CN204729308U - Rotary compressor - Google Patents

Rotary compressor Download PDF

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Publication number
CN204729308U
CN204729308U CN201520357377.2U CN201520357377U CN204729308U CN 204729308 U CN204729308 U CN 204729308U CN 201520357377 U CN201520357377 U CN 201520357377U CN 204729308 U CN204729308 U CN 204729308U
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China
Prior art keywords
cylinder
communicated
cavity
metal
bearing
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Expired - Fee Related
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CN201520357377.2U
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Chinese (zh)
Inventor
黎法运
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Guangdong Midea Toshiba Compressor Corp
Guangdong Meizhi Compressor Co Ltd
Anhui Meizhi Precision Manufacturing Co Ltd
Original Assignee
Guangdong Meizhi Compressor Co Ltd
Anhui Meizhi Precision Manufacturing Co Ltd
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Application filed by Guangdong Meizhi Compressor Co Ltd, Anhui Meizhi Precision Manufacturing Co Ltd filed Critical Guangdong Meizhi Compressor Co Ltd
Priority to CN201520357377.2U priority Critical patent/CN204729308U/en
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Publication of CN204729308U publication Critical patent/CN204729308U/en
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Abstract

The utility model discloses a kind of rotary compressor, comprising: casing; Compressing mechanism, described compressing mechanism is located in described casing, and described compressing mechanism comprises: cylinder, and described cylinder has the cylinder-bore running through its height along its central axis; Upper bearing (metal), described upper bearing (metal) is located at the upper end of described cylinder; Lower bearing, described lower bearing is located at the lower end of described cylinder, the inwall of described cylinder-bore, described upper bearing (metal) and described lower bearing limit the cylinder chamber for holding piston jointly, described cylinder is provided with the intakeport and relief opening that are communicated with described cylinder chamber, be provided with air-inlet cavity in described cylinder, described air-inlet cavity is communicated with described intakeport respectively with described casing outside.Low according to the rotary compressor noise of the utility model embodiment.

Description

Rotary compressor
Technical field
The utility model relates to compressor field, especially relates to a kind of rotary compressor.
Background technique
The air suction and noise of rotary compressor is one of main noise of compressor, but present stage technician just reduces noise to the internal structure of liquid-storage container and then optimization, as changed liquid-storage container wall thickness, volume, suction tude position, caliber, increase fixed plate etc., but noise reduction is not obvious.
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 needs to propose a kind of rotary compressor, and the noise of this rotary compressor is low.
According to rotary compressor of the present utility model, comprising: casing; Compressing mechanism, described compressing mechanism is located in described casing, and described compressing mechanism comprises: cylinder, and described cylinder has the cylinder-bore running through its height along its central axis; Upper bearing (metal), described upper bearing (metal) is located at the upper end of described cylinder; Lower bearing, described lower bearing is located at the lower end of described cylinder, the inwall of described cylinder-bore, described upper bearing (metal) and described lower bearing limit the cylinder chamber for holding piston jointly, described cylinder is provided with the intakeport and relief opening that are communicated with described cylinder chamber, be provided with air-inlet cavity in described cylinder, described air-inlet cavity is communicated with described intakeport respectively with described casing outside.
According to rotary compressor of the present utility model, by arranging air-inlet cavity in cylinder, thus this air-inlet cavity can play to cold media air the object reducing pneumatic noise, and then the noise of rotary compressor can be made to be reduced.
In addition, also following additional technical feature can be had according to rotary compressor of the present utility model:
According to an embodiment of the present utility model, also exhaust cavity is provided with in described cylinder, described exhaust cavity and described air-inlet cavity spaced apart, the inside of described exhaust cavity and described casing or the ft connection of described casing, be provided with communicating passage in wherein said compressing mechanism, described communicating passage is for being communicated with described relief opening and described exhaust cavity.
According to an embodiment of the present utility model, described cylinder is provided with the first through slot running through its height, the lower end of the first through slot described in the upper end of the first through slot described in described upper bearing (metal) capping and described lower bearing capping, described upper bearing (metal), limits described air-inlet cavity between described lower bearing and the inwall of described first through slot jointly.
According to an embodiment of the present utility model, at least one first stiffening rib is provided with in described first through slot, described first stiffening rib is roughly arranged along the radial direction of described cylinder, and described first stiffening rib is configured to be communicated with for described first through slot of described first stiffening rib both sides.
According to an embodiment of the present utility model, described first stiffening rib is multiple and spaced apart setting.
According to an embodiment of the present utility model, described cylinder is provided with the second through slot running through its height, the lower end of the second through slot described in the upper end of the second through slot described in described upper bearing (metal) capping and described lower bearing capping, described upper bearing (metal), limits described exhaust cavity between described lower bearing and the inwall of described second through slot jointly.
According to an embodiment of the present utility model, described rotary compressor also comprises: bottom silencer, described bottom silencer is located at the lower end of described lower bearing and limits lower silencing cavity with described lower bearing, described lower bearing is provided with and runs through its thickness and the lower bearing through hole be communicated with described exhaust cavity, described lower bearing through hole is communicated with described lower silencing cavity, and described compressing mechanism is provided with the exhaust passage of the inside for being communicated with described lower silencing cavity and described casing.
According to an embodiment of the present utility model, described rotary compressor also comprises: upper baffler, described upper baffler be located at described upper bearing (metal) upper end and and limit silencing cavity between described upper bearing (metal), described upper baffler is provided with the baffler through hole running through its thickness, and described exhaust passage is communicated with described upper silencing cavity.
According to an embodiment of the present utility model, described upper bearing (metal) is provided with and runs through its height and the upper bearing (metal) through hole be communicated with described exhaust cavity, and described upper bearing (metal) through hole is communicated with the inside of described casing.
According to an embodiment of the present utility model, the sidewall of described cylinder is provided with the exhaust hole be communicated with described exhaust cavity, and the sidewall of described casing is provided with casing through hole, and described exhaust hole is relative with described casing through hole and be communicated with.
Additional aspect of the present utility model and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by practice of the present utility model.
Accompanying drawing explanation
Above-mentioned and/or additional aspect of the present utility model and advantage will become obvious and easy understand from accompanying drawing below combining to the description of embodiment, wherein:
Fig. 1 is the structural representation of the rotary compressor according to the utility model embodiment;
Fig. 2 is the structural representation of the compressing mechanism of the rotary compressor shown in Fig. 1;
Fig. 3 is the structural representation of the rotary compressor according to the utility model second embodiment;
Fig. 4 is the structural representation of the compressing mechanism of the rotary compressor shown in Fig. 3;
Fig. 5 is the structural representation of the cylinder according to the utility model embodiment;
Fig. 6 is the structural representation of the cylinder according to the utility model second embodiment;
Fig. 7 is the structural representation of the cylinder according to the utility model the 3rd embodiment;
Fig. 8 is the structural representation of the upper bearing (metal) according to the utility model embodiment;
Fig. 9 is the structural representation of the lower bearing according to the utility model embodiment;
Figure 10 is the structural representation of the compressing mechanism according to the utility model embodiment;
Figure 11 is the structural representation of the compressing mechanism according to another embodiment of the utility model;
Figure 12 is the structural representation of the cylinder according to the utility model the 4th embodiment.
Reference character:
Rotary compressor 100;
Casing 1; Sucking pipe 11; Outlet pipe 12;
Compressing mechanism 2;
Cylinder 21; Cylinder-bore 211; Cylinder chamber 212; Intakeport 213; Relief opening 214; Exhaust cavity 215; Second through slot 216; Second stiffening rib 217; Exhaust hole 218; Vane slot 219; Air-inlet cavity 2110; First through slot 2111; First stiffening rib 2112; Suction port 2113;
Upper bearing (metal) 22; Upper bearing (metal) through hole 221; Upper through hole 222; Upper receiving cavity 223; Upper intercommunicating pore 224;
Lower bearing 23; Lower through-hole 232; Lower receiving cavity 233; Lower intercommunicating pore 234; Lower bearing through hole 235;
Communicating passage 24; Piston 25;
Upper baffler 26; Upper silencing cavity 261; Baffler through hole 262
Bottom silencer 27; Lower silencing cavity 271;
Exhaust passage 28.
Embodiment
Be described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Being exemplary below by the embodiment be described with reference to the drawings, only for explaining the utility model, and can not being 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 ", orientation or the position relationship of the instruction such as " counterclockwise " 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 description of the present utility model, the implication of " multiple " is two or more, unless otherwise expressly limited specifically.
In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; 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.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.
Below with reference to Fig. 1-Figure 12, the rotary compressor 100 according to the utility model embodiment is described.
As shown in Fig. 1-Figure 12, according to the rotary compressor 100 of the utility model embodiment, comprising: casing 1 and compressing mechanism 2.Particularly, compressing mechanism 2 is located in casing 1, and compressing mechanism 2 comprises: cylinder 21, upper bearing (metal) 22 and lower bearing 23, and upper bearing (metal) 22 is located at the upper end of cylinder 21, and lower bearing 23 is located at the lower end of cylinder 21.
Cylinder 21 has the cylinder-bore 211, the central axis of cylinder-bore 211 and the central axes of cylinder 21 that run through its height (above-below direction in " highly " i.e. described in the utility model accompanying drawing 1-Fig. 4, Figure 10 and Figure 11) along its central axis.The inwall of cylinder-bore 211, upper bearing (metal) 22 and lower bearing 23 limit the cylinder chamber 212 for holding piston 25 jointly.Known, be provided with vane slot 219 in cylinder 21, in vane slot 219, be provided with slide plate, piston 25 is in cylinder chamber 212 during eccentric rotary, the free end of slide plate is only against on the outer wall of piston 25 all the time, and thus, cylinder chamber 212 is separated into air aspiration cavity and compression chamber by piston 25 or slide plate.Cylinder 21 is provided with the intakeport 213 and relief opening 214 that are communicated with cylinder chamber 212, and particularly, intakeport 213 is communicated with air aspiration cavity, and relief opening 214 is communicated with compression chamber.
Wherein, in embodiment of the present utility model, as shown in figure 12, be provided with air-inlet cavity 2110 in cylinder 21, air-inlet cavity 2110 is communicated with intakeport 213 respectively with the outside of casing 1, and that is, air-inlet cavity 2110 is for being communicated with outside and the intakeport 213 of casing 1.Like this by arranging air-inlet cavity 2110 in cylinder 21, thus liquid-storage container of the prior art can be set, the cold media air of casing 1 outside directly can enter into the air-inlet cavity 2110 in cylinder 21, cold media air can expand in this air-inlet cavity 2110, by arranging air-inlet cavity 2110 in cylinder 21, thus the object reducing pneumatic noise can be played, and save reservoir structure of the prior art, cost is minimized.In addition, air-inlet cavity 2110 pairs of cold media air can also play the functions such as Oil-gas Separation, gas-liquid separation, liquid storage.Wherein, the sidewall of cylinder 21 is provided with the suction port 2113 of outside for being communicated with casing 1 and air-inlet cavity 2110.
To sum up, according to the rotary compressor 100 of the utility model embodiment, by arranging air-inlet cavity 2110 in cylinder 21, thus this air-inlet cavity 2110 can play to cold media air the object reducing pneumatic noise, and then the noise of rotary compressor 100 can be made to be reduced.
With reference to figure 1-Fig. 7, Figure 10-as shown in 12, be also provided with exhaust cavity 215 in cylinder 21, exhaust cavity 215 and the inside of casing 1 or the ft connection of casing 1, wherein be provided with communicating passage 24 in compressing mechanism 2, communicating passage 24 is for being communicated with relief opening 214 and exhaust cavity 215.Wherein, in cylinder 21, exhaust cavity 215 is spaced apart with air-inlet cavity 2110.
Below with reference to the accompanying drawings the flow path of refrigerant in rotary compressor 100 described:
First the refrigerant of rotary compressor 100 outside enters into air-inlet cavity 2110, intakeport 213 is flowed to from air-inlet cavity 2110, flow in air aspiration cavity from intakeport 213 again, by the high speed rotating of piston 25 in cylinder chamber 212, cold media air progresses in compression chamber and compresses, thus become the cold media air of High Temperature High Pressure, finally discharge cylinder 21 from relief opening 214 again.Owing to being provided with exhaust cavity 215 according in the cylinder 21 of the utility model embodiment, and communicating passage 24 is for being communicated with relief opening 214 and exhaust cavity 215, thus the cold media air of High Temperature High Pressure enters into the exhaust cavity 215 in cylinder 21 via communicating passage 24, the cold media air of exhaust cavity 215 pairs of High Temperature High Pressure plays certain buffer function, thus can reduce the operation noise of whole rotary compressor 100.And by arranging exhaust cavity 215, the inwall of exhaust cavity 215 can be used for refrigeration oil to condense, and also helps the effect of the Oil-gas Separation of cold media air like this.
Wherein exhaust cavity 215 can with the ft connection of the inside of casing 1 or casing 1, when exhaust cavity 215 is communicated with the inside of casing 1, the cold media air of the High Temperature High Pressure in exhaust cavity 215, first the inside of casing 1 is discharged to, again via casing 1 top outlet pipe 12 discharged to rotary compressor 100 outside thus participate in the circulation of refrigeration system, owing to being provided with exhaust cavity 215 in cylinder 21, pass through for the structure of cavity is set in metal (upper 23 relative in background technique, rotary compressor 100 simple and compact for structure, with low cost; When ft connection with casing 1 of exhaust cavity 215, the cold media air of the High Temperature High Pressure in exhaust cavity 215 directly can be discharged to the outside of rotary compressor 100 without the inner space of casing 1, and then participate in the circulation of refrigeration system, housing 1 is directly discharged to outside from exhaust cavity 215, such cold media air is without the motor of the inside of housing 1, the gas reducing High Temperature High Pressure thus impacts motor and refrigeration oil, thus can improve the reliability of motor and refrigeration oil.
To sum up, be provided with exhaust cavity 215 according in the cylinder 21 of the rotary compressor 100 of the utility model embodiment, compressor arrangement can be made simply compact, and performance is good, and the operation noise of rotary compressor 100 is low.
Below with reference to Figure 12, the structure according to the cylinder 21 of the utility model embodiment is described.As shown in Fig. 1-Fig. 7, cylinder 21 can be provided with the first through slot 2111 running through its height, alternatively, the top view shapes of the first through slot 2111 can be arbitrary, in an embodiment of the present utility model, as shown in Figure 5-Figure 7, the plan view of the first through slot 2111 be roughly arc and the first through slot 2111 around the setting at least partially of cylinder chamber 212 circumference, wherein the first through slot 2111 is communicated with the intakeport 213 of cylinder 21.The upper end of upper bearing (metal) 22 capping first through slot 2111 and the lower end of lower bearing 23 capping first through slot 2111, upper bearing (metal) 22, limit air-inlet cavity 2110 between lower bearing 23 and the inwall of the first through slot 2111 jointly.That is, upper bearing (metal) 22 is for sealing the upper end of the first through slot 2111, and lower bearing 23, for sealing the lower end of the first through slot 2111, can make air-inlet cavity 2110 form a cavity of relative closure thus, avoid unnecessary Leakage Gas.And such cylinder 21 structure is simple, air-inlet cavity 2110 easily manufactures, the compact structure of compressing mechanism 2.
Preferably, as shown in Figure 5-Figure 7, at least one first stiffening rib 2112 can be provided with in first through slot 2111, first stiffening rib 2112 can roughly be arranged along the radial direction of cylinder 21, because the first through slot 2111 has certain size in radial directions, and the first through slot 2111 area occupied on the end face of cylinder 21 is larger, therefore the structural strength of cylinder 21 can be improved by arranging the first stiffening rib 2112, can ensure that the cold media air of high pressure enters into produce overvoltage effect to the inwall of air-inlet cavity 2110 in air-inlet cavity 2110 and make the wall of cylinder 21 produce distortion.
Wherein, first stiffening rib 2112 is configured to be communicated with for the first through slot 2111 of the first stiffening rib 2112 both sides, that is, the first set stiffening rib 2112 serves the effect at interval to the first through slot 2111, in order to make cold media air can flow in whole first through slot 2111, the first stiffening rib 2112 can be configured such that the first through slot 2111 of its both sides is communicated with.In an example of the present utility model, the first stiffening rib 2112 can be arranged the first stiffening rib 2112 through hole, such cold media air can be communicated with by the first stiffening rib 2112 through hole the first through slot 2111 being positioned at the first stiffening rib 2112 both sides; Or in another example of the present utility model, size in the short transverse of the first stiffening rib 2112 can be arranged to the size be less than in the short transverse of the first through slot 2111, such refrigerant can be communicated with the first through slot 2111 being positioned at the first stiffening rib 2112 both sides by the gap between the top of the first stiffening rib 2112 and the lower end surface of upper bearing (metal) 22, or refrigerant can be communicated with the first through slot 2111 being positioned at the first stiffening rib 2112 both sides by the gap between the bottom of the first stiffening rib 2112 and the upper-end surface of lower bearing 23.The utilization ratio of the first through slot 2111 can be improved thus, improve the diffusion cushioning effect of air-inlet cavity 2110 pairs of high pressure refrigerant gas.
Advantageously, this first stiffening rib 2112 can be multiple and spaced apartly be arranged in the first through slot 2111, can improve the structural strength of cylinder 21 thus further, and cylinder 21 can be made stressed more even in the course of the work.
Similarly, as shown in Fig. 1-Fig. 7, cylinder 21 can be provided with the second through slot 216 running through its height, alternatively, the top view shapes of the second through slot 216 can be arbitrary, in an embodiment of the present utility model, as shown in Figure 5-Figure 7, the plan view of the second through slot 216 be roughly arc and the second through slot 216 around the setting at least partially of cylinder chamber 212 circumference, wherein the second through slot 216 is not communicated with the intakeport 213 of cylinder 21.The upper end of upper bearing (metal) 22 capping second through slot 216 and the lower end of lower bearing 23 capping second through slot 216, upper bearing (metal) 22, limit exhaust cavity 215 between lower bearing 23 and the inwall of the second through slot 216 jointly.That is, upper bearing (metal) 22 is for sealing the upper end of the second through slot 216, and lower bearing 23, for sealing the lower end of the second through slot 216, can make exhaust cavity 215 form a cavity of relative closure thus, avoid unnecessary Leakage Gas.And such cylinder 21 structure is simple, exhaust cavity 215 easily manufactures, the compact structure of compressing mechanism 2.
Preferably, as shown in Figure 5-Figure 7, at least one second stiffening rib 217 can be provided with in second through slot 216, second stiffening rib 217 can roughly be arranged along the radial direction of cylinder 21, because the second through slot 216 has certain size in radial directions, and the second through slot 216 area occupied on the end face of cylinder 21 is larger, therefore can improve the structural strength of cylinder 21 by arranging the second stiffening rib 217, can ensure that the cold media air of high pressure enters into and in exhaust cavity 215, overvoltage effect produced to the inwall of exhaust cavity 215 and make the wall of cylinder 21 produce distortion.
Wherein, second stiffening rib 217 is configured to be communicated with for the second through slot 216 of the second stiffening rib 217 both sides, that is, the second set stiffening rib 217 serves the effect at interval to the second through slot 216, in order to make cold media air can flow in whole second through slot 216, the second stiffening rib 217 can be configured such that the second through slot 216 of its both sides is communicated with.In an example of the present utility model, the second stiffening rib 217 can be arranged the second stiffening rib through hole, such cold media air can be communicated with by the second stiffening rib through hole the second through slot 216 being positioned at the second stiffening rib 217 both sides; Or in another example of the present utility model, size in the short transverse of the second stiffening rib 217 can be arranged to the size be less than in the short transverse of the second through slot 216, such refrigerant can be communicated with the second through slot 216 being positioned at the second stiffening rib 217 both sides by the gap between the top of the second stiffening rib 217 and the lower end surface of upper bearing (metal) 22, or refrigerant can be communicated with the second through slot 216 being positioned at the second stiffening rib 217 both sides by the gap between the bottom of the second stiffening rib 217 and the upper-end surface of lower bearing 23.The utilization ratio of the second through slot 216 can be improved thus, improve the diffusion cushioning effect of exhaust cavity 215 pairs of high pressure refrigerant gas.
Advantageously, this second stiffening rib 217 can be multiple and spaced apartly be arranged in the second through slot 216, can improve the structural strength of cylinder 21 thus further, and cylinder 21 can be made stressed more even in the course of the work.
As depicted in figs. 1 and 2 according to an embodiment of the present utility model, the ft connection of exhaust cavity 215 and casing 1.Particularly, as depicted in figs. 1 and 2, the sidewall of cylinder 21 is provided with the exhaust hole 218 be communicated with exhaust cavity 215, on the inwall that the two ends of exhaust hole 218 are respectively formed at exhaust cavity 215 and on the outer side wall of cylinder 21, the sidewall of casing 1 is provided with casing through hole, exhaust hole 218 is relative with casing through hole and be communicated with, by exhaust hole 218 and casing through hole are oppositely arranged the connectivity structure that can simplify between exhaust hole 218 and casing through hole.
As shown in Figure 3 and Figure 4 according to another embodiment of the present utility model, exhaust cavity 215 is communicated with the inside of casing 1.Alternatively, exhaust cavity 215 can be communicated with the inside of casing 1 by upper bearing (metal) 22, particularly, as shown in Figure 3 and Figure 4, upper bearing (metal) 22 can be provided with and run through its height and the upper bearing (metal) through hole 221 be communicated with exhaust cavity 215, upper bearing (metal) through hole 221 is communicated with the inside of casing 1.This structure is simple, easily realizes.Further, the cold media air being drained into casing 1 inside can be expelled to the outside of rotary compressor 100 by the outlet pipe 12 at casing 1 top.
As shown in Figure 10, further, rotary compressor 100 can also comprise baffler 26, upper baffler 26 be located at upper bearing (metal) 22 upper end and and limit silencing cavity 261 between upper bearing (metal) 22, upper baffler 26 is provided with the baffler through hole 262 running through its thickness, and upper bearing (metal) through hole 221 is communicated with upper silencing cavity 261.That is, after passing upper bearing (metal) through hole 221 from the cold media air of exhaust cavity 215 discharge, can enter in silencing cavity 261, then be discharged to the inside of casing 1 from upper silencing cavity 261.By arranging upper baffler 26 thus noise can being reduced further.
Further, rotary compressor 100 also comprises bottom silencer 27, bottom silencer 27 is located at the lower end of lower bearing 23 and limits lower silencing cavity 271 with lower bearing 23, lower bearing 23 is provided with and runs through its thickness and the lower bearing through hole be communicated with exhaust cavity 215, lower bearing through hole is communicated with lower silencing cavity 271, and compressing mechanism is provided with the exhaust passage 28 for being communicated with lower silencing cavity 271 and upper silencing cavity 261.That is, the cold media air of discharging from exhaust cavity 215 can also enter in lower silencing cavity 271 by lower bearing through hole, by arranging bottom silencer 27 thus can reducing the noise of rotary compressor 100 further.Wherein, the cold media air entering into bottom silencer 27 can be drained in upper silencing cavity 261 by the exhaust passage 28 be arranged on compressing mechanism, then is drained in housing 1, and then discharges rotary compressor 100.Wherein, exhaust passage 28 can be located at the through-hole structure that lower bearing, cylinder and upper bearing (metal) are interconnected, and the structure of exhaust passage 28 can be made thus simple, easily manufacture.
Wherein, in example as shown in Figure 10, a part of cold media air in exhaust cavity 215 can be entered in lower silencing cavity 271 by lower bearing through hole, then gets back in upper silencing cavity 261 by exhaust passage 28; Another part cold media air in exhaust cavity 215 can directly be entered in upper silencing cavity 261 by upper bearing (metal) through hole 221.
As shown in figure 11, with the example shown in Figure 10 unlike, upper bearing (metal) does not have arrange the upper bearing (metal) through hole 221 that is communicated with exhaust cavity 215.That is, the cold media air in exhaust cavity 215 can be discharged to the inside of casing 1 successively again after lower silencing cavity 271, exhaust passage 28 and upper silencing cavity 261.Can arrange the flow direction of cold media air thus according to specific needs, the structure of rotary compressor 100 more adapts to actual conditions.
Communicating passage 24 according to the utility model embodiment is described below.Alternatively, communicating passage 24 can be located on upper bearing (metal) 22 and/or lower bearing 23.That is, communicating passage 24 can only be located on upper bearing (metal) 22, and communicating passage 24 can only be located on lower bearing 23, or communicating passage 24 can also be located on upper bearing (metal) 22 and lower bearing 23 simultaneously.In example wherein shown in Fig. 2 and Fig. 4, communicating passage 24 is arranged on upper bearing (metal) 22 and lower bearing 23 simultaneously.Below with reference to Fig. 2, Fig. 4, Fig. 8 and Fig. 9, specifically describe the structure of the communicating passage 24 be positioned on upper bearing (metal) 22 and lower bearing 23.
As shown in Fig. 2, Fig. 4 and Fig. 8, upper bearing (metal) 22 is provided with through hole 222, upper receiving cavity 223 and upper intercommunicating pore 224, wherein, upper through hole 222 is vertically arranged, upper through hole 222 is communicated with the relief opening 214 on cylinder 21, alternatively, upper through hole 222 in the vertical direction can be relative with the relief opening 214 of cylinder 21 and be communicated with.Upper receiving cavity 223 can have predetermined volume, and upper receiving cavity 223 is communicated with upper through hole 222, and upper receiving cavity 223 can play the effect cushioned the cold media air diffusion of High Temperature High Pressure.Upper intercommunicating pore 224 is for what be obliquely installed, and the axis namely going up intercommunicating pore 224 is obliquely installed relative to vertical direction, and upper intercommunicating pore 224 is for being communicated with upper receiving cavity 223 and exhaust cavity 215.Wherein go up through hole 222, upper receiving cavity 223 and upper intercommunicating pore 224 and form communicating passage 24.That is, from the cold media air of the High Temperature High Pressure that the relief opening 214 of cylinder 21 is discharged, enter in exhaust cavity 215 through upper through hole 222, upper receiving cavity 223 and upper intercommunicating pore 224 successively.Alternatively, the aperture of upper intercommunicating pore 224 is greater than the aperture of through hole 222.
Accordingly, as shown in Fig. 2, Fig. 4 and Fig. 9, lower bearing 23 is provided with lower through-hole 232, lower receiving cavity 233 and lower intercommunicating pore 234, wherein, lower through-hole 232 is vertically arranged, lower through-hole 232 is communicated with the relief opening 214 under cylinder 21, and alternatively, lower through-hole 232 in the vertical direction can be relative with the relief opening 214 of cylinder 21 and be communicated with.Lower receiving cavity 233 can have predetermined volume, and lower receiving cavity 233 is communicated with lower through-hole 232, and lower receiving cavity 233 can play the effect cushioned the cold media air diffusion of High Temperature High Pressure.Lower intercommunicating pore 234, for what be obliquely installed, namely descends the axis of intercommunicating pore 234 to be obliquely installed relative to vertical direction, and lower intercommunicating pore 234 is for being communicated with lower receiving cavity 233 and exhaust cavity 215.Wherein lower through-hole 232, lower receiving cavity 233 and lower intercommunicating pore 234 form communicating passage 24.That is, from the cold media air of the High Temperature High Pressure that the relief opening 214 of cylinder 21 is discharged, enter in exhaust cavity 215 through lower through-hole 232, lower receiving cavity 233 and lower intercommunicating pore 234 successively.Alternatively, the aperture of lower intercommunicating pore 234 is greater than the aperture of lower through-hole 232.
In embodiment as shown in Figure 7, according in the rotary compressor 100 of the utility model embodiment, communicating passage 24 can also be located in cylinder 21, particularly, the passage being directly communicated with relief opening 214 and exhaust cavity 215 is provided with in cylinder 21, the structure of communicating passage 24 can be made thus more simple, easily realize.
Be all known according to other configuration examples of the rotary compressor 100 of the utility model embodiment for those of ordinary skills as the concrete structure of cylinder 21, upper bearing (metal) 22, lower bearing 23 etc. and operation, no longer describe in detail here.
In the description of this specification, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " illustrative examples ", " 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, identical embodiment or example are not necessarily referred to the schematic representation of above-mentioned term.And the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.
Although illustrate and described embodiment of the present utility model, those having ordinary skill in the art will appreciate that: can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present utility model and aim, scope of the present utility model is by claim and equivalents thereof.

Claims (10)

1. a rotary compressor, is characterized in that, comprising:
Casing;
Compressing mechanism, described compressing mechanism is located in described casing, and described compressing mechanism comprises:
Cylinder, described cylinder has the cylinder-bore running through its height along its central axis;
Upper bearing (metal), described upper bearing (metal) is located at the upper end of described cylinder;
Lower bearing, described lower bearing is located at the lower end of described cylinder, and the inwall of described cylinder-bore, described upper bearing (metal) and described lower bearing limit the cylinder chamber for holding piston jointly, and described cylinder is provided with the intakeport and relief opening that are communicated with described cylinder chamber,
Be provided with air-inlet cavity in described cylinder, described air-inlet cavity is communicated with described intakeport respectively with described casing outside.
2. rotary compressor according to claim 1, it is characterized in that, also exhaust cavity is provided with in described cylinder, described exhaust cavity and described air-inlet cavity spaced apart, the inside of described exhaust cavity and described casing or the ft connection of described casing, be provided with communicating passage in wherein said compressing mechanism, described communicating passage is for being communicated with described relief opening and described exhaust cavity.
3. rotary compressor according to claim 1, it is characterized in that, described cylinder is provided with the first through slot running through its height, the lower end of the first through slot described in the upper end of the first through slot described in described upper bearing (metal) capping and described lower bearing capping, described upper bearing (metal), limits described air-inlet cavity between described lower bearing and the inwall of described first through slot jointly.
4. rotary compressor according to claim 3, it is characterized in that, at least one first stiffening rib is provided with in described first through slot, described first stiffening rib is roughly arranged along the radial direction of described cylinder, and described first stiffening rib is configured to be communicated with for described first through slot of described first stiffening rib both sides.
5. rotary compressor according to claim 4, is characterized in that, described first stiffening rib is multiple and spaced apart setting.
6. rotary compressor according to claim 2, it is characterized in that, described cylinder is provided with the second through slot running through its height, the lower end of the second through slot described in the upper end of the second through slot described in described upper bearing (metal) capping and described lower bearing capping, described upper bearing (metal), limits described exhaust cavity between described lower bearing and the inwall of described second through slot jointly.
7. rotary compressor according to claim 2, it is characterized in that, also comprise: bottom silencer, described bottom silencer is located at the lower end of described lower bearing and limits lower silencing cavity with described lower bearing, described lower bearing is provided with and runs through its thickness and the lower bearing through hole be communicated with described exhaust cavity, described lower bearing through hole is communicated with described lower silencing cavity, and described compressing mechanism is provided with the exhaust passage of the inside for being communicated with described lower silencing cavity and described casing.
8. rotary compressor according to claim 7, it is characterized in that, also comprise: upper baffler, described upper baffler be located at described upper bearing (metal) upper end and and limit silencing cavity between described upper bearing (metal), described upper baffler is provided with the baffler through hole running through its thickness, and described exhaust passage is communicated with described upper silencing cavity.
9. the rotary compressor according to claim 2 or 8, is characterized in that, described upper bearing (metal) is provided with and runs through its height and the upper bearing (metal) through hole be communicated with described exhaust cavity, and described upper bearing (metal) through hole is communicated with the inside of described casing.
10. rotary compressor according to claim 2, it is characterized in that, the sidewall of described cylinder is provided with the exhaust hole be communicated with described exhaust cavity, and the sidewall of described casing is provided with casing through hole, and described exhaust hole is relative with described casing through hole and be communicated with.
CN201520357377.2U 2015-05-27 2015-05-27 Rotary compressor Expired - Fee Related CN204729308U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104929933A (en) * 2015-05-27 2015-09-23 广东美芝制冷设备有限公司 Rotating type compressor
WO2023173638A1 (en) * 2022-03-16 2023-09-21 广州市德善数控科技有限公司 Cylinder, compressor, and cooling/heating system

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104929933A (en) * 2015-05-27 2015-09-23 广东美芝制冷设备有限公司 Rotating type compressor
WO2023173638A1 (en) * 2022-03-16 2023-09-21 广州市德善数控科技有限公司 Cylinder, compressor, and cooling/heating system

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