CN202818839U

CN202818839U - Energy conservation transformed cabinet device

Info

Publication number: CN202818839U
Application number: CN201220416552.7U
Authority: CN
Inventors: 傅晓乐
Original assignee: Guangzhou Holdstorm Science and Technology Co Ltd
Current assignee: Guangzhou Holdstorm Science and Technology Co Ltd
Priority date: 2012-07-31
Filing date: 2012-08-22
Publication date: 2013-03-20
Anticipated expiration: 2022-08-22

Abstract

The utility model provides an energy conservation transformed cabinet device, which is used for a data center machine room and comprises: a cabinet body, which has opposite null gate frameworks; an air supply module main body, which is installed on one of the null gate frameworks; an air return module main body, which is installed on the other null gate framework; a refrigerator; an air supply passage, which communicates the air supply module main body and the refrigerator; and a vent pipe, which communicates the air return module main body and the refrigerator. The cold airflow produced by the refrigerator forms an enclosed cycle flow in the refrigerator, the air supply passage, the air supply module main body, the cabinet body, the air return module main body and the vent pipe. The energy conservation transformed cabinet device can achieve effects that coldness is supplied efficiently and equipment operation will not be affected.

Description

Enclosure means after the reducing energy consumption

Technical field

The utility model relates to the cabinet system field of radiating, specifically the enclosure means behind a kind of reducing energy consumption rack.

Background technology

Along with the arrival of information age, increasing Internet data center (being called for short IDC) sets up.In the conventional art, for solving the heat radiation of the communication equipment in the machine room, adopted the large-scale precision air-conditioning that the integrated environment in the machine room is lowered the temperature, air-conditioning cold flow power is to dispose according to the area of whole machine room and equipment gross power, by reducing the ambient temperature of machine room, reach the temperature conditions of equipment within machine cabinet normal operation.This mode, so that the cold of air-conditioning consumes to a great extent in the building maintenance space structure of, machine room device-independent with interior of equipment cabinet, the cooling energy consumption is large, efficient is low.The policy that this and national energy-saving reduce discharging is inconsistent.

But in a single day the IDC machine room is set up, because requirements of one's work; the work that communication equipment need to continue can't all be shut down and change rack, like this; if under the prerequisite that does not stop communication device works, how to send cold realization Energy Intensity Reduction to the heat radiation of rack, a new difficult problem has been proposed.

Summary of the invention

The purpose of this utility model provides the enclosure means after a kind of reducing energy consumption of efficiently sending the operation of cold, not impact equipment.

For realizing this purpose, the utility model provides the enclosure means after a kind of reducing energy consumption, is used for the machine room of data center, and comprising: the rack body has relative Buddhism framework; The air-supply module bodies is installed on a wherein Buddhism framework; The return air module bodies is installed on an other Buddhism framework; Refrigerator; Air-supply passage is communicated in described air-supply module bodies and refrigerator; Ventilation duct is communicated with return air module bodies and refrigerator; Wherein, the cold airflow of refrigerator manufacturing forms circulating of sealing in refrigerator, air-supply passage, air-supply module bodies, rack body, return air module bodies and ventilation duct.

As preferred embodiment, further comprise the mixed flow surge tank, ventilation duct is communicated with return air module bodies, mixed flow surge tank and refrigerator.

As preferred embodiment, between described air-supply module bodies and the rack body, perhaps also be provided with supplementary structure spare between described return air module bodies and the rack body.

As preferred embodiment, further comprise fixed connecting piece, fixed connecting piece is installed on air-supply module bodies and the return air module bodies, and fixed connecting piece is crossed over the rack body with module bodies and the return air module bodies composition one of will blowing.

As preferred embodiment, be provided with temperature sensor in the described rack body, the position that ventilation duct is connected in rack is equipped with the return air air-valve, and described return air air-valve is regulated the return air in the whole rack according to the data of temperature sensor measurement.

As preferred embodiment, be provided with temperature sensor in the described rack body, air-supply module bodies and air-supply passage link position are equipped with the air-supply air-valve, and described air-supply air-valve is regulated the air-supply in the whole rack according to the data of temperature sensor measurement.

As preferred embodiment, be provided with a plurality of temperature sensors in the described rack body, the intrinsic a plurality of equipment of corresponding rack arrange baffler in the described rack, according to the data of the temperature sensor measurement of diverse location in rack, baffler is regulated air-supply air quantity local in the rack.

As preferred embodiment, described air-supply passage refers to the building floor of machine room and supports overhead space between the structural flooring of rack body.

As preferred embodiment, enclosure means after the described reducing energy consumption further comprises intelligent object, and be provided with temperature sensor in the described rack body, the data that intelligent object transmits for the treatment of temperature sensor, and according to the Data Control air-supply air-valve of temperature sensor to regulate air quantity.

As preferred embodiment, comprise in the described rack being provided with baffler, the signal that the intelligent object temperature sensor is transmitted, and according to the Data Control baffler of temperature sensor with local wind rate in the regulator cubicle.

As preferred embodiment, comprise that being connected part with ventilation duct in the described return air module bodies is provided with the return air air-valve, the data of intelligent object temperature sensor transmission, and according to the Data Control return air air-valve of temperature sensor with the adjusting air quantity.

As preferred embodiment, described intelligent object shows temperature humidity and the warning message of each rack by man-machine interface, and exportable running log form and warning journaling.

Enclosure means after the reducing energy consumption of the present utility model; cover plate by the traditional rack of simple and direct dismounting; the module bodies of will blowing and return air module bodies are installed on the rack body; form airtight rack; form circulating current via enclosed ventilation pipe, air-supply passage; like this; do not need the equipment downtime that is used for communication in the machine room; be conducive to the traditional on-line operation machine room of transformation fast and safely; so that original equipment within machine cabinet efficiently reduces energy consumption when ensureing fast cooling, reach the effect of energy-saving and emission-reduction.

Description of drawings

Fig. 1 is the assembly drawing of the energy-saving cabinet of an embodiment of the present utility model;

Fig. 2 be an embodiment of the present utility model reducing energy consumption after the fundamental diagram of enclosure means;

Fig. 3 be an embodiment of the present utility model reducing energy consumption after the local workflow module map of enclosure means.

The drawing reference numeral explanation

Building floor 1a structural flooring 1b overhead space 1c

Rack body 100 cover plate 2a Buddhism framework 2c

Supplementary structure spare 200 installation screw 3a spiral pin hole 3b

Air-supply module bodies 300 return air module bodies 400

Wallboard 4 spiral pin spare 4a

Fixed connecting piece 5 refrigerators 6

Air-supply air-valve 7 return air air-valves 8

Main ventilation pipe 9 branch ducts 10.

Embodiment

Below in conjunction with accompanying drawing and specific embodiment the utility model is further described in detail.

As shown in Figure 1 and Figure 2, the enclosure means after the reducing energy consumption of an embodiment of the utility model is to obtain on the basis to the transformation of existing rack.Traditional rack lands placement abreast, and the profile major part is cuboid, is comprised of framework and cover plate 2a, has upper cover plate, lower cover, left cover, right cover plate, front shroud and back shroud, and front shroud and back shroud are dismantled easily.Form overhead space 1c between the structural flooring 1b of the building floor 1a of machine room and support rack body 100, overhead space 1c also is referred to as the wind storehouse.

Not affecting under the prerequisite of the online normal operation of IDC calculator room equipment, realize reducing energy consumption, take following steps:

One, with the cover plate 2a dismounting of rack, obtains two relative Buddhism framework 2c.

Because the cover plate 2a of existing rack is installed on the framework by mechanical connection manner, by removing its mechanical connection, two relative cover plate 2a of rack are disassembled, such as the cover plate of the left and right sides if fixing, so forward and backward cover plate is disassembled, obtain two relative Buddhism framework 2c, at this, the rack of having dismantled cover plate 2a is referred to as rack body 100.The Buddhism framework 2c here refers to the part-structure framework of cabinet framework.

Two, supplementary structure spare 200 is installed on the two relative Buddhism framework 2c.

Supplementary structure spare 200 is the hollow framework, two-sided elastic layer with buffering and sealing process.Certainly size and the framework of supplementary structure spare 200 adapt.Two supplementary structure spares 200 are installed on respectively on the two relative Buddhism framework 2c, the method that installs and fixes can adopt the modes such as mechanical connection, such as reserving installation screw 3a at supplementary structure spare 200, also reserved adjustable spiral pin hole 3b on the supplementary structure spare 200, screw 3a is positioned at the corner location of supplementary structure spare 200.

Three, the module bodies 300 of will blowing is installed on a wherein Buddhism framework 2c, and return air module bodies 400 is installed on an other Buddhism framework 2c, forms airtight rack.

Air-supply module bodies 300 and return air module bodies 400, profile is cuboid, but only have the five plate 4(air-supply module bodies 300 of facing the wall and meditating to have the transparent front panel of movable dismounting), the one side of facing Buddhism framework 2c does not have wallboard, the upper and lower wallboard of air-supply module bodies 300 and return air module bodies 400 is equipped with spiral pin spare 4a, spiral pin spare 4a cooperates the spiral pin hole 3b of supplementary structure spare 200, thereby supplementary structure spare 200 is fixedly connected with air-supply module bodies 300, return air module bodies 400 respectively.The upper and lower end of rack body 100 has respectively the fixed connecting piece 5 of two strips, fixed connecting piece 5 is provided with location hole, location hole cooperates the installation screw 3a on the supplementary structure spare 200, be fixedly connected with by screw/screw, like this, fixed connecting piece 5 is across rack body 100, so that air-supply module bodies 300 and return air module bodies 400 are fixed on the rack body 100, is assembled into one.Here said rack body 100 refers to not yet install air-supply module bodies 300, and the rack with Buddhism framework 2c of return air module bodies 400 is not installed yet.

Air-supply module bodies 300 has the function of door, and its front panel is transparent, can watch equipment in the cabinet; Realize the function of movable dismounting by mechanical connection.

Four, the module bodies 300 of will blowing is communicated to refrigerator 6 by air-supply passage, return air module bodies 400 is communicated to refrigerator 6 via ventilation duct, so that the cold airflow of refrigerator 6, by air-supply passage, ventilation duct in air-supply module bodies 300, rack body 100 and return air module bodies 400 form circulating of sealing.

Air-supply passage described herein refers to the building floor 1a of machine room and supports overhead space 1c between the structural flooring 1b of rack body 100, if certainly with common pipe as air-supply passage, also be to realize the purpose of this utility model.Ventilation duct is mainly used in return air, comprises main ventilation pipe and branch duct.

In the present embodiment, refrigerator 6 can adopt air conditioner, perhaps liquid cooling system etc.; That refrigerator 6 adopts thermostatic and humidistatic air conditioning unit as preferred scheme.

The breeze fan (not shown) that the lower end of air-supply module bodies 300 has Based Intelligent Control, the top of breeze fan or below are provided with air-supply air-valve 7, the cold airflow direction of motion that refrigerator 6 is sent is: the wind storehouse (being air-supply passage) of refrigerator 6-〉 structural flooring 1b below-〉 air-supply module bodies-〉 rack body 100-〉 return air module bodies 400-〉branch duct 10-〉mixed flow surge tank-〉 main ventilation pipe 9-〉 refrigerator 6, the upper end of return air module bodies 400 is provided with the return air fan (not shown) of Based Intelligent Control, and the top of return air fan or below are provided with return air air-valve 8.

In the present embodiment, the quantity of rack body 100, air-supply module bodies 300 and return air module bodies 400 is two or more, and each rack body 100 a corresponding described air-supply module bodies 300 and described return air module bodies 400.Ventilation duct comprises main ventilation pipe 9 and some branch ducts 10, each branch duct 10 corresponding rack that connect, the air-flow of branch duct 10 comes together in main ventilation pipe 9, mixed flow surge tank (not shown) is arranged on main ventilation pipe 9 paths, is delivered to refrigerator 6 by main ventilation pipe 9 again behind the air-flow process mixed flow surge tank.Mixed flow surge tank Main Function be compile, distribution and balanced air pressure so that the circulation of cold airflow is more smooth and easy.Arrange if rack is matrix, so every row's rack shares a main ventilation pipe 9, and these main ventilation pipes 9 are gathered again in main ventilation pipe 9 longitudinally, and air-flow is delivered to refrigerator 6.The cold wind that refrigerator 6 is exported sends into building floor 1a and for the space between the structural slab that supports rack, in the space of namely making somebody a mere figurehead below the floor (being air-supply passage), the cold airflow of overhead space 1c is sent into air-supply module bodies 300 from the below.The air-flow of return air module bodies 400 is sent to main ventilation pipe 9 via branch duct 10.The motion of whole air-flow is served back the direction of arrow of airflow direction such as Fig. 2 under being.The system that the overhead space 1c of improved enclosure means (air-supply module bodies 300, return air module bodies 400 namely are installed), top, floor and refrigerator 6 form a sealing, so that the energy consumption of refrigerator 6 all is used for the heat radiation of interior of equipment cabinet equipment, improved cooling effectiveness, energy savings; The useful life of while extension device.

Be provided with a plurality of temperature sensors, humidity sensor (not shown) in the described rack body 100, a plurality of equipment in the corresponding rack body 100, the position that branch duct 10 is connected in rack is equipped with return air air-valve 8, and described return air air-valve 8 is regulated the air draft in the whole rack according to the data of temperature sensor measurement.Be provided with temperature sensor in the described rack body 100, the lower end of air-supply module bodies 300 is equipped with air-supply air-valve 7, and described air-supply air-valve 7 is regulated the air-supply in the whole rack according to the data of temperature sensor measurement.

Baffler (not shown) is set in the described rack, and according to the data at the temperature sensor measurement of diverse location, baffler is regulated the air quantity of sending back to local in the rack.

As shown in Figure 3, the control flow of improved energy-saving cabinet device is: (a) when the temperature value of interior of equipment cabinet by corresponding temperature sensor/humidity sensor (perhaps warm and humid transducer) with temperature or/and humidity data is passed to the control intelligent object; (b) behind the intelligent object receive data, analyze next step action behavior, and produce control signal to corresponding air-supply air-valve 7 and/or return air air-valve 8; (c) air-supply air-valve 7 and/or return air air-valve 8 are according to control signal, and dynamic adjustments air-supply and/or return air amount are so that the temperature in the rack remains in the rational scope.Wherein, intelligent object comprises controller, determining device and signal trigger, controller is used for collecting the temperature information that the temperature sensor transmission comes, and pass to determining device after this information compiled, judged the temperature of interior of equipment cabinet according to the information after compiling via controller by determining device, and determine next step action behavior that need to take, and this action behavior is passed to air-supply air-valve 7 and/or return air air-valve 8, thus regulate air-supply and/or return air amount.

In above-mentioned flow process, can formulate an interior main temperature sensor of rack as the foundation of bulk temperature in the rack, pass to intelligent object; The temperature value that obtains after also can the temperature value weighted average with a plurality of temperature sensors in the rack is as the foundation of bulk temperature in the rack.

When a plurality of equipment of interior of equipment cabinet placement respectively have corresponding temperature sensor, temperature for more accurate each equipment of control, prevent the generation of local overheating, intelligent object can be collected, judge and analyze the temperature value of each temperature sensor transmission in the rack, then control signal is passed to baffler, baffler has the flabellum as shutter, the equipment that each flabellum is corresponding different, by adjusting the opening angle of each flabellum, specific equipment is cooled off.

In order further to strengthen the security performance of rack, in return air module bodies 400 or the outside of rack body 100 the fire-suppressant gas bottle can be installed, at rack body 100 interior installation Smoke Sensors.In case the smog in the rack surpasses predetermined value, Smoke Sensor passes to intelligent object to open the fire valve of fire-suppressant gas bottle with signal; Spurt fire-suppressant gas to enclosure interior, rack is carried out self-extinguishing; Simultaneously with sound and light alarm.

For the further operation of control rack, intelligent object not only receives all working state information (such as temperature, humidity) of each rack body 100, simultaneously the also operational factor of the current loading of induction record rack and refrigerator 6 and warning message etc. realize man-machine interaction interface and form the running log form.

Enclosure means after the reducing energy consumption of the present utility model, studied the actual environment of existing machine room,, realize simultaneously human-computer interaction, form the rack daily record of work to intelligent object in the transfer of data of all working state that possesses single rack, realize the precisely purpose of monitoring; Under the prerequisite of not impact equipment operation, existing rack is reasonably transformed, when reaching the effect of energy-saving and emission-reduction, and can be accurately to each rack, and the temperature of interior of equipment cabinet is carried out real-time accurate adjustment, so that send the efficient of cooling system to reach maximization, the significant economy of tool.

The above embodiment has only expressed several execution mode of the present utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the utility model claim.Should be pointed out that for the person of ordinary skill of the art without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection range of the present utility model.Therefore, the protection range of the utility model patent should be as the criterion with claims.

Claims

1. the enclosure means after the reducing energy consumption is used for the machine room of data center, comprising:

The rack body has two relative Buddhism frameworks;

The air-supply module bodies is installed on a wherein Buddhism framework;

The return air module bodies is installed on an other Buddhism framework;

Refrigerator;

Air-supply passage is communicated in described air-supply module bodies and refrigerator;

Ventilation duct is communicated with return air module bodies and refrigerator;

Wherein, the cold airflow of refrigerator manufacturing forms circulating of sealing in refrigerator, air-supply passage, air-supply module bodies, rack body, return air module bodies and ventilation duct.

2. the enclosure means after the reducing energy consumption according to claim 1 is characterized in that, further comprises the mixed flow surge tank, and ventilation duct is communicated with return air module bodies, mixed flow surge tank and refrigerator.

3. the enclosure means after the reducing energy consumption according to claim 1 is characterized in that, between described air-supply module bodies and the rack body, perhaps also is provided with supplementary structure spare between described return air module bodies and the rack body.

4. the enclosure means after the reducing energy consumption according to claim 1, it is characterized in that, further comprise fixed connecting piece, fixed connecting piece is installed on air-supply module bodies and the return air module bodies, and fixed connecting piece is crossed over the rack body with module bodies and the return air module bodies composition one of will blowing.

5. the enclosure means after the reducing energy consumption according to claim 1, it is characterized in that, be provided with temperature sensor in the described rack body, the position that ventilation duct is connected in rack is equipped with the return air air-valve, and described return air air-valve is regulated the return air in the whole rack according to the data of temperature sensor measurement.

6. the enclosure means after the reducing energy consumption according to claim 1, it is characterized in that, be provided with temperature sensor in the described rack body, air-supply module bodies and air-supply passage link position are equipped with the air-supply air-valve, and described air-supply air-valve is regulated the air-supply in the whole rack according to the data of temperature sensor measurement.

7. the enclosure means after the reducing energy consumption according to claim 1, it is characterized in that, be provided with a plurality of temperature sensors in the described rack body, the intrinsic a plurality of equipment of corresponding rack, in the described rack baffler is set, according to the data of the temperature sensor measurement of diverse location in rack, baffler is regulated air-supply air quantity local in the rack.

8. the enclosure means after the reducing energy consumption according to claim 1 is characterized in that, described air-supply passage refers to the building floor of machine room and supports overhead space between the structural flooring of rack body.

9. the enclosure means after the reducing energy consumption according to claim 1, it is characterized in that, further comprise intelligent object, and be provided with temperature sensor in the described rack body, the data that intelligent object transmits for the treatment of temperature sensor, and according to the Data Control air-supply air-valve of temperature sensor to regulate air quantity.

10. the enclosure means after the reducing energy consumption according to claim 9, it is characterized in that, comprise in the described rack being provided with baffler, the signal that the intelligent object temperature sensor is transmitted, and according to the Data Control baffler of temperature sensor with local wind rate in the regulator cubicle.

11. the enclosure means after the reducing energy consumption according to claim 9, it is characterized in that, comprise that being connected part with ventilation duct in the described return air module bodies is provided with the return air air-valve, the data that the intelligent object temperature sensor is transmitted, and according to the Data Control return air air-valve of temperature sensor to regulate air quantity.

12. the enclosure means after the reducing energy consumption according to claim 9 is characterized in that, described intelligent object shows temperature humidity and the warning message of each rack by man-machine interface, and exportable running log form and warning journaling.