CN206459291U - Modularization energy-saving refrigerating device - Google Patents

Abstract

The utility model discloses a kind of modularization energy-saving refrigerating device, including casing, the Cooling System being arranged on casing, compression refrigerating system, connect and control Cooling System and the control system of compression refrigerating system working condition；Cooling System includes：Indoor with supply unit, outdoor air exhausting device and evaporator, condenser and the refrigerated medium pump being connected；Compression refrigerating system includes：First Heat Exchanger, the second heat exchanger and the compressor being connected；Casing includes adjacent connection and the first holding part and the second holding part that are isolated, is respectively used to accommodate the workpiece of each system.The energy-conservation that the utility model is used for data center is freezed, and its Cooling System and compression refrigerating system are integrated in casing, and whole device compact conformation, floor space is small.During in-site installation, air outlet and the return air inlet air port corresponding to data center reserved on casing can rapid abutting joints, the complicated field engineering without implementing existing air-conditioning installation, simple installation.

Description

Modularization energy-saving refrigerating device

Technical field

The utility model is related to refrigerating field, can be made more specifically to a kind of modular segment for data center Device for cooling.

Background technology

In recent years, the development of data center is very rapid, and developing direction tends to maximization and modularization.How data are reduced Center energy consumption for cooling is the core of technology development, and this requirement has been expedited the emergence of reduces the data of heat treatment energy consumption using naturally cold Point-solution.Current major programme is：Outdoor cold air is condensed by indirect evaporation and indoor radiating air passes through sky Gas-air heat exchanger is swapped, and returns to the cooling of indoor service device end after room air is cooled down again.

But, in actual use, there is heat exchange efficiency is low, floor space is big, cost is high etc. in air-to-air heat exchanger Shortcoming.Further, since such scheme is very high to the fresh air air quality requirements of introducing, so the processing of whole refrigeration system is with after Phase safeguards complicated, and cost is big.

Utility model content

The technical problems to be solved in the utility model is that the drawbacks described above for prior art is imitated there is provided one kind heat exchange The modularization energy-saving refrigerating device for data center that rate is high and in-site installation is easy.

The utility model solves the technical scheme that its technical problem used：There is provided a kind of modular segment can freeze dress Put, including casing, the Cooling System being arranged on the casing, compression refrigerating system, connect and control described naturally cold But the control system of system and compression refrigerating system working condition；

The Cooling System includes：Indoor with supply unit, outdoor air exhausting device and the steaming being connected by pipeline Send out device, condenser and refrigerated medium pump；The compression refrigerating system includes：The First Heat Exchanger that is connected by pipeline, second are changed Hot device and compressor；

The casing includes adjacent connection and the first holding part and the second holding part that are isolated；

First holding part is provided with the indoor return air mouthful and indoor air outlet being connected respectively with interior；The interior Return air inlet, the first holding part inner space and indoor air outlet are sequentially communicated the room air to be formed and passed through for indoor air circulation Passage；The indoor with supply unit, First Heat Exchanger and evaporator are disposed in the interior in air duct；

Second holding part is provided with the outdoor air inlet and outdoor exhaust outlet being connected respectively with outdoor；The outdoor Air inlet, the second holding part inner space and outdoor exhaust outlet are sequentially communicated the outdoor air to be formed and be cycled through for outdoor air Passage, the outdoor air exhausting device, the second heat exchanger and condenser are disposed in the outdoor in air duct；

The refrigerated medium pump and compressor are arranged in first holding part or the second holding part.

Preferably, the First Heat Exchanger and evaporator are superimposed to form a module in first holding part, and The indoor return air mouthful side is arranged on towards indoor return air mouth with the First Heat Exchanger；

The indoor with supply unit is arranged at the indoor return air mouthful, or at the indoor air outlet.

Preferably, second heat exchanger and condenser are superimposed to form a module in second holding part, and The outdoor exhaust outlet side is arranged on towards the outdoor exhaust outlet with the condenser；

The outdoor air exhausting device is arranged at the outdoor exhaust outlet, or at the outdoor air inlet.

Preferably, the outdoor air exhausting device is located at the side or top of second holding part.

Preferably, first holding part includes adjacent connection and the first inlet section and the first outlet section that are connected, institute State indoor return air mouthful to be located on first inlet section, the indoor air outlet is located on first outlet section；

Second holding part includes adjacent connection and the second inlet section and the second outlet section that are connected, and the outdoor is entered Air port is located on second inlet section, and the outdoor exhaust outlet is located on second outlet section.

Preferably, the modularization energy-saving refrigerating device also includes the first filter filtered to room air； First filter is arranged at the indoor return air mouthful and/or indoor air outlet.

Preferably, the modularization energy-saving refrigerating device also includes the second filter filtered to outdoor air； Second filter is arranged at the outdoor air inlet and/or outdoor exhaust outlet.

Preferably, the first humiture that the modularization energy-saving refrigerating device also includes electrically connecting with the control system is passed Sensor and the second Temperature Humidity Sensor；First Temperature Humidity Sensor is arranged at the indoor return air mouthful, second temperature Humidity sensor is arranged at the outdoor air inlet.

Preferably, the modularization energy-saving refrigerating device also includes the humidification system humidified to outdoor air；The humidification System is electrically connected with the control system, is arranged in second holding part and positioned at the outdoor air inlet side.

Preferably, the humidification system is spray system or wet film system.

Modularization energy-saving refrigerating device of the present utility model, the energy-conservation for data center is freezed, its Cooling System It is integrated in compression refrigerating system in casing, whole device compact conformation, floor space is small.During in-site installation, reserved on casing Air outlet and return air inlet air port corresponding to data center can rapid abutting joint, without implementing the complexity scene that existing air-conditioning is installed Engineering, simple installation.

Brief description of the drawings

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

Fig. 1 is the schematic diagram of modularization energy-saving refrigerating device of the present utility model；

Fig. 2 is the control principle drawing of modularization energy-saving refrigerating device of the present utility model；

Fig. 3 is the stereogram of the embodiment of modularization energy-saving refrigerating device one of the present utility model；

Fig. 4 is the stereogram of another embodiment of modularization energy-saving refrigerating device of the present utility model.

Fig. 5 is modularization energy-saving refrigerating device control flow chart of the present utility model.

Embodiment

In order to be more clearly understood to technical characteristic of the present utility model, purpose and effect, accompanying drawing is now compareed detailed Illustrate embodiment of the present utility model.

As shown in Figure 1, 2 and combine Fig. 3,4, modularization energy-saving refrigerating device of the present utility model, for data center, its Including casing 1, the Cooling System being arranged on casing 12, compression refrigerating system 3 and control system 4；Control system 4 with Cooling System 2, compression refrigerating system 3 are connected, the working condition of control Cooling System 2 and compression refrigerating system 3.

Wherein, Cooling System 2 includes：Indoor with supply unit 21, outdoor air exhausting device 22, evaporator 23, condenser 24 and refrigerated medium pump 25, evaporator 23, condenser 24 are connected with refrigerated medium pump 25 by pipeline, form Cooling System 2 Refrigerant circulation line.Compression refrigerating system 3 includes：First Heat Exchanger 31, the second heat exchanger 32 and compressor 33, the three It is connected by pipeline, forms the refrigerant circulation line of compression refrigerating system 3.

Casing 1 includes adjacent connection and the first holding part 11 and the second holding part 12 that are isolated.The He of first holding part 11 The adjacent connection in the horizontal direction of second holding part 12.

First holding part 11 is provided with the indoor return air mouthful 111 and indoor air outlet 112 being connected respectively with interior；It is indoor Return air inlet 111, the inner space of the first holding part 11 and indoor air outlet 112 are sequentially communicated to form what is for indoor air circulation passed through Indoor air channel；Indoor with supply unit 21, First Heat Exchanger 31 and evaporator 23 are disposed in the interior in air duct.Indoor bag Include data center room；Enter the first holding part 11 from indoor return air mouthful 111 from indoor hot-air, it is logical along room air Road, with being exported after First Heat Exchanger 31 and the heat exchange of evaporator 23 by indoor air outlet 112 to interior, is that data center 6 drops Temperature.

Second holding part 12 is provided with the outdoor air inlet 121 and outdoor exhaust outlet 122 being connected respectively with outdoor；It is outdoor Air inlet 121, the inner space of the second holding part 12 and outdoor exhaust outlet 122 are sequentially communicated to form what is cycled through for outdoor air Outdoor air path, outdoor air exhausting device 22, the second heat exchanger 32 and condenser 24 are disposed in the outdoor in air duct.Outdoor bag Include the exterior space of data center；Enter the second holding part 12 from outdoor air inlet 121 from outdoor cold air, along outdoor By the row of outdoor exhaust outlet 122 to outdoor after air duct and the second heat exchanger 32 and the heat exchange of condenser 24.

Refrigerated medium pump 25 and compressor 33 may be provided in the first holding part 11 or the second holding part 12.

As shown in figure 1, in the schematic diagram of modularization energy-saving refrigerating device of the present utility model, the He of Cooling System 2 Compression refrigerating system 3 is separate, and can control two systems by control system 4 independently works or while work.

As shown in figure 3, in one embodiment of modularization energy-saving refrigerating device of the present utility model, the first of casing 1 Holding part 11, First Heat Exchanger 31 and evaporator 23 are superimposed to form a module in the first holding part 11, and are changed with first Hot device 31 is disposed in the interior the side of return air inlet 111 towards indoor return air mouthful 111.The mould that First Heat Exchanger 31 and evaporator 23 are constituted Block, can vertically or slant setting according to the circulating direction of room air.

Indoor with supply unit 21 is disposed in the interior at return air inlet 111, or at indoor air outlet 112.In the present embodiment, room Interior air-supply arrangement 21 is disposed in the interior the side of return air inlet 111, between First Heat Exchanger 31 and indoor return air mouthful 111.It is indoor Air-supply arrangement 21 includes one or more induced draft fans, and induced draft fans are with air intake air port towards indoor return air mouthfuls 111.

Further, the first holding part 11 may include adjacent connection and the first inlet section 13 being connected and the first outlet section 14, indoor return air mouthful 111 is located on the first inlet section 13, and indoor air outlet 112 is located on the first outlet section 14.First inlet section 13 and first outlet section 14 can adjacent connection in the horizontal direction, can also the adjacent connection of in the vertical direction.Into first The room air of holding part 11 exports interior after heat exchange in the first inlet section 13 from the first outlet section 14.

In the second holding part 12 of casing 1, the second heat exchanger 32 and condenser 24 are superimposed shape in the second holding part 12 Into a module, and with condenser 24 side of exhaust outlet 122 is disposed in the outdoor towards outdoor exhaust outlet 122.Second heat exchanger 32 The module constituted with condenser 24, can vertically or slant setting according to the circulating direction of outdoor air.

Outdoor air exhausting device 22 can be disposed in the outdoor at exhaust outlet 122, or at outdoor air inlet 121；For example it is direct Coordinate in outdoor exhaust outlet 122 or outdoor air inlet 121, or be located outside exhaust outlet 122 or outdoor air inlet 121 1 Side.

In the present embodiment, outdoor air exhausting device 22 is located at the side of the second holding part 12；The correspondence of outdoor exhaust outlet 122 is the The side of two holding parts 12.Further, outdoor air exhausting device 22 coordinates in outdoor exhaust outlet 122.Outdoor air exhausting device 22 Including one or more induced draft fans, induced draft fans are with air inlet the second holding part 12 of direction.

Further, the second holding part 12 may include adjacent connection and the second inlet section 15 being connected and the second outlet section 16, outdoor air inlet 121 is located on the second inlet section 15, and outdoor exhaust outlet 122 is located on the second outlet section 16.Second inlet section 15 and second outlet section 16 can adjacent connection in the horizontal direction, can also the adjacent connection of in the vertical direction.Into second The outdoor air of holding part 12 is discharged by the 15 to the second outlet section of the second inlet section 16 in the second outlet section 16 after heat exchange It is outdoor.

Further, modularization energy-saving refrigerating device also includes the first filter 7 filtered to room air, carries High IAQ；First filter 7 is disposed in the interior at return air inlet 111 and/or indoor air outlet 112.

Modularization energy-saving refrigerating device also includes the second filter 8 filtered to outdoor air, improves outdoor empty Makings amount；Second filter 8 is disposed in the outdoor at air inlet 121 and/or outdoor exhaust outlet 122.

First filter 7, the second filter 8 may include screen pack respectively.

With reference to Fig. 1,3, modularization energy-saving refrigerating device also includes the first Temperature Humidity Sensor electrically connected with control system 4 51 and second Temperature Humidity Sensor 52.

First Temperature Humidity Sensor 51 is disposed in the interior at return air inlet 111, for detecting the room into the first holding part 11 Temperature, the humidity of interior air.Second Temperature Humidity Sensor 52 is disposed in the outdoor at air inlet 121, for detecting that entering second holds Put temperature, the humidity of the outdoor air in portion 12.

In addition, modularization energy-saving refrigerating device may also include the humidification system 5 humidified to outdoor air；Humidification system 5 with Control system 4 is electrically connected, and can be turned on and off according to the relative humidity of outdoor air, adjusts the relative humidity of outdoor air.

In the present embodiment, humidification system 5 is arranged in the second holding part 12 and is located outside the side of air inlet 121.Humidification System 5 is spray system or wet film system.

As shown in figure 4, in another embodiment of modularization energy-saving refrigerating device of the present utility model, with above-mentioned Fig. 3 institutes Show unlike embodiment：Outdoor air exhausting device 22 is located at the top of the second holding part 12；The correspondence of outdoor exhaust outlet 122 is second The top surface of holding part 12.

Other of the present embodiment set etc. and can refer in embodiment illustrated in fig. 3 related described, will not be repeated here.

With reference to shown in Fig. 3,4, modularization of the present utility model is that by each system integration on casing 1, each pipeline is pressed It is arranged according to predetermined connection trend in casing 1, the machinery, electrical connection inside casing 1 are complete.Modularization of the present utility model When energy-saving refrigerating device is applied to data center 6, it is only necessary to by the indoor return air mouthful 111 of modularization energy-saving refrigerating device and interior Air outlet 112 is docked with the air inlet and air outlet of data center 6, and installation operation is easy.

In certain embodiments, the difference of ground climatic condition is installed according to refrigerating plant, can in advance be write in control system 4 Enter associated control procedures, control system 4 can automatically control running status of the refrigerating plant in different months.For example, the two of spring Month to April and autumn August to October Cooling System 2 and compression refrigerating system 3 work simultaneously；The November in winter To January, Cooling System 2 is worked independently, and refrigeration demand can be met individually with outdoor natural cooling source；The May of summer is extremely July, compression refrigerating system 3 works independently, and now outdoor temperature is higher, it is impossible to meet refrigeration demand using the outdoor temperature difference.Can be with Understand, corresponding Operation switch is also included in control system 4, in addition to being automatically controlled using control system 4, user is as needed Cooling System 2 or compression refrigerating system 3 can be opened and closed in real time.

In certain embodiments, refrigerating plant can be regulated and controled according to the real-time temperature difference of indoor and outdoor.First Temperature Humidity Sensor 51 gather indoor air temperature T and export to control system 4 in real time, and the second Temperature Humidity Sensor 52 gathers outdoor air temperature in real time Spend Ta and export to control system 4.According to the running environment of refrigerating plant, temperature difference threshold has been previously written in control system 4 b.As shown in Figure 5：

As Ta≤T-b, now outdoor temperature Ta is much smaller than indoor temperature T, can be met using naturally cold refrigerating capacity The full load demand of data center 6.Now, Cooling System 2 works independently, and indoor with supply unit 21 starts, from data The hot-air at center 6 enters the first holding part 11 from indoor return air mouthful 111, with passing through indoor air-supply after the heat exchange cooling of evaporator 23 Mouth 112 is exported to data center 6.Refrigerant suction heat Posterior circle in evaporator 23 drops to condenser 24 in condenser 24 Wen Houzai is exported to evaporator 23.Outdoor cold air enters casing 1, absorptive condenser 24 in the presence of outdoor air exhausting device 22 The heat that middle refrigerant is distributed, temperature raises heel row to outdoor.

As T-b ＜ Ta≤T, now outdoor temperature Ta is less than indoor temperature T and the temperature difference is smaller, individually with natural cooling source The full load requirement of data center 6 can not be fully met, now Cooling System 2 and compression refrigerating system 3 are while work Make, transfiguration adjusts the live load of compressor 3 on the basis of to greatest extent using natural cooling source, to meet data center 6 Cooling is required.

As T ＜ Ta, outdoor temperature Ta is more than indoor temperature T, can not now use natural cooling source, and compression system is activated individually Cooling system 3 works.

Specifically, the temperature of data center 6 is normally controlled in 25 DEG C, when b=5 DEG C of temperature difference threshold, if outdoor temperature is 15 DEG C, then Cooling System 2 works independently；If outdoor temperature is 22 DEG C, then Cooling System 2 and compression are freezed The cooperation of system 3；If outdoor temperature is 30 degrees Celsius, then compression refrigerating system 3 works independently.

In certain embodiments, the second Temperature Humidity Sensor 52 also relative humidity RH of collection outdoor air, and defeated in real time Go out to control system 4；Humidity regulation threshold value, such as 80% are provided with control system 4.As shown in figure 5, when outside air humidity is less than When 80%, humidification system 5 is opened, the refrigerating efficiency of refrigerating plant is lifted, energy consumption is reduced.When outside air humidity is more than 80% When, close humidification system 5 because now carry out humidification refrigerating efficiency will not be served it is larger.

In addition, in certain embodiments, evaporator 23 is preferably passive type heat pipe evaporator, condenser 24 is passive type heat Pipework condensation device.Refrigerated medium pump 25 is preferably variable capacity refrigerant pump 25.Compressor 33 is preferably variable displacement compressor 33, can Further improve the energy saving that refrigerating plant works under high-temperature condition.

In certain embodiments, compression refrigerating system 3 is water-cooled.Correspondingly, the second heat exchanger 32 is water-cooled condenser, First Heat Exchanger 31 is freezing water evaporimeter.Water cooling heat exchange is ripe prior art, and this repeats no more the specific of water cooling part Structure and connected mode.It should be understood that corresponding water access port is installed with the casing 1 of refrigerating plant in advance.

It should be understood that in the case of using water-cooled condenser with water cooling evaporator, compression refrigerating system 3 can also be wrapped Include the cooling water unit being connected with the second heat exchanger 32, such as cooling tower.Compression refrigerating system 3 also includes connecting with First Heat Exchanger 31 The refrigerating water sets connect.Cooling water unit and refrigerating water sets are placed in refrigerating plant casing 1, refrigerating plant casing 1 Big I makes corresponding adjustment according to the size of internal functional unit.

The utility model be able to can freeze dress according to the expansible modular segment of the present utility model of heat dissipation capacity demand of data center 6 The size and refrigerating capacity put.Respectively the casing 1 for the modularization energy-saving refrigerating device of data center 6 can be spelled as needed Connect, meet the radiating requirements at field data center.

Embodiment of the present utility model is the foregoing is only, the scope of the claims of the present utility model is not thereby limited, it is every The equivalent structure or equivalent flow conversion made using the utility model specification and accompanying drawing content, or be directly or indirectly used in Other related technical fields, are similarly included in scope of patent protection of the present utility model.

Claims (10)

1. a kind of modularization energy-saving refrigerating device, it is characterised in that including casing, the natural cooling system being arranged on the casing System, compression refrigerating system, the control system for connecting and controlling the Cooling System and compression refrigerating system working condition；

The Cooling System includes：Indoor with supply unit, outdoor air exhausting device and the evaporator being connected by pipeline, Condenser and refrigerated medium pump；The compression refrigerating system includes：The First Heat Exchanger that is connected by pipeline, the second heat exchanger and Compressor；

The casing includes adjacent connection and the first holding part and the second holding part that are isolated；

First holding part is provided with the indoor return air mouthful and indoor air outlet being connected respectively with interior；The indoor return air Mouthful, the first holding part inner space and indoor air outlet be sequentially communicated and to form the room air passed through for indoor air circulation and lead to Road；The indoor with supply unit, First Heat Exchanger and evaporator are disposed in the interior in air duct；

Second holding part is provided with the outdoor air inlet and outdoor exhaust outlet being connected respectively with outdoor；The outdoor air intake Mouthful, the second holding part inner space and outdoor exhaust outlet be sequentially communicated and to form the outdoor air cycled through for outdoor air and lead to Road, the outdoor air exhausting device, the second heat exchanger and condenser are disposed in the outdoor in air duct；

The refrigerated medium pump and compressor are arranged in first holding part or the second holding part.

2. modularization energy-saving refrigerating device according to claim 1, it is characterised in that the First Heat Exchanger and evaporator It is superimposed to form a module in first holding part, and is set with the First Heat Exchanger towards the indoor return air mouthful In the indoor return air mouthful side；

The indoor with supply unit is arranged at the indoor return air mouthful, or at the indoor air outlet.

3. modularization energy-saving refrigerating device according to claim 1, it is characterised in that second heat exchanger and condenser It is superimposed to form a module in second holding part, and institute is arranged on towards the outdoor exhaust outlet with the condenser State outdoor exhaust outlet side；

The outdoor air exhausting device is arranged at the outdoor exhaust outlet, or at the outdoor air inlet.

4. modularization energy-saving refrigerating device according to claim 3, it is characterised in that the outdoor air exhausting device is located at institute State the side or top of the second holding part.

5. modularization energy-saving refrigerating device according to claim 1, it is characterised in that first holding part includes adjacent The first inlet section and the first outlet section for connecting and being connected, the indoor return air mouthful are located on first inlet section, described Indoor air outlet is located on first outlet section；

Second holding part includes adjacent connection and the second inlet section and the second outlet section that are connected, the outdoor air inlet On second inlet section, the outdoor exhaust outlet is located on second outlet section.

6. modularization energy-saving refrigerating device according to claim 1, it is characterised in that the modularization energy-saving refrigerating device Also include the first filter filtered to room air；First filter is arranged on the indoor return air mouthful And/or at indoor air outlet.

7. modularization energy-saving refrigerating device according to claim 1, it is characterised in that the modularization energy-saving refrigerating device Also include the second filter filtered to outdoor air；Second filter is arranged on the outdoor air inlet And/or at outdoor exhaust outlet.

8. the modularization energy-saving refrigerating device according to claim any one of 1-7, it is characterised in that the modular segment energy Refrigerating plant also includes the first Temperature Humidity Sensor and the second Temperature Humidity Sensor electrically connected with the control system；Described One Temperature Humidity Sensor is arranged at the indoor return air mouthful, and second Temperature Humidity Sensor is arranged on the outdoor air inlet Place.

9. modularization energy-saving refrigerating device according to claim 8, it is characterised in that the modularization energy-saving refrigerating device Also include the humidification system humidified to outdoor air；The humidification system is electrically connected with the control system, is arranged on described In two holding parts and positioned at the outdoor air inlet side.

10. modularization energy-saving refrigerating device according to claim 9, it is characterised in that the humidification system is spray system System or wet film system.