CN203825553U - Server environmental control device - Google Patents

Abstract

The utility model discloses a server environmental control device which comprises a server body and a box. A heat exchanger and the server body are arranged in the box. The heat exchanger comprises a condensation section, a communicating support section and an evaporation section in sequence form top to bottom. The evaporation section comprises a row of heat pipeline columns arranged in parallel. Matched fins are arranged on the heat pipeline columns of the evaporation section. The condensation section comprises two rows of heat pipeline columns arranged in parallel. An upper condensation space and a lower evaporation space are arranged in the box. The lower evaporation space is sealed, and the server body and the evaporation section of the heat exchanger are arranged in the lower evaporation space. The condensation section of the heat exchanger is arranged in the upper condensation space. The server environmental control device is obtained through design, is deigned to be of a box structure, and is matched with the newly-designed heat exchanger, and heat radiation and air purification treatment of the server are achieved. The device of the box structure can be moved at any time, practicality is extremely good, and the positive practical significance is achieved.

Description

A kind of server ring control device

Technical field

The utility model relates to a kind of server ring control device.

Background technology

Server (Server), claims again servomechanism, and the computer software that refers to a management resource and provide service for user, is divided into file server, database server and apps server conventionally.Computing machine or the computer system of moving above software are also referred to as server.The hardware of server system forms the computer usual contacted with us numerous similarities, and main hardware formation still comprises following several major part: central processing unit, internal memory, chipset, I/O bus, I/O equipment, power supply, cabinet and related software.

In order to guarantee that server stably moves, generally need to carry out radiating treatment to it, similar to common PC computer fan heat radiation, server needs better radiating effect.On the other hand, owing to containing some chemical gas in atmosphere, as sulphuric dioxide, sulfuretted hydrogen etc., can slowly corrode server, make the reliability of server have potential safety hazard; Therefore, in order to guarantee that server stably moves, prior art is all that server is placed in a special air-conditioned room, and the temperature in room is maintained in lower scope; In order to guarantee air quality, chemical filter can also be set simultaneously.

Yet, because the room of above-mentioned server is all fixedly installed, thereby cannot be applied to mobile occasion, for example: in some construction occasions, server need to be moved at any time, or, after completing place construction, then go to other places to construct.Therefore, develop a kind of server ring control device that can be mobile at any time, there is positive realistic meaning.

On the other hand, heat interchanger (heat exchanger) is a kind of equipment that the part heat of hot fluid is passed to cold fluid, claims again heat exchanger.Heat interchanger is the common apparatus of chemical industry, oil, power, food and other many industrial sectors, occupies aborning critical role.Existing heat interchanger mainly comprises heat pipe and the fin being mated.Wherein, heat pipe is a kind of heat transmission equipment of evaporation-condensation type, realizes the transmission of heat by the state variation of working medium in pipe.Intraductal working medium vaporization when heat pipe one end (evaporator section) is heated, after vaporization, steam flows to the other end, meet condensation to radiating area (condensation segment) emit latent heat, the effect of condensed fluid collection capillary force and gravity refluxes, get back to evaporator section, then continue the vaporization of being heated, by amount of heat, from heating zone, (evaporator section) is delivered to radiating area (condensation segment) to reciprocation cycle like this.Heat transmission is that the phase transition process by working medium carries out.

The heat interchanger of existing routine, referring to shown in accompanying drawing 1, comprises the heat pipe 1 that a row is set up in parallel, and heat pipe is provided with the fin 2 of cooperation, the general and perpendicular setting of heat pipe of fin.The heat interchanger of this structure is generally vertical setting, so that the working medium in heat pipe flows under Action of Gravity Field.

Yet, there are the following problems for the heat interchanger of said structure: because the length of the condensation segment in existing heat pipe and evaporator section is identical, be therefore generally used for spacious occasion, as outdoor, and for some special occasions, in box body device as smaller in headroom, be difficult to be suitable for.

Summary of the invention

The purpose of this utility model is to provide a kind of server ring control device.

To achieve the above object of the invention, the technical solution adopted in the utility model is: a kind of server ring control device, comprise ontology server, and comprise a casing, in casing, be provided with heat interchanger and described ontology server;

Described heat interchanger comprises successively from top to bottom condensation segment, is communicated with brace sections and evaporator section; Described evaporator section comprises the heat pipes row that a row is set up in parallel; The heat pipes of evaporator section lists the fin that is provided with cooperation; Described condensation segment comprises the heat pipes row that 2 rows are set up in parallel; Each heat exhausting pipe pipeline lists the fin that is provided with cooperation; Described connection brace sections is horizontally disposed U-shaped structure, and in the middle of it, the below of linkage section is provided with the heat pipes row of described evaporator section, and the top of its 2 side linkage sections is respectively equipped with 2 heat exhausting pipe pipeline row of described condensation segment; The orientation of the orientation of the heat pipes row of condensation segment and the heat pipes row of evaporator section is perpendicular;

Described box house has top condensation space and bottom evaporating space; Described bottom evaporating space is confined space, is provided with the evaporator section of described ontology server and heat interchanger in it; In the condensation space of described top, be provided with the condensation segment of described heat interchanger.

Above, described ontology server is prior art, can select Data Service Center.

Above, the connection brace sections of described heat interchanger is used for connecting condensation segment and evaporator section.The heat pipe structure of condensation segment, connection brace sections and evaporator section three complete.The heat pipes row that are set up in parallel in described evaporator section comprise at least 3 heat pipes.Be that heat pipes row comprise complex root heat pipes, form pipeline row.The caliber of described condensation segment and evaporator section is all less than the caliber that is communicated with brace sections.

The orientation of the orientation of the heat pipes row of described condensation segment and the heat pipes row of evaporator section is perpendicular.This is the structure that the connection brace sections by U-shaped structure forms, this orientation that just makes the heat pipes of condensation segment and evaporator section be listed as is perpendicular, further, make the heat dissipation direction of the fin on condensation segment and evaporator section perpendicular, and then greatly promoted its radiating effect.

Preferably, the middle linkage section of described connection brace sections is back-shaped structure.Between the upper lower pipeline of the back-shaped structure of the middle linkage section of described connection brace sections, be provided with at least 1 vertical branched bottom.

In technique scheme, in the evaporating space of described bottom, be also provided with blower fan, the two ends of the evaporator section of heat interchanger are also provided with baffle plate, and baffle plate and wall box form return air channel; Described blower fan is located at a side of heat interchanger evaporator section, and ontology server is located at the opposite side of heat interchanger evaporator section, and is positioned at the space that baffle plate and heat interchanger evaporator section enclose, and forms airflow circulating structure.

In technique scheme, in the condensation space of described top, be also provided with heating radiator.Supporting with this heating radiator, off-premises station that should be connected in addition.

In technique scheme, described top condensation space is divided into front space and rear space, and front and back are provided with dividing plate between space;

The condensation segment of described heat interchanger is located at front space, and described heating radiator is located between space, front and back, is also provided with blower fan in rear space, and the two ends of dividing plate are provided with air door, form airflow circulating structure.

Preferably, the two ends of the front space of described top condensation space are provided with air door, and the two ends of rear space are provided with air door.

In technique scheme, the bottom of described casing is provided with roller.To realize moving freely of whole server ring control device, certainly, also can adopt mechanically moving, such as fork truck etc.

Preferably, described bottom evaporating space is also provided with chemical filter.

Preferably, the length of the condensation segment of described heat interchanger be its evaporator section length 1/2nd.

Because technique scheme is used, the utility model compared with prior art has following advantages:

1, the utility model design has obtained a kind of server ring control device, is designed to body structure, coordinates newly-designed heat interchanger, has realized heat radiation and the air purification of server and has processed; And the device of this body structure can realize and moving at any time, for example, roller is loaded onto in bottom can realize movement; Thereby can be applied to mobile occasion, the construction occasion that for example server need to be moved at any time at some, or after completing place construction, then go to other places to construct, practicality is fabulous, has positive realistic meaning;

2, in device of the present utility model, adopted a kind of heat interchanger, connection brace sections is designed to U-shaped structure, in the middle of it, linkage section arranges the heat pipes row of 1 row's evaporator section, and 2 side linkage sections arrange 2 heat exhausting pipe pipelines row of condensation segment, thereby realizing under thermally equilibrated prerequisite, the contraction in length of condensation segment can be become to 1/2nd of evaporator section; This structure is very favorable for the smaller body structure of headroom, has greatly reduced the volume of casing, has realized the casingization design of server;

3, the utility model is all designed to airflow circulating structure by the top condensation space in casing and bottom evaporating space, has greatly improved heat exchange efficiency, has increased practicality;

4, the utility model is designed to back-shaped structure by the middle linkage section of the connection brace sections of heat interchanger, and many branched bottoms is set thereon between lower pipeline, thereby has greatly improved the circulation condition that is communicated with brace sections, is conducive to flowing of hot intraductal working medium.

5, the utility model is perpendicular by the orientation of the heat pipes row of the orientation of the heat pipes row of the condensation segment of heat interchanger and evaporator section, and then make the heat dissipation direction of the fin on condensation segment and evaporator section perpendicular, make both heat dissipation direction not at same plane, thereby greatly promoted the radiating effect of heat interchanger.

Accompanying drawing explanation

Fig. 1 is the structural representation of heat interchanger in background technology.

Fig. 2 is the stereographic map of heat interchanger in the utility model embodiment mono-.

Fig. 3 is the stereographic map of the connection brace sections of heat interchanger in the utility model embodiment mono-.

Fig. 4 is the heat dissipation direction figure of heat interchanger in the utility model embodiment mono-.

Fig. 5 is the structural representation of the utility model embodiment mono-.

Fig. 6 is the A-A cut-open view of Fig. 5.

Fig. 7 is the B-B cut-open view of Fig. 5.

Fig. 8 is the heat dissipation direction figure of Fig. 6.

Fig. 9 is the heat dissipation direction figure of Fig. 7.

Figure 10 is the another heat dissipation direction figure of Fig. 7.

Wherein: 1, heat pipe; 2, fin; 3, condensation segment; 4, be communicated with brace sections; 5, evaporator section; 6, middle linkage section; 7, side linkage section; 8, branched bottom; 9, ontology server; 10, blower fan; 11, baffle plate; 12, return air channel; 13, heating radiator; 14, front space; 15, rear space; 16, air door; 17, roller.

Embodiment

Below in conjunction with drawings and Examples, the utility model is further described:

Embodiment mono-

Shown in Fig. 2 ~ 10, a kind of server ring control device, comprises ontology server, comprises a casing, is provided with heat interchanger and described ontology server 9 in casing;

Described heat interchanger comprises successively from top to bottom condensation segment 3, is communicated with brace sections 4 and evaporator section 5;

Described evaporator section comprises the heat pipes row that a row is set up in parallel; The heat pipes of evaporator section lists the fin that is provided with cooperation;

Described condensation segment comprises the heat pipes row that 2 rows are set up in parallel; Each heat exhausting pipe pipeline lists the fin that is provided with cooperation;

Described connection brace sections is horizontally disposed U-shaped structure, and in the middle of it, the below of linkage section 6 is provided with the heat pipes row of described evaporator section, and the top of its 2 side linkage sections 7 is respectively equipped with 2 heat exhausting pipe pipeline row of described condensation segment;

The orientation of the orientation of the heat pipes row of condensation segment and the heat pipes row of evaporator section is perpendicular.

The length of described condensation segment be evaporator section length 1/2nd.The middle linkage section of described connection brace sections is back-shaped structure.Between the upper lower pipeline of the back-shaped structure of the middle linkage section of described connection brace sections, be provided with 4 vertical branched bottoms 8;

Described box house has top condensation space and bottom evaporating space; Described bottom evaporating space is confined space, is provided with the evaporator section 5 of described ontology server and heat interchanger in it; In the condensation space of described top, be provided with the condensation segment of described heat interchanger.

In the evaporating space of described bottom, be also provided with blower fan 10, the two ends of the evaporator section of heat interchanger are also provided with baffle plate 11, and baffle plate and wall box form return air channel 12; Described blower fan is located at a side of heat interchanger evaporator section, and ontology server is located at the opposite side of heat interchanger evaporator section, and is positioned at the space that baffle plate and heat interchanger evaporator section enclose, and forms airflow circulating structure.

In the condensation space of described top, be also provided with heating radiator 13.And with the supporting off-premises station of heating radiator.

Described top condensation space is divided into front space 14 and rear space 15, and front and back are provided with dividing plate between space;

The condensation segment of described heat interchanger is located at front space, and described heating radiator is located between space, front and back, is also provided with blower fan 10 in rear space, and the two ends of dividing plate are provided with air door 16, form airflow circulating structure.The two ends of the front space of described top condensation space are provided with air door 16, and the two ends of rear space are provided with air door 16.

The bottom of described casing is provided with roller 17.

Fig. 8 is the heat dissipation direction figure of Fig. 6; Refer to the airflow circulating structure of the bottom evaporating space of casing.Fig. 9 is the heat dissipation direction figure of Fig. 7; Refer to the airflow circulating structure of the top condensation space of casing, this form is relatively applicable to the situation that summer temperature is higher, and now, the air door at the two ends in the space, front and back of top condensation space is all in closed condition, and the air door at the two ends of dividing plate is opened, form inner air circulation.Figure 10 is the another heat dissipation direction figure of Fig. 7, also refer to the airflow circulating structure of the top condensation space of casing, this form is relatively applicable to the situation that winter temperature is lower, now, the air door at the two ends in the space, front and back of top condensation space is all in open mode, and the air door at the two ends of dividing plate is closed, form air-flow outer loop, make full use of the atmosphere that external temperature is lower.

Claims (8)

1. a server ring control device, comprises ontology server, it is characterized in that: comprise a casing, be provided with heat interchanger and described ontology server (9) in casing;

Described heat interchanger comprises successively from top to bottom condensation segment (3), is communicated with brace sections (4) and evaporator section (5); Described evaporator section comprises the heat pipes row that a row is set up in parallel; The heat pipes of evaporator section lists the fin that is provided with cooperation; Described condensation segment comprises the heat pipes row that 2 rows are set up in parallel; Each heat exhausting pipe pipeline lists the fin that is provided with cooperation; Described connection brace sections is horizontally disposed U-shaped structure, and in the middle of it, the below of linkage section (6) is provided with the heat pipes row of described evaporator section, and the top of its 2 side linkage sections (7) is respectively equipped with 2 heat exhausting pipe pipeline row of described condensation segment; The orientation of the orientation of the heat pipes row of condensation segment and the heat pipes row of evaporator section is perpendicular;

Described box house has top condensation space and bottom evaporating space; Described bottom evaporating space is confined space, is provided with the evaporator section (5) of described ontology server and heat interchanger in it; In the condensation space of described top, be provided with the condensation segment of described heat interchanger.

2. server ring control device according to claim 1, it is characterized in that: in the evaporating space of described bottom, be also provided with blower fan (10), the two ends of the evaporator section of heat interchanger are also provided with baffle plate (11), and baffle plate and wall box form return air channel (12); Described blower fan is located at a side of heat interchanger evaporator section, and ontology server is located at the opposite side of heat interchanger evaporator section, and is positioned at the space that baffle plate and heat interchanger evaporator section enclose, and forms airflow circulating structure.

3. server ring control device according to claim 1, is characterized in that: in the condensation space of described top, be also provided with heating radiator (13).

4. server ring control device according to claim 3, is characterized in that: described top condensation space is divided into front space (14) and rear space (15), and front and back are provided with dividing plate between space;

The condensation segment of described heat interchanger is located at front space, and described heating radiator is located between space, front and back, is also provided with blower fan (10) in rear space, and the two ends of dividing plate are provided with air door (16), form airflow circulating structure.

5. server ring control device according to claim 4, is characterized in that: the two ends of the front space of described top condensation space are provided with air door (16), and the two ends of rear space are provided with air door (16).

6. server ring control device according to claim 1, is characterized in that: the bottom of described casing is provided with roller (17).

7. server ring control device according to claim 1, is characterized in that: described bottom evaporating space is also provided with chemical filter.

8. server ring control device according to claim 1, is characterized in that: the length of the condensation segment of described heat interchanger be its evaporator section length 1/2nd.