CN105986987A - Compressor and air conditioner - Google Patents

Abstract

The invention provides a compressor and an air conditioner. The compressor comprises an outer shell, a first compression assembly, a fluid drive part, a second compression assembly, a connecting pipe, a first crankshaft and a second crankshaft. A containing chamber is formed in the outer shell and comprises a first chamber body, a second chamber body and a third chamber body. The first compression assembly is arranged in the first chamber body. The fluid drive part is arranged in the second chamber body. The second compression assembly is arranged in the third chamber body. The connecting pipe enables the third chamber body and the first compression assembly to be communicated. One end of the first crankshaft is arranged in the first compression assembly in a penetrating manner, and the other end of the first crankshaft is connected with the fluid drive part. One end of the second crankshaft is arranged in the second compression assembly in a penetrating manner, and the other end of the second crankshaft is connected with the fluid drive part. A fluid inlet and a fluid outlet which communicate with the second chamber body are formed in the outer shell. The second chamber body is located between the first chamber body and the third chamber body. According to the compressor, the length of each crankshaft is reduced, and the performance and reliability of the compressor are improved; and wind energy and the like are adopted for driving the fluid drive part to drive the compressor to run, no electric energy needs to be consumed, and energy saving and environment friendliness are achieved.

Description

Compressor and air-conditioner

Technical field

The present invention relates to refrigerating field, particularly relate to a kind of compressor and air-conditioner.

Background technology

Traditional compressor belongs to uses electrically driven (operated) compressor, and it is integrated with three cylinders in a pump housing, And along with the increase of discharge capacity, the height of cylinder may gradually be increased, therefore between three off-centre operations of bent axle Span can be stepped up, ultimately result in bent axle long and reduce the reliability of whole compressor.Meanwhile, pass AC conversion in the running, is first unidirectional current with controller, then drives motor to produce magnetic by the compressor of system Pulling force, whole process needs to expend a large amount of electric energy.

Summary of the invention

The problem low for traditional compressor reliability, power consumption is big, the invention provides a kind of reliability high, Need not expend electric energy, the compressor of energy-conserving and environment-protective and air-conditioner.

For reaching goal of the invention, the present invention provides a kind of compressor, including:

Being internally formed the shell of chamber resettling, described chamber resettling includes the first chamber, the second chamber and Three chambers；

It is placed in the first compression assembly of the first chamber, is placed in the fluid drives portion of the second chamber, is placed in the 3rd chamber Second compression assembly of room；

Connect described 3rd chamber and the connecting tube of described first compression assembly；And one end is located in described In one compression assembly, the first bent axle of being connected with described fluid drives portion of the other end；It is located in described with one end In second compression assembly, the second bent axle of being connected with described fluid drives portion of the other end；

The fluid intake connecting described second chamber and the stream connecting described second chamber it is provided with on described shell Body exports；

Wherein, described second chamber (200) is positioned at described first chamber (100) and described 3rd chamber (300) Between.

As a kind of embodiment, described first bent axle and described second bent axle are connected with described fluid drives portion One end between be provided with the interval that distance is more than 2mm.

As a kind of embodiment, also include crossing described shell by described first chamber and described second chamber The the first connecting plate assembly separated；And cross described shell by described second chamber and described 3rd chamber every The the second connecting plate assembly opened；

Described first bent axle is connected through described first connecting plate assembly with described fluid drives portion；

Described second bent axle is connected through described second connecting plate assembly with described fluid drives portion.

As a kind of embodiment, described shell includes housing, is arranged on the upper cover of the upper port of described housing Lower cover with the lower port being arranged on described housing；

Cover on described and be provided with the exhaustor connecting described first chamber.

As a kind of embodiment, described housing includes the first housing, the second housing and the 3rd housing；

Described first connecting plate assembly includes the first upper junction plate and the first lower connecting plate being stacked, and connects Described first upper junction plate and the first connector of described first lower connecting plate；

Described second connecting plate assembly includes the second upper junction plate and the second lower connecting plate being stacked, and connects Described second upper junction plate and the second connector of described second lower connecting plate；

One end of described first housing is tightly connected with described upper cover, the other end and described first upper junction plate weldering Connect；

One end of described second housing is welded with described first lower connecting plate, and the other end is connected on described second Plate welds；

One end of described 3rd housing is welded with described second lower connecting plate, and the other end seals even with described lower cover Connect.

As a kind of embodiment, described first upper junction plate, described first lower connecting plate, on described second The cross-sectional area of connecting plate and described second lower connecting plate is all higher than the cross-sectional area of described chamber resettling, and institute State the first connector and the described second equal at least two of connector；

It is the first outer rim that described first upper junction plate and described first lower connecting plate are positioned at the part outside described housing Portion, the first connector described at least two is arranged on described first outer edge at equal intervals；

It is the second outer rim that described second upper junction plate and described second lower connecting plate are positioned at the part outside described housing Portion, the second connector described at least two is arranged on described second outer edge at equal intervals.

As a kind of embodiment, each described first connector includes the first bolt and the first nut, described First outer edge described in first bolt-through, described first nut and described first bolt are connected described the One upper junction plate and described first lower connecting plate；

Each described second connector includes the second bolt and the second nut, described in described second bolt-through Two outer edges, described second nut and described second bolt are connected described second upper junction plate and described the Two lower connecting plates.

As a kind of embodiment, described first compression assembly is high pressure cylinder pump assembly, described second compression Assembly is low pressure (LP) cylinder pump assembly.

As a kind of embodiment, described fluid drives portion is turbine.

The present invention also provides for a kind of air-conditioner, including above-mentioned compressor.

The beneficial effect comprise that

The compressor of the present invention and air-conditioner.Wherein compressor uses the second compression assembly and the first compression assembly The structure assembled respectively, is divided into the first bent axle and the second bent axle by bent axle, reduces the length of bent axle, improves The Performance And Reliability of compressor.First compression assembly is connected with fluid drives portion by the first bent axle, the Two compression assemblies are connected with fluid drives portion by the second bent axle, available wind, vehicle exhaust, current or stream The modes such as dynamic cold-producing medium drive fluid drives portion to drive the first compression assembly and two compression assemblies to run, nothing Electric drive need to be used, do not expend electric energy, energy-conserving and environment-protective.Including the air conditioning energy-saving environmental protection of this compressor, quality Reliably.

Accompanying drawing explanation

Fig. 1 is the structural representation of an embodiment of the compressor of the present invention；

Fig. 2 is the structural representation of the first compression assembly in an embodiment of the compressor of the present invention

Fig. 3 is the structural representation of the second compression assembly in an embodiment of the compressor of the present invention；

Fig. 4 is the structural representation of the pump assembly connected mode of an embodiment of the compressor of the present invention.

Description of reference numerals:

1 shell, 10 housings, 11 upper covers, 12 lower covers, 110 exhaustors, 2 first connecting plate assemblies, 20 First upper junction plate, 21 first lower connecting plates, 22 first connectors, 3 second connecting plate assemblies, 30 second Upper junction plate, 31 second lower connecting plates, 32 second connectors, 4 first compression assemblies, 40 high pressure upper flanges, 41 high pressure cylinders, 42 high pressure lower flanges, 5 fluid drives portions, 6 second compression assemblies, 60 low pressure upper flanges, 61 first low pressure (LP) cylinders, 62 first dividing plates, 63 second low pressure (LP) cylinders, 64 second partitions, 65 low pressure lower flanges, 66 first low pressure air suction pipes, 67 second low pressure air suction pipes, 68 increase enthalpy blowdown pipe, 7 connecting tubes, and 8 first is bent Axle, 9 second bent axles, 100 first chambers, 200 second chambers, 300 the 3rd chambers, 400 fluid intakes, 500 fluid issuings,

Detailed description of the invention

In order to make the purpose of the present invention, technical scheme and advantage clearer, below in conjunction with accompanying drawing and reality Execute example compressor of the present invention and air-conditioner row are further described.Should be appreciated that tool described herein Body embodiment only in order to explain the present invention, is not intended to limit the present invention.

Seeing Fig. 1 to Fig. 3, the embodiment of the present invention provides a kind of compressor, including being internally formed chamber resettling Shell 1, chamber resettling includes the first chamber the 100, second chamber 200 and the 3rd chamber 300.

It is placed in the first compression assembly 4 of the first chamber 100, is placed in the fluid drives portion 5 of the second chamber 200, It is placed in the second compression assembly 6 of the 3rd chamber 300.

Connect the 3rd chamber 300 and the connecting tube 7 of the first compression assembly 4；And one end is located in the first compression In assembly 4, the first bent axle 8 of being connected with fluid drives portion 5 of the other end；It is located in the second compression group with one end In part 6, the second bent axle 9 of being connected with fluid drives portion 5 of the other end.

It is provided with the fluid intake 400 of connection the second chamber 200 on shell 1 and connects the second chamber 200 Fluid issuing 500.Wherein, the second chamber 200 is between the first chamber 100 and the 3rd chamber 300.

The compressor of the present invention, the fluid drives that the first compression assembly 4 and the second compression assembly 6 are put in passing through Portion 5 is attached, and the first compression assembly 4 is sealed in the first chamber 100, and the second compression assembly 6 seals In the 3rd chamber 300, when compressor needs to run, wind-force, vehicle exhaust, current or cold-producing medium etc. Introduced by fluid intake 400, drawn by fluid issuing 500, thus drive fluid drives portion to drive the One bent axle 8 and the second bent axle 9 rotate so that the first compression assembly 4 and the second compression assembly 6 produce air-breathing, Compression and the process of aerofluxus, as shown by arrows in FIG..Second compression assembly 6 is by the system after one stage of compression Cryogen is discharged in the 3rd chamber 300, then is entered in the first compression assembly 4 by external connecting tube 7 and carry out Two-stage compression.Certainly, the position of the first compression assembly 4 and the second compression assembly 6 can be exchanged, the first pressure Contracting assembly 4 carries out one stage of compression, and the second compression assembly 6 carries out two-stage compression.Which employs the second compression group The structure that part 6 and the first compression assembly 4 assemble respectively, bent axle is divided into the first bent axle 8 and the second bent axle 9, fall The low length of bent axle, improves the Performance And Reliability of compressor；And it is without by electric drive, can use wind The modes such as power, vehicle exhaust, current or cold-producing medium drive fluid drives portion to drive compressor operating, are not required to Electric energy to be expended, energy-conserving and environment-protective.Second chamber 200 between the first chamber 100 and the 3rd chamber 300, Fluid drives portion 5 is between the first compression assembly 4 and the second compression assembly 6, and fluid drives portion 5 can The first bent axle 8 and the second bent axle 9 is driven to rotate, it is achieved the Two-stage Compression of compressor.

Preferably, wherein in an embodiment, the first chamber 100 and the 3rd chamber 300 are sealing chamber, It can be avoided that the cold-producing medium of the cold-producing medium of the first compression assembly 4 compression and the compression of the second compression assembly 6 is from second Chamber 200 flows out, affects compression effectiveness.

As a kind of embodiment, the first compression assembly 4 is high pressure cylinder pump assembly, the second compression assembly 6 For low pressure (LP) cylinder pump assembly, fluid drives portion 5 is turbine.Turbine drives and is located in high pressure cylinder pump assembly First bent axle 8 and the second bent axle 9 being located in low pressure (LP) cylinder pump assembly rotate, and are compressed process.Wherein, First compression assembly 4 includes high pressure upper flange 40, high pressure cylinder 41 and the high pressure lower flange 42 set gradually, Being provided with high pressure chest in high pressure cylinder 41, connecting tube 7 connects high pressure chest, is communicated with height in high pressure lower flange 42 Pressure chamber and the high pressure gas hole of the first chamber 100, for by the High Temperature High Pressure refrigeration after high pressure cylinder compresses Agent is discharged in the first chamber 100.Second compression assembly 6 includes the low pressure upper flange 60, first set gradually Low pressure (LP) cylinder the 61, first dividing plate the 62, second low pressure (LP) cylinder 63, second partition 64 and low pressure lower flange 65, first Being provided with the first low pressure chamber in low pressure (LP) cylinder 61, the first low pressure air suction pipe 66 connects the first low pressure chamber, for the Sucking the cold-producing medium of low-temp low-pressure in one low pressure chamber, be provided with the second low pressure chamber in the second low pressure (LP) cylinder 63, second is low Pressure suction nozzle 67 connects the second low pressure chamber, for sucking low-temperature low-pressure refrigerant in the second low pressure chamber, and second The off-centre operation of bent axle 9 is symmetrical in 180 degree in the first low pressure chamber and the second low pressure chamber, it is possible to make two Low pressure (LP) cylinder all carries out first compression process in a press cycles.Low pressure lower flange 65 is provided with flange cavity, Increase enthalpy blowdown pipe 68 and connect flange cavity, for Gas-supplying enthalpy-increasing cold-producing medium, the second low pressure (LP) cylinder in flange cavity Cold-producing medium is compressed by 63, and the dividing plate steam vent in second partition 64 of the cold-producing medium after compression is discharged to flange In cavity, simultaneously from increasing enthalpy blowdown pipe 68 to ejector refrigeration agent flange cavity, two kinds of cold-producing mediums are empty at flange In chamber after mixing, ranked third in chamber 300 by the internal passage arranged of the second compression assembly 6, first is low Cold-producing medium after compression is directly discharged to the 3rd chamber by the low pressure exhaust hole of low pressure upper flange 60 by cylinder pressure 61 In 300.

Preferably, wherein in an embodiment, seeing Fig. 4, fluid drives portion 5 uses mode of colding pressing and the One bent axle 8 and the second bent axle 9 connect.Odd parts are avoided in connection of colding pressing, and simplify installation step.

As a kind of embodiment, see Fig. 4, the first bent axle 8 and the second bent axle 9 and fluid drives portion 5 It is provided with, between the one end connected, the interval that distance H is more than 2mm.

First bent axle 8 one end is arranged in the first compression assembly 4, and the other end is connected with fluid drives portion 5, One end of second bent axle is arranged in the second compression assembly 6, and the other end is connected with fluid drives portion 5, thus The first compression assembly 4 and the second compression assembly 6 is made to connect.First bent axle 8 and the second bent axle 9 drive with fluid Dynamic portion 5 is oppositely arranged when connecting in fluid drives portion 5, the spacing distance H of opposite side be 2mm with On, it is to avoid produce Assembly Interference.Wherein, what deserves to be explained is, spacing distance H be more than 2mm not Being greater than all numerical value equal to 2mm, meanwhile, the interval between the first bent axle 8 and the second bent axle 9 is the most not Can be too big, impact assembling effect, it at least should be less than the length in fluid drives portion 5, makes the first bent axle 8 He Second bent axle 9 can be connected fastening with fluid drives portion 5, and fluid drives portion 5 can drive the first bent axle 8 Rotate with the second bent axle.

As a kind of embodiment, also include crossing shell 1 by the first chamber 100 and the second chamber 200 The the first connecting plate assembly 2 separated, cross that the second chamber 200 and the 3rd chamber 300 are separated by shell 1 Two connecting plate assemblies 3.First bent axle 8 is connected through the first connecting plate assembly 2 with fluid drives portion 5, and second Bent axle 9 is connected through the second connecting plate assembly 3 with fluid drives portion 5.

First compression assembly 4 and the second compression assembly 6 are by the first connecting plate assembly 2 and the second connecting plate group Part 3 assembles, and the first chamber 100 is sealed by the first connecting plate assembly 2 and shell 1, the second connecting plate 3rd chamber 30 is sealed by assembly 3 and shell 1, improves the compression effectiveness of compressor.

As a kind of embodiment, shell 1 includes housing 10, is arranged on the upper cover of the upper port of housing 10 11 and be arranged on the lower cover 12 of lower port of housing 10, upper cover 12 is provided with connection the first chamber 100 Exhaustor 110.Exhaustor 110 is used for the high-temperature high-pressure refrigerant through two-stage compression from the first chamber 100 Middle discharge.

As a kind of embodiment, housing 10 includes the first housing, the second housing and the 3rd housing.First Connecting plate assembly 2 includes the first upper junction plate 20 and the first lower connecting plate 21 being stacked, and connects on first Connecting plate 20 and the first connector 22 of the first lower connecting plate 21, the second connecting plate assembly 3 includes being stacked Second upper junction plate 30 and the second lower connecting plate 31, and connect the second upper junction plate 30 and connect for second time Second connector 32 of plate 31.One end of first housing is tightly connected with upper cover 11, on the other end and first Connecting plate 20 welds, and one end of the second housing is welded with the first lower connecting plate 21, and the other end and second connects Fishplate bar 30 welds, and one end of the 3rd housing is welded with the second lower connecting plate 31, and the other end seals with lower cover 12 Connect.

Connected by the first upper junction plate and the first lower connecting plate between first housing and the second housing, the second shell Connected by the second upper junction plate and the second lower connecting plate between body and the 3rd housing, it is simple to install and seal tight Close.Wherein it is desired to explanation, the first housing, upper cover 11 and the first upper junction plate 20 form the first chamber Room 100, the second housing, the first lower connecting plate 21 and the second upper junction plate 30 form the second chamber 200, and Three housings, the second lower connecting plate 31 and lower cover 12 form the 3rd chamber 300.

Preferably, wherein in an embodiment, the first upper junction plate and the first lower connecting plate size structure phase With, the second upper junction plate and the second lower connecting plate size structure are identical.Assembling time, the first upper junction plate and First lower connecting plate overlaps, and is connected by the first connector 22, the second upper junction plate and second time connection Plate overlaps, and is connected by the second connector 32.

As a kind of embodiment, first upper junction plate the 20, first lower connecting plate the 21, second upper junction plate 30 and second the cross-sectional area of lower connecting plate 31 be all higher than the cross-sectional area of chamber resettling, and the first connector 22 and the second equal at least two of connector 32.First upper junction plate 20 and the first lower connecting plate (21) position Part outside housing 10 is the first outer edge, and at least two the first connector 22 is arranged on first at equal intervals On outer edge.It is outside second that second upper junction plate 30 and the second lower connecting plate 31 are positioned at the part outside housing 10 Edge, at least two the second connector 32 is arranged on described second outer edge at equal intervals.

First connector 22 is arranged on the first outer edge at equal intervals, connects tight by the first housing and the second housing Gu, the second connector 32 is arranged on the second outer edge at equal intervals, connects tight by the second housing and the 3rd housing Gu.Preferably, wherein in an embodiment, the first connector 22 and the second connector 32 are two, Being arranged on the first outer edge of two the first relative housing 10 symmetries of connector 22, two the second connectors Being arranged on the second outer edge of 32 relative housing 10 symmetries.Both saved material, ensured again that housing 10 connected Fastening.

As a kind of embodiment, each first connector 22 includes the first bolt 221 and the first nut 220, the first bolt 221 runs through the first outer edge, and the first nut 220 and the first bolt 221 are connected One upper junction plate 20 and the first lower connecting plate 21.Each second connector 32 includes the second bolt 321 and Two nuts 320, the second bolt 321 runs through the second outer edge, and the second nut 320 coordinates with the second bolt 321 Connect the second upper junction plate 30 and the second lower connecting plate 31.

It is a kind of dismountable fixing connection that bolt, nut connect, have simple in construction, connect reliable, tear open The advantages such as dress is convenient.Preferably, wherein in an embodiment, the first bolt 221 and the second bolt 321 Being stud, stud is applicable to the place that connecting plate thickness is relatively big, inconvenience uses hex bolts, Ensure that connecting plate connects fastening, thus improve the reliability of compressor.

Present invention also offers a kind of air-conditioner, including compressor as above.

Air-conditioner including above-mentioned compressor, it is not necessary to use electric energy, available wind, vehicle exhaust, current or The modes such as cold-producing medium drive fluid drives portion to drive compressor operating, energy-conserving and environment-protective, and the song of its compressor The length of axle reduces, and improves the Performance And Reliability of compressor, it is ensured that air-conditioner quality.

Embodiment described above only have expressed the several embodiments of the present invention, and it describes more concrete and detailed, But therefore can not be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that, for this area Those of ordinary skill for, without departing from the inventive concept of the premise, it is also possible to make some deformation and Improving, these broadly fall into protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be with appended Claim is as the criterion.

Claims (10)

1. a compressor, it is characterised in that including:

Be internally formed the shell (1) of chamber resettling, described chamber resettling include the first chamber (100), Two chambers (200) and the 3rd chamber (300)；

It is placed in first compression assembly (4) of the first chamber (100), is placed in the fluid of the second chamber (200) Drive division (5), is placed in second compression assembly (6) of the 3rd chamber；

Connect described 3rd chamber (300) and the connecting tube (7) of described first compression assembly (4)；And One end is located in described first compression assembly (4), the other end is connected with described fluid drives portion (5) First bent axle (8)；Be located in described second compression assembly (6) with one end, the other end drives with described fluid The second bent axle (9) that dynamic portion (5) connects；

It is provided with on described shell (1) and connects the fluid intake (400) of described second chamber (200) and connect The fluid issuing (500) of logical described second chamber (200)；

Wherein, described second chamber (200) is positioned at described first chamber (100) and described 3rd chamber (300) Between.

Compressor the most according to claim 1, it is characterised in that described first bent axle (8) and institute State be provided with between one end that the second bent axle (9) is connected with described fluid drives portion (5) distance for 2mm with On interval.

Compressor the most according to claim 1, it is characterised in that also include crossing described shell (1) The first connecting plate assembly (2) that described first chamber (100) and described second chamber (200) are separated； And cross what described second chamber (200) and described 3rd chamber (300) were separated by described shell (1) Second connecting plate assembly (3)；

Described first bent axle (8) is through described first connecting plate assembly (2) and described fluid drives portion (5) Connect；

Described second bent axle (9) is through described second connecting plate assembly (3) and described fluid drives portion (5) Connect.

Compressor the most according to claim 3, it is characterised in that described shell (1) includes housing (10) under the upper cover (11), being arranged on the upper port of described housing and the lower port being arranged on described housing Lid (12)；

The exhaustor (110) connecting described first chamber (100) it is provided with on described upper cover (11).

Compressor the most according to claim 4, it is characterised in that described housing (10) includes first Housing, the second housing and the 3rd housing；

Described first connecting plate assembly (2) includes the first upper junction plate (20) and the first lower connecting plate being stacked , and connect the first of described first upper junction plate (20) and described first lower connecting plate (21) even (21) Fitting (22)；

Described second connecting plate assembly (3) includes the second upper junction plate (30) and the second lower connecting plate being stacked , and connect the second of described second upper junction plate (30) and described second lower connecting plate (31) even (31) Fitting (32)；

One end of described first housing is tightly connected with described upper cover (11), and the other end is connected on described first Plate (20) welds；

One end of described second housing is welded with described first lower connecting plate (21), the other end and described second Upper junction plate (30) welds；

One end of described 3rd housing is welded with described second lower connecting plate (31), the other end and described lower cover (12) it is tightly connected.

Compressor the most according to claim 5, it is characterised in that described first upper junction plate (20), Described first lower connecting plate (21), described second upper junction plate (30) and described second lower connecting plate (31) Cross-sectional area be all higher than the cross-sectional area of described chamber resettling, and described first connector (22) and described Second connector (32) all at least two；

Described first upper junction plate (20) and described first lower connecting plate (21) are positioned at described housing (10) Outer part is the first outer edge, and the first connector (22) described at least two is arranged on described at equal intervals On one outer edge；

Described second upper junction plate (30) and described second lower connecting plate (31) are positioned at described housing (10) Outer part is the second outer edge, and the second connector (32) described at least two is arranged on described at equal intervals On two outer edges.

Compressor the most according to claim 6, it is characterised in that:

Each described first connector (22) includes the first bolt (221) and the first nut (220), described First bolt (221) runs through described first outer edge, described first nut (220) and described first bolt (221) be connected described first upper junction plate (20) and described first lower connecting plate (21)；

Each described second connector (32) includes the second bolt (321) and the second nut (320), described Second bolt (321) runs through described second outer edge, described second nut (320) and described second bolt (321) be connected described second upper junction plate (30) and described second lower connecting plate (31).

8. according to the compressor described in any one of claim 1 to 7, it is characterised in that described first compression Assembly (4) is high pressure cylinder pump assembly, and described second compression assembly (6) is low pressure (LP) cylinder pump assembly.

9. according to the compressor described in any one of claim 1 to 7, it is characterised in that described fluid drives Portion (5) is turbine.

10. an air-conditioner, it is characterised in that include the compressor described in any one of claim 1 to 9.