CN202040076U

CN202040076U - Three-line synchromesh spring-compensation combination pump

Info

Publication number: CN202040076U
Application number: CN2011201822594U
Authority: CN
Inventors: 张意立
Original assignee: Individual
Current assignee: Individual
Priority date: 2011-05-18
Filing date: 2011-05-18
Publication date: 2011-11-16
Anticipated expiration: 2021-05-18

Abstract

The utility model discloses a three-line synchromesh spring-compensation combination pump which comprises a pump body 4, a rotor shaft 1, a driven rotor 2, wherein the rotor shaft 1 is arranged on the central through hole 41 of the pump body 4; the driven rotor 2 is arranged on the eccentric semi-hole 42 of the pump body 4; an eccentric end cover 5 is arranged on the outer end face of the eccentric semi-hole 42 and is sealed and fixed by at least three bolts 8; the outer end face of the driven rotor 2 clings to the front plane of a compensation disc 6; and a positioning pin 7 and a pagoda-shaped spring 9 are arranged between the back of the compensation disc 6 and the eccentric end cover 5. Three axially-extending sealing strips are synchronously generated by the rotor shaft 1 and the driven rotor 2; and by means of the support bounce of the pagoda-shaped spring 9, one side of the front plane of the compensation disc 6 clings to the outer end faces of two rotors all the time so that the inner end faces of the two rotors cling to an eccentric semi-hole bottom surface 40. Three formed dynamic spaces A, B and C have end face abrasion sealing compensation and radial abrasion sealing compensation at the same time so that a high-pressure cavity and a low-pressure cavity are in the favorable activity isolation sealing state for a long time.

Description

A kind of three-way synchromesh spring compensation unipump

Technical field

The utility model belongs to mechanical engineering field, and International Classification of Patents is the F04D non-varactor pump, relate to a kind of with mechanical energy be converted to fluid pressure can the transformation of energy displacement pump, be meant a kind of three-way synchromesh spring compensation unipump especially.

Background technique

Known displacement pump main structure form has: plunger pump, screw pump, Roots pump and sliding vane pump.Have the high advantage of efficient as displacement pump, but all exist its efficient of long-time running wearing and tearing back obviously to reduce, cause the main cause of above-mentioned defective to be that movable isolation of end face between hyperbaric chamber and the low-pressure cavity fail to play effective sealing.The undersized easy heat expansion of end face fit tolerance is stuck firmly, the end face fit tolerance is oversize then fails to play effective sealing, and long-time running wearing and tearing back sealing effect is poorer, and the production line of having to stop is changed pumping unit, causes very big direct waste and indirect loss.

Plunger pump is fit to high pressure but pulse is big, does not possess self-compensating after the wearing and tearing; Screw pump be fit to high viscosity but on unit volume the manufacture cost height, do not possess self-compensating after the wearing and tearing yet; Roots pump is fit to liquids and gases but radially there is the gap in it, and radially with behind the end wear does not possess self-compensating; Sliding vane pump can be accomplished self-compensating after the gauge wear, but does not still possess self-compensating behind the end wear, and the slide plate stuck phenomenon happens occasionally.So far fail to see a kind of effective displacement pump both at home and abroad, can possess the structure function of end wear sealing compensation and gauge wear sealing compensation simultaneously.(its English full name of " SCI " U.S. " science citation index " is Science Citation Index to the U.S.'s three large-engineerings science and technology magazine, is called for short SCI; " EI " U.S. its English full name of Engineering Index is The Engineering Index, is called for short EI; Its English full name of " ISTP " U.S. " scientific and technical conference record index " is Index to Scientific ﹠amp; Technical Proceedings is called for short ISTP.) take in global engineering science and technology paper, also not seen has a kind of displacement pump that can possess end wear sealing compensation and gauge wear sealing compensation simultaneously.

Summary of the invention

The purpose of this utility model provides a kind of three-way synchromesh spring compensation unipump, the technology that possesses end wear sealing compensation and gauge wear sealing compensation simultaneously, to realize being in good movable isolating seal state for a long time between hyperbaric chamber and the low-pressure cavity, remedy the deficiencies in the prior art, fill up the technological gap that displacement pump possesses end wear sealing compensation and gauge wear sealing compensation simultaneously.

To achieve these goals, the utility model provides following technological scheme: a kind of three-way synchromesh spring compensation unipump, comprise the pump housing 4 and be installed in the rotor shaft 1 on the central through bore 41 of the pump housing 4 and be installed on off-centre half hole 42 of the pump housing 4 from

rotor

2,42 exterior edge faces, eccentric half hole have the screw 8 of at least three of eccentric end cap 5 usefulness airtight fixing, the horizontal frontal plane of compensating disc 6 is being pasted in described exterior edge face from rotor 2, and locating stud 7 and pagoda shape spring 9 are arranged between the back side of compensating disc 6 and the eccentric end cap 5.

Central through bore on the described pump housing 4 is with " O " type ring recess, the central axis O of central through bore 41 for 41 li ₂Eccentric axis O with off-centre half hole 42 ₁Between eccentric distance t, crescent shape suction inlet 47 UNICOMs on the bottom surface, eccentric half hole 40 import 46, another crescent shape row mouthful 48 UNICOMs outlet 49.

Described rotor shaft 1 comprises three five equilibrium cambered surface active sections 13 and does not have keyway shaft part 11 and shaft with keyway section 12, the inner end of three five equilibrium cambered surface active sections 13 is pasting the exterior edge face of bottom surface, eccentric half hole 40, three five equilibrium cambered surfaces active section 13 and is being pasted by the horizontal frontal plane of compensating disc 6.

Describedly comprise complete section of four five equilibrium cambered surfaces from rotor 2, the width of full section both ends of the surface is equal with the size of the both ends of the surface width of three five equilibrium cambered surface active sections 13 consistent.

The central axis O of band " O " the type ring recess through hole 61 on the described compensating disc 6 ₂Eccentric axis O with band " O " type ring recess cylindrical 62 ₁Between eccentric distance t, the outer rings that can hold pagoda shape spring 9 in the back side re-entrant angle 69 of compensating disc 6, the inner ring of pagoda shape spring 9 is enclosed within on the inboard boss 59 of eccentric end cap 5, the eccentric positioning hole 67 and the locating stud 7 of compensating disc 6 are slidingly matched.The support rebounding force that is supported on the inboard boss 59 of eccentric end cap 5 by means of pagoda shape spring 9 and is asking the back side of compensating disc 6 to produce, the horizontal frontal plane of compensating disc 6 is close to the exterior edge face of two rotors all the time, then force the inner end of two rotors also to be close to bottom surface, eccentric half hole 40, guarantee that the end face slip of three dynamic spaces is in effective sealing all the time.

The central axis O of described rotor shaft 1 ₂With eccentric axis O from rotor 2 ₁Between eccentric distance t, three five equilibrium cambered surface active sections 13 of rotor shaft 1 and from producing three point of contact between four five equilibrium cambered surfaces of rotor 2 synchronously, cross point of contact and form three axially extended sealing strips, in conjunction with the horizontal frontal plane of bottom surface 40, eccentric half hole and compensating disc 6, constitute A, B and three dynamic spaces of C.Even can guarantee that still three axially extended sealing strips form synchronously after using uniform wear for a long time, three axially extended sealing strips that produce guarantee that radially sliding of three dynamic spaces is in effective sealing all the time synchronously.

Possess in the time of end wear sealing compensation and gauge wear sealing compensation, realize being in good movable isolating seal state for a long time between hyperbaric chamber and the low-pressure cavity.

Installation steps and working principle:

The shaft with keyway section 12 of rotor shaft 1 is passed central through bore 41 and is slidingly matched with it from bottom surface, off-centre half hole 40 1 sides, and the inner end of three five equilibrium cambered surface active sections 13 is pasting bottom surface, eccentric half hole 40.Be placed in eccentric half hole 42 from rotor 2 and be slidingly matched, also pasting bottom surface, eccentric half hole 40, make the central axis O of rotor shaft 1 from the inner end of rotor 2 ₂With eccentric axis O from rotor 2 ₁Between eccentric distance t, three five equilibrium cambered surface active sections 13 of rotor shaft 1 and from producing three point of contact between four five equilibrium cambered surfaces of rotor 2 synchronously, cross point of contact and form three axially extended sealing strips, in conjunction with the horizontal frontal plane of bottom surface 40, eccentric half hole and compensating disc 6, constitute A, B and three dynamic spaces of C.Even can guarantee that still three axially extended sealing strips form synchronously after using uniform wear for a long time, guarantee the radially effectively sealing all the time of three dynamic spaces;

The central axis O of the band on the compensating disc 6 " O " type ring recess through hole 61 ₂Eccentric axis O with band " O " type ring recess cylindrical 62 ₁Between eccentric distance t, the outer rings that can hold pagoda shape spring 9 in the back side re-entrant angle 69 of compensating disc 6, the eccentric positioning hole 67 and the locating stud 7 of compensating disc 6 are slidingly matched.The horizontal frontal plane of compensating disc 6 inwardly, band " O " type ring recess through hole 61 is inserted in from no keyway shaft part 11 1 ends of rotor shaft 1 and is slidingly matched, band " O " type ring recess cylindrical 62 is slidingly matched with eccentric half hole 42.

Locating stud 7 is fastened on the eccentric end cap 5 inboard faces, and the inner ring of pagoda shape spring 9 is enclosed within on the inboard boss 59 of eccentric end cap 5, and band " O " the type ring recess through hole 51 on the eccentric end cap 5 is inserted in from no keyway shaft part 11 1 ends of rotor shaft 1 and is slidingly matched.At least three screw 8 along the outer circular edge of eccentric end cap 5, on the outside end face with airtight off-centre half hole 42 that is fixed on the pump housing 4 of eccentric end cap 5 shimmings 54.

The back side of compensating disc 6 has positioning hole 67 and locating stud 7 to be slidingly matched, and locating stud 7 is fixedlyed connected with eccentric end cap 5, thereby compensating disc 6 can only be made axial slip with respect to eccentric end cap 5." O " type circle in all " O " type ring recess plays the motive sealing effect at position of living in.

During work, external force drives rotor shaft 1 rotation by shaft with keyway section 12, stirs then from rotor 2 rotations.From both rotating center deviation distances of rotor 2 and rotor shaft 1 is t, three five equilibrium cambered surface active sections 13 of rotor shaft 1 and from producing three axially extended sealing strips between four five equilibrium cambered surfaces of rotor 2 synchronously, in conjunction with the horizontal frontal plane of bottom surface 40, eccentric half hole and compensating disc 6, constitute A, B and three dynamic spaces of C.During rotation, A, B and three dynamic spaces of C along with rotation will become a big side gradually and be crescent shape suction inlet 47, lead to import 46; One side that will diminish gradually along with rotation of A, B and three dynamic spaces of C is a crescent shape row mouth 48, leads to outlet 49.Rotor shaft 1 rotation continuously orders about A, B and three dynamic spaces of C and goes round and begins again and finish suction, row's work.

The beneficial effects of the utility model are: rotor shaft 1 and produce three axially extended sealing strips synchronously from rotor 2, support rebounding force by means of pagoda shape spring 9, horizontal frontal plane one side of compensating disc 6 is close to the exterior edge face of two rotors all the time, forces the inner end of two rotors also to be close to bottom surface, eccentric half hole 40 then.Constitute A, B and three dynamic spaces of C have possessed end wear sealing compensation and gauge wear sealing compensation simultaneously, realize being in good movable isolating seal state for a long time between hyperbaric chamber and the low-pressure cavity.

Description of drawings

Fig. 1 is the sectional drawing of the utility model integral body by axis;

Fig. 2 is the sectional drawing in W-W cross section among Fig. 1;

Fig. 3 is that inner rotor shaft 1 produces the relative position relation of three dynamic spaces synchronously with respect to being in operation from rotor 2;

Fig. 4 is with respect to Fig. 3, and rotor shaft 1 is around central axis O ₂Be rotated counterclockwise 40 the degree, from rotor 2 around eccentric axis O ₁Be rotated counterclockwise 30 the degree after relative position relation;

Fig. 5 is with respect to Fig. 3, and rotor shaft 1 is around central axis O ₂Be rotated counterclockwise 80 the degree, from rotor 2 around eccentric axis O ₁Be rotated counterclockwise 60 the degree after relative position relation;

Fig. 6 is with respect to Fig. 3, and rotor shaft 1 is around central axis O ₂Be rotated counterclockwise 120 the degree, from rotor 2 around eccentric axis O ₁Be rotated counterclockwise 90 the degree after relative position relation;

Fig. 7 is with respect to Fig. 3, and rotor shaft 1 is around central axis O ₂Be rotated counterclockwise 180 the degree, from rotor 2 around eccentric axis O ₁Be rotated counterclockwise 135 the degree after relative position relation;

Fig. 8 is with respect to Fig. 3, and rotor shaft 1 is around central axis O ₂Be rotated counterclockwise 240 the degree, from rotor 2 around eccentric axis O ₁Be rotated counterclockwise 180 the degree after relative position relation;

Fig. 9 is with respect to Fig. 3, and rotor shaft 1 is around central axis O ₂Be rotated counterclockwise 360 the degree, from rotor 2 around eccentric axis O ₁Be rotated counterclockwise 270 the degree after relative position relation;

Figure 10 is with respect to Fig. 3, and rotor shaft 1 is around central axis O ₂Be rotated counterclockwise 480 the degree, from rotor 2 around eccentric axis O ₁Be rotated counterclockwise 360 the degree after relative position relation.

Figure 11 is the perspective view of rotor shaft 1.

Figure 12 is a rotor shaft 1 and from the camberline construction drawing of rotor 2.

Embodiment

In conjunction with the accompanying drawings and embodiments, further structure of the present utility model and working principle are elaborated.

A kind of three-way synchromesh spring compensation unipump, comprise the pump housing 4 and be installed in the rotor shaft 1 on the central through bore 41 of the pump housing 4 and be installed on off-centre half hole 42 of the pump housing 4 from rotor 2, there is eccentric end cap 5 42 exterior edge faces, eccentric half hole, described from rotor 2 the exterior edge face and eccentric end cap 5 between have the horizontal frontal plane of compensating disc 6 pasting from the exterior edge face of rotor 2.Locating stud 7 slip fixed compensation dishes 6 circumferential positions with respect to eccentric end cap 5, the microcephaly of pagoda shape spring 9 is supported on the inboard boss 59, and big head rest the back side re-entrant angle 69 of compensating disc 6.

Central through bore on the pump housing 4 is with " O " type ring recess, the central axis O of central through bore 41 for 41 li ₂Eccentric axis O with off-centre half hole 42 ₁Between eccentric distance t, crescent shape suction inlet 47 UNICOMs on the bottom surface, eccentric half hole 40 import 46, another crescent shape row mouthful 48 UNICOMs outlet 49.

Earlier with the shaft with keyway section 12 of rotor shaft 1 from bottom surface, off-centre half hole 40 1 sides, pass central through bore 41 and be slidingly matched with it, the inner end of three five equilibrium cambered surface active sections 13 is pasting bottom surface, eccentric half hole 40.To be placed in eccentric half hole 42 from rotor 2 and be slidingly matched, also paste bottom surface, eccentric half hole 40, make the central axis O of rotor shaft 1 from the inner end of rotor 2 ₂With eccentric axis O from rotor 2 ₁Between eccentric distance t.From no keyway shaft part 11 1 ends, load onto compensating disc 6 successively again, locating stud 7 and pagoda shape spring 9 are fixed on the back side of eccentric end cap 5, at last with eccentric end cap 5 shimmings 54, with the outer circular edge of four screws 8, on the outside end face in airtight off-centre half hole 42 that is fixed on the pump housing 4 along eccentric end cap 5.

" O " type circle in all " O " type ring recess plays the motive sealing effect at position of living in.

During work, external force drives rotor shaft 1 rotation by shaft with keyway section 12, then stir from rotor 2 rotations, from both rotating center deviation distances of rotor 2 and rotor shaft 1 is t, three five equilibrium cambered surface active sections 13 of rotor shaft 1 and from producing three axially extended sealing strips between four five equilibrium cambered surfaces of rotor 2 synchronously, in conjunction with the horizontal frontal plane of bottom surface 40, eccentric half hole and compensating disc 6, constitute A, B and three dynamic spaces of C.During rotation, A, B and three dynamic spaces of C along with rotation will become a big side gradually and be crescent shape suction inlet 47, lead to import 46; One side that will diminish gradually along with rotation of A, B and three dynamic spaces of C is a crescent shape row mouth 48, leads to outlet 49.Rotor shaft 1 rotation continuously orders about A, B and three dynamic spaces of C and goes round and begins again and finish suction, row's work.

Among Figure 12, illustrate rotor shaft 1 and from the camberline working process of rotor 2 by means of CAD:

Setting-out X of elder generation and vertical with it line Y1 and line Y2, intersection point is respectively O ₁, O ₂, O ₁With O ₂Be 6mm at a distance of get eccentric distance t distance here for eccentric distance t.;

With O ₁Be the center of circle, R1 is that radius is made basic circle R1.Here getting the R1 radius is 60mm;

An intersection point with basic circle R1 and line X is the center of circle, and R2 is that radius is made arc section R2, again with O ₁Be the center of circle, with arc section R2 around O ₁Quartering annular display.Here getting the R2 radius is 40mm;

The distance that is extended to R3 with the intersection point of arc section R2 and line X is the center of circle, is that the intersection point that radius is crossed arc section R2 and line X is made arc section R3 with R3, again with O ₂Be the center of circle, with arc section R3 around O ₂Trisection annular display.Here getting the R3 radius is 120mm;

Choose two arc section R3 and an arc section R2 respectively, the three-way tangent arc section R4 that does gets the R4 radius here and is approximately 4.7mm;

With R5 is that radius is made two adjacent arc section R2 of arc section R5 connection respectively, and the R5 radius is 32mm here.

Article three, three point of contact alternately producing synchronously with four arc section R2 of arc section R4 are crossed point of contact and are formed three axially extended sealing strips, constitute A, B and three dynamic spaces of C.Even after using uniform wear for a long time, three point of contact that produce synchronously form three axially extended sealing strips can guarantee that still three axially extended sealing strips form synchronously, and that guarantees three dynamic spaces radially is in effective sealing all the time.

The both ends of the surface width of three five equilibrium cambered surface active sections 13 of rotor shaft 1 equates consistent with size from the both ends of the surface width of rotor 2, here getting the both ends of the surface width all is 50mm, the inner end of two rotors is all pasting bottom surface, eccentric half hole 40, and the horizontal frontal plane of compensating disc 6 is pasting the exterior edge face of two rotors simultaneously.The support rebounding force that is supported on the inboard boss 59 of eccentric end cap 5 by means of pagoda shape spring 9 and is asking the back side of compensating disc 6 to produce, the horizontal frontal plane of compensating disc 6 is close to the exterior edge face of two rotors all the time, then force the inner end of two rotors also to be close to bottom surface, eccentric half hole 40, guarantee that the end face slip of three dynamic spaces is in effective sealing all the time.

At last, it is also to be noted that what more than enumerate only is a specific embodiment of the present utility model.Obviously, the utility model is not limited to above embodiment, and many distortion can also be arranged.All distortion that those of ordinary skill in the art can directly derive or associate from the disclosed content of the utility model all should be regarded as protection domain of the present utility model.

Claims

1. a three-way synchromesh spring compensates unipump, comprise the pump housing (4) and be installed in the rotor shaft (1) on the central through bore (41) of the pump housing (4) and be installed on off-centre half hole (42) of the pump housing (4) from rotor (2), exterior edge face, eccentric half hole (42) has eccentric end cap (5) next airtight fixing with at least three screw (8), it is characterized in that: the horizontal frontal plane of compensating disc (6) is being pasted in described exterior edge face from rotor (2), and locating stud (7) and pagoda shape spring (9) are arranged between the back side of compensating disc (6) and the eccentric end cap (5).

2. a kind of three-way synchromesh spring compensation unipump according to claim 1, it is characterized in that: " O " type ring recess is with in central through bore (41) lining on the described pump housing (4), eccentric distance t between the central axis in the central axis of central through bore (41) and eccentric half hole (42), crescent shape suction inlet (47) UNICOM on the eccentric bottom surface, half hole (40) import (46), and another crescent shape row mouthful (48) UNICOM outlet (49).

3. a kind of three-way synchromesh spring compensation unipump according to claim 1, it is characterized in that: described rotor shaft (1) comprises three five equilibrium cambered surface active sections (13) and does not have keyway shaft part (11) and shaft with keyway section (12), the inner end of three five equilibrium cambered surface active sections (13) is pasting bottom surface, eccentric half hole (40), and the exterior edge face of three five equilibrium cambered surface active sections (13) is being pasted by the horizontal frontal plane of compensating disc (6).

4. a kind of three-way synchromesh spring compensation unipump according to claim 1, it is characterized in that: describedly comprise complete section of four five equilibrium cambered surfaces from rotor (2), the width of full section both ends of the surface is equal with the size of the both ends of the surface width of three five equilibrium cambered surface active sections (13) consistent.

5. a kind of three-way synchromesh spring compensation unipump according to claim 1, it is characterized in that: eccentric distance t between the central axis of band " O " the type ring recess through hole (61) on the compensating disc (6) and the central axis of band " O " type ring recess cylindrical (62), the outer ring that can hold pagoda shape spring (9) in the back side re-entrant angle (69) of compensating disc (6), the inner ring of pagoda shape spring 9 is enclosed within on the inboard boss 59 of eccentric end cap 5, and the eccentric positioning hole (67) of compensating disc (6) is slidingly matched with locating stud (7).

6. a kind of three-way synchromesh spring compensation unipump according to claim 1, it is characterized in that: the central axis of described rotor shaft (1) and from eccentric distance t between the central axis of rotor (2), three five equilibrium cambered surface active sections of rotor shaft (1) and from producing three point of contact between four five equilibrium cambered surfaces of rotor (2) synchronously, cross point of contact and form three axially extended sealing strips, in conjunction with the horizontal frontal plane of bottom surface, eccentric half hole (40) and compensating disc (6), constitute A, B and three dynamic spaces of C.