CN116714812B - Chemical auxiliary agent packaging equipment - Google Patents

Abstract

The invention relates to the technical field of packaging equipment, in particular to chemical auxiliary agent packaging equipment which comprises a conveying platform, a packaging barrel and a conveying pipe, wherein the packaging barrel is horizontally conveyed on the conveying platform, and the conveying pipe is positioned above the conveying platform; the automatic feeding device is characterized by further comprising a conveying cylinder, wherein the conveying cylinder is positioned between the packaging barrel and the conveying pipe, a rotating shaft is transversely arranged in the conveying cylinder, sliding holes are vertically formed in the left side wall and the right side wall of the conveying cylinder, the length direction of the sliding holes is vertical, and the end part of the rotating shaft penetrates through the sliding holes and stretches out; through adopting automatic weighing and packing chemical auxiliary's mode, can effectively simplify the operation mode, avoid frequent loaded down with trivial details operation of weighing in the traditional packaging mode, realize chemical auxiliary's quick packing, improve work efficiency, liberate the manpower.

Description

Chemical auxiliary agent packaging equipment

Technical Field

The invention relates to the technical field of packaging equipment, in particular to chemical auxiliary agent packaging equipment.

Background

The chemical additives are used as chemical additives in various production industries, and generally comprise metal processing additives, plastic additives, papermaking additives, building additives, water treatment additives, coating additives, leather additives, electronic industry additives, textile printing and dyeing additives, wood additives and the like.

After the processing of the chemical auxiliary agent is finished, the chemical auxiliary agent is generally packaged in a barreled mode, the raw material is firstly weighed to a specified weight, and then poured into a barrel, and the packaging mode is extremely complicated and low in working efficiency because the raw material is required to be quantitatively weighed for each packaging.

Disclosure of Invention

In order to solve the technical problems, the invention provides chemical auxiliary agent packaging equipment.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

the chemical auxiliary agent packaging equipment comprises a conveying platform, a packaging barrel and a conveying pipe, wherein the packaging barrel is horizontally conveyed on the conveying platform, and the conveying pipe is positioned above the conveying platform;

the device also comprises a conveying cylinder, the conveying cylinder is positioned between the packaging barrel and the conveying pipe, a rotating shaft is transversely arranged in the conveying cylinder, sliding holes are vertically formed on the left side wall and the right side wall of the conveying cylinder, the length direction of the sliding holes is vertical, the end part of the rotating shaft penetrates through the sliding holes and extends out, a baffle is arranged on the rotating shaft in the conveying cylinder, the separator separates the inner space of the conveying cylinder, the end part of the rotating shaft at the outer side of the conveying cylinder is provided with a sliding seat, the rotating shaft rotates on the sliding seat, the sliding seat is vertically and slidably arranged on the outer side wall of the conveying cylinder, one sliding seat is provided with a first motor, and the output end of the first motor is in transmission connection with the rotating shaft;

the top of the sliding seat is provided with a spring, the top of the spring is provided with a tension meter, and the tension meter can detect the elasticity of the spring.

More preferably, the conveying cylinder is square in shape, each inner side wall of the conveying cylinder is obliquely and rotatably provided with a triangular splice plate, and the four triangular splice plates can be spliced into an inverted cone.

More preferably, a cross is arranged between the four triangular splice plates, a sliding rod is rotatably arranged on the surface of each triangular splice plate, the rotation axis of the sliding rod is parallel to that of each triangular splice plate, the sliding rod is horizontal, and the end part, far away from each triangular splice plate, of the sliding rod is slidably inserted into the cross.

More preferably, the cross section and the slide bar section are both tapered, and the tapered direction is upward.

More preferably, a rotary column is rotationally inlaid on the side wall of the conveying cylinder, one side of the rotary column is positioned at the outer side of the conveying cylinder, the other side of the rotary column is positioned at the inner side of the conveying cylinder, a push-pull rod is slidably inserted on the rotary column, one end of the push-pull rod is rotationally arranged on a triangular splice plate, the other end of the push-pull rod is obliquely provided with a telescopic oil cylinder, and the push-pull rod is rotationally connected with the telescopic oil cylinder.

More preferably, the left side wall and the right side wall of the conveying cylinder are respectively fixed with a fixed plate, the fixed plates are vertically inserted with threaded rods, the fixed plates are in threaded connection with the threaded rods, the threaded rods are sleeved with locking nuts, the bottoms of the threaded rods are provided with moving platforms, the bottoms of the threaded rods are rotationally connected with the moving platforms, the moving platforms are vertically and slidably mounted on the outer side wall of the conveying cylinder, and the tops of the tension meters are fixed at the bottoms of the moving platforms.

More preferably, a first laser range finder is arranged at the bottom of the mobile platform, and the first laser range finder detects the distance between the mobile platform and the sliding seat;

and a second laser range finder is arranged on the fixed end of the telescopic oil cylinder, a measuring plate is arranged on the movable end of the telescopic oil cylinder, and the second laser range finder detects the distance between the second laser range finder and the measuring plate.

More preferably, the bottom of the conveying cylinder is sleeved with a sliding cylinder in a sliding manner, the bottom of the sliding cylinder is conical, the top of the sliding cylinder is communicated with a sliding pipe, the outer wall of the sliding pipe is sleeved with a sleeve in a sliding manner, the sleeve is fixedly connected with the conveying cylinder through two supporting arms, and the fixed end of the telescopic oil cylinder is arranged on one supporting arm;

the sliding cylinder is characterized by further comprising a second motor, the second motor is fixed on one supporting arm, a rotating wheel is driven at the output end of the second motor, a pushing column is eccentrically arranged on the rotating wheel, a sliding groove in the horizontal direction is formed in the outer side wall of the sliding cylinder, and the pushing column is slidably arranged in the sliding groove.

Compared with the prior art, the invention has the beneficial effects that: through adopting the mode of automatic quantitative weighing and packing chemical auxiliary agent, can effectively simplify the operation mode, avoid frequent loaded down with trivial details operation of weighing in traditional packaging mode, realize the quick packing of chemical auxiliary agent, improve work efficiency, liberate the manpower.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings may be obtained according to the drawings without inventive effort to those skilled in the art.

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is an enlarged schematic view of the transfer drum and its upper structure of FIG. 1;

FIG. 3 is a schematic diagram of the right-hand structure of FIG. 2;

FIG. 4 is a schematic top view of FIG. 2;

FIG. 5 is a schematic cross-sectional view of the transfer drum of FIG. 2;

the reference numerals in the drawings: 1. a conveying platform; 2. packaging barrel; 3. a material conveying pipe; 4. a delivery cylinder; 5. a rotating shaft; 6. a partition plate; 7. a slide; 8. a first motor; 9. a spring; 10. a tension meter; 11. triangular splice plates; 12. a cross; 13. a slide bar; 14. a rotating column; 15. a push-pull rod; 16. a telescopic oil cylinder; 17. a fixing plate; 18. a threaded rod; 19. locking a nut; 20. a mobile platform; 21. a first laser range finder; 22. a second laser range finder; 23. a measuring plate; 24. a slide cylinder; 25. a slide tube; 26. a sleeve; 27. a support arm; 28. a second motor; 29. a rotating wheel; 30. pushing the column.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

In the description of the present invention, it should be noted that the directions or positional relationships indicated as being "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are directions or positional relationships based on the drawings are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements to be referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; the connection may be direct or indirect via an intermediate medium, or may be internal communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art. This example was written in a progressive manner.

As shown in fig. 1 to 5, the chemical auxiliary packaging equipment comprises a conveying platform 1, a packaging barrel 2 and a conveying pipe 3, wherein the packaging barrel 2 is horizontally conveyed on the conveying platform 1, and the conveying pipe 3 is positioned above the conveying platform 1;

the automatic feeding device is characterized by further comprising a conveying cylinder 4, wherein the conveying cylinder 4 is positioned between the packaging barrel 2 and the conveying pipe 3, a rotating shaft 5 is transversely arranged in the conveying cylinder 4, sliding holes are vertically formed in the left side wall and the right side wall of the conveying cylinder 4, the length direction of each sliding hole is vertical, the end part of each rotating shaft 5 penetrates through each sliding hole and extends out, a partition plate 6 is arranged on each rotating shaft 5 in the conveying cylinder 4, the partition plate 6 partitions the inner space of the conveying cylinder 4, a sliding seat 7 is arranged at the end part of each rotating shaft 5 outside the conveying cylinder 4, the rotating shafts 5 rotate on the sliding seat 7, the sliding seat 7 is vertically and slidably arranged on the outer side wall of the conveying cylinder 4, a first motor 8 is arranged on one sliding seat 7, and the output end of each first motor 8 is in transmission connection with the corresponding rotating shaft 5;

the top of the sliding seat 7 is provided with a spring 9, the top of the spring 9 is provided with a tension meter 10, and the tension meter 10 can detect the elasticity of the spring 9.

Specifically, conveying platform 1 continuously carries pail pack 2, when pail pack 2 removes to the conveyer drum 4 bottom, the output of conveying pipeline 3 this moment, conveyer drum 4 and pail pack 2's input position alignment, the raw materials accessible conveyer drum 4 open-top that conveying pipeline 3 carried falls to baffle 6, along with the raw materials on baffle 6 increase gradually, baffle 6 promotes synchronous downmovement of pivot 5, pivot 5 moves down in the sliding hole, pivot 5 drives slide 7 and moves down, slide 7 pulling spring 9 takes place elastic deformation, the deflection of pull meter 10 detection spring 9, thereby detect the raw materials weight on baffle 6, when the raw materials weight on baffle 6 reaches the prescribed value, conveying pipeline 3 stops the feed, and first motor 8 operation, first motor 8 accessible pivot 5 drives baffle 6 upset, thereby the raw materials that holds on the baffle 6 is down to be overturned, the raw materials accessible conveyer drum 4 bottom opening falls into pail pack 2 can.

When the sliding seat 7 slides downwards, the side wall of the sliding seat 7 is always attached to the outer wall of the conveying cylinder 4, so that the side wall of the sliding seat 7 seals the sliding hole, and after the packaging barrel 2 is filled with a specified amount of raw materials, a barrel cover on the packaging barrel 2 is covered at the opening position of the packaging barrel 2, so that the packaging work of the auxiliary agent is realized.

Through adopting automatic weighing and packing chemical auxiliary's mode, can effectively simplify the operation mode, avoid frequent loaded down with trivial details operation of weighing in the traditional packaging mode, realize chemical auxiliary's quick packing, improve work efficiency, liberate the manpower.

More preferably, the conveying cylinder 4 is square in shape, each inner side wall of the conveying cylinder 4 is obliquely and rotatably provided with a triangular splice plate 11, and the four triangular splice plates 11 can be spliced into an inverted cone.

Specifically, when the weight of the raw material on the partition plate 6 reaches a specified amount, the four triangular splice plates 11 are pushed to approach and attach to each other, at this time, the four triangular splice plates 11 form an inverted cone shape and intercept the raw material discharged from the conveying pipe 3 on the four triangular splice plates 11, when the partition plate 6 is turned over for half a circle and the raw material on the partition plate is poured into the packaging barrel 2, the four triangular splice plates 11 are opened, and the raw material on the four triangular splice plates 11 naturally slides onto the partition plate 6 and is repeatedly weighed.

Through adopting the structural style of four triangle splice plates 11, can realize the continuous row material work of conveying pipeline 3, the time when conveniently dumping the raw materials to baffle 6 is utilized to effectively improve work efficiency, improve the continuity that the raw materials packing was weighed.

More preferably, a cross 12 is arranged between the four triangular splice plates 11, a sliding rod 13 is rotatably arranged on the surface of the triangular splice plates 11, the rotation axis of the sliding rod 13 is parallel to the rotation axis of the triangular splice plates 11, the sliding rod 13 is horizontal, and the end part, far away from the triangular splice plates 11, of the sliding rod 13 is slidably inserted into the cross 12.

Specifically, because the rotation axis of the sliding rod 13 is parallel to the rotation axis of the triangular splice plate 11, the rotation axes of the two sliding rods 13 on two adjacent triangular splice plates 11 are vertical, and because the four sliding rods 13 are all connected with each other through the cross 12, when one triangular splice plate 11 is pushed to rotate, the triangular splice plate 11 can push the rest three triangular splice plates 11 to synchronously move through the four sliding rods 13 and the cross 12, so that synchronous closing or opening work of the four triangular splice plates 11 is realized, the four triangular splice plates 11 are conveniently and smoothly butted, and the situation that the four triangular splice plates 11 cannot be aligned and intercept raw materials due to incapability of synchronous movement of the four triangular splice plates 11 is avoided.

More preferably, the cross section of the cross 12 and the cross section of the slide bar 13 are both tapered, and the taper direction is upward.

Specifically, by setting the cross 12 and the slide bar 13 to be tapered, the raw materials discharged from the material conveying pipe 3 can be prevented from being deposited on the cross 12 and the slide bar 13, and the raw materials can conveniently fall onto the four triangular splice plates 11 or the partition plate 6.

More preferably, a rotating column 14 is rotationally inlaid on the side wall of the conveying cylinder 4, one side of the rotating column 14 is positioned at the outer side of the conveying cylinder 4, the other side of the rotating column 14 is positioned at the inner side of the conveying cylinder 4, a push-pull rod 15 is slidingly inserted on the rotating column 14, one end of the push-pull rod 15 is rotationally arranged on a triangular splice plate 11, the other end of the push-pull rod 15 is obliquely provided with a telescopic oil cylinder 16, and the push-pull rod 15 is rotationally connected with the telescopic oil cylinder 16.

Specifically, when the telescopic cylinder 16 stretches, the telescopic cylinder 16 can pull the rotary column 14 to rotate through the push-pull rod 15, and meanwhile, as the triangular splice plate 11 is obliquely overturned upwards, the push-pull rod 15 slides through the rotary column 14 and is conveyed into the conveying cylinder 4, so that power is provided for the triangular splice plate 11.

More preferably, the left and right side walls of the conveying cylinder 4 are respectively fixed with a fixing plate 17, the fixing plates 17 are vertically inserted with threaded rods 18, the fixing plates 17 are in threaded connection with the threaded rods 18, the threaded rods 18 are sleeved with locking nuts 19, the bottoms of the threaded rods 18 are provided with moving platforms 20, the bottoms of the threaded rods 18 are rotationally connected with the moving platforms 20, the moving platforms 20 are vertically and slidably mounted on the outer side walls of the conveying cylinder 4, and the tops of the tension meters 10 are fixed at the bottoms of the moving platforms 20.

Specifically, screw lock nut 19, the fixed position between threaded rod 18, fixed plate 17 and the moving platform 20, the fixed position of tensiometer 10 this moment, the position height of moving platform 20 is adjustable to the accessible rotation threaded rod 18 of lock nut 19 of unscrewing, thereby adjusts the position height of tensiometer 10, conveniently adjusts the raw materials weight of baffle 6 ration weighing.

More preferably, a first laser range finder 21 is arranged at the bottom of the mobile platform 20, and the first laser range finder 21 detects the distance between the mobile platform 20 and the sliding seat 7;

the fixed end of the telescopic oil cylinder 16 is provided with a second laser range finder 22, the movable end of the telescopic oil cylinder 16 is provided with a measuring plate 23, and the second laser range finder 22 detects the distance between the second laser range finder 22 and the measuring plate 23.

Specifically, the first laser rangefinder 21, the second laser rangefinder 22 and the telescopic cylinder 16 are all connected with an external electric cabinet, the first laser rangefinder 21 detects the distance between the moving platform 20 and the sliding seat 7, along with the increase of the weight of raw materials on the partition plate 6, the first laser rangefinder 21 detects the distance increase, the electric cabinet controls the telescopic cylinder 16 to gradually shrink through an external oil pump, the shrinkage of the telescopic cylinder 16 is detected through the second laser rangefinder 22 and the measuring plate 23, and accordingly the closing condition of the four triangular splice plates 11 is detected, namely the size of a gap between the four triangular splice plates 11 is detected, along with the gradual reduction of the gap, the falling amount of raw materials between the four triangular splice plates 11 is also gradually reduced, when the first laser rangefinder 21 detects the sliding seat 7 to move to a specified position, the tension meter 10 detects that the weight of the raw materials on the partition plate 6 reaches a specified amount, and the four triangular splice plates 11 are closed at the moment.

By adopting the mode, when the raw materials on the partition plate 6 reach a specified amount, the blanking on the partition plate 6 can be stopped, and in the traditional closed structures such as a valve and a plug, when the feeding is stopped, the material cannot be closed instantaneously, so that a small amount of raw materials still fall, the problem of the reduction of the weighing precision is caused, and the structure mode in the scheme can adjust the size of gaps among the four triangular splice plates 11 in real time and gradually reduce the gaps, so that the feeding can be directly stopped when the weight of the raw materials reaches a specified value, and the weighing precision is effectively improved.

Since the tension gauge 10 detects the tension of the spring 9 in proportion to the elastic deformation length thereof, when the spring 9 is elongated to a prescribed length, the tension gauge 10 detects the tension as a prescribed value, and the laser range finder 21 is combined to detect the change in distance between the slide 7 and the moving platform 20, thereby weighing the weight of the raw material on the partition 6 in two aspects.

More preferably, the bottom of the conveying cylinder 4 is sleeved with a sliding cylinder 24 in a sliding manner, the bottom of the sliding cylinder 24 is conical, the top of the sliding cylinder 24 is communicated with a sliding pipe 25, the outer wall of the sliding pipe 25 is sleeved with a sleeve 26 in a sliding manner, the sleeve 26 is fixedly connected with the conveying cylinder 4 through two supporting arms 27, and the fixed end of the telescopic cylinder 16 is arranged on one supporting arm 27;

the sliding cylinder comprises a sliding cylinder 24, a supporting arm 27, a second motor 28, a rotating wheel 29, a pushing column 30, a sliding groove and a pushing column 30, wherein the second motor 28 is fixed on the supporting arm 27, the output end of the second motor 28 is driven by the rotating wheel 29, the pushing column 30 is eccentrically arranged on the rotating wheel 29, the sliding groove is formed in the outer side wall of the sliding cylinder 24 in the horizontal direction, and the pushing column 30 is slidably arranged in the sliding groove.

Specifically, through setting up slide 24, slide 25 and sleeve pipe 26, can conveniently carry out the throat to blanking bore and handle, avoid the raw materials to fall to the outside of pail pack 2, when second motor 28 rotates, second motor 28 accessible runner 29, push post 30 and spout stir slide 24 reciprocates, slide 24 vertical reciprocating vibration on transport section of thick bamboo 4, slide 24 drives slide 25 on sleeve pipe 26 simultaneously, through making slide 24 vibrate, can avoid the raw materials to deposit on the toper inner wall of slide 24, the convenience makes the raw materials fall into totally in the pail pack 2, and slide 24's vibration can drive transport section of thick bamboo 4 and baffle 6 and produce small amplitude vibration, therefore can be when baffle 6 upset, the raw materials on the baffle 6 bottom surface fall.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that it will be apparent to those skilled in the art that modifications and variations can be made without departing from the technical principles of the present invention, and these modifications and variations should also be regarded as the scope of the invention.

Claims (3)

1. The chemical auxiliary packaging equipment comprises a conveying platform (1), a packaging barrel (2) and a conveying pipe (3), wherein the packaging barrel (2) is horizontally conveyed on the conveying platform (1), and the conveying pipe (3) is positioned above the conveying platform (1);

the automatic feeding device is characterized by further comprising a conveying cylinder (4), wherein the conveying cylinder (4) is positioned between the packaging barrel (2) and the conveying pipe (3), a rotating shaft (5) is transversely arranged in the conveying cylinder (4), sliding holes are vertically formed in the left side wall and the right side wall of the conveying cylinder (4), the length direction of each sliding hole is vertical, the end part of each rotating shaft (5) penetrates through each sliding hole and stretches out, a partition plate (6) is arranged on each rotating shaft (5) in the conveying cylinder (4), the partition plates (6) separate the inner space of the conveying cylinder (4), a sliding seat (7) is arranged at the end part of each rotating shaft (5) at the outer side of the conveying cylinder (4), the rotating shafts (5) rotate on the sliding seats (7), the sliding seats (7) are vertically and slidably arranged on the outer side wall of the conveying cylinder (4), and a first motor (8) is arranged on one sliding seat (7), and the output end of each first motor (8) is in transmission connection with the corresponding rotating shaft (5).

The top of the sliding seat (7) is provided with a spring (9), the top of the spring (9) is provided with a tension meter (10), and the tension meter (10) can detect the elasticity of the spring (9);

the conveying cylinder (4) is square in shape, each inner side wall of the conveying cylinder (4) is obliquely and rotatably provided with a triangular splice plate (11), and the four triangular splice plates (11) can be spliced into an inverted cone;

a cross (12) is arranged among the four triangular splice plates (11), a sliding rod (13) is rotatably arranged on the surface of the triangular splice plates (11), the rotation axis of the sliding rod (13) is parallel to the rotation axis of the triangular splice plates (11), the sliding rod (13) is horizontal, and the end part, far away from the triangular splice plates (11), of the sliding rod (13) is slidably inserted into the cross (12);

the cross section of the cross (12) and the cross section of the sliding rod (13) are both conical, and the conical direction is upward;

a rotary column (14) is rotationally embedded on the side wall of the conveying cylinder (4), one side of the rotary column (14) is positioned at the outer side of the conveying cylinder (4), the other side of the rotary column (14) is positioned at the inner side of the conveying cylinder (4), a push-pull rod (15) is slidingly inserted on the rotary column (14), one end of the push-pull rod (15) is rotationally arranged on a triangular splice plate (11), the other end of the push-pull rod (15) is obliquely provided with a telescopic oil cylinder (16), and the push-pull rod (15) is rotationally connected with the telescopic oil cylinder (16);

the utility model discloses a conveyer drum, including conveyer drum (4), fixed plate (17) are all fixed with on the lateral wall about conveyer drum (4), vertical interlude has threaded rod (18) on fixed plate (17), and fixed plate (17) and threaded rod (18) threaded connection, the spiral shell dress cover is equipped with lock female (19) on threaded rod (18), the bottom of threaded rod (18) is equipped with moving platform (20), and threaded rod (18) bottom and moving platform (20) rotate to be connected, moving platform (20) vertical slidable mounting is on the lateral wall of conveyer drum (4), the top of tensiometer (10) is fixed in the bottom of moving platform (20).

2. The chemical auxiliary packaging equipment as claimed in claim 1, wherein a first laser range finder (21) is arranged at the bottom of the movable platform (20), and the first laser range finder (21) detects the distance between the movable platform (20) and the sliding seat (7);

the fixed end of the telescopic oil cylinder (16) is provided with a second laser range finder (22), the movable end of the telescopic oil cylinder (16) is provided with a measuring plate (23), and the second laser range finder (22) detects the distance between the second laser range finder (22) and the measuring plate (23).

3. A chemical auxiliary packaging device as claimed in claim 2, wherein the bottom of the conveying cylinder (4) is slidably sleeved with a sliding cylinder (24), the bottom of the sliding cylinder (24) is conical, the top of the sliding cylinder (24) is communicated with a sliding pipe (25), a sleeve (26) is slidably sleeved on the outer wall of the sliding pipe (25), the sleeve (26) is fixedly connected with the conveying cylinder (4) through two supporting arms (27), and the fixed end of the telescopic cylinder (16) is arranged on one supporting arm (27);

the sliding device is characterized by further comprising a second motor (28), wherein the second motor (28) is fixed on a supporting arm (27), a rotating wheel (29) is driven by the output end of the second motor (28), a pushing column (30) is eccentrically arranged on the rotating wheel (29), a sliding groove in the horizontal direction is formed in the outer side wall of the sliding cylinder (24), and the pushing column (30) is slidably arranged in the sliding groove.