CN204882300U - Variable flow plunger type self priming pump of trace - Google Patents
Variable flow plunger type self priming pump of trace Download PDFInfo
- Publication number
- CN204882300U CN204882300U CN201520568809.4U CN201520568809U CN204882300U CN 204882300 U CN204882300 U CN 204882300U CN 201520568809 U CN201520568809 U CN 201520568809U CN 204882300 U CN204882300 U CN 204882300U
- Authority
- CN
- China
- Prior art keywords
- valve body
- pump seat
- ring
- plunger
- shaft coupling
- 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.)
- Expired - Fee Related
Links
Abstract
The utility model discloses a variable flow plunger type self priming pump of trace, including the pump seat, the pump seat lower extreme is connected with the valve body, is provided with the valve barrel in the valve body, the pump seat upper end is provided with the bearing, the bearing lower extreme is provided with the drive wheel, the terminal surface edge is connected with the plunger through the spheroid shaft coupling under the drive wheel, the plunger lower extreme sets up in the valve barrel, plunger and valve barrel normal running fit, be provided with L type cavity between plunger and the valve barrel. The pump seat lower extreme is connected with valve body upper end left side and connects valve body and pump seat normal running fit, pump seat lateral surface lower extreme is provided with the pump seat draw -in groove, the valve body lateral surface has valve body recess and valve body draw -in groove, the pump seat draw -in groove is connected with the elasticity jump ring, the elasticity jump ring is including sticking up ring and level ring, it is 8 contained angles to stick up between ring and the level ring, level ring and valve body groove connection. Adopt the utility model discloses a plunger pump is small, and the work efficiency is high, operate very simple and convenient, the volume and the weight of the equipment that can significantly reduce, anti -corrosion performance is splendid, can reach to reduce the error purpose of improvement precision simultaneously.
Description
Technical field
The utility model relates to oil determination instrument, refers to a kind of micro-changeable flow plunger type self-priming pump particularly.
Background technology
Existing engine oil apparent viscosity determining instrument, the most automaticity of home products is very low, volume is all huger, be exactly can not realize automatic cleaning in Instrument Design to a great extent, achieve the goal, must have the miniature changeable flow self-priming pump of the fluid that a kind of energy self-priming viscosity is higher, this pump must have the feature that suction is large, top hole pressure is high to meet instrument requirements.And this pump necessary energy acid-alkali-corrosive-resisting, corrosion occurs inner lumen materials energy long period of soaking in organic solvent and not or other chemical property changes.Based on above reason, market does not have at all this type of micro pump sell: ram pump volume is excessive, the stainless steel pump weight of flow 5ml/min adjustable extent is all at more than 25kg, and most of volume is all at 0.1m
3left and right, is not suitable for using in fine measuring instrument; If select peristaltic pump, then because peristaltic pump internal pipeline many employings silica gel, the not corrosion of acid and alkali-resistance and organism solvent, and the suction of peristaltic pump is not enough to the oil product large to viscosity carries out Automatic Extraction (when-40 DEG C oil product can very thickness).So, because the limitation of self-priming pump, seriously constrain the raising of the automaticity of this type instrument.
Prior art | 2800g | 0.1m 3 | 20ml/min | 20Mpa | Cast iron |
Utility model content
The purpose of this utility model is that overcoming the deficiencies such as existing lubricating oil apparent viscosity determining instrument volume is large, automaticity is low provides a kind of micro-changeable flow plunger type self-priming pump.
The utility model is achieved by the following technical solution:
Trace changeable flow plunger type self-priming pump, comprises pump seat, valve body; Described pump seat lower end is connected with on the left of described valve body upper end and connects, and described valve body and described pump seat are rotatably assorted; Described pump seat lateral surface lower end is provided with pump seat draw-in groove; Described valve body lateral surface has valve body recess and valve body draw-in groove; Described pump seat draw-in groove is connected with elastic circlip; Described elastic circlip comprises and sticks up ring and horizontal loops; The described angle stuck up in 0 °-15 ° between ring and described horizontal loops; Described horizontal loops is connected with described valve body recess;
Described pump seat upper end is provided with bearing; Described bearing upper end center is connected with transmission shaft; Described bearing lower end is provided with power wheel; Edge, described power wheel lower surface is connected with spheroid shaft coupling; Described spheroid shaft coupling comprises the shaft coupling ring with described power wheel lower surface edge conjunction; Shaft coupling ball is provided with in described shaft coupling ring; Described shaft coupling ball and described shaft coupling ring are rotatably assorted; Described shaft coupling ball is also connected with plunger by coupling lever;
Valve pocket is provided with in described valve body; Described plunger lower end is arranged in described valve pocket; Described plunger and described valve pocket are rotatably assorted; Be provided with L-type cavity between described plunger and described valve pocket, described L-type cavity comprises vertical cavity and horizontal cavity; Described horizontal cavity xsect is the disc that radius is identical with described plunger xsect; Described valve body is provided with oil inlet pipe, flowline; Described oil inlet pipe, described flowline are connected with described vertical cavity.
Further, described pump seat lateral surface is provided with pump seat screw thread; Also setting nut is provided with outside described pump seat; Described setting nut is hollow cylindrical configuration, and described setting nut medial surface is provided with setting nut screw thread; Described pump seat and described setting nut are rotatably assorted; Described setting nut lower surface contacts with described valve body lateral surface.
Further, described elastic circlip is open ring-type; Described horizontal loops end symmetrical is provided with ring head, is provided with working hole in described ring head.
Preferably, the angle in 8 ° between ring and described horizontal loops is stuck up described in.
Adopt ram pump volume of the present utility model little, lightweight, work efficiency is high, and operate very easy, can greatly reduce the volume and weight of equipment, Corrosion Protection is splendid, can reach reduction error simultaneously, put forward high-precision object.
Quality | Volume | Oil extraction speed | Pressure | Material | |
The utility model | 500g | 100cm 3 | 10-30ml/min | 25Mpa | Aluminium alloy |
Accompanying drawing explanation
Fig. 1 is micro-changeable flow plunger type self-priming pump vertical section structure schematic diagram.
Fig. 2 is spheroid coupler structure schematic diagram (plunger minimum state and the most high state of plunger).
Fig. 3 is L-type cavity cross sectional representation.
Fig. 4 is pump seat external structure schematic diagram.
Fig. 5 is valve body external structure schematic diagram.
Fig. 6 is setting nut inner structure schematic diagram.
Fig. 7 is pump seat, joint structure connecting valve schematic diagram.(plumbness)
Fig. 8 pump seat, joint structure connecting valve schematic diagram.(maximum flexion state).
Fig. 9 is elastic circlip vertical view.
Figure 10 is elastic circlip side view.
Figure 11 is setting nut angle regulating function demonstration graph.
In figure: bearing 1; Pump seat 2; Pump seat screw thread 21; Pump seat draw-in groove 22; Power wheel 3; Spheroid shaft coupling 4; Shaft coupling ring 41; Shaft coupling ball 42; Coupling lever 43; Plunger 5; Vertical cavity 51; Horizontal cavity 52; Setting nut 6; Setting nut screw thread 61; Transmission shaft 7; Valve body 8; Valve body recess 81; Valve body draw-in groove 82; Valve pocket 9; Elastic circlip 10; Stick up ring 10A; Horizontal loops 10B; Ring head 10C; Working hole 10D; Oil inlet pipe 11; Flowline 12.
Embodiment
Below in conjunction with drawings and Examples, the utility model is described in further detail, but this embodiment should not be construed restriction of the present utility model, only for example, simultaneously by illustrating that advantage of the present utility model will become clearly and easy understand.
As shown in drawings, micro-changeable flow plunger type self-priming pump, comprises pump seat 2, valve body 8; Pump seat 2 lower end is connected with on the left of valve body 8 upper end and connects, and valve body 8 and pump seat 2 are rotatably assorted; Pump seat 2 lateral surface lower end is provided with pump seat draw-in groove 22; Valve body 8 lateral surface has valve body recess 81 and valve body draw-in groove 82; Pump seat draw-in groove 22 is connected with elastic circlip 10; Elastic circlip 10 comprises and sticks up ring 10A and horizontal loops 10B; Stick up the angle in 0 °-15 ° between ring 10A and horizontal loops 10B; Horizontal loops 10B is connected with valve body recess 81;
Pump seat 2 upper end is provided with bearing 1; Bearing 1 upper end center is connected with transmission shaft 7; Bearing 1 lower end is provided with power wheel 3; Edge, power wheel 3 lower surface is connected with spheroid shaft coupling 4; Spheroid shaft coupling 4 comprises the shaft coupling ring 41 with power wheel 3 lower surface edge conjunction; Shaft coupling ball 42 is provided with in shaft coupling ring 41; Shaft coupling ball 42 and shaft coupling ring 41 are rotatably assorted; Shaft coupling ball 42 is also connected with plunger 5 by coupling lever 43; Preferably, transmission shaft 7 uses with the electric drilling match of 1400r/min.
Valve pocket 9 is provided with in valve body 8; Plunger 5 lower end is arranged in valve pocket 9; Plunger 5 and valve pocket 9 are rotatably assorted; Be provided with L-type cavity between plunger 5 and valve pocket 9, L-type cavity comprises vertical cavity 51 and horizontal cavity 52; Horizontal cavity 52 xsect is the disc that radius is identical with plunger 5 xsect; Valve body 8 is provided with oil inlet pipe 11, flowline 12; Oil inlet pipe 11, flowline 12 are connected with vertical cavity 51.When transmission shaft 7 rotates backward, oil inlet pipe 11, flowline 12 role exchange, realize the function of outside oil extraction.
During work, allow and stick up between ring 10A and horizontal loops 10B in a certain angle, thus produce certain angle between pump seat 2, valve body 8.Since such shaft coupling ball 42 exists revolution, there is rotation simultaneously; When shaft coupling ball 42 public affairs circle, the spacing respectively through pump seat 2, valve body 8 is maximum, minimum position, thus the height of plunger 5 is changed, and makes the height of horizontal cavity 5, volume changes.Oil product to be detected, when stickiness is larger, allows and sticks up angle between ring 10A and horizontal loops 10B and increase, to increase the pressure of oil pumping oil extraction; Oil product to be detected, when stickiness is larger, allows and sticks up angle between ring 10A and horizontal loops 10B and reduce, to reduce the wearing and tearing of equipment.
Preferably, pump seat 2 lateral surface is provided with pump seat screw thread 21; Setting nut 6 is also provided with outside pump seat 2; Setting nut 6 is hollow cylindrical configuration, and setting nut 6 medial surface is provided with setting nut screw thread 61; Pump seat 2 and setting nut 6 are rotatably assorted; Setting nut 6 lower surface contacts with valve body 8 lateral surface.When setting nut 6 is tightened, contact and oppress valve body 8, valve body 8 and pump seat 2 are in a straight line gradually, when pine adjusted by setting nut 6, valve body 8 and pump seat 2 back down in a certain angle by the tension force of elastic circlip 10, so just achieve the adjustment of the speed of oil suction or oil extraction.
Preferably, elastic circlip 10 is open ring-type; Horizontal loops 10B end symmetrical is provided with ring head 10C, is provided with working hole 10D in ring head 10C.Working hole 10D specific tool tong easy to use is set and carries out installation or removal elastic circlip 10.Ring head 10C strengthens the intensity at working hole 10D place.
Preferably, the angle in 8 ° between ring 10A and horizontal loops 10B is stuck up.Now, when shaft coupling ball 42 public affairs circle, the height of horizontal cavity 52 changes between 0-1cm, and volume changes between 0-0.2826cm3.When testing for mercury, the taking out of the maximum 133.28Pa of generation/row pressure is strong.
Below do not elaborate and be prior art.
Claims (4)
1. micro-changeable flow plunger type self-priming pump, is characterized in that: comprise pump seat (2), valve body (8); Described pump seat (2) lower end is connected with on the left of described valve body (8) upper end and connects, and described valve body (8) and described pump seat (2) are rotatably assorted; Described pump seat (2) lateral surface lower end is provided with pump seat draw-in groove (22); Described valve body (8) lateral surface has valve body recess (81) and valve body draw-in groove (82); Described pump seat draw-in groove (22) is connected with elastic circlip (10); Described elastic circlip (10) comprises and sticks up ring (10A) and horizontal loops (10B); The described angle stuck up in 0 °-15 ° between ring (10A) and described horizontal loops (10B); Described horizontal loops (10B) is connected with described valve body recess (81);
Described pump seat (2) upper end is provided with bearing (1); Described bearing (1) upper end center is connected with transmission shaft (7); Described bearing (1) lower end is provided with power wheel (3); Described power wheel (3) edge, lower surface is connected with spheroid shaft coupling (4); Described spheroid shaft coupling (4) comprises the shaft coupling ring (41) with described power wheel (3) lower surface edge conjunction; Shaft coupling ball (42) is provided with in described shaft coupling ring (41); Described shaft coupling ball (42) and described shaft coupling ring (41) are rotatably assorted; Described shaft coupling ball (42) is also connected with plunger (5) by coupling lever (43);
Valve pocket (9) is provided with in described valve body (8); Described plunger (5) lower end is arranged in described valve pocket (9); Described plunger (5) and described valve pocket (9) are rotatably assorted; Be provided with L-type cavity between described plunger (5) and described valve pocket (9), described L-type cavity comprises vertical cavity (51) and horizontal cavity (52); Described horizontal cavity (52) xsect is the disc that radius is identical with described plunger (5) xsect; Described valve body (8) is provided with oil inlet pipe (11), flowline (12); Described oil inlet pipe (11), described flowline (12) are connected with described vertical cavity (51).
2. micro-changeable flow plunger type self-priming pump according to claim 1, is characterized in that: described pump seat (2) lateral surface is provided with pump seat screw thread (21); Described pump seat (2) outside is also provided with setting nut (6); Described setting nut (6) is hollow cylindrical configuration, and described setting nut (6) medial surface is provided with setting nut screw thread (61); Described pump seat (2) and described setting nut (6) are rotatably assorted; Described setting nut (6) lower surface contacts with described valve body (8) lateral surface.
3. micro-changeable flow plunger type self-priming pump according to claim 1 and 2, is characterized in that: described elastic circlip (10) is open ring-type; Described horizontal loops (10B) end symmetrical is provided with ring head (10C), is provided with working hole (10D) in described ring head (10C).
4. micro-changeable flow plunger type self-priming pump according to claim 3, is characterized in that: described in stick up between ring (10A) and described horizontal loops (10B) in the angle of 8 °.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201520568809.4U CN204882300U (en) | 2015-07-30 | 2015-07-30 | Variable flow plunger type self priming pump of trace |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201520568809.4U CN204882300U (en) | 2015-07-30 | 2015-07-30 | Variable flow plunger type self priming pump of trace |
Publications (1)
Publication Number | Publication Date |
---|---|
CN204882300U true CN204882300U (en) | 2015-12-16 |
Family
ID=54826662
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201520568809.4U Expired - Fee Related CN204882300U (en) | 2015-07-30 | 2015-07-30 | Variable flow plunger type self priming pump of trace |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN204882300U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105021498A (en) * | 2015-07-30 | 2015-11-04 | 武汉研润科技发展有限公司 | Trace flow variable plunger type self-sucking pump |
-
2015
- 2015-07-30 CN CN201520568809.4U patent/CN204882300U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105021498A (en) * | 2015-07-30 | 2015-11-04 | 武汉研润科技发展有限公司 | Trace flow variable plunger type self-sucking pump |
CN105021498B (en) * | 2015-07-30 | 2017-12-19 | 武汉研润科技发展有限公司 | Micro changeable flow plunger type self priming pump |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN103291609B (en) | Biaxial harmonic gear pump | |
CN204882300U (en) | Variable flow plunger type self priming pump of trace | |
CN206943014U (en) | A kind of barrel pocket type extraction pump structure | |
CN105021498A (en) | Trace flow variable plunger type self-sucking pump | |
CN201747615U (en) | Light centrifugal pump | |
CN204443438U (en) | A kind of rotary drip irrigation emitter preventing blocking | |
CN202273614U (en) | Derrick oil pipe centering device | |
CN202251069U (en) | Vertical multi-stage barrel pump | |
CN207879591U (en) | A kind of combined type pressure break pump rod | |
CN201033958Y (en) | Invisible flagpole | |
CN205243836U (en) | Compensation structure in superminiature high -pressure gear pump | |
CN201065842Y (en) | Electric submersible pump set for extremely small displacement well | |
CN210240274U (en) | Anti-loosening nut for hydraulic system | |
CN204267302U (en) | A kind of asynchronous transmission multistage centrifugal pump | |
CN203441755U (en) | Axial suction type sea water desalination high pressure pump | |
CN201209431Y (en) | Oil well big-diameter hydraulic unloading deep pumping device | |
CN101354043A (en) | Variable flow centrifugal pump | |
CN201953667U (en) | Pneumatic motor submersible pump | |
CN204200597U (en) | miniature booster water pump | |
CN203500104U (en) | Small-flow-rate high-lift self-priming pump | |
CN203297093U (en) | Soft rotor pump | |
CN203570585U (en) | Solar screw submersible pump | |
CN203809348U (en) | Electric submersible centrifugal pump with wide displacement range | |
CN202768416U (en) | Single-stage single-suction horizontal centrifugal pump | |
CN210141218U (en) | Nut anti-loosening structure for hydraulic system |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20151216 Termination date: 20160730 |
|
CF01 | Termination of patent right due to non-payment of annual fee |