CN208281187U - Pump assembly and compressor and air conditioner - Google Patents

Abstract

The utility model provides a kind of pump assembly and compressor and air conditioner, pump assembly include: crankshaft, upper flange, cylinder, roller and lower flange；Upper flange has the first mounting hole, roller has the second mounting hole, lower flange has third mounting hole, the both ends of third mounting hole are respectively open end and closed end, crankshaft sequentially pass through the first mounting hole and the second mounting hole after, protrude into third mounting hole from open end, and the oil back chamber for allowing lubricating oil to enter is formed between the closed end of third mounting hole；Being provided with the lubricating oil that can be connected to oil back chamber and in the axially extending drainback passage of crankshaft, oil back chamber in the middle part of crankshaft can be delivered in the first mounting hole, the second mounting hole and third mounting hole by drainback passage.The advantages of the utility model is reasonable with design, structure is simple, and can guarantee lubricant effect, while reducing injection flow, avoids oil plant waste.

Description

Pump assembly and compressor and air conditioner

Technical field

The utility model relates to family's electro-technical field, in particular to a kind of pump assembly and compressor and air conditioner.

Background technique

Rotary compressor is by the setting working connection on crankshaft and the oilhole being connected to working connection, and the master at present Oil circuit is connect with the oil sump of compression motor spindle, and the lubricating oil in oil sump is delivered in working connection by oil guide piece, and then makes Lubricating oil can be flowed out by oilhole, carry out feed lubrication to the roller in compressor to realize.The position of this structure oil sump It is relatively low, when low on fuel or fuel head deficiency, it may appear that the decline of oil guide piece supply capability, and then influence compressor Lubricant effect, therefore need to inject a large amount of lubricating oil into oil sump in actual use, cause a degree of oil plant wave Take.

Utility model content

The main purpose of the utility model is to provide a kind of pump assembly and compressors and air conditioner, and not only design is closed Reason, structure are simple, and can guarantee lubricant effect, while reducing injection flow, avoid oil plant waste.

The utility model provides a kind of pump assembly, comprising: crankshaft, upper flange, cylinder, roller and lower flange；

The upper flange has the first mounting hole, and the roller has the second mounting hole, and the lower flange is pacified with third Hole is filled, the both ends of the third mounting hole are respectively open end and closed end, and the roller is arranged in the cylinder, the gas Cylinder is arranged between the upper flange and the lower flange；

The crankshaft is vertically arranged, the crankshaft sequentially pass through first mounting hole and second mounting hole after, from The open end is protruded into the third mounting hole, and formation allows to lubricate between the closed end of the third mounting hole The oil back chamber that oil enters；

Being provided in the middle part of the crankshaft can be connected to the oil back chamber and lead to along the axially extending oil return of the crankshaft Road, when crankshaft rotation, the lubricating oil in the oil back chamber can be delivered to by drainback passage first mounting hole, In second mounting hole and the third mounting hole.

More preferably, the oil sump to store lubricating oil, the lubricating oil energy in the oil sump are provided on the upper flange It is enough delivered in first mounting hole, second mounting hole and the third mounting hole, into the third mounting hole Lubricating oil can flow into the oil back chamber.

More preferably, it is provided with the oil return hole being connected to the drainback passage on the side wall of the crankshaft, when the crankshaft revolves When turning, the lubricating oil in the oil back chamber successively can flow into the oil sump through the drainback passage and the oil return hole.

More preferably, the quantity of the oil return hole is at least two, circumferential direction of at least two oil return holes along the crankshaft Successively lay.

More preferably, the upper flange has opposite first end face and second end face, and the upper flange passes through described second End face is connected on the cylinder, and the oil sump is arranged in the first end face.

More preferably, oil supply gallery and the trapped fuel groove in the second end face are provided on the upper flange；

The both ends of the oil supply gallery are connect with the oil sump and the trapped fuel groove respectively, to make in the oil sump Lubricating oil can enter the trapped fuel groove by the oil supply gallery；

The trapped fuel groove can be connected to first mounting hole and second mounting hole, so that the trapped fuel groove Interior lubricating oil can flow into first mounting hole and second mounting hole, and second mounting hole and the third are pacified Hole connection is filled, to enable the lubricating oil in the trapped fuel groove to install by second mounting hole into the third Hole.

More preferably, the trapped fuel groove is the cylinder coaxial with first mounting hole.

More preferably, the quantity of the oil supply gallery is at least two, and at least two oil supply galleries are with described the Rounded array arrangement centered on the axis of one mounting hole.

More preferably, it is eccentric part that the crankshaft, which is located at the part in second mounting hole, on the surface of the eccentric part On be provided with first groove axially extending along second mounting hole, enable the lubricating oil edge into second mounting hole First groove is flowed towards the third mounting hole.

It more preferably, further include the exhaust partition being arranged between the upper flange and the cylinder, on the exhaust partition It is set on the crankshaft with the 4th mounting hole, and by the 4th mounting hole, the trapped fuel groove can be with described The connection of four mounting holes, the 4th mounting hole is connected to second mounting hole, so that the lubricating oil energy in the trapped fuel groove Enough flowed into second mounting hole by the 4th mounting hole.

More preferably, be provided on the inner wall of the 4th mounting hole extend along the 4th mounting hole axis it is second recessed Slot enables the lubricating oil into the 4th mounting hole to flow along second groove towards second mounting hole.

More preferably, it is provided with the first helicla flute on the inner wall of first mounting hole, it, can when crankshaft rotation Drive the lubricating oil entered in first mounting hole that can be directed away from the second end face direction along first helicla flute Movement.

More preferably, the lower flange has the third end face of roller described in face, on the inner wall of the third mounting hole It is provided with the second helicla flute, when crankshaft rotation, the lubricating oil being able to drive into the third mounting hole being capable of edge Second helicla flute is directed away from the movement of third end face direction.

More preferably, it is provided with oil guide piece in the drainback passage, when crankshaft rotation, the oil guide piece can be driven The dynamic lubricating oil for entering the drainback passage is flowed towards the oil return hole.

The another aspect of the utility model provides a kind of compressor, the pump assembly including shell any of the above technical characteristic.

It more preferably, further include exhaust pipe；

The pump assembly is disposed in the housing, and the exhaust pipe is threaded through on the side wall of the shell, and can It is connected to the cylinder in the pump assembly, so that compressed refrigerant can be arranged by the exhaust pipe in the cylinder Out.

More preferably, first row stomata is provided on the side wall of the cylinder, the exhaust pipe is connected to the first row On stomata.

More preferably, when the pump assembly includes exhaust partition, being provided on the exhaust partition can be with the gas The discharge chamber of cylinder connection, is provided with second row stomata, the exhaust pipe is connected to described second on the side wall of the discharge chamber On gas vent.

More preferably, the inner wall of the periphery wall of the upper flange and the shell is tightly connected, so that the upper flange and institute It states and forms high pressure chest between the bottom wall of shell, the high pressure chest can be connected to the cylinder, so as to compress in the cylinder Refrigerant afterwards is able to enter the high pressure chest, and one end of the exhaust pipe is protruded into the high pressure chest.

More preferably, the periphery wall of the upper flange is welded on the inner wall of the shell.

It more preferably, further include seal member；

The seal member is arranged between the periphery wall of the upper flange and the inner wall of the shell, described to seal Gap between the periphery wall of upper flange and the inner wall of the shell.

More preferably, the cylinder has the 4th end face, and the lower flange is connected on the 4th end face, in the cylinder Sliding vane groove is provided on wall, the sliding vane groove forms port on the 4th end face, and the port is at least partially disposed at described Except the abutting range of lower flange.

It more preferably, further include oil exit pipe；

The bottom of the shell is provided with outage, and the oil exit pipe is connected on the outage, makes housing bottom Lubricating oil can be discharged by the oil exit pipe.

The another aspect of the utility model provides a kind of air conditioner, the compressor including any technical characteristic.

The pump assembly of the offer of the utility model, using when the crankshaft protrudes into the third mounting hole, Neng Gouyu Setting in the middle part of the oil back chamber for allowing lubricating oil to enter and the crankshaft is formed between the closed end of the third mounting hole Having can be connected to and along the axially extending drainback passage of the crankshaft with the oil back chamber, described when crankshaft rotation Lubricating oil in oil back chamber can be delivered to first mounting hole, second mounting hole and the third by drainback passage Technical solution in mounting hole, not only design is reasonable, structure is simple, but also can guarantee lubricant effect, while reducing oiling Amount avoids oil plant waste.

Detailed description of the invention

Attached drawing described herein is used to provide a further understanding of the present invention, and constitutes one of the utility model Point, the exemplary embodiment of the utility model and the description thereof are used to explain the utility model, does not constitute to the utility model Improper restriction.In the accompanying drawings:

Fig. 1 is the pump assembly structural schematic diagram in embodiment one；

Fig. 2 is structural schematic diagram of the Fig. 1 without exhaust partition；

Fig. 3 is the crankshaft schematic diagram in Fig. 1；

Fig. 4 is the upper flange schematic diagram in Fig. 1；

Fig. 5 is the lower flange schematic diagram in Fig. 1；

Fig. 6 is the exhaust partition schematic diagram in Fig. 1；

Fig. 7 is the compressor schematic diagram in embodiment two；

Fig. 8 is structural schematic diagram of the pump assembly without exhaust partition of Fig. 7；

Fig. 9 is the exhaust pipe another kind set-up mode schematic diagram in Fig. 7.

In figure: 1, crankshaft；11, drainback passage；12, oil return hole；13, eccentric part；14, the first groove；15, oil guide piece；2, Upper flange；21, the first mounting hole；22, oil sump；23, first end face；24, second end face；25, oil supply gallery；26, trapped fuel groove； 27, the first helicla flute；3, cylinder；31, first row stomata；32, the 4th end face；33, sliding vane groove；34, port；4, roller；41, Two mounting holes；5, lower flange；51, third mounting hole；52, open end；53, closed end；54, oil back chamber；55, third end face；56, Second helicla flute；6, exhaust partition；61, the 4th mounting hole；62, the second groove；63, discharge chamber；64, second row stomata；65, into Gas channel；7, shell；71, high pressure chest；72, oil exit pipe；8, exhaust pipe；9, pump assembly.

Specific embodiment

It is specific below in conjunction with the utility model to keep the purpose of this utility model, technical solution and advantage clearer Technical solutions of the utility model are clearly and completely described in embodiment and corresponding attached drawing.Obviously, described embodiment It is only the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, this field Those of ordinary skill's every other embodiment obtained without making creative work, belongs to the utility model The range of protection.

It should be noted that the specification and claims of the utility model and term " first " in above-mentioned attached drawing, " second " etc. is to be used to distinguish similar objects, without being used to describe a particular order or precedence order.It should be understood that in this way The data used are interchangeable under appropriate circumstances, so as to the embodiments of the present invention described herein can in addition to Here the sequence other than those of diagram or description is implemented.

Embodiment one

As shown in Figure 1, 2, a kind of pump assembly, comprising: crankshaft 1, upper flange 2, cylinder 3, roller 4 and lower flange 5.Upper method Orchid 2 has the first mounting hole 21, and roller 4 has the second mounting hole 41, and lower flange 5 has third mounting hole 51, third mounting hole 51 both ends are respectively open end 52 and closed end 53, and roller 4 is arranged in cylinder 3, and cylinder 3 is arranged in upper flange 2 and laxative remedy Between orchid 5.It should be noted that closed end 53 can also be pacified using the molding of the modes integral productions such as casting using to third Dress hole 51 is blocked far from one end of open end 52 and is formed.Crankshaft 1 is vertically arranged, and crankshaft 1 sequentially passes through the first mounting hole 21 and second after mounting hole 41, open end 52 protrude into third mounting hole 51, and between the closed end of third mounting hole 51 53 Form the oil back chamber 54 for allowing lubricating oil to enter.Being provided in the middle part of crankshaft 1 can be connected to and along the axis of crankshaft 1 with oil back chamber 54 To the drainback passage 11 of extension, when crankshaft 1 rotates, the lubricating oil in oil back chamber 54 can be delivered to the by drainback passage 11 In one mounting hole 21, the second mounting hole 41 and third mounting hole 51.

When crankshaft 1 rotate when, can by centrifugal force act on drive oil back chamber 54 in lubricating oil along drainback passage 11 to Lubricating oil in oil back chamber 54 is delivered to the first mounting hole 21,41 and of the second mounting hole by drainback passage 11 by upper movement In third mounting hole 51, compared with the existing technology for oil back chamber 54 position it is relatively high, therefore drainback passage 11 upwards pump The formation of oil is opposite to be shortened, and only need to can reach lubricating requirement for lubricating oil is full of in oil back chamber, simultaneously because oil back chamber 54 Volume it is relatively small, therefore the pump assembly in the present embodiment can guarantee lubricant effect, while reduce injection flow again, Avoid oil plant waste.

Further, as shown in Fig. 1,2,4, the oil sump 22 to store lubricating oil, oil sump 22 are provided on upper flange 2 In lubricating oil can be delivered in the first mounting hole 21, the second mounting hole 41 and third mounting hole 51, into third mounting hole 51 lubricating oil can flow into oil back chamber 54, and the oil return hole 12 being connected to drainback passage 11 is provided on the side wall of crankshaft 1, when When crankshaft 1 rotates, the lubricating oil in oil back chamber 54 successively can flow into oil sump 22 through drainback passage 11 and oil return hole 12.In this way when Crankshaft 1 rotate when, can by centrifugal force act on drive oil back chamber 54 in lubricating oil return channel 11 flow up, and from return Oilhole 12 flows out into oil back chamber 54.Since in oil return, the height that lubricating oil is flowed up from 11 lower end of drainback passage is not It is easily excessively high, therefore oil return hole 12 need to be only positioned above to the position of oil sump 22.It should be noted that the number of oil return hole 12 Amount can be at least two, and at least two oil return holes 12 are successively laid along the circumferential direction of crankshaft 1.In favor of the profit in drainback passage 11 The smooth outflow of lubricating oil.Specifically, as shown in the figure, upper flange 2 has opposite first end face 23 and second end face 24, upper flange 2 are connected on cylinder 3 by second end face 24, and oil sump 22 is arranged in first end face 23.It, can using such technical solution The position of the first oil sump 22 is set to be higher than roller 4 and lower flange 5, the first oil sump 22 can flow to second by the effect of gravity at this time Mounting hole 41 and third mounting hole 51.

In actual fabrication it can be provided with oil supply gallery 25 on upper flange 2 and be located at second end face 24 as shown in Fig. 1,2,4 On trapped fuel groove 26.The both ends of oil supply gallery 25 are connect with oil sump 22 and trapped fuel groove 26 respectively, to make in oil sump 22 Lubricating oil can enter trapped fuel groove 26 by oil supply gallery 25.Trapped fuel groove 26 can be with the first mounting hole 21 and the second installation Hole 41 is connected to, so that the lubricating oil in trapped fuel groove 26 can flow into the first mounting hole 21 and the second mounting hole 41, the second peace Dress hole 41 is connected to third mounting hole 51, to enable the lubricating oil in trapped fuel groove 26 by the second mounting hole 41 into the Three mounting holes 51.It can guarantee that the lubricating oil in trapped fuel groove 26 can swimmingly flow to the first mounting hole 21, second peace in this way Hole 41 and third mounting hole 51 are filled, and then guarantees the outer wall of crankshaft 1 and the inner wall of the first mounting hole 21 and the second mounting hole 41 Lubricant effect between the inner wall of inner wall and third mounting hole 51.

Specifically, as shown in figure 4, trapped fuel groove 26 is the cylinder coaxial with the first mounting hole 21.Trapped fuel groove at this time 26 and first mounting hole 21 stepped hole is collectively formed.Preferably, as shown in figure 4, being provided on the inner wall of the first mounting hole 21 First helicla flute 27, when crankshaft 1 rotates, being able to drive can be along the first helicla flute into the lubricating oil in the first mounting hole 21 27 are directed away from 24 direction of second end face (i.e. upwardly direction) movement, can guarantee in this way to the inner wall of the first mounting hole 21 with Lubricant effect between the outer wall of crankshaft 1.More preferably, the quantity of oil supply gallery 25 is at least two, and at least two fuel feeding Channel 25 can centered on the axis of the first mounting hole 21 rounded array arrangement, it is not limited to this, can also use Any one can realize the arrangement mode of goal of the invention.Trapped fuel groove 26 is connected to by two oil supply galleries 25 with oil sump 22, energy Enough guarantee abundance of the oil sump 22 to 26 fuel feeding oil mass of trapped fuel groove, so that trapped fuel groove 26 can be to the first mounting hole 21 and second Mounting hole 41 and the well-off lubricating oil of third mounting hole 51, and then guarantee lubricant effect.

More preferably, as shown in figure 5, lower flange 5 has the third end face 55 of face roller 4, in third mounting hole 51 The second helicla flute 56 is provided on wall, when crankshaft 1 rotates, being able to drive being capable of edge into the lubricating oil in third mounting hole 51 Second helicla flute 56 is directed away from 55 direction of third end face (i.e. in downward direction) movement.It can guarantee in this way to third mounting hole 51 Inner wall and crankshaft 1 outer wall between lubricant effect, while the lubricating oil into third mounting hole 51 can also be enable suitable Freely flow back to oil back chamber 54.

As an embodiment, as shown in Figure 1, 2, 3, crankshaft 1 is located at the part in the second mounting hole 41 for bias Portion 13 is provided with first groove 14 axially extending along the second mounting hole 41 on the surface of eccentric part 13, makes to enter the second peace The lubricating oil for filling hole 41 can be flowed along the first groove 14 towards third mounting hole 51.It can make to enter the second mounting hole 41 in this way Internal lubricating oil can allow smooth outflow along the first groove 14, make the oil that third mounting hole 51 is flowed to by the second mounting hole 41 Amount is guaranteed, and then guarantees the oil return effect of the lubricant effect and oil back chamber 54 in 51 inner wall of third mounting hole.

As an embodiment, as a shown in Figure 6, further include the exhaust that is arranged between upper flange 2 and cylinder 3 every Plate 6 has the 4th mounting hole 61 on exhaust partition 6, and is set on crankshaft 1 by the 4th mounting hole 61,26 energy of trapped fuel groove Enough to be connected to the 4th mounting hole 61, the 4th mounting hole 61 is connected to the second mounting hole 41, so that the lubricating oil in trapped fuel groove 26 It can be flowed into the second mounting hole 41 by the 4th mounting hole 61.Further, as shown in fig. 6, the inner wall of the 4th mounting hole 61 On be provided with the second groove 62 extended along 61 axis of the 4th mounting hole, enable lubricating oil into the 4th mounting hole 61 along the Two grooves 62 are flowed towards the second mounting hole 41.The lubricating oil inside the 4th mounting hole 61 can be enable to enter in this way along second Groove 62 allows smooth outflow, so that the oil mass for flowing to the second mounting hole 41 by the 4th mounting hole 61 is guaranteed, and then guarantee The lubricant effect of 51 inner wall of second mounting hole 41 and third mounting hole and the oil return effect of oil back chamber 54.

As an embodiment, as shown in Figure 1, being provided with oil guide piece 15 in drainback passage 11, when crankshaft 1 rotates When, the lubricating oil that oil guide piece 15 can be driven into drainback passage 11 is flowed towards oil return hole 12 is (upward).It can make song in this way The pumping ability of axis 1 is obviously improved.

Embodiment two

As shown in Fig. 7,8,9, a kind of compressor, including shell 7, exhaust pipe 8 and pump assembly 9, wherein pump assembly 9 be Pump assembly described in embodiment one.Pump assembly 9 is arranged in shell 7, and exhaust pipe 8 is threaded through on the side wall of shell 7, And can be connected to the cylinder 3 in pump assembly 9, so that compressed refrigerant can be discharged by exhaust pipe 8 in cylinder 3. It further, as shown in the figure, further include oil exit pipe 72, the bottom of shell 7 is provided with outage (not shown go out), oil exit pipe 72 It is connected on outage, the lubricating oil of 7 bottom of shell is enable to be discharged by oil exit pipe 72.Wherein oil exit pipe 72 can be connected to this In the access of cooling cycle system where compressor so that 7 bottom of shell stockpile lubricating oil can by oil exit pipe 72 into Enter in cooling cycle system.

In actual fabrication, the specific link position of exhaust pipe 8 can be as shown in figure 8, be provided on the side wall of cylinder 3 One gas vent 31, exhaust pipe 8 are connected on first row stomata 31.

As an embodiment, it as shown in fig. 7, when pump assembly 9 includes exhaust partition 6, is set on exhaust partition 6 It is equipped with the discharge chamber 63 that can be connected to cylinder 3, second row stomata 64 is provided on the side wall of discharge chamber 63, exhaust pipe 8 connects It connects on second row stomata 64.

As an embodiment, as shown in figure 9, the inner wall of the periphery wall of upper flange 2 and shell 7 is tightly connected, with Make to form high pressure chest 71 between upper flange 2 and the bottom wall of shell 7, wherein high pressure chest 71 can be connected to cylinder 3, so that cylinder 3 Interior compressed high pressure refrigerant is able to enter high pressure chest 71, at this point, exhaust pipe 8 can be vented using another set-up mode One end of pipe 8 is directly protruding into high pressure chest 71.It should be noted that the setting position of exhaust pipe 8 is also not limited to this at this time, Two kinds of set-up modes described above can also be used.

Wherein the sealed connection mode between the periphery wall of upper flange 2 and the inner wall of shell 7 can be using the outer of upper flange 2 Peripheral wall is welded on the inner wall of shell 7.It can also be using further including seal member (not shown go out)；Seal member is arranged in upper method Between the periphery wall of orchid 2 and the inner wall of shell 7, to seal the gap between the periphery wall of upper flange 2 and the inner wall of shell 7, Wherein seal member can be O-ring seals.The formation of high pressure chest 71 can be as shown in Figure 9, and cylinder 3 has the 4th end face 32, lower flange 5 is connected on the 4th end face 32, sliding vane groove 33 is provided on 3 inner wall of cylinder, sliding vane groove 33 is on the 4th end face 32 Port 34 is formed, port 34 is at least partially disposed at except the abutting range of lower flange 5.Cylinder 3 can be made to pass through sliding vane groove in this way 33 are connected to the space of housing bottom, to form high pressure chest 71, it should be noted that but after the formation of high pressure chest 71, lower flange 5, gas The components such as cylinder 3 are respectively positioned in high pressure chest 71.

The another aspect of the utility model provides a kind of air conditioner, including compressor described in embodiment two.

Above embodiments make the utility model have design rationally, structure it is simple, and can guarantee lubricant effect, simultaneously The advantages of reducing injection flow, avoiding oil plant waste.

The above description is only the embodiments of the present invention, is not intended to limit the utility model, for this field Technical staff for, various modifications and changes may be made to the present invention.Within the spirit and principle of the utility model, Any modification, equivalent replacement, improvement and so on should be included within the scope of the claims of the utility model.

Claims (24)

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

It include: crankshaft (1), upper flange (2), cylinder (3), roller (4) and lower flange (5)；

The upper flange (2) has the first mounting hole (21), and the roller (4) has the second mounting hole (41), the lower flange (5) there are third mounting hole (51), the both ends of the third mounting hole (51) are respectively open end (52) and closed end (53), institute Roller (4) setting is stated in the cylinder (3), cylinder (3) setting the upper flange (2) and the lower flange (5) it Between；

The crankshaft (1) is vertically arranged, and the crankshaft (1) sequentially passes through first mounting hole (21) and second mounting hole (41) it protrudes into the third mounting hole (51) afterwards, from the open end (52), and described with the third mounting hole (51) The oil back chamber (54) for allowing lubricating oil to enter is formed between closed end (53)；

Being provided in the middle part of the crankshaft (1) can be connected to and along the axially extending of the crankshaft (1) with the oil back chamber (54) Drainback passage (11), when the crankshaft (1) rotation, the lubricating oil in the oil back chamber (54) can pass through drainback passage (11) It is delivered in first mounting hole (21), second mounting hole (41) and the third mounting hole (51).

2. pump assembly according to claim 1, it is characterised in that:

The oil sump (22) to store lubricating oil, the lubricating oil energy in the oil sump (22) are provided on the upper flange (2) It is enough delivered in first mounting hole (21), second mounting hole (41) and the third mounting hole (51), into described The lubricating oil of third mounting hole (51) can flow into the oil back chamber (54).

3. pump assembly according to claim 2, it is characterised in that:

The oil return hole (12) being connected to the drainback passage (11) is provided on the side wall of the crankshaft (1), when the crankshaft (1) When rotation, the lubricating oil in the oil back chamber (54) can be flowed into successively through the drainback passage (11) and the oil return hole (12) The oil sump (22).

4. pump assembly according to claim 3, it is characterised in that:

The quantity of the oil return hole (12) is at least two, circumferential direction of at least two oil return holes (12) along the crankshaft (1) Successively lay.

5. pump assembly according to claim 2, it is characterised in that:

The upper flange (2) has opposite first end face (23) and second end face (24), and the upper flange (2) passes through described the Biend (24) is connected on the cylinder (3), and the oil sump (22) is arranged on the first end face (23).

6. pump assembly according to claim 5, it is characterised in that:

The trapped fuel groove (26) for being provided with oil supply gallery (25) on the upper flange (2) and being located on the second end face (24)；

The both ends of the oil supply gallery (25) are connect with the oil sump (22) and the trapped fuel groove (26) respectively, described to make Lubricating oil in oil sump (22) can enter the trapped fuel groove (26) by the oil supply gallery (25)；

The trapped fuel groove (26) can be connected to first mounting hole (21) and second mounting hole (41), so that described Lubricating oil in trapped fuel groove (26) can flow into first mounting hole (21) and second mounting hole (41), and described Two mounting holes (41) are connected to the third mounting hole (51), to enable the lubricating oil in the trapped fuel groove (26) to pass through Second mounting hole (41) enters the third mounting hole (51).

7. pump assembly according to claim 6, it is characterised in that:

The trapped fuel groove (26) is the cylinder coaxial with first mounting hole (21).

8. pump assembly according to claim 7, it is characterised in that:

The quantity of the oil supply gallery (25) is at least two, and at least two oil supply galleries (25) are with first peace Rounded array arrangement centered on the axis of dress hole (21).

9. pump assembly according to claim 6, it is characterised in that:

It is eccentric part (13) that the crankshaft (1), which is located at the part in second mounting hole (41), in the eccentric part (13) It is provided with first groove (14) axially extending along second mounting hole (41) on surface, makes to enter second mounting hole (41) lubricating oil can be flowed along first groove (14) towards the third mounting hole (51).

10. pump assembly according to claim 6, it is characterised in that:

It further include that exhaust partition (6) between the upper flange (2) and the cylinder (3) is set, on the exhaust partition (6) It is set on the crankshaft (1) with the 4th mounting hole (61), and by the 4th mounting hole (61), the trapped fuel groove (26) it can be connected to the 4th mounting hole (61), the 4th mounting hole (61) is connected to second mounting hole (41), So that the lubricating oil in the trapped fuel groove (26) can flow into second mounting hole by the 4th mounting hole (61) (41) in.

11. pump assembly according to claim 10, it is characterised in that:

The second groove extended along the 4th mounting hole (61) axis is provided on the inner wall of 4th mounting hole (61) (62), enable lubricating oil into the 4th mounting hole (61) along second groove (62) towards second mounting hole (41) it flows.

12. according to pump assembly described in claim 5 to 11 any one, it is characterised in that:

The first helicla flute (27) are provided on the inner wall of first mounting hole (21), it, can when the crankshaft (1) rotation Drive the lubricating oil entered in first mounting hole (21) described second can be directed away from along first helicla flute (27) The movement of end face (24) direction.

13. according to claim 1 to pump assembly described in 11 any one, it is characterised in that:

The lower flange (5) has the third end face (55) of roller (4) described in face, in the inner wall of the third mounting hole (51) On be provided with the second helicla flute (56), when the crankshaft (1) rotation, be able to drive into the third mounting hole (51) Lubricating oil can be directed away from third end face (55) the direction movement along second helicla flute (56).

14. pump assembly according to claim 3, it is characterised in that:

Oil guide piece (15) are provided in the drainback passage (11), when the crankshaft (1) rotation, oil guide piece (15) energy The lubricating oil for being enough driven into the drainback passage (11) is flowed towards the oil return hole (12).

15. a kind of compressor, it is characterised in that:

Including pump assembly (9) described in shell (7) and claim 1 to 14 any one.

16. compressor according to claim 15, it is characterised in that:

It further include exhaust pipe (8)；

The pump assembly (9) is arranged in the shell (7), and the exhaust pipe (8) is threaded through the side wall of the shell (7) On, and can be connected to the cylinder (3) in the pump assembly (9), so that compressed refrigerant can in the cylinder (3) It is discharged by the exhaust pipe (8).

17. compressor according to claim 16, it is characterised in that:

It is provided on the side wall of the cylinder (3) first row stomata (31), the exhaust pipe (8) is connected to the first exhaust On hole (31).

18. compressor according to claim 16, it is characterised in that:

When the pump assembly (9) includes exhaust partition (6), being provided on the exhaust partition (6) can be with the cylinder (3) discharge chamber (63) being connected to, is provided with second row stomata (64), the exhaust pipe on the side wall of the discharge chamber (63) (8) it is connected on the second row stomata (64).

19. compressor according to claim 16, it is characterised in that:

The periphery wall of the upper flange (2) and the inner wall of the shell (7) are tightly connected, so that the upper flange (2) and described High pressure chest (71) are formed between the bottom wall of shell (7), the high pressure chest (71) can be connected to the cylinder (3), so that in institute It states compressed high pressure refrigerant in cylinder (3) to be able to enter the high pressure chest (71), one end of the exhaust pipe (8) is protruded into described In high pressure chest (71).

20. compressor according to claim 19, it is characterised in that:

The periphery wall of the upper flange (2) is welded on the inner wall of the shell (7).

21. compressor according to claim 19, it is characterised in that:

It further include seal member；

The seal member is arranged between the periphery wall of the upper flange (2) and the inner wall of the shell (7), to seal State the gap between the periphery wall of upper flange (2) and the inner wall of the shell (7).

22. compressor according to claim 19, it is characterised in that:

The cylinder (3) has the 4th end face (32), and the lower flange (5) is connected on the 4th end face (32), the gas It is provided with sliding vane groove (33) on cylinder (3) inner wall, the sliding vane groove (33) is formed port (34) on the 4th end face (32), institute Port (34) is stated to be at least partially disposed at except the abutting range of the lower flange (5).

23. compressor described in 5 to 22 any one according to claim 1, it is characterised in that:

It further include oil exit pipe (72)；

The bottom of the shell (7) is provided with outage, and the oil exit pipe (72) is connected on the outage, makes shell (7) The lubricating oil of bottom can be discharged by the oil exit pipe (72).

24. a kind of air conditioner, it is characterised in that:

Including the compressor as described in claim 15 to 23 any one.