CN205172938U - Scroll compressor - Google Patents

Abstract

The utility model provides a scroll compressor, including fixed vortex dish (1) and gyration vortex dish (2), wherein be in gyration vortex dish (2) is gone up and is kept away from the position department of fixed vortex dish (1) is provided with and the compression chamber of compressor and back pressure chamber (21) of exhausting and all sealing up between the chamber, and back pressure chamber (21) are regional through high -pressure area and/or low pressure that the intercommunication pipeline feeds through the non - compression chamber of compressor to it adjusts still to be provided with control on the communicating pipe way the back pressure control structure of back pressure chamber internal pressure size. Through the utility model discloses can realize that different situation controls the effect of regulation down to the gaseous backpressure in the back pressure chamber for scroll compressor realizes under different work condition that fixed vortex coils and turn round different sealing performance between the vortex dish, and then realizes the function of the varactor regulation of compressor, the compression work that can also prevent high temperature and high pressure coolant from backflowing and cause consumes the emergence of the mistake condition.

Description

A kind of scroll compressor

Technical field

The utility model belongs to air-conditioning technical field, is specifically related to a kind of scroll compressor.

Background technique

In high back pressure frequency-changing cyclone compressor, the seal form that the axial seal of compression chamber generally adopts orbiter to float, by forming intermediate pressure cavity in orbiter scroll wrap back side, intermediate pressure acts on Moving plate substrate back, contrary with the axial gas force direction formed in compression chamber, therefore, suitable intermediate pressure by orbiter to fixed scroll thruster pressure, can realize the axial seal of compression chamber.Intermediate pressure is enough large, and the coefficient of frictional resistance on the orbiting and fixed scroll sealing surface becomes large, and compressor power consumption increases; Intermediate pressure is too little, and be difficult to again the axial seal forming compression chamber, the leakage between compression chamber increases, and compressor refrigerating capacity reduces, and therefore, forms the efficiency of suitable intermediate pressure to compressor most important in back pressure cavity.The technological means that existing volume production type adopts the pressure in compressor chamber is introduced Moving plate back pressure space by the through flow hole on sound dish form intermediate pressure cavity, this intermediate pressure cavity is separated with air aspiration cavity and exhaust cavity, form independently intermediate pressure cavity, orbiter is exhaust pressure in bearing the accommodation of compression chamber internal pressure, back pressure cavity internal pressure and Moving plate sliding bearing and holding, the axial air seal power of compression chamber side is pointed in the formation of making a concerted effort of final three, realizes excellent sealing and the lubrication of compression chamber.This technological means is as described in patent CN101046201A.

In existing technological scheme, structure is formed for having designed intermediate pressure cavity, it is invariable that its intermediate pressure cavity and compression chamber are communicated with angle, namely pressure ratio when two chambeies are communicated with in compression chamber is certain, and often back pressure communication paths can only meet best connectivity angle requirement under some design conditions when designing, pressure under compressor rest working conditions in intermediate pressure cavity is not best intermediate pressure, compression chamber can be caused inadequate in these operating mode seal performance, compression chamber can not normally compress, or sealing force is enough large, and compressor friction power loss is too large.Simultaneously, periodically be communicated with due to what adopt between intermediate pressure cavity with compression chamber, when intermediate pressure cavity is communicated with compression chamber (compression chamber be operated in low-pressure ratio state under), intermediate pressure in intermediate pressure cavity can backflow to compression chamber, the higher temperatures higher pressure refrigerant gas compressed, at the compression intraluminal inflation compared with low-temp low-pressure, increases the compression power consumption of compressor.

Therefore, the axial seal gas force that prior art is formed is difficult to obtain optimum axial seal effect under different operating mode, there is high-temperature high-pressure refrigerant simultaneously and backflow between intermediate pressure cavity and compression chamber, increases compression power consumption loss.

Be difficult to obtain optimum axial seal effect under different operating mode because scroll compressor of the prior art exists axial seal gas force, there is high-temperature high-pressure refrigerant between intermediate pressure cavity and compression chamber to backflow simultaneously, increase the technical problem of compression power consumption loss, therefore the utility model research and design goes out a kind of scroll compressor.

Model utility content

Therefore, the technical problems to be solved in the utility model is that overcoming scroll compressor of the prior art exists the axial seal effect that axial seal gas force is difficult to obtain optimum under different operating mode, there is high-temperature high-pressure refrigerant between intermediate pressure cavity and compression chamber to backflow simultaneously, increase the defect of compression power consumption loss, thus a kind of scroll compressor is provided.

The utility model provides a kind of scroll compressor, comprise fixed scroll and revolution scroll, the back pressure cavity being wherein provided with in described revolution scroll and away from the position of described fixed scroll and all sealing between the compression chamber of compressor and exhaust cavity, described back pressure cavity is communicated to high-pressure area and/or the area of low pressure in the uncompressed chamber of compressor by connecting pipeline, and on described connecting pipeline, be also provided with the back pressure control structure of back pressure cavity internal pressure size described in regulating and controlling.

Preferably, described back pressure control structure comprises the electromagnetic valve structure of at least one be arranged on described connecting pipeline.

Preferably, described connecting pipeline comprises one end is communicated to described compressor outside back pressure cavity connecting tube from described back pressure cavity, and the other end of described back pressure cavity connecting tube is communicated to the high-pressure area of compressor by supercharging connecting tube.

Preferably, described connecting pipeline also comprises the described the other end from described back pressure cavity connecting tube and described supercharging connecting tube connecting part branch pressure release connecting tube out, and the other end of described pressure release connecting tube is communicated to the area of low pressure of compressor.

Preferably, and described back pressure control structure comprises the low voltage side solenoid electric valve being arranged on high pressure side solenoid electric valve on described supercharging connecting tube and being arranged on described pressure release connecting tube.

Preferably, the high-pressure area described supercharging connecting tube being communicated to described compressor is positioned at the first exhaust gas region below the described revolution scroll of described compressor inside.

Preferably, the high-pressure area described supercharging connecting tube being communicated to described compressor is positioned at the second exhaust gas region of the described fixed scroll upper end of described compressor inside.

Preferably, the high-pressure area described supercharging connecting tube being communicated to described compressor is positioned at described compressor inside and the main bearing oil sump region contacted with revolution scroll.

Preferably, the high-pressure area described supercharging connecting tube being communicated to described compressor is positioned at inner top, the oil sump face exhaust gas region bottom compressor of described compressor.

Preferably, when described connecting pipeline also comprises pressure release connecting tube, be communicated to the low pressure air suction pipe of described compressor described pressure release connecting tube.

The scroll compressor that the utility model provides has following beneficial effect:

1. realize the effect gas backpressure in back pressure cavity being carried out under different situations to regulating and controlling, make the sealing that scroll compressor can both keep good between fixed scroll and revolution scroll under different operating mode, reach good axial seal effect, make scroll compressor under different operating mode, realize sealabilities different between fixed scroll and revolution scroll;

2. and can also effectively prevent the refrigeration agent adverse current in back pressure cavity from getting back in compression chamber, prevent high-temperature high-pressure refrigerant from backflowing and situation that the compression power consumption loss that causes increases occurs.

3. in controlling, press chamber and Lifetime between exhaust gas region and air-breathing area of low pressure, obtain different intermediate pressures, namely realize sealing and the non-tight state of compression chamber, obtain different compression refrigeration amounts according to compression time effective in the unit time, realize varying capacity and regulate.

4. obtain suitable intermediate pressure by the frequency width of the open and close of solenoid electric valve, the best intermediate pressure value needed under different operating mode can be obtained.

Accompanying drawing explanation

Fig. 1: the structural representation of embodiment one of the present utility model;

Fig. 2: the close-up schematic view of embodiment one of the present utility model;

Fig. 3: the structural representation of embodiment two of the present utility model;

Fig. 4: the structural representation of embodiment three of the present utility model;

Fig. 5: the structural representation of embodiment four of the present utility model;

Fig. 6: the technical solution of the utility model Contrast on effect schematic diagram.

In figure, reference character is expressed as:

1-fixed scroll, 2-revolution scroll, 3-cross slip-ring, 4-upper bracket, 5-main equilibrium block, 6-drive rotor, 7-live axle, 8-lower support frame, 9-radial direction oil hole, 10-lower cover, 11-bottom oil sump, 12-lower thrust plate, 13-oil guide piece, 14-supplementary bearing, 15-housing, 16-main bearing, 17-the first exhaust gas region, 18-supercharging connecting tube (exhaust gas region connecting tube), 19-high pressure side solenoid electric valve, 20-back pressure cavity connecting tube, 21-back pressure cavity (intermediate pressure cavity), 22-pressure release connecting tube (air-breathing low voltage terminal connecting tube), 23-low voltage side solenoid electric valve, 24-low pressure air suction pipe (axial sucking pipe), 25-upper cover, 26-fixed scroll (quiet dish) main bearing oil sump communicating passage, 27-fixed scroll (quiet dish) main bearing oil sump, 28-the second exhaust gas region (the upper exhaust gas region of fixed scroll (quiet dish)), top, 29-oil sump face exhaust gas region, A-solenoid electric valve unlatching frequency width (in), width (low) frequently opened by B-solenoid electric valve, width (height) frequently opened by C-solenoid electric valve.

Embodiment

As Figure 1-5, the utility model provides a kind of scroll compressor, comprise fixed scroll 1 and revolution scroll 2, the back pressure cavity 21 being wherein provided with in described revolution scroll 2 and away from the position of described fixed scroll 1 and all sealing between the compression chamber of compressor and exhaust cavity, described back pressure cavity 21 is communicated to high-pressure area and/or the area of low pressure in the uncompressed chamber of compressor by connecting pipeline, and on described connecting pipeline, be also provided with the back pressure control structure of back pressure cavity internal pressure size described in regulating and controlling.

By back pressure cavity being set to and all sealing the seal action that can play back pressure cavity well between compression chamber and uncompressed chamber, ensure that gas does not leak, maintain the stable of internal pressure, the high-pressure area and/or the area of low pressure that described back pressure cavity are communicated to the uncompressed chamber of compressor by connecting pipeline can effectively prevent the refrigeration agent adverse current in back pressure cavity from getting back in compression chamber simultaneously, prevent high-temperature high-pressure refrigerant from backflowing and cause compression power consumption loss increase situation occur, simultaneously by be also provided with on described connecting pipeline back pressure cavity internal pressure size described in regulating and controlling back pressure control structure can effectively back-pressure be adjustable, realize the sealability different to compression chamber, realize the effect gas backpressure in back pressure cavity being carried out under different situations to regulating and controlling, make the sealing that scroll compressor can both keep good between fixed scroll and revolution scroll under different operating mode, reach good axial seal effect, make scroll compressor under different operating mode, realize sealabilities different between fixed scroll and revolution scroll, and then the function that the transfiguration realizing compressor regulates.

Preferably, described back pressure control structure comprises the electromagnetic valve structure of at least one be arranged on described connecting pipeline.Effectively can be controlled unlatching or the closedown of connecting pipeline by electromagnetic valve structure, thus realize the effective regulating and controlling to back-pressure size.

Preferably, described connecting pipeline comprises one end is communicated to described compressor outside back pressure cavity connecting tube 20 from described back pressure cavity 21, and the other end of described back pressure cavity connecting tube 20 is communicated to the high-pressure area of compressor by supercharging connecting tube 18.Can effectively be connected between back pressure cavity and the high-pressure area of compressor by back pressure cavity connecting tube and with the supercharging connecting tube that back pressure cavity connecting tube is communicated with, thus realize pressurized gas to be supplemented to this back pressure cavity from this high-pressure area, to reach the object of the pressure improved in back pressure cavity.

Preferably, described connecting pipeline also comprises the described the other end from described back pressure cavity connecting tube 20 and described supercharging connecting tube 18 connecting part branch pressure release connecting tube 22 out, and the other end of described pressure release connecting tube 22 is communicated to the area of low pressure of compressor.By arrange above-mentioned linkage structure pressure release connecting tube (or being called air-breathing low voltage terminal connecting tube) can according to the actual needs by the pressure in back pressure cavity (or claim intermediate pressure cavity) to pressure release in suction line, to reach the object reducing pressure in back pressure cavity; And because intermediate pressure cavity is less, pressure leak process is of short duration, the performance of compressor can not be affected.

Preferably, and described back pressure control structure comprises the low voltage side solenoid electric valve 23 being arranged on high pressure side solenoid electric valve on described supercharging connecting tube 18 19 and being arranged on described pressure release connecting tube 22.Good control action can being carried out to the pressure raising in back pressure cavity according to actual needs by arranging above-mentioned high pressure side solenoid electric valve, good control action can be carried out to the pressure reduction in back pressure cavity according to actual needs by arranging above-mentioned low voltage side solenoid electric valve.Further preferably can by control the unlatching of solenoid electric valve or the time of closedown or frequently width reach the control action to above-mentioned Pressure in Back-pressure Cavity size adjustment.

Preferably, as shown in Figure 1-2, the high-pressure area described supercharging connecting tube 18 being communicated to described compressor is positioned at the first exhaust gas region 17 below the described revolution scroll of described compressor inside.Effectively the pressurized gas in the first exhaust gas region below revolution scroll can be switched in described back pressure cavity according to actual needs like this, thus reach effect and the object of the pressure improved in back pressure cavity.This is a kind of preferred mode of communicating.

Preferably, as shown in Figure 3, the high-pressure area described supercharging connecting tube 18 being communicated to described compressor is positioned at the second exhaust gas region 28 of described fixed scroll 1 upper end of described compressor inside.Effectively the pressurized gas in the second exhaust gas region above fixed scroll can be switched in described back pressure cavity according to actual needs like this, thus reach effect and the object of the pressure improved in back pressure cavity.This is also a kind of preferred mode of communicating.

Preferably, as shown in Figure 4, the high-pressure area described supercharging connecting tube 18 being communicated to described compressor is positioned at described compressor inside and the main bearing oil sump region 27 contacted with revolution scroll.This is also a kind of preferred mode of communicating, effectively can be switched to according to actual needs in described back pressure cavity by the pressurized gas in the main bearing oil sump region contacted with revolution scroll like this, thus reach effect and the object of the pressure improved in back pressure cavity; Chamber is pressed, for sealing and lubrication dynamic and static dish end face seal rubbing surface in refrigerant gas with more lubricant oil can also being introduced except this effect; When high pressure side solenoid electric valve is opened, refrigeration agent is inhaled into middle pressure chamber, because oil sump volume is less, can form local comparatively low pressure in oil sump region, crankshaft two end extra obtain effective oil pressure, a part of lubricant oil can be pressed in oil-feed pond.

Preferably, as shown in Figure 5, the high-pressure area described supercharging connecting tube 18 being communicated to described compressor is positioned at inner top, the oil sump face exhaust gas region 29 bottom compressor of described compressor.With the effect of structure in Fig. 5 similarly, effectively the pressurized gas in the main bearing oil sump region contacted with revolution scroll can be switched in described back pressure cavity according to actual needs, thus reach effect and the object of the pressure improved in back pressure cavity; Except this effect, do not need to offer quiet dish main bearing oil sump communicating passage 26 lubricant oil refrigeration agent more for band just can be realized to introduce intermediate pressure cavity, play the effect of sealing and lubrication dynamic and static dish end face seal rubbing surface.

Preferably, when described connecting pipeline also comprises pressure release connecting tube 22, be communicated to the low pressure air suction pipe 24 of described compressor described pressure release connecting tube 22.By pressure release connecting tube is communicated to compressor low pressure air suction pipe can effectively by the low pressure in low pressure air suction pipe by the pressure pressure release in back pressure cavity in low pressure air suction pipe, thus reach in back pressure cavity pressure reduce effect.

The utility model also provides a kind of regulating and controlling method of scroll compressor, and it carries out the regulating and controlling of back pressure according to actual conditions by described back pressure control structure for aforesaid scroll compressor.The effect gas backpressure in back pressure cavity being carried out under different situations to regulating and controlling can be realized like this, the sealing that scroll compressor can both keep good between fixed scroll and revolution scroll under different operating mode can be realized, reach good axial seal effect; And can also effectively prevent the refrigeration agent adverse current in back pressure cavity from getting back in compression chamber, prevent high-temperature high-pressure refrigerant from backflowing and cause compression power consumption loss increase situation occur.

Preferably, by the Lifetime between back pressure control structure control back pressure cavity and high-pressure area and/or area of low pressure, obtain different counterpressures (intermediate pressure), realize the sealing state of compression chamber and non-tight state and between conversion, obtain different compression refrigeration amounts according to compression time effective in the unit time, thus realize varying capacity regulate and reach control counterpressure size to control compression chamber sealing effect.

Preferably, when needing the comparatively high sealing state obtaining compression chamber, extending the Lifetime of back pressure cavity and high-pressure area by regulating back pressure control structure or shortening the Lifetime of back pressure cavity and area of low pressure; When needing the lower sealing state obtaining compression chamber, shortening the Lifetime of back pressure cavity and high-pressure area by regulating back pressure control structure or extending the Lifetime of back pressure cavity and area of low pressure.This is a kind of preferred regulable control mode, can increase or back-pressure in back pressure cavity.

Preferably, by controlling the frequency width that back pressure control structure is opened or closed, obtain suitable intermediate pressure, thus obtain stable.Thus obtain stable back pressure, reach the object of regulation and control.

Preferably, when needs obtain higher intermediate pressure power, solenoid electric valve is opened width frequently and is increased, when needs obtain lower intermediate pressure, solenoid electric valve is opened width frequently and is reduced, best counterpressure (intermediate pressure) value needed under obtaining different operating mode with this.This is a kind of preferred regulable control mode, to obtain object and the effect of stable back pressure.

Introduce embodiment of the present utility model below

Embodiment one

As shown in Figure 1, the utility model provides a kind of closed-type scroll compressor, it comprises housing 15, fixed scroll 1 is installed in housing 15, revolution scroll 2, cross slip-ring 3, upper bracket 5, bent axle 7, lower support frame 9, back pressure control structure (18 ~ 23) and drive motor, during compressor operation, refrigerant sucks fixed scroll intakeport by sucking pipe, compress in the compression chamber that fixed scroll 1 and orbiter 2 are formed, be discharged in the confined space that housing 1 formed by fixed scroll relief opening after compression ends, finally discharge from housing relief opening, complete the process of air-breathing-compression-exhaust.In the process, motor driven crankshafts 7 rotates, and orbiter 2 rotates under the drive of bent axle 7, and due to the position-limiting action of cross slip-ring 3, only does translation and rotation do not occur.On bent axle 7, cover has main equilibrium block 5 and rotor 6, the axle system of composition scroll compressor, axle system is fixed by the main bearing 16 of colding pressing in upper bracket 4 and the supplementary bearing 14 of colding pressing in lower support frame 8 diametrically, bent axle 7 center is provided with oil guide piece 13 and oilhole, when it rotates, oil sump lubricant oil bottom compressor is guided in major-minor bearing and compression chamber, to lubricate each rubbing surface.Axle system can drop downwards under gravity, for bearing the gravity of axle system, preventing axle system from dropping, being provided with lower thrust plate 12, be fixed on lower support frame 8 lower end surface, play the effect of thrust shaft system with bolt 11.Refrigeration agent is in the compression process of compression chamber, the thrust forcing orbiter 2 away from fixed scroll direction can be produced, the seal action quiet dish realizing compression chamber is tightly fitted in order to make Moving plate, back pressure cavity region 21 is offered at orbiter back, this back pressure cavity forms axial gas power Moving plate being pushed to quiet dish side at Moving plate back, this back pressure cavity region and compression chamber and exhaust cavity seal, make to form suitable intermediate pressure in back pressure cavity by back pressure control structure (18,19,22,23), ensure that the lubrication on the sealing of compression chamber and sound dish rubbing surface.

As shown in Figure 2, it is the partial enlarged drawing of the utility model embodiment 1, utilize and be communicated with compressor exhaust gas inside region 17 exhaust gas region connecting tube 18, air-breathing low voltage terminal connecting tube 22 is utilized to be communicated with air-breathing low pressure line 24, exhaust gas region, area of low pressure are communicated with Moving plate back side back pressure cavity 21 by connecting pipeline 20, back pressure cavity 21 relies on high pressure side solenoid electric valve 19 to control with being communicated with of exhaust gas region with closedown, and back pressure cavity 21 relies on air-breathing low voltage terminal connecting tube with being communicated with of side, area of low pressure with closedown.When high pressure side, solenoid electric valve is opened, when low voltage side solenoid electric valve cuts out, refrigerant gas under exhaust pressure in exhaust gas region enters back pressure cavity under the effect of pressure reduction, the pressure of back pressure cavity rises gradually, if high pressure side solenoid electric valve is opened always, the pressure in back pressure cavity finally will remain exhaust pressure.

The feature of the utility model embodiment is to ensure compression chamber sealing to make to obtain suitable intermediate pressure in back pressure cavity, by exhaust gas region and back pressure cavity intermittent communicated, by controlling refrigeration agent from high pressure gas region to the time that middle pressure back pressure region is revealed, thus obtain suitable intermediate pressure, according to the different operating modes of compressor operating, support or oppose leakage time of nip territory medium voltage side of exhaust gas region high pressure side is also different, compared to prior art, the more excellent place of this embodiment can obtain comparatively stable back-pressure, be illustrated in figure 6 the back pressure situation that two kinds of technological means obtain, the back pressure that prior art obtains is due to cycle intermittent communicated cause, also boosting fluctuation can be there is with the pressure in compression chamber in the pressure in back pressure cavity.Meanwhile, compared to prior art, the utility model structure can according to the pressure in different Operating condition adjustment back pressure cavity, and as shown in Figure 6, when high pressure side solenoid electric valve unlatching frequency width is different, the pressure of (A, B, C) back pressure cavity is also different.In figure, 3 waves are illustrated respectively in different width (A frequently, B, C, frequently amplitude size C>A>B) under the plotted curve of different back-pressure that obtains, the back-pressure of every bar wave is all in a more stable numerical value and state, and the mean value size of discontinuous back pressure straight line of the prior art is slightly equal with curve A.Concrete backpressure regulation control procedure is as follows: in the compressor start stage, high pressure side solenoid electric valve is in opening state always, low voltage side solenoid electric valve is in closed condition always, exhaust gas region is communicated with back pressure cavity region always, the pressure increase in back pressure cavity can be accelerated, realize the sealing of compression chamber sooner, when (a little less than the suitableeest back pressure) after the pressure increase in back pressure cavity to certain value, now high pressure side solenoid electric valve enters back pressure and maintains control working state, the solenoid valve back pressure of this enforcement feature maintains and controls working state is control solenoid electric valve to open/stop width frequently, namely, when needs obtain larger back-pressure, the width frequently that opens/stop of solenoid electric valve increases, when needs obtain less back-pressure, the width frequently that opens/stop of solenoid electric valve reduces.When compressor needs to be switched to less back pressure operating mode from a larger back pressure operating mode in running, high pressure side solenoid electric valve cuts out, low voltage side solenoid electric valve is opened, pressurized gas in middle pressure chamber are revealed to suction air-breathing low voltage side, the pressure in chamber is pressed in timely reduction, because middle pressure chamber volume is less, volume of the cooling medium to the pressure release of low pressure air suction side is a small amount of, can only within the extremely short time, chamber pressure release be therefrom pressed to affect aspirated volume efficiency to the higher pressure refrigerant gas of air aspiration cavity, when pressure pressure release in back pressure cavity is to desired value, low voltage side solenoid electric valve cuts out, high pressure side solenoid electric valve namely enter back pressure maintain control working state.By the cooperating of high and low pressure side solenoid electric valve, the pressure energy stable maintenance in middle pressure chamber is at any intermediate pressure of pressure of inspiration(Pi) and exhaust pressure.

Simultaneously, another feature of the utility model embodiment is by back pressure control structure of the present utility model, according to the sealing condition of the operating conditions adjustment compression chamber of compressor, for common frequency-changing cyclone compressor, its aspirated volume is certain, when only needing to produce less refrigerating capacity and high compression efficiency, although can obtain less refrigerating capacity by means of only frequency reducing, when frequency is too low, compressor efficiency is also low.Another feature of the utility model embodiment is to realize the different sealability of compression chamber from obtaining less refrigerating capacity and high compression efficiency under higher-frequency by this enforcement structure, specific implementation principle: by the unlatching Operating In Persistent Current Mode of high and low pressure side solenoid electric valve, the pressure of pressing chamber different in realization changes.When high pressure side solenoid electric valve is opened, when low voltage side solenoid electric valve closes, intermediate pressure cavity can obtain suitable back-pressure, compression chamber good airproof performance, and compression energy obtains specified refrigerating capacity; When high pressure side solenoid electric valve closes, when low voltage side solenoid electric valve is opened, the pressure release of intermediate pressure cavity pressure is to closer to air-breathing low-pressure lateral pressure, and middle pressure cavity pressure is less, compression chamber poor sealing performance, and refrigeration agent does not substantially compress or compresses on a small quantity.For one minute, if compression chamber can realize the excellent sealing of half a minute, the blow-by of half a minute, now compression energy obtains the specified refrigerating capacity of half, indirectly realizes the effect becoming aspirated volume.

As shown in Figure 3, be the second embodiment of the present utility model, similar with embodiment one, the high pressure gas region being communicated with intermediate pressure cavity is arranged on quiet dish upper end exhaust gas region 28.Achieve by back pressure cavity be communicated be communicated to this region supercharging connecting tube to improve the pressure in back pressure cavity.

As shown in Figure 4, for another embodiment feature of the present utility model, this feature is more preferably that the high pressure gas region being communicated with intermediate pressure cavity is arranged on quiet dish main bearing oil sump 27 place, be connected with exhaust gas region connecting tube 18 by offering quiet dish main bearing oil sump communicating passage 26 at Jing Panshang, when making to introduce exhaust high pressure to intermediate cavity, chamber is pressed, for sealing and lubrication dynamic and static dish end face seal rubbing surface in refrigerant gas with more lubricant oil being introduced.Meanwhile, when high pressure side solenoid electric valve is opened, refrigeration agent is inhaled into middle pressure chamber, because oil sump volume is less, local comparatively low pressure can be formed in oil sump region, crankshaft two end extra obtain effective oil pressure, a part of lubricant oil can be pressed in oil-feed pond.

As shown in Figure 5, for another embodiment of the present utility model, the high pressure gas region being communicated with intermediate pressure cavity is arranged near lower support frame near top, oil sump face, bottom 29, embodiment as shown in Figure 3, does not need to offer quiet dish main bearing oil sump communicating passage 26 and lubricant oil refrigeration agent more for band just can be realized to introduce intermediate pressure cavity.

Those skilled in the art will readily understand, under the prerequisite of not conflicting, above-mentioned each advantageous manner freely can combine, superpose.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.The above is only preferred implementation of the present utility model; should be understood that; for those skilled in the art; under the prerequisite not departing from the utility model know-why; can also make some improvement and modification, these improve and modification also should be considered as protection domain of the present utility model.

Claims (10)

1. a scroll compressor, comprise fixed scroll (1) and revolution scroll (2), it is characterized in that: the upper and back pressure cavity (21) being provided with away from the position of described fixed scroll (1) and all sealing between the compression chamber of compressor and exhaust cavity described revolution scroll (2), described back pressure cavity (21) is communicated to high-pressure area and/or the area of low pressure in the uncompressed chamber of compressor by connecting pipeline, and on described connecting pipeline, be also provided with the back pressure control structure of back pressure cavity internal pressure size described in regulating and controlling.

2. scroll compressor according to claim 1, is characterized in that: described back pressure control structure comprises the electromagnetic valve structure of at least one be arranged on described connecting pipeline.

3. scroll compressor according to claim 1, it is characterized in that: described connecting pipeline comprises one end is communicated to described compressor outside back pressure cavity connecting tube (20) from described back pressure cavity (21), the other end of described back pressure cavity connecting tube (20) is by being communicated to the high-pressure area of compressor supercharging connecting tube (18).

4. scroll compressor according to claim 3, it is characterized in that: described connecting pipeline also comprises the described the other end from described back pressure cavity connecting tube (20) and described supercharging connecting tube (18) connecting part branch pressure release connecting tube (22) out, and the other end of described pressure release connecting tube (22) is communicated to the area of low pressure of compressor.

5. scroll compressor according to claim 4, is characterized in that: described back pressure control structure comprises the high pressure side solenoid electric valve (19) be arranged on described supercharging connecting tube (18) and the low voltage side solenoid electric valve (23) be arranged on described pressure release connecting tube (22).

6. according to the scroll compressor one of claim 3-5 Suo Shu, it is characterized in that: the high-pressure area that described supercharging connecting tube (18) is communicated to described compressor is positioned at the first exhaust gas region (17) below the described revolution scroll of described compressor inside.

7. according to the scroll compressor one of claim 3-5 Suo Shu, it is characterized in that: the high-pressure area that described supercharging connecting tube (18) is communicated to described compressor is positioned at second exhaust gas region (28) of described fixed scroll (1) upper end of described compressor inside.

8. according to the scroll compressor one of claim 3-5 Suo Shu, it is characterized in that: the high-pressure area that described supercharging connecting tube (18) is communicated to described compressor is positioned at described compressor inside and the main bearing oil sump region (27) contacted with revolution scroll.

9. according to the scroll compressor one of claim 3-5 Suo Shu, it is characterized in that: the high-pressure area that described supercharging connecting tube (18) is communicated to described compressor is positioned at the inner top, oil sump face exhaust gas region (29) bottom compressor of described compressor.

10. according to the scroll compressor one of claim 4-5 Suo Shu, it is characterized in that: when described connecting pipeline also comprises pressure release connecting tube (22), described pressure release connecting tube (22) is communicated to the low pressure air suction pipe (24) of described compressor.