CN208702697U - Compressor and air conditioner with it - Google Patents
Compressor and air conditioner with it Download PDFInfo
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- CN208702697U CN208702697U CN201821204009.4U CN201821204009U CN208702697U CN 208702697 U CN208702697 U CN 208702697U CN 201821204009 U CN201821204009 U CN 201821204009U CN 208702697 U CN208702697 U CN 208702697U
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- increasing enthalpy
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Abstract
The utility model relates to Compressor Technology fields, and in particular to a kind of compressor and the air conditioner with it, compressor include shell;Compression mechanism is located in the shell, including compression chamber, the compression mechanism air suction way being connected to the air entry of the compression chamber, and the compression mechanism exhaust channel being connected to the exhaust outlet of the compression chamber;Intake channel, suitable for conveying low pressure refrigerant into the compression mechanism air suction way;Motor cavity is located in the shell, constitutes a part of the intake channel;Further include increasing enthalpy access, is suitable for conveying increasing enthalpy fluid into the intake channel or the compression mechanism air suction way.Compressor and air conditioner provided by the utility model reduce refrigerating capacity loss, enhance refrigeration effect.
Description
Technical field
The utility model relates to Compressor Technology fields, and in particular to a kind of compressor and the air conditioner with it.
Background technique
Low pressure compressor in shell, it is different from high voltage type compressor in current common shell, for the latter, steamed in system
Low pressure refrigerant after hair is directly entered in compression cylinder through air entry to be compressed, and compressed high pressure refrigerant is discharged into compressor housing
It is interior, high pressure in shell, then be discharged by the outlet of compressor housing, into system high pressure condensation side;For the former, compression case
It is in vivo air-breathing low pressure, the low pressure refrigerant in system after evaporation is directly entered compressor housing from the air entry of compressor housing
Interior, refrigerant cools down motor by motor cavity, then is entered in compression cylinder by the air entry on the pump housing and compressed, and presses
High pressure refrigerant after contracting is expelled directly out compressor, or is first discharged into a closed discharge chamber, is then exhausted from compression after carrying out oily separation
Machine, into system high pressure condensation side.
Low pressure compressor in this shell, the low pressure refrigerant after evaporation initially enter in compression case body, and in shell
Heat is generated when motor operation, and temperature is much higher than the low pressure refrigerant after evaporation, therefore the heat that motor generates can be low to low temperature
The refrigerant of pressure is heated, and compression chamber is entered after heating and carries out refrigerant compression.During this, motor heats refrigerant, on the one hand
Increase the specific volume into the refrigerant of compression chamber, i.e., mass per volume declines, and then under refrigerant circulation decline, refrigerating capacity
Drop;On the other hand, compression chamber refrigerant suction and discharge point enthalpy also changes, and causes compression power consumption under unit mass to increase, finally
Compressor efficiency is caused to decline, under same operating, pump housing suction temperature is higher, and compressor refrigerating capacity and COP sharply decline, power consumption
It sharply increases.Therefore in this low back-pressure structure, reduce that the motor feels hot to the heat effect of air-breathing, to improving compressor, system
The efficiency of cooling system is very effective.
Utility model content
Therefore, the technical problem to be solved by the present invention is to overcome low pressure compression mechanism in shell in the prior art
Loss of refrigeration capacity is excessive, the defect of poor refrigerating efficiency, to provide a kind of compressor for enhancing refrigeration effect.
Further provide for a kind of air conditioner with above-mentioned compressor.
The technical solution adopted in the utility model is as follows:
A kind of compressor, comprising: shell;Compression mechanism is located in the shell, including compression chamber and the compression chamber
Air entry connection compression mechanism air suction way, and the compression mechanism exhaust channel being connected to the exhaust outlet of the compression chamber;
Intake channel, suitable for conveying low pressure refrigerant into the compression mechanism air suction way;Motor cavity is located in the shell, constitutes
A part of the intake channel;Further include increasing enthalpy access, is suitable for the intake channel or the compression mechanism air suction way
Interior conveying increasing enthalpy fluid.
By be arranged increasing enthalpy access, into intake channel or compression mechanism air suction way convey increasing enthalpy fluid, improve into
The enthalpy for entering the suction condition refrigerant of compression chamber is strengthened, heating shadow of the motor cavity to the low pressure refrigerant of sucking in reduction shell
It rings, to increase the refrigerating capacity of compressor, improves refrigeration effect.
The intake channel includes the first intake channel and the second intake channel, and the motor cavity constitutes first air inlet
A part of access is connected to first intake channel with the compression mechanism air suction way, second intake channel with
The compression mechanism air suction way is directly connected to;The increasing enthalpy access is suitable for first intake channel and/or described second
Increasing enthalpy fluid is conveyed in intake channel.
Low pressure refrigerant after evaporation passes through the first intake channel respectively and the second intake channel enters compression chamber, the first air inlet
The low pressure refrigerant of access first passes through motor cavity, can exchange heat with motor cavity, cools, prevents for the motor component in motor cavity
There is overheating protection in motor, extends motor service life;The second intake channel for being suitable for sucking low pressure refrigerant, the second air inlet are set
Low pressure refrigerant can be passed directly into compression mechanism air suction way by access, and the low pressure in compression chamber is entered by the second intake channel
Refrigerant does not pass through motor cavity, is not heated by motor, and the first intake channel and the second intake channel cooperate jointly, the former is motor
Chamber cools down, and specific volume increases, and the latter is directly entered compression chamber, and the two cooperates the cooling that not only ensure that motor component, but also
The whole specific volume into the refrigerant of compression chamber is reduced, enters compression chamber by motor cavity compared to whole refrigerants, improves cold
Matchmaker's internal circulating load and refrigerating capacity improve compressor efficiency.Increasing enthalpy access both can be logical to the first intake channel and the second air inlet simultaneously
Increasing enthalpy fluid is conveyed in road, individually increasing enthalpy fluid can also be conveyed to the first intake channel or the second intake channel, by mentioning
Height enters the enthalpy of the suction condition refrigerant of compression chamber to enhance the refrigeration effect of compressor, is further reduced motor cavity to sucking
The heat effect of refrigerant.
The compression mechanism further includes being closed in the first partition of compression chamber axial direction one end, and be closed in the pressure
The second partition of the contracting chamber axial direction other end.Two partitions close off the axial ends of compression chamber, form compression cylinder.
There are many specific set-up modes of first intake channel, the second intake channel and increasing enthalpy access, according to compression mechanism
The difference of the setting position of air suction way and compression mechanism exhaust channel and it is different.
The compression mechanism air suction way is set in the side wall of the compression cylinder, and the compression mechanism exhaust channel is set to institute
It states in first partition or the second partition;The increasing enthalpy access is suitable for conveying increasing enthalpy fluid to first intake channel.The
Two intake channels are directly connected to compression chamber, and increasing enthalpy access is connected to the first intake channel, to the low pressure cold after motor cavity
Matchmaker carries out increasing enthalpy, and structure is simple, and compression mechanism exhaust channel is set in first partition or second partition, the height being discharged in compression chamber
Refrigerant is pressed to be discharged by first partition or second partition.
It should be noted that increasing enthalpy access can also convey increasing enthalpy fluid to the second intake channel.
The compression mechanism air suction way and the increasing enthalpy access are set in the first partition, the compression mechanism row
Gas access is set in the second partition, and the increasing enthalpy access is suitable for conveying increasing enthalpy fluid to the compression mechanism air suction way;
Compression mechanism air suction way and compression mechanism exhaust channel are separately positioned on the axial ends of compression chamber, increasing enthalpy access and compressor
Structure air suction way is set in same partition, and refrigerant flow direction can be for from bottom to top, or from top to bottom, Ke Yiling
Setting living.
The first partition is the lower flange set on the compression chamber lower axial end, and compression mechanism air suction way is set to compression
Chamber lower axial end, refrigerant flow direction are from bottom to top, at this time using lower flange as first partition;Or described second
Partition is the lower flange set on the compression chamber lower axial end, and compression mechanism exhaust channel is set to compression chamber lower axial end, refrigerant
Flow direction is from top to bottom, at this time using lower flange as second partition.
The increasing enthalpy access is suitable for conveying increasing enthalpy fluid to the compression mechanism air suction way;The compression mechanism air-breathing is logical
Road and the compression mechanism exhaust channel are mutually independently set in the first partition, and the increasing enthalpy access is set to described the
In one partition;Or the compression mechanism air suction way and the compression mechanism exhaust channel are mutually independently set to described the
In two partitions, the increasing enthalpy access is set in the second partition.
The first partition is set to the upper axial end of the compression chamber, the compression mechanism air suction way and the compressor
Structure exhaust channel is mutually independently set in the first partition, and refrigerant inlet and outlet are above compression chamber at this time, institute
State second partition be set on the compression chamber lower axial end lower flange, low pressure refrigerant from the second air suction way enter first every
Plate, into compression chamber boil down to high pressure refrigerant, high pressure refrigerant enters first partition and is then exhausted from.
The increasing enthalpy access is suitable for conveying increasing enthalpy fluid to the compression mechanism air suction way;The compression mechanism further includes
It is closed in the lower flange of the compression chamber lower axial end, the compression mechanism air suction way and the compression mechanism exhaust channel are equal
It is set in the lower flange independently of each other, the increasing enthalpy access is set in the lower flange.Refrigerant inlet and outlet are equal at this time
Below compression chamber, directly using lower flange setting compression mechanism air suction way and the compression mechanism exhaust channel, without single
Solely setting partition, structure are simple.
The increasing enthalpy fluid is that pressure is suitable with the low pressure refrigerant pressure, and temperature is lower than the gas of the low pressure refrigerant temperature
Body or with liquid gas.
A kind of air conditioner, including above-mentioned compressor, motor component good heat dissipation, compressor refrigeration is high-efficient, low energy consumption.
Detailed description of the invention
It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art
Specific embodiment or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below
In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art
Under the premise of labour, it is also possible to obtain other drawings based on these drawings.
Fig. 1 is the structural schematic diagram of the compressor provided in the embodiments of the present invention one;
Fig. 2 is the structural schematic diagram of the compressor provided in another embodiment of the utility model;
Fig. 3 is the structural schematic diagram of the compressor provided in another embodiment of the utility model;
Fig. 4 is the structural schematic diagram of the compressor provided in another embodiment of the utility model;
Fig. 5 is the structural schematic diagram of the first partition of compression mechanism shown in Fig. 3 or Fig. 4;
Fig. 6 is the sectional view along A-A of first partition shown in Fig. 5;
Fig. 7 is the B-B direction cross-sectional view of first partition shown in Fig. 6;
Fig. 8 is the structural schematic diagram of the compressor provided in another embodiment of the utility model;
Fig. 9 is the structural schematic diagram of the compressor provided in another embodiment of the utility model.
Description of symbols:
1- shell;2- motor cavity;The first intake channel of 3-;4- motor;5- compression chamber;The second intake channel of 6-;7- compression
Mechanism air suction way;8- compression mechanism exhaust channel;9- first partition;10- second partition;11- increasing enthalpy access.
Specific embodiment
The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described
Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally
Field those of ordinary skill every other embodiment obtained without making creative work belongs to practical
Novel protected range.
In the description of the present invention, it should be noted that term " center ", "upper", "lower", "vertical", "horizontal",
The orientation or positional relationship of the instructions such as "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of retouching
State the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have a particular orientation, with
Specific orientation construction and operation, therefore should not be understood as limiting the present invention.In addition, term " first ", " second "
It is used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.
In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified
Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally
Connection;It can be mechanical connection, be also possible to be electrically connected;Can be directly connected, can also indirectly connected through an intermediary,
It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition
The concrete meaning of language in the present invention.
In addition, as long as technical characteristic involved in the utility model different embodiments disclosed below is each other
Not constituting conflict can be combined with each other.
Embodiment one
As shown in Figure 1, compressor provided in this embodiment, comprising: shell 1;Compression mechanism is located in the shell 1, packet
The compression mechanism air suction way 7 for including compression chamber 5, being connected to the air entry of the compression chamber 5, and the exhaust with the compression chamber 5
The compression mechanism exhaust channel 8 of mouth connection;Intake channel, suitable for conveying low pressure refrigerant into the compression mechanism air suction way 7;
Motor cavity 2 is located in the shell 1, constitutes a part of the intake channel;Further include increasing enthalpy access 11, is suitable for described
Increasing enthalpy fluid is conveyed in intake channel or the compression mechanism air suction way 7.
By the way that increasing enthalpy access 11 is arranged, increasing enthalpy fluid is conveyed into intake channel or compression mechanism air suction way 7, is improved
Enthalpy into the suction condition refrigerant of compression chamber 5 is strengthened, and the low pressure refrigerant of 2 pairs of motor cavity suckings in shell 1 is reduced
Heat effect improves refrigeration effect to increase the refrigerating capacity of compressor.
The intake channel includes the first intake channel 3 and the second intake channel 6, and the motor cavity 2 constitutes described first
A part of intake channel 3 is connected to first intake channel 3 with the compression mechanism air suction way 7, second air inlet
Access 6 is directly connected to the compression mechanism air suction way 7;The increasing enthalpy access 11 be suitable for first intake channel 3 and/
Or increasing enthalpy fluid is conveyed in second intake channel 6.
Low pressure refrigerant after evaporation passes through the first intake channel 3 respectively and the second intake channel 6 enters compression chamber 5, due to
Motor cavity 2 constitutes a part of the first intake channel 3, and the low pressure refrigerant of the first intake channel 3 first passes through motor cavity 2, Neng Gouyu
Motor cavity 2 exchanges heat, and cools for 4 component of motor in motor cavity 2, prevents motor 4 from overheating protection occur, and extending motor 4 makes
Use the service life;The second intake channel 6 for being suitable for sucking low pressure refrigerant is set, and the second intake channel 6 can be directly logical by low pressure refrigerant
Enter compression mechanism air suction way 7, do not pass through motor cavity 2 by the low pressure refrigerant that the second intake channel 6 enters in compression chamber 5,
It not heating by motor 4, the first intake channel 3 and the second cooperation jointly of intake channel 6, the former cools down for motor cavity 2,
Specific volume increases, and the latter is directly entered compression chamber 5, and the two cooperates the cooling that not only ensure that 4 component of motor, but also reduces into compression
The whole specific volume of the refrigerant of chamber 5 enters compression chamber 5 by motor cavity 2 compared to whole refrigerants, improves refrigerant circulation and system
Cooling capacity improves compressor efficiency.Increasing enthalpy access 11 can both be conveyed into the first intake channel 3 and the second intake channel 6 simultaneously
Increasing enthalpy fluid individually can also convey increasing enthalpy fluid to the first intake channel 3 or the second intake channel 6, be entered by improving
The enthalpy of the suction condition refrigerant of compression chamber 5 enhances the refrigeration effect of compressor, is further reduced 2 pairs of sucking refrigerants of motor cavity
Heat effect.
Specifically, compression mechanism further includes being closed in the first partition 9 of the axial one end of the compression chamber 5, and be closed in
The second partition 10 of the axial other end of the compression chamber 5.Two partitions close off the axial ends of compression chamber 5, form compressed gas
Cylinder.
There are many specific set-up modes of first intake channel 3, the second intake channel 6 and increasing enthalpy access 11, according to compression
The difference of the setting position of mechanism air suction way 7 and compression mechanism exhaust channel 8 and it is different.In the present embodiment, increasing enthalpy access 11
Increasing enthalpy fluid is conveyed into compression mechanism air suction way 7, the compression mechanism air suction way 7 and increasing enthalpy access 11 are relatively set to
In the first partition 9, the compression mechanism exhaust channel 8 is set in the second partition 10,7 He of compression mechanism air suction way
Compression mechanism exhaust channel 8 is separately positioned on the axial ends of compression chamber 5, and the first partition 9 is set on 5 axis of compression chamber
To the lower flange of lower end, compression mechanism air suction way 7 is set to 5 lower axial end of compression chamber, refrigerant flow direction be from bottom to top, this
Shi Caiyong lower flange is as first partition 9.
Specifically, compression mechanism air suction way 7 is arranged inside lower flange, the second intake channel 6 and compression mechanism air-breathing
Access 7 is directly connected to, and side opposite with compression mechanism air suction way 7 inside lower flange is arranged in increasing enthalpy access 11, with compression
Mechanism air suction way 7 is directly connected to;The low pressure refrigerant of first intake channel 3 is inhaled from the first intake channel for being set to 1 top of shell
Entrance enters the motor cavity 2 in shell 1, then sequentially passes through upper flange, the second partition 10,5 side wall of compression chamber of 5 top of compression chamber
And the internal path in lower flange, it is connected to compression mechanism air suction way 7, the first intake channel 3 and the second intake channel 6
Refrigerant, which merges, to be imported in compression mechanism air suction way 7;Compression mechanism exhaust channel 8 is set in second partition 10, is located at compression chamber 5
Top, the high pressure refrigerant through overcompression are discharged from compression mechanism exhaust channel 8.
Specifically, compressor is low pressure rotary compressor in shell.
Further provide for a kind of air conditioner with above-mentioned compressor, motor component good heat dissipation, compressor refrigeration is high-efficient,
Low energy consumption.
As the alternative embodiments of embodiment one, as shown in Fig. 2, the second partition 10 is set on the compression chamber
The lower flange of 5 lower axial end, compression mechanism exhaust channel 8 are set to the lower axial end of compression chamber 5, and refrigerant flow direction is from upper
Under and, at this time using lower flange as second partition 10.Specifically, 11 phase of compression mechanism air suction way 7 and increasing enthalpy access
It is arranged in the first partition 9 of 5 upper axial end of compression chamber intercommunicatedly, compression mechanism exhaust channel 8 is located at 5 axis of compression chamber
Into the lower flange of lower end, the low pressure refrigerant of the first intake channel 3 is from the first intake channel suction inlet shell for being set to 1 top of shell
Motor cavity 2 in body 1, then the internal path in the upper flange and first partition 9 on compression chamber 5 is sequentially passed through, with compression mechanism
Air suction way 7 is connected to, and compression mechanism exhaust channel 8 is set in lower flange, is located at 5 lower section of compression chamber, and the high pressure through overcompression is cold
Matchmaker is discharged from compression mechanism exhaust channel 8.
As the alternative embodiments of embodiment one, as shown in figure 3, the compression mechanism air suction way 7 and the pressure
Contracting mechanism exhaust channel 8 is mutually independently set in the first partition 9, and increasing enthalpy access 11 is also set in first partition 9, and
Increasing enthalpy access 11 is connected to compression mechanism air suction way 7, mutually indepedent with compression mechanism exhaust channel 8;The first partition 9 is set
In the upper axial end of the compression chamber 5, the compression mechanism air suction way 7 and the compression mechanism exhaust channel 8 are mutually only
It is on the spot set in the first partition 9, above compression chamber 5, the second partition 10 is to set for refrigerant inlet and outlet at this time
In the lower flange of 5 lower axial end of compression chamber, low pressure refrigerant enters first partition 9 from the second air suction way, into compression chamber 5
Boil down to high pressure refrigerant, high pressure refrigerant enter first partition 9 and are then exhausted from.As illustrated in figs. 5-7, have in first partition 9 and form pressure
Contracting mechanism air suction way 7 is connected to suction chamber, and the outlet of the suction chamber is connected to the air entry of compression chamber 5, also has in first partition 9
Have to form the discharge chamber of the connection of compression mechanism exhaust channel 8, the entrance of the discharge chamber is connected to the exhaust outlet of compression chamber 5.Specifically
Ground, suction chamber and discharge chamber can be formed by the groove taken shape in first partition 9, and upper flange is closed in rectangular in first partition 9
At suction chamber and discharge chamber.
As the alternative embodiments of embodiment one, as shown in figure 4, the compression mechanism further includes being closed in the pressure
The lower flange of 5 lower axial end of contracting chamber, the compression mechanism air suction way 7 and the compression mechanism exhaust channel 8 are mutually independent
Ground is set in the lower flange, and below compression chamber 5, increasing enthalpy access 11 is also set to lower flange for refrigerant inlet and outlet at this time
It is interior, and increasing enthalpy access 11 is connected to compression mechanism air suction way 7, it is mutually indepedent with compression mechanism exhaust channel 8;Under directly utilizing
Compression mechanism air suction way 7 and the compression mechanism exhaust channel 8 is arranged in flange, and it is not necessary that partition is separately provided, structure is simple.Such as
Have shown in Fig. 5-7, in lower flange and forms the connection suction chamber of compression mechanism air suction way 7, the outlet of the suction chamber and compression chamber 5
Air entry connection, also there is in lower flange the discharge chamber for forming the connection of compression mechanism exhaust channel 8, the entrance of the discharge chamber with
The exhaust outlet of compression chamber 5 is connected to.Specifically, suction chamber and discharge chamber can be formed by the groove taken shape on lower flange, lower flange
Lid, which is closed in below lower flange, forms suction chamber and discharge chamber.
As the alternative embodiments of embodiment one, as shown in figure 8, compression mechanism air suction way described in the present embodiment
7 are set in the side wall of the compression cylinder, and the increasing enthalpy access 11 is suitable for conveying increasing enthalpy fluid to first intake channel 3, increase
Enthalpy access 11 be set to first partition 9 in, the compression mechanism exhaust channel 8 be set to upper spacer in, the second intake channel 6 directly with
Compression chamber 5 is connected to, and structure is simple.It should be noted that can be both set in first partition 9 with compression mechanism exhaust channel 8, first
Partition 9 is located at 5 top of compression chamber;It can also be set in second partition with compression mechanism exhaust channel 8, second partition is located at compression chamber
5 lower sections, the interior high pressure refrigerant being discharged of compression chamber 5 are discharged by first partition or second partition.
As the alternative embodiments of embodiment one, as shown in figure 9, compression mechanism air suction way described in the present embodiment
7 are set in the side wall of the compression cylinder, and the increasing enthalpy access 11 is suitable for conveying increasing enthalpy fluid, increasing enthalpy access to the motor cavity 2
11 are set to 2 bottom of motor cavity at upper flange, directly carry out increasing enthalpy to the low pressure refrigerant for entering motor cavity 2, low after increasing enthalpy
Press refrigerant in the first intake channel 3 entered in upper spacer, the compression mechanism exhaust channel 8 is set in upper spacer, and second
Intake channel 6 is directly connected to compression chamber 5, and structure is simple.
Obviously, the above embodiments are merely examples for clarifying the description, and does not limit the embodiments.It is right
For those of ordinary skill in the art, can also make on the basis of the above description it is other it is various forms of variation or
It changes.There is no necessity and possibility to exhaust all the enbodiments.And it is extended from this it is obvious variation or
It changes among the protection scope created still in the utility model.
Claims (11)
1. a kind of compressor, comprising:
Shell (1);
Compression mechanism is located in the shell (1), including compression chamber (5), the pressure being connected to the air entry of the compression chamber (5)
Contracting mechanism air suction way (7), and the compression mechanism exhaust channel (8) being connected to the exhaust outlet of the compression chamber (5);
Intake channel is suitable for conveying low pressure refrigerant into the compression mechanism air suction way (7);
Motor cavity (2) is located in the shell (1), constitutes a part of the intake channel;
It is characterized in that, further including increasing enthalpy access (11), it is suitable for the intake channel or the compression mechanism air suction way (7)
Interior conveying increasing enthalpy fluid.
2. compressor according to claim 1, which is characterized in that the intake channel include the first intake channel (3) and
Second intake channel (6), the motor cavity (2) constitute a part of first intake channel (3), keep first air inlet logical
Road (3) is connected to the compression mechanism air suction way (7), second intake channel (6) and the compression mechanism air suction way
(7) it is directly connected to;The increasing enthalpy access (11) is suitable for first intake channel (3) and/or second intake channel (6)
Interior conveying increasing enthalpy fluid.
3. compressor according to claim 2, which is characterized in that the compression mechanism further includes being closed in the compression chamber
(5) first partition (9) of axial one end, and it is closed in the second partition (10) of the axial other end of the compression chamber (5).
4. compressor according to claim 3, which is characterized in that the compression mechanism air suction way (7) is set to compression cylinder
Side wall in, the compression mechanism exhaust channel (8) is set in the first partition (9) or the second partition (10);It is described
Increasing enthalpy access (11) is suitable for conveying increasing enthalpy fluid to first intake channel (3).
5. compressor according to claim 3, which is characterized in that the compression mechanism air suction way (7) and the increasing enthalpy
Access (11) is set in the first partition (9), and the compression mechanism exhaust channel (8) is set to the second partition (10)
It is interior;The increasing enthalpy access (11) is suitable for conveying increasing enthalpy fluid to the compression mechanism air suction way (7).
6. compressor according to claim 5, which is characterized in that the first partition (9) is set on the compression chamber (5)
The lower flange of lower axial end;Or the second partition (10) is the lower flange set on the compression chamber (5) lower axial end.
7. compressor according to claim 3, which is characterized in that the increasing enthalpy access (11) is suitable for the compression mechanism
Air suction way (7) conveys increasing enthalpy fluid;The compression mechanism air suction way (7) and the compression mechanism exhaust channel (8) are homogeneous
It is mutually independently set in the first partition (9), the increasing enthalpy access (11) is set in the first partition (9);Or it is described
Compression mechanism air suction way (7) and the compression mechanism exhaust channel (8) are mutually independently set to the second partition (10)
Interior, the increasing enthalpy access (11) is set in the second partition (10).
8. compressor according to claim 7, which is characterized in that the first partition (9) is set to the compression chamber (5)
Upper axial end, the compression mechanism air suction way (7) and the compression mechanism exhaust channel (8) are mutually independently set to described
In first partition (9), the increasing enthalpy access (11) is set in the first partition (9), and the second partition (10) is set on institute
State the lower flange of compression chamber (5) lower axial end.
9. compressor according to claim 1, which is characterized in that the increasing enthalpy access (11) is suitable for the compression mechanism
Air suction way (7) conveys increasing enthalpy fluid;The compression mechanism further includes being closed in the laxative remedy of the compression chamber (5) lower axial end
Orchid, the compression mechanism air suction way (7) and the compression mechanism exhaust channel (8) are mutually independently set to the lower flange
Interior, the increasing enthalpy access (11) is set in the lower flange.
10. -9 described in any item compressors according to claim 1, which is characterized in that the increasing enthalpy fluid be pressure with it is described
Low pressure refrigerant pressure is suitable, and temperature is lower than the gas of the low pressure refrigerant temperature or with liquid gas.
11. a kind of air conditioner, which is characterized in that including such as described in any item compressors of claim 1-10.
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CN201821204009.4U CN208702697U (en) | 2018-07-27 | 2018-07-27 | Compressor and air conditioner with it |
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CN201821204009.4U CN208702697U (en) | 2018-07-27 | 2018-07-27 | Compressor and air conditioner with it |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108799121A (en) * | 2018-07-27 | 2018-11-13 | 珠海凌达压缩机有限公司 | Compressor and air conditioner with it |
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2018
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108799121A (en) * | 2018-07-27 | 2018-11-13 | 珠海凌达压缩机有限公司 | Compressor and air conditioner with it |
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