winter and summer can not be realized.

2. The latent heat recovery device of the existing data center in the prior art can introduce latent heat of the data center into the processing box from the heat inlet pipe by means of wind power, dust-containing heat flow is discharged into a working chamber from the heat discharge pipe at the top end of the processing box after being filtered and dedusted to be heated and utilized in winter, and the heat inlet pipe of the processing box is lack of a good heat insulation mechanism and cannot insulate the heat inlet pipe, so that the latent heat recovery device of the data center is provided.

SUMMERY OF THE UTILITY MODEL

A primary object of the present invention is to provide a latent heat recovery device for a data center, which can effectively solve the problems in the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a latent heat recovery device of a data center comprises a processing box; the outer walls of the two sides of the treatment box respectively extend out of the heat inlet pipe and the heat exhaust pipe A, and the top end of the treatment box is provided with the heat exhaust pipe B; still include replacement mechanism and heat preservation mechanism, replacement mechanism comprises discharge valve A, water tank, inflection connecting pipe, discharge valve B, inlet tube, drain pipe, choke valve and discharge valve C, it has discharge valve A to handle case one side discharge pipe A's body mid-mounting, and discharge pipe A's outer end mouth of pipe department intercommunication is connected with inflection connecting pipe, inflection connecting pipe's inflection body is installed inside the box of water tank, and inflection connecting pipe's long tube end intercommunication connects in discharge pipe B's body one end, discharge pipe B deviates from inflection connecting pipe's vertical body department and installs discharge valve C, inflection connecting pipe's long tube mid-mounting has discharge valve B, the top and the outer wall punishment of water tank are stretched out respectively and are had inlet tube and drain pipe, and the body mid-mounting of drain pipe has the choke valve, heat preservation mechanism comprises inner tube, insulation sleeve and heat preservation layer pipe.

Furthermore, an inner pipe is arranged inside the pipe body of the heat inlet pipe, the outer wall of the inner pipe is sequentially sleeved with a heat insulation sleeve and a heat insulation layer pipe, and the heat insulation layer pipe is bonded to the inner wall of the heat inlet pipe; an inner pipe of a heat preservation mechanism is arranged in the heat inlet pipe, and a heat preservation sleeve and a heat preservation layer pipe are arranged between the inner pipe and the heat inlet pipe for filling and heat preservation, so that heat is not easy to dissipate when a wind power heat source enters the heat inlet pipe.

Further, the surfaces of the treatment tank and the water tank are coated with metal rust preventive paint; the metal antirust paint forms an antirust protective layer on the surfaces of the treatment box and the water tank for antirust protection.

Furthermore, the heat-insulating sleeve is made of rubber-plastic cotton, and the heat-insulating layer pipe is made of rock wool; the heat-insulating sleeve pipe made of the rubber-plastic cotton material and the heat-insulating layer pipe made of the rock wool material can have a good material heat-insulating effect between the inner pipe and the heat inlet pipe.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model discloses a carry out intercommunication connection with the inflection connecting pipe of replacing mechanism with heat extraction pipe A of handling the case, close discharge valve C of heat extraction pipe B department, from the water inlet pipe to water tank internal water injection, the wind-force heat source that gets into in the heat extraction pipe is discharged from heat extraction pipe A department in the inflection connecting pipe after the dust removal processing of handling the case, and the inflection connecting pipe in the water tank can be through the outside heat dissipation heat of pipe wall to the water in the water tank heating after getting into, the water after the heating can open the choke valve and continuously put into the hot-water drum in the bathroom from the drain pipe department and store and use, and surplus low temperature wind-force after the heat is replaced out in the inflection connecting pipe then discharge into discharge pipe B behind discharge valve C and carry in the studio, make the studio obtain the cooling effect, can prevent to take hot gas to get into inflection connecting pipe department after closing discharge valve A and discharge valve B, open discharge valve C this moment, the heat entering the heat inlet pipe can be conveyed to the working chamber from the heat exhaust pipe B of the processing box for supplying heat, and the cold and hot replacement and utilization of the latent heat recovery device of the data center on the heat are realized.

2. The utility model discloses an inside advancing the heat pipe is provided with the inner tube of heat preservation mechanism, and there are insulation support and heat preservation layer pipe to fill between inner tube and the advancing heat pipe simultaneously and keep warm, is difficult for scattering and disappearing the heat when advancing the interior entering wind-force heat source of heat pipe.

Drawings

Fig. 1 is an installation schematic diagram of the latent heat recovery device and the replacement mechanism of the data center of the present invention.

Fig. 2 is the utility model discloses a latent heat recovery unit's of data center water tank cross-sectional view.

Fig. 3 is the utility model discloses a data center latent heat recovery unit's heat preservation mechanism structure sketch map.

In the figure: 1. a treatment tank; 2. a heat inlet pipe; 3. a heat exhaust pipe A; 4. a heat discharge pipe B; 5. a replacement mechanism; 501. an exhaust valve A; 502. a water tank; 503. folding back the connecting pipe; 504. an exhaust valve B; 505. a water inlet pipe; 506. a drain pipe; 507. a throttle valve; 508. an exhaust valve C; 6. a heat preservation mechanism; 601. an inner tube; 602. a heat-insulating sleeve; 603. and (4) insulating layer pipes.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1-3, a latent heat recovery device for a data center comprises a processing box 1, a heat inlet pipe 2, a heat exhaust pipe A3, a heat exhaust pipe B4, a displacement mechanism 5 and a heat preservation mechanism 6, wherein the displacement mechanism 5 comprises an exhaust valve a501, a water tank 502, a folding connecting pipe 503, an exhaust valve B504, a water inlet pipe 505, a drain pipe 506, a throttle valve 507 and an exhaust valve C508, the exhaust valve a501 is installed in the middle of the pipe body of the heat exhaust pipe A3 at one side of the processing box 1, the outer end pipe orifice of the heat exhaust pipe A3 is connected with the folding connecting pipe 503 in an intercommunicating manner, the folding connecting pipe body of the folding connecting pipe 503 is installed inside the box body of the water tank 502, the long pipe end of the folding connecting pipe 503 is connected with one end of the heat exhaust pipe B4 in an intercommunicating manner, the exhaust valve C508 is installed at the position of the heat exhaust pipe B4, which deviates from the vertical pipe 503, the long pipe middle of the folding connecting pipe 503 is installed with the exhaust valve B507, the exhaust valve B507 is installed in the top end of the water tank 502 and the outer wall of the water tank 502 respectively extend out the water inlet pipe 505 and the drain pipe 506, and a throttle valve 507 is arranged in the middle of the body of the drain pipe 506, and the heat preservation mechanism 6 is composed of an inner pipe 601, a heat preservation sleeve 602 and a heat preservation layer pipe 603.

The inner pipe 601 is installed inside the pipe body of the heat inlet pipe 2, the outer wall of the inner pipe 601 is sequentially sleeved with the heat insulation sleeve 602 and the heat insulation layer pipe 603, and the heat insulation layer pipe 603 is bonded to the inner wall of the heat inlet pipe 2; the inner pipe 601 of the heat preservation mechanism 6 is arranged inside the heat inlet pipe 2, and meanwhile, the heat preservation sleeve 602 and the heat preservation layer pipe 603 are arranged between the inner pipe 601 and the heat inlet pipe 2 for filling and heat preservation, so that heat is not easy to dissipate when a wind power heat source enters the heat inlet pipe 2.

Wherein, the outer wall department in treatment case 1 both sides stretches out into heat pipe 2 and heat extraction pipe A3 respectively, and handles the top of case 1 and install heat extraction pipe B4.

Wherein the surfaces of the treatment tank 1 and the water tank 502 are coated with metal rust preventive paint; the metal antirust paint forms an antirust protective layer on the surfaces of the treatment box 1 and the water tank 502 for antirust protection.

The heat-insulating sleeve 602 is made of rubber-plastic cotton, and the heat-insulating layer pipe 603 is made of rock wool; the heat insulation sleeve 602 made of rubber and plastic cotton and the heat insulation layer pipe 603 made of rock wool can have a good heat insulation effect between the inner pipe 601 and the heat inlet pipe 2.

It should be noted that, the utility model relates to a latent heat recovery device for data center, the heat exhaust pipe A3 of the processing box 1 is intercommunicated with the folding connecting pipe 503 of the replacement mechanism 5, the exhaust valve C508 of the heat exhaust pipe B4 is closed, water is filled into the water tank 502 from the water inlet pipe 505, when the wind power heat source entering in the heat intake pipe 2 is dedusted by the processing box 1 and then is exhausted into the folding connecting pipe 503 from the heat exhaust pipe A3, and the folding connecting pipe 503 in the water tank 502 can heat the water in the water tank 502 by the heat dissipated outwards through the pipe wall after being heated, the heated water can be continuously put into the hot water bucket of the bath room from the water exhaust pipe 506 for storage and use, and the residual low temperature wind power in the folding connecting pipe 503 after being replaced by the heat is then exhausted into the heat exhaust pipe B4 behind the exhaust valve C508 and conveyed into the working chamber, so as to obtain the cooling effect in the working chamber, after the exhaust valve A501 and the exhaust valve B504 are closed, hot gas can be prevented from entering the folding connecting pipe 503, at the moment, the exhaust valve C508 is opened, so that heat entering the heat inlet pipe 2 can be conveyed from the heat exhaust pipe B4 of the processing box 1 to a working chamber for supplying heat, and cold and hot replacement utilization of the latent heat recovery device of the data center on the heat is realized; the inner pipe 601 of the heat preservation mechanism 6 is arranged inside the heat inlet pipe 2, and meanwhile, the heat preservation sleeve 602 and the heat preservation layer pipe 603 are arranged between the inner pipe 601 and the heat inlet pipe 2 for filling and heat preservation, so that heat is not easy to dissipate when a wind power heat source enters the heat inlet pipe 2.

The utility model relates to a latent heat recovery device of a data center, which comprises a processing box 1; 2. a heat inlet pipe; 3. a heat exhaust pipe A; 4. a heat discharge pipe B; 5. a replacement mechanism; 501. an exhaust valve A; 502. a water tank; 503. folding back the connecting pipe; 504. an exhaust valve B; 505. a water inlet pipe; 506. a drain pipe; 507. a throttle valve; 508. an exhaust valve C; 6. a heat preservation mechanism; 601. an inner tube; 602. a heat-insulating sleeve; 603. the components of the insulating layer pipe are all universal standard components or components known by the technicians in the field, and the structure and the principle of the insulating layer pipe are known by the technicians in technical manuals or by routine experimental methods.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. A latent heat recovery device of a data center comprises a processing box (1); the method is characterized in that: the outer walls of two sides of the treatment box (1) respectively extend out of the heat inlet pipe (2) and the heat exhaust pipe A (3), and the top end of the treatment box (1) is provided with a heat exhaust pipe B (4); the device also comprises a replacement mechanism (5) and a heat preservation mechanism (6); the replacement mechanism (5) is composed of an exhaust valve A (501), a water tank (502), a reverse connecting pipe (503), an exhaust valve B (504), a water inlet pipe (505), a water outlet pipe (506), a throttle valve (507) and an exhaust valve C (508); an exhaust valve A (501) is arranged in the middle of the tube body of the heat exhaust tube A (3), a return connecting tube (503) is communicated and connected with the outer end tube opening of the heat exhaust tube A (3), the back-folding pipe body of the back-folding connecting pipe (503) is arranged inside the tank body of the water tank (502), and the long pipe end of the folded connecting pipe (503) is communicated with one end of the pipe body of the heat exhaust pipe B (4), an exhaust valve C (508) is arranged at the vertical pipe body of the heat exhaust pipe B (4) which deviates from the folding connecting pipe (503), the middle part of the long pipe of the back-folding connecting pipe (503) is provided with an exhaust valve B (507), a water inlet pipe (505) and a water outlet pipe (506) respectively extend out of the top end and the outer wall of the water tank (502), and a throttle valve (507) is installed in the middle of the body of the drain pipe (506), and the heat preservation mechanism (6) is composed of an inner pipe (601), a heat preservation sleeve (602) and a heat preservation layer pipe (603).

2. The latent heat recovery device of claim 1, wherein: the heat pipe is characterized in that an inner pipe (601) is arranged inside a pipe body of the heat inlet pipe (2), a heat insulation sleeve (602) and a heat insulation layer pipe (603) are sequentially sleeved at the outer wall of the inner pipe (601), and the heat insulation layer pipe (603) is bonded at the inner wall of the heat inlet pipe (2).

3. The latent heat recovery device of claim 1, wherein: the surfaces of the treatment tank (1) and the water tank (502) are coated with metal antirust paint.

4. The latent heat recovery device of claim 1, wherein: the material of insulation support (602) is the cotton material of rubber and plastic, the material of heat preservation layer pipe (603) is the rock wool material.

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