CN207420864U - Pump assembly and with its compressor - Google Patents

Abstract

The utility model provides a kind of pump assembly and with its compressor.Wherein, pump assembly, including：Structural member, structural member are two, and at least one structural member has back-pressure structure, the total measurement (volume) Vf of back-pressure structure；Cylinder is arranged between two structural members；Shaft, through two structural members and cylinder, and the rotor portions of shaft have multiple sliding vane grooves；Multiple slide plates, it is slideably correspondingly arranged in multiple sliding vane grooves, a back pressure cavity is formed between each slide plate and corresponding sliding vane groove, and the total measurement (volume) Vh of whole back pressure cavities, back-pressure structure is connected with multiple back pressure cavities, lubricant medium can be entered to via back-pressure structure in back pressure cavity, and the total measurement (volume) Vf of back-pressure structure and the total measurement (volume) Vh of whole back pressure cavities meet.The utility model efficiently solves pump assembly in the prior art, and stationarity is poor in the process of running, and the problem of noise and larger vibration.

Description

Pump assembly and with its compressor

Technical field

The utility model is related to Compressor Technology field, in particular to a kind of pump assembly and with its compression Machine.

Background technology

In pump assembly operational process, in order to ensure that slide plate can successfully be stretched out out of sliding vane groove, it will usually in cunning The afterbody of piece sets back pressure cavity (being formed by slide plate and sliding vane groove), and the high pressure or middle pressure oil in oil sump (are generated by circulation passage Restriction effect) it is passed through to act power to slide plate in back pressure cavity, the active force is front and rear residing for the head of slide plate for overcoming Frictional force that gas pressure and cylinder are generated with slide plate head in cavity etc., head and the cylinder inner wall of anti-slip limiting plate depart from.

However, in pump assembly operational process, reciprocating motion of the slide plate in sliding vane groove can cause to generate in back pressure cavity Compression shock.Pressure pulsation impact can influence slide plate traveling comfort, and pump assembly is caused to generate slide plate in the process of running The noise of shock largely affects the working performance and reliability of pump assembly, and the energy consumption of pump assembly is increased Greatly.

Utility model content

The main purpose of the utility model is that providing a kind of pump assembly and with its compressor, to solve existing skill Stationarity is poor in the process of running for art middle pump body component, and the problem of noise and larger vibration.

To achieve these goals, one side according to the present utility model provides a kind of pump assembly, including：Knot Component, structural member are two, and at least one structural member has back-pressure structure, the total measurement (volume) Vf of back-pressure structure；Cylinder is arranged on two Between a structural member；Shaft, through two structural members and cylinder, and the rotor portions of shaft have multiple sliding vane grooves；Multiple slide plates, It is slideably correspondingly arranged in multiple sliding vane grooves, a back pressure cavity is formed between each slide plate and corresponding sliding vane groove, and all The total measurement (volume) Vh of back pressure cavity, back-pressure structure are connected with multiple back pressure cavities, and lubricant medium can enter to back pressure via back-pressure structure Intracavitary, and the total measurement (volume) Vf of back-pressure structure and the total measurement (volume) Vh of whole back pressure cavities meet。

Further, the total measurement (volume) Vf of back-pressure structure and the total measurement (volume) Vh of whole back pressure cavities meet。

Further, two structural members are respectively upper flange and lower flange, back-pressure structure be arranged on upper flange towards gas On the lower face of cylinder；And/or back-pressure structure is arranged on the upper surface towards cylinder of lower flange.

Further, when being both provided with back-pressure structure on upper flange and lower flange, back-pressure structure on upper flange it is total The sum of total measurement (volume) Vxf of back-pressure structure on volume Vsf and lower flange is Vf, and the volume maximum variable quantity Vd of each back pressure cavity Less than or equal to the total measurement (volume) Vsf of the back-pressure structure on upper flange.

Further, projection of the back-pressure structure on upper flange in lower flange is overlapped with the back-pressure structure on lower flange.

Further, back-pressure structure is back pressure slot, and back pressure slot is arc slot or annular groove.

Further, when back pressure slot is annular groove, annular groove includes the first interconnected arc slot section and the second arc slot Section, and the width of the first arc slot section is more than the width of the second arc slot section.

Further, the groove width L of back pressure slot is predetermined value, by changing the groove depth H of back pressure slot, to change the total of back pressure slot Volume Vf.

Further, the groove depth H of back pressure slot is predetermined value, by changing the groove width L of back pressure slot, to change the total of back pressure slot Volume Vf.

Further, shaft has center oilhole connected in sequence and radial direction oil hole, and radial direction oil hole is connected with back-pressure structure.

Another aspect according to the present utility model provides a kind of compressor, including above-mentioned pump assembly.

Using the technical solution of the utility model, pump assembly includes structural member, cylinder, shaft and multiple slide plates.Wherein, Structural member is two, and at least one structural member has back-pressure structure, the total measurement (volume) Vf of back-pressure structure.Cylinder is arranged on two structures Between part.Shaft passes through two structural members and cylinder, and the rotor portions of shaft have multiple sliding vane grooves.Multiple slide plates are slideably It is correspondingly arranged in multiple sliding vane grooves, one back pressure cavity of formation between each slide plate and corresponding sliding vane groove, and whole back pressure cavities Total measurement (volume) Vh, back-pressure structure are connected with multiple back pressure cavities, and lubricant medium can be entered to via back-pressure structure in back pressure cavity, and are carried on the back The total measurement (volume) Vf of laminated structure and the total measurement (volume) Vh of whole back pressure cavities meetIn this way, it is inhaled in pump assembly The above-mentioned value setting of gas, compression and exhaust phase, back-pressure structure and back pressure cavity can prevent from generating larger pressure in back pressure cavity Power is impacted, and then improves running stability of the slide plate in sliding vane groove, improves the functional reliability of pump assembly.

In pump assembly operational process, lubricant medium can be entered to via back-pressure structure in back pressure cavity so that back pressure The pressure change of intracavitary is more gentle, stablizes, and then ensures that movement of the slide plate in sliding vane groove is more steady, anti-slip limiting plate and gas Cylinder occurs to influence the overall stability of pump assembly compared with the shock of great dynamics, reduces since slide plate and cylinder hit shaking for generation Dynamic and noise.Meanwhile the said structure setting of the application middle pump body component makes its functional reliability higher, energy loss smaller, Improve the work efficiency of pump assembly.

Description of the drawings

The accompanying drawings which form a part of this application are used to provide a further understanding of the present invention, this practicality New schematic description and description does not form the improper restriction to the utility model for explaining the utility model. In the accompanying drawings：

Fig. 1 shows the decomposition texture schematic diagram of the embodiment of pump assembly according to the present utility model；And

Fig. 2 shows the sectional view of the pump assembly in Fig. 1；

Fig. 3 shows enlarged diagram at the A of the pump assembly in Fig. 2；

Fig. 4 shows that the pump assembly in Fig. 1 removes the dimensional structure diagram after upper flange；

Fig. 5 shows the bottom view of the upper flange of the pump assembly in Fig. 1；

Fig. 6 shows the sectional view of the upper flange in Fig. 5；

Fig. 7 shows the top view of the lower flange of the pump assembly in Fig. 1；

Fig. 8 shows the sectional view of the lower flange in Fig. 7；

Fig. 9 show the refrigerating capacity of pump assembly withCurve relation figure；

Figure 10 show the power consumption of pump assembly withCurve relation figure；And

Figure 11 show the Energy Efficiency Ratio COP of pump assembly withCurve relation figure.

Wherein, above-mentioned attached drawing is marked including the following drawings：

11st, back-pressure structure；111st, the first arc slot section；112nd, the second arc slot section；12nd, upper flange；13rd, lower flange；20th, gas Cylinder；30th, shaft；31st, rotor portions；311st, sliding vane groove；311a, back pressure cavity；312nd, escape；32nd, center oilhole；33rd, it is radially oily Hole；40th, slide plate；50th, gear oil pump.

Specific embodiment

It should be noted that in the case where there is no conflict, the feature in embodiment and embodiment in the application can phase Mutually combination.The utility model will be described in detail below with reference to the accompanying drawings and embodiments.

It is pointed out that unless otherwise specified, all technical and scientific terms used in this application have and the application The normally understood identical meanings of person of an ordinary skill in the technical field.

In the utility model in the case where not making explanation on the contrary, the noun of locality such as " upper and lower " used is typically to be directed to For direction shown in the drawings or on vertical, vertical or gravity direction；Similarly, for ease of understanding And description, " left and right " is typically for shown in the drawings left and right；" inside and outside " refers to the profile compared with each component in itself It is inside and outside, but the above-mentioned noun of locality is not intended to limit the utility model.

In order to solve pump assembly in the prior art, stationarity is poor in the process of running, and noise and vibration larger are asked Topic, this application provides a kind of pump assembly and with its compressor.

As shown in Figures 1 to 8, pump assembly includes structural member, cylinder 20, shaft 30 and slide plate 40.Wherein, structural member is Two, at least one structural member has back-pressure structure 11, the total measurement (volume) Vf of back-pressure structure 11.Cylinder 20 is arranged on two structural members Between.Shaft 30 passes through two structural members and cylinder 20, and the rotor portions 31 of shaft 30 have multiple sliding vane grooves 311.Multiple cunnings Piece 40 is slideably correspondingly arranged in multiple sliding vane grooves 311, and a back of the body is formed between each slide plate 40 and corresponding sliding vane groove 311 Chamber 311a is pressed, and the total measurement (volume) Vh of whole back pressure cavity 311a, back-pressure structure 11 are connected with multiple back pressure cavity 311a, lubricant medium energy It is enough to be entered to via back-pressure structure 11 in back pressure cavity 311a, and the total measurement (volume) Vf of back-pressure structure 11 is with whole back pressure cavity 311a's Total measurement (volume) Vh meets

Air-breathing, compression and exhaust phase, the above-mentioned value of back-pressure structure 11 and back pressure cavity 311a are carried out in pump assembly to set Putting can prevent from generating larger compression shock in back pressure cavity 311a, and then improves operation of the slide plate 40 in sliding vane groove 311 and put down Stability improves the functional reliability of pump assembly.

In pump assembly operational process, lubricant medium can be entered to via back-pressure structure 11 in back pressure cavity 311a, made The pressure change obtained in back pressure cavity 311a is more gentle, stable, and then ensures that movement of the slide plate 40 in sliding vane groove 311 is more flat Surely, anti-slip limiting plate 40 occurs to influence the overall stability of pump assembly compared with the shock of great dynamics with cylinder 20, reduces due to cunning Piece 40 hits the vibration and noise generated with cylinder 20.Meanwhile the said structure setting of the present embodiment middle pump body component makes its work Make reliability higher, energy loss smaller improves the work efficiency of pump assembly.

In the present embodiment, verify to obtain the total measurement (volume) Vf of back-pressure structure 11 and whole back pressure cavities by a series of experiments The optimum ratio of the total measurement (volume) Vh of 311a is reduced the compression shock in back pressure cavity 311a by the ratio for optimizing the two, ensured 40 even running of slide plate improves the working performance of pump assembly.

Optionally, the total measurement (volume) Vf of back-pressure structure 11 and the total measurement (volume) Vh of whole back pressure cavity 311a meetIn this way, above-mentioned numerical value setting can ensure pump assembly (basic, normal, high frequency) under different running frequencies Refrigerating capacity is maximum, power consumption is minimum, Energy Efficiency Ratio COP (Coefficient of Performance, COP for refrigerating capacity and power consumption it Than) maximum, and then the work efficiency of pump assembly is improved, improve energy utilization rate.Wherein,It can also take more Big value has adapted to the higher running frequency of pump assembly.

Specifically, as shown in Figures 9 to 11, under different running frequencies, withIncrease, the system of pump assembly Cold is obviously improved, and power consumption is also decreased obviously.WhenWhen, slide plate 40 and gas in pump assembly operational process The shock dynamics of cylinder 20 makes moderate progress, andBigger, improvement is more apparent.WhenWhen, system Cold reaches maximum, and power consumption also reaches minimum value, and Energy Efficiency Ratio COP reaches maximum；WhenWhen, refrigerating capacity, Power consumption and Energy Efficiency Ratio COP are without significant change.When pump assembly is run under low frequency, intermediate frequency, high frequency respectively, performance is optimal value It is correspondingRespectively 0.35,0.38,0.45, then running frequency is higher, and the compression shock in back pressure cavity 311a is bigger, It is bigger to the volume requirements value of back-pressure structure 11.

As shown in Figures 1 to 8, two structural members are respectively upper flange 12 and lower flange 13, and back-pressure structure 11 is arranged on Flange 12 towards on the lower face of cylinder 20, and back-pressure structure 11 is arranged on the upper surface towards cylinder 20 of lower flange 13 On.In this way, flange is peripherally disposed at the position of respective centre bore above and below back-pressure structure 11, wherein upper and lower method Blue 11 arrangement symmetrical above and below of back-pressure structure, so that the back pressure that the afterbody of slide plate 40 is subject to is symmetrical arranged, will not occur The situation that slide plate 40 deviates ensures the tight fit of slide plate 40 and sliding vane groove 311, prevents neighboring chambers gas connection Situation.

Specifically, since the back-pressure structure 11 set on lower flange 13 is located at the lower section of back pressure cavity 311a, lubricant medium exists The back-pressure structure 11 being first filled under gravity on lower flange 13, may during slide plate 40 is moved along sliding vane groove 311 A small amount of lubricant medium is had to enter in back pressure cavity 311a from the back-pressure structure 11 on lower flange 13, but this amount can be seldom, Lubricant medium in back pressure cavity 311a is mainly provided by the back-pressure structure 11 set on upper flange 12.Equally, under the effect of gravity, Lubricant medium can not necessarily be full of the back-pressure structure 11 on upper flange 12, then the back-pressure structure 11 is except to back pressure cavity 311a fuel feeding Outside, the effect of compression shock in stable back pressure cavity 311a is also acted as.

Optionally, lubricant medium generally use lubricating fluid.In this way, lubricating fluid can be in back-pressure structure 11 and back pressure cavity 311a Interior flowing, and then promote the lubrication of lubricant medium, cooling effect.Optionally, lubricating fluid can be lubricating oil or water, emulsion Wait lubricating fluids.

In the accompanying drawings in unshowned other embodiment, back-pressure structure is positioned only at the lower end towards cylinder of upper flange On face.The peripherally disposed at the position of its centre bore of upper flange has back-pressure structure, and lubricating oil is via back-pressure structure It enters in back pressure cavity so that the pressure change in back pressure cavity is more gentle, stable, and then ensures fortune of the slide plate in sliding vane groove Dynamic more steady, anti-slip limiting plate influences the overall stability of pump assembly with cylinder generation compared with the shock of great dynamics.

In the accompanying drawings in unshowned other embodiment, back-pressure structure is positioned only at the upper end towards cylinder of lower flange On face.The peripherally disposed at the position of its centre bore of lower flange has back-pressure structure, and lubricating oil is via back-pressure structure It enters in back pressure cavity so that the pressure change in back pressure cavity is more gentle, stable, and then ensures fortune of the slide plate in sliding vane groove Dynamic more steady, anti-slip limiting plate influences the overall stability of pump assembly with cylinder generation compared with the shock of great dynamics.

In the present embodiment, it is both provided with back-pressure structure 11 on upper flange 12 and lower flange 13, the back pressure on upper flange 12 The sum of the total measurement (volume) Vsf of structure 11 and total measurement (volume) Vxf of back-pressure structure 11 on lower flange 13 is Vf, and each back pressure cavity 311a Volume maximum variable quantity Vd be less than or equal to upper flange 12 on back-pressure structure 11 total measurement (volume) Vsf.In this way, above-mentioned setting energy Enough ensure that the back-pressure structure 11 on upper flange 12 can be to each abundant fuel feeding of back pressure cavity 311a, and then ensure that pump assembly can be just Often operation.

Specifically, in pump assembly operational process, with the rotation of shaft 30, three slide plates 40 are in centrifugal force and back pressure It moves reciprocatingly in sliding vane groove 311 under the collective effect of power, and is in contact with the inner wall of cylinder 20, the rotor portions 31 of shaft 30 Crescent cavity is formed between the inner wall of cylinder 20, and crescent cavity is divided into three solely by slide plate 40 and the inner wall of cylinder 20 Vertical chamber, these three chambers periodically expand or reduce, so as to fulfill the air-breathing of pump assembly, compression and exhaust.Its In, each slide plate 40 forms the space of a closing with corresponding sliding vane groove 311, i.e. back pressure cavity 311a, back pressure cavity 311a also have three It is a, and zoom in or out with the fortune sexual cycle property of pump assembly.Each back pressure cavity 311a is in the process zoomed in or out In, volume variation can generate compression shock to the back pressure cavity 311a entirely connected, and volume variable quantity is bigger, and compression shock is got over Greatly, volume variable quantity is smaller, and compression shock is smaller.Three back pressure cavity 311a are connected by the back-pressure structure 11 on upper and lower flange 13 It is logical, and the total volume variable quantity very little of three back pressure cavity 311a, it can be considered constant.

In the present embodiment, when the volume of a back pressure cavity 311a is changed to minimum from maximum, in back pressure cavity 311a Lubricant medium can be entered in the back-pressure structure 11 of other two back pressure cavity 311a and upper and lower flange.Wherein, the back of the body of lower flange 13 Its variable quantity can be neglected lubricant medium in laminated structure 11 under gravity, then the lubrication in back pressure cavity 311a is situated between Matter is mainly provided by the lubricant medium in the back-pressure structure 11 of upper flange 12 and the back pressure cavity 311a of other two volume variation. Further, the lubricant medium in back pressure cavity 311a is mainly provided by the back-pressure structure 11 of upper flange 12.Therefore, upper flange 12 On the total measurement (volume) Vsf of back-pressure structure 11 be more crucial, to ensure the supply to lubricant medium in single back pressure cavity 311a, It needs to meet Vsf >=Vd.

In the present embodiment, projection of the back-pressure structure 11 on upper flange 12 in lower flange 13 and the back of the body on lower flange 13 Laminated structure 11 overlaps.In this way, along the axis direction of cylinder 20, above-mentioned setting can ensure the lubricant medium in each back pressure cavity 311a It is evenly distributed, so that the lubricant medium in whole back pressure cavity 311a is evenly distributed, further reduces due to each back pressure cavity The volume variation of 311a causes compression shock in each back pressure cavity 311a, improves the running stability of pump assembly, reduce due to Energy loss caused by the vibration of slide plate 40 improves functional reliability, the work efficiency of pump assembly.

Optionally, back-pressure structure 11 is back pressure slot, and back pressure slot is arc slot or annular groove.The structure letter of said program It is single, it is easily worked.As shown in figure 5 and figure 7, back pressure slot is annular groove, and annular groove includes the first interconnected arc slot section 111 With the second arc slot section 112, and the width of the first arc slot section 111 be more than the second arc slot section 112 width.In this way, the first arc slot section 111 is different from the cross-sectional area of the second arc slot section 112, and lubricant medium can be entered in back pressure cavity 311a by back pressure slot, with Pressure in back pressure cavity 311a is adjusted, ensures that slide plate 40 is in any position, the pressure in back pressure cavity 311a is big always In or equal to slide plate 40 the pressure that is subject to of head so that the head of slide plate 40 contacts always with the holding of the inner wall of cylinder 20, And then improve the functional reliability of pump assembly.Meanwhile lubricant medium can enter in back pressure cavity 311a via back pressure slot, make The pressure change obtained in back pressure cavity 311a is more gentle, stable, and then ensures that movement of the slide plate 40 in sliding vane groove 311 is more flat Surely, anti-slip limiting plate 40 occurs to influence the overall stability of pump assembly compared with the shock of great dynamics with cylinder 20, reduces due to cunning Piece 40 hits the vibration and noise generated with cylinder 20.

As shown in Figure 6 and Figure 8, the groove width L of back pressure slot is predetermined value, by changing the groove depth H of back pressure slot, to change back pressure The total measurement (volume) Vf of slot.In this way, when needing to change the total measurement (volume) Vf of back pressure slot, it need to only change the groove depth H of back pressure slot so that Staff is more prone to the operation of back pressure slot, reduces working strength.

In the accompanying drawings in unshowned other embodiment, the groove depth H of back pressure slot is predetermined value, by changing back pressure slot Groove width L, to change the total measurement (volume) Vf of back pressure slot.In this way, when needing to change the total measurement (volume) Vf of back pressure slot, back pressure only need to be changed The groove width L of slot so that staff is more prone to the operation of back pressure slot, reduces working strength.

It should be noted that shifting gears for the total measurement (volume) Vf of back pressure slot is without being limited thereto.Optionally, the groove depth H of back pressure slot And groove width L can be changed, to change the total measurement (volume) Vf of back pressure slot.

As shown in Figures 2 and 3, shaft 30 has center oilhole 32 connected in sequence and radial direction oil hole 33, radial direction oil hole 33 It is connected with back-pressure structure 11.In this way, pump assembly uses inner flow passage structure type, i.e., by cylinder 20 and surrounding components Portion sets the mode of runner, can save component and simplify pipeline connection, evades the arrangement of exterior line, occupies size and outer The problems such as being deformed caused by during portion's pipeline welding.

Specifically, lubricant medium is entered to by the center oilhole 32 of shaft 30 in pump assembly, afterwards from center oil The radial direction oil hole 33 that hole 32 connects enters in back-pressure structure 11, is entered afterwards by back-pressure structure 11 in back pressure cavity 311a so that Pressure change in back pressure cavity 311a is more gentle, stable, and then ensures that movement of the slide plate 40 in sliding vane groove 311 is more flat Surely, anti-slip limiting plate 40 occurs to influence the overall stability of pump assembly compared with the shock of great dynamics with cylinder 20, reduces due to cunning Piece 40 hits the vibration and noise generated with cylinder 20.Meanwhile lubricant medium can also be to the contact surface of slide plate 40 and structural member It is lubricated, reduces contact wear therebetween, extend the service life of pump assembly, and the inside of cylinder 20 is dropped Temperature, cooling improve work efficiency, the runnability of pump assembly.

Present invention also provides a kind of compressor (not shown), including above-mentioned pump assembly.Optionally, compressor is rotation Vane compressor.Compressor further includes gear oil pump 50, and gear oil pump 50 is a kind of positive displacement pump.In compressor operating process In, the rotation of shaft 30 drives gear oil pump 50 to run, and under the action of gear oil pump 50, lubricating oil enters shaft 30 from oil sump Center oilhole 32, via center oilhole 32, radial direction oil hole 33, the escape 312 of rotor portions 31, structural member (upper and lower flange) End clearance enter in back-pressure structure 11, and full of back pressure cavity 311a.

It can be seen from the above description that the above embodiments of the present invention achieve the following technical effects：

Air-breathing, compression and exhaust phase are carried out in pump assembly, the above-mentioned value setting of back-pressure structure and back pressure cavity can It prevents from generating larger compression shock in back pressure cavity, and then improves running stability of the slide plate in sliding vane groove, improve pump housing group The functional reliability of part.

In pump assembly operational process, lubricant medium can be entered to via back-pressure structure in back pressure cavity so that back pressure The pressure change of intracavitary is more gentle, stablizes, and then ensures that movement of the slide plate in sliding vane groove is more steady, anti-slip limiting plate and gas Cylinder occurs to influence the overall stability of pump assembly compared with the shock of great dynamics, reduces since slide plate and cylinder hit shaking for generation Dynamic and noise.Meanwhile the said structure setting of the application middle pump body component makes its functional reliability higher, energy loss smaller, Improve the work efficiency of pump assembly.

Obviously, above-mentioned described embodiment is only the embodiment of the utility model part rather than the reality of whole Apply example.Based on the embodiment in the utility model, those of ordinary skill in the art institute without making creative work The every other embodiment obtained should all belong to the scope of the utility model protection.

It should be noted that term used herein above is merely to describe specific embodiment, and be not intended to restricted root According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singulative It is also intended to include plural form, additionally, it should be understood that, when in the present specification using term "comprising" and/or " bag Include " when, indicate existing characteristics, step, work, device, component and/or combination thereof.

It should be noted that term " first " in the description and claims of this application and above-mentioned attached drawing, " Two " etc. be the object for distinguishing similar, without being used to describe specific order or precedence.It should be appreciated that it so uses Data can exchange in the appropriate case, so that presently filed embodiment described herein can be with except illustrating herein Or the order beyond those of description is implemented.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modifications, equivalent replacements and improvements are made should be included within the scope of protection of this utility model.

Claims (11)

1. a kind of pump assembly, which is characterized in that including：

Structural member, the structural member are two, and at least one structural member has back-pressure structure (11), the back-pressure structure (11) total measurement (volume) Vf；

Cylinder (20) is arranged between two structural members；

Shaft (30), the rotor portions (31) through two structural members and the cylinder (20), and the shaft (30) have Multiple sliding vane grooves (311)；

Multiple slide plates (40) are slideably correspondingly arranged in multiple sliding vane grooves (311), each slide plate (40) with it is corresponding The sliding vane groove (311) between form a back pressure cavity (311a), and all total measurement (volume) Vh of the back pressure cavity (311a), institute It states back-pressure structure (11) to connect with multiple back pressure cavities (311a), lubricant medium can enter via the back-pressure structure (11) In to the back pressure cavity (311a), and the total measurement (volume) Vf of the back-pressure structure (11) and total appearance of all back pressure cavities (311a) Product Vh meets。

2. pump assembly according to claim 1, which is characterized in that the total measurement (volume) Vf and whole of the back-pressure structure (11) The total measurement (volume) Vh of the back pressure cavity (311a) meets。

3. pump assembly according to claim 1, which is characterized in that two structural members be respectively upper flange (12) and Lower flange (13), the back-pressure structure (11) are arranged on the lower face of the direction cylinder (20) of the upper flange (12)； And/or the back-pressure structure (11) is arranged on the upper surface of the direction cylinder (20) of the lower flange (13).

4. pump assembly according to claim 3, which is characterized in that when the upper flange (12) and the lower flange (13) On when being both provided with the back-pressure structure (11), the total measurement (volume) Vsf of the back-pressure structure (11) on the upper flange (12) with The sum of total measurement (volume) Vxf of the back-pressure structure (11) on the lower flange (13) is Vf, and each back pressure cavity (311a) Volume maximum variable quantity Vd is less than or equal to the total measurement (volume) Vsf of the back-pressure structure (11) on the upper flange (12).

5. pump assembly according to claim 4, which is characterized in that the back-pressure structure on the upper flange (12) (11) projection in the lower flange (13) is overlapped with the back-pressure structure (11) on the lower flange (13).

6. pump assembly according to claim 1, which is characterized in that the back-pressure structure (11) is back pressure slot, and described Back pressure slot is arc slot or annular groove.

7. pump assembly according to claim 6, which is characterized in that when the back pressure slot is annular groove, the annular Slot includes interconnected the first arc slot section (111) and the second arc slot section (112), and the width of the first arc slot section (111) More than the width of the second arc slot section (112).

8. pump assembly according to claim 6, which is characterized in that the groove width L of the back pressure slot is predetermined value, by changing Become the groove depth H of the back pressure slot, to change the total measurement (volume) Vf of the back pressure slot.

9. pump assembly according to claim 6, which is characterized in that the groove depth H of the back pressure slot is predetermined value, by changing Become the groove width L of the back pressure slot, to change the total measurement (volume) Vf of the back pressure slot.

10. pump assembly according to claim 1, which is characterized in that the shaft (30) has center connected in sequence Oilhole (32) and radial direction oil hole (33), the radial direction oil hole (33) connect with the back-pressure structure (11).

11. a kind of compressor, which is characterized in that including the pump assembly any one of claims 1 to 10.