CN204532815U - Rotary compressor - Google Patents

Abstract

The utility model discloses a kind of rotary compressor, comprise seal casinghousing, received motor, revolving compressing mechanism and oil in seal casinghousing, compressing mechanism comprises: the cylinder possessing compression chamber towards relative 2 cylinder plane openings and slide plate sliding-groove; The piston of eccentric operating is carried out in compression chamber; The eccentric shaft in oil pump chamber is possessed in its axle; Slide and slide plate reciprocating with piston synchronous at slide plate sliding-groove; Main bearing and supplementary bearing, main bearing and supplementary bearing form by the flange of the opening surface in seal compression chamber and the bearing portion of sliding support eccentric shaft; Oil pump chamber is communicated with the oil supply loop that the slide plate oil supply of cylinder plane at least one party opening is possessed by the flange of supplementary bearing or main bearing with in slide plate sliding-groove.According to rotary compressor of the present utility model, the impact of fuel head can not be subject on the lubrication of slide plate.

Description

Rotary compressor

Technical field

The utility model relates to refrigerating field, particularly relates to a kind of rotary compressor.

Background technique

After having enclosed a large amount of oil in rotary compressor, due to the increase of circulating load oily in refrigerating circulation system, not only heat exchanger performance can decline, and the inclosure of coolant quantity also can increase, so also not too satisfactory from the viewpoint of unit efficiency and greenhouse effect.Therefore, the oil mass of enclosing in usual rotary compressor is restricted to about 30% of the inclosure coolant quantity of refrigeration system.

Defrosting and start after instability condition in, can increase the discharge oil mass of refrigeration system, the pasta of compressor has abnormal reduction.This low pasta can cause to slide plate can not fuel feeding problem occur.

In eccentric shaft internal diameter, possesses the fuel sucking pipe stretched out to oil sump from centrifugal oil feed pump and this lower end, even so eccentric shaft and the main bearing slided with eccentric shaft, supplementary bearing and also can carry out the low pasta of the fuel feeding of piston.But the feature of slide plate is separated with eccentric shaft, carry out fuel feeding by pressing the pressure reduction of the pressure (low pressure ~ high pressure) of (high pressure side) and compression chamber in housing.Therefore, from principle, can be more difficult to the fuel feeding of slide plate at low pasta.

Model utility content

The utility model is intended to solve one of technical problem in correlation technique at least to a certain extent.

For this reason, the utility model proposes a kind of rotary compressor, the impact of fuel head can not be subject to the lubrication of slide plate.

The utility model proposes a kind of rotary compressor, the impact of fuel head can not be subject to the lubrication of slide plate.

According to the rotary compressor of the utility model first aspect, comprise seal casinghousing, received motor, revolving compressing mechanism and oil in described seal casinghousing, described compressing mechanism comprises: the cylinder possessing compression chamber towards relative 2 cylinder plane openings and slide plate sliding-groove; The piston of eccentric operating is carried out in described compression chamber; The eccentric shaft in oil pump chamber is possessed in its axle; Slide and slide plate reciprocating with described piston synchronous at described slide plate sliding-groove; Main bearing and supplementary bearing, described main bearing and described supplementary bearing are by the bearing portion composition of eccentric shaft described in the flange of the opening surface of the described compression chamber of sealing and sliding support; Described oil pump chamber is communicated with the oil supply loop that the slide plate oil supply of described cylinder plane at least one party opening is possessed by the flange of described supplementary bearing or described main bearing with in described slide plate sliding-groove.

According to rotary compressor of the present utility model, by being provided with the slide plate oil supply be communicated with slide plate sliding-groove, slide plate oil supply is communicated with by oil supply loop with oil pump chamber, thus fuel feeding can be forced to slide plate oil supply, oil can enter in slide plate sliding-groove and lubricate slide plate, oil also can enter in compression chamber under the effect of pressure difference simultaneously, and then the impact of fuel head can not be subject on the lubrication of slide plate, slide plate is avoided to produce wearing and tearing extremely, and leak outflow because the oil higher than compression cavity pressure passes through slide plate oil supply to compression chamber, because this leakage is flowed out, the lubrication of slide plate and slide plate sliding-groove and Leakage Gas can be prevented, the decline of refrigerating capacity can be avoided.

In embodiments more of the present utility model, the spring eye possessed in described cylinder has received the spring described slide plate being pressed on described piston outer periphery place, and described spring eye is communicated with described slide plate oil supply.

According to embodiments more of the present utility model, the end face towards described compression chamber of the flange of described main bearing and/or the flange of described supplementary bearing is provided with circular groove.

According to the rotary compressor of the utility model second aspect, comprise seal casinghousing, received motor, revolving compressing mechanism and oil in described seal casinghousing, described compressing mechanism comprises: the cylinder possessing compression chamber towards relative 2 cylinder plane openings and slide plate sliding-groove; The piston of eccentric operating is carried out in described compression chamber; The eccentric shaft in oil pump chamber is possessed in its axle; Slide and slide plate reciprocating with described piston synchronous at described slide plate sliding-groove; Main bearing and supplementary bearing, described main bearing and described supplementary bearing are by the bearing portion composition of eccentric shaft described in the flange of the opening surface of the described compression chamber of sealing and sliding support; Received the spring described slide plate being pressed on described piston outer periphery place in the spring eye possessed in described cylinder, the oil supply loop that described oil pump chamber and described spring eye are possessed by the flange of described supplementary bearing or described main bearing is communicated with.

According to rotary compressor of the present utility model, oil pump chamber is communicated with by oil supply loop with spring eye, thus fuel feeding can be forced to spring eye, oil can enter in slide plate sliding-groove and lubricate slide plate, oil also can enter in compression chamber under the effect of pressure difference simultaneously, and then the impact of fuel head can not be subject on the lubrication of slide plate, avoid slide plate to produce and wear and tear extremely, and leak outflow because the oil higher than compression cavity pressure passes through slide plate sliding-groove to compression chamber.Because this leakage is flowed out, the lubrication of slide plate and slide plate sliding-groove and Leakage Gas can be prevented, and can avoid the decline of refrigerating capacity.

According to embodiments more of the present utility model, the end face towards described compression chamber of the flange of described main bearing and/or the flange of described supplementary bearing is provided with circular groove.

Accompanying drawing explanation

The longitudinal section that Fig. 1 is relevant to the utility model embodiment 1, represent rotary compressor inside;

Fig. 2 is relevant with embodiment 1, the details drawing of supplementary bearing;

Fig. 3 is relevant with embodiment 1, the X-X sectional view of Fig. 1;

Fig. 4 is relevant with embodiment 1, the Y-Y sectional view of Fig. 1;

Fig. 5 is relevant with embodiment 2 of the present utility model, the longitudinal section of expression rotary compressor inside;

Fig. 6 is relevant with embodiment 3 of the present utility model, the longitudinal section of expression rotary compressor inside;

Fig. 7 is relevant with embodiment 4 of the present utility model, the longitudinal section of expression rotary compressor inside.

Reference character:

1 rotary compressor, 2 seal casinghousings, 4 compressing mechanisms, 10 cylinders, 11 spring eyes, 12 slide plate sliding-grooves, 14 slide plate sliding-grooves indulge hole, 15 slide plate oil supplys, 20 main bearings, 22 main bearing flanges, 22b main bearing cross-drilled hole, 25 supplementary bearings, 25a countershaft oil groove, 26 supplementary bearing wheel hubs, 26a center hole, 27 supplementary bearing flanges, 27a undercut groove, 27b supplementary bearing cross-drilled hole, 27c oil supply hole, 27d stopper, 30 eccentric shafts, 32 main shafts, 32a main shaft oilhole, 34 countershafts, 34a countershaft oilhole, 40 oil pump chambeies, 50 slide plates, 50a spring

Embodiment

Be described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings.Be exemplary below by the embodiment be described with reference to the drawings, be intended to for explaining the utility model, and can not be interpreted as restriction of the present utility model.

In description of the present utility model, it will be appreciated that, term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end " " interior ", " outward ", " clockwise ", " counterclockwise ", " axis ", " radial direction ", orientation or the position relationship of the instruction such as " circumference " are based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.

In addition, term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristics.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise at least one this feature.In description of the present utility model, the implication of " multiple " is at least two, such as two, three etc., unless otherwise expressly limited specifically.

In the utility model, unless otherwise clearly defined and limited, the term such as term " installation ", " being connected ", " connection ", " fixing " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or integral; Can be mechanical connection, also can be electrical connection or each other can communication; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals or the interaction relationship of two elements, unless otherwise clear and definite restriction.For the ordinary skill in the art, the concrete meaning of above-mentioned term in the utility model can be understood as the case may be.

The rotary compressor 1 according to the utility model two aspect embodiments is described in detail below with reference to Fig. 1-Fig. 7.

According to the rotary compressor 1 of the utility model first aspect embodiment, comprise seal casinghousing 2, in seal casinghousing 2, receive motor 3, revolving compressing mechanism 4 and oil.

Compressing mechanism 4 comprises: cylinder 10, piston 52, eccentric shaft 30, slide plate 50, main bearing 20 and supplementary bearing 25, and wherein cylinder 10 possesses compression chamber towards relative 2 cylinder plane openings and slide plate sliding-groove 12.Piston 52 carries out eccentric operating in compression chamber.Eccentric shaft 30 possesses oil pump chamber 40 in its axle.Slide plate 50 slides at slide plate sliding-groove 12 and moves with piston 52 synchronous reciprocating.Main bearing 20 and supplementary bearing 25 form by the flange of the opening surface in seal compression chamber and the bearing portion of sliding support eccentric shaft 30.

Oil pump chamber 40 is communicated with the oil supply loop that the slide plate oil supply 15 of cylinder plane at least one party opening is possessed by the flange of supplementary bearing 25 or main bearing 20 with in slide plate sliding-groove 12.In other words, oil supply loop is located on the flange of main bearing 20 or the flange of supplementary bearing 25, slide plate oil supply 15 is communicated with slide plate sliding-groove 12, and slide plate oil supply 15 has opening at least one cylinder plane of cylinder 10, and oil pump chamber 40 is communicated with by oil supply loop with slide plate oil supply 15.

According to the rotary compressor 1 of the utility model embodiment, by being provided with the slide plate oil supply 15 be communicated with slide plate sliding-groove 12, slide plate oil supply 15 is communicated with by oil supply loop with oil pump chamber 40, thus fuel feeding can be forced to slide plate oil supply 15, oil can enter in slide plate sliding-groove 12 and lubricate slide plate 50, oil also can enter in compression chamber under the effect of pressure difference simultaneously, and then the impact of fuel head can not be subject on the lubrication of slide plate 50, slide plate 50 is avoided to produce wearing and tearing extremely, and leak outflow because the oil higher than compression cavity pressure passes through slide plate oil supply 15 to compression chamber, because this leakage is flowed out, the lubrication of slide plate 50 and slide plate sliding-groove 12 and Leakage Gas can be prevented, the decline of refrigerating capacity can be avoided.

In embodiments more of the present utility model, the spring eye 11 possessed in cylinder 10 has received spring 50a slide plate 50 being pressed on piston 52 periphery, and spring eye 11 is communicated with slide plate oil supply 15.

According to embodiments more of the present utility model, the end face towards described compression chamber of the flange of main bearing 20 and/or the flange of supplementary bearing 25 is provided with circular groove.Thus can the compression load that main bearing 20 and/or supplementary bearing 25 bear be relaxed.

According to the rotary compressor 1 of the utility model second aspect embodiment, comprise seal casinghousing 2, received motor 3, revolving compressing mechanism 4 and oil in seal casinghousing 2, compressing mechanism 4 comprises: cylinder 10, piston 52, eccentric shaft 30, slide plate 50, main bearing 20 and supplementary bearing 25.

Cylinder 10 possesses compression chamber towards relative 2 cylinder plane openings and slide plate sliding-groove 12.Piston 52 carries out eccentric operating in compression chamber.Eccentric shaft 30 possesses oil pump chamber 40 in its axle.Slide plate 50 slides at slide plate sliding-groove 12 and moves with piston 52 synchronous reciprocating.Main bearing 20 and supplementary bearing 25 form by the flange of the opening surface in seal compression chamber and the bearing portion of sliding support eccentric shaft 30.Received spring 50a slide plate 50 being pressed on piston 52 periphery in the spring eye 11 possessed in cylinder 10, the oil supply loop that oil pump chamber 40 and spring eye 11 are possessed by the flange of supplementary bearing 25 or main bearing 20 is communicated with.That is, oil supply loop is located on the flange of main bearing 20 or the flange of supplementary bearing 25, oil pump chamber 40 is communicated with by oil supply loop with spring eye 11, because spring eye 11 is communicated with slide plate sliding-groove 12, the oil therefore in oil pump chamber 40 is entered in slide plate sliding-groove 12 by oil supply loop, spring eye 11 and lubricates slide plate 50.

According to the rotary compressor 1 of the utility model embodiment, oil pump chamber 40 is communicated with by oil supply loop with spring eye 11, thus fuel feeding can be forced to spring eye 11, oil can enter in slide plate sliding-groove 12 and lubricate slide plate 50, oil also can enter in compression chamber under the effect of pressure difference simultaneously, and then the impact of fuel head can not be subject on the lubrication of slide plate 50, avoid slide plate 50 to produce to wear and tear extremely, and leak outflow because the oil higher than compression cavity pressure passes through slide plate sliding-groove 12 to compression chamber.Because this leakage is flowed out, the lubrication of slide plate 50 and slide plate sliding-groove 12 and Leakage Gas can be prevented, and can avoid the decline of refrigerating capacity.

According to embodiments more of the present utility model, the end face towards described compression chamber of the flange of main bearing 20 and/or the flange of supplementary bearing 25 is provided with circular groove.Thus can the compression load that main bearing 20 and/or supplementary bearing 25 bear be relaxed.

Be described in detail according to the rotary compressor 1 of the several different embodiment of the utility model below with reference to Fig. 1-Fig. 7.

Embodiment 1

Embodiment 1 shown in Fig. 1 is motor 3 and compressing mechanism 4, to receive the longitudinal section of oily rotary compressor 1 in oil sump 8.Compressing mechanism 4 possesses: the slide plate 50 carry out the piston 52 of off-centre operation in the compression chamber 10a (Fig. 4) of cylinder 10, moving back and forth with piston 52 interlock, the eccentric shaft 30 of driven plunger 52, be fixed in cylinder 10 lower planes portion and carry out the main bearing 20 of sliding support and supplementary bearing 25 etc. to eccentric shaft 30.

Main bearing 20 is made up of the main bearing wheel hub 21 and main bearing flange 22 possessing helical oil groove 20a, and supplementary bearing 25 is made up of supplementary bearing wheel hub 26 and supplementary bearing flange 27.Eccentric shaft 30 is made up of main shaft 32, countershaft 34 and the torque-transmitting axle 36 that possesses therebetween.Main shaft 32 carries out slip support by main bearing 20, and countershaft 34 carries out sliding support by supplementary bearing 25.

Next the fuel supply method of fuel feeding means to slide plate 50 and slide plate sliding-groove 12, by being equipped with in supplementary bearing flange 27 is described.In fig. 2, undercut groove 27a and the supplementary bearing cross-drilled hole 27b to its inside opening through supplementary bearing flange 27 periphery is possessed in the center hole 26a slided with countershaft 34.Oil supply hole opening is had in this supplementary bearing cross-drilled hole 27b.This oil supply hole 27c is consistent with slide plate oil supply 15 described later.And, in center hole 26a, possess the oil groove 25a be communicated with up and down.

Fig. 3 is the X-X sectional view of the housing 2 of Fig. 1, is the figure looking up compressing mechanism 4 from oil sump 8.In addition, Fig. 3 by the partial cross section of supplementary bearing cross-drilled hole 27b, specify that oil supply loop from from undercut groove 27a to slide plate oil supply 15.Compress flexible spring 50a to slide plate 50 can be accommodated in the spring eye 11 of side processing of cylinder 10.

Therefore, slide plate oil supply 15 as shown in Figure 1, be intersect vertically with spring eye 11 and the hole of lower planes opening to cylinder 10.But the upper end of slide plate oil supply 15 is closed by main bearing flange 22.In addition, the lower end of slide plate oil supply 15 is consistent with oil supply hole 27c.The peripheral openings end of supplementary bearing cross-drilled hole 27b carries out sealing of hole by stopper 27d.

In FIG, eccentric shaft from the oil that the inlet port 41a of the lower ending opening at fuel sucking pipe 41 sucks, is accelerated by the spiral plate 45 be pressed in the oil pump chamber 40 of eccentric shaft 30, makes the pasta in oil pump chamber 40 increase after rotating.The oil content stream in oil pump chamber 40, discharges from the oilhole of main shaft oilhole 32a and countershaft oilhole 34a, torque-transmitting axle 36.

The oil that main shaft oilhole 32a discharges, by after helical oil groove 20a lubricating spindle 32 and main bearing 20, flows out from the upper end of main bearing wheel hub 21.Press the sequential flowing of undercut groove 27a, supplementary bearing cross-drilled hole 27b and oil supply hole 27c from the oil of countershaft oilhole 34a discharge, flow out in slide plate oil supply 15.

Therefore, not still slide plate oil supply 15, also have in spring eye 11 oil diffusion.Be diverted to countershaft oil groove 25a from a part for the oil of countershaft oilhole 34a discharge in addition and countershaft 34 and supplementary bearing 25 are lubricated.Dotted arrow ( →) represent from undercut groove 27a to slide plate oil supply 15 flowing.

Fig. 4 represents the Y-Y sectional view of Fig. 1.Slide plate oil supply 15 is identical with housing pressure with the pressure of spring eye 11, for high pressure side (Pd) but the pressure of compression chamber 10a has variation between suction pressure (Ps) ~ high pressure side (Pd).Therefore, the high pressure oil flowed out in slide plate oil supply 15 and spring eye 11 is flow in compression chamber 10a by the glade plane space of slide plate 50 and slide plate sliding-groove 12.

Its result, even the low pasta that the rank of L shown in Fig. 1 is such, according to the basic principle of rotary compressor, can to the glade plane space fuel feeding of slide plate 50 by pressure difference.Enclosure interior gas can be prevented the leakage of compression chamber, slide plate 50 is lubricated.

Here, under the occasion of domestic air conditioning rotary compressor, the oil mass that experimentally result flows out from slide plate oil supply 15 to compression chamber 10a is approximately 0.16cc/ second.Probably be set as about 0.3cc/ second on the other hand, from oil supply hole 27c fuel delivery out, oil that its difference is approximately 0.14cc/ second from spring eye 11 adverse current, indulge hole 14 from slide plate sliding-groove and get back to the bottom oil sump 8 of housing 2 and be recovered.In addition, slide plate sliding-groove is indulged hole 14 and will be used when carrying out broaching tool processing to slide plate sliding-groove 12.

As the compression means of slide plate 50, substitute the back side that C shape spring can be fixed on slide plate 50 by spring 50a.In this design, spring eye 11 does not need, so slide plate oil supply 15 is the seal grooves being only communicated with oil supply hole 27c.Therefore, the fuel delivery needed for slide plate 50 can not be exceeded from oil supply hole 27c to the oil mass of slide plate oil supply 15 confession.

The aperture of the slide plate oil supply 15 of embodiment 1 is larger than the amplitude of slide plate 50, equal or little with spring eye 11.If but slide plate oil supply 15 is communicated with spring eye 11 and just has no relations.Therefore, the size in the aperture of slide plate oil supply 15, shape, number needs will suitably change.Such as, hole shape is that trapezoidal, hole dislocation is opened, only to the single-sided sliding face fuel feeding of slide plate 50, etc. can select.In addition slide plate oil supply 15 need not through cylinder 10 two planes, to be communicated with oil supply hole 27c just passable.

Embodiment 2

Embodiment illustrated in fig. 52, be that the oil supply hole 27c of supplementary bearing flange 27 indulges hole 14 with slide plate sliding-groove and is communicated with, from the method for the oil supply spring eye 11 that countershaft oilhole 34a discharges.According to this embodiment 2, slide plate oil supply 15 can be omitted.The upper end outflow that superfluous oil indulges hole 14 from slide plate sliding-groove is recovered to oil sump 8.The slide plate oil supply 15 not needing embodiment 1 to use in this embodiment 2.But, indulge hole 14 in order to oil supply hole 27c is communicated with slide plate sliding-groove, need the part extending supplementary bearing flange 27.

Embodiment 3

Embodiment 3 shown in Fig. 6 is the design configuring oil supply hole 22c in main bearing flange 22.From oil pump chamber 40 to the oil of main shaft oilhole 32a discharge along the sequential flowing of helical oil groove 20a, main bearing cross-drilled hole 22b and oil supply hole 22c, to slide plate oil supply 15 fuel feeding.Therefore, in the same manner as in Example 1, by the side slip face of slide plate 50, oil is had to leak to compression chamber 10a.In addition, in embodiment 3, the peripheral edge of silencing apparatus 23 plugs the opening end of main bearing cross-drilled hole 22b.

Embodiment 4

Adopt in this two side or a side and add circular groove in the compression chamber STH end of supplementary bearing 25 and main bearing 20, usually, the compression load that these bearing ends are concentrated is relaxed.

In the bearing of band circular groove, do not have undercut groove 27a just can be equipped with slide plate oil supplying device.

In embodiment 4 shown in Fig. 7, process towards circular groove 28 couples of supplementary bearing cross-drilled hole 27b from outside supplementary bearing flange 27.Thereafter the words that engineering is implemented according to embodiment 1 just can complete slide plate oil supplying device.In the same manner as in Example 1, fuel feeding can be carried out to slide plate oil supply 15.Slide plate oil supply method shown in embodiment 4, can be used in from embodiment 1 to any one of embodiment 3.

Oil pumping device of the present utility model is widely used in the rotary compressor carried in air-conditioning, refrigeration plant, water heater etc.And swing rotary compressor, 2 cylinder type rotary compressors, the in addition application of horizontal rotary compressor are also easy.The utility model is transformed by existing equipment, can produce in batches, thus industrially utilize feasibility larger.

In sum, problem to be solved in the utility model is: if the tell oil mass of rotary compressor to refrigeration system increases, pasta is lower than L position, and slide plate slip surface just can not lubricate.Therefore, still refrigerating capacity can not decline, and it is abnormal that slide plate also can produce abrasion.

For this reason, the specific embodiment solving the employing of above-mentioned problem is: from fuel sucking pipe 41, suck the oil in oil pump chamber 40, from the sequential flowing that countershaft oilhole 34a presses undercut groove 27a and supplementary bearing cross-drilled hole 27b, oil supply hole 27c, is discharged in slide plate oil supply 15.The oil higher than compression cavity pressure leaks outflow by slide plate oil supply 15 to compression chamber.Because this leakage is flowed out, the lubrication of slide plate 50 and slide plate sliding-groove 12 and Leakage Gas can be prevented.Remaining oil is indulged hole 14 from vane slot and is dropped to oil sump 8.

Thus the utility model utilizes existing eccentric shaft centrifugal pump, fuel feeding is forced to the slide plate oil supply arranged in slide plate sliding-groove.Therefore, the impact of fuel head can not be subject to, fuel feeding can be carried out to slide plate slip surface.

In the utility model, unless otherwise clearly defined and limited, fisrt feature second feature " on " or D score can be that the first and second features directly contact, or the first and second features are by intermediary mediate contact.And, fisrt feature second feature " on ", " top " and " above " but fisrt feature directly over second feature or oblique upper, or only represent that fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " below " and " below " can be fisrt feature immediately below second feature or tiltedly below, or only represent that fisrt feature level height is less than second feature.

In the description of this specification, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present utility model or example.In this manual, to the schematic representation of above-mentioned term not must for be identical embodiment or example.And the specific features of description, structure, material or feature can combine in one or more embodiment in office or example in an appropriate manner.In addition, when not conflicting, the feature of the different embodiment described in this specification or example and different embodiment or example can carry out combining and combining by those skilled in the art.

Although illustrate and described embodiment of the present utility model above, be understandable that, above-described embodiment is exemplary, can not be interpreted as restriction of the present utility model, those of ordinary skill in the art can change above-described embodiment, revises, replace and modification in scope of the present utility model.

Claims (5)

1. a rotary compressor, is characterized in that, comprises seal casinghousing, and received motor, revolving compressing mechanism and oil in described seal casinghousing, described compressing mechanism comprises:

Possesses the cylinder of compression chamber towards relative 2 cylinder plane openings and slide plate sliding-groove;

The piston of eccentric operating is carried out in described compression chamber;

The eccentric shaft in oil pump chamber is possessed in its axle;

Slide and slide plate reciprocating with described piston synchronous at described slide plate sliding-groove;

Main bearing and supplementary bearing, described main bearing and described supplementary bearing are by the bearing portion composition of eccentric shaft described in the flange of the opening surface of the described compression chamber of sealing and sliding support;

Described oil pump chamber is communicated with the oil supply loop that the slide plate oil supply of described cylinder plane at least one party opening is possessed by the flange of described supplementary bearing or described main bearing with in described slide plate sliding-groove.

2. rotary compressor according to claim 1, is characterized in that, the spring eye possessed in described cylinder has received the spring described slide plate being pressed on described piston outer periphery place, and described spring eye is communicated with described slide plate oil supply.

3. rotary compressor according to claim 1, is characterized in that, the end face towards described compression chamber of the flange of described main bearing and/or the flange of described supplementary bearing is provided with circular groove.

4. a rotary compressor, is characterized in that, comprises seal casinghousing, and received motor, revolving compressing mechanism and oil in described seal casinghousing, described compressing mechanism comprises:

Possesses the cylinder of compression chamber towards relative 2 cylinder plane openings and slide plate sliding-groove;

The piston of eccentric operating is carried out in described compression chamber;

The eccentric shaft in oil pump chamber is possessed in its axle;

Slide and slide plate reciprocating with described piston synchronous at described slide plate sliding-groove;

Main bearing and supplementary bearing, described main bearing and described supplementary bearing are by the bearing portion composition of eccentric shaft described in the flange of the opening surface of the described compression chamber of sealing and sliding support;

Received the spring described slide plate being pressed on described piston outer periphery place in the spring eye possessed in described cylinder, the oil supply loop that described oil pump chamber and described spring eye are possessed by the flange of described supplementary bearing or described main bearing is communicated with.

5. rotary compressor according to claim 4, is characterized in that, the end face towards described compression chamber of the flange of described main bearing and/or the flange of described supplementary bearing is provided with circular groove.