CN102016321A - Compressor - Google Patents

Abstract

A compressor provided with a scroll compression mechanism having a fixed scroll and an orbiting scroll has a means for connecting a discharge port to a second discharge chamber irrespective of where the discharge port is provided. A housing (6) and an end plate (1a) of a fixed scroll (1) cooperatively form a discharge route communicating with a scroll compression mechanism and also communicating with a discharge port (19) connected to the high-pressure side of an external refrigerant circuit. The discharge route has a first discharge chamber (14) facing the center of the end plate of the fixed scroll, an oil separating chamber (15) communicating with the discharge chamber and facing the outer periphery of the end plate of the fixed scroll, and a second discharge chamber (18) communicating with the oil separating chamber and facing the outer periphery of the end plate of the fixed scroll. A through-hole (21) leads from the outer surface of the housing through the discharge port to the second discharge chamber, thereby connecting the discharge port to the second discharge chamber, and a closing member closes that end of the through-hole which is on the outer surface side of the housing.

Description

Compressor

Technical field

The present invention relates to a kind of compressor, it comprises: the scroll compressor structure, this scroll compressor structure has static vortex disk and movable orbiting scroll, wherein, above-mentioned static vortex disk has end plate and the upright heliconid of being located at end plate that is formed with tap hole at central part, thus above-mentioned movable orbiting scroll have end plate and the upright heliconid of being located at end plate and with a plurality of working rooms of static vortex disk engagement formation; And shell, this shell is accommodated the scroll compressor structure, shell is cooperated mutually with the end plate of static vortex disk, thereby form the drain passageway is communicated with and is communicated with the on high-tension side exhaust end that is connected to the external refrigerant loop with the scroll compressor structure, drain passageway has: the first discharge chamber that stands facing each other with the central part of static vortex disk end plate; With discharge the chamber and be communicated with, and the oil separation chamber that stands facing each other with the peripheral part of static vortex disk end plate; And be communicated with, and discharge the chamber with second of the peripheral part face-off of static vortex disk end plate with oil separation chamber.

Background technique

The application's claimant has proposed a kind of compressor in patent documentation 1, it comprises: the scroll compressor structure, this scroll compressor structure has static vortex disk and movable orbiting scroll, wherein, above-mentioned static vortex disk has end plate and the upright heliconid of being located at end plate that is formed with tap hole at central part, thus above-mentioned movable orbiting scroll have end plate and the upright heliconid of being located at end plate and with a plurality of working rooms of static vortex disk engagement formation; And shell, this shell is accommodated the scroll compressor structure, shell is cooperated mutually with the end plate of static vortex disk, thereby form the drain passageway is communicated with and is communicated with the on high-tension side exhaust end that is connected to the external refrigerant loop with the scroll compressor structure, drain passageway has: the first discharge chamber that stands facing each other with the central part of static vortex disk end plate; With discharge the chamber and be communicated with, and the oil separation chamber that stands facing each other with the peripheral part of static vortex disk end plate; And be communicated with, and discharge the chamber with second of the peripheral part face-off of static vortex disk end plate with oil separation chamber.

In above-mentioned compressor, discharge inflow oil separation chamber in chamber from the gas that the scroll compressor structure is discharged via first, in oil separation chamber, form the stream that circles round and in discharging gas, disperse floating mist of oil, then flow into second and discharge the chamber, and discharge from compressor via exhaust end to remove.

The prior art document

Patent documentation

Patent documentation 1: the Japan Patent spy opens the 2008-082238 communique

Disclosure of an invention

Invent technical problem to be solved

The compressor of patent documentation 1 is so that the live axle of scroll compressor along horizontal-extending, and makes second to discharge the engine compartment etc. that state that the chamber is positioned at the topmost part of drain passageway is arranged at passenger car.As mentioned above, the compressor of patent documentation 1 by horizontal and drain passageway in an end of shell, so second of the topmost part that is positioned at drain passageway discharge the chamber directly over dispose compressor axle sleeve be installed.Therefore, discharge second that the configuration exhaust end is difficult directly over the chamber, thus must make the exhaust end allocation position discharge the chamber from second directly over the position move.If make the exhaust end allocation position discharge the chamber from second directly over the position move, it is difficult that exhaust end directly is communicated with the second discharge chamber.

The present invention does in view of above-mentioned technical problem, its purpose is to provide a kind of compressor, it comprises: the scroll compressor structure, this scroll compressor structure has static vortex disk and movable orbiting scroll, wherein, above-mentioned static vortex disk has end plate and the upright heliconid of being located at end plate that is formed with tap hole at central part, thus above-mentioned movable orbiting scroll have end plate and the upright heliconid of being located at end plate and with a plurality of working rooms of static vortex disk engagement formation; And shell, this shell is accommodated the scroll compressor structure, shell is cooperated mutually with the end plate of static vortex disk, thereby form the drain passageway is communicated with and is communicated with the on high-tension side exhaust end that is connected to the external refrigerant loop with the scroll compressor structure, drain passageway has: the first discharge chamber that stands facing each other with the central part of static vortex disk end plate; With discharge the chamber and be communicated with, and the oil separation chamber that stands facing each other with the peripheral part of static vortex disk end plate; And be communicated with oil separation chamber, and discharge the chamber with second of the peripheral part face-off of static vortex disk end plate, in addition, also take the method that exhaust end is communicated with the allocation position of exhaust end with the second discharge chamber.

The technological scheme that the technical solution problem is adopted

In order to solve the problems of the technologies described above, in the present invention, a kind of compressor, it is characterized in that, comprise: the scroll compressor structure, this scroll compressor structure has static vortex disk and movable orbiting scroll, wherein, above-mentioned static vortex disk has end plate and the upright heliconid of being located at end plate that is formed with tap hole at central part, thus above-mentioned movable orbiting scroll have end plate and the upright heliconid of being located at end plate and with a plurality of working rooms of static vortex disk engagement formation; And shell, this shell is accommodated the scroll compressor structure, shell is cooperated mutually with the end plate of static vortex disk, thereby form the drain passageway is communicated with and is communicated with the on high-tension side exhaust end that is connected to the external refrigerant loop with the scroll compressor structure, drain passageway has: the first discharge chamber that stands facing each other with the central part of static vortex disk end plate; With discharge the chamber and be communicated with, and the oil separation chamber that stands facing each other with the peripheral part of static vortex disk end plate; And be communicated with oil separation chamber, and discharge the chamber with second of the peripheral part of static vortex disk end plate face-off, in addition, also be formed with the through hole that arrives the second discharge chamber from outer surface of outer cover by exhaust end, utilize this through hole to make exhaust end and second discharge the chamber and be communicated with, and dispose the closure member that the outer surface of outer cover side end to above-mentioned through hole seals.

By forming, can irrespectively make exhaust end and second discharge the chamber with the allocation position of exhaust end and be communicated with from the through hole of outer surface of outer cover by the exhaust end arrival second discharge chamber.

Also can use sealing bolt to come the outer surface of outer cover side end of above-mentioned through hole is sealed, but reach under the situation of safety valve that specified value is discharged to this refrigerant gas when above external environment condition disposing pressure when the refrigerant gas of discharging, also can seal by valve safe in utilization from compressing mechanism.

The invention effect

According to the present invention, a kind of compressor can be provided, it comprises: the scroll compressor structure, this scroll compressor structure has static vortex disk and movable orbiting scroll, wherein, above-mentioned static vortex disk has end plate and the upright heliconid of being located at end plate that is formed with tap hole at central part, thus above-mentioned movable orbiting scroll have end plate and the upright heliconid of being located at end plate and with a plurality of working rooms of static vortex disk engagement formation; And shell, this shell is accommodated the scroll compressor structure, shell is cooperated mutually with the end plate of static vortex disk, thereby form the drain passageway is communicated with and is communicated with the on high-tension side exhaust end that is connected to the external refrigerant loop with the scroll compressor structure, drain passageway has: the first discharge chamber that stands facing each other with the central part of static vortex disk end plate; With discharge the chamber and be communicated with, and the oil separation chamber that stands facing each other with the peripheral part of static vortex disk end plate; And be communicated with oil separation chamber, and discharge the chamber with second of the peripheral part face-off of static vortex disk end plate, in addition, also take the method that exhaust end is communicated with the allocation position of exhaust end with the second discharge chamber.

Description of drawings

Fig. 1 is the sectional view of the compressor of the embodiment of the invention.

Fig. 2 is the stereogram of construction element of the compressor of the embodiment of the invention.

Fig. 3 is the sectional view of variation of the compressor of the embodiment of the invention.

(symbol description)

1 static vortex disk

The 1a end plate

1aa first recess

1ab second recess

1ac the 3rd recess

1ad the 4th recess

The 1b heliconid

The 1c tap hole

2 movable orbiting scrolls

The 2a end plate

The 2b heliconid

4 housings

4a first recess

4b second recess

4c the 3rd recess

4d the 4th recess

4e is communicated with recess

5 fore shells

6 shells

13 suction sides

14 first discharge the chamber

15 oil separation chambers

17 oil accumulate portion

18 second discharge the chamber

19 exhaust ends

20 install axle sleeve

21 through holes

22 safety valves

Embodiment

The compressor related to the embodiment of the invention describes.

As shown in Figure 1, scroll compressor A comprises: the static vortex disk 1 with end plate 1a and heliconid 1b; And movable orbiting scroll 2 with end plate 2a and heliconid 2b.Heliconid 1b, 2b are engaged with each other, and form many to working space 3.Center at the end plate 1a of static vortex disk is formed with tap hole 1c.Tap hole 1c is opened by the not shown expulsion valve that is installed on end plate 1a and closes.

Scroll compressor A includes the housing 4 and the fore shell 5 of round-ended cylinder shape.Housing 4 engages with fore shell 5 one and forms shell 6 cylindraceous.Shell 6 is accommodated static vortex disk 1 and movable orbiting scroll 2.

The end plate 1a of static vortex disk and the tube portion of housing 4 are chimeric, and use a plurality of fixing bolts 7 to be fixed in the diapire of housing 4.Dispose zero shape ring with the embedding part sealing.

Dispose the main shaft 8 that runs through fore shell 5.One end of main shaft 8 engages with not shown external drive source work via magnetic clutch 9.The other end at main shaft 8 is fixed with cam pin 10.Lining 11 engages outward with cam pin 10 with slidable form.In the formed axle sleeve 2c in the back side of the end plate 2a that lining 11 is contained at movable orbiting scroll 2 by radial bearing.

Between movable orbiting scroll 2 and fore shell 5, dispose ball coupling (ball coupling) 12.Compressing mechanism is formed by main shaft 8, cam pin 10, lining 11, ball coupling 12, movable orbiting scroll 2 and static vortex disk 1.

Fore shell 5 is cooperated mutually with the end plate 1a of static vortex disk and the tube portion of housing 4, thereby forms from the suction side 13 that is formed at above-mentioned tube portion to the suction path of the peripheral part of movable orbiting scroll heliconid 2b.Suction side 13 is connected with the low voltage side in external refrigeration machine loop.

As shown in Figure 1 and Figure 2, diapire internal surface central part at housing 4 is formed with the first recess 4a, be formed with elongated and the second shallow recess 4b that compares with the first recess 4a at diapire internal surface peripheral part, diapire internal surface peripheral part be formed be communicated with the second recess 4b and with the first recess 4a adjacency, and than the second recess 4b dark the 3rd recess 4c, be formed with and the second recess 4b and the first recess 4a adjacency at diapire internal surface peripheral part, elongated and than the second recess 4b dark the 4th recess 4d.The top of the dividing plate between the first recess 4a and the second recess 4b is formed with the less connection recess 4e of width that the first recess 4a is communicated with the second recess 4b.

As shown in Figure 1 and Figure 2, be formed with the first recess 1aa at the central part with the end face face-off of housing 4a diapire static vortex disk end plate 1a, be formed with the second elongated recess 1ab at above-mentioned end face peripheral part, above-mentioned end face peripheral part be formed be communicated with the second recess 1ab and with the 3rd recess 1ac of the first recess 1aa adjacency, above-mentioned end face peripheral part be formed with and the second recess 1ab and the first recess 1aa in abutting connection with and the 4th elongated recess 1ad.

From the four-headed arrow of Fig. 2 as can be known, make the fixing bolt inserting hole that is formed at housing 4 and the fixing bolt tapped hole that is formed at static vortex disk end plate 1a over against, do not form the position of above-mentioned recess and the position butt that does not form above-mentioned recess of housing 4 diapire internal surfaces thereby make on static vortex disk end plate 1a and the end face face-off of housing 4a diapire.

The first recess 4a cooperates mutually with the first recess 1aa and forms the first discharge chamber 14, the second recess 4b cooperates mutually with the second recess 1ab and forms oil separation chamber 15, the position that does not form above-mentioned recess on static vortex disk end plate 1a and end face housing 4a diapire face-off be communicated with recess 4e and cooperate mutually and form discharge gas introduction hole 16, the 3rd recess 4c cooperates mutually with the 3rd recess 1ac and forms oil and accumulate 17, the four recess 4d of portion and cooperate mutually with the 4th recess 1ad and form second and discharge chamber 18.The 4th recess 1ad is communicated with the oil separation chamber 15 and the second discharge chamber 18.Second discharges chamber 18 is communicated with the exhaust end 19 that is formed at housing 4.Exhaust end 19 is connected with the high pressure side in external refrigerant loop.Oil separation chamber 15 accumulates portion 17 with oil and is communicated with.

First interconnecting part and second of discharging between chamber 14, discharge gas introduction hole 16, oil separation chamber 15, the formed oil separation chamber 15 of the 4th recess 1ad and the second discharge chamber 18 is discharged the drain passageway that chamber 18 formation are communicated with and are communicated with the on high-tension side exhaust end 19 that is connected to the external refrigerant loop with compressing mechanism.

Scroll compressor A, with main shaft 8 along horizontal-extending, compressing mechanism is below suction side 13, second discharges chamber 18 below exhaust end 19, oil separation chamber 15 is below the second discharge chamber 18, first discharge chamber 14 with oil separation chamber 15 sustained height levels, oil accumulate portion 17 oil separation chamber 15 and first discharge chamber 14 below state, be arranged at the engine compartment of passenger car and be used.

As mentioned above, scroll compressor A is by horizontal, and drain passageway is in long side direction one end of shell 6, therefore, as can be seen from Figure 1, second of the topmost part that is positioned at drain passageway discharge chamber 18 directly over dispose compressor axle sleeve 20 be installed.The existence of axle sleeve 20 being installed because of compressor causes being difficult to that exhaust end 19 is disposed at second makes it directly be communicated with the second discharge chamber 18 directly over discharging chamber 18, therefore, the topmost part of the diapire of housing 4 is given prominence to towards axial foreign side, or make the topmost part of diapire of housing 4 outstanding as shown in Figure 3 towards foreign side radially, with at this protuberance configuration exhaust end 19.So, exhaust end 19 be not disposed at second discharge chamber 18 directly over, thereby exhaust end 19 directly is communicated with the second discharge chamber 18.Therefore, form through hole 21, and utilize through hole 21 that the exhaust end 19 and the second discharge chamber 18 are communicated with, this through hole 21, as shown in Figure 1 from the outer surface towards the outstanding position of above-mentioned axial foreign side of the diapire the topmost part of housing 4, or, arrive second via the underpart of exhaust end 19 and discharge chamber 18 as shown in Figure 3 from the outer surface towards the outstanding position of above-mentioned radially foreign side of the diapire the topmost part of housing 4.Use reaches the safety valve 22 that specified value is discharged to this refrigerant gas when above external environment condition at the pressure of the refrigerant gas of discharging from compressing mechanism, seals the housing outer surface side end of through hole 21.Also can use sealing bolt to replace safety valve 22 to seal the housing outer surface side end of through hole 21.

In the related scroll compressor of present embodiment, the power of not shown driving source is delivered to an end of main shaft 8 via magnetic clutch 9, thus drive main spindle 8 rotations.The rotation of main shaft 8 is transformed to circumnutation and is delivered to movable orbiting scroll 2 because of cam pin 10 and lining 11, thereby makes movable orbiting scroll 2 circumnutations., be introduced in a pair of working space 3 of the outer circumferential side that forms by heliconid 1b, 2b via suction side 13 with suck path and attracted to the refrigerant gas of the peripheral part of heliconid 2b from the low voltage side loop in external refrigerant loop.Utilize ball coupling 12 to stop the rotation of movable orbiting scroll 2.

A pair of working space 3 moves towards the center of static vortex disk 1 while reducing volume, thus the refrigerant gas in the compression work space 3.The refrigerant gas of high pressure is discharged chamber 14 discharges via tap hole 1c and the expulsion valve of the end plate 1a that is formed at static vortex disk 1 towards first.The refrigerant gas of high pressure is discharged chamber 14 by discharging gas introduction hole 16, inflow oil separation chamber 15 from first.Refrigerant gas tangentially flows into respect to the cross section of oil separation chamber 15, in oil separation chamber 15, circle round on one side, flow into second by the formed interconnecting part of recess 1ab on one side and discharge chamber 18, and flow out towards the loop, high pressure side of outside refrigerant circuit via exhaust end 19.

Discharge chamber 18 when flowing when the refrigerant gas of high pressure circles round in oil separation chamber 15 on one side towards second on one side, the floating mist of oil of dispersion separates from refrigerant gas in refrigerant gas owing to centrifugal force makes, and is attached to all sidewalls of oil separation chamber 15.The mist of oil that is attached to all sidewalls of oil separation chamber 15 forms drop and mobile towards the bottom of oil separation chamber 15, accumulates portion 17 thereby lodge in the oil that is communicated with oil separation chamber 15.Lodge in the oil that oil accumulates portion 17 and turn back to the bottom that sucks path via the oily path of end plate 1a that is formed at static vortex disk 1 and heliconid 1b, thereby the various slide parts of compressing mechanism are lubricated.

In the related scroll compressor A of present embodiment, formation arrives the through hole 21 of the second discharge chamber 18 by exhaust end 19 from housing 4 outer surfaces, and the exhaust end 19 and the second discharge chamber 18 are communicated with, therefore, can irrespectively make exhaust end 19 and second discharge chamber 18 with the allocation position of exhaust end 19 be communicated with.

Claims (3)

1. a compressor is characterized in that, comprising:

The scroll compressor structure, this scroll compressor structure has static vortex disk and movable orbiting scroll, wherein, described static vortex disk has end plate and the upright heliconid of being located at end plate that is formed with tap hole at central part, thus described movable orbiting scroll have end plate and the upright heliconid of being located at end plate and with a plurality of working rooms of static vortex disk engagement formation; And

Shell, this shell is accommodated the scroll compressor structure,

Shell is cooperated mutually with the end plate of static vortex disk, thereby forms the drain passageway that is communicated with and is communicated with the on high-tension side exhaust end that is connected to the external refrigerant loop with the scroll compressor structure,

Drain passageway has: discharge the chamber with first of the central part of static vortex disk end plate face-off; With discharge the chamber and be communicated with, and the oil separation chamber that stands facing each other with the peripheral part of static vortex disk end plate; And be communicated with oil separation chamber, and discharge the chamber with second of the peripheral part face-off of static vortex disk end plate,

In addition, also be formed with from outer surface of outer cover and arrive second through hole of discharging the chamber, utilize this through hole that exhaust end is communicated with the second discharge chamber, and dispose the closure member that the outer surface of outer cover side end to described through hole seals by exhaust end.

2. compressor as claimed in claim 1 is characterized in that,

Described closure member is a sealing bolt.

3. compressor as claimed in claim 1 is characterized in that,

Described closure member is that the pressure at the refrigerant gas of discharging from compressing mechanism reaches specified value is discharged this refrigerant gas when above towards outside environment safety valve.

Images