CN114733266A - Material filtering purifier for liquid filling - Google Patents

Abstract

The invention discloses a material filtering and purifying machine for liquid filling, which relates to the technical field of liquid filtering, and comprises a base, a precipitation device, a switch device and a filtering device, wherein the filtering device and the precipitation device are symmetrically provided with two groups, the filtering device, the precipitation device and the switch device are all arranged on the base, the filtering device is used for separating and filtering liquid materials, the precipitation device is used for precipitating and filtering the liquid materials, and the switch device is used for controlling the on-off of the precipitation device; the liquid can be primarily filtered by arranging the filtering device, and the filtered impurities can be conveyed out; the liquid can be precipitated by arranging the precipitation device, and impurities are separated from the liquid; according to the invention, the switch device is arranged, so that the baffle plate can quickly rise to release liquid, and the baffle plate slowly descends, so that the liquid can completely flow out.

Description

Material filtering purifier for liquid filling

Technical Field

The invention relates to the technical field of liquid filtration, in particular to a material filtering and purifying machine for liquid filling.

Background

The liquid is one of three substance forms, has no definite shape, is often influenced by a container, and is filled in the process of selling the liquid so as to be beneficial to the selling of the liquid. At liquid material filling in-process, need filter liquid material, current liquid filter equipment often adopts the form of ordinary filter screen, and after filtering for a long time, the phenomenon of jam can appear in the filter screen like this to need change the filter screen, thereby the cost is improved.

Chinese patent publication No. CN214050625U discloses a material filtration purification machine for liquid filling, including the rose box, two sets of hinges, the door, the suction pump, first fixed plate, place the board, two sets of filter screens and collecting box, be provided with the cavity in the rose box, rose box front end intercommunication cavity is provided with the front opening, the door relies on two sets of hinges to install opening part before the rose box openly with opening and shutting, suction pump fixed mounting is on the rose box top, the input intercommunication of suction pump is provided with the absorption pipeline, the input of absorption pipeline is connected with external confession liquid equipment, the fixed suit of first fixed plate is at the absorption pipeline input, place board fixed mounting on first fixed plate, two sets of filter screen parallel mount are in the rose box cavity, the equal symmetry in every group filter screen bottom is provided with two sets of filter screen backup pads. Therefore, although the existing liquid filtering equipment can filter liquid, a filter screen is required to be used, the filter screen is easy to block, and the filtered impurities are not convenient to convey away.

Disclosure of Invention

Aiming at the technical problems, the technical scheme adopted by the invention is as follows: a material filtering and purifying machine for liquid filling comprises a base, a precipitation device, a switch device and a filtering device, wherein the filtering device and the precipitation device are symmetrically provided with two groups, the filtering device, the precipitation device and the switch device are all arranged on the base, the filtering device is used for separating and filtering liquid materials, the precipitation device is used for precipitating and filtering the liquid materials, and the switch device is used for controlling the on-off of the precipitation device; the filtering device comprises a rotating component and a deslagging component, and the rotating component and the deslagging component are both arranged on the base; the rotating assembly comprises a disc, a plurality of channels are uniformly arranged on the disc, and the edges of the channels are not intersected with the circumference of the disc; the slagging-off subassembly include vibration mechanism, passive ring, spiral slide, vibration mechanism set up on the base, vibration mechanism and passive ring link to each other, drive passive ring vibration through vibration mechanism, the passive ring sets up in the outside of disc, is provided with the spiral slide on the passive ring, and is provided with the gap between passive ring and the disc, the spiral slide is spiral fixed mounting on the passive ring, the first end setting of spiral slide is between passageway and passive ring, the second end and the slag notch intercommunication of spiral slide.

Further, the vibration mechanism include electro-magnet, permanent magnet, leaf spring, the electro-magnet pass through bracing piece fixed mounting on the support ring, the leaf spring slope is provided with a plurality ofly, the first end of leaf spring passes through the fixed plate and links to each other with the support ring, the second end and the permanent magnet of leaf spring link to each other, permanent magnet and the coaxial setting of electro-magnet.

Further, the base include supporting seat, center seat, the supporting seat on the symmetry be provided with two round holes, center seat be provided with two, the round hole coaxial setting of center seat and supporting seat, and be provided with the gap between center seat and the supporting seat.

Furthermore, the sediment device include drive assembly, filtering component, scrape the material subassembly, drive assembly, filtering component, scrape the material subassembly and all set up on the base, drive assembly be used for driving filtering component, scrape the material subassembly and the switching device motion.

Further, the driving assembly comprises a driving shaft, and three gears are arranged on the driving shaft.

Further, the filtering component comprises a sedimentation tank, a first filtering plate, a second filtering plate and a third filtering plate, wherein the sedimentation tank and the center seat are coaxially arranged, a notch is formed in the sedimentation tank, a plurality of holes are formed in the first filtering plate, the second filtering plate and the third filtering plate, the holes of the first filtering plate, the second filtering plate and the third filtering plate are not intersected in the vertical direction, the second filtering plate is fixedly installed on the center seat, the first filtering plate is rotatably installed on the center seat, teeth are formed in the circumference of the first filtering plate, the first filtering plate and a driving shaft are installed in a gear meshing mode, teeth are formed in the circumference of the third filtering plate, and the third filtering plate and the driving shaft are installed in a gear meshing mode.

Furthermore, scrape the material subassembly and include swivel becket, scraper blade, the circumference of swivel becket on be provided with the tooth, the epaxial gear engagement of swivel becket and drive is installed, scraper blade fixed mounting is on the base, scraper blade and swivel becket contact cooperation, and scraper blade and swivel becket slope set up.

Furthermore, the switching device comprises a transmission assembly, a water retaining assembly and a shifting block, wherein the transmission assembly is connected with the driving shaft, the transmission assembly is used for driving the shifting block to move in a rectangular shape, and the shifting block is used for driving the water retaining assembly to lift.

Further, the manger plate subassembly include driving lever, apron, casing, montant, baffle, driving lever and shifting block contact cooperation, the shape at baffle both ends the same with the shape of sedimentation tank breach department, the apron rotate and install on the casing, the apron on be provided with semi-circular hole, be provided with the gap between semi-circular hole on the apron and the montant, still be provided with the piston on the montant, piston and casing slidable mounting, after shifting block and driving lever contact, the shifting block drives montant, piston, baffle through the driving lever and rises.

Compared with the prior art, the invention has the beneficial effects that: (1) the liquid can be primarily filtered by arranging the filtering device, and the filtered impurities can be conveyed out; (2) the liquid can be precipitated by arranging the precipitation device, and impurities are separated from the liquid; (3) according to the invention, the switch device is arranged, so that the baffle plate can quickly rise to release liquid, and the baffle plate slowly descends, so that the liquid can completely flow out.

Drawings

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

Fig. 2 is a schematic view of the base structure of the present invention.

FIG. 3 is a schematic view of the structure of the filtering apparatus of the present invention.

FIG. 4 is a schematic view of a partial structure of the filter device of the present invention.

Fig. 5 is a partially enlarged view of a portion a in fig. 4.

FIG. 6 is a schematic view of another partial structure of the filtering apparatus of the present invention.

FIG. 7 is a schematic view of the settling device of the present invention.

FIG. 8 is a schematic view of a partial structure of the settling device of the present invention.

FIG. 9 is another partial structure diagram of the settling device of the present invention.

FIG. 10 is a schematic view of the switch device of the present invention.

Fig. 11 is a partially enlarged view of a portion B in fig. 10.

Fig. 12 is a partial structural schematic diagram of the switching device of the present invention.

Reference numerals: 1-a base; 2-a filtration device; 3-a precipitation device; 4-a switching device; 101-a base plate; 102-a support base; 103-a central seat; 201-support ring; 202-support rods; 203-an electromagnet; 204-permanent magnet; 205-leaf spring; 206-fixing plate; 207-connecting rod; 208-a passive ring; 209-a spiral slide; 210-a slag outlet; 211-motor one; 212-disc; 213-channel; 301-a sedimentation tank; 302-a first filter plate; 303-motor two; 304-a drive shaft; 305-a rotating ring; 306-a second filter plate; 307-third filter plate; 308-a scraper; 401-a support plate; 402-a shifting block; 403-a synchronizing wheel; 404-a connecting seat; 405-a synchronous belt; 406-a connecting shaft; 407-reduction box; 408-gear one; 409-gear two; 410-a driving lever; 411-cover plate; 412-a housing; 413-vertical bar; 414-a spring; 415-a plunger; 416-baffle.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example (b): as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, and fig. 12, the material filtering and purifying machine for liquid filling includes a base 1, a settling device 3, a switch device 4, and a filter device 2, wherein the filter device 2 and the settling device 3 are symmetrically provided with two sets, the filter device 2, the settling device 3, and the switch device 4 are all provided on the base 1, the filter device 2 is used for separating and filtering liquid materials, the settling device 3 is used for settling and filtering liquid materials, and the switch device 4 is used for controlling the on-off of the settling device 3.

The base 1 comprises a bottom plate 101, a supporting seat 102 and a center seat 103, the supporting seat 102 is fixedly mounted on the bottom plate 101, two round holes are symmetrically formed in the supporting seat 102, the number of the center seats 103 is two, the round holes of the center seat 103 and the supporting seat 102 are coaxially arranged, and a gap is formed between the center seat 103 and the supporting seat 102.

The filtering device 2 comprises a rotating component and a deslagging component which are both arranged on the base 1.

The rotating assembly comprises a first motor 211, a disc 212 and a channel 213, wherein the first motor 211 is fixedly arranged on the base plate 101, an output shaft of the first motor 211 is fixedly arranged with the disc 212, the disc 212 is uniformly provided with a plurality of channels 213, and the edge of the channel 213 is not intersected with the circumference of the disc 212.

The slagging-off subassembly includes vibration mechanism, passive ring 208, spiral slide 209, slag notch 210, vibration mechanism sets up on base 1, vibration mechanism and passive ring 208 link to each other, drive passive ring 208 vibration through vibration mechanism, passive ring 208 is coaxial to be set up in the outside of disc 212, and be provided with the gap between passive ring 208 and the disc 212, be provided with spiral slide 209 on the passive ring 208, spiral slide 209 is spiral fixed mounting on passive ring 208, the first end setting of spiral slide 209 is between passageway 213 and passive ring 208, the second end and the slag notch 210 intercommunication of spiral slide 209, slag notch 210 fixed mounting is on passive ring 208.

The vibrating mechanism comprises a supporting ring 201, a supporting rod 202, an electromagnet 203, a permanent magnet 204, a plate spring 205, a fixing plate 206 and a connecting rod 207, wherein the supporting ring 201 is fixedly installed on the supporting seat 102, the electromagnet 203 is fixedly installed on the supporting ring 201 through the supporting rod 202, the plate spring 205 is obliquely arranged in a plurality of numbers, the first end of the plate spring 205 is connected with the supporting ring 201 through the fixing plate 206, the second end of the plate spring 205 is connected with the permanent magnet 204, the permanent magnet 204 and the electromagnet 203 are coaxially arranged, the connecting rod 207 is further fixedly installed on the permanent magnet 204, and the connecting rod 207 and the driven ring 208 are fixedly installed.

The sedimentation device 3 comprises a driving component, a filtering component and a scraping component, wherein the driving component, the filtering component and the scraping component are all arranged on the base 1, and the driving component is used for driving the filtering component, the scraping component and the switching device 4 to move.

The driving assembly comprises a second motor 303 and a driving shaft 304, the second motor 303 is fixedly installed on the bottom plate 101, an output shaft of the second motor 303 and the driving shaft 304 are fixedly installed, and three gears are arranged on the driving shaft 304.

The filtering assembly comprises a sedimentation tank 301, a first filtering plate 302, a second filtering plate 306 and a third filtering plate 307, wherein the sedimentation tank 301 and a center seat 103 are coaxially arranged, the sedimentation tank 301 is fixedly installed on a supporting seat 102, a notch is formed in the sedimentation tank 301, the first filtering plate 302, the second filtering plate 306 and the third filtering plate 307 are respectively provided with a plurality of holes, the holes of the first filtering plate 302, the second filtering plate 306 and the third filtering plate 307 are not intersected in the vertical direction, the second filtering plate 306 is fixedly installed on the center seat 103, the first filtering plate 302 is rotatably installed on the center seat 103, teeth are arranged on the circumference of the first filtering plate 302, the first filtering plate 302 and gears on a driving shaft 304 are meshed, the third filtering plate 307 is rotatably installed on the center seat 103, teeth are arranged on the circumference of the third filtering plate 307, and the gears on the driving shaft 304 are meshed.

The scraping component comprises a rotating ring 305 and a scraping plate 308, wherein the rotating ring 305 is rotatably installed on the bottom plate 101, teeth are arranged on the circumference of the rotating ring 305, the rotating ring 305 and a gear on the driving shaft 304 are installed in a meshed mode, the scraping plate 308 is fixedly installed on the bottom plate 101, the scraping plate 308 is in contact fit with the rotating ring 305, and the scraping plate 308 and the rotating ring 305 are obliquely arranged.

The switch device 4 comprises a transmission assembly, a water retaining assembly and a shifting block 402, wherein the transmission assembly is connected with the driving shaft 304, the transmission assembly is used for driving the shifting block 402 to move in a rectangular shape, and the shifting block 402 is used for driving the water retaining assembly to lift.

The transmission assembly comprises a supporting plate 401, synchronizing wheels 403, a connecting seat 404, a synchronous belt 405, a connecting shaft 406, a reduction box 407, a first gear 408 and a second gear 409, the supporting plate 401 is fixedly installed on the base 1, the connecting seat 404 is fixedly installed on the supporting plate 401, four synchronizing wheels 403 are arranged on the supporting plate 401 in a rectangular mode, the synchronizing wheels 403 are rotatably installed on the supporting plate 401, the four synchronizing wheels 403 are connected through the synchronous belt 405, one synchronizing wheel 403 and the second gear 409 are coaxially and fixedly installed, the second gear 409 and the first gear 408 are installed in a meshed mode, the first gear 408 is connected with the reduction box 407, the reduction box 407 is fixedly installed on the supporting plate 401, the reduction box 407 is connected with the connecting shaft 406, and the connecting shaft 406 and the driving shaft 304 are fixedly installed.

The water retaining component comprises a shifting rod 410, a cover plate 411, a shell 412, vertical rods 413, a spring 414, a piston 415 and a baffle 416, the shifting rod 410 is in contact fit with the shifting block 402, the shifting rod 410 is fixedly installed with the vertical rods 413, the vertical rods 413 are fixedly installed with the piston 415, the baffle 416 is fixedly installed on the piston 415, after the shifting block 402 is in contact with the shifting rod 410, the shifting block 402 drives the vertical rods 413, the piston 415 and the baffle 416 to ascend through the shifting rod 410, the shapes of the two ends of the baffle 416 are the same as that of a gap of the sedimentation tank 301, two cover plates 411 are arranged, the cover plate 411 is rotatably installed on the shell 412, the cover plate 411 is connected with the shell 412 through the spring, a semicircular hole is formed in the cover plate 411, a gap is formed between the semicircular hole and the vertical rods 413, the shell 412 and the piston 415 are slidably installed on the connecting seat 404, the spring 414 is sleeved on the vertical rods 413, a first end of the spring 414 is fixedly installed on the shell 412, the second section of spring 414 is fixedly mounted on plunger 415.

The working principle of the invention is as follows: the liquid to be filled is poured into the filtering device 2, large impurities fall on the disc 212, and the liquid and small impurities flow out from a gap between the passive ring 208 and the disc 212, so that the impurities in the liquid are separated out, and if the large impurities exist, the liquid stays in the passive ring 208 to wait for a person to take away; starting the first motor 211, wherein the first motor 211 drives the disc 212 to rotate, the disc 212 drives the impurities to move towards the driven ring 208 along the channel 213, the impurities are accumulated on the edge of the disc 212 in a centrifugal mode, and the impurities move upwards along the spiral slide 209 in the rotating process of the disc 212; meanwhile, the electromagnet 203 is electrified, the electromagnet 203 drives the permanent magnet 204 to press downwards, at the moment, the plate spring 205 presses downwards, when the electromagnet 203 is not electrified, the plate spring 205 plays a role in resetting, the permanent magnet 204 can be shaken by controlling the on-off frequency of direct current, the motion path of the permanent magnet 204 is a motion track formed by the motion direction of the plate spring when the plate spring presses downwards, the permanent magnet 204 drives the driven ring 208 and the spiral slide 209 to synchronously move through the connecting rod 207, so that impurities on the spiral slide 209 vibrate towards the slag hole 210, and when the impurities vibrate, the size of a gap between the driven ring 208 and the disc 212 is kept unchanged, and the slag hole 210 also vibrates and conveys the impurities out due to the fact that the whole body vibrates.

When the precipitate is filtered, the quality of the liquid on the upper layer is not influenced, and the precipitate is directly separated from the liquid; under the action of gravity, impurities can settle down and fall into the holes of the first filter plate 302, at the moment, the holes in the second filter plate 306 and the third filter plate 307 are not communicated with the holes in the first filter plate 302, the second motor 303 is started, the second motor 303 drives the drive shaft 304 to rotate, the gear on the drive shaft 304 drives the third filter plate 307 and the first filter plate 302 to synchronously rotate, after the first filter plate 302 rotates to be communicated with the holes in the second filter plate 306, sediments fall into the holes in the second filter plate 306, at the moment, the holes in the third filter plate 307 are not communicated with the holes in the second filter plate 306, the drive shaft 304 continues to rotate, after the holes in the third filter plate 307 are communicated with the holes in the second filter plate 306, the sediments fall onto the rotating ring 305 through the holes in the third filter plate 307, the drive shaft 304 continues to rotate, the drive shaft 304 drives the rotating ring 305 to rotate, and the sediments on the rotating ring 305 are pulled out by the scraper 308.

The driving shaft 304 rotates and simultaneously drives the connecting shaft 406 to rotate, a reduction box 407 is arranged between the connecting shaft 406 and the first gear 408, the reduction box 407 is used for reducing the rotating speed of the first gear 408, the first gear 408 drives the second gear 409 to rotate, the second gear 409 drives the synchronizing wheels 403 to rotate, the four synchronizing wheels 403 are connected through a synchronous belt 405, the four synchronizing wheels 403 synchronously rotate, the synchronous belt 405 drives the shifting block 402 to move, after the shifting block 402 is contacted with the shifting rod 410, the shifting block 402 drives the vertical rod 413, the piston 415 and the baffle 416 to ascend through the shifting rod 410, liquid is released from a gap of the sedimentation tank 301, when the piston 415 ascends, air in the shell 412 pushes the cover plate 411 open to enable the cover plate 411 to rotate, and at the moment, the spring 414 is compressed; after the shifting block 402 is separated from the shifting rod 410, under the action of the spring 414, the piston 415 is reset, the vertical rod 413 and the baffle 416 are also reset, the cover plate 411 is reset through the spring, and because air can only enter the shell 412 from a gap between the cover plate 411 and the vertical rod 413 when the air moves downwards, the descending resistance is increased, the descending speed of the baffle 416 is slow, enough time is provided for liquid to completely flow out, and the flowing liquid is used for subsequent filling.

The present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make various modifications without creative efforts from the above-described conception and fall within the scope of the present invention.

Claims (9)

1. The utility model provides a liquid filling is with material filtration purification machine, includes base (1), sediment device (3), switching device (4), its characterized in that: the automatic liquid material sedimentation device is characterized by further comprising two groups of filtering devices (2), wherein the filtering devices (2) and the sedimentation devices (3) are symmetrically arranged, the filtering devices (2), the sedimentation devices (3) and the switch devices (4) are all arranged on the base (1), the filtering devices (2) are used for separating and filtering liquid materials, the sedimentation devices (3) are used for precipitating and filtering the liquid materials, and the switch devices (4) are used for controlling the on-off of the sedimentation devices (3);

the filtering device (2) comprises a rotating assembly and a deslagging assembly, and the rotating assembly and the deslagging assembly are both arranged on the base (1);

the rotating assembly comprises a disc (212), a plurality of channels (213) are uniformly arranged on the disc (212), and the edges of the channels (213) do not intersect with the circumference of the disc (212);

the slagging-off subassembly include vibration mechanism, passive ring (208), spiral slide (209), vibration mechanism set up on base (1), vibration mechanism and passive ring (208) link to each other, drive passive ring (208) vibration through vibration mechanism, passive ring (208) set up the outside at disc (212), be provided with spiral slide (209) on passive ring (208), and be provided with the gap between passive ring (208) and disc (212), spiral slide (209) are spiral fixed mounting on passive ring (208), the first end setting of spiral slide (209) is between passageway (213) and passive ring (208), the second end and slag notch (210) intercommunication of spiral slide (209).

2. The liquid filling material filtering and purifying machine according to claim 1, wherein: the vibrating mechanism comprises an electromagnet (203), a permanent magnet (204) and a plate spring (205), wherein the electromagnet (203) is fixedly installed on a support ring (201) through a support rod (202), the plate spring (205) is obliquely arranged in a plurality of modes, the first end of the plate spring (205) is connected with the support ring (201) through a fixing plate (206), the second end of the plate spring (205) is connected with the permanent magnet (204), and the permanent magnet (204) and the electromagnet (203) are coaxially arranged.

3. The liquid filling material filtering and purifying machine according to claim 1, wherein: the base (1) comprises a supporting seat (102) and a center seat (103), wherein two circular holes are symmetrically formed in the supporting seat (102), the number of the center seats (103) is two, the circular holes of the center seat (103) and the circular holes of the supporting seat (102) are coaxially formed, and a gap is formed between the center seat (103) and the supporting seat (102).

4. A liquid filling material filtering and purifying machine as claimed in claim 3, wherein: the sedimentation device (3) include drive assembly, filtering component, scrape the material subassembly, drive assembly, filtering component, scrape the material subassembly and all set up on base (1), drive assembly be used for driving filtering component, scrape the material subassembly and switching device (4) motion.

5. The liquid filling material filtering and purifying machine according to claim 4, wherein: the driving assembly comprises a driving shaft (304), and three gears are arranged on the driving shaft (304).

6. The material filtering and purifying machine for liquid filling according to claim 5, wherein: the filtering component comprises a sedimentation tank (301), a first filtering plate (302), a second filtering plate (306) and a third filtering plate (307), the sedimentation tank (301) and the center seat (103) are coaxially arranged, a gap is arranged on the sedimentation tank (301), a plurality of holes are arranged on the first filter plate (302), the second filter plate (306) and the third filter plate (307), the holes of the first filter plate (302), the second filter plate (306) and the third filter plate (307) are not intersected in the vertical direction, the second filter plate (306) is fixedly arranged on the central seat (103), the first filter plate (302) is rotatably arranged on the central seat (103), the circumference of the first filter plate (302) is provided with teeth, the first filter plate (302) and the driving shaft (304) are arranged in a meshed mode, the circumference of the third filter plate (307) is provided with teeth, and the third filter plate (307) and the driving shaft (304) are arranged in a meshed mode.

7. The material filtering and purifying machine for liquid filling according to claim 5, wherein: the scraping assembly comprises a rotating ring (305) and a scraping plate (308), wherein teeth are arranged on the circumference of the rotating ring (305), gears on the rotating ring (305) and a driving shaft (304) are meshed and mounted, the scraping plate (308) is fixedly mounted on a base (1), the scraping plate (308) is in contact fit with the rotating ring (305), and the scraping plate (308) and the rotating ring (305) are obliquely arranged.

8. The material filtering and purifying machine for liquid filling according to claim 1, wherein: the switch device (4) comprises a transmission assembly, a water retaining assembly and a shifting block (402), wherein the transmission assembly is connected with the driving shaft (304), the transmission assembly is used for driving the shifting block (402) to move in a rectangular shape, and the shifting block (402) is used for driving the water retaining assembly to lift.

9. The material filtering and purifying machine for liquid filling according to claim 8, wherein: the water retaining component comprises a shifting rod (410), a cover plate (411), a shell (412), a vertical rod (413), a baffle (416), the shifting rod (410) is in contact fit with a shifting block (402), the shape of the two ends of the baffle (416) is the same as that of the gap of a sedimentation tank (301), the cover plate (411) is rotatably installed on the shell (412), a semicircular hole is formed in the cover plate (411), a gap is formed between the semicircular hole in the cover plate (411) and the vertical rod (413), a piston (415) is further arranged on the vertical rod (413), the piston (415) and the shell (412) are slidably installed, and after the shifting block (402) is in contact with the shifting rod (410), the shifting block (402) drives the vertical rod (413), the piston (415) and the baffle (416) to ascend through the shifting rod (410).

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