CN201339578Y - Rotary compressor with rotational cylinder - Google Patents
Rotary compressor with rotational cylinder Download PDFInfo
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- CN201339578Y CN201339578Y CNU2008202066446U CN200820206644U CN201339578Y CN 201339578 Y CN201339578 Y CN 201339578Y CN U2008202066446 U CNU2008202066446 U CN U2008202066446U CN 200820206644 U CN200820206644 U CN 200820206644U CN 201339578 Y CN201339578 Y CN 201339578Y
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- casing wall
- rotary compressor
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Abstract
The utility model relates to compressor technical field, in particular to a rotary compressor with rotational cylinder, which comprises a cylinder, a roller ring and vanes, wherein the cylinder and the roller ring make up an operating cavity, the operating cavity is divided into an inlet end and an outlet end by the vanes, the inlet end is provided with an inlet and the outlet end is provided with an outlet; the compressor also comprises a stationary shaft, a bearing and an eccentric wheel are sequentially fixed on the exterior of the stationary shaft, the roller ring is fixedly nested on the exterior of the eccentric wheel, the cylinder wall is connected with the output shaft of motor; the cylinder rotates and drives the roller ring to roll along the inner wall of the cylinder so that the capacity of inlet end and outlet end changes periodically to realize the purpose of air compression. The utility model has the beneficial effects that 1. The moment arm is longer; the compressor needs low power and is more power saving; 2. The bearing endures part of the friction force between the cylinder and the roller ring so that the relative friction force between the cylinder and roller ring is small, the friction temperature rising of the operating cavity is small and the operation stability is improved; meanwhile, the friction is reduced and the service life of compressor is increased.
Description
Technical field:
The utility model relates to the Compressor Technology field, the rotary compressor that particularly a kind of cylinder rotates.
Background technique:
Present rotary compressor, its working principle is generally the rotor of doing the uniform speed rotation and is installed in the columniform cylinder, dispose one or several reciprocating blades again, to form the active chamber that the volume cycle changes, described active chamber is separated into entrance point and two air cavitys of outlet end by blade, utilize the cycle of active chamber to change, gas is imported by entrance point, send into outlet end again, reduce through the outlet end volume, reach the purpose of pressurized gas, then gas is discharged from the air outlet, promptly finish the circulation of a pressurized gas.Rotary compressor has compact structure, component and reaches characteristics such as long working life less, is widely used in room air conditioner, refrigerating appliance, car air conditioner and Ignitable gas devices etc.
Different with the Placement of rotor according to blade, rotary compressor can be divided into rolling piston compressor and swing-rotor compressor.Wherein, the blade of rolling piston compressor is slidedly arranged on the cylinder wall, and is tight against the rotor outer wall all the time under the spring force effect, because blade contacts for linear with the rotor outer wall, reveal unavoidably the joint of blade and rotor in the course of the work, thereby influence the gas compression effect; And in the working procedure, during rotor rotation,, can cause that heat up in the contacting point and wearing and tearing all the time with blade generation sliding friction.
Swing-rotor compressor as shown in Figure 1 is then because blade 4 and rotor 9 affixed being integral, compare with rolling piston compressor, the swing-rotor compressor does not need to be provided with spring assembly, part reduces, structure is more simple, and eliminated the friction and the leakage of 9 of blade 4 and rotors, improved the reliability and the compression efficiency of compressor.But, described swing-rotor compressor still has following defective: 1, the driving force of rotor 9 is generally provided by motor, motor output shaft is with the eccentric shaft 31 of power transmission to rotor 9, making described eccentric shaft 31 drive rotor 9 rotates, and make described blade 4 left and right sides reciprocally swingings, because the arm of force is shorter, so need the power of motor output bigger; When 2, rotating owing to rotor 9, rotor 9 outer walls contact cylinder 1 inwall all the time, and the frictional force of the two is bigger, the temperature of active chamber is raise, and easily cause wearing and tearing, influence the working life of compressor.
The model utility content:
The purpose of this utility model is to provide at the deficiencies in the prior art a kind of rotary compressor of cylinder rotation, compare with existing rotary compressor, rotary compressor described in the utility model is more laborsaving, and frictional force is littler between the parts that are in contact with one another and do relative motion, the temperature rise of compressor operating chamber is little, longer service life.
For achieving the above object, the utility model adopts following technological scheme:
The rotary compressor that a kind of cylinder rotates, it comprises cylinder and is inscribed within the ring that rolls of cylinder inner wall, described cylinder inner wall with roll the ring outer wall surround an active chamber, described active chamber is arranged on described cylinder by one and is separated into entry end and outlet end with the blade that rolls interannular, described entry end is provided with and is communicated with extraneous inlet, described outlet end is provided with and is communicated with extraneous outlet, it also comprises the dead axle that together is located in the cylinder, described dead axle outward successively fixed cover be provided with an eccentric wheel and a bearing, described roll the ring fixed cover be located at outside the described bearing; The casing wall of described cylinder is connected with motor output shaft.
Wherein, described entrance and exit is separately positioned on the casing wall of described cylinder, and runs through the casing wall of described cylinder respectively.
Or, the position of described entrance and exit is: described dead axle is a hollow shaft, and described inlet is arranged on the ring wall that rolls ring, and described eccentric wheel is along circumferentially offering groove, be provided with the passage of supplied gas circulation between described dead axle and groove, described groove is communicated with inlet; Described outlet is arranged on the casing wall of described cylinder and runs through described casing wall.
Wherein, be provided with the passage of many supplied gas circulations between described dead axle and groove.
Wherein, have guiding groove on the described cylinder inner wall, described blade one end is fixed on the described outer wall that rolls ring, and the other end is slidedly arranged in the described guiding groove rotationally.
Further, described guiding groove runs through the casing wall of described cylinder, and described blade stretches out the casing wall of described cylinder away from an end that rolls ring.
Or described blade and cylinder and roll being connected to of ring: described rolling offers chute on the ring; Described blade one end is slidingly installed in the described chute, and the other end is embedded swingably in the casing wall of described cylinder.
Further, the cell body degree of depth of described chute is stretched out the outer length of casing wall of described cylinder greater than blade.
Wherein, described outlet port is provided with an air valve.
The utility model beneficial effect is: it comprises cylinder and is inscribed within the ring that rolls of cylinder inner wall, described cylinder inner wall with roll the ring outer wall surround an active chamber, described active chamber is arranged on described cylinder by one and is separated into entry end and outlet end with the blade that rolls interannular, described entry end is provided with and is communicated with extraneous inlet, and described outlet end is provided with and is communicated with extraneous outlet; It also comprises the dead axle that together is located in the cylinder, and described dead axle is fixed sheathed outward and an eccentric wheel and a bearing successively, and the described ring fixed cover that rolls is located at outside the described bearing, and the casing wall of described cylinder is connected with motor output shaft; During work, power transmission is given cylinder, and cylinder rotation, and drive the described ring that rolls by blade and roll along cylinder inner wall makes the entry end of described active chamber and the cyclically-varying of outlet end volume and reaches the purpose of pressurized gas.Its beneficial effect is: 1, because cylinder described in the utility model is the active rotation cylinder, compare existing rotary compressor, its arm of force is longer, and then needed power is littler, thereby more laborsaving; 2, cylinder inner wall described in the utility model and roll between the ring outer wall and born a part by described bearing because of being in contact with one another the frictional force that also relative movement produced, thereby existing relatively rotary compressor, cylinder inner wall and the relative friction forces of rolling between the ring outer wall are less, the friction Temperature Rise of described active chamber is less, functional reliability improves, and the wearing and tearing that cause because of friction reduce, and increase the working life of compressor.
Description of drawings:
Accompanying drawing 2 is the utility model embodiment one cross-sectional view;
Accompanying drawing 3 is the utility model embodiment two cross-sectional view;
Accompanying drawing 4 is the utility model embodiment three cross-sectional view;
Accompanying drawing 5 is the utility model embodiment four cross-sectional view.
Embodiment:
Embodiment one
Below in conjunction with accompanying drawing the utility model is further described, see shown in the accompanying drawing 2, the rotary compressor that a kind of cylinder rotates, it comprises cylinder 1 and is inscribed within rolling of cylinder 1 inwall encircles 2, described cylinder 1 inwall with roll the ring 2 outer walls surround an active chamber, described active chamber is arranged on described cylinder 1 by one and rolls the blade 4 that encircles 2 and is separated into entry end 61 and outlet end 62, described entry end 61 is provided with and is communicated with extraneous inlet 71, described outlet end 62 is provided with and is communicated with extraneous outlet 72, it also comprises the dead axle 5 that together is located in the cylinder 1, described dead axle 5 outer fixed covers successively are provided with an eccentric wheel 3 and a bearing 8, and described ring 2 fixed covers that roll are located at outside the described bearing 8; The casing wall 11 of described cylinder 1 is connected with motor output shaft.Wherein, described outlet 72 places are provided with an air valve, and this air valve is opened when pressure reaches certain value, and this air valve belongs to known prior art, no longer specifically describes its working procedure here.
Described inlet 71 of present embodiment and outlet 72 are separately positioned on the casing wall 11 of described cylinder 1, and run through the casing wall 11 of described cylinder 1 respectively.
Have the guiding groove 12 that runs through casing wall 11 on the described cylinder 1 of present embodiment, described blade 4 one ends are fixed in described rolling on ring 2 the outer wall, and the other end is slidedly arranged in the described guiding groove 12 rotationally and stretches out described guiding groove 12.
The described rotary compressor of present embodiment is when work, starting electrical machinery, driving described cylinder 1 by motor output shaft does clockwise or is rotated counterclockwise, it is that example is described that present embodiment is rotated counterclockwise with cylinder 1, during cylinder 1 rotation, described blade 4 makes with blade 4 affixed rolling and encircles 2 along described cylinder 1 inwall rolling in the guiding groove 12 cell walls extruding lower slider of cylinder 1.Cylinder 1 inwall with roll the active chamber that surrounds of ring 2 outer walls and be separated into entry end 61 and 62 two air cavitys of outlet end by described blade 4, when rolling ring 2 when cylinder 1 inwall rolls, entry end 61 volumes increase gradually, and gas constantly is inhaled into from the inlet 71 on cylinder 1 outer cylinder 1 casing wall 11; Outlet end 62 volumes then reduce gradually, and the gas in it is compressed, and the air pressure in this outlet end 62 constantly raises, and when force value was elevated to the startup value of air valve, air valve was open, and pressurized gas is discharged from; When rolling ring 2 when being rolled into cylinder 1 inwall top dead center, entry end 61 volume maximums, and outlet end 62 is finished pop-off after the exhaust, at this moment whole active chamber is an entry end 61, is full of the gas of suction in the described active chamber; Roll ring 2 relative cylinders 1 and continue to be rolled into ring 2 and shelter from inlet 71 o'clock, entry end 61 disappearances, the gas that is inhaled into all goes to outlet end 62; Rolling ring 2 continues to roll, then outlet end 62 volumes dwindle, and the gas that a commentaries on classics is inhaled into is compressed, and entry end 61 occurs once more, its volume constantly increases and suck gas outside cylinder 1, thereby the working procedure of the described rotary compressor of present embodiment is continuously carried out; Because entry end 61 and outlet end 62 are worked simultaneously, therefore describedly roll that ring 2 is every to turn around along cylinder 1 inwall track, the described rotary compressor of present embodiment is just finished a work cycle.
Embodiment two
See shown in the accompanying drawing 3, what the rotary compressor that the described a kind of cylinder of present embodiment rotates and embodiment one were different is, the position of described inlet 71 and outlet 72 is: described dead axle 5 is a hollow shaft, described inlet 71 is arranged on the ring wall that rolls ring 2, described eccentric wheel 3 is along circumferentially offering groove 31, be provided with the passage 32 of supplied gas circulation between described dead axle 5 and groove, described groove 31 is communicated with inlet 71; Described outlet 72 is arranged on the casing wall 11 of described cylinder 1 and runs through described casing wall 11.
Be provided with the passage 32 of many supplied gas circulations between described dead axle 5 of present embodiment and groove.
Have the guiding groove 12 that runs through casing wall 11 on the described cylinder 1 of present embodiment, described blade 4 one ends are fixed in described rolling on ring 2 the outer wall, and the other end is slidedly arranged in the described guiding groove 12 rotationally and stretches out described guiding groove 12.
The described rotary compressor of present embodiment is in when work, and gas enters described groove 31 through the cavity of described dead axle 5 along passage 32, enters entry end 61 at the inlet 71 through being communicated with groove, and transfers outlet end 62 to via entry end 61 and be compressed.
Wherein, the meaning that is provided with the passage 32 of many supplied gas circulation between described dead axle 5 and groove is to make gas can be promptly to enter groove 31 from the cavity of dead axle 5, enters entry end 61 with given pace from the inlet 71 that is communicated with groove reposefully again.
The present embodiment remaining part is identical with embodiment one, repeats no more here.
Embodiment three
See shown in the accompanying drawing 4, the rotary compressor that a kind of cylinder rotates, it comprises cylinder 1 and is inscribed within rolling of cylinder 1 inwall encircles 2, described cylinder 1 inwall with roll the ring 2 outer walls surround an active chamber, described active chamber is arranged on described cylinder 1 by one and rolls the blade 4 that encircles 2 and is separated into entry end 61 and outlet end 62, described entry end 61 is provided with and is communicated with extraneous inlet 71, described outlet end 62 is provided with and is communicated with extraneous outlet 72, it also comprises the dead axle 5 that together is located in the cylinder 1, described dead axle 5 outer fixed covers successively are provided with an eccentric wheel 3 and a bearing 8, and described ring 2 fixed covers that roll are located at outside the described bearing 8; The casing wall 11 of described cylinder 1 is connected with motor output shaft.Wherein, described outlet 72 places are provided with an air valve, and this air valve is opened when pressure reaches certain value, and this air valve belongs to known prior art, no longer specifically describes its working procedure here.
Described inlet 71 of present embodiment and outlet 72 are separately positioned on the casing wall 11 of described cylinder 1, and run through the casing wall 11 of described cylinder 1 respectively.
The described blade 4 of present embodiment is with cylinder 1 and roll being connected to of ring 2: described rolling on the ring 2 offers chute 21; Described blade 4 one ends are slidingly installed in the described chute 21, and the other end is embedded swingably in the casing wall 11 of described cylinder 1.
During work, motor output shaft drives described cylinder 1 and does clockwise or be rotated counterclockwise, it is that example is described that present embodiment is rotated counterclockwise with cylinder 1, during cylinder 1 rotation, described blade 4 makes described blade 4 slide along chute 21 in the guiding groove 12 cell walls extruding lower slider of cylinder 1, promotes the described ring 2 that rolls and rolls along described cylinder 1 inwall, thereby the volume of periodically-varied entry end 61 and outlet end 62 reaches the purpose of pressurized gas.
The cell body degree of depth of the described chute 21 of present embodiment is stretched out casing wall 11 length outward of described cylinder 1 greater than blade 4
The present embodiment remaining part is identical with embodiment one.
Generally speaking, rotary compressor described in the utility model is when work, and fatigue fracture easily takes place the stress height that blade 4 bears near described end of rolling ring 2.The described blade 4 of present embodiment is slidingly installed in the chute 21 that rolls ring 2, then when rolling 1 rolling of ring 2 relative cylinders, described blade 4 slides up and down along described chute 21, chute 21 cell walls are not fixed on certain of blade 4 to the extrusion stress of blade 4, the risk of blade 4 root generation fatigue fractures is reduced, so the described rotary compressor longer service life of present embodiment.
Embodiment four
See shown in the accompanying drawing 5, what the rotary compressor that the described a kind of cylinder of present embodiment rotates and embodiment three were different is, the position of described inlet 71 and outlet 72 is: described dead axle 5 is a hollow shaft, described inlet 71 is arranged on the ring wall that rolls ring 2, described eccentric wheel 3 is along circumferentially offering groove 31, be provided with the passage 32 of supplied gas circulation between described dead axle 5 and groove, described groove 31 is communicated with inlet 71; Described outlet 72 is arranged on the casing wall 11 of described cylinder 1 and runs through described casing wall 11.
Be provided with the passage 32 of many supplied gas circulations between described dead axle 5 of present embodiment and groove.
Have the guiding groove 12 that runs through casing wall 11 on the described cylinder 1 of present embodiment, described blade 4 one ends are fixed in described rolling on ring 2 the outer wall, and the other end is slidedly arranged in the described guiding groove 12 rotationally and stretches out described guiding groove 12.
The described rotary compressor of present embodiment is in when work, and gas enters described groove 31 through the cavity of described dead axle 5 along passage 32, enters entry end 61 at the inlet 71 through being communicated with groove, and transfers outlet end 62 to via entry end 61 and be compressed.
The present embodiment remaining part is identical with embodiment three, repeats no more here.
The above only is a better embodiment of the present utility model, so all equivalences of doing according to the described structure of the utility model patent claim, feature and principle change or modify, is included in the utility model patent claim.
Claims (9)
1, the rotary compressor that a kind of cylinder rotates, what it comprised cylinder (1) and was inscribed within cylinder (1) inwall rolls ring (2), described cylinder (1) inwall with roll ring (2) outer wall and surround an active chamber, described active chamber is arranged on described cylinder (1) by one and the blade (4) that rolls between ring (2) is separated into entry end (61) and outlet end (62), described entry end (61) is provided with and is communicated with extraneous inlet (71), described outlet end (62) is provided with and is communicated with extraneous outlet (72), it is characterized in that: it also comprises the dead axle (5) that together is located in the cylinder (1), the outer fixed cover successively of described dead axle (5) is provided with an eccentric wheel (3) and a bearing (8), and described ring (2) fixed cover that rolls is located at outside the described bearing (8); The casing wall (11) of described cylinder (1) is connected with motor output shaft.
2, the rotary compressor of a kind of cylinder rotation according to claim 1 is characterized in that: described inlet (71) and outlet (72) are separately positioned on the casing wall (11) of described cylinder (1), and run through the casing wall (11) of described cylinder (1) respectively.
3, the rotary compressor of a kind of cylinder rotation according to claim 1, it is characterized in that: described dead axle (5) is a hollow shaft, described inlet (71) is arranged on the ring wall that rolls ring (2), described eccentric wheel (3) is along circumferentially offering groove (31), be provided with the passage (32) of supplied gas circulation between described dead axle (5) and groove, described groove (31) is communicated with inlet (71); The casing wall (11) that described outlet (72) is arranged on described cylinder (1) is gone up and is run through described casing wall (11).
4, the rotary compressor of a kind of cylinder rotation according to claim 3 is characterized in that: the passage (32) that is provided with many supplied gas circulations between described dead axle (5) and groove.
5, according to claim 2,3 or 4 any rotary compressors that described a kind of cylinder rotates, it is characterized in that: have guiding groove (12) on described cylinder (1) inwall, described blade (4) one ends are fixed on the described outer wall that rolls ring (2), and the other end is slidedly arranged in the described guiding groove (12) rotationally.
6, the rotary compressor of a kind of cylinder rotation according to claim 5, it is characterized in that: described guiding groove (12) runs through the casing wall (11) of described cylinder (1), and described blade (4) stretches out the casing wall (11) of described cylinder (1) away from an end that rolls ring (2).
7, according to claim 2,3 or 4 any rotary compressors that described a kind of cylinder rotates, it is characterized in that: described rolling offers chute (21) on the ring (2); Described blade (4) one ends are slidingly installed in the described chute (21), and the other end is embedded swingably in the casing wall of described cylinder (1) (11).
8, the rotary compressor of a kind of cylinder rotation according to claim 7 is characterized in that: the cell body degree of depth of described chute (21) is stretched out the outer length of casing wall (11) of described cylinder (1) greater than blade (4).
9, the rotary compressor of a kind of cylinder rotation according to claim 1, it is characterized in that: described outlet (72) locates to be provided with an air valve.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CNU2008202066446U CN201339578Y (en) | 2008-12-31 | 2008-12-31 | Rotary compressor with rotational cylinder |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CNU2008202066446U CN201339578Y (en) | 2008-12-31 | 2008-12-31 | Rotary compressor with rotational cylinder |
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CN201339578Y true CN201339578Y (en) | 2009-11-04 |
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CNU2008202066446U Expired - Fee Related CN201339578Y (en) | 2008-12-31 | 2008-12-31 | Rotary compressor with rotational cylinder |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104863848A (en) * | 2014-04-26 | 2015-08-26 | 摩尔动力(北京)技术股份有限公司 | Volume-type fluid mechanism |
CN105134300A (en) * | 2014-08-11 | 2015-12-09 | 摩尔动力(北京)技术股份有限公司 | High-eccentricity eccentric mechanism with integral-ring structure body |
CN110296074A (en) * | 2019-07-22 | 2019-10-01 | 杨啟波 | Low friction occlusion pump |
-
2008
- 2008-12-31 CN CNU2008202066446U patent/CN201339578Y/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104863848A (en) * | 2014-04-26 | 2015-08-26 | 摩尔动力(北京)技术股份有限公司 | Volume-type fluid mechanism |
CN105134300A (en) * | 2014-08-11 | 2015-12-09 | 摩尔动力(北京)技术股份有限公司 | High-eccentricity eccentric mechanism with integral-ring structure body |
CN110296074A (en) * | 2019-07-22 | 2019-10-01 | 杨啟波 | Low friction occlusion pump |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20091104 Termination date: 20131231 |