CN214287080U - Slurry distributor of vacuum filter - Google Patents

Abstract

The utility model provides a slurry distributor of a vacuum filter. The slurry distributor of the vacuum filter comprises a vacuum filter for filtering slurry, a filter frame for mounting the vacuum filter, a slurry feeding hole and a first circular mixing chamber, wherein the vacuum filter is fixedly connected to the upper side of the filter frame, and the slurry feeding hole is connected to the vacuum filter. The utility model discloses a vacuum filter's ground paste distributor among the head tube in the ground paste distributor mutually support of backward flow portion and settling part can make the large particulate matter deposit in the ground paste in the settling part, is convenient for improve the quality of ground paste, and simultaneously, first circular mixing chamber carries out intensive mixing to the ground paste, transfers the pulp room to carry out secondary filter to the ground paste again, and the setting of first play thick liquid subassembly and second play thick liquid subassembly can distribute the ground paste to external equipment evenly in, thereby makes the utility model discloses a vacuum filter's ground paste distributor can carry out rational distribution with the ground paste and promotes the degree of consistency of ground paste.

Description

Slurry distributor of vacuum filter

Technical Field

The utility model relates to a technical field of ground paste distributor especially relates to vacuum filter's ground paste distributor.

Background

With the continuous development of the electronic mechanical equipment in China, high efficiency, high quality and long service life become the continuous pursuit targets in the manufacturing industry.

The vacuum filter is a device which uses vacuum negative pressure as driving force to realize solid-liquid separation. Under the action of vacuum negative pressure (0.04-0.07MPa), liquid in the suspension is pumped out through the filtering medium (filter cloth), and solid particles are intercepted by the medium, so that the separation of liquid and solid is realized. The filtering sections are arranged along the horizontal length direction in the structure, and can continuously complete the operations of filtering, washing, sucking, filter cloth regeneration and the like.

The rubber belt filter has the advantages of high filtering efficiency, large production capacity, good washing effect, low water content of filter cakes, flexible operation, low maintenance cost and the like. The rubber belt filter can be widely applied to solid-liquid separation in the fields of metallurgy, mines, chemical industry, papermaking, food, pharmacy, environmental protection and the like, and particularly has good application in the aspect of gypsum dehydration (FGD) in flue gas desulfurization.

The slurry is generally directly fed into the upper part of the feeding cylinder of the vacuum filter, and the cylinder wall is easily abraded due to the high speed and pressure of the slurry. And the slurry has short retention time in the feeding cylinder and can not be fully mixed with the flocculating agent, so that the filtration efficiency is reduced.

Meanwhile, the vacuum filter in the prior art has the following defects: the slurry can generate flow velocity difference under the action of gravity and viscosity, so that the ratio of the slurry to the liquid is not uniform, segregation phenomenon can occur, the slurry is deposited, the phenomenon that the fiber in the slurry is subjected to secondary flocculation and the like is influenced by turbulent flow, the above adverse factors can only adopt about 8 percent of low-concentration mode production in the production process, the single-machine productivity is reduced, and the cost is increased.

In addition, the existing vacuum filter still has the defect of uneven material distribution in the slurry conveying process, the filtering effect of the slurry is easily influenced, and the slurry filtered by the filter can cause secondary pollution to the slurry due to factors such as gravity when the slurry is transmitted to external equipment.

There is therefore a pressing need to redesign a new slurry distributor to address the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a slurry distributor of a vacuum filter, which solves the technical problem in the prior art.

The utility model provides a slurry distributor of a vacuum filter, the slurry distributor of the vacuum filter comprises a vacuum filter for filtering slurry, a filtering frame for installing the vacuum filter, a slurry feed inlet and a first circular mixing chamber, the vacuum filter is fixedly connected on the upper side of the filtering frame, the slurry feed inlet is connected on the vacuum filter, one side of the vacuum filter far away from the slurry feed inlet is connected with a first slurry guide pipe by a flange, one end of the first slurry guide pipe far away from the vacuum filter is connected with a slurry flow pipe, one end of the slurry flow pipe far away from the first slurry guide pipe is connected with a shunt pipe, the shunt pipe guides the slurry in the slurry flow pipe into the first circular mixing chamber, the lower side of the first circular mixing chamber is connected with at least one slurry outlet pipe, one end of the slurry outlet pipe far away from the first circular mixing chamber is connected with a second slurry guide pipe, the second slurry guide pipe conveys the slurry after being stirred in the first circular mixing chamber into the slurry mixing chamber, the one end that the second ground paste pipe was kept away from to the accent thick liquid room is connected with the third ground paste pipe, and the one end that the accent thick liquid room was kept away from to the third ground paste pipe is connected with the shaping room, and the ground paste through first circular mixing chamber and accent thick liquid room processing gets into in the shaping room, still is provided with first play thick liquid subassembly and second play thick liquid subassembly on the shaping room lateral wall to discharge the ground paste in the shaping room.

Optionally, the head pipe includes intercommunication portion, backward flow portion and deposit portion, and the intercommunication portion is connected with first ground paste pipe, and the lower extreme at the intercommunication portion can be dismantled in the deposit portion, and backward flow portion one end fixed connection is in the upper end of intercommunication portion, and the backward flow portion other end is connected on the shunt tubes, and the ground paste that first ground paste pipe flowed in flows through intercommunication portion and backward flow portion in proper order, flows to in the backward flow portion.

Optionally, a disassembly valve is connected to the outside of the deposition portion, and the disassembly valve is used for fixing or disassembling the deposition portion from the communication portion.

Optionally, both ends of the backflow part are bent downward to allow large-particle impurities in the slurry flowing to the backflow part from the communication part to flow back into the deposition part.

Optionally, a filtrate pump is connected to one side of the first circular mixing chamber, an output end of the filtrate pump extends into the first circular mixing chamber, a stirring blade is fixedly connected to an output end of the filtrate pump, and the output end of the filtrate pump drives the stirring blade to rotate so as to uniformly stir the slurry in the first circular mixing chamber.

Optionally, the lower end of the slurry mixing chamber is connected with a first supporting seat and a second supporting seat, and the height of the first supporting seat is greater than that of the second supporting seat, so that the slurry mixing chamber is inclined towards the direction close to the third slurry guide pipe.

Optionally, a filter screen for filtering slurry entering the slurry mixing chamber is connected to the inner wall of the slurry mixing chamber, and the filter screen is tightly attached to the inner wall of the slurry mixing chamber.

Optionally, the first slurry outlet assembly comprises a first slurry outlet pipe, a second slurry outlet pipe and a first filter block, one end of the first slurry outlet pipe is connected with the forming chamber, the other end of the first slurry outlet pipe is connected with the second slurry outlet pipe, the second slurry outlet pipe guides the first slurry outlet pipe and slurry in the forming chamber to external equipment, and the first filter block is fixedly connected to the first slurry outlet pipe so as to filter the slurry flowing through the first slurry outlet pipe.

Optionally, the second slurry outlet assembly comprises a third slurry outlet pipe, a fourth slurry outlet pipe, a second filter block and a third filter block, one end of the third slurry outlet pipe is connected with the forming chamber, the other end of the third slurry outlet pipe is connected with the fourth slurry outlet pipe, the fourth slurry outlet pipe guides slurry in the third slurry outlet pipe and the forming chamber to external equipment, the second filter block is fixedly connected to the third slurry outlet pipe, and the third filter block is fixedly connected to the fourth slurry outlet pipe.

Optionally, the filter frame is fixedly connected with a mounting frame, and the mounting frame is of a rectangular structure.

The utility model has the advantages as follows:

the slurry distributor of the vacuum filter comprises a vacuum filter for filtering slurry, a filter frame for mounting the vacuum filter, a slurry feed inlet and a first circular mixing chamber, wherein the vacuum filter is fixedly connected to the upper side of the filter frame, the slurry feed inlet is connected to the vacuum filter, a first slurry guide pipe is connected to one side of the vacuum filter, which is far away from the slurry feed inlet, in a flange manner, one end of the first slurry guide pipe, which is far away from the vacuum filter, is connected with a slurry flow pipe, wherein the vacuum filter primarily filters the slurry, the mutual matching of a backflow part and a deposition part in the slurry flow pipe can enable large granular substances in the slurry to be deposited in the deposition part, so that the quality of the slurry is improved, meanwhile, the first circular mixing chamber fully stirs the slurry to improve the purity of the slurry, the slurry mixing chamber secondarily filters the slurry to deeply remove impurities in the slurry, further, the setting of first play thick liquid subassembly and second play thick liquid subassembly can distribute the ground paste to external equipment evenly in, thereby makes the utility model discloses a vacuum filter's ground paste distributor can carry out rational distribution with the ground paste and can promote the purity of ground paste.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic structural view of a first embodiment of a slurry distributor for a vacuum filter according to the present invention;

FIG. 2 is a schematic structural view of a second embodiment of a slurry distributor for a vacuum filter according to the present invention;

FIG. 3 is a schematic structural view of a third embodiment of a slurry distributor for a vacuum filter according to the present invention;

FIG. 4 is a schematic view of the structure of the head pipe of the slurry distributor of the vacuum filter according to the present invention;

FIG. 5 is a schematic structural view of a fourth embodiment of a slurry distributor for a vacuum filter according to the present invention;

figure 6 is a schematic diagram of a fifth embodiment of a slurry distributor for a vacuum filter according to the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Referring to fig. 1 to 6, fig. 1 is a schematic structural view of a slurry distributor 1000 of a vacuum filter according to a first embodiment of the present invention; FIG. 2 is a schematic diagram of a second embodiment of a slurry distributor 1000 for a vacuum filter according to the present invention; FIG. 3 is a schematic structural view of a third embodiment of a slurry distributor 1000 for a vacuum filter according to the present invention; FIG. 4 is a schematic view of the construction of the head pipe 400 of the slurry distributor 1000 of the vacuum filter according to the present invention; FIG. 5 is a schematic structural view of a fourth embodiment of a slurry distributor 1000 for a vacuum filter according to the present invention; figure 6 is a schematic diagram of a fifth embodiment of a slurry distributor 1000 for a vacuum filter according to the present invention.

The slurry distributor 1000 of the vacuum filter of the present invention comprises a vacuum filter 100 for filtering slurry, a filter frame 200 for mounting the vacuum filter 100, a slurry feed inlet 210 and a first circular mixing chamber 300.

The vacuum filter 100 is fixedly connected to the upper side of the filter frame 200, the slurry feed inlet 210 is connected to the vacuum filter 100, a first slurry guide pipe 310 is connected to one side of the vacuum filter 100 far away from the slurry feed inlet 210 in a flange manner, a slurry flow pipe 400 is connected to one end of the first slurry guide pipe far away from the vacuum filter 100, a shunt pipe 500 is connected to one end of the slurry flow pipe 400 far away from the first slurry guide pipe 310, slurry in the slurry flow pipe 400 is guided into a first circular mixing chamber 300 by the shunt pipe 500, at least one slurry outlet pipe 510 is connected to the lower side of the first circular mixing chamber 300, a second slurry guide pipe 520 is connected to one end of the slurry outlet pipe 510 far away from the first circular mixing chamber 300, slurry stirred by the first circular mixing chamber 300 is conveyed into the slurry mixing chamber 600 by the second slurry guide pipe 520, a third slurry guide pipe 610 is connected to one end of the slurry mixing chamber 600 far away from the second slurry guide pipe 520, and a forming chamber 620 is connected to one end of the third slurry guide pipe 610 far away from the slurry mixing chamber 600, the slurry processed by the first circular mixing chamber 300 and the slurry mixing chamber 600 enters the forming chamber 620, and a first slurry outlet assembly and a second slurry outlet assembly are further arranged on the side wall of the forming chamber 620 so as to discharge the slurry in the forming chamber 620.

Wherein the filter frame 200 serves to support the vacuum filter 100. When the user needs to use the utility model discloses a slurry distributor 1000 of vacuum filter, at first the user adds the ground paste that production and processing accomplished to vacuum filter 100 in through ground paste feed inlet 210, vacuum filter 100 carries out prefilter to the ground paste, then through the filterable ground paste of vacuum filter 100 derives vacuum filter 100 through the first ground paste pipe 310 of connecting at vacuum filter 100 lower extreme, the ground paste after the prefilter of vacuum filter 100 passes first ground paste pipe 310 and flows to in the head pipe 400, then head pipe 400 continues to convey the ground paste to shunt tubes 500 in, shunt tubes 500 will be injected into first circular mixing chamber 300 by the ground paste that head pipe 400 flowed in, first circular mixing chamber 300 carries out the intensive mixing with the ground paste evenly, in order to promote the purity of ground paste, then the ground paste through the mixed first circular mixing chamber 300 flows out first circular mixing chamber 300 through a ground paste pipe 510, the thick liquid that flows out thick liquid pipe 510 flows to mixing the thick liquid room 600 through second thick liquid pipe 520 in, mix thick liquid room 600 and carry out secondary filter back to thick liquid and send thick liquid to in the forming chamber 620 through third thick liquid pipe 610, at this moment, impurity content in the thick liquid is few, and the purity is high, be connected with first play thick liquid subassembly and second play thick liquid subassembly on the forming chamber 620 lateral wall, first play thick liquid subassembly and second play thick liquid subassembly are derived the thick liquid to the external equipment that needs the thick liquid respectively in, it is worth explaining, the quantity of play thick liquid pipe 510 can be one, two or three, the utility model discloses do not make the limit to the concrete quantity of play thick liquid pipe 510, the more of play thick liquid pipe 510 is only in order to improve the speed of a thick liquid.

In this embodiment, the slurry pipe 400 includes a connection portion 410, a return portion 420, and a deposition portion 430, the connection portion 410 is connected to the first slurry pipe 310, the deposition portion 430 is detachably connected to a lower end of the connection portion 410, one end of the return portion 420 is fixedly connected to an upper end of the connection portion 410, the other end of the return portion 420 is connected to the bypass pipe 500, and the slurry flowing into the first slurry pipe 310 sequentially flows through the connection portion 410 and the return portion 420 and flows into the return portion 420.

The connecting part 410 guides in the slurry in the first slurry guide pipe 310, then the slurry is conveyed to the backflow part 420, because two ends of the backflow part 420 are bent downwards, so that large-particle impurities in the slurry flowing to the backflow part 420 from the connecting part 410 flow back to the deposition part 430, when the slurry flows from the first slurry guide pipe 310 to the connecting part 410, the impurities with high weight can be directly gathered to the deposition part 430 under the action of gravity, part of impurities can continue to move along with the slurry under the flowing of the slurry, the backflow part 420 is bent downwards, so that the slurry has a certain buffering effect when passing through the backflow part 420, and then part of impurities can fall back to the deposition part 430, and the filtering effect on the slurry is improved.

In a more preferred embodiment, a disassembly valve 431 is connected to an outer side of the settling part 430, and the disassembly valve 431 is used for fixing or disassembling the settling part 430 from the communicating part 410. when too much impurities in slurry are accumulated in the settling part 430, a user can remove the settling part 430 from the communicating part 410 through the disassembly valve 431 to clean the impurities in the settling part 430.

In this embodiment, a filtrate pump 320 is connected to one side of the first circular mixing chamber 300, an output end of the filtrate pump 320 extends into the first circular mixing chamber 300, a stirring blade 321 is fixedly connected to an output end of the filtrate pump 320, and the output end of the filtrate pump 320 drives the stirring blade 321 to rotate, so as to uniformly stir the slurry in the first circular mixing chamber 300.

Wherein, when the slurry flows to the first circular mixing chamber 300, the filtrate pump 320 enters a working state, so that the output end of the filtrate pump 320 drives the stirring blade 321 to rotate, so that the slurry in the first circular mixing chamber 300 is fully and uniformly mixed, and the purity of the slurry is improved.

In this embodiment, the lower end of the slurry mixing chamber 600 is connected to a first support seat 610 and a second support seat 620, and the height of the first support seat 610 is greater than that of the second support seat 620, so that the slurry mixing chamber 600 is inclined toward the third slurry guide 610.

The slurry mixing chamber 600 is slightly inclined toward the third slurry conduit 610, which facilitates the slurry entering the slurry mixing chamber 600 to smoothly enter the third conduit under the action of gravity.

In this embodiment, the inner wall of the size mixing chamber 600 is connected with a filter screen 630 for filtering the slurry entering the size mixing chamber 600, and the filter screen 630 is tightly attached to the inner wall of the size mixing chamber 600, so that the slurry entering the size mixing chamber 600 is secondarily filtered, the impurities contained in the slurry are further reduced, and the quality of the slurry is improved. It should be noted that the filtering net 630 is only a net with holes in the prior art, and is tightly attached to the inner wall of the size mixing chamber 600, and slurry passes through the filtering net 630 when entering or exiting the size mixing chamber 600, so as to filter the slurry.

In this embodiment, the first slurry outlet assembly includes a first slurry outlet pipe 810, a second slurry outlet pipe 820 and a first filter block 830, one end of the first slurry outlet pipe 810 is connected with the forming chamber 620, the other end of the first slurry outlet pipe 810 is connected with the second slurry outlet pipe 820, the second slurry outlet pipe 820 guides the slurry in the first slurry outlet pipe 810 and the forming chamber 620 to the external equipment, and the first filter block 830 is fixedly connected to the first slurry outlet pipe 810 to filter the slurry flowing through the first slurry outlet pipe 810.

The first slurry outlet pipe 810 firstly guides the slurry in the forming chamber 620 to the first filter block 830, then the slurry is collected into the second slurry outlet pipe 820, and the second slurry outlet pipe 820 guides the slurry to the outside equipment needing the slurry.

In this embodiment, the second slurry outlet assembly includes a third slurry outlet pipe 910, a fourth slurry outlet pipe 920, a second filter block 930, and a third filter block 940, one end of the third slurry outlet pipe 910 is connected to the forming chamber 620, the other end of the third slurry outlet pipe 910 is connected to the fourth slurry outlet pipe 920, the fourth slurry outlet pipe 920 guides the slurry in the third slurry outlet pipe 910 and the forming chamber 620 to the external device, the second filter block 930 is fixedly connected to the third slurry outlet pipe 910, and the third filter block 940 is fixedly connected to the fourth slurry outlet pipe 920.

The third slurry outlet pipe 910 firstly guides the slurry in the forming chamber 620 out to the second filter block 930, the slurry is filtered by the second filter block 930 and then flows into the fourth slurry outlet pipe 920, the fourth slurry outlet pipe 920 firstly guides the slurry in the forming chamber 620 to the third filter block 940, and then the third filter block 940 guides the filtered slurry out of the fourth slurry outlet pipe 920 to be used by external equipment needing slurry.

In this embodiment, filter frame 200 downside fixedly connected with mounting bracket 700, mounting bracket 700 are rectangle column structure, and the mounting bracket 700 of rectangle structure can promote whole utility model's stability, and mounting bracket 700 plays the effect of support to filter frame 200.

The slurry distributor 1000 of the vacuum filter comprises a vacuum filter 100 for filtering slurry, a filter frame 200 for mounting the vacuum filter 100, a slurry feed inlet 210 and a first circular mixing chamber 300, wherein the vacuum filter 100 is fixedly connected to the upper side of the filter frame 200, the slurry feed inlet 210 is connected to the vacuum filter 100, a first slurry guide pipe 310 is flanged on one side of the vacuum filter 100 far away from the slurry feed inlet 210, one end of the first slurry guide pipe far away from the vacuum filter 100 is connected with a slurry flow pipe 400, wherein the vacuum filter 100 primarily filters the slurry, the large granular substances in the slurry can be deposited in a deposition part 430 by the mutual matching of a backflow part 420 and the deposition part 430 in the slurry flow pipe 400, the quality of the slurry is convenient to improve, meanwhile, the first circular mixing chamber 300 fully stirs the slurry to improve the purity of the slurry, and the slurry is secondarily filtered by the slurry mixing chamber 600, get rid of the impurity in the ground paste with the degree of depth, further, the setting of first play thick liquid subassembly and second play thick liquid subassembly can distribute the ground paste to external equipment evenly in, thereby make the utility model discloses a vacuum filter's ground paste distributor 1000 can carry out rational distribution with the ground paste and can promote the purity of ground paste.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. A slurry distributor of a vacuum filter is characterized by comprising a vacuum filter for filtering slurry, a filtering frame for installing the vacuum filter, a slurry feed inlet and a first circular mixing chamber, wherein the vacuum filter is fixedly connected to the upper side of the filtering frame, the slurry feed inlet is connected to the vacuum filter, a first slurry guide pipe is connected to one side of the vacuum filter, away from the slurry feed inlet, through a flange, one end of the first slurry guide pipe, away from the vacuum filter, is connected with a slurry flow pipe, one end of the slurry flow pipe, away from the first slurry guide pipe, is connected with a flow dividing pipe, the flow dividing pipe guides slurry in the slurry flow pipe into the first circular mixing chamber, the lower side of the first circular mixing chamber is connected with at least one slurry outlet pipe, one end of the slurry outlet pipe, away from the first circular mixing chamber, is connected with a second slurry guide pipe, the second ground paste pipe will in the ground paste after the stirring of first circular mixing chamber is sent into the size mixing chamber, the size mixing chamber is kept away from the one end of second ground paste pipe is connected with the third ground paste pipe, the third ground paste pipe is kept away from the one end of size mixing chamber is connected with the shaping room, process first circular mixing chamber with the ground paste after the processing of size mixing chamber gets into in the shaping chamber, still be provided with first play thick liquid subassembly and second play thick liquid subassembly on the shaping chamber lateral wall, in order to incite somebody to action the indoor ground paste of shaping is discharged.

2. The slurry distributor of a vacuum filter according to claim 1, wherein the slurry pipe comprises a communicating portion, a backflow portion and a deposition portion, the communicating portion is connected with the first slurry conduit, the deposition portion is detachably connected to the lower end of the communicating portion, one end of the backflow portion is fixedly connected to the upper end of the communicating portion, the other end of the backflow portion is connected to the flow dividing pipe, and slurry flowing in from the first slurry conduit sequentially flows through the communicating portion and the backflow portion and flows into the backflow portion.

3. A slurry distributor for a vacuum filter according to claim 2, wherein a disassembly valve is connected to an outside of said settling section, said disassembly valve being used to fix or detach said settling section from said communicating section.

4. A slurry distributor for a vacuum filter according to claim 2, wherein both ends of said return portion are bent downward to allow large-grained impurities in the slurry flowing into said return portion from said communicating portion to flow back into said settling portion.

5. A slurry distributor for a vacuum filter according to claim 1, wherein a filtrate pump is connected to one side of the first circular mixing chamber, an output end of the filtrate pump extends into the first circular mixing chamber, and a stirring blade is fixedly connected to an output end of the filtrate pump, and the output end of the filtrate pump drives the stirring blade to rotate so as to uniformly stir the slurry in the first circular mixing chamber.

6. A slurry distributor for a vacuum filter according to claim 1, wherein said slurry mixing chamber is connected at a lower end thereof to a first support base and a second support base, said first support base having a height greater than a height of said second support base, such that said slurry mixing chamber is inclined in a direction closer to said third slurry conduit.

7. The slurry distributor for a vacuum filter according to claim 1, wherein a filter screen for filtering the slurry entering the slurry mixing chamber is connected to the inner wall of the slurry mixing chamber, and the filter screen is closely attached to the inner wall of the slurry mixing chamber.

8. The vacuum filter slurry distributor according to claim 1, wherein the first slurry outlet assembly comprises a first slurry outlet pipe, a second slurry outlet pipe and a first filter block, one end of the first slurry outlet pipe is connected to the forming chamber, the other end of the first slurry outlet pipe is connected to the second slurry outlet pipe, the second slurry outlet pipe guides the slurry in the first slurry outlet pipe and the forming chamber to an external device, and the first filter block is fixedly connected to the first slurry outlet pipe to filter the slurry flowing through the first slurry outlet pipe.

9. The slurry distributor for a vacuum filter according to claim 1, wherein the second slurry outlet assembly comprises a third slurry outlet pipe, a fourth slurry outlet pipe, a second filter block and a third filter block, one end of the third slurry outlet pipe is connected to the forming chamber, the other end of the third slurry outlet pipe is connected to the fourth slurry outlet pipe, the fourth slurry outlet pipe guides the slurry in the third slurry outlet pipe and the forming chamber to an external device, the second filter block is fixedly connected to the third slurry outlet pipe, and the third filter block is fixedly connected to the fourth slurry outlet pipe.

10. A slurry distributor for a vacuum filter as claimed in claim 1, wherein a mounting frame is fixedly attached to the underside of the filter frame, said mounting frame having a rectangular configuration.

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