CN117842544B - Fluid transfer tank capable of preventing sediment in transportation process - Google Patents

Abstract

The invention discloses a fluid transfer tank capable of preventing precipitation in a transportation process, which comprises a transfer tank body, wherein handles are fixedly arranged on two sides of the upper end of the transfer tank body, a sealing cover is arranged at the upper end of the transfer tank body in a clamping manner, an upper sealing opening is arranged at the upper end of the sealing cover, a transmission shaft is connected to a bearing of the transfer tank body, positioning frames are fixedly connected to the upper end and the lower end of the transmission shaft, vertical stirring shafts are arranged on the two groups of positioning frames, an auxiliary positioning box is arranged at the lower end of the transfer tank body, and the lower end of the transfer tank body penetrates into the auxiliary positioning box. This prevent fluid transfer pot that produces sediment in the transportation, can stir it in fluid transfer process through setting up stirring structure, this stirring structure rationally utilizes jolting, vibrations etc. that the in-process vehicle produced simultaneously to turn into the rotation power of transmission shaft with it, thereby and then constantly stir inside fluid in the transportation process effectively prevents the circumstances that the fluid from appearing precipitating.

Description

Fluid transfer tank capable of preventing sediment in transportation process

Technical Field

The invention relates to the technical field of fluid transfer tanks, in particular to a fluid transfer tank capable of preventing precipitation in the transportation process.

Background

Fluid, which is an object form corresponding to solid and is a generic term for liquids and gases, is composed of a large number of molecules which are constantly in thermal motion and have no fixed equilibrium position, and is basically characterized by having no certain shape and fluidity. The fluid has certain compressibility, the liquid compressibility is small, the gas compressibility is large, certain movement resistance exists between the layers of the fluid when the shape of the fluid is changed, the tank body is usually used when the fluid is transported, but most of the fluid contains other substances, precipitation occurs when the fluid is transported for a long time, stirring is needed when the fluid is used and processed subsequently, and the subsequent processing cost is increased.

However, when the existing fluid transfer tank for preventing precipitation in the transportation process is used, certain problems exist:

The existing beer fresh-keeping transportation tank with the publication number of CN96228863.2 is composed of a metal shell, a metal liner, a foaming heat-insulating layer, an upper cover, a discharge valve, a pressure gauge, a pressure limiting valve, an air inlet valve and the like. The inner container is provided with a partition to divide the inner container into a plurality of sub-tanks. The upper cover is also provided with an automatic cleaning device. The wine preservation device is convenient and flexible to use, has the heat preservation performance improved by 1-3 times compared with the prior art, has good stability, prolongs the fresh-keeping period of wine, is safe and reliable, and is convenient to clean. Can be widely applied to transportation of beer, beverage, fruit juice, milk and other fluids needing heat preservation or fresh preservation; however, the existing transportation tank has some problems in the use process;

the existing transfer tanks are provided with positioning structures, when the transfer tanks are placed on equipment such as vehicles or transport ships, the transfer tanks can move due to jolting and the like in the transfer process, if a plurality of groups of transfer tanks are stacked, collision damage can occur between the transfer tanks, the service life is reduced, and the operation complexity is increased by fixing the transfer tanks by means of other tools such as ropes;

the current transfer pot is in the in-process of transporting for a long time, and the circumstances of precipitation can appear in its inside fluid, can influence its fluidic quality, and still need stir the fluid when follow-up processing, has improved the process loaded down with trivial details nature and the cost of processing, and current many electric stirring structure reliability is poor, not enough environmental protection, electric stirring structure can increase great cost simultaneously.

Aiming at the problems, the novel design is carried out on the basis of the original fluid transfer tank for preventing precipitation in the transportation process.

Disclosure of Invention

The invention aims to provide a fluid transfer tank capable of preventing precipitation in the transportation process, so as to solve the problems that the conventional fluid transfer tank is inconvenient to fix and is easy to collide in the transportation process, and meanwhile, a stirring structure is arranged inside the fluid transfer tank, so that the precipitation condition of internal fluid is easy to cause.

In order to achieve the above purpose, the present invention provides the following technical solutions: a fluid transfer tank for preventing precipitation during transportation, comprising a transfer tank body:

Handles are fixedly arranged on two sides of the upper end of the transfer tank body, a sealing cover is arranged at the upper end of the transfer tank body in a clamping manner, an upper sealing opening is formed in the upper end of the sealing cover, a transmission shaft is connected to a bearing of the transfer tank body, positioning frames are fixedly connected to the upper end and the lower end of the transmission shaft, and two groups of positioning frames are provided with vertical stirring shafts;

the transportation tank body lower extreme is provided with auxiliary positioning case, and transport tank body lower extreme runs through to auxiliary positioning incasement portion, auxiliary positioning case lower extreme runs through there is the seal tube, and seal tube lower extreme fixedly connected with negative pressure sucking disc to the inside piston that is provided with of negative pressure sucking disc.

Preferably, the locating rack is ring form structural design, the locating rack rotates with the internal wall of transportation jar to be connected, and adopts the seal structure bearing of lantern ring form to be connected between locating rack outer lane and the internal wall of transportation jar, vertical (mixing) shaft both ends respectively with locating rack fixed connection, and vertical (mixing) shaft uses the transmission shaft to be central annular array and distributes.

Adopt above-mentioned technical scheme, through the cooperation between two sets of locating racks and the transportation jar body, stability when can improving the transmission shaft rotation to and improve the intensity of whole stirring structure, the setting of vertical (mixing) shaft is convenient for stir the fluid of transporting jar internal portion when rotatory simultaneously.

Preferably, the middle part of the vertical stirring shaft is penetrated with a transverse stirring shaft, the transverse stirring shaft is fixedly connected with the vertical stirring shaft, the transverse stirring shafts are distributed in an equidistant array, the inside of the transferring tank body is provided with a packing auger shaft, the transmission shaft penetrates through the middle part of the packing auger shaft, and the transmission shaft is fixedly connected with the packing auger shaft.

By adopting the technical scheme, the fluid stirring effect inside the transfer tank body can be improved through the arrangement of the plurality of groups of transverse stirring shafts, the stirring uniformity is improved, meanwhile, the auger shaft can rotate along with the transmission shaft, and the internal fluid is further turned up and down, so that the stirring effect is improved.

Preferably, the transmission shaft lower extreme fixedly connected with second scraper blade, and the second scraper blade is annular array and distributes to the second scraper blade sets up with transporting jar body lower extreme inner wall laminating, the lateral stirring axle outside end runs through there is the transfer line, and the first scraper blade of transfer line outside end fixedly connected with, and the first scraper blade sets up with transporting jar inner wall laminating, the inside pressure spring that is provided with of lateral stirring axle, and the inside and outside both ends of pressure spring respectively with lateral stirring axle inner wall and transfer line fixed connection.

By adopting the technical scheme, through the cooperation of the first scraping plate and the second scraping plate, the inner wall of the transferring tank body can be cleaned in the rotating process, so that the adhesion condition of partial fluid on the inner wall after long-time transportation is prevented, the waste generated by subsequent discharging is reduced, and meanwhile, the pressing spring can improve the compactness of the first scraping plate and the inner wall of the transferring tank body.

Preferably, the middle part of the auxiliary positioning box is fixedly connected with a twist rod, the upper end of the twist rod is connected with a transmission rotating shaft, the lower end of the transmission shaft penetrates into the auxiliary positioning box, the transmission rotating shaft penetrates through the lower end of the transmission shaft, the transmission rotating shaft is connected with a transmission shaft bearing, a counterweight wheel is arranged in the auxiliary positioning box, and the counterweight wheel is fixedly connected with the lower end of the transmission shaft;

The inside annular array of auxiliary positioning case distributes there is flexible locating lever, and the both ends are respectively with transporting jar body lower extreme and auxiliary positioning case inner wall fixed connection about the flexible locating lever, and this flexible locating lever outside runs through there is buffer spring to buffer spring upper and lower both ends respectively with transport jar body lower extreme and auxiliary positioning case inner wall fixed connection.

Adopt above-mentioned technical scheme, can produce vibrations and jolt the time in the transportation through the setting of the twist pole, transport jar body and transmission shaft downstream, make the twist pole drive the transmission pivot and rotate, and the counter weight wheel can improve transmission shaft pivoted inertia and improve angle and the number of turns after rotating, and buffer spring can reset transporting jar body, the stability when the jar body activity can be improved in the setting of multiunit flexible locating lever simultaneously.

Preferably, the top end of the transmission rotating shaft is fixedly connected with a positioning shaft, the outer wall of the positioning shaft is connected with a pawl, the pawl and the positioning shaft form a rotating structure, a reset spring is fixedly connected between the tail end of the pawl and the outer wall of the positioning shaft, the inner wall of the lower end of the transmission shaft is fixedly connected with an inner ratchet wheel, and the inner ratchet wheel is in meshed connection with the pawl.

By adopting the technical scheme, the transmission rotating shaft can only drive the transmission shaft to rotate unidirectionally through the cooperation of the inner ratchet wheel and the pawl, so that the transmission shaft and the stirring structure can not generate reciprocating motion when the power is provided by continuous jolting in the transferring process, and the stirring effect is ensured.

Preferably, the seal tube is annular array distribution, and seal tube and piston sliding connection to the piston middle part runs through threaded lead screw, threaded lead screw lower extreme and piston threaded connection, and threaded lead screw upper end runs through seal tube upper end outside, and threaded lead screw upper end and seal tube upper end bearing connection, seal tube inner wall and piston all are square structural design.

By adopting the technical scheme, through the cooperation of piston and screw thread lead screw, can drive the piston up-and-down motion when screw thread lead screw is rotatory, can provide negative pressure suction for negative pressure sucking disc when piston upward movement to adsorb the location with ground such as carriage, improve the stability of placing, prevent to appear the condition of empting because of jolting, inertia when transporting.

Preferably, the top end key of the threaded screw rod is connected with a transmission gear, the inner wall of the auxiliary positioning box is fixedly connected with a positioning ring, a bearing at the top end of the positioning ring is connected with a transmission disc, the outer wall of the transmission disc is fixedly connected with a transmission toothed ring, and the outer side of the transmission toothed ring is meshed and connected with the transmission gear.

By adopting the technical scheme, the transmission disc is installed and connected through the positioning ring, the outer wall of the transmission disc is connected with the transmission toothed ring, when the transmission toothed ring rotates, a plurality of groups of transmission gears can be driven to synchronously rotate, and the transmission gears can rotate to drive the threaded screw rod to synchronously rotate.

Preferably, the upper end of the middle part of the transmission disc is fixedly connected with a transmission worm wheel, the twist rod penetrates through the middle parts of the transmission disc and the transmission worm wheel respectively, the front end of the auxiliary positioning box penetrates through a transmission worm, the transmission worm is connected with an auxiliary positioning box bearing, and the middle part of the transmission worm is meshed and connected with the transmission worm wheel.

By adopting the technical scheme, the transmission worm wheel can be driven to synchronously rotate through the rotary transmission worm, the transmission disc and the transmission toothed ring are driven to rotate through the transmission worm wheel, the transmission is carried out between the transmission toothed ring and the transmission gear, the position of the piston and the inside of the sealing tube is controlled, the self-locking property is realized between the worm and gear structure, and the stability after the negative pressure sucker is adsorbed and fixed can be improved.

Compared with the prior art, the invention has the beneficial effects that: this prevent fluid transfer pot that produces sediment in the transportation, can stir it in fluid transfer process through setting up stirring structure, this stirring structure rationally utilizes jolting, vibrations etc. that the in-process vehicle produced simultaneously to turn into the rotation power of transmission shaft with it, thereby and then constantly stir inside fluid in the transportation process effectively prevents the circumstances that the fluid from appearing precipitating.

1. Through setting up transmission structure, jolt and vibrations that transport jar body produced when the rational utilization fluid is transported, turn into stirring structure's rotation power with it, not only can absorb the vibrations and turn into kinetic energy with it when jolt to effectively prevent the circumstances of fluid deposit, not only energy-concerving and environment-protective and compare traditional motor driven stirring structure, the reliability is higher, the cost is lower;

2. The positioning structure formed by the plurality of groups of negative pressure suction cups is arranged, and the negative pressure suction cups are controlled to form a negative pressure state and then adsorb with the bottom plate or the ground of transportation equipment such as a carriage, so that stable and reliable adsorption positioning is carried out on the transportation tank body, the situation that the transportation tank bodies are moved and collide with each other is prevented in the transportation process, and the transportation safety is improved.

Drawings

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

FIG. 2 is a schematic cross-sectional view of a transfer tank of the present invention;

FIG. 3 is a schematic view of the structure of the transmission shaft and the positioning frame of the present invention;

FIG. 4 is a schematic view of the structure of the transverse stirring shaft and the transmission rod of the invention;

FIG. 5 is a schematic view of the drive shaft and second flighting configuration of the present invention;

FIG. 6 is a schematic view of the structure of the driving disk and the driving toothed ring of the present invention;

FIG. 7 is a schematic view of the piston and seal tube structure of the present invention;

FIG. 8 is a schematic view of the structure of the twist beam and the transmission shaft of the present invention;

FIG. 9 is a schematic view of the drive shaft and inner ratchet of the present invention.

In the figure: 1. a transfer tank body; 2. a handle; 3. sealing cover; 4. an upper sealing port; 5. a transmission shaft; 6. a positioning frame; 7. a vertical stirring shaft; 8. an auger shaft; 9. a transverse stirring shaft; 10. a transmission rod; 11. a first scraper; 12. a pressing spring; 13. a counterweight wheel; 14. an auxiliary positioning box; 15. sealing the tube; 16. a negative pressure suction cup; 17. a transmission rotating shaft; 18. a twist stem; 19. positioning a shaft; 20. an inner ratchet; 21. a pawl; 22. a return spring; 23. a piston; 24. a threaded screw rod; 25. a transmission gear; 26. a positioning ring; 27. a drive plate; 28. a drive ring gear; 29. a drive worm wheel; 30. a drive worm; 31. a telescopic positioning rod; 32. a buffer spring; 33. and a second scraper.

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. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-9, the present invention provides a technical solution: the utility model provides a prevent fluid transfer tank that produces sediment in transportation, includes transfer tank body 1, and transfer tank body 1 upper end both sides fixed mounting has handle 2, and transfer tank body 1 upper end block is installed sealed lid 3 to sealed lid 3 upper end is provided with sealed mouth 4, and transfer tank body 1 bearing is connected with transmission shaft 5, and transmission shaft 5 upper and lower both ends fixedly connected with locating rack 6, and two sets of locating racks 6 are provided with vertical (mixing) shaft 7; the positioning frame 6 is in a circular structural design, the positioning frame 6 is rotationally connected with the inner wall of the transfer tank body 1, the outer ring of the positioning frame 6 is connected with the inner wall of the transfer tank body 1 by adopting a sealing structure bearing in the form of a lantern ring, two ends of the vertical stirring shaft 7 are respectively fixedly connected with the positioning frame 6, and the vertical stirring shafts 7 are distributed in an annular array by taking the transmission shaft 5 as the center; the middle part of the vertical stirring shaft 7 is penetrated with a transverse stirring shaft 9, the transverse stirring shaft 9 is fixedly connected with the vertical stirring shaft 7, the transverse stirring shafts 9 are distributed in an equidistant array, the inside of the transfer tank body 1 is provided with a packing auger shaft 8, the transmission shaft 5 penetrates through the middle part of the packing auger shaft 8, and the transmission shaft 5 is fixedly connected with the packing auger shaft 8; the vertical stirring shaft 7 can be connected and fixed through the connection of the transmission shaft 5 and the two groups of positioning frames 6, meanwhile, the middle part of the vertical stirring shaft 7 is connected with a plurality of groups of transverse stirring shafts 9 in a penetrating manner, and the vertical stirring shafts can synchronously rotate along with the rotation of the transmission shaft 5 to stir the fluid inside the transferring tank body 1, so that the stirring effect is improved, the stability of the positioning frames 6 during rotation is improved and the friction force between the positioning frames 6 and the inner wall of the transferring tank body 1 is reduced by utilizing the sealing structure bearing in the form of a lantern ring during connection between the positioning frames 6 and the transferring tank body 1.

The lower end of the transmission shaft 5 is fixedly connected with a second scraping plate 33, the second scraping plates 33 are distributed in an annular array, the second scraping plates 33 are attached to the inner wall of the lower end of the transfer tank body 1, the outer end of the transverse stirring shaft 9 penetrates through a transmission rod 10, the outer end of the transmission rod 10 is fixedly connected with a first scraping plate 11, the first scraping plate 11 is attached to the inner wall of the transfer tank body 1, a pressing spring 12 is arranged in the transverse stirring shaft 9, and the inner end and the outer end of the pressing spring 12 are fixedly connected with the inner wall of the transverse stirring shaft 9 and the transmission rod 10 respectively; through the setting of second scraper blade 33, can follow synchronous rotation when transmission shaft 5 is rotatory to clear up the lower extreme inner wall of transporting jar body 1, first scraper blade 11 is connected through transfer line 10 and horizontal (mixing) shaft 9 simultaneously, can be when horizontal (mixing) shaft 9 is rotatory synchronous to transporting jar body 1 side inner wall clearance, and the setting of compression spring 12 improves first scraper blade 11 and transports jar body 1 inner wall laminating compactness, and this clean structure can prevent that fluid from transporting jar body 1 inner wall crystallization precipitation's condition from appearing, can reduce simultaneously and transport the loss that circumstances such as crystallization precipitation appear in jar body 1 inner wall when the unloading and produce.

The middle part of the auxiliary positioning box 14 is fixedly connected with a fried dough twist rod 18, the upper end of the fried dough twist rod 18 is connected with a transmission rotating shaft 17, the lower end of a transmission shaft 5 penetrates into the auxiliary positioning box 14, the transmission rotating shaft 17 penetrates through the lower end of the transmission shaft 5, the transmission rotating shaft 17 is connected with a transmission shaft 5 bearing, a counterweight wheel 13 is arranged in the auxiliary positioning box 14, the counterweight wheel 13 is fixedly connected with the lower end of the transmission shaft 5, telescopic positioning rods 31 are distributed in an annular array in the auxiliary positioning box 14, the upper end and the lower end of each telescopic positioning rod 31 are respectively fixedly connected with the lower end of a transfer tank body 1 and the inner wall of the auxiliary positioning box 14, a buffer spring 32 penetrates through the outer part of the telescopic positioning rod 31, and the upper end and the lower end of the buffer spring 32 are respectively fixedly connected with the lower end of the transfer tank body 1 and the inner wall of the auxiliary positioning box 14; the top end of the transmission rotating shaft 17 is fixedly connected with a positioning shaft 19, the rotating shaft of the outer wall of the positioning shaft 19 is connected with a pawl 21, the pawl 21 and the positioning shaft 19 form a rotating structure, a reset spring 22 is fixedly connected between the tail end of the pawl 21 and the outer wall of the positioning shaft 19, the inner wall of the lower end of the transmission shaft 5 is fixedly connected with an inner ratchet 20, and the inner ratchet 20 is meshed and connected with the pawl 21; through flexible locating lever 31 and buffer spring 32's setting, can improve the stability of transporting between jar body 1 and the auxiliary positioning case 14, buffer spring 32 can also promote its upward reset after transporting jar body 1 receives vibrations downstream simultaneously, when transporting jar body 1 motion, drive transmission shaft 5 and transmission pivot 17 motion, and transmission pivot 17 cooperates with the fried dough twist pole 18, can rotate simultaneously in the motion, and provide rotary power for transmission shaft 5, because of transmission pivot 17 upper end connection locating shaft 19, and be connected through interior ratchet 20 and pawl 21 between locating shaft 19 and the transmission shaft 5, make transmission pivot 17 only can drive transmission shaft 5 and the stirring structure of connection carry out unidirectional rotation, in order to ensure the effectiveness of stirring, and transmission shaft 5 can drive counter weight wheel 13 synchronous rotation when rotating, the inertia that the rotation of transmission shaft 5 produced can be improved in the setting of this counter weight wheel 13, in order to improve transmission shaft 5 rotation duration and pivoted angle, and the inertia also can appear rotating when the circumstances such as brake, and the start produce inertia, and then can further provide power for stirring structure and stir fluid.

The lower end of the transfer tank body 1 is provided with an auxiliary positioning box 14, the lower end of the transfer tank body 1 penetrates into the auxiliary positioning box 14, the lower end of the auxiliary positioning box 14 penetrates through a sealing pipe 15, the lower end of the sealing pipe 15 is fixedly connected with a negative pressure sucker 16, and a piston 23 is arranged in the negative pressure sucker 16; the seal pipes 15 are distributed in an annular array, the seal pipes 15 are in sliding connection with the piston 23, a threaded screw rod 24 penetrates through the middle of the piston 23, the lower end of the threaded screw rod 24 is in threaded connection with the piston 23, the upper end of the threaded screw rod 24 penetrates through the outer part of the upper end of the seal pipe 15, the upper end of the threaded screw rod 24 is in bearing connection with the upper end of the seal pipe 15, and the inner wall of the seal pipe 15 and the piston 23 are of square structural design; the top end of the threaded screw rod 24 is connected with a transmission gear 25 in a key way, the inner wall of the auxiliary positioning box 14 is fixedly connected with a positioning ring 26, the top end bearing of the positioning ring 26 is connected with a transmission disc 27, the outer wall of the transmission disc 27 is fixedly connected with a transmission toothed ring 28, and the outer side of the transmission toothed ring 28 is in meshed connection with the transmission gear 25; the upper end of the middle part of the transmission disc 27 is fixedly connected with a transmission worm wheel 29, the twist rod 18 penetrates through the middle parts of the transmission disc 27 and the transmission worm wheel 29 respectively, the front end of the auxiliary positioning box 14 penetrates through a transmission worm 30, the transmission worm 30 is in bearing connection with the auxiliary positioning box 14, and the middle part of the transmission worm 30 is in meshed connection with the transmission worm wheel 29; the setting through multiunit negative pressure sucking disc 16 is convenient for fix this transportation jar body 1, can drive transmission worm wheel 29 and driving disk 27 through rotatory transmission worm 30 and rotate, drive the transmission ring gear 28 by driving disk 27 and rotate, and drive multiunit drive gear 25 and screw thread lead screw 24 in step and rotate, thereby adjust multiunit piston 23 in the inside position of sealed tube 15, can make negative pressure sucking disc 16 inside form negative pressure state and adsorb in bottom plate such as carriage when piston 23 upward activity, thereby effectively fixed transportation jar body 1's position, prevent to appear removing the condition that leads to transporting jar body 1 each other to collide in the motion process.

While embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations may be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (1)

1. Fluid transfer tank capable of preventing precipitation in transportation process, comprising a transfer tank body (1), and characterized in that:

Handles (2) are fixedly arranged on two sides of the upper end of the transfer tank body (1), a sealing cover (3) is arranged at the upper end of the transfer tank body (1) in a clamping mode, an upper sealing opening (4) is formed in the upper end of the sealing cover (3), a transmission shaft (5) is connected to the bearing of the transfer tank body (1), positioning frames (6) are fixedly connected to the upper end and the lower end of the transmission shaft (5), and two groups of positioning frames (6) are provided with vertical stirring shafts (7);

The transfer tank comprises a transfer tank body (1), wherein an auxiliary positioning box (14) is arranged at the lower end of the transfer tank body (1), the lower end of the transfer tank body (1) penetrates into the auxiliary positioning box (14), a sealing tube (15) penetrates through the lower end of the auxiliary positioning box (14), a negative pressure sucker (16) is fixedly connected to the lower end of the sealing tube (15), and a piston (23) is arranged in the negative pressure sucker (16);

the positioning frame (6) is in a circular structure, the positioning frame (6) is rotationally connected with the inner wall of the transferring tank body (1), the outer ring of the positioning frame (6) is connected with the inner wall of the transferring tank body (1) by adopting a sealing structure bearing in the form of a lantern ring, two ends of the vertical stirring shaft (7) are fixedly connected with the positioning frame (6) respectively, and the vertical stirring shafts (7) are distributed in a circular array by taking the transmission shaft (5) as the center;

The middle part of the vertical stirring shaft (7) is penetrated by a transverse stirring shaft (9), the transverse stirring shaft (9) is fixedly connected with the vertical stirring shaft (7), the transverse stirring shafts (9) are distributed in an equidistant array, an auger shaft (8) is arranged in the transfer tank body (1), a transmission shaft (5) penetrates through the middle part of the auger shaft (8), and the transmission shaft (5) is fixedly connected with the auger shaft (8);

The device is characterized in that a second scraping plate (33) is fixedly connected to the lower end of the transmission shaft (5), the second scraping plates (33) are distributed in an annular array, the second scraping plates (33) are attached to the inner wall of the lower end of the transfer tank body (1), a transmission rod (10) penetrates through the outer side end of the transverse stirring shaft (9), a first scraping plate (11) is fixedly connected to the outer side end of the transmission rod (10), the first scraping plate (11) is attached to the inner wall of the transfer tank body (1), a pressing spring (12) is arranged in the transverse stirring shaft (9), and the inner end and the outer end of the pressing spring (12) are fixedly connected with the inner wall of the transverse stirring shaft (9) and the transmission rod (10) respectively;

The middle part of the auxiliary positioning box (14) is fixedly connected with a twist rod (18), the upper end of the twist rod (18) is connected with a transmission rotating shaft (17), the lower end of the transmission shaft (5) penetrates through the inside of the auxiliary positioning box (14), the transmission rotating shaft (17) penetrates through the lower end of the transmission shaft (5), the transmission rotating shaft (17) is in bearing connection with the transmission shaft (5), a counterweight wheel (13) is arranged inside the auxiliary positioning box (14), and the counterweight wheel (13) is fixedly connected with the lower end of the transmission shaft (5);

The inner annular array of the auxiliary positioning box (14) is provided with telescopic positioning rods (31), the upper end and the lower end of each telescopic positioning rod (31) are fixedly connected with the lower end of the transfer tank body (1) and the inner wall of the auxiliary positioning box (14) respectively, a buffer spring (32) penetrates through the outer part of each telescopic positioning rod (31), and the upper end and the lower end of each buffer spring (32) are fixedly connected with the lower end of the transfer tank body (1) and the inner wall of the auxiliary positioning box (14) respectively;

The top end of the transmission rotating shaft (17) is fixedly connected with a positioning shaft (19), the rotating shaft of the outer wall of the positioning shaft (19) is connected with a pawl (21), the pawl (21) and the positioning shaft (19) form a rotating structure, a reset spring (22) is fixedly connected between the tail end of the pawl (21) and the outer wall of the positioning shaft (19), the inner wall of the lower end of the transmission shaft (5) is fixedly connected with an inner ratchet wheel (20), and the inner ratchet wheel (20) is in meshed connection with the pawl (21);

The sealing pipes (15) are distributed in an annular array, the sealing pipes (15) are in sliding connection with the pistons (23), threaded screw rods (24) penetrate through the middle of the pistons (23), the lower ends of the threaded screw rods (24) are in threaded connection with the pistons (23), the upper ends of the threaded screw rods (24) penetrate through the outer parts of the upper ends of the sealing pipes (15), the upper ends of the threaded screw rods (24) are in bearing connection with the upper ends of the sealing pipes (15), and the inner walls of the sealing pipes (15) and the pistons (23) are of square structural design;

The top end of the threaded screw rod (24) is connected with a transmission gear (25) in a key way, the inner wall of the auxiliary positioning box (14) is fixedly connected with a positioning ring (26), a transmission disc (27) is connected with a top end bearing of the positioning ring (26), the outer wall of the transmission disc (27) is fixedly connected with a transmission toothed ring (28), and the outer side of the transmission toothed ring (28) is meshed and connected with the transmission gear (25);

The upper end of the middle part of the transmission disc (27) is fixedly connected with a transmission worm wheel (29), the twist rod (18) penetrates through the transmission disc (27) and the middle part of the transmission worm wheel (29) respectively, the front end of the auxiliary positioning box (14) penetrates through a transmission worm (30), the transmission worm (30) is connected with a bearing of the auxiliary positioning box (14), and the middle part of the transmission worm (30) is meshed and connected with the transmission worm wheel (29).