CN204783685U - Horizontal slide vane compressor and air conditioner - Google Patents

Horizontal slide vane compressor and air conditioner Download PDF

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Publication number
CN204783685U
CN204783685U CN201520351821.XU CN201520351821U CN204783685U CN 204783685 U CN204783685 U CN 204783685U CN 201520351821 U CN201520351821 U CN 201520351821U CN 204783685 U CN204783685 U CN 204783685U
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CN
China
Prior art keywords
pump housing
oil
horizontal slide
compressor
lubricating oil
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CN201520351821.XU
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Chinese (zh)
Inventor
吴飞
万鹏凯
罗发游
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珠海格力电器股份有限公司
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Priority to CN201520351821.XU priority Critical patent/CN204783685U/en
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Publication of CN204783685U publication Critical patent/CN204783685U/en

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Abstract

The utility model provides a horizontal slide vane compressor and air conditioner, according to the utility model discloses a horizontal slide vane compressor, include: seal shell, the pump body and driving motor, the pump body and driving motor set up in seal shell's inside, and seal shell's inside is used for the splendid attire to predetermine the cooling and lubrication oil of volume, the pump body has induction port, gas vent and cooling and lubrication oil circuit, and the induction port communicates with the admission line of compressor, and the gas vent communicates with the inside of seal shell, and the entry end of cooling and lubrication oil circuit is located below the liquid level of cooling and lubrication oil. According to the utility model discloses a horizontal slide vane compressor, the pump body and driving motor set up the inside at seal shell to through pump body exhaust gas circuit and lubricated oil circuit mix design, utilize the cooling driving motor of gas circuit, and improve the pressure of cooling and lubrication oil simultaneously, thereby guaranteed the backpressure of the gleitbretter lubricated effect vice with each friction, it is simple and convenient, safe and reliable.

Description

Horizontal slide vane compressor and air-conditioning

Technical field

The utility model relates to compressor field, in particular to the horizontal slide vane compressor of one and air-conditioning.

Background technique

Traditional slide vane compressor, mainly car air conditioner is applied, the motor of its compressor and the pump housing, not in same seal space, are external motor car engines, so the design of gas circuit does not need to consider cooling motor, the exhaust of its pump housing directly can be used to provide the back pressure design of slide plate.

But mainly there is following problem in it:

1, motor and pump assembly be not in a seal space, needs outer translator to provide power, and also need to increase coupling, clutch equijoin assembly, adds the quantity of component and the complexity of technique.

2, the design of compressor is not owing to needing the cooling considering motor, makes it not need to carry out particular design for gas circuit and then in conjunction with oil circuit.

3, the application of compressor is subject to the restriction of motor, and product using scope reduces greatly.

Model utility content

The utility model aims to provide a kind of horizontal slide vane compressor and the air-conditioning that improve cooling and lubricating effect.

The utility model provides a kind of horizontal slide vane compressor, comprising: seal casinghousing, the pump housing and drive motor; The pump housing and drive motor are arranged on the inside of seal casinghousing, and the inside of seal casinghousing is used for the cutting oil of splendid attire preset vol; The pump housing has intakeport, relief opening and cooling and lubricating oil circuit, and intakeport is communicated with the admission line of compressor, and relief opening is communicated with the inside of seal casinghousing, and the entry end of cooling and lubricating oil circuit is positioned at below the liquid level of cutting oil.

Further, the pump housing and drive motor are arranged on the inside of seal casinghousing, and the isolation of the inner chamber of seal casinghousing is formed at least two chambers, and at least two chambers are interconnected by asphalt channel; At least two chambers comprise pump housing exhaust cavity and oil pocket, and the relief opening of the pump housing is communicated with pump housing exhaust cavity, and oil pocket is communicated with the cooling and lubricating oil circuit of the pump housing.

Further, the pump housing and drive motor are arranged on the inside of seal casinghousing, and by the inner chamber of seal casinghousing isolation formation three chambers, are respectively pump housing exhaust cavity, oil pocket and exhaust gas collection chamber; Wherein, oil pocket is between the pump housing and the first end of seal casinghousing; Pump housing exhaust cavity is between the pump housing and drive motor, and exhaust gas collection chamber is between drive motor and the second end of seal casinghousing; Second end of seal casinghousing is provided with the exhaust duct be communicated with exhaust gas collection chamber, and pump housing exhaust cavity is communicated with by the gas channels be arranged on drive motor with exhaust gas collection chamber.

Further, cooling and lubricating oil circuit comprises the first lubricating oil path, and the first lubricating oil path is communicated with the vane slot of the pump housing.

Further, the first lubricating oil path comprises oil passage and the back pressure oil groove that are interconnected, and back pressure oil groove is communicated with vane slot.

Further, the pump housing comprises the first flange, cylinder body, the second flange and main shaft; Oil passage and back pressure oil groove is arranged on the first flange, and vane slot is arranged on main shaft.

Further, the pump housing comprises the first flange, cylinder body, the second flange and main shaft; Cooling and lubricating oil circuit also comprises the second lubricating oil path, second lubricating oil path comprises the axially extended alignment of shafts passage along main shaft, and with the flange oilhole of alignment of shafts channel connection, wherein, the first end of alignment of shafts passage is pump housing end, and the second end is motor side.

Further, the second lubricating oil path also comprises pressure reduction mechanism, and pressure reduction organization establishes is at the second end of alignment of shafts passage.

Further, pressure reduction mechanism is non-return mechanism, and non-return mechanism is arranged on the second end of alignment of shafts passage.

Further, pressure reduction mechanism is fan, to make the second end of alignment of shafts passage form negative pressure on the rotor that fan is arranged on drive motor.

Further, the second lubricating oil path also comprises oil baffle, and the second end of the corresponding alignment of shafts passage of oil baffle is arranged.

Further, the second lubricating oil path also comprises oil pipe component, and upper oil pipe component is communicated with the bottom of the first end of alignment of shafts passage and the inner chamber of seal casinghousing.

Further, the second lubricating oil path also comprises and being arranged in alignment of shafts passage and the pump oil sheet of spiral extension.

Further, asphalt channel comprises and is arranged on drive motor and pump housing outer circumferential side, and is positioned at the logical oil groove of compressor bottom.

Further, asphalt channel also comprises and being arranged on bottom compressor, and is communicated with the return tube of the bottom of oil pocket and the bottom in exhaust gas collection chamber.

The utility model additionally provides a kind of air-conditioning, comprises aforesaid horizontal slide vane compressor.

According to horizontal slide vane compressor of the present utility model and air-conditioning, the pump housing and drive motor are arranged on the inside of seal casinghousing, and make the entry end of the cooling and lubricating oil circuit of the pump housing be positioned at below the liquid level of cutting oil.When compressor operating, the exhaust of the pump housing is directly drained into seal casinghousing inside, increases the pressure of whole seal casinghousing inside, improves the pressure of cutting oil, thus is conducive to cutting oil and enters into cooling and lubricating oil circuit, improves cooling and lubricating effect.

Accompanying drawing explanation

The accompanying drawing 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 is the first axial sectional structure schematic diagram according to horizontal slide vane compressor of the present utility model;

Fig. 2 is the radial sectional structure schematic diagram of the pump housing according to horizontal slide vane compressor of the present utility model;

Fig. 3 is the second axial sectional structure schematic diagram according to horizontal slide vane compressor of the present utility model;

Fig. 4 is the 3rd axial sectional structure schematic diagram according to horizontal slide vane compressor of the present utility model;

Fig. 5 is the four-axial sectional structure schematic diagram according to horizontal slide vane compressor of the present utility model;

Fig. 6 is the structural representation of the fan according to horizontal slide vane compressor of the present utility model;

Description of reference numerals:

1, case follower; 2, the first flange; 3, cylinder body; 4, the second flange; 5, main shaft; 6, motor stator; 7, rotor; 8, oil baffle; 8 ', fan; 9, the first end cap; 10, the second end cap; 11, pump oil sheet; 12, exhaust valve plate; 13, non-return mechanism; 14, exhaust duct; 15, intakeport; 16, the flange moon teeth cavity; 17, cylinder working chamber; 18, pump housing exhaust cavity; 19, rotor gap; 20, rotor gas channel; 21, exhaust gas collection chamber; 22, oil pocket; 23, stator trimming; 24, flange trimming; 25, oil sump; 26, alignment of shafts passage; 27, oil passage; 28, back pressure oil groove; 29, vane slot; 30, flange oilhole; 31, slide plate; 32, upper oil pipe component; 33, return tube.

Embodiment

Below with reference to the accompanying drawings and describe the utility model in detail in conjunction with the embodiments.

As shown in Figures 1 to 4, according to the first embodiment of horizontal slide vane compressor of the present utility model, horizontal slide vane compressor comprises: seal casinghousing, the pump housing and drive motor; The pump housing and drive motor are arranged on the inside of seal casinghousing, and the inside of seal casinghousing is used for the cutting oil of splendid attire preset vol; The pump housing has intakeport, relief opening and cooling and lubricating oil circuit, and intakeport is communicated with the admission line of compressor, and relief opening is communicated with the inside of seal casinghousing, and the entry end of cooling and lubricating oil circuit is positioned at below the liquid level of cutting oil.The utility model by the pump housing and drive motor being arranged on the inside of seal casinghousing, and makes the entry end of the cooling and lubricating oil circuit of the pump housing be positioned at below the liquid level of cutting oil.When compressor operating, the exhaust of the pump housing is directly drained into seal casinghousing inside, increases the pressure of whole seal casinghousing inside, improves the pressure of cutting oil, thus is conducive to cutting oil and enters into cooling and lubricating oil circuit, improves cooling and lubricating effect.

In conjunction with shown in 1 to 3, according to the second embodiment of horizontal slide vane compressor of the present utility model, on the basis of the first embodiment, the pump housing and drive motor are arranged on the inside of seal casinghousing, and the isolation of the inner chamber of seal casinghousing is formed at least two chambers, at least two chambers are interconnected by asphalt channel, thus are convenient to oil return.Further, in a second embodiment, at least two chambers comprise pump housing exhaust cavity 18 and oil pocket 22, and the relief opening of the pump housing is communicated with pump housing exhaust cavity 18, and namely first pump housing exhaust enters pump housing exhaust cavity 18; Oil pocket 22 is mainly used in splendid attire cutting oil, and is communicated with the cooling and lubricating oil circuit of the pump housing.Pump housing exhaust cavity 18 is communicated with by asphalt channel with oil pocket 22, thus makes the cutting oil entering pump housing exhaust cavity 18 be back to oil pocket 22.

According to different needs, asphalt channel can be arranged on different positions, when asphalt channel is arranged on the bottom of pump housing exhaust cavity 18 and oil pocket 22, and pump housing exhaust cavity 18 and oil pocket 22 are when the equal seal isolation in other positions, due to the existence of pump housing exhaust pressure, the degree of depth of cutting oil in oil pocket 22 can be made to be greater than the degree of depth of the cutting oil in pump housing exhaust cavity 18, thus the entry end of Reliable guarantee cooling and lubricating oil circuit can be positioned at below the liquid level of cutting oil.When also there are other communicating passage in pump housing exhaust cavity 18 and oil pocket 22, the liquid level of the cutting oil of two chambers may be equal, also may be different, as long as the entry end of cooling and lubricating oil circuit is positioned at below the liquid level of cutting oil, the pressure of cooling and lubricating oil circuit can be ensured, ensure proper lubrication.

Shown in composition graphs 1 to 4, in the 3rd embodiment of the present utility model, on the basis of the second embodiment, the pump housing and drive motor are arranged on the inside of seal casinghousing by the inner chamber of seal casinghousing isolation formation three chambers, are respectively pump housing exhaust cavity 18, oil pocket 22 and exhaust gas collection chamber 21; Wherein, oil pocket 22 is between the pump housing and the first end of seal casinghousing; Pump housing exhaust cavity 18 is between the pump housing and drive motor, and exhaust gas collection chamber 21 is between drive motor and the second end of seal casinghousing; Second end of seal casinghousing is provided with the exhaust duct 14 be communicated with exhaust gas collection chamber 21, and pump housing exhaust cavity 18 is communicated with by the gas channels be arranged on drive motor with exhaust gas collection chamber 21.

In the third embodiment, by the internal insulation of seal casinghousing is become three independently chambers, compare the second embodiment, increase exhaust gas collection chamber 21, and be communicated with pump housing exhaust cavity 18 by gas channels, usually, gas channels is the gap (i.e. rotor gap 19 in Fig. 1) between the motor stator 6 of drive motor and rotor 7, thus the pump housing can be made to be vented drive motor formation cooling, solve the cooling problem of motor.Certainly, according to different needs, gas channels can also arrange independent passage on rotor 7 or motor stator 6, as arranged rotor gas channel 20 at rotor 7, thus improves the radiating effect of rotor.

More specifically, shown in composition graphs 1, in the present embodiment, seal casinghousing comprises case follower 1 and seals the first end cap 9 and the second end cap 10 being arranged on case follower 1 two ends, thus conveniently arranges the pump housing and drive motor in enclosure interior.

Shown in composition graphs 1 and Fig. 2, the main shaft 5 that the pump housing comprises the first flange 2, cylinder body 3, second flange 4 and is connected with drive motor.In composition graphs 4 shown in dotted arrow, this dotted arrow represents that compressor gas flows to, when compressor operating, refrigerant is sucked by intakeport 15,16 cylinder working chamber 17 is entered via flange moon teeth cavity, then by slide plate 31 and cylinder working chamber 17 acting in conjunction, the High Temperature High Pressure refrigerant after compressing is entered pump housing exhaust cavity 18 by the exhaust valve plate 12 above the second flange 4, then enter exhaust gas collection chamber 21 via rotor gap 19, rotor gas channel 20 and other passages, finally discharged by exhaust duct 14.

Shown in composition graphs 1 and Fig. 2, cooling and lubricating oil circuit comprises the first lubricating oil path, and the first lubricating oil path is communicated with the vane slot 29 of the pump housing, thus improves the oil pressure of vane slot 29, and namely the first lubricating oil path is the back pressure oil circuit of vane slot 29.After compressor operating is stable, the oil pressure of vane slot 29 rear end is approximately equal to the air pressure in seal casinghousing, ensure that the pressure at slide plate back, make slide plate 31 can be adjacent to cylinder body wall under the effect of oil pressure, thus reduce the leakage of refrigerant, and then improve compressor refrigerating capacity and efficiency, ensure pump housing reliable operation.

More specifically, first lubricating oil path comprises oil passage 27 and the back pressure oil groove 28 that are interconnected, and back pressure oil groove 28 is communicated with vane slot 29, and the passage 27 that oils is communicated with from back pressure oil groove 28 to downward-extension with oil pocket 22, back pressure oil groove 28 in the form of a ring, ensures to be communicated with the vane slot 29 rotated.Usually, oil passage 27 and back pressure oil groove 28 are arranged on the first flange 2, and convenient cooperation with the vane slot 29 be arranged on main shaft 5 is communicated with.

Shown in composition graphs 1 and Fig. 2, cooling and lubricating oil circuit also comprises the second lubricating oil path, second lubricating oil path comprises the axially extended alignment of shafts passage 26 along main shaft 5, and the flange oilhole 30 to be communicated with alignment of shafts passage 26, wherein, the first end of alignment of shafts passage 26 is pump housing end, and the second end is motor side, namely by alignment of shafts passage 26 and flange oilhole 30 to the friction pair fuel feeding between flange and main shaft, ensure lubrication and cooling.

Preferably, the second lubricating oil path also comprises pressure reduction mechanism, and pressure reduction organization establishes at the second end of alignment of shafts passage 26, thus makes to form pressure reduction between alignment of shafts passage 26 and exhaust gas collection chamber 21, is convenient to cutting oil and enters alignment of shafts passage 26.Usually, pressure reduction mechanism adopts non-return mechanism 13, and as safety check, non-return mechanism 13 is arranged on the second end of alignment of shafts passage 26.More preferably, the second lubricating oil path also comprises and being arranged in alignment of shafts passage 26 and the pump oil sheet 11 of spiral extension, arranges pump oil sheet 11, is conducive to the cutting oil in oil pocket 22 to be pumped in alignment of shafts passage 26.

Shown in composition graphs 1 to 3, in the third embodiment, the housing bottom that the asphalt channel being communicated with three chambers is arranged on.Usually, corresponding logical oil groove can be set on drive motor and the pump housing, thus by three chamber, logical oil groove can adopt the form of trimming to arrange, namely as the stator trimming 23 in Fig. 1 and flange trimming 24.According to different needs, asphalt channel can also increase return tube 33 on the basis of above-mentioned trimming, return tube 33 is communicated with the bottom of oil pocket 22 and the bottom in exhaust gas collection chamber 21, make the cutting oil of bottom, exhaust gas collection chamber 21 can be back to oil pocket 22 more rapidly and efficiently, thus better participate in the circulation of whole oil circuit.

Be similar to the second embodiment, when pump housing exhaust cavity 18 is communicated with by means of only asphalt channel with oil pocket 22, the degree of depth of cutting oil in oil pocket 22 can be made to be greater than in pump housing exhaust cavity 18, thus the entry end of Reliable guarantee cooling and lubricating oil circuit can be positioned at below the liquid level of cutting oil.When pump housing exhaust cavity 18 and oil pocket 22 also exist other communicating passage, the liquid level of the cutting oil of two chambers may be equal, also may be different.

To be communicated with by means of only asphalt channel with pump housing exhaust cavity 18 and oil pocket 22 and the process of cutting oil of the present utility model under the effect of pump housing exhaust pressure is described.

Before compressor start, the air pressure of enclosure interior three chambers is equal, cutting oil is present in the bottom of seal casinghousing, and three chamber lower portion is communicated with due to flange trimming 24 and the existence of stator trimming 23, and now cutting oil liquid level height is identical.

When after compressor operating, flowing shown in dotted arrow in Fig. 4 is pressed in pump housing exhaust, at the driven compressor initial stage, inner three chambers of seal casinghousing are made to produce pressure reduction (pump housing exhaust cavity 18 pressure > exhaust gas collection chamber 21 pressure > oil pocket 22 pressure), under the effect of pressure reduction, the cutting oil of lower housing portion is made to produce corresponding height difference (as shown in Figure 1).

Particularly, under the effect of pressure reduction, make sub-fraction cutting oil lead to stator trimming 23 and flow to exhaust gas collection chamber 21, major part cutting oil flows into oil pocket 22 by flange trimming 24 and forms oil sump 25, meanwhile cutting oil is pressed into the passage 27 that oils under the effect of high pressure, and the back pressure oil groove 28 entering the first flange 2 along the passage 27 that oils and then vane slot 29 rear end that enters main shaft 5 provide back pressure for slide plate 31, to ensure that slide plate 31 is adjacent to the lubrication (as shown in Figure 2) of cylinder body 3 inwall and slide plate 31 side in operation process, namely the first lubricating oil path is started working.

And along with the rising of cooling and lubricating oil level, when the gas pressure of oil pocket 22 is elevated to the gas pressure being greater than non-return mechanism 13 right-hand member, non-return mechanism 13 is opened, cutting oil enters alignment of shafts passage 26, simultaneously because the pumping effect of the pump oil sheet 11 of alignment of shafts passage 26 left end and the pressure drag effect of non-return mechanism 13 make the cooling and lubricating oil pressure of alignment of shafts passage 26 inside raise, cutting oil is pressed into two flange oilholes 30 that alignment of shafts passage 26 relevant position is opened, to the second flange 4 of compressor pump body structure, the friction pair fuel feeding at the first flange 2 place, comprise the second flange axle journal, end face and the first flange axle journal, end face, namely the second lubricating oil path is started working.

After compressor operating is stable, in oil sump 25, the pressure of cutting oil equals compressor seal housing pressure (being slightly less than the exhaust pressure at exhaust valve plate place), ensure that the oil pressure of back pressure oil groove 28 and vane slot 29 rear end is approximately equal to seal casinghousing exhaust pressure, make slide plate 31 can be adjacent to cylinder body wall under the effect of oil pressure.And the lubricant oil of discharging on the right side of alignment of shafts passage 26 blocks the bottom fluid of rear inflow compressor seal housing via oil baffle 8, the flange trimming 24 of being opened by stator trimming 23 and the second flange 4 lower end by the effect of pressure reduction again reenters oil sump 25, forms cutting oil circulation.At the oil baffle 8 of main shaft 5 right part erection, that can reduce compressor tells oily rate.

Shown in composition graphs 5 and Fig. 6, pressure reduction mechanism also can be fan 8 ', to make the second end of alignment of shafts passage 26 form local negative pressure on the rotor that fan 8 ' is arranged on drive motor, thus will, by in the suction alignment of shafts passage 26 of the cutting oil of oil sump 25 active, under the effect of proportioning pump oil sheet 11, lubricated each friction pair of the second flange 4, first flange 2 by flange oilhole 30.

More preferably, fan 8 ' and oil baffle 8 can be wholely set, namely the structures such as several fin, rib are installed on oil baffle 8 and form fan 8 ' (structure as shown in Figure 6), fan 8 ' is fixed on above rotor by screw, rotor can be utilized to rotarily drive fan 8 ' and rotate formation local negative pressure.

In the 4th embodiment shown in composition graphs 5, on the basis of the 3rd embodiment, the second lubricating oil path can also comprise oil pipe component 32, and upper oil pipe component 32 is communicated with the bottom of the first end of alignment of shafts passage 26 and the inner chamber of seal casinghousing.The bottom of the seal casinghousing oil inlet end of alignment of shafts passage 26 extended to by upper oil pipe component 32, can guarantee that oil inlet end is positioned at below the liquid level of cutting oil, particularly when cutting oil is very few, or sealing between the pump housing with seal casinghousing is unreliable and cause oil pocket 22 and pump housing exhaust cavity 18 to there is gas circuit when being communicated with.Also namely in this embodiment, oil pocket 22 and pump housing exhaust cavity 18 directly can not need adopt seal isolation and make cutting oil in two chambeies, produce height difference, thus can save processing operation, reduce processing difficulty, reduce costs, improve reliability.

The utility model additionally provides a kind of air-conditioning, comprises aforesaid horizontal slide vane compressor, improves the reliability of air-conditioning.Such as domestic air conditioning, car air conditioner are especially suitable for electric automobile air conditioner.

As can be seen from the above description, the utility model the above embodiments achieve following technique effect:

According to horizontal slide vane compressor of the present utility model and air-conditioning, the pump housing and drive motor are arranged on the inside of seal casinghousing, and by pump housing exhaust gas circuit and lubricating oil path matching design, utilize gas circuit to cool drive motor, and improve the pressure of cutting oil simultaneously, thus ensure that the back pressure of slide plate and the lubrication effect of each friction pair, simple and convenient, safe and reliable.

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 (16)

1. a horizontal slide vane compressor, comprising: seal casinghousing, the pump housing and drive motor; It is characterized in that,
The described pump housing and described drive motor are arranged on the inside of described seal casinghousing, and the inside of described seal casinghousing is used for the cutting oil of splendid attire preset vol;
The described pump housing has intakeport, relief opening and cooling and lubricating oil circuit, described intakeport is communicated with the admission line of compressor, described relief opening is communicated with the inside of described seal casinghousing, and the entry end of described cooling and lubricating oil circuit is positioned at below the liquid level of described cutting oil.
2. horizontal slide vane compressor according to claim 1, is characterized in that,
The described pump housing and described drive motor are arranged on the inside of described seal casinghousing, and the isolation of the inner chamber of described seal casinghousing is formed at least two chambers, and described at least two chambers are interconnected by asphalt channel;
Described at least two chambers comprise pump housing exhaust cavity (18) and oil pocket (22), the relief opening of the described pump housing is communicated with described pump housing exhaust cavity (18), and described oil pocket (22) is communicated with the cooling and lubricating oil circuit of the described pump housing.
3. horizontal slide vane compressor according to claim 2, is characterized in that,
The described pump housing and described drive motor are arranged on the inside of described seal casinghousing, and by the inner chamber of described seal casinghousing isolation formation three chambers, be respectively pump housing exhaust cavity (18), oil pocket (22) and exhaust gas collection chamber (21);
Wherein, described oil pocket (22) is between the described pump housing and the first end of described seal casinghousing; Described pump housing exhaust cavity (18) is between the described pump housing and described drive motor, and described exhaust gas collection chamber (21) is between described drive motor and the second end of described seal casinghousing;
Second end of described seal casinghousing is provided with the exhaust duct (14) be communicated with described exhaust gas collection chamber (21), and described pump housing exhaust cavity (18) is communicated with by the gas channels be arranged on described drive motor with described exhaust gas collection chamber (21).
4. horizontal slide vane compressor according to any one of claim 1 to 3, is characterized in that,
Described cooling and lubricating oil circuit comprises the first lubricating oil path, and described first lubricating oil path is communicated with the vane slot (29) of the described pump housing.
5. horizontal slide vane compressor according to claim 4, is characterized in that,
Described first lubricating oil path comprises the passage that oils (27) and back pressure oil groove (28) that are interconnected, and described back pressure oil groove (28) is communicated with described vane slot (29).
6. horizontal slide vane compressor according to claim 5, is characterized in that,
The described pump housing comprises the first flange (2), cylinder body (3), the second flange (4) and main shaft (5);
The described passage that oils (27) and described back pressure oil groove (28) are arranged on described first flange (2), and described vane slot (29) is arranged on described main shaft (5).
7. horizontal slide vane compressor according to any one of claim 1 to 3, is characterized in that,
The described pump housing comprises the first flange (2), cylinder body (3), the second flange (4) and main shaft (5);
Described cooling and lubricating oil circuit also comprises the second lubricating oil path, described second lubricating oil path comprises the axially extended alignment of shafts passage (26) along described main shaft (5), and the flange oilhole (30) to be communicated with described alignment of shafts passage (26), wherein, the first end of described alignment of shafts passage (26) is pump housing end, and the second end is motor side.
8. horizontal slide vane compressor according to claim 7, is characterized in that,
Described second lubricating oil path also comprises pressure reduction mechanism, and described pressure reduction organization establishes is at the second end of described alignment of shafts passage (26).
9. horizontal slide vane compressor according to claim 8, is characterized in that,
Described pressure reduction mechanism is non-return mechanism (13), and described non-return mechanism (13) is arranged on the second end of described alignment of shafts passage (26).
10. horizontal slide vane compressor according to claim 8, is characterized in that,
Described pressure reduction mechanism is fan (8 '), to make the second end of described alignment of shafts passage (26) form negative pressure on the rotor that described fan (8 ') is arranged on described drive motor.
11. horizontal slide vane compressors according to claim 7, is characterized in that,
Described second lubricating oil path also comprises oil baffle (8), and the second end of the corresponding described alignment of shafts passage (26) of described oil baffle (8) is arranged.
12. horizontal slide vane compressors according to claim 7, is characterized in that,
Described second lubricating oil path also comprises oil pipe component (32), and described upper oil pipe component (32) is communicated with the bottom of the described first end of alignment of shafts passage (26) and the inner chamber of described seal casinghousing.
13. horizontal slide vane compressors according to claim 7, is characterized in that,
Described second lubricating oil path also comprises and being arranged in described alignment of shafts passage (26) and the pump oil sheet (11) of spiral extension.
14. horizontal slide vane compressors according to Claims 2 or 3, is characterized in that,
Described asphalt channel comprises and is arranged on described drive motor and described pump housing outer circumferential side, and is positioned at the logical oil groove of compressor bottom.
15. horizontal slide vane compressors according to claim 3, is characterized in that,
Described asphalt channel comprises and being arranged on bottom compressor, and is communicated with the return tube (33) of the bottom of described oil pocket (22) and the bottom in described exhaust gas collection chamber (21).
16. 1 kinds of air-conditionings, comprise compressor, it is characterized in that, the horizontal slide vane compressor of described compressor according to any one of claim 1 to 15.
CN201520351821.XU 2015-05-27 2015-05-27 Horizontal slide vane compressor and air conditioner CN204783685U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201520351821.XU CN204783685U (en) 2015-05-27 2015-05-27 Horizontal slide vane compressor and air conditioner

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201520351821.XU CN204783685U (en) 2015-05-27 2015-05-27 Horizontal slide vane compressor and air conditioner

Publications (1)

Publication Number Publication Date
CN204783685U true CN204783685U (en) 2015-11-18

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Application Number Title Priority Date Filing Date
CN201520351821.XU CN204783685U (en) 2015-05-27 2015-05-27 Horizontal slide vane compressor and air conditioner

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105805013A (en) * 2016-03-10 2016-07-27 广东美芝制冷设备有限公司 Rotary compressor
CN105909525A (en) * 2016-06-28 2016-08-31 珠海格力节能环保制冷技术研究中心有限公司 Sliding vane compressor and household appliance
CN106286306A (en) * 2015-05-27 2017-01-04 珠海格力电器股份有限公司 Horizontal slide vane compressor and air-conditioning

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106286306A (en) * 2015-05-27 2017-01-04 珠海格力电器股份有限公司 Horizontal slide vane compressor and air-conditioning
CN106286306B (en) * 2015-05-27 2019-12-27 珠海格力电器股份有限公司 Horizontal sliding vane compressor and air conditioner
CN105805013A (en) * 2016-03-10 2016-07-27 广东美芝制冷设备有限公司 Rotary compressor
CN105909525A (en) * 2016-06-28 2016-08-31 珠海格力节能环保制冷技术研究中心有限公司 Sliding vane compressor and household appliance

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