CN201739177U - Double translational rotor type compressor - Google Patents
Double translational rotor type compressor Download PDFInfo
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- CN201739177U CN201739177U CN2010205013541U CN201020501354U CN201739177U CN 201739177 U CN201739177 U CN 201739177U CN 2010205013541 U CN2010205013541 U CN 2010205013541U CN 201020501354 U CN201020501354 U CN 201020501354U CN 201739177 U CN201739177 U CN 201739177U
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- rotor
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- rotors
- translation
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Abstract
The utility model belongs to the technical field of compressors, and relates to a double translational rotor type compressor. The compressor comprises a cylinder body, a pair of rotors, an end cap, and a pair of air cylinders; the air cylinders are provided with circular arc-shaped inner hole surfaces; the rotors have circular arc-shaped cylindrical outer surfaces and are eccentrically arranged in the air cylinders; the rotors with axes thereof parallel with that of the air cylinders rotate along the axes of the air cylinders taking the eccentricity as the radius; in addition, a translational blade and a slide blade are arranged, a flat groove is formed on at least a rotor, and at least one end of the translational blade adopts a flat structure and can be inserted into the flat groove; a sliding chute is formed on the cylinder body, and the slide blade is provided with a flat body and is in slide fit with the sliding chute; the slide blade and the translational blade are in dynamic coordination in a sealed manner; and the two rotors perform translational rotation and drive the translational blade to perform translational rotation. The translational blade and the rotors are matched through the flat groove structure or a fastening structure in the utility model, thereby effectively reducing leakage quantity between the translational blade and the rotors. The utility model can be used for manufacturing compressors and vacuum pumps.
Description
Technical field
The utility model belongs to the Compressor Technology field, and particularly a kind of rotor is made the rotor-type compressor of translation rotation.
Background technique
Prior art CN201057149 discloses a kind of rotator type gas compressing apparatus, it comprises cylinder body, rotor, blade and end cap, its rotor is biased in the cylinder, the tangent cooperation of circular inner hole face of the cylindrical outer surface of rotor and cylinder, offer the chute of flat on the cylinder body, blade is flat and is fitted in slidably in the described chute, the back effect of blade has Returnning spring, the outer surface contact matching of the inner of blade and rotor is by the outer surface of rotor, the inner hole surface of cylinder, but the side of blade and end covers at two sides one common peripheral are configured to air aspiration cavity and two active chambers of compression chamber of volume periodically-varied.The advantage of this technology is the working method that rotor adopts translation rotation, so the relative velocity of it and end cap is less, so friction and wear is less; Therefore but this device has a drawback, and Here it is, and its blade and flat-moving rotor adopt the dynamic line way of contact, and is should place's sealing reliable inadequately, causes the gas of hyperbaric chamber very easily to scurry to escape and produces leakage loss to the low pressure air suction chamber.
Summary of the invention
The utility model provides a kind of double traverse rotor compressor, and purpose is effectively to reduce the leakage loss between compressor blade and the rotor.
The purpose of this utility model is achieved like this: double traverse rotor compressor, comprise cylinder body, a pair of rotor, end cap and a pair of cylinder, cylinder is opened on the cylinder body, rotor and cylinder dispose one by one, described cylinder has the inner hole surface of a circular arc and has axial length, described rotor has the cylindrical outer surface of a circular arc and is biased in the cylinder, the radius that the radius of cylinder bore face deducts the rotor cylindrical outer surface equals throw of eccentric, the rotor axis of rotor is parallel with the cylinder-bore axis of cylinder and to be radius with the throw of eccentric rotate around the cylinder-bore axis of cylinder separately, be provided with translation blade and sliding blade, have at least on the rotor in described two rotors and offer flat groove, described translation blade has an end at least to be the bluff body structure and to insert in the described flat groove, cylinder body is provided with chute, described sliding blade has bluff body and is slidingly matched with chute, sliding blade cooperates with the dynamic seal (packing) of translation blade, described two rotors have equal throw of eccentric, the vertical join line of two rotor axis is parallel and equal the vertical join line of two cylinder-bore axises, and two rotor double traverses rotate and drive the translation blade and do translation rotation together.
The quantity of above-mentioned cylinder body has more than two, and each cylinder body is provided with a pair of cylinder at least and disposes the rotor that a pair of double traverse rotates.
Have at least two cylinders to have cylinder bore radius surface inequality in the above-mentioned cylinder.
Have at least two cylinders to have axial length inequality in the above-mentioned cylinder.
Have at least a rotor itself and sliding blade opposed outer surface to be provided with the face of dodging in the above-mentioned rotor.
Between the above-mentioned rotor and end cap, between translation blade and the end cap, between sliding blade and the end cap, between sliding blade and the chute, optionally be provided with seal element between sliding blade and the translation blade.
Offer groove on the above-mentioned rotor, described seal element has flange and flange, and the flange of seal element inserts in the groove of rotor, and the flange of seal element cooperates with described end cap dynamic seal (packing).
Offering some breach on the above-mentioned rotor links up the cylindrical outer surface of described groove and rotor, seal element is provided with the block that equates with described breach quantity and inserts in the breach, and the flange of described block and seal element and flange are fastenedly connected or are structure as a whole.
Above-mentioned block is protruding key shape, and described breach is a rectangular indentation.
The purposes of double traverse rotor compressor can be used to make compressor and vacuum pump.
The utility model double traverse rotor compressor adopts two rotor translations to drive the organization plan that translation blades, translation blade and rotor adopt flat groove respective outer side edges, end cap to cooperate with dynamic seal (packing) between rotor, compared with prior art, effectively between shutoff translation blade and the rotor, between end cap and rotor leak path, so can effectively reduce leakage loss between blade and the rotor.
Description of drawings
Fig. 1 is that the axle of the utility model double traverse rotor compressor is surveyed schematic representation;
Fig. 2 is the axonometric drawing of the utility model double traverse rotor compressor rotor and seal element.
Embodiment
With specific embodiment the utility model is further described below, referring to Fig. 1-2:
Double traverse rotor compressor, comprise cylinder body 1, a pair of rotor 2, end cap 3 and a pair of cylinder 4, cylinder 4 is opened on the cylinder body 1, rotor 2 disposes one by one with cylinder 4, described cylinder 4 has the inner hole surface 4a of a circular arc and has axial length, described rotor 2 has the cylindrical outer surface 2a of a circular arc and is biased in the cylinder 4, the radius that the radius of the inner hole surface 4a of cylinder 4 deducts the cylindrical outer surface 2a of rotor 2 equals eccentric distance e, the rotor axis O2 of rotor 2 is parallel with the cylinder-bore axis O1 of cylinder 4 and to be radius with the eccentric distance e rotate around the cylinder-bore axis O1 of cylinder 4 separately, described end cap 3 is fitted in the both sides axle head of cylinder 4 and is fastened on the described cylinder body 1, and cylinder body 1 can be that a whole making also can be that fastening or build-in forms by the polylith parts; Characteristic of the present utility model is: be provided with translation blade 5 and sliding blade 6, have at least in described two rotors 2 and offer flat groove 2c on the rotor 2, described translation blade 5 has an end at least to be the bluff body structure and to insert among the described flat groove 2c, cylinder body 1 is provided with chute 7, described sliding blade 6 has bluff body and is slidingly matched with chute 7, sliding blade 6 cooperates with 5 dynamic seal (packing)s of translation blade, described two rotors 2 have equal eccentric distance e, the vertical join line of two rotor axis O2 is parallel and equal the vertical join line of two cylinder-bore axis O1, two rotor 2 double traverses rotate and drive translation blade 5 and do translation rotation together, and the cylindrical outer surface 2a of rotor 2 cooperates with the inner hole surface 4a of cylinder 4 is tangent; Notice that flat-moving rotor 2 and translation blade 5 adopt the working method of translation running, therefore translation blade 5 must have the swing of certain amplitude, the throw of eccentric that its full swing distance equals twice is 2e, for fear of interference, the inner hole surface 4a of cylinder 4 must reserve the breach that width is greater than or equal to 2e, in other words the inner hole surface 4a of cylinder 4 is incomplete circular hole face, be not difficult to find, allow sliding blade 6 can reduce the clearance volume of device near the cylinder-bore axis O1 of cylinder 4 as far as possible, thereby improve the volumetric efficiency of device, it is feasible allowing sliding blade 6 invade within the cylinder 4 for this reason, at this moment should on the outer surface of rotor 2, be provided with and dodge face 2b, in case spline son 2 bumps with sliding blade 6, to mean that the cylindrical outer surface 2a of rotor 2 no longer is a complete cylindrical surface this moment, the described face 2b that dodges can be the plane, cylinder, shaped face or the various combinations between them, the optimised form of dodging face 2b is plane and parallel with cylinder-bore axis O1, so relatively help processing, certainly, the face 2b of dodging can also adopt other structural type, but correspondingly the chute 7 on the cylinder body 1 and the part outer surface of sliding blade 6 also must be made corresponding change, such as no longer parallel with cylinder-bore axis O1 or the like; Rotor 2 of the present utility model and translation blade 5 realize that the method for translation is to adopt the parallelogram parallel moving mechanism, promptly two rotors 2 that connected by translation blade 5 have identical eccentric distance e and turning radius is parallel all the time and synchronous rotation, the vertical join line of the cylinder-bore axis O1 of two cylinders 4 of vertical join line and join of the rotor axis O2 of these two rotors 2 equates and is parallel in addition, in other words they constitute a parallel-crank mechanism, by the knowledge of kinology and mechanics as can be known two flat-moving rotors 2 and translation blade 5 to be done to move be translation rotation; Need to prove, it is bluff body structure and to insert among the described flat groove 2c be to comprise two kinds of situations that the said described translation blade 5 of the utility model has an end at least: first kind of situation is that two rotors 2 are all offered flat groove 2c, the two ends of the blade of translation simultaneously 5 are the bluff body structure and insert the interior (not shown) of flat groove 2c of described two rotors 2 respectively, second kind of situation is to have only a rotor 2 to offer flat groove 2c in two rotors 2, one end of translation blade 5 is in bluff body and the flat groove 2c that inserts described rotor 2, the other end of translation blade 5 and another rotor 2 are fastenedly connected or are structure as a whole (as shown in Figure 1), the implication of described insertion is meant that their cooperation is transition fit or Spielpassung, obviously, the benefit of this spline structure way is the distance that can conveniently regulate two rotor axis O2, making precision and matching requirements to compressor all can be relaxed greatly, and do not influence the determinacy of the motion of rotor 2 and translation blade 5; Need to prove in addition, the cylindrical outer surface 2a of the said rotor 2 of the utility model and the inner hole surface 4a of cylinder 4 be tangent to be cooperated and not to mean that and require them must keep in touch cooperation momently, but allow and have certain motion matching gap between them, the radius that the radius that is to say the inner hole surface 4a of the said cylinder 4 of the utility model deducts the cylindrical outer surface 2a of rotor 2 equals eccentric distance e and allows to exist certain error, to avoid as far as possible because of foozle, assembly error and various stress deformation, the rotor 2 that temperature rise distortion etc. cause and the mechanical collision of cylinder 4, in addition, when rotor 2 moves to sliding blade 6 hithermost positions and when neighbouring, also allow the cylindrical outer surface 2a of rotor 2 and the inner hole surface 4a of cylinder 4 of short duration coming to nothing to occur; Also need to prove, the axial length of described cylinder 4 is the cylinder height of indication on the traditional sense, it equates with the axial height of rotor 2, translation blade 5 and sliding blade 6, but allows to have certain size difference or matching gap, cooperates so that make them can do motion swimmingly; The quantity of the cylinder body 1 of the utility model compressor can adopt two or more, at least be provided with a pair of cylinder 4 on each cylinder body 1 and in each cylinder 4, dispose the rotor 2 that double traverse rotates, each cylinder body 1 can adopt layout in parallel also can adopt series arrangement, so-called layout in parallel is meant that the cylinder-bore axis O1 of the cylinder 4 on the different cylinder bodies is parallel to each other and has a determining deviation, so-called series arrangement is to refer to that cylinder-bore axis O1 on the different cylinder bodies has at least coaxial and each cylinder body to have certain interval at axial direction; It is worthy of note that the radius of the inner hole surface 4a of each cylinder 4 can all equate also can partly equate can also be unequal entirely, adopt equal radii to be convenient to processing and assembling, the radius difference then helps realizing multistage compression; In addition, the axial length of each cylinder 4 can all equate also can partly equate and can also all not wait, and adopts equal length to be convenient to processing and assembling, and the length difference then helps realizing multistage compression; Implementing multistage compression is necessary sometimes, because it can realize the compression of high multiple, well-known, adopt multistage compression still to reduce effective measures of device internal leakage, because the pressure reduction between the unit at different levels is greatly diminished, so its internal working medium leakage rate reduces; Also it is to be noted, rotor bent axle 10 can be set drive rotor 2, the coaxial setting of cylinder-bore axis O1 of the rotor crankshaft center line of its rotor bent axle 10 and institute distribution cylinder 4, rotor bent axle 10 is rotatably assorted with the rotor 2 of institute's distribution cylinder 4, the typical structure of rotor bent axle 10 is representative (referring to Fig. 1) with the crank pin structure, each rotor bent axle 10 all includes crank pin 10a in Fig. 1, the coaxial setting of rotor axis O2 of the bearing pin axis of crank pin 10a and respective rotor 2, rotor 2 directly or by bearing indirectly rotating sleeve be contained on the crank pin 10a, thereby realize being rotatably assorted of rotor 2 and rotor bent axle 10, need to prove especially, said rotor bent axle 10 and crank pin 10a not only comprise traditional crank throw structural type and crank pin structure form in the utility model, also comprise capacity eccentric bearing structure class form, that is rotor 2 can cooperate (not shown) with the rotor bent axle rotationally by capacity eccentric bearing or eccentric journal; Need to prove at last, can be in order to reduce leakage at rotor 2/ end cap 3, translation blade 5/ end cap 3, sliding blade 6/ end cap 3, sliding blade 6/ chute 7, on sliding blade 6/ translation blade 5 kinematic pair such as grade seal element is set, as on rotor 2 and with end cap 3, making the end face that motion cooperates, on translation blade 5 and with end cap 3, do the side that motion cooperates, on sliding blade 6 and with end cap 3, do the side that motion cooperates, on sliding blade 6 and with chute 7, do the side that motion cooperates, on sliding blade 6 and do the positions such as slip end face that motion cooperates with translation blade 5 seal element 23 is set, can select above-mentioned kinematic pair to carry out the setting of seal element 23 in whole or in part according to reality, so-called seal element 23 is the various Sealings of available technology adopting, as Stamping Steel Ribbon, seal ring and sealing block etc., its material can be to comprise teflon, the filling teflon, composite material, cast iron is at the interior sealing material that various prior art adopted, that Fig. 2 provides is a preferable sealing embodiment of the present utility model: offer groove 2d on rotor 2, described seal element 23 has flange 23a and flange 23b, the flange 23a of seal element 23 inserts in the groove 2d of rotor 2, the flange 23b of seal element cooperates with described end cap 3 dynamic seal (packing)s, in addition, in order to reduce gas via the slot leakage between seal element 23 and the rotor 2, can on described rotor 2, offer the cylindrical outer surface 2a communication of some breach 2e with described groove 2d and rotor 2, seal element 23 is provided with the block 23c that equates with described breach 2e quantity and inserts in the breach 2e simultaneously, the flange 23a of described block 23c and seal element 23 and flange 23b are fastenedly connected or are structure as a whole, described breach can be a triangle, rectangle and triangle etc., wherein be best, preferably block 23c made protruding key shape and rectangular indentation certainly and match with the rectangular indentation.
Notice that the translation blade 5 in the utility model cooperates with flat groove structure or fastening structure with rotor 2, CN201057149 compares with prior art, it can reduce more effectively between translation blade 5 and the rotor 2 leakage rate.
The purposes of the utility model double traverse rotor compressor can be used to make compressor and vacuum pump.
The foregoing description only is some preferred embodiments of the present utility model; be not to limit protection domain of the present utility model according to this; so: all various equivalences of doing according to structure of the present utility model, shape, principle change, and all should be covered by within the protection domain of the present utility model.
Claims (9)
1. double traverse rotor compressor, comprise cylinder body, a pair of rotor, end cap and a pair of cylinder, cylinder is opened on the cylinder body, rotor and cylinder dispose one by one, described cylinder has the inner hole surface of a circular arc and has axial length, described rotor has the cylindrical outer surface of a circular arc and is biased in the cylinder, the radius that the radius of cylinder bore face deducts the rotor cylindrical outer surface equals throw of eccentric, the rotor axis of rotor is parallel with the cylinder-bore axis of cylinder and to be radius with the throw of eccentric rotate around the cylinder-bore axis of cylinder separately, it is characterized in that: be provided with translation blade and sliding blade, have at least on the rotor in described two rotors and offer flat groove, described translation blade has an end at least to be the bluff body structure and to insert in the described flat groove, cylinder body is provided with chute, described sliding blade has bluff body and is slidingly matched with chute, sliding blade cooperates with the dynamic seal (packing) of translation blade, described two rotors have equal throw of eccentric, the vertical join line of two rotor axis is parallel and equal the vertical join line of two cylinder-bore axises, and two rotor double traverses rotate and drive the translation blade and do translation rotation together.
2. double traverse rotor compressor according to claim 1 is characterized in that the quantity of described cylinder body has more than two, and each cylinder body is provided with a pair of cylinder at least and disposes the rotor that a pair of double traverse rotates.
3. double traverse rotor compressor according to claim 1 and 2 is characterized in that having at least two cylinders to have cylinder bore radius surface inequality.
4. double traverse rotor compressor according to claim 1 and 2 is characterized in that having at least two cylinders to have axial length inequality.
5. double traverse rotor compressor according to claim 1 and 2 is characterized in that having at least a rotor itself and sliding blade opposed outer surface to be provided with the face of dodging.
6. double traverse rotor compressor according to claim 1 and 2 is characterized in that between rotor and the end cap, between translation blade and the end cap, between sliding blade and the end cap, between sliding blade and the chute, optionally be provided with seal element between sliding blade and the translation blade.
7. double traverse rotor compressor according to claim 6, it is characterized in that on rotor, offering groove, described seal element has flange and flange, and the flange of seal element inserts in the groove of rotor, and the flange of seal element cooperates with described end cap dynamic seal (packing).
8. double traverse rotor compressor according to claim 7, it is characterized in that offering on rotor some breach links up the cylindrical outer surface of described groove and rotor, seal element is provided with the block that equates with described breach quantity and inserts in the breach, and the flange of described block and seal element and flange are fastenedly connected or are structure as a whole.
9. double traverse rotor compressor according to claim 8 is characterized in that described block is protruding key shape, and described breach is a rectangular indentation.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2010205013541U CN201739177U (en) | 2010-08-23 | 2010-08-23 | Double translational rotor type compressor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2010205013541U CN201739177U (en) | 2010-08-23 | 2010-08-23 | Double translational rotor type compressor |
Publications (1)
Publication Number | Publication Date |
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CN201739177U true CN201739177U (en) | 2011-02-09 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN2010205013541U Expired - Lifetime CN201739177U (en) | 2010-08-23 | 2010-08-23 | Double translational rotor type compressor |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101886632A (en) * | 2010-08-23 | 2010-11-17 | 浙江鸿友压缩机制造有限公司 | Double traverse rotor compressor |
-
2010
- 2010-08-23 CN CN2010205013541U patent/CN201739177U/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101886632A (en) * | 2010-08-23 | 2010-11-17 | 浙江鸿友压缩机制造有限公司 | Double traverse rotor compressor |
CN101886632B (en) * | 2010-08-23 | 2012-09-19 | 浙江鸿友压缩机制造有限公司 | Double traverse rotor compressor |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20110209 Effective date of abandoning: 20120919 |