CN112407811A - Circulating quick multistage filter-pressing feed mechanism - Google Patents

Abstract

The invention provides a circulating type rapid multistage filter-pressing material distribution mechanism, which comprises a mounting plate, a material distribution assembly and a cutting assembly, wherein the material distribution assembly is arranged at a feed inlet, the material distribution assembly is arranged above the mounting plate and comprises a material distribution cylinder unit, a liquid adding unit and a driving unit, a plurality of material distribution areas are arranged in the material distribution cylinder unit, the material distribution areas are rotationally switched and pass through the feed inlet one by one, the liquid adding unit is arranged on the material distribution cylinder unit, the liquid adding unit is used for adding liquid to filter residues in the material distribution areas from inside to outside, the driving unit is arranged at one side of the material distribution cylinder unit, the driving unit synchronously drives the material distribution cylinder unit and the liquid adding unit to operate, the filter residues subjected to filter pressing are conveyed in batches by the material distribution cylinder unit in the material distribution assembly, moisture is input into the filter residues in the conveying process, so that the filter residues are wetted from inside to outside, the surface layer of the filter residue is prevented from being coagulated into a lump, and the technical problem that the filter residue cannot be efficiently purified due to coagulation into a lump is solved.

Description

Circulating quick multistage filter-pressing feed mechanism

Technical Field

The invention relates to the technical field of filter pressing mechanical structures, in particular to a circulating type rapid multistage filter pressing material distribution mechanism.

Background

In the new technology of directly recycling lead oxide from the waste lead-acid battery by the atomic economy method, complexing liquid needs to be added into waste lead paste, the complexing lead liquid after complexing and dissolving is introduced into a precipitator which is mostly gas, the complexing lead liquid and the precipitator are enabled to react to form a mixture of basic lead salt and the complexing liquid, and before lead oxide powder is generated before the basic lead salt is heated and ball-milled, the mixture needs to be subjected to multiple times of filter pressing and rinsing to remove the complexing liquid, so that pure basic lead salt is obtained.

In chinese patent No. CN102794042B, a full-automatic continuous filtering, press-filtering and slag-discharging machine is disclosed, which can continuously filter, press, feed, discharge and discharge slag.

However, the sediment machine is unloaded in the continuous filtration filter-pressing that above-mentioned patent was disclosed and can't realize filtering repeatedly to the filter residue, improves the purity of filter residue to, in the filter residue is inputed the in-process that stirs in the filter residue jar again, because last filter-pressing for moisture in the filter residue is discharged, when mixing the stirring with water once more, can lead to the filter residue to meet water, and surface layer part condenses into a group, leads to the unable and moisture abundant contact of filter residue of inlayer, leads to the unable effective promotion of purity of filter residue.

Disclosure of Invention

Aiming at the problems, the invention provides a circulating type rapid multistage filter-pressing material distribution mechanism which conveys filter residues subjected to filter pressing in batches by utilizing a material distribution cylinder unit in a material distribution assembly, and inputs water into the filter residues in the conveying process, so that the filter residues are wetted from inside to outside, the surface layers of the filter residues are prevented from being coagulated into clusters, and the technical problem that the filter residues cannot be purified efficiently due to coagulation into clusters is solved.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a quick multistage filter-pressing feed mechanism of circulating, includes:

the mounting plate is arranged at the top of the stirring tank, and a feeding hole communicated with the inside of the stirring tank is formed in the mounting plate;

the material distributing assembly is arranged at the feed inlet and is arranged above the mounting plate, the material distributing assembly comprises a material distributing barrel unit, a liquid adding unit and a driving unit, a plurality of material distributing areas are arranged in the material distributing barrel unit, the material distributing areas are switched in a rotating mode and pass through the feed inlet one by one, the liquid adding unit is arranged on the material distributing barrel unit and is used for adding liquid to filter residues in the material distributing areas from inside to outside, the driving unit is arranged on one side of the material distributing barrel unit, and the driving unit synchronously drives the material distributing barrel unit and the liquid adding unit to operate; and

the cutting assembly is installed below the mounting plate and is driven by the driving unit synchronously and used for cutting filter residues discharged from the feed inlet.

As a refinement, the dispensing cartridge unit comprises:

the steel hoop is arranged at the feed inlet of the mounting plate and is arranged in a cylindrical shape;

the material distributing cylinder is rotatably sleeved in the steel hoop and is arranged in a cylindrical shape, and a plurality of partition plates are arranged in the material distributing cylinder to divide the interior of the material distributing cylinder into a plurality of material distributing areas; and

the apron, the apron cover is located divide the top of feed cylinder, be provided with the inlet pipe on this apron, and this apron passes through inlet pipe and pressure filter erection joint, pressure filter exhaust filter residue passes through the inlet pipe enters into and divides in the material district.

As an improvement, the bottom of the steel hoop is provided with a limiting groove which expands outwards, and the bottom of the material separating cylinder is provided with a limiting ring which expands outwards and is matched with the limiting groove.

As a refinement, the liquid adding unit comprises:

the liquid feeding connector is arranged above the cover plate and is connected with an external liquid feeding device; and

the liquid feeding pipes are arranged along the radial direction of the material distributing barrel and rotatably installed on the liquid feeding joint, the liquid feeding pipes penetrate through the cover plate, and liquid discharging holes are formed in the positions, inserted in the material distributing area, of the liquid feeding pipes.

As an improvement, the liquid adding connector comprises a liquid adding interface positioned at the top and a plurality of liquid discharging ports positioned at the bottom.

As an improvement, the drive unit includes:

the driving motor is arranged below the mounting plate;

the driving gear is arranged on the driving motor and is driven by the driving motor to rotate;

the transfer gear is arranged between the driving gear and the material distributing cylinder, and the driving gear is meshed with the transfer gear; and

the gear ring is sleeved on the material distribution barrel and meshed with the transfer gear to drive the material distribution barrel to rotate.

As an improvement, the charging barrel rotates to drive the charging pipe to rotate around the axis of the charging pipe through the transmission unit.

As an improvement, the transmission unit comprises:

the transmission gear ring is sleeved at the top of the material distributing cylinder and is arranged along with the material distributing cylinder in a rotating way;

the transmission gear is sleeved on the liquid feeding pipe close to the edge of the cover plate and meshed with the transmission gear ring; and

the synchronous belt set is arranged on the liquid adding pipe and synchronously drives the liquid adding pipe to rotate.

As an improvement, the partition plate is provided with a plurality of openings for the liquid feeding pipes to pass through, and the openings are provided with baffle plates for plugging the openings.

As an improvement, the shutter unit includes:

the mandrel is fixedly connected with the cover plate and is coaxially arranged with the material distributing cylinder;

the baffle plates are arranged in one-to-one correspondence with the openings and are rotatably arranged at the openings;

the chain wheels are arranged in one-to-one correspondence with the baffle plates and are mounted on the baffle plates;

the chain is wound on the chain wheel and drives the chain wheel to synchronously rotate;

the rotating gear is arranged on the baffle close to the mandrel;

the rotary tooth part is arranged at the bottom of the mandrel, is matched with the rotary gear, and is positioned in front of the opening along the rotation direction of the material distribution barrel; and

the spring piece is arranged on the baffle and drives the baffle to reset after rotation.

As an improvement, the segmentation component comprises:

the cutting hopper is rotatably arranged on the mounting plate and is positioned at the feed inlet;

the dividing knife is arranged in the dividing hopper and is used for dividing and cutting filter residues output by the feed inlet along with the dividing hopper; and

the reverse transmission unit is in transmission connection with the cutting hopper and the driving unit, and the cutting hopper and the material distributing barrel are arranged in a reverse rotating mode.

As an improvement, the reverse drive unit comprises:

the transmission main shaft penetrates through the mounting plate and is connected with the transfer gear;

the reverse driving gear is arranged at the lower end part of the transmission main shaft and synchronously rotates along with the transfer gear;

the reverse transfer gear is rotatably arranged between the reverse driving gear and the dividing hopper and is meshed with the reverse driving gear; and

and the reverse gear ring is arranged on the cutting hopper and meshed with the reverse transfer gear and drives the cutting hopper to rotate.

The invention has the beneficial effects that:

(1) according to the filter residue batch conveying device, filter residues after filter pressing are conveyed in batches by utilizing the material distributing cylinder unit in the material distributing assembly, and moisture is input into the filter residues in the conveying process, so that the filter residues are wetted from inside to outside, the surface layers of the filter residues are prevented from being coagulated into clusters, and the technical problem that the filter residues cannot be purified efficiently due to coagulation into clusters is solved;

(2) according to the rotary material distribution device, the cover plate is arranged at the top of the material distribution barrel, and the material distribution barrel is sealed by the cover plate, so that filter residues are prevented from splashing from the material distribution barrel in the rotary material distribution process of the material distribution barrel, and the working environment of the material distribution barrel is ensured to be clean;

(3) according to the invention, the liquid is added into the filter residue by inserting the liquid adding pipe between the liquid adding pipes, so that the filter residue is subjected to liquid absorption from inside to outside, the surface layer of the filter residue is prevented from adsorbing moisture and coagulating and holding the filter residue, the inside is still in a drier state, and in the liquid adding process, the liquid adding pipes rotate around the axes of the liquid adding pipes and are matched with the flowing of liquid, the liquid outlet is ensured to be smooth, and the holding of the filter residue is avoided;

(4) according to the invention, the baffle assembly is arranged on the partition plate, and the opening of the baffle assembly is realized by matching with the self-rotation of the distributor, so that the opening on the partition plate is opened, the liquid adding pipe can smoothly enter the distribution bin through the opening, the liquid adding treatment is carried out on the filter residue, and the continuous liquid adding of the liquid adding pipe is realized;

(5) according to the invention, the cutting assembly is arranged at the feed inlet, and the filter residue input from the feed inlet is repeatedly cut by the cutting assembly, so that the filter residue is damaged and can be better treated after entering the stirring tank. The filter residue is favorably stirred in the stirring tank.

In conclusion, the filter press has the advantages of ingenious structure, high applicability and the like, and is particularly suitable for the technical field of filter pressing.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a perspective view of the mounting plate of the present invention;

FIG. 4 is a schematic perspective sectional view of the present invention;

FIG. 5 is an enlarged view of the structure at A in FIG. 4;

FIG. 6 is a schematic perspective view of a separating cylinder unit according to the present invention;

FIG. 7 is a schematic perspective view of a separating cylinder unit according to the present invention;

FIG. 8 is a third schematic view of a three-dimensional structure of a material distributing cylinder unit of the present invention;

FIG. 9 is a schematic perspective view of a liquid adding unit according to the present invention;

FIG. 10 is a perspective view of a filler tube according to the present invention;

FIG. 11 is a schematic view of a portion of a filler tube according to the present invention;

fig. 12 is a perspective view of the separating bucket of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Example (b):

as shown in fig. 1 to 8, a circulating type rapid multistage filter-pressing material distribution mechanism comprises:

the mounting plate 1 is arranged at the top of the stirring tank, and a feeding hole 11 communicated with the inside of the stirring tank is formed in the mounting plate 1;

the material distributing assembly 2 is arranged at the position of the feed port 11, the material distributing assembly 2 is arranged above the mounting plate 1, the material distributing assembly 2 comprises a material distributing barrel unit 21, a liquid adding unit 22 and a driving unit 23, a plurality of material distributing areas 210 are arranged in the material distributing barrel unit 21, the material distributing areas 210 rotate, switch and pass through the feed port 11 one by one, the liquid adding unit 22 is arranged on the material distributing barrel unit 21, the liquid adding unit 22 adds liquid to filter residues in the material distributing areas 210 from inside to outside, the driving unit 23 is arranged on one side of the material distributing barrel unit 21, and the driving unit 23 synchronously drives the material distributing barrel unit 21 and the liquid adding unit 22 to operate; and

and the cutting assembly 3 is arranged below the mounting plate 1, and the cutting assembly 3 is synchronously driven by the driving unit 23 and is used for cutting filter residues discharged from the feed inlet 11.

Further, the dispensing cartridge unit 21 includes:

the steel hoop 211 is arranged at the feed inlet 11 of the mounting plate 1, and the steel hoop 211 is arranged in a cylindrical shape;

the material separating barrel 212 is rotatably sleeved in the steel hoop 211, the material separating barrel 212 is arranged in a cylindrical shape, and a plurality of partition plates 215 are arranged in the material separating barrel 212 to divide the interior of the material separating barrel 212 into a plurality of material separating areas 210; and

the cover plate 213 covers the top of the material separating cylinder 212, a feed pipe 214 is arranged on the cover plate 213, the cover plate 213 is connected with a filter press through the feed pipe 214, and filter residues discharged by the filter press enter the material separating area 210 through the feed pipe 214.

The bottom of the steel hoop 211 is provided with a limiting groove 2111 which expands outwards, and the bottom of the material separating barrel 212 is provided with a limiting ring 2121 which expands outwards and is matched with the limiting groove 2111.

Further, the liquid adding unit 22 includes:

the liquid adding connector 221 is arranged above the cover plate 213, and the liquid adding connector 221 is connected with an external liquid supply device; and

the liquid feeding pipes 222 are arranged along the radial direction of the material separating barrel 212 and rotatably mounted on the liquid feeding joint 221, the liquid feeding pipes 222 penetrate through the cover plate 213, and the liquid discharging holes 223 are formed in the parts of the liquid feeding pipes 222 inserted in the material separating area 210.

The liquid filling connector 221 comprises a liquid filling interface 2211 at the top and a plurality of liquid discharge ports 2212 at the bottom.

Further, the driving unit 23 includes:

the driving motor 231, the said driving motor 231 is mounted below the said mounting plate 1;

a driving gear 232, wherein the driving gear 232 is mounted on the driving motor 231, and the driving gear 232 is driven by the driving motor 231 to rotate;

a transfer gear 233, wherein the transfer gear 233 is installed between the driving gear 232 and the material separating barrel 212, and the driving gear 232 is meshed with the transfer gear 233; and

the gear ring 234 is sleeved on the material distribution barrel 212, and the gear ring 324 is meshed with the transfer gear 233 to drive the material distribution barrel 212 to rotate.

It should be noted that, the filter residue after filter pressing of the filter press needs to be repeatedly filter-pressed for improving the purity, and in the process of repeated filter-pressing, moisture needs to be refilled for filter-pressing, and the existing agitator tank is to input the filter residue, and then the moisture is stirred, but because the input moisture is the top layer of the wrapped filter residue, gradually inward input, moisture can make the condensation of the filter residue forming part, lead to the filter residue unable to be fully mixed with moisture, in order to guarantee that the filter residue can not be condensed, utilize the material separating cylinder 212 to carry out the rotation switching transportation of dividing the filter residue into batches, and in the process of switching transportation, the liquid feeding pipe 222 is cut into the inside of the filter residue and is transfused to the filter residue, make the filter residue form moist effect from inside to outside, make the filter residue obtain moisture in advance, can not condense in the.

As shown in fig. 9 to 11, as a preferred embodiment, the dispensing cylinder 212 is rotated to rotate the filling tube 222 by the transmission unit 24 to rotate the filling tube 222 around its own axis.

Further, the transmission unit 24 includes:

the transmission gear ring 241 is sleeved at the top of the material distribution barrel 212, and the transmission gear ring 241 is arranged in a rotating mode along with the material distribution barrel 212;

the transmission gear 242 is sleeved on the liquid feeding pipe 222 close to the edge of the cover plate 213, and the transmission gear 242 is meshed with the transmission gear ring 241; and

and a synchronous belt set 243, wherein the synchronous belt set 243 is installed on the filling pipe 222, and the synchronous belt set 243 synchronously drives the filling pipe 222 to rotate.

It should be noted that, in the liquid feeding process, the liquid feeding pipe 222 rotates around its axis to cooperate with the outflow of liquid, so as to ensure the smoothness of liquid discharge and avoid the agglomeration of filter residues.

As shown in fig. 7 and 8, in a preferred embodiment, the partition 215 is provided with a plurality of openings 216 through which the filler pipe 222 passes, and the openings 216 are provided with baffle units 25 for closing the openings 216.

Further, the shutter unit 25 includes:

the mandrel 251 is fixedly connected with the cover plate 213, and the mandrel 251 and the material separating barrel 212 are coaxially arranged;

the baffles 252 are arranged corresponding to the openings 216 one by one, and the baffles 252 are rotatably arranged at the openings 216;

the chain wheels 253 are arranged in one-to-one correspondence with the baffle plates 252, and the chain wheels 253 are mounted on the baffle plates 252;

the chain 254 is wound on the chain wheel 253, and the chain 254 drives the chain wheel 253 to synchronously rotate;

a rotary gear 255, wherein the rotary gear 255 is mounted on a baffle 252 close to the mandrel 251;

a rotary tooth 256, wherein the rotary tooth 256 is mounted on the bottom of the spindle 251, the rotary tooth 256 is disposed in cooperation with the rotary gear 255, and the rotary tooth 256 is located in front of the opening 216 in the rotation direction of the dispensing cartridge 212; and

and a spring piece 257, wherein the spring piece 257 is disposed on the baffle 252, and the spring piece 257 drives the rotated baffle 252 to return.

It should be noted that, in the process of switching the liquid feeding pipe 222 in each material distribution area 210, the partition plate 215 may block the liquid feeding pipe 222, so an opening 216 needs to be formed in the partition plate 215 for the liquid feeding pipe 222 to pass through, however, the existence of the opening may cause the adjacent material distribution areas 210 to be communicated, which causes the liquid sprayed from the liquid feeding pipe 222 to wet the surface layer of the filter residue in another material distribution area 210, and therefore, after the liquid feeding pipe 222 passes through the opening 216, the baffle unit 25 directly blocks the opening 216, so that the material distribution areas 210 form a partition.

As shown in fig. 2, 4 and 12, as a preferred embodiment, the dividing assembly 3 includes:

the dividing hopper 31 is rotatably arranged on the mounting plate 1, and the dividing hopper 31 is positioned at the feed port 11;

the dividing knife 32 is installed in the dividing hopper 31, and the dividing knife 32 is used for dividing and cutting filter residues output by the feed inlet 11 along with the dividing hopper 31; and

and the reverse transmission unit 33 is used for connecting the dividing hopper 31 and the driving unit 23 in a transmission manner, and the dividing hopper 31 and the material dividing barrel 212 are arranged in a reverse rotation manner.

Further, the reverse transmission unit 33 includes:

a transmission main shaft 331, wherein the transmission main shaft 331 penetrates the mounting plate 1 and is connected with the transfer gear 233;

a reverse drive gear 332, the reverse drive gear 332 being disposed at a lower end portion of the transmission main shaft 331, the reverse drive gear 332 rotating synchronously with the transfer gear 233;

a reverse relay gear 333 rotatably installed between the reverse drive gear 332 and the dividing bucket 31, the reverse relay gear 333 being engaged with the reverse drive gear 332; and

and the reverse gear ring 334 is arranged on the dividing bucket 31, and the reverse gear ring 334 is meshed with the reverse transfer gear 333 and drives the dividing bucket 31 to rotate.

It should be noted that, when the filter residue is input into the stirring tank through the feed inlet 11, in order to enable the filter residue to be better utilized for stirring treatment, the filter residue falling into the stirring tank is cut layer by layer through the cutting component 3, so that the filter residue is better stirred and mixed with the liquid in the stirring tank between the filter residue layers.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a quick multistage filter-pressing feed mechanism of circulating, its characterized in that includes:

the mounting plate (1), the mounting plate (1) is arranged at the top of the stirring tank, and a feed inlet (11) communicated with the inside of the stirring tank is formed in the mounting plate (1);

the material distributing assembly (2) is arranged at the feed inlet (11), the material distributing assembly (2) is arranged above the mounting plate (1), the material distributing assembly (2) comprises a material distributing barrel unit (21), a liquid adding unit (22) and a driving unit (23), a plurality of material distributing areas (210) are arranged inside the material distributing barrel unit (21), the material distributing areas (210) are rotationally switched and pass through the feed inlet (11) one by one, the liquid adding unit (22) is arranged on the material distributing barrel unit (21), liquid is added to filter residues in the material distributing areas (210) from inside to outside by the liquid adding unit (22), the driving unit (23) is arranged on one side of the material distributing barrel unit (21), and the driving unit (23) synchronously drives the material distributing barrel unit (21) and the liquid adding unit (22) to operate; and

cut apart subassembly (3), cut apart subassembly (3) install in the below of mounting panel (1), should cut apart subassembly (3) by drive unit (23) synchronous drive just is right feed inlet (11) exhaust filter residue cuts apart the processing.

2. A circulating type rapid multistage filter-pressing material distributing mechanism according to claim 1, wherein the material distributing cylinder unit (21) comprises:

the steel hoop (211), the steel hoop (211) is installed at the feed inlet (11) of the mounting plate (1), and the steel hoop (211) is arranged in a cylindrical shape;

the material separating barrel (212) is rotatably sleeved in the steel hoop (211), the material separating barrel (212) is arranged in a cylindrical shape, and a plurality of partition plates (215) are arranged in the material separating barrel (212) to divide the interior of the material separating barrel (212) into a plurality of material separating areas (210); and

the apron (213), apron (213) cover is located the top of minute feed cylinder (212), is provided with inlet pipe (214) on this apron (213), and this apron (213) pass through inlet pipe (214) and pressure filter erection joint, the filter press exhaust filter residue passes through inlet pipe (214) enters into and divides in the material district (210).

3. A circulating rapid multistage filter-pressing material distribution mechanism according to claim 2, wherein the liquid adding unit (22) comprises:

the liquid adding connector (221), the liquid adding connector (221) is installed above the cover plate (213), and the liquid adding connector (221) is connected with an external liquid supply device; and

the liquid adding pipes (222) are arranged in the radial direction of the material distributing barrel (212) and rotatably mounted on the liquid adding connector (221), the liquid adding pipes (222) penetrate through the cover plate (213), and liquid discharging holes (223) are formed in the parts, inserted in the material distributing area (210), of the liquid adding pipes (222).

4. A circulating rapid multistage filter-press distribution mechanism according to claim 2, characterized in that the drive unit (23) comprises:

the driving motor (231), the driving motor (231) is installed below the mounting plate (1);

the driving gear (232) is installed on the driving motor (231), and the driving gear (232) is driven by the driving motor (231) to rotate;

the transfer gear (233) is installed between the driving gear (232) and the material distribution barrel (212), and the driving gear (232) is meshed with the transfer gear (233); and

the gear ring (234), gear ring (234) cover establish install in divide on the feed cylinder (212), this gear ring (324) with transfer gear (233) meshing sets up, drives divide the feed cylinder (212) rotatory.

5. The circulating type rapid multistage filter-pressing material separating mechanism according to claim 4, wherein the material separating barrel (212) rotates to drive the liquid adding pipe (222) to rotate around the axis of the liquid adding pipe (222) through the transmission unit (24).

6. A circulating type rapid multistage filter-pressing and material-dividing mechanism according to claim 5, wherein the transmission unit (24) comprises:

the transmission gear ring (241) is sleeved at the top of the material separating barrel (212), and the transmission gear ring (241) is rotationally arranged along with the material separating barrel (212);

the transmission gear (242) is sleeved on the liquid feeding pipe (222) close to the edge of the cover plate (213), and the transmission gear (242) is meshed with the transmission gear ring (241); and

the synchronous belt group (243), the synchronous belt group (243) is installed on the liquid feeding pipe (222), and the synchronous belt group (243) synchronously drives the liquid feeding pipe (222) to rotate.

7. A circulating type rapid multistage filter-pressing material separating mechanism according to claim 3, wherein a plurality of openings (216) for the liquid feeding pipes (222) to pass through are formed on the partition plate (215), and a baffle unit (25) for blocking the openings (216) is arranged on the openings (216).

8. A circulating rapid multistage filter-press distribution mechanism according to claim 7, wherein the baffle unit (25) comprises:

the mandrel (251) is fixedly connected with the cover plate (213), and the mandrel (251) is coaxially arranged with the material separating barrel (212);

the baffles (252), the baffles (252) and the openings (216) are arranged in a one-to-one correspondence mode, and the baffles (252) are rotatably arranged at the openings (216);

the chain wheels (253), the chain wheels (253) are arranged corresponding to the baffle plates (252) one by one, and the chain wheels (253) are installed on the baffle plates (252);

the chain (254) is wound on the chain wheel (253), and the chain (254) drives the chain wheel (253) to synchronously rotate;

a rotating gear (255), the rotating gear (255) mounted on a baffle (252) proximate to the mandrel (251);

a rotating tooth part (256), wherein the rotating tooth part (256) is installed at the bottom of the mandrel (251), the rotating tooth part (256) is matched with the rotating gear (255), and the rotating tooth part (256) is positioned in front of the opening (216) along the rotating direction of the dispensing barrel (212); and

and the spring piece (257) is arranged on the baffle (252), and the spring piece (257) drives the rotated baffle (252) to reset.

9. A circulating rapid multistage filter-pressing material distribution mechanism according to claim 4, characterized in that the dividing assembly (3) comprises:

the dividing hopper (31), the dividing hopper (31) is rotatably arranged on the mounting plate (1), and the dividing hopper (31) is positioned at the feed port (11);

the dividing cutter (32), the dividing cutter (32) is installed in the dividing hopper (31), and the dividing cutter (32) is used for dividing and cutting filter residues output by the feed inlet (11) along with the dividing hopper (31); and

the reverse transmission unit (33), the reverse transmission unit (33) transmission is connected cut apart fill (31) with drive unit (23), cut apart fill (31) with divide feed cylinder (212) contrarotation setting.

10. A circulating rapid multistage filter-press distributor according to claim 9, characterized by the fact that said reverse transmission unit (33) comprises:

a transmission main shaft (331), wherein the transmission main shaft (331) penetrates through the mounting plate (1) and is connected with the transfer gear (233);

a reverse drive gear (332), wherein the reverse drive gear (332) is arranged at the lower end part of the transmission main shaft (331), and the reverse drive gear (332) rotates synchronously with the transfer gear (233);

a reverse relay gear (333), the reverse relay gear (333) being rotatably mounted between the reverse drive gear (332) and the dividing bucket (31), the reverse relay gear (333) being engaged with the reverse drive gear (332); and

the reverse gear ring (334) is arranged on the segmentation bucket (31), and the reverse gear ring (334) is meshed with the reverse transfer gear (333) and drives the segmentation bucket (31) to rotate.

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