CN218043037U - Cauliflower is cultivated and uses pollination ware - Google Patents

Abstract

The utility model discloses a cauliflower is cultivated and uses pollinator relates to pollinator technical field, and its technical scheme main points include: quantitative pollen discharging assembly, the fixed setting of quantitative pollen discharging assembly is on the surface of pollinator casing, the fan rotates the inside that sets up at the pollinator casing, first gear and second gear all rotate the inside that sets up at the pollinator casing, the fixed inside that sets up at the pollinator casing of track board, it is provided with the rack to slide on the side of track board, the surface of rack with can with first gear is the engaged state, just when the track board configures into the one end slip to the track board as the rack, the rack with first gear keeps the engaged state to make first gear rotate, and the effect need not be for the fan provides the electric energy, has not only practiced thrift the resource, can not influenced its normal use by how much of electric quantity simultaneously, and the practicality is higher.

Description

Cauliflower is cultivated and uses pollination ware

Technical Field

The utility model relates to a pollinator technical field, more specifically say that it relates to a cauliflower is cultivated and uses pollinator.

Background

The cauliflower is a variant of wild cabbage of Brassica of Brassicaceae, a biennial herb with a height of 60-90 cm, and is frosted; the stem is upright, thick and strong, and has branches; the basal leaves and the lower leaves are oblong to elliptical; the leaves at the middle upper part of the stem are smaller and have no handle, and the stem is embraced as long as being in a shape of a round needle; the top end of the stem is provided with 1 milky fleshy head-shaped body densely integrated by total pedicel, pedicel and undeveloped flower bud; the raceme grows from the top and the axilla; the flower is light yellow and becomes white; seeds were wide oval, brown.

The cauliflower is one of the favorite vegetables of people, the demand of people for the cauliflower is large, people can plant in large batches, in order to improve the yield of the cauliflower, workers can use the pollinator for artificial pollination, each cauliflower can grow normally, the improvement of a constant is realized, most of pollinators in the existing market mainly drive fans inside the pollinators to rotate by electric energy, and then the cauliflower powder conveyed to the inside of the pollinator is blown to the outside of the pollinator, so that the cauliflower powder is scattered onto the cauliflower to be pollinated, in the mode, although the fans are driven to rotate by electric energy, the high-efficiency fan pollination efficiency is high, certain limitation still exists, for example, when the large batches of cauliflowers are subjected to centralized pollination, the condition that the electric quantity inside the pollinators is insufficient easily occurs, when the electric quantity in the pollinator is exhausted, the pollination action is difficult to continue, the pollinating action can be continued only after the electric quantity is complemented for the pollinator, the normal work of the workers is delayed, and the fans are rotated by the electric energy, and the manufacturing cost of the pollinator is relatively high.

Therefore, in order to solve the technical problem, the inventor improves the pollinator, not only is the use simple and convenient, and no longer need rely on the electric energy drive fan to rotate, also can be with smooth transport to the outside of pollinator of cauliflower powder, and this application provides a cauliflower is cultivated and uses pollinator.

SUMMERY OF THE UTILITY MODEL

To the deficiency that prior art exists, the utility model aims to provide a cauliflower is cultivated and is used pollination ware.

In order to achieve the above purpose, the utility model provides the following technical scheme: a pollinator for cauliflower cultivation, comprising:

the quantitative pollen discharging assembly is fixedly arranged on the outer surface of the pollinator shell and is used for conveying a certain amount of cauliflower powder into the pollinator shell;

the fan is rotationally arranged inside the pollinator shell, is positioned at the downstream of the quantitative pollen discharging assembly and is used for blowing the cauliflower powder conveyed by the quantitative pollen discharging assembly to the front end of the pollinator shell;

the pollinator comprises a pollinator shell, a fan, a first gear, a second gear, a transmission piece and a control device, wherein the first gear and the second gear are both rotationally arranged inside the pollinator shell, the first gear and the second gear are kept in a meshed state, the transmission piece is arranged between the second gear and the fan, and the transmission piece is used for enabling the fan to synchronously rotate along with the second gear;

the device comprises a track plate, a rack, a first gear, a second gear and a driving device, wherein the track plate is fixedly arranged in the pollinator shell, a rack is arranged on one side face of the track plate in a sliding mode, the outer surface of the rack can be meshed with the first gear, the track plate is configured in such a way that when the rack slides to one end of the track plate, the rack and the first gear are kept in a meshed state to enable the first gear to rotate, and when the rack slides to the other end of the track plate to reset, the rack and the first gear are separated;

drive assembly, drive assembly with rack sliding fit, and be used for driving rack reciprocating motion on the both ends of track board, when the rack resets to the other end slip of track board, can drive the second gear and rotate simultaneously.

Preferably, the track board with straight track and arc track have been seted up on the face that the cogged rail is relative, the orbital both ends of arc with straight track is the connected state, orbital both ends department of arc all rotates and sets up one-way rotation piece.

Preferably, one-way rotation piece is first one-way commentaries on classics board, the one-way commentaries on classics board of second and torsional spring, first one-way commentaries on classics board with the one-way commentaries on classics board of second rotates respectively and sets up in orbital both ends department of arc, first one-way commentaries on classics board with one side of the one-way commentaries on classics board of second all is fixed and is provided with the torsional spring, just the one end of torsional spring with track board fixed connection.

Preferably, drive assembly includes drive plate and spring, the drive plate slides and sets up on the pollinator casing, the spring is fixed set up the drive plate with between the pollinator casing, the spout has been seted up on a side of drive plate, on a side of rack through fixed first slide bar that sets up with spout sliding fit.

Preferably, the driving assembly further comprises a wire rope and a guide wheel; one end of the steel wire rope is wound on the rotating shaft of the second gear, the other end of the steel wire rope is fixedly connected with the driving plate, and the guide wheel is rotatably arranged inside the pollinator shell and used for guiding the steel wire rope.

Preferably, the transmission member includes a driven bevel gear and a driving bevel gear, the driving bevel gear is fixedly connected to the first gear, the driven bevel gear is fixedly connected to the fan, and the driven bevel gear is engaged with the driving bevel gear.

Preferably, the quantitative powder discharging assembly comprises a storage part, a quantitative powder discharging rotating column and a transmission belt, the storage part is fixedly arranged on the outer surface of the pollinator shell, the quantitative powder discharging rotating column is rotatably arranged inside the storage part, and storage grooves are formed in the circumferential direction of the quantitative powder discharging rotating column at equal intervals; one end of the transmission belt is sleeved on one end of the fan, and the other end of the transmission belt is sleeved on one end of the quantitative powder discharging rotating column.

Preferably, the fixed inner tube that is provided with of tip of pollinator casing, the surface of fixed inner tube is slided and is provided with the movable sleeve, the movable sleeve with be provided with the setting element between the fixed inner tube for fix the movable sleeve on the surface of fixed inner tube.

Preferably, the positioning piece is a positioning bolt, and the positioning bolt is in threaded fit with the movable sleeve.

Compared with the prior art, this practicality possesses following beneficial effect: the quantitative pollen discharging assembly is fixedly arranged on the pollinator shell, a specified amount of cauliflower powder is provided for the interior of the pollinator shell, and the fan provides wind power to convey the cauliflower powder to cauliflowers to be pollinated;

the first gear and the second gear are arranged in the pollinator shell in a rotating mode, the first gear and the second gear are always in a meshed state, a toothed rail arranged in the pollinator shell in a sliding mode can be in a meshed state with the first gear and can also be in a separated state, the toothed rail is in sliding fit with the track plate, when the toothed rail slides towards one end of the track plate by using the driving assembly, the gears are in a meshed state with the first gear and drive the gears to rotate, when the gears slide towards the other end of the track plate to reset, the toothed rail is in a separated state from the first gear, the driving assembly continues to drive the second gear to rotate, the first gear still keeps the original rotating direction to rotate, the fans always keep the same rotating direction to rotate, cauliflower powder is smoothly blown to the outside of the pollinator shell, the use is simple and convenient, labor-saving, the pollinator capable of rotating by using electric power does not need to provide electric power for the fans, resources are saved, and the normal use of the pollinator is not influenced by the quantity of the electric power, and the pollinator shell is high in practicability.

Drawings

Fig. 1 is a schematic view of the internal structure of the present invention;

fig. 2 is a schematic structural view of the middle quantitative powder discharging assembly, the rack, the track plate, the first gear and the second gear of the present invention;

fig. 3 is a schematic view of the split structure of the middle rack rail, the driving plate and the rail plate of the present invention;

fig. 4 is a schematic view of the split structure of the middle track plate and the first unidirectional rotating plate of the present invention;

fig. 5 is a schematic view of the split structure of the middle quantitative discharging rotary column and the storage part of the present invention.

1. A pollinator housing; 2. a storage section; 3. a fan; 4. a first gear; 5. a second gear; 6. a wire rope; 7. a guide wheel; 8. a drive plate; 9. a spring; 10. a movable sleeve; 11. Fixing the inner cylinder; 12. a rack; 13. a track plate; 14. a driven bevel gear; 15. a drive bevel gear; 16. a transmission belt; 17. a first slide bar; 18. a second slide bar; 19. straightening a track; 20. An arc-shaped track; 21. a chute; 22. a first unidirectional rotating plate; 23. a torsion spring; 24. a second unidirectional rotation plate; 25. quantitatively discharging the powder and rotating the column; 26. a storage recess; 27. positioning the bolt; 28. a push rod; 29. a sealing cover; 30. a powder outlet; 31. quantitatively discharging the powder out of the shell; 32. a shaft rod.

Detailed Description

An embodiment of a pollinator for cauliflower cultivation according to the present invention will be further described with reference to fig. 1 to 5.

A pollinator for cauliflower cultivation, comprising:

the quantitative pollen discharging assembly is fixedly arranged on the outer surface of the pollinator shell 1 and is used for conveying a certain amount of cauliflower powder to the interior of the pollinator shell 1, the specified amount of cauliflower powder can be effectively conveyed to cauliflowers to be pollinated, the utilization rate of the cauliflower powder can be effectively improved, the amount of the cauliflower powder conveyed to each cauliflower to be pollinated is basically the same, and the conveying of a proper amount of cauliflower powder is also beneficial to improving the success rate of pollination;

the fan 3 is rotationally arranged inside the pollinator shell 1, is positioned at the downstream of the quantitative powder discharging assembly and is used for blowing the cauliflower powder conveyed by the quantitative powder discharging assembly to the front end of the pollinator shell 1;

the first gear 4 and the second gear 5, the first gear 4 and the second gear 5 are both rotatably arranged inside the pollinator shell 1, the first gear 4 and the second gear 5 are kept in a meshed state, a transmission part is arranged between the second gear 5 and the fan 3, the transmission part is used for enabling the fan 3 to synchronously rotate along with the second gear 5, the first gear 4 and the second gear 5 can be arranged at the downstream of the fan 3, in the process that the fan 3 blows the cauliflower powder conveyed by the quantitative powder outlet assembly to the front end of the pollinator shell 1, no obstacle for preventing the cauliflower powder from entering the front end of the pollinator shell 1 is generated, the smooth leaving of the cauliflower powder from the inside of the pollinator shell 1 is facilitated, and meanwhile, the waste of the cauliflower powder can be reduced;

the device comprises a track plate 13, the track plate 13 is fixedly arranged inside a pollinator shell 1, a rack 12 is arranged on one side surface of the track plate 13 in a sliding mode, the outer surface of the rack 12 can be in a meshed state with a first gear 4, the track plate 13 is configured in such a way that when the rack 12 slides to one end of the track plate 13, the rack 12 and the first gear 4 are kept in a meshed state to enable the first gear 4 to rotate, a driving part drives a fan 3 to rotate, cauliflower powder is blown to the outside of the pollinator shell 1 to be pollinated, and when the rack 12 slides to the other end of the track plate 13 to reset, the rack 12 and the first gear 4 are in a separated state;

the driving assembly is in sliding fit with the toothed rail 12 and is used for driving the toothed rail 12 to reciprocate on two ends of the rail plate 13, meanwhile, when the toothed rail 12 slides to reset towards the other end of the rail plate 13, the second gear 5 can be driven to rotate, and in the process that the toothed rail 12 slides to reset towards the other end of the rail plate 13, the toothed rail 12 and the first gear 4 are in a separation state, and in the process, the driving assembly drives the second gear 5 to rotate, so that the first gear 4 meshed with the second gear rotates along with the second gear, so that the fan 3 can be always kept in a continuous rotation state in the process that the toothed rail 12 reciprocates at two ends of the rail plate 13.

The surface of the track plate 13 opposite to the gear rack 12 is provided with a straight track 19 and an arc track 20, the two ends of the arc track 20 are communicated with the straight track 19, a second slide bar 18 is fixedly arranged on the opposite surface of the gear rack 12 and the track plate 13, the gear rack 12 is in sliding fit with the track plate 13 through the second slide bar 18, two ends of the arc track 20 are both rotatably provided with one-way rotating pieces, when the rack 12 slides towards one end of the track plate 13, the second slide bar 18 is in sliding fit with the straight track 19, at this time, the rack 12 and the first gear 4 are kept in a meshed state, thereby driving the first gear 4 to rotate therewith, and when the rack 12 moves to the end position of the straight rail 19, at the same time, the second slide bar 18 enters the end position of the arc-shaped track 20, and during the process that the rack 12 moves to the other end of the track plate 13 again for resetting, the second sliding bar 18 slides directly into the arc track 20 under the action of the one-way rotating element, since the arc-shaped rail 20 is disposed at a lower position of the straight rail 19, the rack 12 is gradually disengaged from the first gear 4, when the one-way rotating piece moves to the end position of the arc-shaped track 20 again, the one-way rotating piece is crossed and enters the end part of the straight track 19, the process is carried out in a circulating and reciprocating way, the one-way rotating piece comprises a first one-way rotating plate 22, a second one-way rotating plate 24 and a torsion spring 23, the first one-way rotating plate 22 and the second one-way rotating plate 24 are respectively rotatably arranged at two ends of the arc-shaped track 20, the torsion spring 23 is fixedly arranged at one side of each of the first one-way rotating plate 22 and the second one-way rotating plate 24, one end of the torsion spring 23 is fixedly connected with the track plate 13, after the second slide bar 18 passes over the first one-way rotation plate 22 or the second one-way rotation plate 24, the first one-way rotation plate 22 or the second one-way rotation plate 24 is rotated and restored by the elastic force of the torsion spring 23.

The driving assembly comprises a driving plate 8 and a spring 9, the driving plate 8 is arranged on the pollinator shell 1 in a sliding mode, the spring 9 is fixedly arranged between the driving plate 8 and the pollinator shell 1, a push rod 28 is fixedly arranged on one side face of the driving plate 8, one end of the push rod 28 is arranged outside the pollinator shell 1, when pollination is carried out, one end of the push rod 28 is directly pressed inwards manually, as the rack 12 is arranged on the vertical direction of the driving plate 8 in a sliding mode, the rack 12 can be driven to reciprocate leftwards and rightwards in the process of moving the driving plate 8 leftwards and rightwards, the rack 12 is driven to slide inwards on the straight track 19 when the driving plate 8 moves inwards, the first gear 4 is driven to rotate, the rack 12 moves to the rear end portion of the straight track 19, the acting force on the push rod 28 is cancelled, at the moment, the driving plate 8 is enabled to slide outwards and reset under the elastic force action of the spring 9, A sliding groove 21 is formed in one side face of a driving plate 8, a first sliding rod 17 fixedly arranged on one side face of a rack 12 is in sliding fit with the sliding groove 21, the rack 12 can move in the vertical direction when sliding and resetting in an arc-shaped track 20, at the moment, the first sliding rod 17 slides in the sliding groove 21 to adjust the position of the rack 12 on the driving plate 8 so that the rack 12 and the driving plate 8 are always in a connected state, in the driving mode, a user can enable a first gear 4 to always keep a rotating state only by manually pressing one end of a push rod 28, the use is simple, convenient and labor-saving, for pollinators which rotate by using an electric driving fan 3, the fan 3 is also required to be continuously and manually pressed to provide electric energy for the fan 3 to rotate, and under the device, the fan 3 can be always in a rotating state by continuously pressing one end of the push rod 28, and need not provide the electric energy for fan 3, not only practiced thrift the resource, can not influenced its normal use by the volume of electric quantity simultaneously, the practicality is higher.

The driving assembly further comprises a steel wire rope 6 and a guide wheel 7, one end of the steel wire rope 6 is wound on the rotating shaft of the second gear 5, a groove used for winding the steel wire rope 6 is formed in the second gear 5, the width of the groove can be controlled to be larger than the diameter length of the steel wire rope 6 and smaller than twice the diameter length of the steel wire rope 6, the steel wire rope 6 can be wound in the groove flatly, the other end of the groove is fixedly connected with the driving plate 8, the guide wheel 7 is rotatably arranged inside the pollinator shell 1 and used for guiding the steel wire rope 6, when the rack 12 drives the first gear 4 to rotate, the first gear 4 drives the second gear 5 to rotate together, the driving plate 8 moves towards the inside of the pollinator shell 1, the steel wire rope 6 is gradually wound on the rotating shaft of the second gear 5, when the driving plate 8 moves towards the outside of the pollinator shell 1, one end of the steel wire rope 6 is pulled, the second gear 5 is driven to rotate reversely, the first gear 4 meshed with the first gear keeps the original rotating direction to rotate, and the fan 3 can always keep the same rotating direction to rotate, and the pollinator shell 1 can smoothly blow the cauliflower powder to the outside of the pollinator shell 1.

The transmission part comprises a driven bevel gear 14 and a drive bevel gear 15, the drive bevel gear 15 is fixedly connected with a first gear 4, the driven bevel gear 14 is fixedly connected with a fan 3, a shaft lever 32 is fixedly arranged on the fan 3, one end of the shaft lever 32 is fixedly connected with the driven bevel gear 14, the driven bevel gear 14 is meshed with the drive bevel gear 15, the first gear 4 rotates to enable the drive bevel gear 15 and the driven bevel gear 14 to rotate, and the fan 3 rotates along with the rotation of the first gear.

Quantitative play powder subassembly is including storage part 2, quantitative play powder rotates post 25 and drive belt 16, storage part 2 is fixed to be set up on the surface of pollinator casing 1, the top of storage part 2 can be dismantled and is provided with sealed lid 29, quantitative play powder rotates post 25 and rotates the inside that sets up at storage part 2, the equidistant storage groove 26 of having seted up on the circumferencial direction of quantitative play powder rotation post 25, the fixed ration play powder shell 31 that is provided with of low side of storage part 2, the diameter of quantitative play powder shell 31 inner chamber sets up to rotate the diameter looks adaptation of post 25 with quantitative play powder, then the inside of storage groove 26 is shifted to cauliflower powder intelligence of storage part 2 inside, avoid having some cauliflower powder and enter into the quantitative play powder and rotate the inside that post 25 and quantitative play powder shell 31 inner wall between the gap, influence output cauliflower powder's volume, the lower extreme department that goes out powder shell 31 has seted up out powder mouth 30 at quantitative, a cauliflower powder mouth 30 has been used for supplying quantitative play powder to rotate the cauliflower powder that post 25 carried and pass through the inside that gets into pollinator casing 1, the other end cover of fan 3 is held, the quantitative play powder rotation post 25 rotates the synchronous rotational simultaneously, the drive mechanism can carry out the quantitative play powder 25.

The end fixing of pollinator shell 1 is provided with fixed inner tube 11, it is provided with movable sleeve 10 to slide on the surface of fixed inner tube 11, be provided with the setting element between movable sleeve 10 and the fixed inner tube 11, be used for fixing movable sleeve 10 on the surface of fixed inner tube 11, the setting element is positioning bolt 27, positioning bolt 27 and movable sleeve 10 screw-thread fit, to the user of different heights, the length that adjustable movable sleeve 10 stretched out, use more comfortable for the user, and when this pollinator pollinates different plants, the height difference of plant, the length of adjusting movable sleeve 10 can, make its application range more extensive.

The above description is only the preferred embodiment of the present invention, the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the present invention all belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the present disclosure may be made by those skilled in the art without departing from the spirit of the present disclosure.

Claims (9)

1. The utility model provides a cauliflower is cultivated and uses pollination ware which characterized in that: the method comprises the following steps:

the quantitative pollen discharging component is fixedly arranged on the outer surface of the pollinator shell (1) and is used for conveying a certain amount of cauliflower powder into the pollinator shell (1);

the fan (3) is rotationally arranged inside the pollinator shell (1), is positioned at the downstream of the quantitative pollen discharging assembly and is used for blowing the cauliflower powder conveyed by the quantitative pollen discharging assembly to the front end of the pollinator shell (1);

the pollinator comprises a first gear (4) and a second gear (5), wherein the first gear (4) and the second gear (5) are rotatably arranged inside a pollinator shell (1), and the first gear (4) and the second gear (5) are kept in a meshed state; a transmission piece is arranged between the second gear (5) and the fan (3), and the transmission piece is used for enabling the fan (3) to synchronously rotate along with the second gear (5);

the device comprises a track plate (13), wherein the track plate (13) is fixedly arranged inside a pollinator shell (1), a rack (12) is arranged on one side surface of the track plate (13) in a sliding mode, the outer surface of the rack (12) can be meshed with a first gear (4), the track plate (13) is configured in a mode that when the rack (12) slides to one end of the track plate (13), the rack (12) and the first gear (4) are kept in a meshed state to enable the first gear (4) to rotate, and when the rack (12) slides to the other end of the track plate (13) to reset, the rack (12) and the first gear (4) are separated;

drive assembly, drive assembly with rack (12) sliding fit, and be used for driving rack (12) reciprocating motion on the both ends of track board (13), when rack (12) resets to the other end slip of track board (13), can drive second gear (5) and rotate.

2. The pollinator for cauliflower cultivation as claimed in claim 1, wherein: track board (13) with straight track (19) and arc track (20) have been seted up on the face that cogged rail (12) is relative, the both ends of arc track (20) with straight track (19) are the connected state, the both ends department of arc track (20) all rotates and sets up one-way rotation piece.

3. The pollinator for cauliflower cultivation as claimed in claim 2, wherein: one-way rotation piece is first one-way commentaries on classics board (22), the one-way commentaries on classics board (24) of second and torsional spring (23), first one-way commentaries on classics board (22) with the one-way commentaries on classics board (24) of second rotates the both ends department that sets up at arc track (20) respectively, first one-way commentaries on classics board (22) with one side of the one-way commentaries on classics board (24) of second all is fixed and is provided with torsional spring (23), just the one end of torsional spring (23) with track board (13) fixed connection.

4. The pollinator for cauliflower cultivation as claimed in claim 1, wherein: drive assembly includes drive plate (8) and spring (9), drive plate (8) slide and set up on pollinator casing (1), spring (9) fixed set up drive plate (8) with between pollinator casing (1), spout (21) have been seted up on the side of drive plate (8), on the side of cogged rail (12) through fixed first slide bar (17) that sets up with spout (21) sliding fit.

5. The pollinator for cauliflower cultivation as claimed in claim 4, wherein: the driving component also comprises a steel wire rope (6) and a guide wheel (7); one end of the steel wire rope (6) is wound on a rotating shaft of the second gear (5), the other end of the steel wire rope is fixedly connected with the driving plate (8), and the guide wheel (7) is rotatably arranged inside the pollinator shell (1) and used for guiding the steel wire rope (6).

6. The pollinator for cauliflower cultivation as claimed in claim 1, wherein: the transmission part comprises a driven bevel gear (14) and a driving bevel gear (15), the driving bevel gear (15) is fixedly connected with the first gear (4), the driven bevel gear (14) is fixedly connected with the fan (3), and the driven bevel gear (14) and the driving bevel gear (15) are in a meshed state.

7. The pollinator for cauliflower cultivation as claimed in claim 1, wherein: the quantitative powder discharging assembly comprises a storage part (2), a quantitative powder discharging rotating column (25) and a transmission belt (16), wherein the storage part (2) is fixedly arranged on the outer surface of the pollinator shell (1), the quantitative powder discharging rotating column (25) is rotatably arranged inside the storage part (2), and storage grooves (26) are formed in the circumferential direction of the quantitative powder discharging rotating column (25) at equal intervals; one end of the transmission belt (16) is sleeved on one end of the fan (3), and the other end of the transmission belt is sleeved on one end of the quantitative powder discharging rotating column (25).

8. The pollinator for cauliflower cultivation as claimed in claim 1, wherein: the fixed inner tube (11) that is provided with of tip of pollinator casing (1), it is provided with movable sleeve (10) to slide on the surface of fixed inner tube (11), movable sleeve (10) with be provided with the setting element between fixed inner tube (11) for fix movable sleeve (10) on the surface of fixed inner tube (11).

9. The pollinator for cauliflower cultivation as claimed in claim 8, wherein: the positioning piece is a positioning bolt (27), and the positioning bolt (27) is in threaded fit with the movable sleeve (10).

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