CN207349094U - Pump assembly and there is its compressor - Google Patents

Abstract

The utility model provides a kind of pump assembly and has its compressor.Wherein, pump assembly includes：There is flange feed liquor structure and flange to go out liquid structure for flange, flange；Bearing-type cylinder, bearing-type cylinder have rolling element accommodating cavity, and lubricant medium is lubricated the rolling element in rolling element accommodating cavity by flange feed liquor structure, and go out the discharge of liquid structure from flange.The utility model efficiently solves the problem of pump assembly in the prior art insufficient to bearing-type cylinder lubrication in the process of running, cooling deficiency.

Description

Pump assembly and there is its compressor

Technical field

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

Background technology

Traditional rotary blade type compressor air-breathing and exhaust structure are arranged in the side of cylinder, but due in slide plate head and cylinder The abrasion of wall is more serious, causes the mechanical consumption of compressor bigger than normal, overall efficiency is poor, and inordinate wear is even caused when serious Deng integrity problem.

In the prior art, to solve the above-mentioned problems, in cylinder inner wall increase rolling element and inner ring structure (similar rolling Son) form bearing-type cylinder so that and the sliding motion between slide plate head and inner ring inner wall is converted between inner ring and rolling element Rolling movement, and then reduce pump assembly mechanical consumption, improve compressor efficiency.

However, in pump assembly operational process, said structure easily causes the heat that rolling element friction produces can not be timely Discharge, pump assembly long-play is easy to cause the temperature rise of rolling element and reduces the reliability of bearing-type cylinder, and temperature The high inner wall that can cause compression process middle (center) bearing formula cylinder is spent by excessive heat, causes compressor efficiency to be deteriorated.It is meanwhile above-mentioned The rolling element of pump assembly carries out direct friction between operational process and bearing-type cylinder inner wall, be easy to cause adhesive wear Deng causing pump assembly operation exception.

Utility model content

The main purpose of the utility model is that a kind of pump assembly is provided and there is its compressor, to solve existing skill The problem of art middle pump body component is insufficient to bearing-type cylinder lubrication in the process of running, cooling deficiency.

To achieve these goals, one side according to the present utility model, there is provided a kind of pump assembly, including：Method There is flange feed liquor structure and flange to go out liquid structure for orchid, flange；Bearing-type cylinder, bearing-type cylinder have rolling element accommodating cavity, Lubricant medium is lubricated the rolling element in rolling element accommodating cavity by flange feed liquor structure, and goes out liquid structure row from flange Go out.

Further, flange is upper flange.

Further, bearing-type cylinder also has axially extending bore, and flange goes out liquid structure and connected with axially extending bore, and rolling element holds The lubricant medium for putting intracavitary flows to flange by axially extending bore and goes out liquid structure.

Further, flange includes：There is flange feed liquor structure and flange to go out liquid structure for upper flange, upper flange；Lower flange, Bearing-type cylinder is arranged between upper flange and lower flange, and lower flange had flow structure, and rolling element accommodating cavity passes through overcurrent knot Structure is connected with axially extending bore.

Further, bearing-type cylinder further includes：Outer ring, axially extending bore are arranged on outer ring；Inner ring, inner ring are arranged on outer Form in circle and between rolling element accommodating cavity.

Further, upper flange also has upper flange liquid storage structure, upper flange liquid storage structure and flange feed liquor fabric connectivity And go out liquid structure with flange and isolate.

Further, upper flange liquid storage structure is liquid storage annular groove or liquid storage arc groove, and liquid storage annular groove or liquid storage arc groove are positioned at upper On the end face towards bearing-type cylinder side of flange, and the upper end pair of liquid storage annular groove or liquid storage arc groove and rolling element accommodating cavity Connect.

Further, flange feed liquor structure is the feed pathway being arranged in upper flange；Flange goes out liquid structure to be arranged on Liquid outlet groove or liquid outlet channel on upper flange, and liquid outlet groove is located on the end face towards bearing-type cylinder side of upper flange.

Further, the extending direction of liquid outlet groove and the extending direction of feed pathway are set in angle.

Further, crossing flow structure includes the overcurrent annular groove on the end face towards bearing-type cylinder side of lower flange With logical liquid bath, and overcurrent annular groove is docked with the lower end of rolling element accommodating cavity, and overcurrent annular groove is connected by logical liquid bath with axially extending bore.

Further, projection of the axially extending bore in lower flange is located in logical liquid bath.

Further, pump assembly further includes shaft, and shaft is threaded through in bearing-type cylinder, and shaft has connected in sequence Center oilhole and radial direction oil hole, radial direction oil hole and flange feed liquor fabric connectivity.

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

Using the technical solution of the utility model, in pump assembly operational process, lubricant medium is from flange feed liquor structure Into rolling element accommodating cavity, and the rolling element in rolling element accommodating cavity is lubricated, is cooled down, lubricated after completing lubrication, cooling Medium goes out the discharge of liquid structure from the flange connected with rolling element accommodating cavity.In this way, in above process, rolling element can be lubricated Medium fully covers, and lubricant medium can not only fully lubricate rolling element, additionally it is possible to by pump assembly operational process The heat produced on middle rolling element is taken away, and cooling down operation is realized to rolling element.

Pump assembly in the application can realize the sufficient lubrication of rolling element, cooling, and then reduce the machine of pump assembly Tool power consumption, lifts the working performance of pump assembly, improves work efficiency.

Brief 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 is used to explain the utility model, does not form the improper restriction to the utility model. In the accompanying drawings：

Fig. 1 shows the sectional view of the embodiment of pump assembly according to the present utility model；

Fig. 2 shows enlarged diagram at the A of the pump assembly in Fig. 1；

Fig. 3 shows the top view of the bearing-type cylinder in Fig. 1；

Fig. 4 shows the bottom view of the upper flange in Fig. 1；

Fig. 5 shows the top view of the lower flange in Fig. 1；And

Fig. 6 shows the sectional view of the embodiment of compressor according to the present utility model.

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

11st, flange feed liquor structure；12nd, flange goes out liquid structure；13rd, upper flange；131st, upper flange liquid storage structure；14th, laxative remedy It is blue；141st, flow structure is crossed；141a, overcurrent annular groove；141b, logical liquid bath；20th, bearing-type cylinder；21st, rolling element accommodating cavity；22nd, roll Kinetoplast；23rd, axially extending bore；24th, outer ring；25th, inner ring；30th, shaft；31st, center oilhole；32nd, radial direction oil hole；40th, slide plate；50、 Dispenser component；60th, housing unit；70th, electric machine assembly；80th, pump assembly；90th, cover assembly；100th, lower cover and installing plate.

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 conversely explanation, 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 relative to each component in itself It is inside and outside, but the above-mentioned noun of locality is not intended to limit the present invention.

It is insufficient to bearing-type cylinder lubrication, cooling deficiency in the process of running in order to solve pump assembly in the prior art Problem, this application provides a kind of pump assembly and has its compressor.

As shown in Figure 1 to Figure 3, pump assembly includes flange and bearing-type cylinder 20.Wherein, flange has flange feed liquor knot Structure 11 and flange go out liquid structure 12.Bearing-type cylinder 20 has rolling element accommodating cavity 21, and lubricant medium passes through flange feed liquor structure Rolling element 22 in 11 pairs of rolling element accommodating cavities 21 is lubricated, and is gone out liquid structure 12 from flange and discharged.

Using the technical solution of the utility model, in pump assembly operational process, lubricant medium is from flange feed liquor structure 11 enter rolling element accommodating cavity 21, and the rolling element 22 in rolling element accommodating cavity 21 is lubricated, is cooled down, and completion lubricates, is cold But lubricant medium goes out liquid structure 12 from the flange connected with rolling element accommodating cavity 21 and discharges after.In this way, in above process, roll Body 22 can fully be covered by lubricant medium, and lubricant medium can not only fully lubricate rolling element 22, additionally it is possible to will The heat produced in pump assembly operational process on rolling element 22 is taken away, and cooling down operation is realized to rolling element 22.

Pump assembly in the present embodiment can realize the sufficient lubrication of rolling element 22, cooling, and then reduce pump assembly Mechanical consumption, lift the working performance of pump assembly, improve work efficiency.

As shown in Figure 1, flange is upper flange 13.Specifically, bearing-type cylinder 20 is arranged on the lower section of upper flange 13, then moistens Sliding medium enters to rolling element accommodating cavity 21 from the flange feed liquor structure 11 of upper flange 13, and lubrication, cooling are completed to rolling element 22 Go out liquid structure 12 from the flange of upper flange afterwards to discharge.In this way, lubricant medium holds from the top of bearing-type cylinder 20 into rolling element Chamber 21 is put, is discharged again from the top of bearing-type cylinder 20 after completing lubrication, cooling, " U-shaped " runner is formed in pump assembly, it is real The now sufficient lubrication and cooling to rolling element 22, so that lubricant medium is more abundant to the lubrication of rolling element 22, cooling, increases The lubricant effect of strong lubricant medium.

Alternatively, lubricant medium is lubricating fluid.In this way, lubricating fluid can the flowing in above-mentioned " U-shaped " runner, then rolling element 22 can completely be immersed in lubricating fluid, and then lift the lubrication of lubricant medium, cooling effect.Alternatively, lubricating fluid can be with For the lubricating fluid such as lubricating oil or water, emulsion.

As shown in figure 3, bearing-type cylinder 20 also has axially extending bore 23, flange goes out liquid structure 12 and connects with axially extending bore 23 Logical, the lubricant medium in rolling element accommodating cavity 21 flows to flange by axially extending bore 23 and goes out liquid structure 12.In this way, axially extending bore 23 Setting so that flowing of the lubricant medium in pump assembly is more smooth, promote circulation of the lubricant medium in pump assembly, Ensure rolling element 22 by sufficient lubrication, cooling.The structure of said structure is simple, is easily worked.

Specifically, in pump assembly operational process, lubricant medium is entered to from the flange feed liquor structure 11 of upper flange 13 Rolling element accommodating cavity 21, after lubrication, cooling are completed to rolling element 22, goes out liquid structure via axially extending bore 23 from the flange of upper flange 12 are expelled to outside pump assembly, so that lubricant passage way is more smooth.

As depicted in figs. 1 and 2, flange includes upper flange 13 and lower flange 14.Wherein, upper flange 13 has flange feed liquor knot Structure 11 and flange go out liquid structure 12.Bearing-type cylinder 20 is arranged between upper flange 13 and lower flange 14, and lower flange 14 had Flow structure 141, rolling element accommodating cavity 21 are connected by crossing flow structure 141 with axially extending bore 23.The structure of said structure is simple, holds Easy processing machine assembles.

Specifically, in pump assembly operational process, lubricant medium is entered to from the flange feed liquor structure 11 of upper flange 13 Rolling element accommodating cavity 21, after lubrication, cooling are completed to rolling element 22, flows on lower flange 14 what is connected with rolling element accommodating cavity 21 Flow structure 141 is crossed, going out liquid structure 12 from the flange of upper flange via axially extending bore 23 afterwards is expelled to outside pump assembly, not only Rolling element 22 can be realized and lubricated, so repeatedly, lubricant medium can also take away the heat on rolling element 22 for circulation, realize The cooling of pump assembly, improves the working performance of pump assembly, reduces energy loss.

As shown in Figure 1 to Figure 3, bearing-type cylinder 20 further includes outer ring 24 and inner ring 25.Wherein, axially extending bore 23 is arranged on On outer ring 24.Inner ring 25 is arranged in outer ring 24 and forms rolling element accommodating cavity 21 between.In this way, above-mentioned setting can Ensure that axially extending bore 23 is arranged at intervals with rolling element accommodating cavity 21, progress can realize " U-shaped " runner, promote the stream of lubricant medium Dynamic, circulation, lifts the lubricant effect of lubricant medium.

As shown in Figure 2 and Figure 4, upper flange 13 also has upper flange liquid storage structure 131, upper flange liquid storage structure 131 and method Blue feed liquor structure 11, which connects and goes out liquid structure 12 with flange, isolates.In this way, lubricant medium in flange feed liquor structure 11 can be into Enter in upper flange liquid storage structure 131, then the lubricant medium in upper flange liquid storage structure 131 can reduce the interior of bearing-type cylinder 20 Circle 25 and upper flange 13 between abrasion so that contact surface therebetween is preferably lubricated, improve upper flange 13 with it is interior The abrasion condition of circle 25, extends the service life of pump assembly.

As shown in figure 4, upper flange liquid storage structure 131 is liquid storage annular groove, liquid storage annular groove be located at upper flange 13 towards bearing On the end face of 20 side of formula cylinder, and liquid storage annular groove is docked with the upper end of rolling element accommodating cavity 21.Lubrication in liquid storage annular groove is situated between Matter can enter to rolling element accommodating cavity 21, and the rolling element 22 in rolling element accommodating cavity 21 is lubricated, is cooled down.In this way, The lubricant medium that rolling element 22 can not only be flowed out from flange feed liquor structure 11 lubricates, cooling, additionally it is possible to by upper flange liquid storage Lubricant medium lubrication in structure 131 so that rolling element 22 can be by sufficient lubrication, cooling, and then improves the profit of " U-shaped " runner Sliding, cooling effect, extends the service life of bearing-type cylinder 20, improves its work efficiency.The structure of liquid storage annular groove is simple, easily Processing.

In the accompanying drawings in unshowned other embodiment, upper flange liquid storage structure is liquid storage arc groove, and liquid storage arc groove is located at On the end face towards bearing-type cylinder side of upper flange, and liquid storage arc groove is docked with the upper end of part rolling element accommodating cavity.Storage Lubricant medium in liquid arc groove can enter to rolling element accommodating cavity, and the rolling element in rolling element accommodating cavity is lubricated, Cooling.The structure of said structure is simple, is easily worked.

It should be noted that the cross sectional shape of liquid storage annular groove can be selected according to actual conditions, such as rectangle or semicircle etc..

As depicted in figs. 1 and 2, in the present embodiment, flange feed liquor structure 11 is that the feed liquor being arranged in upper flange 13 leads to Road.It is to be arranged on liquid outlet groove on upper flange 13 that flange, which goes out liquid structure 12, and liquid outlet groove be located at upper flange 13 towards bearing-type On the end face of 20 side of cylinder.In order to simplify the processing technology of upper flange 13 so that the processing of flange feed liquor structure 11 is more held Easily, can be using tight as flange feed liquor structure 11, then unnecessary processing hole using the processing feed pathway directly in upper flange 13 Firmware is sealed.In this way, above-mentioned sealing means are relatively simple, the malformation of upper flange 13 will not be caused.

Specifically, after lubricant medium completes lubrication, cooling in the rolling element accommodating cavity 21, via axially extending bore 23 from upper method Liquid outlet groove on orchid 13 is expelled to outside pump assembly.The structure of liquid outlet groove is simple, is easily worked, and reduces the work of staff Intensity.

It should be noted that flange goes out the structure not limited to this of liquid structure 12, as long as can be by rolling element accommodating cavity 21 Lubricant medium discharge.Alternatively, it can also be liquid outlet channel that flange, which goes out liquid structure 12, if with flange feed liquor structure 11 And upper flange liquid storage structure 131 does not connect.

It should be noted that the sealing means not limited to this in unnecessary processing hole.Alternatively, using welding manner to unnecessary Processing hole sealed.

In the accompanying drawings in unshowned other embodiment, it is that the liquid that goes out being arranged in upper flange leads to that flange, which goes out liquid structure, Road, in order to simplify processing technology so that the processing that flange goes out liquid structure is more prone to, using directly processing liquid in upper flange Passage, and liquid outlet channel does not connect with flange feed liquor structure and upper flange liquid storage structure.

As shown in figure 4, the extending direction of liquid outlet groove and the extending direction of feed pathway are set in angle.In this way, liquid outlet groove Not only cause the processing of upper flange 13 to be more prone to the stagger setting of feed pathway, and can ensure that the structure of upper flange 13 is strong Degree, prevents the phenomenon that lubricant medium pressure itself damages upper flange 13, extends the service life of upper flange 13.

It should be noted that the extending direction of liquid outlet groove and the extending direction of feed pathway can also be arranged in parallel, as long as It can ensure that liquid outlet groove can not be connected with feed pathway, upper flange liquid storage structure.Alternatively, liquid outlet groove face feed liquor leads to Road is set, and positioned at the lower section of feed pathway.

As shown in Figure 1, Figure 2 and shown in Fig. 5, crossing flow structure 141 is included positioned at lower flange 14 towards bearing-type cylinder 20 side End face on overcurrent annular groove 141a and logical liquid bath 141b, and overcurrent annular groove 141a is docked with the lower end of rolling element accommodating cavity 21, Overcurrent annular groove 141a is connected by logical liquid bath 141b with axially extending bore 23.The structure of said structure is simple, is easily worked, and causes The circulation of lubricant medium is more smooth.

Specifically, overcurrent annular groove 141a is first flowed into the lubricant medium in rolling element accommodating cavity 21, and passes through overcurrent ring Groove 141a enters logical liquid bath 141b, then goes out liquid structure 12 from flange via axially extending bore 23 and be expelled to outside pump assembly.In this way, Above-mentioned setting can ensure that the lubricant medium in rolling element accommodating cavity 21 may not flow into the other structures of pump assembly, realize profit Sliding medium is recycled.

It should be noted that the cross sectional shape of overcurrent annular groove 141a can be selected according to actual conditions, such as rectangle or semicircle Shape etc..

In the present embodiment, projection of the axially extending bore 23 in lower flange 14 is located in logical liquid bath 141b.In this way, above-mentioned set The smooth circulation of lubricant medium can be ensured by putting, and after make it that lubricant medium smoothly enters in axially extending bore 23 in logical liquid bath 141b Go out liquid structure 12 from flange to discharge.

As shown in Figure 1, pump assembly further includes shaft 30, shaft 30 is threaded through in bearing-type cylinder 20, and shaft 30 has Center oilhole 31 and radial direction oil hole 32 connected in sequence, radial direction oil hole 32 are connected with flange feed liquor structure 11.In this way, pump assembly Using inner flow passage structure type, i.e., by way of setting runner the inside of bearing-type cylinder 20 and surrounding components, Ke Yijie Province's component simultaneously simplifies pipeline connection, is deformed caused by when evading the arrangement, occupancy size and exterior line welding of exterior line The problems such as.

Specifically, lubricant medium enters pump assembly by the center oilhole 31 of shaft 30, afterwards from center oilhole 31 The radial direction oil hole 32 of connection enters in flange feed liquor structure 11, with realize lubricant medium upper flange 13, bearing-type cylinder 20 and Circulating in lower flange 14, so pump assembly is lubricated, cool operation, improve pump assembly work effect Rate, runnability.

As shown in fig. 6, present invention also provides a kind of compressor, including above-mentioned pump assembly.Alternatively, compressor is Sliding-vane compressor.The compressor includes dispenser component 50, housing unit 60, electric machine assembly 70, pump assembly 80, upper cover group Part 90 and lower cover and installing plate 100.Wherein, dispenser component 50 is arranged on the outside of housing unit 60, and cover assembly 90 assembles In the upper end of housing unit 60, lower cover and installing plate 100 are assemblied in the lower end of housing unit 60, electric machine assembly 70 and pump assembly 80 are respectively positioned on the inside of housing unit 60, and electric machine assembly 70 is arranged on the top of pump assembly 80.The pump assembly of compressor 80 include above-mentioned upper flange 13, lower flange 14, bearing-type cylinder 20 and shaft 30.

As depicted in figs. 1 and 2, slide plate 40 is arranged at the eccentric part of shaft 30.When compressor starts are run, motor group Part 70 drives shaft 30 to be rotated, and slide plate 40 stretches out under the centrifugal force effect of eccentric part from sliding vane groove, and and bearing-type The internal face contact of the inner ring 25 of cylinder 20.With the even running of compressor, slide plate 40 starts to do reciprocal fortune in sliding vane groove Dynamic, the head of slide plate 40 is contacted with the internal face of the inner ring 25 of bearing-type cylinder 20, and drives inner ring 25 to be rotated.Three cunnings Whole moon teeth cavity is divided into three independent chambers by piece 40 with inner ring 25, these three chambers periodically expand, reduce, so that real The air-breathing of existing compressor, exhaust.In compressor motion process, slide plate 40 forms the space of a closing with sliding vane groove, i.e., sliding Piece back pressure cavity, slide plate back pressure cavity also have three, and the amplification and diminution of property service cycle with compressor.

Specifically, as shown in Figure 1, the bottom of shaft 30 drives the rotation of oil pump (not shown), the bottom insertion of oil pump In oil sump, pump oil is realized in oil pump rotation, then the oil in oil sump enters the center oilhole 31 of shaft 30, center oilhole 31 by oil pump The back pressure effect that interior oil is subject to 30 rotating centrifugal force of shaft and oil pump to produce enters flange feed liquor by radial direction oil hole 32 Structure 11, and rolling element accommodating cavity 21 is entered to by flange feed liquor structure 11, after lubrication, cooling are completed to rolling element 22, stream Enter the flow structure 141 excessively connected on lower flange 14 with rolling element accommodating cavity 21, afterwards the method via axially extending bore 23 from upper flange Orchid goes out liquid structure 12 and is expelled to outside pump assembly, then lubricating oil is again introduced into oil sump, to realize next oil circulation.

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

Using the technical solution of the utility model, in pump assembly operational process, lubricant medium is from flange feed liquor structure Into rolling element accommodating cavity, and the rolling element in rolling element accommodating cavity is lubricated, is cooled down, lubricated after completing lubrication, cooling Medium goes out the discharge of liquid structure from the flange connected with rolling element accommodating cavity.In this way, in above process, rolling element can be lubricated Medium fully covers, and lubricant medium can not only fully lubricate rolling element, additionally it is possible to by pump assembly operational process The heat produced on middle rolling element is taken away, and cooling down operation is realized to rolling element.Pump assembly in the application can realize rolling Sufficient lubrication, the cooling of body, and then the mechanical consumption of pump assembly is reduced, the working performance of pump assembly is lifted, improves work Efficiency.

Obviously, above-mentioned described embodiment is only the embodiment of the utility model part, rather than whole realities 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 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, it indicates existing characteristics, step, work, device, component and/or combinations thereof.

It should be noted that term " first " in the description and claims of this application and above-mentioned attached drawing, " Two " etc. be for distinguishing similar object, without for describing specific order or precedence.It should be appreciated that so use 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 descriptions are merely preferred embodiments of the present invention, is not intended to limit the present invention, 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 modification, equivalent replacement, improvement and so on, should be included within the scope of protection of this utility model.

Claims (13)

1. A kind of 1. pump assembly, it is characterised in that including：

   There is flange feed liquor structure (11) and flange to go out liquid structure (12) for flange, the flange；

   Bearing-type cylinder (20), the bearing-type cylinder (20) have rolling element accommodating cavity (21), and lubricant medium passes through the method Blue feed liquor structure (11) is lubricated the rolling element (22) in the rolling element accommodating cavity (21), and goes out liquid knot from the flange Structure (12) is discharged.
2. 2. pump assembly according to claim 1, it is characterised in that the flange is upper flange (13).
3. 3. pump assembly according to claim 1, it is characterised in that the bearing-type cylinder (20) also has axially extending bore (23), the flange goes out liquid structure (12) and is connected with the axially extending bore (23), the lubrication in the rolling element accommodating cavity (21) Medium flows to the flange by the axially extending bore (23) and goes out liquid structure (12).
4. 4. pump assembly according to claim 3, it is characterised in that the flange includes：

   There is the flange feed liquor structure (11) and the flange to go out liquid structure (12) for upper flange (13), the upper flange (13)；

   Lower flange (14), the bearing-type cylinder (20) are arranged between the upper flange (13) and the lower flange (14), institute Stating lower flange (14) had a flow structure (141), the rolling element accommodating cavity (21) by it is described cross flow structure (141) with it is described Axially extending bore (23) connects.
5. 5. pump assembly according to claim 4, it is characterised in that the bearing-type cylinder (20) further includes：

   Outer ring (24), the axially extending bore (23) are arranged on the outer ring (24)；

   Inner ring (25), the inner ring (25) are arranged in the outer ring (24) and form the rolling element accommodating cavity between (21)。
6. 6. pump assembly according to claim 5, it is characterised in that the upper flange (13) also has upper flange liquid storage knot Structure (131), the upper flange liquid storage structure (131) connect with the flange feed liquor structure (11) and go out liquid structure with the flange (12) isolate.
7. 7. pump assembly according to claim 6, it is characterised in that the upper flange liquid storage structure (131) is liquid storage ring Groove or liquid storage arc groove, the liquid storage annular groove or the liquid storage arc groove are located at the direction bearing-type cylinder of the upper flange (13) (20) on the end face of side, and the liquid storage annular groove or the liquid storage arc groove and the upper end pair of the rolling element accommodating cavity (21) Connect.
8. 8. pump assembly according to claim 4, it is characterised in that the flange feed liquor structure (11) is described to be arranged on Feed pathway in upper flange (13)；The flange go out liquid structure (12) be arranged on liquid outlet groove on the upper flange (13) or Liquid outlet channel, and the liquid outlet groove is located on the end face of direction bearing-type cylinder (20) side of the upper flange (13).
9. 9. pump assembly according to claim 8, it is characterised in that the extending direction of the liquid outlet groove leads to the feed liquor The extending direction in road is set in angle.
10. 10. pump assembly according to claim 4, it is characterised in that the flow structure (141) of crossing is included under described Overcurrent annular groove (141a) and logical liquid bath (141b) on the end face of direction bearing-type cylinder (20) side of flange (14), and The overcurrent annular groove (141a) is docked with the lower end of the rolling element accommodating cavity (21), and the overcurrent annular groove (141a) is by described Logical liquid bath (141b) is connected with the axially extending bore (23).
11. 11. pump assembly according to claim 10, it is characterised in that the axially extending bore (23) is in the lower flange (14) projection in is located in the logical liquid bath (141b).
12. 12. pump assembly according to claim 1, it is characterised in that the pump assembly further includes shaft (30), described Shaft (30) is threaded through in the bearing-type cylinder (20), and the shaft (30) has center oilhole connected in sequence (31) and footpath To oilhole (32), the radial direction oil hole (32) connects with the flange feed liquor structure (11).
13. 13. a kind of compressor, it is characterised in that including the pump assembly any one of claim 1 to 12.