CN207471729U - Modular air conditioner - Google Patents
Modular air conditioner Download PDFInfo
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- CN207471729U CN207471729U CN201721111425.5U CN201721111425U CN207471729U CN 207471729 U CN207471729 U CN 207471729U CN 201721111425 U CN201721111425 U CN 201721111425U CN 207471729 U CN207471729 U CN 207471729U
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- air
- heat exchanger
- modular
- refrigerated area
- air conditioner
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Abstract
The utility model provides a kind of modular air conditioner, including primary module and expands module, the primary module includes refrigerated area and non-brake method region;The expansion module only includes refrigerated area;The refrigerated area is provided with heat exchanger and wind turbine;The heat exchanger is arranged in the air duct of the refrigerated area;The assembling is in wind turbine intracavitary;The wind field upstream of the heat exchanger is the air return section of the modular air conditioner;At least a kind of return air inlet in the first kind return air inlet that the refrigerated area air return section side is provided on the air-conditioner housing of the air return section, the top surface for being arranged on the refrigerated area or the second class return air inlet of bottom surface and the third class return air inlet three classes being arranged on the side plate opposite with the refrigerated area of the non-brake method region;It is interconnected between main mould refrigerated area in the block and non-brake method region;So set, can be increased the service clearance of air-conditioner set, the heat exchange efficiency of heat exchanger is improved.
Description
Technical field
The utility model is related to air-conditioning technical field, more particularly to a kind of modular air conditioner.
Background technology
Air conditioner in machine room is also thermostatic and humidistatic air conditioning unit room special air conditioner, be it is a kind of specialize in that computer room uses to temperature, wet
The very high High Precision Air-conditioning of the precision of control is spent, computer room temperature can be not only controlled, humidity can also be controlled simultaneously.Existing
In precise machine room air conditioner structure, one side indoor unit volume is larger, and air-conditioning is caused to be difficult to carry and transport;On the other hand due to room
Component is more in interior machine, and the overall dimensions of indoor unit are limited by installation dimension in computer room where it, so as to cause to room
The maintenance work of interior machine is difficult to.
Utility model content
Based on above-mentioned, a kind of modular air conditioner is provided.
A kind of modular air conditioner including primary module and expands module, and the primary module includes refrigerated area and non-brake method
Region;The expansion module only includes refrigerated area;The refrigerated area is provided with heat exchanger and wind turbine;The heat exchanger
It is arranged in the air duct of the refrigerated area;The assembling is in wind turbine intracavitary;The wind field upstream of the heat exchanger is institute
State the air return section of modular air conditioner;The return air inlet for return air is provided on the air-conditioner housing of the air return section;
The return air inlet includes at least a kind of in following three classes return air inlet:It is arranged on the refrigerated area air return section side
First kind return air inlet, be arranged on the refrigerated area top surface or bottom surface the second class return air inlet and be arranged on the non-system
Third class return air inlet on the side plate opposite with the refrigerated area of cold-zone domain;
It is interconnected between main mould refrigerated area in the block and non-brake method region;
The modular air conditioner includes at least a kind of coolant system in compressor coolant system and fluorine pump coolant system.
A set of heat exchanger, and the heat exchanger are included at least in the refrigerated area in one of the embodiments,
It is all contained in compressor coolant system or at least a set of heat exchanger is included in fluorine pump coolant system.
The heat exchanger uses " V " font heat exchanger in one of the embodiments, and in " V " font heat
Exchanger is provided at both ends with sealing plate.
It further includes to handle sensor signal and to the main mould in the primary module in one of the embodiments,
The each motion device set in block and the expansion module sends out the vulnerabilities scan unit of action command, the vulnerabilities scan list
Member is arranged on the sealing plate of " V " font heat exchanger either end.
A compressor and/or fluorine is at least set to pump in the primary module in one of the embodiments, and participates in refrigerant
The compressor of every of system operation or fluorine pump are at least connected with a set of heat exchanger in a refrigerated area.
The module of expanding is from the primary module refrigerated area side and the primary module group in one of the embodiments,
Close connection, and the primary module and expansion module in each motion device with the vulnerabilities scan list in the primary module
Member connection.
Air-conditioner housing and the column branch for installing the compressor or fluorine pump are further included in one of the embodiments,
Frame, the column support are fixed on vertically on the side plate and bottom surface of the air-conditioner housing in the non-brake method region, and when described
When modular air conditioner is pumped using the compressor and/or fluorine of two or more, the compressor and/or fluorine pump are in the column support
Vertical direction higher slice setting.
The air-out mode of the modular air conditioner includes upper air-out mode and lower outlet air side in one of the embodiments,
Formula, and when using upper air-out mode, the second class return air inlet is arranged on the bottom surface of the refrigerated area;When using lower outlet air
During mode, the second class return air inlet is arranged on the top surface of the refrigerated area.
Auxiliary thermal is further included in one of the embodiments, and when the modular air-conditioning uses upper outlet air, it is described
At least one described wind turbine intracavitary of modular air conditioner is provided with the auxiliary thermal, and be provided with the institute of the auxiliary thermal
Wind turbine intracavitary is stated at least provided with a set of auxiliary thermal;The auxiliary thermal is arranged on the wind turbine cavity wall;
When the modular air-conditioning use lower outlet air when, at least one described wind turbine intracavitary of the modular air conditioner or
The heat converter air-out mouth is provided with the auxiliary thermal, and is provided with the wind turbine intracavitary or described of the auxiliary thermal
Heat converter air-out mouth is at least provided with a set of auxiliary thermal;The auxiliary thermal be arranged on the wind turbine cavity wall or
It is arranged on the heat exchanger mounting bracket at the heat converter air-out mouth;
Humidifier is further included in one of the embodiments, and the humidifier is arranged on the heat exchanger wind field upstream
On arbitrary side inner wall in air duct, the humidification port of the humidifier is arranged on heat exchanger downstream wind field by pipeline
In.
In one of the embodiments, when the modular air-conditioning uses frequency-changeable compressor, the modular air-conditioning is also
Frequency converter is provided with, the frequency converter is arranged on the top layer in the non-brake method region.
A kind of modular air-conditioning, by cancelling the partition board between refrigerated area and non-brake method region so that air-conditioner set
Service clearance is increased;The type of return air inlet is expanded in air return section simultaneously so that the optional area of air-conditioner set return air inlet
Increased, when return air open area obtains increase, the windage of return air inlet will reduce, so set, on the one hand improving wind turbine
On the one hand total head improves air quantity, enhance the heat exchange efficiency of air-conditioning heat exchanger, improves the globality of air-conditioner set
Energy.
Description of the drawings
Upper outlet air modular air-conditionings of the Fig. 1 with an expansion module faces cross-sectional view;
Upper outlet air modular air-conditioner air outlet position views of the Fig. 2 with an expansion module;
Lower outlet air modular air-conditionings of the Fig. 3 with an expansion module faces cross-sectional view;
Lower outlet air modular air-conditioner air outlet position views of the Fig. 4 with an expansion module.
Description of the drawings:100. primary module;101. air-conditioner housing;102. frequency converter;103. heat exchanger mounting bracket; 104.
Heavy-current control unit;105. the first compressor or the first Buddhist pump;106. column support;107. the second compressor or the second Buddhist pump;
108. heat exchanger mounting bracket;109. humidifier;110. filter screen;111. first heat exchanger;112. buckle;113. sealing
Plate;114. weakness control unit;115. the first wind turbine;116. the auxiliary thermal of level-one;117. partition board;200. expand module;201.
The auxiliary thermal of two level;202. second wind turbines;203. heat exchanger mounting brackets;204. second heat exchanger;205. sealing plate;206.
Buckle;207. filter screen;208. heat exchanger mounting brackets;300 first kind return air inlets;400. second class return air inlets;500. third
Class return air inlet.
Specific embodiment
In this patent document, Fig. 1 to Fig. 4 discussed below and the various realities for describing the principle of the disclosure or method
It applies example to be served only for illustrating, and should not be construed as in any way and limit the scope of the present disclosure.Those skilled in the art should manage
Solution, the principle or method of the disclosure can be realized in any appropriate arrangement air-conditioning system.Refer to the attached drawing, the disclosure it is preferred
Embodiment will be described below.In the following description, the detailed description that well-known function or configuration will be omitted, in order to avoid
The theme of the disclosure is obscured with unnecessary details.Moreover, term used herein defines function according to the present invention.Cause
This, the term may according to the intention or usage of user or operator difference.Therefore, term used herein is necessary
Understood based on the description made herein.
A kind of modular air conditioner as shown in Figures 1 to 4, including primary module 100 and expands module 200, the primary module
100 include refrigerated area and non-brake method region;The expansion module only includes refrigerated area;The refrigerated area is provided with hot friendship
Parallel operation and wind turbine;The heat exchanger is arranged in the air duct of the refrigerated area;The assembling is in wind turbine intracavitary;It is described
The wind field upstream of heat exchanger is the air return section of the modular air conditioner;It is provided with and is used on the air-conditioner housing of the air return section
The return air inlet of return air;It is characterized in that:
The return air inlet includes at least a kind of in following three classes return air inlet:It is arranged on the refrigerated area air return section side
First kind return air inlet 300, be arranged on the refrigerated area top surface or bottom surface the second class return air inlet 400 and be arranged on institute
State the third class return air inlet 500 on the side plate opposite with the refrigerated area of non-brake method region;
It is interconnected between refrigerated area and non-brake method region in the primary module 100.
Wherein, a set of heat exchanger is included at least in the refrigerated area, and the heat exchanger is all contained in compressor
In coolant system or at least a set of heat exchanger is included in fluorine pump coolant system.Using the compressor coolant system
The higher operating mode of outdoor temperature is can adapt to, and can enable to utilize room when outdoor temperature is relatively low using the Buddhist pumping system
Outer low temperature is to room temperature lowering, with energy saving.
As shown in Fig. 1 Fig. 3, the heat exchanger uses " V " font heat exchanger, and in " V " the font heat exchanger
Be provided at both ends with sealing plate.The sealing plate is provided at the both ends of the heat exchanger, to prevent wind from being handed over from the heat
Parallel operation flows across and is not involved in exchanging heat.
It further includes to handle sensor signal and to the primary module and the expansion module in the primary module 100
Each motion device of interior setting sends out the vulnerabilities scan unit 114 of action command, and the vulnerabilities scan unit 114 is arranged on institute
On the sealing plate 113 for stating " V " font heat exchanger either end, i.e. the sealing plate of first heat exchanger either end
On 113.So set, the service clearance of the vulnerabilities scan unit 114 can be increased.
A compressor and/or fluorine is at least set to pump in the primary module 100, and participates in every institute of coolant system operation
It states compressor or fluorine pumps a set of heat exchanger being at least connected in a refrigerated area.It can according to the thermic load of computer room
To match the quantity that the modular air-conditioning expands module, after the modular air-conditioning is connected to the expansion module, often
Additional compressor or Buddhist is needed to pump the power for being used as its operation, in addition, when the modular air-conditioning is used as air conditioner in machine room,
Due to the particularity of computer room, certain redundancy is also configured, to improve reliability, so, it generally will setting in the primary module 100
Two or more compressors or Buddhist pump.
The expansion module 200 combines connection from the 100 refrigerated area side of primary module with the primary module 100, and
The primary module 100 and expand module 200 in each motion device with the vulnerabilities scan unit in the primary module
114 connections.It is uniformly controlled modules.
The modular air-conditioning further includes air-conditioner housing 101 and the column support for installing the compressor or fluorine pump
106, the column support 106 is fixed on vertically on the side plate and bottom surface of the air-conditioner housing 101 in the non-brake method region, and
When the modular air conditioner is pumped using the compressor and/or fluorine of two or more, the compressor and/or fluorine pump are described vertical
The vertical direction higher slice setting of column holder.
As shown in Fig. 3 Fig. 4, the air-out mode of the modular air conditioner includes upper air-out mode and lower air-out mode, and
When using upper air-out mode, the second class return air inlet 400 is arranged on the bottom surface of the refrigerated area;When using lower outlet air side
During formula, the second class return air inlet 400 is arranged on the top surface of the refrigerated area.Increase the design position of return air inlet for air-conditioner, have
Help the air-conditioning of design air flow bigger.
As shown in Fig. 1 Fig. 3, the modular air-conditioning further includes auxiliary thermal, and as shown in Figure 1, when the modular is empty
When adjusting using upper outlet air, at least one wind turbine intracavitary of the modular air conditioner is provided with the auxiliary thermal, and be provided with
The wind turbine intracavitary of the auxiliary thermal is at least provided with a set of auxiliary thermal;The auxiliary thermal is arranged on the wind
On machine cavity inner wall.
As shown in figure 3, when the modular air-conditioning uses lower outlet air, the modular air conditioner is described at least one
Wind turbine intracavitary or the heat converter air-out mouth are provided with the auxiliary thermal, and are provided with the wind turbine of the auxiliary thermal
Intracavitary or the heat converter air-out mouth are at least provided with a set of auxiliary thermal;The auxiliary thermal is arranged on the wind turbine
On cavity wall or on the heat exchanger mounting bracket that is arranged at the heat converter air-out mouth;
The modular air-conditioning further includes humidifier, and the humidifier is arranged in the heat exchanger wind field upstream air duct
Arbitrary side inner wall on, the humidification port of the humidifier is arranged on by pipeline in the wind field of the heat exchanger downstream.
In addition, when the modular air-conditioning uses frequency-changeable compressor, the modular air-conditioning is additionally provided with frequency converter, institute
State the top layer that frequency converter is arranged in the non-brake method region.The frequency converter is arranged in the non-brake method region most
Upper strata helps to increase the cooling air conditioner of the frequency converter, enhances heat dissipation effect.
Modular air-conditioning described above, by connecting refrigerated area and non-brake method region so that the repair of air-conditioner set
Space is increased;The type of return air inlet is expanded in air return section simultaneously so that the optional area of air-conditioner set return air inlet obtains
Increase, when return air open area obtains increase, the windage of return air inlet will reduce, so set, blower press on the one hand is improved,
On the one hand air quantity is improved, enhances the heat exchange efficiency of air-conditioning heat exchanger, improve the overall performance of air-conditioner set.
Purpose, technical scheme and advantage to make the utility model embodiment are clearer, new below in conjunction with this practicality
Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched
The embodiment stated is the utility model part of the embodiment, instead of all the embodiments.Based on the implementation in the utility model
Example, those of ordinary skill in the art's all other embodiments obtained without creative efforts, belongs to
The range of the utility model protection.
Embodiment 1
As Fig. 1 Fig. 2 show double compressions of one expansion module of the modular air-conditioning of upper outlet air form and primary module connection
The structure diagram of machine system.
As shown in Figure 1, the modular air conditioner, including primary module 100 and expands module 200, the primary module 100 wraps
Include refrigerated area and non-brake method region;The expansion module 200 only includes refrigerated area.
First heat exchanger 111, filter screen 110, vulnerabilities scan list are provided in the refrigerated area of the primary module 100
Member 114, humidifier 109, auxiliary 116 and first wind turbine 115 of thermal of level-one.
Wherein, the first heat exchanger 111 is " V " font heat exchanger, and upper and lower ends are separately fixed at heat exchange
In device installation 103 and heat exchanger installation 108, and heat exchanger installation 103 and heat exchanger installation 108 are fixed on air-conditioning
On housing 101;The filter screen 110 is close to the first heat exchanger 111 and is installed;The filter screen 110 passes through buckle 112
It is fixedly connected with the side plate of the first heat exchanger 111;The transverse ends of the first heat exchanger 111 are provided with sealing plate
113 are not involved in exchanging heat to prevent wind from from the both ends of the first heat exchanger 111 entering;By the vulnerabilities scan unit 114
It is arranged on the sealing plate of the 111 transverse ends either end of first heat exchanger, to increase the vulnerabilities scan unit 114
Service clearance.
The humidifier 109 is arranged on the arbitrary side inner wall in the first heat exchanger wind field upstream air duct, and
The humidification port of the humidifier is arranged on by pipeline in the wind field of the heat exchanger downstream.
First wind turbine 115 is arranged on the wind turbine intracavitary of the top of 100 refrigerated area of primary module, so that described
First heat exchanger 111 in primary module 100 is exchanged heat using air draught type.
The auxiliary thermal 116 of level-one is arranged on the madial wall of the wind turbine chamber.
Frequency converter 102 is provided in the non-brake method region of the primary module 100, heavy-current control unit 104, first compresses
Machine or the first Buddhist pump the 105, second compressor or the second Buddhist pump 107 and for installing first compressor or the first Buddhist pump
105 and second compressor or the second Buddhist pump 107 column support 106.
Wherein described first compressor or the first Buddhist pump 105 and the second compressor or the second Buddhist pump 107 are in the column branch
Point of two layers installation on frame 106, is arranged such, it is possible to increase first compressor or the first Buddhist pump 105 and the second compressor or the
The service clearance of two Buddhists pump 107.
First compressor or the first Buddhist pump 105 are arranged on the second heat exchanger 204 in a coolant system;
Second compressor or the second Buddhist pump 107 are arranged on the first heat exchanger 111 in a coolant system.
The heavy-current control unit 104 is installed close to the housing 101 with aspect wiring and repair.
The frequency converter 102 is arranged on the top layer in the non-brake method region, and uses partition board between the wind turbine chamber
It separates.The top layer that the frequency converter 102 is arranged in the non-brake method region is contributed to to increase the heat dissipation of the frequency converter
Air-conditioning enhances heat dissipation effect.
It is interconnected between refrigerated area and non-brake method region in the primary module 100.
The expansion module 200 being connect with 100 refrigerated area of primary module only includes refrigerated area.
The refrigerated area for expanding module 200 is provided with second heat exchanger 204, the second wind turbine 202, the auxiliary hot charging of two level
Put 201 and for installing the heat exchanger mounting bracket 203 of the second heat exchanger 204 and heat exchanger mounting bracket 208.
Wherein, the second heat exchanger 204 is " V " font heat exchanger, and upper and lower ends are separately fixed at heat exchange
In device installation 203 and heat exchanger installation 208, and heat exchanger installation 103 and heat exchanger installation 108 are fixed on air-conditioning
On housing 101, described expand in the housing of module is fixed on so as to which heat exchanger installation 208 be maked somebody a mere figurehead;Filter screen 207 is tight
Against 208 installation of heat exchanger installation;The filter screen 207 passes through buckle 206 and the side of heat exchanger installation 208
Plate is fixedly connected;The transverse ends of heat exchanger installation 208 are provided with sealing plate 205 to prevent wind from being installed from the heat exchanger
Enter and be not involved in exchanging heat in 208 both ends.
Second wind turbine 202 is arranged on the wind turbine intracavitary of 200 the top of the expansion module, so that the expansion module
Second heat exchanger 208 in 200 is exchanged heat using air draught type.
The auxiliary thermal 201 of two level is arranged on the madial wall of the wind turbine chamber.
In the modular air-conditioning, the wind field upstream of the heat exchanger is the air return section of the modular air conditioner;
The return air inlet for return air is provided on the air-conditioner housing of the air return section.As shown in Fig. 2, the return air inlet includes being arranged on institute
State the first kind return air inlet 300 of refrigerated area air return section side, the second class return air inlet for being arranged on the refrigerated area bottom surface
400 and the third class return air inlet 500 that is arranged on the side plate opposite with the refrigerated area of the non-brake method region.Wherein, institute
It states first kind return air inlet 300 and third class return air inlet 500 is both provided with return air inlet grid;The second class return air inlet 400 selects
Setting grid is not provided with grid.So set, the area of the modular return air inlet for air-conditioner can be increased, reduce return air inlet resistance
Power.
The expansion module 200 is connect, and tear open from the refrigerated area of the primary module 100 with the primary module 100
The partition board for falling air return section coupling part causes the refrigerated area air return section of the primary module 100 and the expansion module air return section to connect
It is logical.
Embodiment 2
As Fig. 3 Fig. 4 show double compressions of one expansion module of the modular air-conditioning of lower outlet air form and primary module connection
The structure diagram of machine system.
As shown in figure 3, embodiment 2, compared with above-described embodiment 1, the difference of the modular air-conditioning interior layout is main
For:
1. first wind turbine 115 and second wind turbine 202 are separately positioned on the refrigeration in the primary module 100
The bottom in region and the bottom for expanding module 200, so that the first heat exchanger 111 and second heat exchange
Device 204 is exchanged heat using air draught type, improves heat exchange uniformity, while also make the modular air conditioner is proud to carry out lower outlet air and send
Wind meets the general requirement of air conditioner in machine room;
2. the humidifier 109 is arranged on 111 wind of first heat exchanger described in the modular air-conditioning top air return section
In the upstream air duct of field on the inner wall or stent of non-brake method region side;
3. the auxiliary thermal 116 and the auxiliary thermal 201 are separately positioned on the first heat described in the primary module 100
In the heat exchanger support 103 at 111 air outlet of exchanger second heat exchanger described in module 200 is expanded with described
In the heat exchanger support 203 at 204 air outlet;
4. the first heat exchanger 111 of " V " font described in and the second heat exchanger 204 are in the vertical direction
Setting direction is opposite.
As shown in figure 4, embodiment 2 is compared with above-described embodiment 1, the difference master of the modular return air inlet for air-conditioner setting
It is:The second class return air inlet 400 is separately positioned on the top surface of the refrigerated area of the primary module 100 and the expansion
The top surface of module 200.
Embodiment described above only expresses the several embodiments of the utility model, and description is more specific and detailed,
But therefore it can not be interpreted as the limitation to utility model patent range.It should be pointed out that the common skill for this field
For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to
The scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.
Claims (11)
1. a kind of modular air conditioner including primary module and expands module, the primary module includes refrigerated area and non-brake method area
Domain;The expansion module only includes refrigerated area;The refrigerated area is provided with heat exchanger and wind turbine;The heat exchanger is set
It puts in the air duct of the refrigerated area;The assembling is in wind turbine intracavitary;The wind field upstream of the heat exchanger is described
The air return section of modular air conditioner;The return air inlet for return air is provided on the air-conditioner housing of the air return section;It is characterized in that:
The return air inlet includes at least a kind of in following three classes return air inlet:It is arranged on the of the refrigerated area air return section side
A kind of return air inlet, the top surface for being arranged on the refrigerated area or the second class return air inlet of bottom surface and it is arranged on the non-brake method area
Third class return air inlet on the side plate opposite with the refrigerated area of domain;
It is interconnected between main mould refrigerated area in the block and non-brake method region.
2. modular air conditioner according to claim 1, which is characterized in that a set of heat is included at least in the refrigerated area
Exchanger, and the heat exchanger at least it is a set of be included in compressor coolant system in or fluorine pump coolant system in or chilled water
In system.
3. modular air conditioner according to claim 1, which is characterized in that the heat exchanger is handed over using " V " font heat
Parallel operation, and it is provided at both ends with sealing plate in " V " the font heat exchanger.
4. modular air conditioner according to claim 3, which is characterized in that further include in the primary module and passed for handling
Sensor signal and the light current control that action command is sent out to each motion device set in the primary module and the expansion module
Unit processed, the vulnerabilities scan unit are arranged on the sealing plate of " V " font heat exchanger either end.
5. modular air conditioner according to claim 3 a, which is characterized in that compression is at least set in the primary module
Machine and/or fluorine pump, and every compressor of participation coolant system operation or fluorine pump are at least connected with a refrigerated area
Interior a set of heat exchanger.
6. modular air conditioner according to claim 4, which is characterized in that the expansion module is freezed from the primary module
Region side combines connection with the primary module, and the primary module and expand each motion device in module with the master
Vulnerabilities scan unit connection in module.
7. modular air conditioner according to claim 5, which is characterized in that further include to install the compressor or fluorine
The column support of pump, the column support are fixed on side plate and the bottom surface of the air-conditioner housing in the non-brake method region vertically
On, and when the modular air conditioner is pumped using the compressor and/or fluorine of two or more, the compressor and/or fluorine pump exist
The vertical direction higher slice setting of the column support.
8. modular air conditioner according to claim 1, which is characterized in that the air-out mode packet of the modular air conditioner
Air-out mode and lower air-out mode are included, and when using upper air-out mode, the second class return air inlet is arranged on the refrigeration
The bottom surface in region;When using lower air-out mode, the second class return air inlet is arranged on the top surface of the refrigerated area.
9. modular air conditioner according to claim 1, which is characterized in that further include auxiliary thermal, and when the module
When formula air-conditioning uses upper outlet air, at least one wind turbine intracavitary of the modular air conditioner is provided with the auxiliary thermal, and set
The wind turbine intracavitary of the auxiliary thermal is equipped at least provided with a set of auxiliary thermal;The auxiliary thermal is arranged on institute
It states on wind turbine cavity wall;
When the modular air-conditioning uses lower outlet air, at least one described wind turbine intracavitary or described of the modular air conditioner
Heat converter air-out mouth is provided with the auxiliary thermal, and is provided with the wind turbine intracavitary of the auxiliary thermal or the heat friendship
Parallel operation air outlet is at least provided with a set of auxiliary thermal;The auxiliary thermal is arranged on the wind turbine cavity wall or sets
On the heat exchanger mounting bracket at the heat converter air-out mouth.
10. modular air conditioner according to claim 1, which is characterized in that further include humidifier, the humidifier setting
On arbitrary side inner wall in the heat exchanger wind field upstream air duct, the humidification port of the humidifier is arranged on by pipeline
In the wind field of the heat exchanger downstream.
11. modular air conditioner according to claim 1, which is characterized in that when the modular air-conditioning uses frequency conversion pressure
During contracting machine, the modular air-conditioning is additionally provided with frequency converter, and the frequency converter is arranged on the top layer in the non-brake method region.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721111425.5U CN207471729U (en) | 2017-08-31 | 2017-08-31 | Modular air conditioner |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721111425.5U CN207471729U (en) | 2017-08-31 | 2017-08-31 | Modular air conditioner |
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Publication Number | Publication Date |
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CN207471729U true CN207471729U (en) | 2018-06-08 |
Family
ID=62268437
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Application Number | Title | Priority Date | Filing Date |
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CN201721111425.5U Expired - Fee Related CN207471729U (en) | 2017-08-31 | 2017-08-31 | Modular air conditioner |
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CN (1) | CN207471729U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113551328A (en) * | 2020-04-24 | 2021-10-26 | 合肥通用制冷设备有限公司 | Combined heat exchanger |
-
2017
- 2017-08-31 CN CN201721111425.5U patent/CN207471729U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113551328A (en) * | 2020-04-24 | 2021-10-26 | 合肥通用制冷设备有限公司 | Combined heat exchanger |
CN113551328B (en) * | 2020-04-24 | 2023-04-25 | 合肥通用制冷设备有限公司 | Combined heat exchanger |
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