CN203948315U - A kind of borehole shaft drivenpump - Google Patents
A kind of borehole shaft drivenpump Download PDFInfo
- Publication number
- CN203948315U CN203948315U CN201420271109.4U CN201420271109U CN203948315U CN 203948315 U CN203948315 U CN 203948315U CN 201420271109 U CN201420271109 U CN 201420271109U CN 203948315 U CN203948315 U CN 203948315U
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- CN
- China
- Prior art keywords
- shaft
- hollow shaft
- drivenpump
- borehole
- pump seat
- 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- Withdrawn - After Issue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 relates to a kind of borehole shaft drivenpump, it selects vertical threephase asynchronous to substitute the scheme of long-shaft pump motor special, between motor and pump seat, thrust device is set, be used for the axial force that the weight of bearing pump rotatable parts and when operation produce, thrust device is containing thrust bearing, cooling unit, several large component such as backstop, the technological scheme of this invention can allow motor select can not bear vertical threephase asynchronous and the explosion-proof type vertical machine of axial force, widened the utilization field of borehole shaft drivenpump, expanded its ride quality scope, can provide that the larger flow of high power is more high-lift, make its power range wider, utilization field is more, be conducive to borehole shaft drivenpump to the multi-field development of maximizing.
Description
Technical field
The utility model belongs to hydraulic machinery technical field, is specifically related to a kind of borehole shaft drivenpump.
Background technique
Borehole shaft drivenpump, as a time-honored pump type, has obtained application in many occasions.In recent years, along with the development of pump industry technology, borehole shaft drivenpump has also obtained using widely.But along with the raising of borehole shaft drivenpump performance parameter, flow is increasing, and lift is more and more higher, traditional borehole shaft drivenpump structural type exposes the place of some wretched insufficiencies.
The normally such structural type of traditional borehole shaft drivenpump, mainly comprises four parts: be respectively borehole shaft drivenpump motor special 14, pump seat parts 2, lifting pipe parts 3, workpiece 4 as shown in Figure 3.As can be seen from Figure 3 the axial force, producing during pump operation and the weight of pump rotary component will be born by borehole shaft drivenpump motor special.The axial force producing during water pump operation is relevant with lift of pump, and along with increasing of lift, the axial force producing during pump operation increases.And along with the raising of performance parameter, the weight of pump is also in continuous increase.The pulling force that these factors cause borehole shaft drivenpump motor special to bear is increasing, and the pressure that namely thrust bearing bears is increasing, and bearing heating amount is increasing.Borehole shaft drivenpump motor special is because the reason of structure and bearing cannot be born larger axial force, and borehole shaft drivenpump motor special (YLB type) maximum common on domestic market is only accomplished 400kw.Seriously restricted the large scale development of borehole shaft drivenpump.Current domestic borehole shaft drivenpump motor special is not made explosion-proof type in addition, makes it for fields such as colliery, petroleum gas, petrochemical industry and chemical industry, not limited the Applicable scope of borehole shaft drivenpump yet.The utility model can solve above two large defects.
Summary of the invention
For solving the problems of the technologies described above and defect, the utility model provides a kind of borehole shaft drivenpump, it selects vertical threephase asynchronous to substitute the scheme of borehole shaft drivenpump motor special, make long-shaft pump can use more powerful motor, and can select explosion-proof electric machine, widen the using scope of borehole shaft drivenpump, be conducive to extensively promoting the use and large scale development of borehole shaft drivenpump.
Technological scheme: borehole shaft drivenpump of the present utility model, between motor and pump seat, thrust device is set, is used for the axial force that the weight of bearing pump rotatable parts and when operation produce, thrust device is containing several large component such as thrust bearing, cooling unit, backstops.
Specifically, a kind of borehole shaft drivenpump of the present utility model, it comprises common vertical threephase asynchronous, pump seat parts, lifting pipe parts, workpiece and thrust device, wherein said common vertical threephase asynchronous is contained in thrust device top, described thrust device is contained in described pump seat parts top, described lifting pipe parts are arranged on described pump seat parts bottom, described workpiece is arranged on lifting pipe parts bottom, it is characterized in that, the motor shaft of described common vertical threephase asynchronous and motor coupler are by key transmission, motor coupler and hollow shaft are connected to form integral body by bolt, upper end transmission shaft is threaded with adjusting nut, during Installation and Debugging, rotating nut is adjusted to suitable position, make to produce between impeller and pump case suitable axial clearance, then be bolted on the appropriate location of hollow shaft, upper end transmission shaft is suspended in hollow shaft by adjusting nut, non-return pin is arranged in the pin-and-hole of hollow shaft, pin-and-hole is evenly distributed on hollow shaft around the axis hole of hollow shaft, selling the aerial heart and hollow shaft, to cross axis hole center parallel, bearing cap upper surface have multiple tracks around center equally distributed groove, form backstop with hollow shaft, non-return pin.
Compared with prior art, the utlity model has following advantage:
The utility model frees backstop, thrust bearing, cooling unit from motor.
1. non-return pin is housed on hollow shaft, and bearing cap Shang Youji road is uniformly distributed the non-return groove on it, can prevent motor reversal.
2. the axial force producing when borehole shaft drivenpump moves passes to transmission shaft by impeller shaft, transmission shaft is delivered to upper end transmission shaft, upper end transmission shaft acts on hollow shaft, thrust bearing (ball bearing) supports hollow shaft, the thrust of thrust bearing is born by bearing support, the pressure-acting that pump seat passes over bearing support is on pedestal, and so axial force is balanced, and motor does not bear axial force.
3. external the depending alone of thrust bearing air-cooledly can not meet heat radiation and require, and when bearing large axial force, the type of cooling of the utility model thrust bearing is water-cooled.During pump operation, from the water intaking of pump seat water outlet top, not needing provides cooling water in addition, cost-saving.WATER AS FLOW MEDIUM is delivered into bearing support through conduit pipe, in bearing support, there are two cavity weave ins, first oil pocket, the oil lubrication thrust bearing in oil pocket the heat that thrust bearing is produced are taken away, and another one cavity is exactly water channel, water channel in conduit pipe and bearing support is connected, cold water intaking is taken away the heat in lubricant oil during by water channel, and in order better to take away heat, oil pocket and water channel are weave ins, area of contact is larger, and heat radiation is better.This is just for selecting larger thrust bearing that condition is provided.
The utility model can allow motor select can not bear vertical threephase asynchronous and the explosion-proof type vertical machine of axial force.Widened the utilization field of borehole shaft drivenpump, expanded its ride quality scope, can provide that the larger flow of high power is more high-lift, borehole shaft drivenpump is used vertical threephase asynchronous (containing explosion-proof type) to replace borehole shaft drivenpump motor special, make its power range wider, utilization field is more, is conducive to borehole shaft drivenpump to the multi-field development of maximizing.
Accompanying drawing explanation
To describe now as preferred but nonrestrictive embodiment of the present utility model, these and other features of the present utility model, aspect and advantage will become apparent when reading as follows detailed description with reference to accompanying drawing, wherein:
Fig. 1 is the structural drawing of the utility model borehole shaft drivenpump;
Fig. 2 is the utility model thrust device structural drawing;
Fig. 3 is the mechanism map of existing borehole shaft drivenpump
The common vertical threephase asynchronous of reference character: 1-, 2-pump seat parts, 3-lifting pipe parts, 4-workpiece, 5-thrust device, 6-ball bearing, 7-intake pipe, 8-bearing cap, 9-hollow shaft, 10-motor coupler, the non-return pin of 11-, 12-bearing support, 13-upper end transmission shaft, 14-borehole shaft drivenpump motor special, 15-adjusting nut, 16-key, 17-gib headed key, 18-outlet pipe.
Embodiment
The following description is only exemplary and be not in order to limit the disclosure, application or purposes in essence.Should be understood that, in whole accompanying drawings, corresponding reference character represents identical or corresponding parts and feature.
The structural drawing of the utility model borehole shaft drivenpump as shown in Figure 1, borehole shaft drivenpump of the present utility model comprises common vertical threephase asynchronous 1, pump seat parts 2, lifting pipe parts 3, workpiece 4 and thrust device 5, wherein common vertical threephase asynchronous 1 is contained in thrust device 5 tops, thrust device 5 is contained in pump seat parts 2 tops, lifting pipe parts 3 are arranged on pump seat parts 2 bottoms, and workpiece 4 is arranged on lifting pipe parts 3 bottoms.
Thrust device structural drawing as shown in Figure 2, this thrust device 5 comprises ball bearing 6, intake pipe 7, bearing cap 8, hollow shaft 9, motor coupler 10, non-return pin 11, bearing support 12, adjusting nut 15, key 16, gib headed key 17, outlet pipe 18; The concrete annexation of above-mentioned parts is as follows:
The motor shaft of common vertical threephase asynchronous 1 (solid shaft) passes through key 16 transmissions with motor coupler 10, motor coupler 10 is connected to form integral body with hollow shaft 9 by bolt, upper end transmission shaft 13 is threaded with adjusting nut 15, during Installation and Debugging, rotating nut 15 is bolted on the appropriate location of hollow shaft 9 after adjusting to suitable position (make between impeller and pump case produce suitable axial clearance), upper end transmission shaft 13 is suspended on 9 li of hollow shafts by adjusting nut 15 like this, non-return pin 11 is arranged in the pin-and-hole of hollow shaft 9, pin-and-hole is evenly distributed on hollow shaft 9 around the axis hole of hollow shaft, axis hole center is parallel excessively with hollow shaft 9 to sell the aerial heart.Bearing cap 8 upper surfaces have multiple tracks around center equally distributed groove; form backstop with hollow shaft 9, non-return pin 11; during pump operation, from motor side, looking down (overlooking) is rotated counterclockwise; when shutting down; due to reaction force; whole rotation component will produce the trend turning clockwise; now non-return pin 11 can be stopped by the groove of bearing support 8 upper surfaces; the hollow shaft rotation that non-return pin 11 stops; hollow shaft 9 and upper end transmission shaft 13 are by gib headed key 17 key transmissions; prevention upper end transmission shaft 13 rotations that again can be related, this has just completed non-return effect.
Hollow shaft 9 is contained in 6 li, ball bearing, and ball bearing 6 is contained in 12 li of bearing supports, and bearing support 12 is contained on pump seat parts 2, and pump seat parts are carried by pedestal.The axial force producing when the weight of pump rotary component and operation is applied on adjusting nut 15 by upper end transmission shaft 13, adjusting nut is converted into pressure-acting on hollow shaft 9 these power, hollow shaft 9 transmits pressure on ball bearing 6, ball bearing 6 active forces are applied on bearing support 12, bearing support 12 is supported by pump seat, last pump seat is carried by pedestal, and this has just fallen axial force balance.This shows, the axial force producing when the weight of pump rotary component and operation does not pass to motor, and motor only need provide operation required moment of rotation.
Intake pipe 7 lower ends are connected with pump seat 2 water outlet upper end ostium excurrenses, and intake pipe 7 upper ends are connected with bearing support 12 water inlets, and outlet pipe 18 upper ends are connected with bearing support 12 osculums, outlet pipe 18 lower ends and on-the-spot drainage system UNICOM.During pump operation, current enter the cooling water chamber of bearing support 12 by intake pipe 7, from the water outlet of bearing support 12, flow out, and by 18 li of outlet pipes, flow into drainage system.The heat producing while this shows pump operation is taken away and is entered drainage system by water.
Claims (4)
1. a borehole shaft drivenpump, it comprises common vertical threephase asynchronous (1), pump seat parts (2), lifting pipe parts (3), workpiece (4) and thrust device (5), wherein said common vertical threephase asynchronous (1) is contained in thrust device (5) top, described thrust device (5) is contained in described pump seat parts (2) top, described lifting pipe parts (3) are arranged on described pump seat parts (2) bottom, and described workpiece (4) is arranged on lifting pipe parts (3) bottom, it is characterized in that, the motor shaft of described common vertical threephase asynchronous (1) and motor coupler (10) are by key (16) transmission, motor coupler (10) is connected to form integral body with hollow shaft (9) by bolt, upper end transmission shaft (13) is threaded with adjusting nut (15), rotating nut during Installation and Debugging (15) is adjusted to suitable position, make to produce between impeller and pump case suitable axial clearance, then be bolted on the appropriate location of hollow shaft (9), it is inner that upper end transmission shaft (13) is suspended on hollow shaft (9) by adjusting nut (15), non-return pin (11) is arranged in the pin-and-hole of hollow shaft (9), pin-and-hole is evenly distributed on hollow shaft (9) around the axis hole of hollow shaft, axis hole center is parallel excessively with hollow shaft (9) at pin-and-hole center, bearing cap (8) upper surface have multiple tracks around center equally distributed groove, form backstop with hollow shaft (9), non-return pin (11).
2. borehole shaft drivenpump as claimed in claim 1, it is characterized in that, it is inner that described hollow shaft (9) is contained in ball bearing (6), and it is inner that ball bearing (6) is contained in bearing support (12), it is upper that bearing support (12) is contained in pump seat parts (2), and pump seat parts are carried by pedestal.
3. borehole shaft drivenpump as claimed in claim 2, it is characterized in that, the axial force producing when the weight of pump rotary component and operation is applied on adjusting nut (15) by upper end transmission shaft (13), adjusting nut (15) is converted into pressure-acting on hollow shaft (9) these power, hollow shaft (9) transmits pressure on ball bearing (6), it is upper that ball bearing (6) active force is applied to bearing support (12), and bearing support (12) is supported by pump seat, and last pump seat is carried by pedestal.
4. borehole shaft drivenpump as claimed in claim 3, it is characterized in that, intake pipe (7) lower end is connected with pump seat parts (2) water outlet upper end ostium excurrens, intake pipe (7) upper end is connected with bearing support (12) water inlet, outlet pipe (18) upper end is connected with bearing support (12) osculum, outlet pipe (18) lower end and on-the-spot drainage system UNICOM.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420271109.4U CN203948315U (en) | 2014-05-26 | 2014-05-26 | A kind of borehole shaft drivenpump |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420271109.4U CN203948315U (en) | 2014-05-26 | 2014-05-26 | A kind of borehole shaft drivenpump |
Publications (1)
Publication Number | Publication Date |
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CN203948315U true CN203948315U (en) | 2014-11-19 |
Family
ID=51890352
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201420271109.4U Withdrawn - After Issue CN203948315U (en) | 2014-05-26 | 2014-05-26 | A kind of borehole shaft drivenpump |
Country Status (1)
Country | Link |
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CN (1) | CN203948315U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103953553A (en) * | 2014-05-26 | 2014-07-30 | 蓝深集团股份有限公司 | Borehole shaft driven pump |
CN110985551A (en) * | 2019-11-08 | 2020-04-10 | 西安泵阀总厂有限公司 | Long-distance vertical floating support shafting structure |
-
2014
- 2014-05-26 CN CN201420271109.4U patent/CN203948315U/en not_active Withdrawn - After Issue
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103953553A (en) * | 2014-05-26 | 2014-07-30 | 蓝深集团股份有限公司 | Borehole shaft driven pump |
CN110985551A (en) * | 2019-11-08 | 2020-04-10 | 西安泵阀总厂有限公司 | Long-distance vertical floating support shafting structure |
CN110985551B (en) * | 2019-11-08 | 2021-08-06 | 西安泵阀总厂有限公司 | Long-distance vertical floating support shafting structure |
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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: 20141119 Effective date of abandoning: 20160413 |
|
C25 | Abandonment of patent right or utility model to avoid double patenting |