CN205089627U - Pump body subassembly, compressor and indirect heating equipment - Google Patents

Abstract

The utility model provides a pump body subassembly, compressor and indirect heating equipment. Pump body subassembly includes: bent axle, bent axle have eccentric structure, the cover is established at the epaxial first flange of song, has offered on first flange and/or the bent axle and has led the oil groove, lead the oil groove and lie in the position department that first flange and bent axle coincide mutually, and the one end of keeping away from eccentric structure of leading the oil groove is for leading oily first end, and the one end of keeping away from eccentric structure of first flange is the first end of flange, and the distance of leading the oily first end of leading of oil groove and eccentric structure is lighter than the first end of flange of first flange and the distance of eccentric structure. Set up or do not have a perfect understanding the setting like the terminal surface of leading oily first end of leading the oil groove of the above -mentioned structure first end interval of flange with first flange, therefore reduced the influence of atmospheric pressure to leading refrigeration oil in the oil groove in the cavity of compressor, avoid the refrigeration oil to flow fast in leading the oil groove to the messenger leads the flow of the interior refrigeration oil of oil groove and easily controls, has guaranteed the greasy property of pump body subassembly.

Description

Pump assembly, compressor and heat transmission equipment

Technical field

The utility model relates to technical field of heat exchange, in particular to a kind of pump assembly, compressor and heat transmission equipment.

Background technique

Compressor, particularly rolling type rotor compressor, usually using the main bearing of upper flange as pump assembly, for fixing and support bent axle, swing to prevent bent axle.

Usually, the gap between existing bent axle and upper flange is 0.01 to 0.03mm, and when excesssive gap therebetween, the swing of bent axle is large, and gap is too small, due to the restriction of part level of processing, may cause when element precision is bad upper flange and bent axle stuck.

As shown in Figure 1, upper flange 10 ' offers through oil guide slot 11 ', refrigeration oil flows through oil guide slot 11 ' to lubricate the fitting surface of upper flange 10 ' with oil guide slot 11 '.But, due to the through setting of oil guide slot 11 ', thus make the flow being difficult to control refrigeration oil.

Illustrate, when the upper flange of said structure is applied in certain low-pressure cavity compressor, upper end (i.e. the upper end of the oil guide slot) pressure of upper flange and the pressure of inspiration(Pi) of compressor are substantially suitable, and pressure is relatively low; The pressure of the lower end (i.e. the lower end of oil guide slot) of upper flange is more complicated, and its pressure is greater than pressure of inspiration(Pi), thus makes refrigeration oil under the effect of pressure reduction, is difficult to the flow controlling refrigeration oil in oil guide slot.

Model utility content

Main purpose of the present utility model is to provide a kind of pump assembly, compressor and heat transmission equipment, to solve in prior art the unmanageable problem of the flow of refrigeration oil in oil guide slot.

To achieve these goals, according to an aspect of the present utility model, provide a kind of pump assembly, comprising: bent axle, bent axle has eccentric structure; Be set in the first flange on bent axle, first flange and/or bent axle offer oil guide slot, oil guide slot is positioned at the position that the first flange and bent axle coincide, and one end away from eccentric structure of oil guide slot is Oil Guide first end, one end away from eccentric structure of first flange is flange first end, and the Oil Guide first end of oil guide slot and the distance of eccentric structure are less than the flange first end of the first flange and the distance of eccentric structure.

Further, the gap between the first flange and bent axle increases to form territory, controlled oil region at flange first end place, and the Oil Guide first end of oil guide slot is communicated with territory, controlled oil region.

Further, oil guide slot is opened on the endoporus of the first flange, the Oil Guide first end of oil guide slot is not communicated to the end face of the flange first end of the first flange, and is reserved with the first predeterminable range L1 between the end face of the Oil Guide first end of oil guide slot and the flange first end of the first flange.

Further, the first predeterminable range L1 is more than or equal to 2 millimeters or be less than or equal to 5 millimeters.

Further, oil guide slot is opened on bent axle, is reserved with the first predeterminable range L1 between the end face of the Oil Guide first end of oil guide slot and the flange first end of the first flange.

Further, the first predeterminable range L1 is more than or equal to 2 millimeters or be less than or equal to 5 millimeters.

Further, the groove section being positioned at territory, controlled oil region of oil guide slot is more than or equal to 3 millimeters in the axial length L 2 axially of bent axle.

Further, oil guide slot extends twist.

Further, the gap between bent axle and the first flange increases to 0.05 millimeter to 0.2 millimeter at territory, controlled oil region place.

Further, oil guide slot is opened on the endoporus of the first flange, the endoporus of the first flange of corresponding part, territory, controlled oil region offers the first control oil groove, and the Oil Guide first end and first of oil guide slot is controlled oil groove and is communicated with.

Further, oil guide slot is opened on bent axle, the outer circumferential face of the bent axle of corresponding part, territory, controlled oil region offers the second control oil groove, and the Oil Guide first end and second of oil guide slot is controlled oil groove and is communicated with.

Further, gap between first flange and bent axle increases to form oil storage region at the flange second end place of the first flange, Oil Guide second end of oil guide slot and oil storage regional connectivity, the flange second end two ends that are positioned at first flange relative to flange first end, the Oil Guide second end two ends that are positioned at oil guide slot relative to Oil Guide first end.

Further, oil guide slot is opened on the endoporus of the first flange, and the endoporus of the first flange of corresponding part, oil storage region offers the first oil storage tank, and Oil Guide second end of oil guide slot is communicated with the first oil storage tank.

Further, oil guide slot is opened on bent axle, and the outer circumferential face of the bent axle of corresponding part, oil storage region offers the second oil storage tank, and Oil Guide second end of oil guide slot is communicated with the second oil storage tank.

Further, the center hole of bent axle is blind hole, and blind hole is extended to one end away from eccentric structure of bent axle by one end of the close eccentric structure of bent axle.

According to another aspect of the present utility model, provide a kind of compressor, comprise pump assembly, pump assembly is above-mentioned pump assembly.

According to another aspect of the present utility model, provide a kind of heat transmission equipment, comprise compressor, compressor is above-mentioned compressor.

Application the technical solution of the utility model, the first flange and/or bent axle offer oil guide slot, oil guide slot away from one end of eccentric structure and the distance of eccentric structure be less than the first flange away from one end of eccentric structure and the distance of eccentric structure.As the end face of the Oil Guide first end of the oil guide slot of said structure and the flange first end interval of the first flange is arranged or not through setting, thus air pressure in the cavity of compressor is reduced on the impact of refrigeration oil in oil guide slot, refrigeration oil is avoided to flow fast in oil guide slot, thus make the flow of refrigeration oil in oil guide slot be easy to control, ensure that the greasy property of pump assembly, and then improve the operational reliability of compressor and heat transmission equipment.Meanwhile, because the greasy property at the mating face place of the first flange and bent axle is stablized, thus make this mating face place be full of refrigeration oil, effectively avoid the first flange insufficient lubrication, ensure that the rotation reliability of bent axle.

Accompanying drawing explanation

The Figure of description forming a application's part is used to provide further understanding of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 shows the structural representation of upper flange of the prior art;

Fig. 2 shows the structural representation of the first flange according to first embodiment of the present utility model;

Fig. 3 shows the structural representation of the bent axle according to first embodiment of the present utility model;

Fig. 4 shows the structural representation of the pump assembly according to second embodiment of the present utility model;

Fig. 5 shows the structural representation of the bent axle in Fig. 4;

Fig. 6 shows the structural representation of the first flange in Fig. 4;

Fig. 7 oil guide piece shown in the utility model is assembled to the structural representation of the pump assembly after in bent axle; And

Fig. 8 shows the assembly relation schematic diagram of oil guide piece in Fig. 7 and bent axle.

Wherein, above-mentioned accompanying drawing comprises the following drawings mark:

10, bent axle; 11, eccentric structure; 12, the second control oil groove; 13, the second oil storage tank; 14, center hole; 20, the first flange; 21, flange first end; 22, the first control oil groove; 23, flange second end; 24, the first oil storage tank; 30, oil guide slot; 31, Oil Guide first end; 32, Oil Guide second end; 40, territory, controlled oil region; 50, oil storage region; 60, cylinder; 70, the second flange; 80, oil guide piece.

Embodiment

It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the utility model in detail in conjunction with the embodiments.

It is noted that following detailed description is all exemplary, be intended to provide further instruction to the application.Unless otherwise, all technology used herein and scientific terminology have the identical meanings usually understood with the application person of an ordinary skill in the technical field.

In the utility model, when not doing contrary explanation, the noun of locality of use such as " inside and outside " refers to profile inside and outside relative to each parts itself, but the above-mentioned noun of locality is not limited to the utility model.

In order to solve in prior art the unmanageable problem of the flow of refrigeration oil in oil guide slot, the utility model provides a kind of pump assembly, compressor and heat transmission equipment.Wherein, compressor comprises following pump assembly, and heat transmission equipment comprises the compressor with following pump assembly.

As shown in Fig. 2 to Fig. 8, pump assembly, the first flange 20 comprising bent axle 10 and be set on bent axle 10, bent axle 10 has eccentric structure 11, first flange 20 and/or bent axle 10 offer oil guide slot 30, oil guide slot 30 is positioned at the position that the first flange 20 coincides with bent axle 10, and one end away from eccentric structure 11 of oil guide slot 30 is Oil Guide first end 31, one end away from eccentric structure 11 of first flange 20 is flange first end 21, Oil Guide first end 31 and the distance of eccentric structure 11 of oil guide slot 30 are less than the flange first end 21 of the first flange 20 and the distance of eccentric structure 11.

First flange 20 and/or bent axle 10 offer oil guide slot 30, and one end away from eccentric structure 11 of oil guide slot 30 and the distance of eccentric structure 11 are less than one end away from eccentric structure 11 of the first flange 20 and the distance of eccentric structure 11.As the end face of the Oil Guide first end 31 of the oil guide slot 30 of said structure and flange first end 21 interval of the first flange 20 is arranged or not through setting, thus air pressure in the cavity of compressor is reduced on the impact of refrigeration oil in oil guide slot 30, avoid refrigeration oil flowing fast in oil guide slot 30, thus make the flow of refrigeration oil in oil guide slot 30 be easy to control, ensure that the greasy property of pump assembly, and then improve the operational reliability of compressor and heat transmission equipment.Meanwhile, because the first flange 20 is stablized with the greasy property at the mating face place of bent axle 10, thus make this mating face place be full of refrigeration oil, effectively avoid the first flange 20 insufficient lubrication, ensure that the rotation reliability of bent axle 10.

The first flange 20 in the utility model and the gap between bent axle 10 increase to form territory, controlled oil region 40 at flange first end 21 place, and the Oil Guide first end 31 of oil guide slot 30 is communicated with territory, controlled oil region 40.Pump assembly in the utility model can ensureing that main bearing lubrication is sufficient while, by controlling the size in territory, controlled oil region 40 to control the flow of refrigeration oil, thus to reduce the power consumption of compressor, and control the oil content of compressor, to promote efficiency and the operational reliability of heat transmission equipment.

As shown in Figure 2 and Figure 6, the groove section being positioned at territory, controlled oil region 40 of oil guide slot 30 is more than or equal to 3 millimeters in the axial length L 2 axially of bent axle 10.Refrigeration oil in oil storage region 50 can be flowed in territory, controlled oil region 40 more swimmingly.

Oil guide slot 30 in the utility model extends twist.Like this, the mating face between lubricant oil sufficient lubrication first flange 20 in oil guide slot 30 and bent axle 10 can be made.

Bent axle 10 in the utility model and the gap between the first flange 20 increase to 0.05 millimeter to 0.2 millimeter at territory, controlled oil region 40 place.Bearing can be made to obtain good lubrication effect, and refrigeration oil flow-rate ratio is more moderate.

The first flange 20 in the utility model and the gap between bent axle 10 increase to form oil storage region 50 at flange second end 23 place of the first flange 20, Oil Guide second end 32 of oil guide slot 30 is communicated with oil storage region 50, flange second end 23 two ends that are positioned at first flange 20 relative to flange first end 21, Oil Guide second end 32 two ends that are positioned at oil guide slot 30 relative to Oil Guide first end 31.Owing to being provided with oil storage region 50, thus ensure that and can store enough refrigeration oils to lubricate between bent axle 10 and the first flange 20, effectively avoid the first flange 20 to wear and tear.

In the optional embodiment of first shown in Fig. 2 and Fig. 3, oil guide slot 30 is opened on the endoporus of the first flange 20, the Oil Guide first end 31 of oil guide slot 30 is not communicated to the end face of the flange first end 21 of the first flange 20, and is reserved with the first predeterminable range L1 between the end face of the flange first end 21 of the Oil Guide first end 31 of oil guide slot 30 and the first flange 20.Namely not through first flange 20 of oil guide slot 30.

Alternatively, the first predeterminable range L1 is more than or equal to 2 millimeters or be less than or equal to 5 millimeters.Can reach the oily effect of control preferably, and the bearing-free action length of the first flange 20 can accept.

In this specific embodiment, the endoporus of the first flange 20 of corresponding part, territory, controlled oil region 40 offers the first control oil groove 22, the Oil Guide first end 31 and first of oil guide slot 30 is controlled oil groove 22 and is communicated with.

In this specific embodiment, the endoporus of the first flange 20 of corresponding part, oil storage region 50 offers the first oil storage tank 24, Oil Guide second end 32 of oil guide slot 30 is communicated with the first oil storage tank 24.

The endoporus of the first flange 20 of the above results is shoulder hole.

It should be noted that, the first hole section between territory, controlled oil region 40 and oil storage region 50 on the first flange 20 and the gap formed between bent axle 10 are defined as bearing play.

In this specific embodiment, first flange 20 only has end portion to serve as main bearing effect, its gap width controls by normal bearing play, upper end part is control oil-gap (the first control oil groove 22 corresponding part), gap width between this section first flange 20 and bent axle 10 is greater than bearing play, do not serve as bearing effect, this section of excesssive gap, bent axle 10 can not be caused to swing excessive; Oil guide slot 30 is communicated with the first oil storage tank 24 and the first control oil groove 22, makes refrigeration oil successfully can arrive the first control oil groove 22 from the first oil storage tank 24; The size controlling the first control oil groove 22 can realize controlling the flow of refrigeration oil.

And the first aperture D of this first hole section is less than the second aperture D1 of the second hole section offering the first oil storage tank 24 place.The diameter of bent axle 10 is d.

Alternatively, 0.05< (D1-d) <0.2, unit is millimeter.Bearing can be made to obtain good lubrication effect, and refrigeration oil flow-rate ratio is more moderate.

In second optional embodiment shown in Fig. 4 to Fig. 6, oil guide slot 30 is opened on bent axle 10, is reserved with the first predeterminable range L1 between the end face of the Oil Guide first end 31 of oil guide slot 30 and the flange first end 21 of the first flange 20.Namely the end surfaces of the flange first end 21 of oil guide slot 30 and the first flange 20 is arranged.

Alternatively, the first predeterminable range L1 is more than or equal to 2 millimeters or be less than or equal to 5 millimeters.Can reach the oily effect of control preferably, and the bearing-free action length of the first flange 20 can accept.

In this specific embodiment, oil guide slot 30 is opened on bent axle 10, the outer circumferential face of the bent axle 10 of corresponding part, territory, controlled oil region 40 offers the second control oil groove 12, and the Oil Guide first end 31 and second of oil guide slot 30 is controlled oil groove 12 and is communicated with.In this specific embodiment, the outer circumferential face of the bent axle 10 of corresponding part, oil storage region 50 offers the second oil storage tank 13, Oil Guide second end 32 of oil guide slot 30 is communicated with the second oil storage tank 13.Make refrigeration oil successfully can arrive the second control oil groove 12 from the second oil storage tank 13 like this; The size controlling the second control oil groove 12 can realize controlling the flow of refrigeration oil.

It should be noted that, for this embodiment, the aperture of the endoporus of the first flange 20 does not become D.And the hole section between territory, controlled oil region 40 and oil storage region 50 of the first flange 20 and the gap that formed between bent axle 10 are defined as bearing play.And the relation of the first diameter d of the aperture D of this hole section and bent axle 10 and Second bobbin diameter d1 diameter is as follows.

First diameter d is the diameter of the shaft part on bent axle 10 between territory, controlled oil region 40 and oil storage region 50; Second bobbin diameter d1 is diameter bent axle 10 starting the shaft part having the second control oil groove 12 place.

Alternatively, d1 is less than d, and 0.05< (D-d1) <0.2, unit is millimeter.Bearing can be made to obtain good lubrication effect, and refrigeration oil flow-rate ratio is more moderate.

In a not shown embodiment, the first flange 20 is provided with the first control oil groove 22 and the first oil storage tank 24, bent axle 10 is provided with the second oil storage tank 13 and the second control oil groove 12.

As shown in Figure 7 and Figure 8, pump assembly also comprises the second flange 70 and is folded in the cylinder 60 between the first flange 20 and the second flange 70, and is provided with oil guide piece 80 in the center hole 14 of bent axle 10.Refrigeration oil in compressor is inhaled in the center hole 14 of bent axle 10 under the effect of oil guide piece 80, bent axle 10 offers oil guiding hole, and refrigeration oil flows to oil guide slot 30 through oil guiding hole, under the effect of oil guiding hole and oil guide slot 30, refrigeration oil can arrive whole Bearing inner, lubricates bearing.In this specific embodiment, center hole 14 is through holes, and it is applicable to the compressor of general type, namely in the lower end of bent axle 10 and the little compressor of upper end pressure reduction.

As shown in Figure 3, when applying the pump assembly in the utility model in low-pressure cavity compressor, the upper end of the first flange 20 is low pressure, and the lower end of the first flange 20 is high pressure, therefore the center hole 14 of bent axle 10 can not be through hole, otherwise can directly collaborate from the center hole 14 of bent axle 10.Therefore, in this specific embodiment, the center hole 14 of bent axle 10 is blind hole, and blind hole is extended to one end away from eccentric structure 11 of bent axle 10 by one end of the close eccentric structure 11 of bent axle 10.At this moment, due to the effect in territory, controlled oil region 40, the lower end of the first flange 20 can not be communicated with the upper end of the first flange 20 by center hole 14, namely can not be collaborated by the upper end of the first flange 20.

Similarly, in the embodiment of second shown in Fig. 4 and Fig. 5, center hole 14 also can have through hole and blind hole two kinds selection.

For the embodiment of Fig. 2 and Fig. 3, summarize model utility point of the present utility model.The epimere endoporus of the first flange 20 in the utility model is greater than hypomere endoporus, and hypomere endoporus and bent axle 10 form main bearing relation, and support parts such as cylinder 60 grade, the gap between epimere endoporus and bent axle 10 is for controlling the flow of refrigeration oil.The upper end end face of the first flange 20 is led in oil guide slot 30 not milling, but is communicated with the first oil storage tank 24 and the first control oil groove 22.Refrigeration oil can arrive the first control oil groove 22 by oil guide slot 30 smoothly, and refrigeration oil is determined by the gap between the first control oil groove 22 and bent axle 10 by the flow of the first control oil groove 22.More than achieve the flow control of bearing lubrication and the refrigeration oil by oil guide slot 30.

It should be noted that used term is only to describe embodiment here, and be not intended to the illustrative embodiments of restricted root according to the application.As used herein, unless the context clearly indicates otherwise, otherwise singulative is also intended to comprise plural form, in addition, it is to be further understood that, " comprise " when using term in this manual and/or " comprising " time, it indicates existing characteristics, step, work, device, assembly and/or their combination.

It should be noted that, term " first ", " second " etc. in the specification of the application and claims and above-mentioned accompanying drawing are for distinguishing similar object, and need not be used for describing specific order or precedence.Should be appreciated that the data used like this can be exchanged in the appropriate case, so as the mode of execution of the application described herein can with except here diagram or describe those except order implement.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (17)

1. a pump assembly, is characterized in that, comprising:

Bent axle (10), described bent axle (10) has eccentric structure (11);

Be set in the first flange (20) on described bent axle (10), described first flange (20) and/or described bent axle (10) offer oil guide slot (30), described oil guide slot (30) is positioned at the position that described first flange (20) coincides with described bent axle (10), and one end away from described eccentric structure (11) of described oil guide slot (30) is Oil Guide first end (31), one end away from described eccentric structure (11) of described first flange (20) is flange first end (21), the described Oil Guide first end (31) of described oil guide slot (30) and the distance of described eccentric structure (11) are less than the described flange first end (21) of described first flange (20) and the distance of described eccentric structure (11).

2. pump assembly according to claim 1, it is characterized in that, gap between described first flange (20) and described bent axle (10) increases to form territory, controlled oil region (40) at described flange first end (21) place, and the described Oil Guide first end (31) of described oil guide slot (30) is communicated with territory, described controlled oil region (40).

3. pump assembly according to claim 1 and 2, it is characterized in that, described oil guide slot (30) is opened on the endoporus of described first flange (20), the described Oil Guide first end (31) of described oil guide slot (30) is not communicated to the end face of the described flange first end (21) of described first flange (20), and is reserved with the first predeterminable range L1 between the end face of the described Oil Guide first end (31) of described oil guide slot (30) and the described flange first end (21) of described first flange (20).

4. pump assembly according to claim 3, is characterized in that, described first predeterminable range L1 is more than or equal to 2 millimeters or be less than or equal to 5 millimeters.

5. pump assembly according to claim 1 and 2, it is characterized in that, described oil guide slot (30) is opened on described bent axle (10), is reserved with the first predeterminable range L1 between the end face of the described Oil Guide first end (31) of described oil guide slot (30) and the described flange first end (21) of described first flange (20).

6. pump assembly according to claim 5, is characterized in that, described first predeterminable range L1 is more than or equal to 2 millimeters or be less than or equal to 5 millimeters.

7. pump assembly according to claim 2, it is characterized in that, the groove section being positioned at territory, described controlled oil region (40) of described oil guide slot (30) is more than or equal to 3 millimeters in the axial length L 2 axially of described bent axle (10).

8. pump assembly according to claim 1, is characterized in that, described oil guide slot (30) extends twist.

9. pump assembly according to claim 2, is characterized in that, the gap between described bent axle (10) and described first flange (20) increases to 0.05 millimeter to 0.2 millimeter at territory, described controlled oil region (40) place.

10. pump assembly according to claim 2, it is characterized in that, described oil guide slot (30) is opened on the endoporus of described first flange (20), the endoporus of described first flange (20) of territory, described controlled oil region (40) corresponding part offers the first control oil groove (22), and the described Oil Guide first end (31) and described first of described oil guide slot (30) controls oil groove (22) and is communicated with.

11. pump assemblies according to claim 2, it is characterized in that, described oil guide slot (30) is opened on described bent axle (10), the outer circumferential face of the described bent axle (10) of territory, described controlled oil region (40) corresponding part offers the second control oil groove (12), the described Oil Guide first end (31) and described second of described oil guide slot (30) controls oil groove (12) and is communicated with.

12. pump assemblies according to claim 1, it is characterized in that, gap between described first flange (20) and described bent axle (10) increases to form oil storage region (50) at flange second end (23) place of described first flange (20), Oil Guide second end (32) of described oil guide slot (30) is communicated with described oil storage region (50), described flange second end (23) two ends that are positioned at described first flange (20) relative to described flange first end (21), described Oil Guide second end (32) and the described relative two ends being positioned at described oil guide slot (30) of Oil Guide first end (31).

13. pump assemblies according to claim 12, it is characterized in that, described oil guide slot (30) is opened on the endoporus of described first flange (20), the endoporus of described first flange (20) of described oil storage region (50) corresponding part offers the first oil storage tank (24), and described Oil Guide second end (32) of described oil guide slot (30) is communicated with described first oil storage tank (24).

14. pump assemblies according to claim 12, it is characterized in that, described oil guide slot (30) is opened on described bent axle (10), the outer circumferential face of the described bent axle (10) of described oil storage region (50) corresponding part offers the second oil storage tank (13), and described Oil Guide second end (32) of described oil guide slot (30) is communicated with described second oil storage tank (13).

15. pump assemblies according to claim 1 and 2, it is characterized in that, the center hole (14) of described bent axle (10) is blind hole, and described blind hole is extended to one end away from described eccentric structure (11) of described bent axle (10) by one end of the close described eccentric structure (11) of described bent axle (10).

16. 1 kinds of compressors, comprise pump assembly, it is characterized in that, described pump assembly is the pump assembly according to any one of claim 1 to 15.

17. 1 kinds of heat transmission equipments, comprise compressor, it is characterized in that, described compressor is compressor according to claim 16.