CN204267286U - A kind of screw rod of screw vacuum pump - Google Patents
A kind of screw rod of screw vacuum pump Download PDFInfo
- Publication number
- CN204267286U CN204267286U CN201420715060.7U CN201420715060U CN204267286U CN 204267286 U CN204267286 U CN 204267286U CN 201420715060 U CN201420715060 U CN 201420715060U CN 204267286 U CN204267286 U CN 204267286U
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- CN
- China
- Prior art keywords
- spiral chute
- vacuum pump
- pitch
- screw
- upper spiral
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn - After Issue
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Abstract
The utility model provides a kind of screw rod of screw vacuum pump, belongs to vacuum pump technology field.It solve the problem that the warm-up times of existing screw vacuum pump is long.The screw rod of this screw vacuum pump comprises the cylindrical body of rod, the outer side surface of the body of rod has a spiral chute, and in surface blending portion, the spiral fluted number of turns is 0.04 ~ 0.375 circle.The vacuum pump of this varying pitch screw is adopted to confirm compared with prior art at least can shorten warm-up times more than 40% by a large amount of tests.Be connected by surface blending portion between suction unit and exhaust portion, make the spiral chute in suction unit and the spiral chute gentle transition in exhaust portion, screw rod can be made more easily to manufacture, effectively ensure the stability that vacuum pump runs again.Shorten the length of compression transition part simultaneously significantly, do not reducing the situation of screw spiral number of total coils, the length of screw rod can be shortened, and then vacuum pump volume can be made less.
Description
Technical field
The utility model belongs to vacuum pump technology field, relates to a kind of screw vacuum pump, particularly a kind of screw rod of screw vacuum pump.
Background technique
Screw vacuum pump has long and convenience of maintenance period, environmental protection, highly reliable, high efficiency and the easy advantage such as manipulation, and thus refer and synthesize in a lot of technique, screw vacuum pump replacement water ring vaccum pump, sliding valve vacuum pump, other wet vacuum pump become inexorable trend.
Claimant once proposed a kind of dry screw vacuum pump varying pitch screw, and be documented in (application publication number: CN102937094A) in Chinese patent literature, adopt the vacuum pump of this screw rod relatively to provide the optimal selection of energy requirement, noise, internal operating temperature, structure space and manufacturing expense with vacuum pump before, also there is application advantage comparatively widely.In actual production, client thinks that the warm-up times of above-mentioned vacuum pump is long, affects manufacturing efficiency, and then claimant wishes to shorten warm-up times.
Summary of the invention
The utility model proposes a kind of screw rod of screw vacuum pump, the technical problems to be solved in the utility model how to shorten the warm-up times of screw vacuum pump.
The technical problem that will solve of the present utility model realizes by following technical proposal:
The screw rod of this screw vacuum pump, comprise the cylindrical body of rod, the outer side surface of the body of rod has a spiral chute, spiral fluted two-port lays respectively in the both ends of the surface of the body of rod, one end of the body of rod is suction unit, and the other end is exhaust portion, and in suction unit, spiral fluted pitch is constant, in exhaust portion, spiral fluted pitch is constant, and in exhaust portion, spiral fluted pitch is less than spiral fluted pitch in suction unit; There is between suction unit and exhaust portion surface blending portion; In surface blending portion, spiral chute one end connects with spiral chute in suction unit, and the other end connects with spiral chute in suction unit, and in surface blending portion, spiral chute passes through, and pitch is non-linear gradual to be reduced; In surface blending portion, the spiral fluted number of turns is 0.04 ~ 0.375 circle.
Be connected by the surface blending portion compared with minor spiral angle between the suction unit of the screw rod of this screw vacuum pump and exhaust portion; Shorten passage of heat length significantly; And then effectively shorten warm-up times.
The screw rod of this screw vacuum pump is integral type structure, adopts metal forging pole to process, and avoids the problem such as cause material uneven, porose and loose of casting that the screw rod that processes exists.Also avoid split manufacture simultaneously and cause manufacture difficulty and assembling difficulty is high, precision is difficult to ensure card and the problem such as the difficult control in gap.
In the screw rod of above-mentioned screw vacuum pump, in described surface blending portion, spiral chute looping curve non-linear change tendencies meets following formula:
Wherein: t
1for the spiral fluted number of turns in suction unit; t
2for the spiral fluted number of turns in surface blending portion;
p
1for spiral fluted pitch on air input part; P is spiral fluted pitch in exhaust portion.
In the screw rod of above-mentioned screw vacuum pump, in described surface blending portion, spiral chute pitch non-linear change tendencies meets following formula:
Wherein: t
1for the spiral fluted number of turns in suction unit; t
2for the spiral fluted number of turns in surface blending portion;
p
1for spiral fluted pitch on air input part; P is spiral fluted pitch in exhaust portion.
In surface blending portion, in spiral chute looping curve non-linear change tendencies and surface blending portion, spiral chute pitch non-linear change tendencies also can adopt following proposal to replace: in described surface blending portion, spiral chute looping curve non-linear change tendencies meets following formula:
Wherein: t
1for the spiral fluted number of turns in suction unit; t
2for the spiral fluted number of turns in surface blending portion;
p
1for spiral fluted pitch on air input part; P is spiral fluted pitch in exhaust portion.
In above-mentioned dry screw vacuum pump varying pitch screw, in described surface blending portion, spiral chute pitch non-linear change tendencies meets following formula:
Wherein: t
1for the spiral fluted number of turns in suction unit; t
2for the spiral fluted number of turns in surface blending portion;
p
1for spiral fluted pitch on air input part; P is spiral fluted pitch in exhaust portion.
In the screw rod of above-mentioned screw vacuum pump, described spiral fluted spiral number of total coils is more than or equal to 5 circles, and in suction unit, spiral fluted is wound around the number of turns is 1 ~ 3 circle.
The vacuum pump of this varying pitch screw is adopted to confirm compared with prior art at least can shorten warm-up times more than 40% by a large amount of tests.
Be connected by surface blending portion between suction unit and exhaust portion, make the spiral chute in suction unit and the spiral chute gentle transition in exhaust portion, screw rod can be made more easily to manufacture, effectively ensure the stability that vacuum pump runs again.Shorten the length in surface blending portion simultaneously significantly, do not reducing the situation of screw spiral number of total coils, the length of screw rod can be shortened, and then vacuum pump volume can be made less.
Accompanying drawing explanation
Fig. 1 is the structural representation of the screw rod of this screw vacuum pump.
Fig. 2 is the axial position of the screw rod of this screw vacuum pump and the relationship change schematic diagram being wound around the number of turns.
Fig. 3 is the pitch of the screw rod of this screw vacuum pump and the relationship change schematic diagram being wound around the number of turns.
In figure, 1, the body of rod; 2, spiral chute; 3, suction unit; 4, surface blending portion; 5, exhaust portion.
Embodiment
Be below specific embodiment of the utility model and by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiments.
As shown in Figure 1, the screw rod of this screw vacuum pump comprises the cylindrical body of rod 1, the outer side surface of the body of rod 1 has a spiral chute 2, the two-port of spiral chute 2 lays respectively in the both ends of the surface of the body of rod 1, one end of the body of rod 1 is suction unit 3, and the other end is exhaust portion 5, and in suction unit 3, the pitch of spiral chute 2 is constant, in exhaust portion 5, the pitch of spiral chute 2 is constant, and in exhaust portion 5, the pitch of spiral chute 2 is less than the pitch of spiral chute 2 in suction unit 3; There is between suction unit 3 and exhaust portion 5 surface blending portion 4; In surface blending portion 4, spiral chute 2 one end connects with spiral chute 2 in suction unit 3, and the other end connects with spiral chute 2 in suction unit 3, and in surface blending portion 4, spiral chute 2 passes through, and pitch is non-linear gradual to be reduced.
The screw rod of this screw vacuum pump is integral type structure, adopts metal forging pole to process.
Spiral fluted spiral number of total coils is 5 circles, and in suction unit 3, the winding number of turns of spiral chute 2 is 1 circle; In surface blending portion 4, the number of turns of spiral chute 2 is 0.04 circle; In exhaust portion 5, the winding number of turns of spiral chute 2 is 3.96 circles.
W in Fig. 2 represents the length of screw rod, and t represents the winding number of turns of spiral chute 2.In surface blending portion 4, spiral chute 2 looping curve non-linear change tendencies meets following formula:
Wherein: c is the reduced overall ratio of dry screw vacuum pump, namely
p
1for the pitch of spiral chute on air input part 2; P is the pitch of spiral chute 2 in exhaust portion 5; As preferred 1.5≤c≤10.
As shown in Figure 3, the w ' in Fig. 3 represents the pitch of spiral chute 2, and t represents the winding number of turns of spiral chute 2.In surface blending portion 4, spiral chute 2 pitch non-linear change tendencies meets following formula:
Wherein: c is the reduced overall ratio of dry screw vacuum pump, namely
p
1for the pitch of spiral chute on air input part 2; P is the pitch of spiral chute 2 in exhaust portion 5.
Embodiment two
The present embodiment with the structure of embodiment one and principle substantially identical, different place is: spiral fluted spiral number of total coils is 6 circles; In suction unit 3, the winding number of turns of spiral chute 2 is 1.5 circles; In surface blending portion 4, the number of turns of spiral chute 2 is 0.25 circle; In exhaust portion 5, the winding number of turns of spiral chute 2 is 4.25 circles.
In surface blending portion 4, spiral chute 2 looping curve non-linear change tendencies meets following formula:
Wherein: c is the reduced overall ratio of screw vacuum pump, namely
p
1for the pitch of spiral chute on air input part 2; P is the pitch of spiral chute 2 in exhaust portion 5.
In surface blending portion 4, spiral chute 2 pitch non-linear change tendencies meets following formula:
Wherein: c is the reduced overall ratio of screw vacuum pump, namely
p
1for the pitch of spiral chute on air input part 2; P is the pitch of spiral chute 2 in exhaust portion 5.
Embodiment three
The present embodiment with the structure of embodiment one and principle substantially identical, different place is: spiral fluted spiral number of total coils is 7 circles; In suction unit 3, the winding number of turns of spiral chute 2 is 2 circles.In surface blending portion 4, the number of turns of spiral chute 2 is 0.375 circle.In exhaust portion 5, the winding number of turns of spiral chute 2 is 4.625 circles.
In surface blending portion 4, spiral chute 2 looping curve non-linear change tendencies meets following formula:
Wherein: c is the reduced overall ratio of screw vacuum pump, namely
p
1for the pitch of spiral chute on air input part 2; P is the pitch of spiral chute 2 in exhaust portion 5.
In surface blending portion 4, spiral chute 2 pitch non-linear change tendencies meets following formula:
Embodiment four
The present embodiment with the structure of embodiment three and principle substantially identical, different place is: in surface blending portion 4, spiral chute 2 looping curve non-linear change tendencies meets following formula:
In surface blending portion 4, spiral chute 2 pitch non-linear change tendencies meets following formula:
Claims (7)
1. the screw rod of a screw vacuum pump, comprise the cylindrical body of rod (1), the outer side surface of the body of rod (1) has a spiral chute (2), the two-port of spiral chute (2) lays respectively in the both ends of the surface of the body of rod (1), one end of the body of rod (1) is suction unit (3), the other end is exhaust portion (5), the pitch of the upper spiral chute (2) of suction unit (3) is constant, the pitch of the upper spiral chute (2) of exhaust portion (5) is constant, the pitch of the upper spiral chute (2) of exhaust portion (5) is less than the pitch of the upper spiral chute (2) of suction unit (3), there is between suction unit (3) and exhaust portion (5) surface blending portion (4), upper spiral chute (2) one end, surface blending portion (4) connects with the upper spiral chute (2) of suction unit (3), the other end connects with the upper spiral chute (2) of suction unit (3), and surface blending portion (4) upper spiral chute (2) passes through, and pitch is non-linear gradual to be reduced, it is characterized in that, the number of turns of surface blending portion (4) upper spiral chute (2) is 0.04 ~ 0.375 circle.
2. the screw rod of screw vacuum pump according to claim 1, is characterized in that, the screw rod of this screw vacuum pump is integral type structure, adopts metal forging pole to process.
3. the screw rod of screw vacuum pump according to claim 1, is characterized in that, upper spiral chute (2) the looping curve non-linear change tendencies of described surface blending portion (4) meets following formula:
Wherein: t
1for the number of turns of the upper spiral chute (2) of suction unit (3); t
2for the number of turns of surface blending portion (4) upper spiral chute (2);
p
1for the pitch of spiral chute on air input part (2); P is the pitch of the upper spiral chute (2) of exhaust portion (5).
4. the screw rod of screw vacuum pump according to claim 3, is characterized in that, upper spiral chute (2) the pitch non-linear change tendencies of described surface blending portion (4) meets following formula:
t
1≤t≤t
1+t
2;
Wherein: t
1for the number of turns of the upper spiral chute (2) of suction unit (3); t
2for the number of turns of surface blending portion (4) upper spiral chute (2);
p
1for the pitch of spiral chute on air input part (2); P is the pitch of the upper spiral chute (2) of exhaust portion (5).
5. the screw rod of screw vacuum pump according to claim 1, is characterized in that, upper spiral chute (2) the looping curve non-linear change tendencies of described surface blending portion (4) meets following formula:
Wherein: t
1for the number of turns of the upper spiral chute (2) of suction unit (3); t
2for the number of turns of surface blending portion (4) upper spiral chute (2);
p
1for the pitch of spiral chute on air input part (2); P is the pitch of the upper spiral chute (2) of exhaust portion (5).
6. the screw rod of screw vacuum pump according to claim 5, is characterized in that, upper spiral chute (2) the pitch non-linear change tendencies of described surface blending portion (4) meets following formula:
Wherein: t
1for the number of turns of the upper spiral chute (2) of suction unit (3); t
2for the number of turns of surface blending portion (4) upper spiral chute (2);
p
1for the pitch of spiral chute on air input part (2); P is the pitch of the upper spiral chute (2) of exhaust portion (5).
7. the screw rod of the screw vacuum pump according to any one in claim 1 to 6, it is characterized in that, the spiral number of total coils of spiral chute (2) is more than or equal to 5 circles, and the winding number of turns of the upper spiral chute (2) of suction unit (3) is 1 ~ 3 circle.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420715060.7U CN204267286U (en) | 2014-11-25 | 2014-11-25 | A kind of screw rod of screw vacuum pump |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420715060.7U CN204267286U (en) | 2014-11-25 | 2014-11-25 | A kind of screw rod of screw vacuum pump |
Publications (1)
Publication Number | Publication Date |
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CN204267286U true CN204267286U (en) | 2015-04-15 |
Family
ID=52802157
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201420715060.7U Withdrawn - After Issue CN204267286U (en) | 2014-11-25 | 2014-11-25 | A kind of screw rod of screw vacuum pump |
Country Status (1)
Country | Link |
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CN (1) | CN204267286U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104454523A (en) * | 2014-11-25 | 2015-03-25 | 巫修海 | Screw of vacuum screw pump |
CN105952641A (en) * | 2016-07-11 | 2016-09-21 | 中国石油大学(华东) | Three-section type screw rotor and twin-screw vacuum pump comprising same |
-
2014
- 2014-11-25 CN CN201420715060.7U patent/CN204267286U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104454523A (en) * | 2014-11-25 | 2015-03-25 | 巫修海 | Screw of vacuum screw pump |
CN105952641A (en) * | 2016-07-11 | 2016-09-21 | 中国石油大学(华东) | Three-section type screw rotor and twin-screw vacuum pump comprising same |
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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: 20150415 Effective date of abandoning: 20160720 |
|
C25 | Abandonment of patent right or utility model to avoid double patenting |