阅读说明：本技术 一种柱塞泵及其柱塞结构 (Plunger pump and plunger structure thereof ) 是由 陈家渝 于 2020-12-07 设计创作，主要内容包括：本申请公开了一种柱塞泵及其柱塞结构,涉及泵领域,其包括用于与连杆连接的连接段以及设置于连接段轴向一端的工作段,工作段用于滑移插入泵体的工作腔；连接段为不锈钢材质,工作段为陶瓷材质。通过设置工作段,工作段采用陶瓷材质,减少了柱塞磨损的情况,使得整体的使用更加持久。(The application discloses a plunger pump and a plunger structure thereof, which relate to the field of pumps and comprise a connecting section and a working section, wherein the connecting section is used for being connected with a connecting rod, the working section is arranged at one axial end of the connecting section, and the working section is used for being inserted into a working cavity of a pump body in a sliding manner; the connecting section is made of stainless steel, and the working section is made of ceramic. Through setting up the working section, the working section adopts ceramic material, has reduced the condition of plunger wearing and tearing for holistic use is more lasting.)

1. The utility model provides a plunger structure of plunger pump which characterized in that: the pump comprises a connecting section (22) used for being connected with a connecting rod (32) and a working section (21) arranged at one axial end of the connecting section (22), wherein the working section (21) is used for being inserted into a working cavity (111) of the pump body (1) in a sliding manner; the connecting section (22) is made of stainless steel, and the working section (21) is made of ceramic.

2. The plunger structure of a plunger pump according to claim 1, wherein: one end, close to the working section (21), of the connecting section (22) is provided with a first positioning column (7), and the working section (21) is provided with a first positioning groove (211) for embedding the first positioning column (7); be equipped with on working segment (21) and be used for being fixed in locking piece (8) of linkage segment (22) with working segment (21), locking piece (8) are including being located working segment (21) keep away from spacing portion (81) of linkage segment (22) one end and set up in spacing portion (81) and wear to establish working segment (21) with reference column one (7) threaded connection's double-screw bolt (82), spacing portion (81) are used for supporting the terminal surface that linkage segment (22) were kept away from in tight working segment (21).

3. The plunger structure of a plunger pump according to claim 2, wherein: the end face, close to the connecting section (22), of the limiting portion (81) is provided with a second positioning column (9), and the working section (21) is provided with a second positioning groove (212) for embedding the second positioning column (9).

4. A plunger structure of a plunger pump according to claim 3, wherein: annular grooves (10) are formed in the outer side walls of the first positioning column (7) and the second positioning column (9), and each annular groove (10) is provided with a sealing ring (101).

5. The plunger structure of a plunger pump according to claim 1, wherein: and a concave cavity (221) is formed in one end, far away from the working section (21), of the connecting section (22).

6. A plunger pump, characterized by: comprising a pump body (1), a plunger structure (2) according to any one of claims 1-5 and a transmission assembly (3);

the pump body (1) comprises a front end part (11) and a rear end part (12) arranged on the front end part (11), the front end part (11) is provided with a working cavity (111), the pump body (1) is further provided with a liquid inlet (112) and a liquid outlet (113), a one-way valve I (4) is arranged in the liquid inlet (112), and the one-way valve I (4) enables the liquid inlet (112) to be communicated in a one-way mode from the outer side to the direction of the working cavity (111); the liquid outlet (113) is provided with a second one-way valve (5), and the second one-way valve (5) enables the liquid outlet (113) to be communicated in one way in the direction towards the outer side from the working cavity (111); one end of the front end part (11) close to the rear end part (12) is also provided with a sliding hole (114) communicated with the working cavity (111), and the sliding hole (114) is used for sliding of the working section (21);

the transmission assembly (3) comprises a crankshaft (31) and a connecting rod (32), the crankshaft (31) is rotatably connected to the rear end portion (12), the rear end portion (12) is further provided with a guide hole (121), and the guide hole (121) is used for the connecting section (22) to slide; one end of the connecting rod (32) is hinged to the crankshaft (31) and the other end of the connecting rod is hinged to the connecting section (22), and the transmission assembly (3) is used for driving the plunger structure (2) to move back and forth along the sliding hole (114).

7. A plunger pump according to claim 6, characterized in that: a sealing groove (102) is further formed in the end face, close to the rear end portion (12), of the front end portion (11), a sealing element (13) is arranged in the sealing groove (102), the sealing element (13) comprises a base ring (131) and a plurality of oil seal rings (132), the base ring (131) is sleeved on the working section (21) and abuts against the groove bottom of the sealing groove (102) and the outer side wall of the working section (21), and the plurality of oil seal rings (132) are sleeved on the working section (21) and are located at one end, far away from the groove bottom of the sealing groove (102), of the base ring (131);

still be equipped with lubricated piece (14) in seal groove (102), lubricated piece (14) are located seal member (13) and keep away from the one end of tank bottom, lubricated piece (14) are including collar (141) and lubricated ring (142), working section (21) have been seted up to collar (141) cover, and lubricated groove (1411) have been seted up to the inner ring wall of collar (141), lubricated ring (142) are installed in lubricated groove (1411) and are located working section (21) with the cover, seal groove (102) notch department still threaded connection has locking ring (15), locking ring (15) cover is located working section (21) and is used for spacing lubricated piece (14).

8. A plunger pump according to claim 7, characterized in that: an oil storage groove (1412) is formed in the outer ring wall of the mounting ring (141), and an oil guide hole (1413) communicated with the lubricating groove (1411) is formed in the groove bottom of the oil storage groove (1412).

9. A plunger pump according to claim 7, characterized in that: the inner ring wall of the locking ring (15) is provided with a positioning ring (151), and the positioning ring (151) abuts against the outer wall of the working section (21).

10. A plunger pump according to claim 9, characterized in that: the inner wall of holding ring (151) still is equipped with holding tank (1511), holding tank (1511) is equipped with abaculus ring (18), abaculus ring (18) cover is located working segment (21).

Technical Field

The present application relates to the field of pumps, and more particularly, to a plunger pump and a plunger structure thereof.

Background

The plunger pump is an important device of a hydraulic system, and the plunger pump drives a connecting rod by means of a driving crankshaft to further drive a plunger to reciprocate in a cylinder body, so that the volume of a working cavity sealed in a pump body is changed to realize liquid suction and liquid pressing. Plunger pumps are commonly used as pressurized liquid supply devices for agricultural sprayers.

In view of the above-mentioned related art, the inventor believes that the agricultural atomizer relates to various liquid medicines, and the operational environment is comparatively harsh, and after long-time use of plunger pump, the wearing and tearing condition appears in the plunger easily, awaits improvement.

Disclosure of Invention

In order to improve the problem of plunger wearing and tearing, the application provides a plunger pump and plunger structure thereof.

The application provides a plunger structure of plunger pump adopts following technical scheme:

a plunger structure of a plunger pump comprises a connecting section and a working section, wherein the connecting section is used for being connected with a connecting rod, the working section is arranged at one axial end of the connecting section, and the working section is used for being inserted into a working cavity of a pump body in a sliding mode; the connecting section is made of stainless steel, and the working section is made of ceramic.

Through the technical scheme, the working section of the plunger structure is made of the ceramic material, the ceramic material is high in corrosion resistance, and the plunger is not easily abraded during reciprocating work, so that the abrasion of the plunger is reduced, and the whole plunger is more durable in use.

Optionally, a first positioning column is arranged at one end, close to the working section, of the connecting section, and a first positioning groove for embedding the first positioning column is formed in the working section; the locking piece that is used for being fixed in the linkage segment with the working segment is equipped with on the working segment, the locking piece is including being located the working segment and keeping away from spacing portion of linkage segment one end and set up in spacing portion and wear to establish the working segment with a reference column threaded connection's double-screw bolt, spacing portion is used for supporting the terminal surface that the linkage segment was kept away from to tight working segment.

Through above-mentioned technical scheme, the working section passes through the locking piece and screws up fixedly to make the change of working section more convenient, the setting of reference column one in addition is fixed a position through reference column one and constant head tank one cooperation, makes the installation of working section and linkage segment more convenient.

Optionally, the end face, close to the connecting section, of the limiting portion is provided with a second positioning column, and the working section is provided with a second positioning groove for the second positioning column to be embedded into.

Through the technical scheme, the working section is further positioned through the matching of the positioning column II and the positioning groove II, so that the splicing structure of the working section and the connecting section is more stable.

Optionally, the annular, every annular all is equipped with the sealing ring to the lateral wall of reference column one and reference column two.

Through above-mentioned technical scheme, set up annular and sealing ring, strengthen the sealed effect between reference column one and the constant head tank one and between reference column two and the constant head tank two through the sealing ring to reduce the reciprocal interior liquid of working chamber or gaseous along constant head tank two and the condition that the double-screw bolt link up a seepage, make the use of plunger more stable.

Optionally, a concave cavity is formed in one end, far away from the working section, of the connecting section.

Through above-mentioned technical scheme, setting up through the cavity makes the linkage segment be the thin wall state, because assembly dimension's small deviation, when the plunger structure operation, the working section of plunger exists and squeezes so that the frictional condition mutually with the pump body, and the working section hardness of ceramic material is high, and the fragility is big, and stainless steel's linkage segment passes through the setting of cavity for the linkage segment is changeed deformation for the working section. When the working section assembly coaxiality has a little deviation, the deformation of the connecting section can be adjusted in time, so that the working section has better adaptability when sliding, the abrasion of the working section and the pump body is reduced, and the whole use is more stable.

The application also discloses a plunger pump, which comprises a pump body, any one of the plunger structures and a transmission assembly;

the pump body comprises a front end part and a rear end part arranged at the front end part, the front end part is provided with a working cavity, the pump body is also provided with a liquid inlet and a liquid outlet, a first check valve is arranged in the liquid inlet, and the first check valve enables the liquid inlet to be in one-way conduction from the outer side to the direction of the working cavity; the liquid outlet is provided with a second one-way valve, and the second one-way valve enables the liquid outlet to be communicated in one way from the working cavity to the outside; one end of the front end part close to the rear end part is also provided with a sliding hole communicated with the working cavity, and the sliding hole is used for the working section to slide;

the transmission assembly comprises a crankshaft and a connecting rod, the crankshaft is rotatably connected to the rear end part, and the rear end part is also provided with a guide hole for the connecting section to slide; one end of the connecting rod is hinged to the crankshaft, the other end of the connecting rod is hinged to the connecting section, and the transmission assembly is used for driving the plunger structure to move back and forth along the sliding hole.

Through the technical scheme, when the plunger pump works, the plunger pump is in contact with liquid in the working cavity through the working section, so that the corrosion of the plunger structure is reduced, the abrasion between the plunger structure and the sliding hole is also reduced, and the whole use is more durable.

Optionally, a sealing groove is further formed in the end face of the front end portion, which is close to the rear end portion, a sealing element is arranged in the sealing groove, the sealing element includes a base ring and a plurality of oil seal rings, the base ring is sleeved on the working section and abuts against the groove bottom of the sealing groove and the outer side wall of the working section, and the plurality of oil seal rings are sleeved on the working section and are located at one end of the base ring, which is far away from the groove bottom of the sealing groove;

still be equipped with the emollient in the seal groove, the emollient is located the one end that the tank bottom was kept away from to the sealing member, the lubrication piece includes collar and lubrication ring, the working section is located to the collar cover, and the lubrication groove has been seted up to the inner wall of collar, the lubrication ring is installed in lubrication groove and cover and is located the working section, seal groove notch department still threaded connection has the locking ring, the working section is located to the locking ring cover and is used for spacing to the lubrication piece.

Through above-mentioned technical scheme, set up sealing member, lubricated piece and locking ring, sealed effect can be strengthened to the sealing member, reduces the condition of working chamber in external intercommunication, and lubricated piece can lubricate plunger structure reciprocating motion for plunger structure's operation is more stable.

Optionally, an oil storage groove is formed in the outer annular wall of the mounting ring, and an oil guide hole communicated with the lubricating groove is formed in the bottom of the oil storage groove.

Through above-mentioned technical scheme, set up the oil storage tank and lead the oilhole, through at the oil storage tank oil storage, through leading the oilhole with the leading-in lubrication inslot of grease in the oil storage tank to make holistic lubricated effect more lasting, make holistic operation more stable.

Optionally, the inner annular wall of the locking ring is provided with a positioning ring, and the positioning ring abuts against the outer wall of the working segment.

Through the technical scheme, the reciprocating movement of the working section is further supported through the positioning ring, so that the operation of the plunger piston structure is more stable.

Optionally, the inner wall of holding ring still is equipped with the holding tank, the holding tank is equipped with the abaculus ring, the abaculus ring cover is located the working section.

Through above-mentioned technical scheme, set up the thimble, the thimble can be used for lubricating, also can be used for strengthening sealed to make holistic use more stable.

In summary, the present application includes at least one of the following beneficial technical effects:

(1) by arranging the working section, the abrasion of the plunger is reduced, so that the integral use is more durable;

(2) the connecting section is in a thin-wall state due to the arrangement of the concave cavity, so that the matching degree is better when the working section slides, the abrasion of the working section and the pump body is reduced, and the whole use is more stable;

(3) through the arrangement of the sealing element, the lubricating element and the locking ring, the operation of the plunger structure is more stable.

Drawings

FIG. 1 is a general schematic view of a first embodiment;

FIG. 2 is a schematic cross-sectional view of the first embodiment;

FIG. 3 is a schematic diagram of a plunger according to the first embodiment;

FIG. 4 is an enlarged view of portion A of FIG. 2;

FIG. 5 is a schematic view of the adjusting ring and bearing mounting location of the second embodiment;

fig. 6 is a schematic diagram of an adjusting ring structure according to the second embodiment.

Reference numerals: 1. a pump body; 11. a front end portion; 111. a working chamber; 112. a liquid inlet; 113. a liquid outlet; 114. a sliding hole; 12. a rear end portion; 121. a guide hole; 122. an accommodating chamber; 2. a plunger structure; 21. a working section; 211. positioning a first groove; 212. positioning a second groove; 22. a connecting section; 221. a concave cavity; 3. a transmission assembly; 31. a crankshaft; 32. a connecting rod; 4. a one-way valve I; 5. a second one-way valve; 6. a hinged block; 7. a first positioning column; 8. a locking member; 81. a limiting part; 82. a stud; 9. a second positioning column; 10. a ring groove; 101. a seal ring; 102. a sealing groove; 13. a seal member; 131. a base ring; 132. an oil seal ring; 14. a lubricating member; 141. a mounting ring; 1411. a lubrication groove; 1412. an oil storage tank; 1413. an oil guide hole; 142. a lube ring; 15. a locking ring; 151. a positioning ring; 1511. accommodating grooves; 16. a bearing; 17. an adjusting ring; 171. a fixing ring; 172. a connecting strip; 18. and (5) embedding rings.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses a plunger pump.

The first embodiment is as follows:

as shown in fig. 1, the pump comprises a pump body 1, a plunger structure 2 and a transmission assembly 3. The pump body 1 includes a front end portion 11 and a rear end portion 12, and the front end portion 11 and the rear end portion 12 are fixed by bolt tightening.

As shown in fig. 2, the front end portion 11 has a working chamber 111, the front end portion 11 of the pump body 1 is further provided with a liquid inlet 112 and a liquid outlet 113, and both the liquid inlet 112 and the liquid outlet 113 are communicated with the working chamber 111. The liquid inlet 112 is internally provided with a one-way valve I4, and the one-way valve I4 enables the liquid inlet 112 to be communicated in a one-way mode from the outer side to the direction of the working cavity 111. The second check valve 5 is installed on the liquid outlet 113, and the second check valve 5 enables the liquid outlet 113 to be communicated in a one-way mode in the direction towards the outer side from the working cavity 111. The end of the front end portion 11 close to the rear end portion 12 is further provided with a sliding hole 114, and the sliding hole 114 is a circular hole and is communicated with the working chamber 111.

The end surface of the rear end portion 12 close to the front end portion 11 is provided with guide holes 121, the number of the guide holes 121 is the same as that of the sliding holes 114, and the positions of the guide holes 121 are arranged in one-to-one correspondence with the sliding holes 114. The rear end portion 12 is further provided with an accommodating cavity 122, and the accommodating cavity 122 is located at one end of the guide hole 121 far away from the front end portion 11 and is communicated with the guide hole 121.

As shown in fig. 2, the plunger structure 2 has an overall cylindrical shape, and the plunger structure 2 includes a working section 21 and a connecting section 22. The working section 21 is made of ceramic, and the outer diameter of the working section 21 is matched with the sliding hole 114 and is connected to the sliding hole 114 in a sliding manner along the axial direction. The connecting section 22 is made of stainless steel, and the connecting section 22 is slidably connected to the guide hole 121 along the axial direction.

The transmission assembly 3 comprises a crankshaft 31 and a connecting rod 32, the crankshaft 31 being rotatably connected to the rear end portion 12 and being located in the housing chamber 122. Connecting rod 32 is articulated with bent axle 31, and the one end that bent axle 31 was kept away from to connecting rod 32 is located guiding hole 121, and the one end that bent axle 31 was kept away from to the connecting rod articulates has articulated piece 6, and articulated piece 6 slides and articulated piece 6 and linkage segment 22 fixed connection along guiding hole 121, and the connecting rod realizes articulating through articulated piece 6 and linkage segment 22.

When external driving motor drives bent axle 31 and rotates, bent axle 31 drives the upset of hinge bar to drive plunger structure 2 and realize reciprocating motion along guiding hole 121 and hole 114 that slides, plunger structure 2's working segment 21 inserts or keeps away from working chamber 111 along hole 114 that slides, thereby makes working chamber 111's volume change, and the check valve two 5 of the check valve one 4 and the liquid outlet 113 of cooperation inlet 112 are in order to realize the lotion flowing back.

Referring to fig. 3, a concave cavity 221 is formed at one end of the connecting section 22 away from the working section 21, and the connecting section 22 is integrally thin-walled through the concave cavity 221, and the wall thickness is 1-2 mm. One end of the connecting section 22 close to the working section 21 is fixed with a first positioning column 7, and the first positioning column 7 and the connecting section 22 are coaxially arranged.

The working section 21 is coaxially provided with a through hole along the axial direction, so that the working section 21 is in a ring shape. One end of the through hole, which is close to the connecting section 22, serves as a first positioning groove 211, the diameter of the first positioning groove 211 is matched with the diameter of the first positioning column 7, and one end of the through hole, which is far away from the connecting section 22, serves as a second positioning groove 212.

The working section 21 is further provided with a locking member 8, and the locking member 8 is used for fixing the working section 21 to the connecting section 22. The locking member 8 includes a stopper 81 and a stud 82. The diameter of the limiting portion 81 is larger than the diameter of the through hole and smaller than or equal to the outer diameter of the working section 21, the working section 21 is located at one end away from the connecting section 22, and the stud 82 is coaxially fixed on one side of the limiting portion 81 close to the connecting section 22. A second positioning column 9 is coaxially fixed on the end face, close to the connecting section 22, of the limiting portion 81, the diameter of the second positioning column 9 is larger than that of the stud 82, and the diameter of the second positioning column 9 is matched with that of the second positioning groove 212.

When the working section 21 and the connecting section 22 are assembled, the stud 82 of the locking piece 8 is in threaded connection with the first positioning column 7 after penetrating through the working section 21, after the stud 82 is screwed down, the first positioning column 7 is correspondingly embedded into the first positioning groove 211, the second positioning column 9 is correspondingly embedded into the second positioning groove 212 to enhance positioning, and the limiting part 81 abuts against the end face, far away from the connecting section 22, of the working section 21.

In order to strengthen the sealing effect of the working section 21, the annular grooves 10 are formed in the outer side walls of the first positioning column 7 and the second positioning column 9, the sealing ring 101 is embedded in each annular groove 10, the sealing ring 101 is made of rubber, and the sealing ring 101 is used for abutting against the inner walls of the first positioning groove 211 and the second positioning groove 212 to strengthen sealing.

Referring to fig. 4, a seal groove 102 is further formed in an end surface of the front end portion 11 close to the rear end portion 12, and a seal 13 and a lubricant 14 are disposed in the seal groove 102. The seal 13 includes a base ring 131 and oil seal rings 132. The base ring 131 is made of rubber, and the base ring 131 is sleeved on the working section 21 and abuts against the groove bottom of the sealing groove 102 and the outer side wall of the working section 21. The oil seal rings 132 are all sleeved on the working section 21 and located at one end of the base ring 131 far away from the bottom of the seal groove 102, and the oil seal rings 132 tightly support the outer wall of the working section 21 and the inner wall of the seal groove 102 to enhance sealing. The oil seal rings 132 are generally Y-shaped oil seals, and in this embodiment, the number of the oil seal rings 132 is four.

The lubricating piece 14 is located at one end of the sealing piece 13 away from the bottom of the groove, the lubricating piece 14 includes a mounting ring 141 and a lubricating ring 142, the mounting ring 141 is sleeved on the working section 21, and a lubricating groove 1411 is formed in an inner annular wall of the mounting ring 141. The lubricating ring 142 is installed in the lubricating groove 1411 and is sleeved on the working section 21, and the material of the lubricating ring 142 is asbestos as a matrix and PTFE (polytetrafluoroethylene) and graphite are added. The lubricating ring 142 has a certain self-lubricating property and can provide lubrication during the reciprocating motion of the plunger.

The outer ring wall of the mounting ring 141 is abutted against the inner wall of the sealing groove 102, the outer ring wall of the mounting ring 141 is further provided with an oil storage groove 1412, the oil storage groove 1412 is annularly arranged, the groove bottom of the oil storage groove 1412 is provided with oil guide holes 1413 communicated with the lubricating groove 1411, and the oil guide holes 1413 are provided with a plurality of oil guide holes which are uniformly distributed along the mounting ring 141 in the circumferential direction. In actual use, grease can be filled in the oil storage groove 1412, and enters the lubricating groove 1411 through the oil guide hole 1413 to be matched with the lubricating ring 142, so as to enhance the lubricating effect.

The groove opening of the sealing groove 102 is further in threaded connection with a locking ring 15, and the locking ring 15 is sleeved on the working section 21 and abuts against one end, far away from the groove bottom, of the mounting ring 141 to limit the lubricating piece 14. The inner ring wall of the locking ring 15 is fixed with a positioning ring 151, the inner wall of the positioning ring 151 abuts against the outer wall of the working section 21, wherein the inner wall of the positioning ring 151 is further provided with a receiving groove 1511, the receiving groove 1511 is an annular groove, the receiving groove 1511 is provided with an insert ring 18, and the working section 21 is sleeved with the insert ring 18. The insert ring 18 may be a Y-shaped oil seal to enhance sealing, or may be made of the same material as the lube ring 142 to enhance lubrication.

The working principle of the embodiment is as follows:

when the plunger pump runs, the working section 21 is in contact with liquid in the working cavity 111, so that the corrosion of the plunger structure 2 is reduced, the abrasion between the plunger structure 2 and the sliding hole 114 is also reduced, and the whole use is more durable. In addition, the front end portion 11 and the rear end portion 12 are bolted together, and due to slight variations in fitting dimensions, the working section 21 of the plunger may be pressed against the pump body 1 to cause friction when the plunger structure 2 is operated. The working section 21 made of ceramic material has high hardness and large brittleness, and the connecting section 22 made of stainless steel material is arranged through the concave cavity 221, so that the connecting section 22 is easier to deform relative to the working section 21. When little deviation appears in the working section 21 assembly axiality, can in time adjust through the small deformation of linkage segment 22 for the degree of adaptability is better when working section 21 slides, has reduced the condition that working section 21 and slip hole 114 weared and torn, makes holistic use more lasting.

Example two:

the difference from the first embodiment is that, as shown in fig. 5, a bearing 16 is provided between the mounting ring 141 and the locking ring 15, and the bearing 16 is an axial thrust bearing. In addition, in this embodiment, two oil seal rings 132 are provided, the adjusting ring 17 is provided between the mounting ring 141 and the oil seal ring 132, and two ends of the adjusting ring 17 in the axial direction respectively abut against the oil seal ring 132 and the mounting ring 141.

Referring to fig. 6, the adjusting ring 17 is made of rubber, and the adjusting ring 17 includes two fixing rings 171 distributed along an axial direction thereof and a plurality of connecting bars 172 connected between the two fixing rings 171. Wherein, a plurality of connecting strips 172 are circumferentially evenly distributed along the axis of the fixing ring 171, and the connecting strips 172 are obliquely arranged along the circumferential direction of the fixing ring 171. In order to reinforce the structural strength of the fixing ring 171, a metal ring is usually embedded coaxially in the fixing ring 171.

When the plunger structure 2 is driven by the transmission assembly 3 to move the working segment 21 toward the rear end 12 along the sliding hole 114, the working segment 21 abuts against the oil seal ring 132 to make the oil seal ring 132 have a tendency of moving toward a direction away from the groove bottom of the seal groove 102, at this time, the two fixing rings 171 approach each other in a small range, and under the influence of the inclined direction of the connecting strip 172, the two fixing rings 171 can be circumferentially and relatively turned over for a small distance. And because the friction between the adjusting ring 17 and the oil seal ring 132 is large, and the friction resistance between the mounting ring 141 and the locking ring 15 is small due to the support of the bearing 16, the fixed ring 171 close to the mounting ring 141 rotates and drives the mounting ring 141 to rotate.

When the plunger structure 2 is driven by the transmission assembly 3 to move the working section 21 along the sliding hole 114 in a direction away from the rear end portion 12, the adjusting ring 17 is reset under the elasticity of the material of the adjusting ring, and in the resetting process, the abutting force between the fixing ring 171 and the mounting ring 141 is greatly reduced, so that the mounting ring 141 cannot be driven to rotate basically in the resetting process of the adjusting ring 17.

Reciprocating motion through plunger structure 2 makes collar 141 can circumference rotate gradually, and during the in-service use, plunger structure 2 level setting usually to make the butter in the oil storage tank 1412 pile up in below department under the effect of gravity easily, thereby got up through rotating collar 141 and reduced the accumulational condition of butter in below department, thereby make the use of the butter in the oil storage tank 1412 more abundant even.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.