CN210004159U

CN210004159U - novel slurry conveying system

Info

Publication number: CN210004159U
Application number: CN201920535811.XU
Authority: CN
Inventors: 庞威
Original assignee: Qiansheng Fluid Technology Wenzhou Co Ltd
Current assignee: Qiansheng Fluid Technology Wenzhou Co Ltd
Priority date: 2019-04-19
Filing date: 2019-04-19
Publication date: 2020-01-31
Anticipated expiration: 2029-04-19

Abstract

The utility model discloses a novel thick liquids conveying system, including automatically controlled cabinet subassembly, automatic thick liquids filter, bobble position inductor, second surplus liquid jar and two-way ball receiving and dispatching device, this thick liquids conveying system, through be provided with two-way ball receiving and dispatching device on the trunk line, open and to draw out the ball mouth, and put into little pushball, bobble position inductor senses little pushball, after receiving the signal that the service was started, pneumatic ball valve and the action of second pneumatic ball valve on the trunk line, little pushball is under compressed gas's promotion, with remaining liquid in the trunk line or the whole propelling movement of precipitate to receiving the jar internal, after the propelling movement, little pushball gets into in the terminal two-way automatic service device, compressed gas in surplus liquid jar and the second surplus liquid jar discharge trunk line through both ends, reached and to clear up pipeline convenient and fast, need not to tear open the advantage of managing the gradual segmentation clearance.

Description

novel slurry conveying system

Technical Field

The utility model relates to a fluid transport field of relevance specifically is novel thick liquids conveying system.

Background

In the processing process of the fields of pharmacy, lithium batteries, foods, beverages, bioengineering, water treatment, daily chemicals, petroleum, chemical engineering and the like, the slurry generated in the processing needs to be transmitted, the slurry is organic substances with colloidal properties, can be dissolved or expanded in water to form thick and plastic paste, can be used as a transfer agent for bringing dyes and other chemicals to fabrics, and can be washed after printing and fixation are finished.

Disclosure of Invention

Accordingly, to address the above deficiencies, the present invention provides novel slurry delivery systems.

The utility model discloses a realize like this, structure novel thick liquids conveying system, the device include automatically controlled cabinet subassembly, automatic thick liquids filter, high-efficient deironing filter, thick liquids agitator tank, screw pump, play ball subassembly, trunk line, sight glass, second thick liquids agitator tank, surplus liquid jar, diaphragm type manometer, diaphragm type pressure sensor, bobble position inductor and second surplus liquid jar, automatically controlled cabinet subassembly is connected with two-way ball receiving and dispatching device electricity through the wire, automatic thick liquids filter is connected with two-way ball receiving and dispatching device left end through the hose, automatic thick liquids filter is connected with high-efficient deironing filter upper right end through the hose to automatic thick liquids filter is located high-efficient filter right end, high-efficient deironing filter is connected with the screw pump through the hose, thick liquids agitator tank is connected with the connector that sets up through hose and screw pump top rear end, the sight glass imbeds in thick liquids agitator tank top portion end, and sealing washer is connected with thick liquids agitator tank top end fixed connection of right end of screw pump through hose, the hose is connected with two-way ball receiving and tee end ball receiving and two-way ball device top handle, the main line is connected with two-way ball receiving and two-way ball receiving device top handle, the tee end of two-way ball receiving and two-way ball receiving slurry agitator tank is connected with the main line, the main line is connected with the left end of the tee end of two-way ball receiving and the tee end of the two-way ball receiving and the two-way ball receiving and two-way ball receiving device, the two-way ball receiving and two-way ball receiving and two-way ball receiving device is connected through the two-way ball.

Preferably, automatic thick liquids filter includes axle circlip A type, support end cover, tetrafluoro pad, wedge filter core, filters barrel, holder, O type rubber seal and stay tube, it is connected with high-efficient deironing filter upper right end to filter the barrel through the hose, stay tube welds with filtration barrel bottom triangle mutually, the holder is located and filters the inside centre of barrel to the holder with filter the inside middle fixed connection of barrel, the inside filtration barrel that is provided with of holder, O type rubber seal bonds with the left and right sides of filtering the barrel lower extreme mutually, the support end cover is fixed with the upper end locking of filtering the barrel through interior hexagonal bolt, the inside lower extreme of support end cover is provided with the tetrafluoro pad, axle circlip A type bonds with the inside upper end of support end cover mutually.

Preferably, the high-efficiency iron removal filter comprises a magnetic rod fixing plate, an th short cylinder, an iron removal cylinder, a guide plate, a second short cylinder and a second support tube, wherein the th short cylinder is connected with the screw pump through a hose, the th short cylinder is locked and fixed with the edge of the upper end of the iron removal cylinder through an inner hexagonal bolt, the th short cylinder is communicated with the upper end of the iron removal cylinder, the magnetic rod fixing plate is fixedly connected with the middle of the upper end of the th short cylinder, the second short cylinder is in threaded connection with the lower end of the iron removal cylinder through the inner hexagonal bolt, the second short cylinder is communicated with the lower end of the iron removal cylinder, the guide plate is connected with the upper end of the second short cylinder through a bolt, the guide plate is positioned between the second short cylinder and the iron removal cylinder, and the second support tube is welded with a bottom triangle.

Preferably, the screw pump includes servo motor, single reduction gear, transmission connecting axle, 50 pump bases, flexible axle, rotor, stator and the pump body, th thick liquids agitator tank is connected through the connector that hose and pump body upper end left side set up, servo motor passes through hexagon socket head cap screw and pump body left end locking fixed, servo motor passes through the rotor that the front end set up and is connected with the inside gear rotation that sets up of single reduction gear, servo motor rotates through transmission connecting axle and flexible axle left end to be connected, the pump body passes through hexagon socket head cap screw and 50 pump bases upper end locking fixed, the pump body and stator left end fixed connection, the flexible axle rotates with the rotor left end to be connected.

Preferably, the ball outlet assembly comprises an th pneumatic ball valve and a second pneumatic ball valve, the upper end of the main pipe is provided with a th pneumatic ball valve, and the second pneumatic ball valve is mounted on the left side of the upper end of the main pipe.

Preferably, the pneumatic ball valve includes model returner, executor, solenoid valve and ball valve body, the trunk line is connected with ball valve body middle part to trunk line and ball valve body middle part link up mutually, the executor is installed in ball valve body upper end, ball valve body and executor front end downside fixed connection, the model returner passes through hexagon socket head cap screw and executor upper end middle part locking is fixed.

Preferably, the second pneumatic ball valve comprises a letter return device, a flying actuator, a second electromagnetic valve and a three-piece ball valve, the main pipe is connected with the middle of the inner side of the three-piece ball valve and communicated with the middle of the inner side of the three-piece ball valve, the flying actuator is arranged at the upper end of the three-piece ball valve and fixedly connected with the left end of the second electromagnetic valve, and the letter return device is fixedly locked with the middle of the upper end of the flying actuator through an inner hexagonal bolt.

Preferably, little pushing ball includes little pushing head, little diaphragm and pushes away the spheroid, little diaphragm and direction tetrafluoro inside wall sliding connection, it is provided with little diaphragm to push away the spheroid left end, little diaphragm and little pushing head right-hand member fixed connection.

Preferably, the small diaphragms are provided with two pieces, are symmetrically distributed along the left side and the right side of the upper end of the pushing ball body, and are internally provided with fiber layers.

Preferably, a touch display screen and control buttons are arranged at the upper end of the electric control cabinet assembly.

Preferably, the filtering cylinder, the holder, the th short cylinder, the iron removing cylinder and the second short cylinder are made of SUS 304.

Preferably, the polytetrafluoroethylene cushion is made of polytetrafluoroethylene materials, and has excellent corrosion resistance, ageing resistance, non-conductivity and other properties.

The utility model has the advantages that the utility model provides kinds of novel thick liquids conveying system through improving here, compare with equipment of the same type, have the following improvement:

novel thick liquids conveying system, through be provided with two-way ball receiving and dispatching device in the trunk line upper end, open and to pull out the ball mouth, and put into little pushing ball, little ball position sensor senses little pushing ball, after receiving the signal that serve the start, pneumatic ball valve and the action of the pneumatic ball valve of second on the trunk line, little pushing ball is under compressed gas's promotion, it is internal with the whole propelling movement of remaining liquid or precipitate in the trunk line to receiving the jar, after the propelling movement, little pushing ball gets into in the terminal two-way automatic ball serving device, compressed gas in surplus liquid jar and the remaining liquid jar discharge trunk line at second through both ends, reached and to have cleared up pipeline convenient and fast, need not to tear open the pipe and pursue the advantage of section clearance.

Drawings

In order that the present invention may be more readily and clearly understood, the present invention is now described in more detail at with reference to the following detailed description of the preferred embodiments taken in conjunction with the accompanying drawings.

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic diagram illustrating the connection of the slurry delivery system of the present invention;

FIG. 3 is an enlarged schematic view of the connection of the slurry delivery system of the present invention;

FIG. 4 is a schematic cross-sectional view of the two-way ball receiving and sending device of the present invention;

FIG. 5 is a schematic cross-sectional view of an automatic slurry filter of the present invention;

FIG. 6 is a schematic cross-sectional view of the high-efficiency iron removing filter of the present invention;

FIG. 7 is a schematic cross-sectional view of a screw pump according to the present invention;

FIG. 8 is a schematic cross-sectional view of a pneumatic ball valve according to the present invention;

FIG. 9 is a schematic cross-sectional view of a second pneumatic ball valve according to the present invention;

fig. 10 is a schematic sectional view of the pushball of the present invention.

The device comprises an electric control cabinet component-1, a bidirectional ball receiving and sending device-2, an automatic slurry filter-3, a high-efficiency iron removal filter-4, a th slurry stirring tank-5, a screw pump-6, a ball outlet component-7, a main pipeline-8, a sight glass-9, a second slurry stirring tank-10, a th residual liquid tank-11, a diaphragm type pressure gauge-12, a diaphragm type pressure sensor-13, a small ball position sensor-14, a second residual liquid tank-15, a ball sending handle end cover-201, a guide tetrafluoro-202, a drawable ball outlet-203, a small push ball-204, an elastic retainer ring A type-301, a support end cover-302, a tetrafluoro pad-303, a wedge-shaped filter element-304, a filter cylinder-305, a retainer-306, an O type rubber seal ring-307, a th support tube-308, a magnetic rod fixing plate-401, a th short cylinder body-402, an iron removal cylinder-403, a guide plate-404, a second short cylinder body 406-405, a second support tube-405, a second motor-601, a single-stage servo ball driving shaft connecting device, a servo ball valve actuator, a servo ball valve, a servo motor-1-3, a servo ball valve actuator, a pneumatic ball valve actuator, a servo ball valve-7023, a pneumatic valve actuator, a pneumatic valve-7023-2043, a pneumatic valve main body, a pneumatic valve.

Detailed Description

The technical solution in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of , but not all embodiments.

The utility model discloses an improve here and provide novel thick liquids conveying system, including automatically controlled cabinet subassembly 1, automatic thick liquids filter 3, high-efficient deironing filter 4, thick liquids agitator tank 5, screw pump 6, ball outlet subassembly 7, trunk line 8, sight glass 9, second thick liquids agitator tank 10, surplus liquid tank 11, diaphragm type manometer 12, diaphragm type pressure sensor 13, ball position inductor 14, second surplus liquid tank 15 and to receiving and dispatching ball device 2, automatically controlled cabinet subassembly 1 is connected with two-way receiving and dispatching ball device 2 electricity through the wire, automatic thick liquids filter 3 is connected with two-way receiving and dispatching ball device 2 left end through the hose, automatic thick liquids filter 3 is connected with high-efficient deironing filter 4 upper right end through hose and high-efficient deironing filter 4 right-hand member, high-efficient deironing filter 4 is connected with screw pump 6 through hose thick liquids agitator tank 5 through hose and be connected with the setting of 6 top rear end of screw pump 6, it imbeds in thick liquids agitator tank 5 top front end, and the improvement provide 598 and set up through seal ring and connect the two-way right side handle ball tank 20 and connect the two-way handle ball device 2 left side handle 2 front end handle connector 202 with the two-way handle 2, the two-way handle 2 left side receiving and handle ball device 2 left side handle 2 front end connection handle 2 front end of second thick liquids filter 202, automatically controlled cabinet subassembly 20 is connected with the left side handle 2, automatically connected with the left side handle 2 front end of diaphragm type pressure sensor 202, automatically connected with the left side handle 2, automatically controlled cabinet 200, automatically controlled cabinet subassembly 20, automatically controlled cabinet 2 left side handle 2 front end of the left side handle 2, automatically controlled cabinet 2 left side handle 21, automatically controlled cabinet 3, automatically controlled cabinet subassembly 20 is connected with the left side handle 2 left side handle of the left side handle ball device 3, automatically controlled cabinet 2 front end of the left side handle ball outlet port 12 is connected with the left side handle of the left side handle of the left side is connected.

, the automatic slurry filter 3 includes an elastic collar A type 301 for a shaft, a support end cover 302, a tetrafluoro pad 303, a wedge-shaped filter element 304, a filter cylinder 305, a retainer 306, an O-shaped rubber seal ring 307 and a support tube 308, the filter cylinder 305 is connected with the upper right end of the high-efficiency deironing filter 4 through a hose, the support tube 308 is welded with the bottom triangle of the filter cylinder 305, the retainer 306 is located in the middle of the inside of the filter cylinder 305 and fixedly connected with the middle of the inside of the filter cylinder 305, the filter cylinder 305 is arranged inside the retainer 306, the O-shaped rubber seal ring 307 is bonded with the left side and the right side of the lower end of the filter cylinder 305, the support end cover 302 is locked and fixed with the upper end of the filter cylinder 305 through an inner hexagon bolt, the tetrafluoro pad 303 is arranged at the lower end of the inside of the support end cover 302, and the elastic collar A type 301 for a shaft is bonded with the upper.

, the high efficiency deironing filter 4 includes a magnetic rod fixing plate 401, a short cylinder 402, an deironing cylinder 403, a guide plate 404, a second short cylinder 405 and a second support tube 406, the short cylinder 402 is connected with the screw pump 6 through a hose, the short cylinder 402 is locked and fixed with the upper end edge of the deironing cylinder 403 through a hexagon socket head cap screw, the short cylinder 402 is communicated with the upper end of the deironing cylinder 403, the magnetic rod fixing plate 401 is fixedly connected with the middle part of the upper end of the short cylinder 402, the second short cylinder 405 is in threaded connection with the lower end of the deironing cylinder 403 through a hexagon socket head cap screw, the second short cylinder 405 is communicated with the lower end of the cylinder 403, the guide plate 404 is in bolted connection with the upper end of the second short cylinder 405, the guide plate 404 is located between the second short cylinder 405 and the deironing cylinder 403, the second support tube 406 is welded with the bottom triangle of the second short cylinder 405, which is beneficial to realize the.

, the screw pump 6 includes a servo motor 601, a single-stage speed reducer 602, a transmission connecting shaft 603, a 50 th pump base 604, a flexible shaft 605, a rotor 606, a stator 607 and a pump body 608, the th slurry stirring tank 5 is connected with a connector arranged on the left side of the upper end of the pump body 608 through a hose, the servo motor 601 is locked and fixed with the left end of the pump body 608 through an inner hexagon bolt, the servo motor 601 is rotationally connected with a gear arranged inside the single-stage speed reducer 602 through a rotor arranged on the front end, the servo motor 601 is rotationally connected with the left end of the flexible shaft 605 through the transmission connecting shaft 603, the pump body 608 is locked and fixed with the upper end of the 50 th pump base 604 through an inner hexagon bolt, the pump body 608 is fixedly connected with the left end of the stator 607, and the flexible shaft 605 is rotationally connected with the left end of the rotor 606, which.

, the ball outlet assembly 7 comprises a pneumatic ball valve 701 and a second pneumatic ball valve 702, the pneumatic ball valve 701 is arranged at the upper end of the main pipe 8, and the second pneumatic ball valve 702 is arranged at the left side of the upper end of the main pipe 8, so that the effect of rapidly switching on and off the fluid conveying is facilitated.

, the pneumatic ball valve 701 comprises a model returner 7011, an actuator 7012, a solenoid valve 7013 and a ball valve body 7014, the main pipe 8 is connected with the middle of the ball valve body 7014, the main pipe 8 is communicated with the middle of the ball valve body 7014, the actuator 7012 is installed at the upper end of the ball valve body 7014, the ball valve body 7014 is fixedly connected with the lower side of the front end of the actuator 7012, and the model returner 7011 is fixedly locked with the middle of the upper end of the actuator 7012 through an inner hexagon bolt, so that the fluid delivery can be rapidly switched on and off.

, the second pneumatic ball valve 702 comprises a letter return device 7021, a flying actuator 7022, a second electromagnetic valve 7023 and a three-piece ball valve 7024, the main pipe 8 is connected with the middle of the inner side of the three-piece ball valve 7024, the main pipe 8 is communicated with the middle of the inner side of the three-piece ball valve 7024, the flying actuator 7022 is arranged at the upper end of the three-piece ball valve 7024, the flying actuator 7022 is fixedly connected with the left end of the second electromagnetic valve 7023, and the letter return device 7021 is fixedly locked with the middle of the upper end of the flying actuator 7022 through an inner hexagonal bolt.

, the small pushball 204 comprises a small pushhead 2041, a small membrane 2042 and a pushball body 2043, the small membrane 2042 is connected with the inner side wall sliding of the guiding tetrafluoro 202, the left end of the pushball body 2043 is provided with the small membrane 2042, the small membrane 2042 is fixedly connected with the right end of the small pushhead 2041, and the function of cleaning the inside of the pipeline is facilitated.

, the small membrane 2042 is provided with two pieces, the small membrane 2042 is symmetrically distributed along the left side and the right side of the upper end of the pushing ball 2043, and the fiber layer is arranged inside the small membrane 2042, so that the effect of quickly cleaning the residue of the pipeline is achieved.

And , a touch display screen and a control button are arranged at the upper end of the electric control cabinet component 1, so that the slurry conveying system is controlled.

In step , the filtering cylinder 305, the holder 306, the th short cylinder 402, the iron removing cylinder 403 and the second short cylinder 405 are all made of SUS304, but the filtering cylinder 305, the holder 306, the th short cylinder 402, the iron removing cylinder 403 and the second short cylinder 405 may be made of SUS316 or teflon, and are not limited herein.

, the PTFE pad 303 is made of PTFE material, and has excellent corrosion resistance, aging resistance, non-conductivity and other properties.

The utility model provides novel slurry conveying systems through improvement, and the working principle is as follows;

, before use, the slurry conveying system is horizontally placed, then the automatic slurry filter 3, the high-efficiency iron removal filter 4, the slurry stirring tank 5, the screw pump 6, the ball discharging assembly 7 and the main pipeline 8 are connected through hoses, and the sealing performance of the connection part is checked;

secondly, when in use, in step , an external power supply is connected to the electric control cabinet assembly to provide power for the slurry conveying system;

thirdly, secondly, pressing a control button at the upper end of the electric control cabinet assembly 1 to start a slurry conveying system, electrifying a servo motor 601 to work, driving a planet wheel inside a single-stage speed reducer 602 to rotate through a rotor arranged at the front end so as to reduce the speed, then driving a flexible shaft 605 of a connecting shaft 603 to rotate through the rotor, so that the flexible shaft 605 drives a rotor 606 inside a stator 607 to rotate so as to transmit the slurry, then transmitting the slurry to the inside of an iron removing cylinder 403 through a hose, lengthening the iron removing cylinder 403 through a small gap for liquid slurry, fully removing iron impurities in the liquid slurry in the process of passing the liquid slurry, removing iron in a large flow through multiple channels, contacting the slurry, namely a stainless steel sleeve outside a magnetic rod at the lower end of a magnetic rod fixing plate 401, taking out the steel sleeve and the magnetic rod , separating the steel sleeve and the magnetic rod again, and conveniently removing the iron impurities;

fourthly, in the third step, the slurry after iron removal is conveyed into the filtering cylinder 305 through a guide pipe, a motor at the upper end of the filtering cylinder 305 drives the wedge-shaped filter element 304 to rotate, a rotary floating type tetrafluoro scraper is tightly attached to the outer side of the wedge-shaped filter element 304 to filter and scrape large-particle materials and impurities, and continuous filtering can be realized only by regularly discharging and opening a discharge valve to discharge the large-particle materials and the impurities;

fifthly, the filtered slurry is transmitted to the th slurry stirring tank 5 through a hose, the th slurry stirring tank 5 is used for stirring the slurry, then the slurry is transmitted through the main pipeline 8, and meanwhile, the condition inside the main pipeline 8 can be observed through a sight glass 9;

sixthly, when the interior of the pipeline is cleaned, the drawable ball-starting port 203 is opened, a small push ball 204 is put in, compressed gas is added into the drawable ball-starting port 203, the small push ball 204 is sensed by the small ball position sensor 14, after a signal of starting ball-starting is received, the pneumatic ball valve 701 and the second pneumatic ball valve 702 on the main pipeline 8 act, the electromagnetic valve 7013 unlocks the ball valve 7014, the second electromagnetic valve 7023 unlocks the three-piece ball valve 7024, the small push ball 204 pushes all the residual liquid or sediment in the main pipeline 8 into the receiving tank body under the push of the compressed gas, after the pushing is finished, the small push ball 204 enters the tail-end bidirectional automatic ball-serving device 2, and the compressed gas in the main pipeline 8 is discharged through the residual liquid tank 11 and the second residual liquid tank 15 at the two ends;

seventhly, in the sixth step, the drawable ball outlet 203 can be opened to take out the small pushball 204 or the bidirectional automatic pushball button can be directly selected without opening, the small pushball 204 can automatically return to the drawable ball outlet 203 after processing the residual liquid or sediment in the pipeline, in the whole pushball process, the small ball position sensor 14 can sense the position of the small pushball 204, the path through which the small pushball 204 passes can be displayed on the touch display screen, the pushball body 2043 is provided with a front elastic small membrane 2042 and a rear elastic small membrane 2042, and under the pushing of gas or liquid materials, the residual cleaning of the pipeline can be quickly realized.

The utility model discloses an improve and provide novel thick liquids conveying system, through be provided with two-way ball receiving and dispatching device 2 in trunk line 8 upper end, open and to pull out ball mouth 203, and put into little push ball 204, little push ball position sensor 14 senses little push ball 204, after receiving the signal that service started, pneumatic ball valve 701 and the action of second pneumatic ball valve 702 on the trunk line 8, little push ball 204 is under compressed gas's promotion, with remaining liquid in the trunk line 8 or the whole propelling movement of precipitate to receiving the jar internal, after the propelling movement, little push ball 204 gets into in the terminal two-way automatic service ball device 2, compressed gas in the main 8 pipeline of surplus liquid tank 11 and the remaining liquid tank 15 discharge of second through both ends, it can clear up pipeline convenient and fast to have reached, need not to tear open the pipe advantage of clearing up section by section.

It will thus be seen that the present invention is illustrative and not restrictive, and the scope of the invention is defined by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims

The novel slurry conveying system comprises an electric control cabinet assembly (1), an automatic slurry filter (3), a high-efficiency iron removal filter (4), a -th slurry stirring tank (5), a screw pump (6), a ball discharging assembly (7), a main pipeline (8), a sight glass (9), a second slurry stirring tank (10), a -th residual liquid tank (11), a diaphragm pressure gauge (12), a diaphragm pressure sensor (13), a ball position sensor (14) and a second residual liquid tank (15), wherein the electric control cabinet assembly (1) is electrically connected with the two-way ball receiving and sending device (2) through a wire, the automatic slurry filter (3) is connected with the left end of the two-way ball receiving and sending device (2) through a hose, the automatic slurry filter (3) is connected with the upper right end of the high-efficiency iron removal filter (4) through a hose, the high-efficiency iron removal filter (4) is located at the right end of the high-efficiency iron removal filter (4), the high-efficiency iron removal filter (4) is connected with the two-way ball receiving and sending device (6) through a hose, the hose (9) is connected with the right end of the two-way ball receiving and the slurry stirring tank (2), the two-way ball receiving and sending device (2) is connected with the left end of the right end of the two-way ball receiving and the left end of the slurry stirring tank (2), the main pipeline (2) through hose (2), the right end of the two-way ball receiving and the two-way ball receiving tank (2) through hose (10) through hose (2), the main pipeline (10) are connected with the left end of the two-way ball receiving and the slurry stirring tank (2), the right end of the left end of the right end of the slurry stirring tank (2), the left end of the slurry stirring tank (2), the two-receiving and the two-way ball receiving and sending tank (2) through hose of the two-receiving and the two-receiving tank (10) through hose of the two-receiving tank (2), the slurry stirring tank (2) of the two-receiving tank (2), the two-receiving tank (2) through hose of the two-receiving tank (10);

the method is characterized in that: still include two-way ball receiving and dispatching device (2), two-way ball receiving and dispatching device (2) include service handle end cover (201), direction tetrafluoro (202), can pull out ball mouth (203) and little pushing ball (204), automatic thick liquids filter (3) are connected through the inside connector that hose and service handle end cover (201) upper end set up, can pull out ball mouth (203) and the inboard right-hand member fixed connection of service handle end cover (201), can pull out the inside tetrafluoro (202) that is provided with of ball mouth (203), little pushing ball (204) and direction tetrafluoro (202) inside wall sliding connection.
2. The novel slurry conveying system according to claim 1, wherein the automatic slurry filter (3) comprises a shaft circlip A-type (301), a support end cap (302), a PTFE pad (303), a wedge-shaped filter element (304), a filter cylinder (305), a retainer (306), an O-shaped rubber seal ring (307) and a support tube (308), the filter cylinder (305) is connected with the upper right end of the high efficiency deironing filter (4) through a hose, the support tube (308) is welded with the bottom triangle of the filter cylinder (305), the retainer (306) is located in the middle of the interior of the filter cylinder (305), the retainer (306) is fixedly connected with the middle of the interior of the filter cylinder (305), the filter cylinder (305) is arranged in the retainer (306), the O-shaped rubber seal ring (307) is bonded with the left side and the right side of the lower end of the filter cylinder (305), the support end cap (302) is locked and fixed with the upper end of the filter cylinder (305) through an inner hexagon bolt, the inner lower end cap (302) is provided with the PTFE pad (303), and the shaft circlip A-type (301) is bonded with the upper end cap (.
3. The novel slurry conveying system is characterized in that the high efficiency iron removal filter (4) comprises a magnetic rod fixing plate (401), a short cylinder (402), an iron removal cylinder (403), a guide plate (404), a second short cylinder (405) and a second support pipe (406), the short cylinder (402) is connected with the screw pump (6) through a hose, the short cylinder (402) is locked and fixed with the upper end edge of the iron removal cylinder (403) through an inner hexagon bolt, the short cylinder (402) is communicated with the upper end of the iron removal cylinder (403), the magnetic rod fixing plate (401) is fixedly connected with the middle of the upper end of the short cylinder (402), the second short cylinder (405) is in threaded connection with the lower end of the iron removal cylinder (403) through an inner hexagon bolt, the second short cylinder (405) is communicated with the lower end of the iron removal cylinder (403), the guide plate (404) is in bolted connection with the upper end of the second short cylinder (405), the guide plate (404) is positioned at the bottom of the second short cylinder (403) and is welded with the second short cylinder (405).
4. The novel slurry conveying system according to claim 1, wherein the screw pump (6) comprises a servo motor (601), a single-stage speed reducer (602), a transmission connecting shaft (603), a 50-stage pump base (604), a flexible shaft (605), a rotor (606), a stator (607) and a pump body (608), the -th slurry stirring tank (5) is connected with a connector arranged on the left side of the upper end of the pump body (608) through a hose, the servo motor (601) is locked and fixed with the left end of the pump body (608) through an inner hexagonal bolt, the servo motor (601) is rotationally connected with a gear arranged inside the single-stage speed reducer (602) through the rotor arranged at the front end, the servo motor (601) is rotationally connected with the left end of the flexible shaft (605) through the transmission connecting shaft (603), the pump body (608) is locked and fixed with the upper end of the 50-stage pump base (604) through the inner hexagonal bolt, the pump body (608) is fixedly connected with the left end of the stator (607), and the flexible shaft (605) is rotationally connected with the left.
5. The novel slurry conveying system according to claim 1, wherein the ball outlet assembly (7) comprises a pneumatic ball valve (701) and a second pneumatic ball valve (702), the pneumatic ball valve (701) is arranged at the upper end of the main pipe (8), and the second pneumatic ball valve (702) is mounted on the left side of the upper end of the main pipe (8).
6. The novel slurry conveying system according to claim 5, wherein the pneumatic ball valve (701) comprises a model returner (7011), an actuator (7012), a solenoid valve (7013) and a ball valve body (7014), the main pipe (8) is connected with the middle of the ball valve body (7014), the main pipe (8) is communicated with the middle of the ball valve body (7014), the actuator (7012) is installed at the upper end of the ball valve body (7014), the ball valve body (7014) is fixedly connected with the lower side of the front end of the actuator (7012), and the model returner (7011) is locked and fixed with the middle of the upper end of the actuator (7012) through hexagon socket head bolts.
7. The novel slurry conveying system according to claim 5, wherein the second pneumatic ball valve (702) comprises a letter return device (7021), a flying actuator (7022), a second electromagnetic valve (7023) and a three-piece ball valve (7024), the main pipe (8) is connected with the middle of the inner side of the three-piece ball valve (7024), the main pipe (8) is communicated with the middle of the inner side of the three-piece ball valve (7024), the flying actuator (7022) is arranged at the upper end of the three-piece ball valve (7024), the flying actuator (7022) is fixedly connected with the left end of the second electromagnetic valve (7023), and the letter return device (7021) is locked and fixed with the middle of the upper end of the flying actuator (7022) through a hexagon socket head cap screw.
8. The novel slurry conveying system according to claim 1, wherein the small pushball (204) comprises a small pusher (2041), a small diaphragm (2042) and a pushball body (2043), the small diaphragm (2042) is slidably connected with the inner side wall of the guiding tetrafluoro (202), the left end of the pushball body (2043) is provided with the small diaphragm (2042), and the small diaphragm (2042) is fixedly connected with the right end of the small pusher (2041).
9. The novel slurry conveying system according to claim 8, wherein the small membrane (2042) has two pieces, and the small membrane (2042) is symmetrically distributed along the left and right sides of the upper end of the pushing sphere (2043), and the small membrane (2042) has a fiber layer inside.
10. The novel slurry conveying system according to claim 8, wherein a touch display screen and control buttons are arranged on the upper end of the electric control cabinet component (1).