CN103758753B - Six blade differential pumps that a kind of Bath main officer of Tibet noncircular gear drives - Google Patents
Six blade differential pumps that a kind of Bath main officer of Tibet noncircular gear drives Download PDFInfo
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- CN103758753B CN103758753B CN201410039905.XA CN201410039905A CN103758753B CN 103758753 B CN103758753 B CN 103758753B CN 201410039905 A CN201410039905 A CN 201410039905A CN 103758753 B CN103758753 B CN 103758753B
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- bath main
- noncircular gear
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- 239000007788 liquid Substances 0.000 claims abstract description 100
- 230000021615 conjugation Effects 0.000 claims abstract description 61
- 230000006837 decompression Effects 0.000 claims abstract description 17
- 238000009434 installation Methods 0.000 claims description 11
- 238000006073 displacement reaction Methods 0.000 claims description 8
- 230000008878 coupling Effects 0.000 claims description 5
- 238000010168 coupling process Methods 0.000 claims description 5
- 238000005859 coupling reaction Methods 0.000 claims description 5
- 238000000034 method Methods 0.000 claims description 4
- 230000010349 pulsation Effects 0.000 abstract description 4
- 230000005540 biological transmission Effects 0.000 description 3
- 238000005457 optimization Methods 0.000 description 3
- 238000010586 diagram Methods 0.000 description 2
- 238000005213 imbibition Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000007596 consolidation process Methods 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 230000007812 deficiency Effects 0.000 description 1
- 238000007789 sealing Methods 0.000 description 1
- 230000006641 stabilisation Effects 0.000 description 1
- 238000011105 stabilization Methods 0.000 description 1
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Abstract
The invention discloses six blade differential pumps that a kind of Bath main officer of Tibet noncircular gear drives.Existing differential pump is difficult to optimize the problem such as pressure pulsation, tired liquid.First Bath main officer of Tibet noncircular gear of the present invention and the second Bath main officer of Tibet noncircular gear are all fixed with input shaft; First conjugation Bath main officer of Tibet noncircular gear and the first impeller are all fixed with output shaft, and the first conjugation Bath main officer of Tibet noncircular gear engages with the first Bath main officer of Tibet noncircular gear; Second conjugation Bath main officer of Tibet noncircular gear and the second impeller are cemented on axle sleeve, and axle sleeve kink is on output shaft; Pump case along the circumferential direction offers the first liquid port, the first liquid sucting port, the second liquid port, the second liquid sucting port, the 3rd liquid port and the 3rd liquid sucting port successively; First impeller and the second impeller are equipped with three blades, and all blade interior are all provided with a unidirectional Decompression valves.Discharge capacity of the present invention is large, stability of flow, and variable speed rule easily adjusts, and effectively solves tired liquid problem.
Description
Technical field
The invention belongs to displacement pump technical field, relate to blade differential pump, be specifically related to six blade differential pumps that a kind of Bath main officer of Tibet noncircular gear drives.
Background technique
The liquid pump that universal machine is conventional has reciprocating pump, plunger pump, diaphragm pump, roller pump and centrifugal pump, wherein: live (post) fills in pump higher outlet pressure, but require that the sealing between piston and cylinder barrel is reliable, and pressure surge is large; Diaphragm pump can produce a more stable liquid stream when multi-cylinder, but complex structure; Roller pump delivery is uniform when stabilization of speed, and along with the raising of pressure, leakage rate increases, the lifting rate of pump and the corresponding reduction of efficiency; Centrifugal pump structure is simple, easily manufactures, but its discharge capacity is large, and pressure is low, for the less demanding occasion of working pressure.There is respective defect in these pumps, can't meet the constant flow rate of part special mechanical requirement, the demand of high pressure well.
Existing differential pump mainly contains following several according to the difference of driving mechanism:
Rotating guide-bar-gear type blade differential pump, its drive system bears alternate load, produces gear tooth noise, and also can cause impact noise when each pair clearance is larger.
Universal-joint gear wheel mechanism drive vane differential pump, the input shaft of its universal joint mechanism and the angle of output shaft are the key parameters affecting pump performance.This angle is larger, and pump delivery is also larger, but along with the increase at this angle, the flow pulsation aggravation of pump and the transmission efficiency of universal joint reduce.
Distortion eccentric circle noncircular gear drive vane differential pump, its eccentric circle non-circular gear pitch curve adjustment parameter mainly eccentricity and deformation coefficient, adjustment amount is limited, Adjustment precision is not high, cause velocity ratio optimization, adjustment inconvenience, design dumb, be unfavorable for further optimal design, be difficult to optimize the problem such as pressure pulsation, tired liquid.
Summary of the invention
The object of the invention is for the deficiencies in the prior art, six blade differential pumps that a kind of Bath main officer of Tibet noncircular gear drives be provided, this blade differential pump displacement is large, pressure is high, stability of flow, compact structure; Bath main officer of Tibet non-circular gear pitch curve has six to adjust parameter, and the variable speed rule of its driving mechanism easily adjusts, convenient function optimization; By installing unidirectional Decompression valves in blade, during pressure limit, getting through contiguous enclosed cavity, effectively solving existing differential pump and being stranded liquid problem.
The present invention includes driver part and differential pump parts.
Described driver part comprises driving gearbox, input shaft, output shaft, the first Bath main officer of Tibet noncircular gear, the second Bath main officer of Tibet noncircular gear, the first conjugation Bath main officer of Tibet noncircular gear, the second conjugation Bath main officer of Tibet noncircular gear and axle sleeve; Motor is connected with input shaft by coupling, and input shaft passes through two bearings in the two side of driving gearbox; The first described Bath main officer of Tibet noncircular gear and the second Bath main officer of Tibet noncircular gear are all fixedly mounted on input shaft; The two ends of output shaft are respectively by bearings on the tank wall of driving gearbox and pump case, and the first conjugation Bath main officer of Tibet noncircular gear is arranged on output shaft, and engages with the first Bath main officer of Tibet noncircular gear; Second conjugation Bath main officer of Tibet noncircular gear and the second impeller are all cemented on axle sleeve, and axle sleeve kink is on output shaft, and the second conjugation Bath main officer of Tibet noncircular gear engages with the second Bath main officer of Tibet noncircular gear.
Described differential pump parts comprise pump case, the first impeller, the second impeller and unidirectional Decompression valves; Described pump case along the circumferential direction offers the first liquid port, the first liquid sucting port, the second liquid port, the second liquid sucting port, the 3rd liquid port and the 3rd liquid sucting port successively; First liquid port, the second liquid port and the 3rd liquid port are uniformly distributed along the circumference, and the first liquid sucting port, the second liquid sucting port and the 3rd liquid sucting port are uniformly distributed along the circumference; First impeller is fixed on output shaft; The first described impeller and the second impeller are uniformly distributed with three blades along the circumference, and the outer arced surface of every sheet blade and the inwall of pump case are fitted; Along the circumferential direction, the blade of the first impeller and the alternate setting of blade of the second impeller, all form an enclosed cavity between every adjacent two panels blade; All blade interior are all provided with a unidirectional Decompression valves, and two of unidirectional Decompression valves is communicated with the enclosed cavity of these blade both sides respectively, and all unidirectional Decompression valves directions are consistent with wheel rotation direction.
Parameter and the structure of the first described Bath main officer of Tibet noncircular gear and the second Bath main officer of Tibet noncircular gear are completely the same, parameter and the structure of the first conjugation Bath main officer of Tibet noncircular gear and the second conjugation Bath main officer of Tibet noncircular gear are completely the same, and the first Bath main officer of Tibet noncircular gear, the second Bath main officer of Tibet noncircular gear, the first conjugation Bath main officer of Tibet noncircular gear and the second conjugation Bath main officer of Tibet noncircular gear are three rank noncircular gears; The initial installation phase difference of the initial installation phase difference of the first Bath main officer of Tibet noncircular gear and the second Bath main officer of Tibet noncircular gear, the first conjugation Bath main officer of Tibet noncircular gear and the second conjugation Bath main officer of Tibet noncircular gear is 60 °.
According to the generating principle of Pascal curve, the pitch curve representation of the first Bath main officer of Tibet noncircular gear is:
Wherein, b is the generation circular diameter of Pascal curve, and l is length, n
1be the exponent number of the first Bath main officer of Tibet noncircular gear, value is 3;
be the corner of the first Bath main officer of Tibet noncircular gear,
it is the corresponding corner of the first Bath main officer of Tibet noncircular gear
radius vector.
First Bath main officer of Tibet noncircular gear and the first conjugation Bath main officer of Tibet noncircular gear are three rank noncircular gears, according to the noncircular gear theory of engagement, during the first Bath main officer of Tibet noncircular gear rotating 360 degrees, the first conjugation Bath main officer of Tibet noncircular gear also rotating 360 degrees, can calculate the iterative of centre distance a:
Get centre distance initial value a
0the search of advance and retreat method is adopted to calculate the exact value of centre distance a.
The velocity ratio of the first Bath main officer of Tibet noncircular gear and the first conjugation Bath main officer of Tibet noncircular gear is:
The velocity ratio of the second Bath main officer of Tibet noncircular gear and the second conjugation Bath main officer of Tibet noncircular gear is:
Wherein, θ is the initial installation phase difference of the first Bath main officer of Tibet noncircular gear and the second Bath main officer of Tibet noncircular gear, and value is 60 °.
Make the velocity ratio i of the first Bath main officer of Tibet noncircular gear and the first conjugation Bath main officer of Tibet noncircular gear
21equal the velocity ratio i of the second Bath main officer of Tibet noncircular gear and the second conjugation Bath main officer of Tibet noncircular gear
43, four different corners can be tried to achieve
corner
get minimum value
time, the angular displacement of the first Bath main officer of Tibet noncircular gear is
the angular displacement of the second Bath main officer of Tibet noncircular gear is
the corner of the first impeller and the second impeller is respectively:
The blade angle θ of the first impeller 12 and the second impeller 13
leafvalue be 25 ° ~ 35 °; The central angle equal and opposite in direction of the first liquid port, the first liquid sucting port, the second liquid port, the second liquid sucting port, the 3rd liquid port and the 3rd liquid sucting port, and than the blade angle θ of blade
leaflittle 2 ~ 5 °.First liquid port centre bit angle setting of pump case
first liquid sucting port centre bit angle setting
second liquid port centre bit angle setting
second liquid sucting port centre bit angle setting
3rd liquid port centre bit angle setting
3rd liquid sucting port centre bit angle setting
The beneficial effect that the present invention has is:
The present invention adopts Bath main officer of Tibet non-circular gear mechanism, Bath main officer of Tibet non-circular gear pitch curve has six to adjust parameter, compare existing distortion eccentric circle noncircular gear adjustable parameter many, therefore Bath main officer of Tibet noncircular gear variable speed transmission rule easily adjusts, and easily realizes the optimization of the performances such as differential pump delivery, pressure, flow.By installing unidirectional Decompression valves in blade, during pressure limit, getting through contiguous enclosed cavity, effectively solving existing differential pump and being stranded liquid problem.The differential pump liquid sucting port driven due to Bath main officer of Tibet non-circular gear mechanism and liquid port are uniformly distributed along the circumference, and radial equilibrium is good, and non-constant speed drive is rotary motion, and reliable, the radial work loads that therefore operates steadily balance, pulsation controllability are good; Blade is many, discharge capacity is large, and simply, volumetric efficiency is high for the internal surface of pump case and blade shape.
Core institution of the present invention is two install the Bath main officer of Tibet noncircular gear of phase place to difference, and parts are few, compact structure.
Accompanying drawing explanation
Fig. 1 is kinematic sketch of mechanism of the present invention;
Fig. 2 is the overall structure sectional view of differential pump parts in the present invention;
Fig. 3 is the meshing relation schematic diagram of Bath main officer of Tibet non-circular gear pitch curve when initial makeup location in the present invention;
Fig. 4 is blade limit position schematic diagram of the present invention.
In figure: 1, driving gearbox, 2, input shaft, 3, output shaft, the 4, first Bath main officer of Tibet noncircular gear, 5, the second Bath main officer of Tibet noncircular gear, 6, the first conjugation Bath main officer of Tibet noncircular gear, the 7, second conjugation Bath main officer of Tibet noncircular gear, 8, axle sleeve, 9, coupling, 10, motor, 11, pump case, 11-1, the first liquid port, 11-2, the first liquid sucting port, 11-3, the second liquid port, 11-4, the second liquid sucting port, 11-5, the 3rd liquid port, 11-6, the 3rd liquid sucting port, 12, the first impeller, the 13, second impeller, 14, unidirectional Decompression valves.
Embodiment
Below in conjunction with drawings and Examples, the invention will be further described.
As illustrated in fig. 1 and 2, six blade differential pumps that a kind of Bath main officer of Tibet noncircular gear drives comprise driver part and differential pump parts.
Driver part comprises driving gearbox 1, input shaft 2, output shaft 3, first Bath main officer of Tibet noncircular gear 4, second Bath main officer of Tibet noncircular gear 5, first conjugation Bath main officer of Tibet noncircular gear 6, second conjugation Bath main officer of Tibet noncircular gear 7 and axle sleeve 8.Input shaft 2 and output shaft 3 are separately positioned on the two ends of gear-box 1; Input shaft 2 is by two bearings in the two side of driving gearbox 1, and power is passed to input shaft 2 by coupling 9 by motor 10, and the first Bath main officer of Tibet noncircular gear 4 and the second Bath main officer of Tibet noncircular gear 5 are all fixedly mounted on input shaft 2; The two ends of output shaft 3 are respectively by bearings on the tank wall of driving gearbox 1 and pump case 11, and the first conjugation Bath main officer of Tibet noncircular gear 6 is fixedly mounted on output shaft 3, and engages with the first Bath main officer of Tibet noncircular gear 4; Second conjugation Bath main officer of Tibet noncircular gear 7 and the second impeller 13 are all cemented on axle sleeve 8, and axle sleeve 8 kink is on output shaft 3; Second conjugation Bath main officer of Tibet noncircular gear 7 engages with the second Bath main officer of Tibet noncircular gear 5.
Differential pump parts comprise pump case 11, first impeller 12, second impeller 13 and unidirectional Decompression valves 14.Pump case 11 along the circumferential direction offers the first liquid port 11-1, the first liquid sucting port 11-2, the second liquid port 11-3, the second liquid sucting port 11-4, the 3rd liquid port 11-5 and the 3rd liquid sucting port 11-6 successively; First liquid port 11-1, the second liquid port 11-3 and the 3rd liquid port 11-5 are uniformly distributed along the circumference, and the first liquid sucting port 11-2, the second liquid sucting port 11-4 and the 3rd liquid sucting port 11-6 are uniformly distributed along the circumference; First impeller 12 is fixedly mounted on output shaft 3; First impeller 12 and the second impeller 13 are uniformly distributed with three blades along the circumference, and the outer arced surface of every sheet blade and the inwall of pump case 11 are fitted; Along the circumferential direction, the blade of the first impeller 12 and the alternate setting of blade of the second impeller 13, all form an enclosed cavity between every adjacent two panels blade; All be provided with a unidirectional Decompression valves 14 in all blades, two of unidirectional Decompression valves 14 is communicated with the enclosed cavity of these blade both sides respectively; The pressure release direction of all unidirectional Decompression valvess 14 is consistent with wheel rotation direction.
As shown in Figure 3, parameter and the structure of the first Bath main officer of Tibet noncircular gear 4 and the second Bath main officer of Tibet noncircular gear 5 are completely the same, parameter and the structure of the first conjugation Bath main officer of Tibet noncircular gear 6 and the second conjugation Bath main officer of Tibet noncircular gear 7 are completely the same, and the first Bath main officer of Tibet noncircular gear 4, second Bath main officer of Tibet noncircular gear 5, first conjugation Bath main officer of Tibet noncircular gear 6 and the second conjugation Bath main officer of Tibet noncircular gear 7 are three rank noncircular gears; The initial installation phase angle of the first Bath main officer of Tibet noncircular gear 4 is θ
1, the initial installation phase angle of the second Bath main officer of Tibet noncircular gear 5 is θ
2; The initial installation phase difference of the first Bath main officer of Tibet noncircular gear 4 and the second Bath main officer of Tibet noncircular gear 5, first conjugation Bath main officer of Tibet noncircular gear 6 and the second conjugation Bath main officer of Tibet noncircular gear 7 is θ
1-θ
2its value is 60 °, the differential realizing the first impeller 12 and the second impeller 13 rotates, make the volume cyclically-varying of differential pump enclosed cavity, produce discharge opeing at the first liquid port 11-1, the second liquid port 11-3 and the 3rd liquid port 11-5, produce imbibition at the first liquid sucting port 11-2, the second liquid sucting port 11-4 and the 3rd liquid sucting port 11-6.Because the non-at the uniform velocity transmission of Bath main officer of Tibet noncircular gear is continuous print, enclosed cavity be in complete airtight time, blade still has differential to rotate, and this will make enclosed cavity pressure exceed limit value, and vicinity enclosed cavity is got through pressure release by unidirectional Decompression valves 14, prevents tired liquid.
The working principle of six blade differential pumps that this Bath main officer of Tibet noncircular gear drives:
Power is passed to the first Bath main officer of Tibet noncircular gear 4 and the second Bath main officer of Tibet noncircular gear 5 by coupling 9 and input shaft 2 by motor 10.First Bath main officer of Tibet noncircular gear 4 engages with the first conjugation Bath main officer of Tibet noncircular gear 6, second Bath main officer of Tibet noncircular gear 5 engages with the second conjugation Bath main officer of Tibet noncircular gear 7, power is passed to the first impeller 12 by output shaft 3 by the first conjugation Bath main officer of Tibet noncircular gear 6, power is passed to the second impeller 13 by axle sleeve 8 by the second conjugation Bath main officer of Tibet noncircular gear 7, axle sleeve 8 and the second conjugation Bath main officer of Tibet noncircular gear 7 consolidation, axle sleeve 8 kink is on output shaft 3.The installation phase place of two pairs of Bath main officer of Tibet noncircular gear pairs is different, and the differential realizing the first impeller 12 and the second impeller 13 rotates, thus realizes imbibition and discharge opeing.
According to the generating principle of Pascal curve, the pitch curve representation of the first Bath main officer of Tibet noncircular gear is:
Wherein, b is the generation circular diameter of Pascal curve, and value is 40mm, l is length, and value is 120mm; n
1be the exponent number of the first Bath main officer of Tibet noncircular gear, value is 3;
be the corner of the first Bath main officer of Tibet noncircular gear,
it is the corresponding corner of the first Bath main officer of Tibet noncircular gear
radius vector.
First Bath main officer of Tibet noncircular gear 4 and the first conjugation Bath main officer of Tibet noncircular gear 6 are three rank noncircular gears, according to the noncircular gear theory of engagement, during the first Bath main officer of Tibet noncircular gear 4 rotating 360 degrees, the first conjugation Bath main officer of Tibet noncircular gear 6 also rotating 360 degrees, can calculate the iterative of centre distance a:
Get centre distance initial value a
0the exact value that=120mm adopts the search of advance and retreat method to calculate centre distance a is 267.8mm.
The velocity ratio of the first Bath main officer of Tibet noncircular gear 4 and the first conjugation Bath main officer of Tibet noncircular gear 6 is:
The velocity ratio of the second Bath main officer of Tibet noncircular gear 5 and the second conjugation Bath main officer of Tibet noncircular gear 7 is:
Wherein, θ is the initial installation phase difference of the first Bath main officer of Tibet noncircular gear and the second Bath main officer of Tibet noncircular gear, and value is 60 °.
Make the velocity ratio i of the first Bath main officer of Tibet noncircular gear 4 and the first conjugation Bath main officer of Tibet noncircular gear 6
21equal the velocity ratio i of the second Bath main officer of Tibet noncircular gear 5 and the second conjugation Bath main officer of Tibet noncircular gear 7
43, four different corners can be tried to achieve
corner
get minimum value
time, the angular displacement of the first Bath main officer of Tibet noncircular gear 4 is
the angular displacement of the second Bath main officer of Tibet noncircular gear 5 is
the corner of the first impeller 12 and the second impeller 13 is respectively:
As shown in Figure 4, the blade angle θ of the first impeller 12 and the second impeller 13
leafvalue be 25 °; The central angle size of the first liquid port, the first liquid sucting port, the second liquid port, the second liquid sucting port, the 3rd liquid port and the 3rd liquid sucting port is all than the blade angle θ of blade
leaflittle 2 °.First liquid port centre bit angle setting of pump case
first liquid sucting port centre bit angle setting
second liquid port centre bit angle setting ψ
row 2=ψ
row 1+ 120 °=173.5 °, the second liquid sucting port centre bit angle setting ψ
inhale 2=ψ
inhale 1+ 120 °=210.5 °, the 3rd liquid port centre bit angle setting ψ
row 3=ψ
row 2+ 120 °=293.5 °, the 3rd liquid sucting port centre bit angle setting ψ
inhale 3=ψ
inhale 2+ 120 °=330.5 °.
Claims (1)
1. six blade differential pumps of Bath main officer of Tibet noncircular gear driving, comprise driver part and differential pump parts, it is characterized in that:
Described driver part comprises driving gearbox, input shaft, output shaft, the first Bath main officer of Tibet noncircular gear, the second Bath main officer of Tibet noncircular gear, the first conjugation Bath main officer of Tibet noncircular gear, the second conjugation Bath main officer of Tibet noncircular gear and axle sleeve; Motor is connected with input shaft by coupling, and input shaft passes through two bearings in the two side of driving gearbox; The first described Bath main officer of Tibet noncircular gear and the second Bath main officer of Tibet noncircular gear are all fixedly mounted on input shaft; The two ends of output shaft are respectively by bearings on the tank wall of driving gearbox and pump case, and the first conjugation Bath main officer of Tibet noncircular gear is arranged on output shaft, and engages with the first Bath main officer of Tibet noncircular gear; Second conjugation Bath main officer of Tibet noncircular gear and the second impeller are all cemented on axle sleeve, and axle sleeve kink is on output shaft, and the second conjugation Bath main officer of Tibet noncircular gear engages with the second Bath main officer of Tibet noncircular gear;
Described differential pump parts comprise pump case, the first impeller, the second impeller and unidirectional Decompression valves; Described pump case along the circumferential direction offers the first liquid port, the first liquid sucting port, the second liquid port, the second liquid sucting port, the 3rd liquid port and the 3rd liquid sucting port successively; First liquid port, the second liquid port and the 3rd liquid port are uniformly distributed along the circumference, and the first liquid sucting port, the second liquid sucting port and the 3rd liquid sucting port are uniformly distributed along the circumference; First impeller is fixed on output shaft; The first described impeller and the second impeller are uniformly distributed with three blades along the circumference, and the outer arced surface of every sheet blade and the inwall of pump case are fitted; Along the circumferential direction, the blade of the first impeller and the alternate setting of blade of the second impeller, all form an enclosed cavity between every adjacent two panels blade; All blade interior are all provided with a unidirectional Decompression valves, and two of unidirectional Decompression valves is communicated with the enclosed cavity of these blade both sides respectively, and all unidirectional Decompression valves directions are consistent with wheel rotation direction;
Parameter and the structure of the first described Bath main officer of Tibet noncircular gear and the second Bath main officer of Tibet noncircular gear are completely the same, parameter and the structure of the first conjugation Bath main officer of Tibet noncircular gear and the second conjugation Bath main officer of Tibet noncircular gear are completely the same, and the first Bath main officer of Tibet noncircular gear, the second Bath main officer of Tibet noncircular gear, the first conjugation Bath main officer of Tibet noncircular gear and the second conjugation Bath main officer of Tibet noncircular gear are three rank noncircular gears; The initial installation phase difference of the initial installation phase difference of the first Bath main officer of Tibet noncircular gear and the second Bath main officer of Tibet noncircular gear, the first conjugation Bath main officer of Tibet noncircular gear and the second conjugation Bath main officer of Tibet noncircular gear is 60 °;
According to the generating principle of Pascal curve, the pitch curve representation of the first Bath main officer of Tibet noncircular gear is:
Wherein, b is the generation circular diameter of Pascal curve, and l is length, n
1be the exponent number of the first Bath main officer of Tibet noncircular gear, value is 3;
be the corner of the first Bath main officer of Tibet noncircular gear,
it is the corresponding corner of the first Bath main officer of Tibet noncircular gear
radius vector;
First Bath main officer of Tibet noncircular gear and the first conjugation Bath main officer of Tibet noncircular gear are three rank noncircular gears, according to the noncircular gear theory of engagement, during the first Bath main officer of Tibet noncircular gear rotating 360 degrees, the first conjugation Bath main officer of Tibet noncircular gear also rotating 360 degrees, can calculate the iterative of centre distance a:
Get centre distance initial value a
0the search of advance and retreat method is adopted to calculate the exact value of centre distance a;
The velocity ratio of the first Bath main officer of Tibet noncircular gear and the first conjugation Bath main officer of Tibet noncircular gear is:
The velocity ratio of the second Bath main officer of Tibet noncircular gear and the second conjugation Bath main officer of Tibet noncircular gear is:
Wherein, θ is the initial installation phase difference of the first Bath main officer of Tibet noncircular gear and the second Bath main officer of Tibet noncircular gear, and value is 60 °;
Make the velocity ratio i of the first Bath main officer of Tibet noncircular gear and the first conjugation Bath main officer of Tibet noncircular gear
21equal the velocity ratio i of the second Bath main officer of Tibet noncircular gear and the second conjugation Bath main officer of Tibet noncircular gear
43, four different corners can be tried to achieve
corner
get minimum value
time, the angular displacement of the first Bath main officer of Tibet noncircular gear is
the angular displacement of the second Bath main officer of Tibet noncircular gear is
the corner of the first impeller and the second impeller is respectively:
The blade angle θ of the first impeller 12 and the second impeller 13
leafvalue be 25 ° ~ 35 °; The central angle equal and opposite in direction of the first liquid port, the first liquid sucting port, the second liquid port, the second liquid sucting port, the 3rd liquid port and the 3rd liquid sucting port, and than the blade angle θ of blade
leaflittle 2 ~ 5 °; First liquid port centre bit angle setting of pump case
first liquid sucting port centre bit angle setting
second liquid port centre bit angle setting
second liquid sucting port centre bit angle setting
3rd liquid port centre bit angle setting
3rd liquid sucting port centre bit angle setting
Priority Applications (1)
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CN201410039905.XA CN103758753B (en) | 2014-01-27 | 2014-01-27 | Six blade differential pumps that a kind of Bath main officer of Tibet noncircular gear drives |
Applications Claiming Priority (1)
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CN201410039905.XA CN103758753B (en) | 2014-01-27 | 2014-01-27 | Six blade differential pumps that a kind of Bath main officer of Tibet noncircular gear drives |
Publications (2)
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CN103758753A CN103758753A (en) | 2014-04-30 |
CN103758753B true CN103758753B (en) | 2016-02-17 |
Family
ID=50526047
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CN201410039905.XA Expired - Fee Related CN103758753B (en) | 2014-01-27 | 2014-01-27 | Six blade differential pumps that a kind of Bath main officer of Tibet noncircular gear drives |
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Family Cites Families (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
FR2455687B1 (en) * | 1979-05-03 | 1986-07-18 | Bermes Robert | ROTARY PUMP, ESPECIALLY FOR FORMING ARTIFICIAL HEART |
JPH0494423A (en) * | 1990-08-11 | 1992-03-26 | Mikio Kurisu | Rotary engine |
CN2555426Y (en) * | 2002-06-16 | 2003-06-11 | 哈尔滨工业大学 | Six-blade differential pump |
CN1270116C (en) * | 2003-07-03 | 2006-08-16 | 孙锦行 | Uniform reciprocating non-circular gear rectilinear motion mechanism |
KR100873043B1 (en) * | 2007-03-30 | 2008-12-09 | 삼성테크윈 주식회사 | Gear case assembly |
CN201068954Y (en) * | 2007-05-08 | 2008-06-04 | 陈纯英 | Gear transmission arrangement and gear |
CN203297094U (en) * | 2013-06-17 | 2013-11-20 | 浙江理工大学 | Differential velocity vane pump driven by incomplete gear mechanisms |
CN203730303U (en) * | 2014-01-27 | 2014-07-23 | 浙江水利水电学院 | Pascal non-circular gear-driven six-blade differential pump |
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2014
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