CN115816682A

CN115816682A - A preparation is with raw materials system of blending for pipeline

Info

Publication number: CN115816682A
Application number: CN202211681007.5A
Authority: CN
Inventors: 刘树生; 佟照刚; 苏振冀; 张宇; 袁杰; 王艳琼
Original assignee: Hebei Beisu Pipe Industry Co ltd
Current assignee: Hebei Beisu Pipe Industry Co ltd
Priority date: 2022-12-27
Filing date: 2022-12-27
Publication date: 2023-03-21

Abstract

The invention discloses a raw material mixing system for manufacturing a pipeline, wherein a hinged support frame is arranged in the middle of the top end of a bottom plate through a screw, a placing cylinder is rotatably arranged at the top end of the hinged support frame, an electric hydraulic push rod is embedded and arranged on one side of the top end of the bottom plate, a mixing filter cylinder is arranged between two rotating ring plates, a rotating motor is arranged on one side of the placing cylinder corresponding to the rotating ring plates through screws, a mixing fan is uniformly and movably sleeved and arranged on the outer side of the rotating shaft, telescopic support rods are symmetrically embedded and arranged on one side of the top end of the bottom plate, the mixing filter cylinder and the mixing fan are respectively driven to rotate oppositely through the rotating motor and the mixing motor, the internal raw materials are stirred, mixed and purified, so that impurities in the raw materials are reduced, the quality and the mixing efficiency of the mixed raw materials are improved, the placing cylinder is obliquely swung leftwards and rightwards through the cooperation of the electric hydraulic push rod and the telescopic support rods, so that the raw materials are mixed more uniformly, dead corner positions do not exist, and the mixing effect of the raw materials is further improved.

Description

A preparation is with raw materials system of thoughtlessly joining in marriage for pipeline

Technical Field

The invention relates to the technical field of hydraulic machines, in particular to a raw material mixing system for manufacturing a pipeline.

Background

The pipeline is a device which is connected by pipes, pipe connectors, valves and the like and used for conveying gas, liquid or fluid with solid particles, the pipeline can be divided into different pipelines of metal, plastic and the like according to materials, the plastic is used as an important material in a new century and has the characteristics of corrosion resistance, light weight and convenience for production, the plastic pipeline is more and more frequently used in the construction process of the modern society, different plastic raw materials and antistatic water need to be mixed in the manufacturing process of the plastic pipeline, and the subsequent manufacturing is facilitated.

But at present plastics raw materials also mix the quality that influences the raw materials with the impurity in the raw materials in mixing process easily together, and traditional agitating unit exists the stirring dead angle simultaneously and makes partial raw materials can't stir to lead to the compounding inhomogeneous, is unfavorable for subsequent operation to cause the influence to the quality of plastic conduit.

Disclosure of Invention

The invention provides a raw material mixing system for manufacturing a pipeline, which can effectively solve the problems that impurities in raw materials are easy to mix together in the mixing process of the existing plastic raw materials in the background art to influence the quality of the raw materials, and a traditional stirring device has stirring dead angles so that part of the raw materials cannot be stirred to cause uneven mixing, and the traditional stirring device is not beneficial to subsequent operation, thereby influencing the quality of the plastic pipeline.

In order to achieve the purpose, the invention provides the following technical scheme: a raw material compounding system for the manufacture of a pipe, comprising:

the mixing and impurity removing assembly drives the mixing filter cylinder and the mixing fan to rotate oppositely through the rotating motor and the mixing motor respectively, so that impurities are thrown away through the mixing filter cylinder in the process of mixing raw materials, and the placing cylinder is driven by the electric hydraulic push rod to move left and right and incline so that the raw materials are moved and mixed more uniformly;

collecting a cleaning component, driving a screw rod through a screw rod motor to enable a cleaning scraper to move to clean the inner wall of the placing cylinder, and meanwhile, matching an absorption cover through an exhaust fan to absorb impurities in the placing cylinder, and conveying the impurities into a placing box for storage;

the pretreatment subassembly oozes the board through the pretreatment case messenger plastic materials along oblique direction and evenly falls into the import crown plate, sprays antistatic incasement antistatic water and plastic materials homogeneous mixing through spraying the box this moment, and the water pumper extracts the antistatic water of drippage and sends into antistatic incasement recycle.

A raw material mixing system for manufacturing pipelines is characterized in that a mixing and impurity removing assembly is mounted at the top end of a bottom plate, and comprises a hinged support frame, a placing cylinder, an electric hydraulic push rod, a rotary connecting plate, a rotary annular plate, a mixing filter cylinder, a rotary motor, an opening, an inlet annular plate, an outlet annular plate, an impurity discharging opening, a rotary shaft, a mixing fan, a mixing motor, a telescopic supporting rod and a rotary connecting block;

the middle part of the top end of the bottom plate is provided with a hinged support frame through a screw, the top end of the hinged support frame is rotatably provided with a placing cylinder, one side of the top end of the bottom plate is embedded with an electric hydraulic push rod, the top end of the electric hydraulic push rod is rotatably provided with a rotating connecting plate, rotating ring plates are symmetrically arranged in the placing cylinder, a mixed filter cylinder is arranged between the two rotating ring plates, one side of the placing cylinder is provided with a rotating motor corresponding to the rotating ring plates through screws, the top part and one side of the bottom part of the outer side of the placing cylinder are both provided with through holes, one side of the outer side of the mixed filter cylinder is movably sleeved with an inlet ring plate which penetrates through the corresponding through holes to be connected with the outer side, the mixed outside another side activity of straining a section of thick bamboo has cup jointed the export crown plate and has passed and correspond the opening connection in the outside, the mixed bottom symmetry of straining a section of thick bamboo of straining has seted up row's miscellaneous mouth, place a section of thick bamboo one side mid-rotation in one side and install the pivot and run through the rotating ring board and connect in the mixed section of thick bamboo of straining, the even activity in the pivot outside cup joints and installs mixed fan, it has hybrid motor through the mounting screw to place a section of thick bamboo one side correspondence pivot department, flexible bracing piece is installed in bottom plate top one side symmetry embedding, flexible bracing piece top is rotated and is installed the rotation connecting block.

Preferably, the output shaft of the hybrid motor penetrates through one side of the placing cylinder and is connected to one end of the rotating shaft, and the input ends of the electric hydraulic push rod, the rotating motor and the hybrid motor are respectively and electrically connected with the output end of the external power supply.

Preferably, the rotating connecting plates are installed on one side of the bottom end of the placing barrel through screws, and the two rotating connecting blocks are symmetrically installed on the other side of the bottom end of the placing barrel through screws.

Preferably, a collection cleaning assembly is arranged at the impurity discharging opening and comprises an absorption cover, a plastic absorption pipe, an exhaust fan, a placing table, a placing box, a cleaning filter plate, a through hole, a screw rod, a cleaning scraper and a screw rod motor;

arrange miscellaneous mouthful department and install the absorption cover, the absorption cover bottom is connected with the plastic absorption tube, plastic absorption tube one end is connected in air exhauster air intake department, the air exhauster bottom has been placed and has been placed the platform, the air exhauster air outlet is connected in placing case one side, it has clean filter plate to place incasement bottom sliding connection, it has seted up the through-hole to place case both sides bottom symmetry, it installs the lead screw to place to rotate between section of thick bamboo inner wall and the import crown plate, clean scraper blade has been cup jointed in the activity of the lead screw outside, it has the lead screw motor to place a section of thick bamboo one side and correspond lead screw department through the mounting screw.

Preferably, the output shaft of the screw motor penetrates through one side of the placing cylinder and is connected to one end of the screw, and the input ends of the exhaust fan and the screw motor are respectively and electrically connected with the output end of the external power supply.

Preferably, the outer side of the cleaning scraper is tightly attached to the inner wall of the placing cylinder, and the length and the width of the cleaning filter plate are equal to those in the placing box.

Preferably, a pretreatment component is mounted on one side of the top end of the placing cylinder, and comprises a limiting support plate, a pretreatment box, an inclined guide seepage plate, an antistatic box, a pressurizing motor, a stirring column, a stirring motor, a spraying box, a feeding port, a water pump and a water delivery pipe;

place section of thick bamboo top one side top and have spacing backup pad through the mounting screw, spacing backup pad and import crown plate top are installed and are handled the case in advance, it installs oblique direction oozing plate to handle the incasement in advance, it has antistatic case to handle the roof end through the mounting screw, there is the booster motor antistatic roof end one side through the mounting screw, antistatic incasement top is rotated and is installed the stirring post, it has agitator motor to handle the case top in advance to correspond stirring post department, antistatic bottom of the case end runs through and handles the case top in advance and be connected with and spray the box, it has seted up the feed inlet to handle case top one side in advance, it has the water pumper to handle case one side bottom in advance through the mounting screw, the water pumper delivery port cup joints and installs the raceway.

Preferably, the water pumping port of the water pump runs through one side of the pretreatment tank and is connected in the pretreatment tank, and the pressurizing motor, the stirring motor and the water pump input end are respectively electrically connected with the external power supply output end.

Preferably, raceway one end is run through antistatic case one side top and is connected in antistatic incasement, the width that board was oozed in oblique direction equals the width of preliminary treatment incasement.

Compared with the prior art, the invention has the following beneficial effects:

1. be provided with and mix the edulcoration subassembly, it strains a section of thick bamboo and mix the fan and rotate in opposite directions to drive respectively through rotating motor and hybrid motor, stir the mixture to inside raw materials and throw away the impurity of the inside impurity of raw materials through mixing a section of thick bamboo when, thereby realize reducing the impurity in the raw materials, improve the raw materials quality and the mixing efficiency after mixing, rethread electric hydraulic push rod and flexible bracing piece's cooperation is to placing a section of thick bamboo and carrying out the tilt and turn, thereby remove about making interior raw materials, it is more even to make the raw materials mix, there can not be the dead angle position, further improve the mixed effect of raw materials.

2. Be provided with and collect clean subassembly, make to install through the air exhauster and produce suction at the absorption cover of arranging miscellaneous mouthful, to mix and strain a section of thick bamboo and throw away and clean scraper blade scraping and be attached to in the foreign matter piece absorption of placing a section of thick bamboo inner wall advances the plastic absorption tube, rethread air exhauster transports the foreign matter piece and places the incasement, make the raw materials when mixing, can carry out self-cleaning in placing a section of thick bamboo, reduce work load, improve clean efficiency, deposit the foreign matter piece simultaneously, prevent to splash and pollute the surrounding environment, conveniently regularly carry out centralized processing.

3. Be provided with the preliminary treatment subassembly, spray the box through antistatic bottom of the case portion installation and spray antistatic water to the plastics raw materials in advance, thereby make the even parcel of antistatic water form the static protection film on the surface of raw materials, spill antistatic water when preventing the plastics raw materials and lead to part raw materials and antistatic water to mix inhomogeneous, thereby produce static when making the mixing, ooze board and water pumper through oblique direction simultaneously and carry out recycle to the antistatic water of drippage gathering, and the utilization rate is improved, and resources are saved.

To sum up, mix the edulcoration subassembly and can turn the mixture to inside raw materials when straining the impurity of raw materials inside and throw away through mixing a section of thick bamboo, thereby realize reducing the impurity in the raw materials, improve the raw materials quality and the mixing efficiency after mixing, collect clean subassembly to strain a section of thick bamboo to throw away with the clean scraper blade scraping to mix and adhere to the impurity piece absorption of placing a section of thick bamboo inner wall, can carry out self-cleaning in placing a section of thick bamboo, reduce work load, improve clean efficiency, deposit impurity piece simultaneously, prevent to splash and pollute the surrounding environment, spill antistatic water when can preventing through the preprocessing subassembly that the plastics raw materials from mixing at last and lead to partial raw materials and the inhomogeneous of antistatic water mixing, thereby produce static when making the mixing, combined action through a plurality of subassemblies, guaranteed quality and efficiency that the blending device can guarantee the raw materials mixes.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

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

FIG. 2 is a schematic structural view of a mixing and impurity removing assembly according to the present invention

FIG. 3 is a schematic structural view of the collection cleaning assembly of the present invention;

FIG. 4 is a schematic diagram of the pre-processing assembly of the present invention

FIG. 5 is a schematic view of the structure of the pretreatment tank of the present invention;

FIG. 6 is a schematic structural view of a hybrid filter cartridge of the present invention;

FIG. 7 is a schematic structural view of the placement cartridge of the present invention;

reference numbers in the figures: 1. a base plate;

2. a mixing and impurity removing component; 201. a support frame is hinged; 202. placing the cylinder; 203. an electric hydraulic push rod; 204. rotating the connecting plate; 205. rotating the ring plate; 206. a mixing cartridge; 207. rotating the motor; 208. a port; 209. an inlet ring plate; 210. an outlet ring plate; 211. a trash discharge port; 212. a rotating shaft; 213. a mixing fan; 214. a hybrid motor; 215. a telescopic support rod; 216. rotating the connecting block;

3. collecting the cleaning assembly; 301. an absorbent cover; 302. a plastic absorber tube; 303. an exhaust fan; 304. a placing table; 305. placing a box; 306. cleaning the filter plate; 307. a through hole; 308. a screw rod; 309. a cleaning blade; 310. a screw motor;

4. a pre-processing assembly; 401. a limiting support plate; 402. a pretreatment tank; 403. obliquely guiding a seepage plate; 404. an antistatic box; 405. a booster motor; 406. a stirring column; 407. a stirring motor; 408. a spraying box; 409. a feed inlet; 410. a water pump; 411. a water delivery pipe.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in fig. 1 to 7, the present invention provides a technical solution, a raw material mixing system for manufacturing a pipeline, comprising:

the mixing and impurity removing assembly 2 drives the mixing filter cylinder 206 and the mixing fan 213 to rotate oppositely through the rotating motor 207 and the mixing motor 214 respectively, so that impurities are thrown away through the mixing filter cylinder 206 in the process of mixing raw materials, and then the placing cylinder 202 is driven by the electric hydraulic push rod 203 to move left and right and incline to enable the raw materials to move and be mixed more uniformly;

the collection cleaning assembly 3 drives the screw rod 308 through the screw rod motor 310 to enable the cleaning scraper 309 to move to clean the inner wall of the placing cylinder 202, and meanwhile, the exhaust fan 303 is matched with the absorption cover 301 to absorb impurities in the placing cylinder 202 and convey the impurities into the placing box 305 for storage;

pretreatment subassembly 4, ooze the board 403 through pretreatment tank 402 messenger plastics raw materials along oblique direction and evenly fall into import crown plate 209, spray antistatic water and the even mixture of plastics raw materials in antistatic case 404 through spraying box 408 this moment, water pumper 410 extracts the antistatic water that drips and sends into antistatic case 404 internal recycle.

A raw material mixing system for manufacturing pipelines is characterized in that a mixing and impurity removing assembly 2 is mounted at the top end of a bottom plate 1, and the mixing and impurity removing assembly 2 comprises a hinged support frame 201, a placing cylinder 202, an electric hydraulic push rod 203, a rotating connecting plate 204, a rotating ring plate 205, a mixing filter cylinder 206, a rotating motor 207, a through hole 208, an inlet ring plate 209, an outlet ring plate 210, an impurity discharging hole 211, a rotating shaft 212, a mixing fan 213, a mixing motor 214, a telescopic supporting rod 215 and a rotating connecting block 216;

the middle part of the top end of the soleplate 1 is provided with a hinged support frame 201 through a screw, the top end of the hinged support frame 201 is rotatably provided with a placing cylinder 202, one side of the top end of the soleplate 1 is embedded with an electric hydraulic push rod 203, the top end of the electric hydraulic push rod 203 is rotatably provided with a rotating connecting plate 204, the rotating connecting plate 204 is arranged at one side of the bottom end of the placing cylinder 202 through a screw so as to drive the placing cylinder 202 to rotate, rotating ring plates 205 are symmetrically arranged inside the placing cylinder 202, a mixing filter cylinder 206 is arranged between the two rotating ring plates 205, one side of the placing cylinder 202 is provided with a rotating motor 207 corresponding to the rotating ring plates 205 through screws, the top part and one side of the bottom part of the placing cylinder 202 are provided with through holes 208, one side of the outer side of the mixing filter cylinder 206 is movably sleeved with an inlet ring plate 209 which penetrates through the corresponding through holes 208 to be connected to the outer side, the other side of the through holes of the mixing filter cylinder 206 is movably sleeved with an outlet ring plate 210 which penetrates through the corresponding through holes 208 to be connected to the outer side of the outer side, the bottom end of the mixed filter cylinder 206 is symmetrically provided with impurity discharging openings 211, the middle part of one side in the placing cylinder 202 is rotatably provided with a rotating shaft 212 which penetrates through a rotating ring plate 205 and is connected into the mixed filter cylinder 206, the outer side of the rotating shaft 212 is uniformly and movably sleeved with a mixed fan 213, the part of one side of the placing cylinder 202 corresponding to the rotating shaft 212 is provided with a mixed motor 214 through a screw, the output shaft of the mixed motor 214 penetrates through one side of the placing cylinder 202 and is connected with one end of the rotating shaft 212, so as to drive the rotating shaft 212 to rotate, one side of the top end of the bottom plate 1 is symmetrically embedded with a telescopic supporting rod 215, the top end of the telescopic supporting rod 215 is rotatably provided with a rotating connecting block 216, the two rotating connecting blocks 216 are symmetrically arranged at the other side of the bottom end of the placing cylinder 202 through screws, so as to facilitate the rotation of the placing cylinder 202, the input ends of the electric hydraulic push rod 203, the rotating motor 207 and the mixed motor 214 are respectively electrically connected with the output end of an external power supply, so that the electric hydraulic push rod 203, a mixing motor, the rotation motor 207 and the mixing motor 214 can be started.

The impurity discharging port 211 is provided with a collecting and cleaning component 3, and the collecting and cleaning component 3 comprises an absorption cover 301, a plastic absorption pipe 302, an exhaust fan 303, a placing table 304, a placing box 305, a cleaning filter plate 306, a through hole 307, a screw rod 308, a cleaning scraper 309 and a screw rod motor 310;

the absorbing cover 301 is installed at the trash discharging port 211, the bottom end of the absorbing cover 301 is connected with the plastic absorbing pipe 302, one end of the plastic absorbing pipe 302 is connected to an air inlet of the exhaust fan 303, a placing table 304 is placed at the bottom end of the exhaust fan 303, an air outlet of the exhaust fan 303 is connected to one side of a placing box 305, the bottom of the placing box 305 is slidably connected with a cleaning filter plate 306, the length and the width of the cleaning filter plate 306 are equal to those of the placing box 305, the installation is convenient, through holes 307 are symmetrically formed in the bottoms of two sides of the placing box 305, a screw rod 308 is rotatably installed between the inner wall of the placing cylinder 202 and an inlet ring plate 209, a cleaning scraper 309 is movably sleeved on the outer side of the screw rod 308, the outer side of the cleaning scraper 309 is closely attached to the inner wall of the placing cylinder 202, the scraping and cleaning operations are convenient, a screw rod motor 310 is installed on one side of the placing cylinder 202 through screws, one side of the placing cylinder 202 is connected to one end of the screw rod 308, the screw rod 308 is convenient to drive the screw rod 308 to rotate, the input ends of the exhaust fan 303 and the screw rod motor 310 are respectively electrically connected with an external power supply output end, and the exhaust fan 303 and the motor 310 can be started.

A pretreatment component 4 is arranged on one side of the top end of the placing barrel 202, and the pretreatment component 4 comprises a limiting support plate 401, a pretreatment box 402, an inclined guide seepage plate 403, an antistatic box 404, a pressurizing motor 405, a stirring column 406, a stirring motor 407, a spraying box 408, a feed inlet 409, a water pump 410 and a water delivery pipe 411;

place a section of thick bamboo 202 top one side top and install spacing support plate 401 through the screw, spacing support plate 401 and import crown plate 209 top are installed and are handled case 402 in advance, it to one side installs oblique direction infiltration board 403 in handling case 402 to handle, the width that leads to infiltration board 403 to one side equals the width in handling case 402 to one side, be convenient for align the installation, it has antistatic case 404 to handle case 402 top through the screw installation, there is booster motor 405 antistatic case 404 top one side through the screw installation in antistatic case 404, the top rotates installs stirring post 406 in antistatic case 404, it has agitator motor 407 to handle case 402 top correspondence stirring post 406 department through the screw installation, antistatic case 404 bottom runs through handling case 402 top and is connected with spraying box 408, it has seted up feed inlet to handle case 402 top one side, it connects in handling case 402 through screw installation to handle case 402 one side bottom, water pumper 410 runs through handling case 402 one side and connects in handling case 402, be convenient for draw antistatic water, water delivery port is installed conduit 411, conduit 411 is run through conduit 411 one side and is connected in the pumping case 404 top, be convenient for the recovery, agitator motor output port and booster motor 407 are connected with booster motor 410 respectively, agitator motor outside the start-up, agitator motor 405 and booster motor 407.

The working principle and the using process of the invention are as follows: send into the preliminary treatment case 402 with plastics raw materials from feed inlet 409 department in, oblique direction infiltration board 403 in the preliminary treatment case 402 can send into plastics raw materials in the import crown plate 209, spray box 408 through the bottom installation with the liquid of the inside antistatic powder of antistatic case 404 and water mixture to plastics raw materials in advance this moment, agitator motor 407 drives stirring post 406 makes the more even of antistatic powder and water mixture, booster motor 405 makes antistatic water spray from spraying box 408, thereby make the even surface formation static protection film of spilling at the raw materials of antistatic water, prevent that plastics raw materials from spilling antistatic water when mixing and leading to partial raw materials and antistatic water inhomogeneous mixing, thereby produce static when making the mixing stirring, influence the quality after the mixture, simultaneously can make unnecessary antistatic water storage bottom in preliminary treatment case 402 through oblique direction infiltration board 403, start water pumper 410 and extract the electric water that drips the gathering and carry back the water-circulating use through raceway 411, improve the resource-saving rate.

The plastic raw material is sent into the mixed filter cylinder 206 arranged in the placing cylinder 202 through the inlet ring plate 209, after the placing is finished, the rotating motor 207 is started to drive the rotating ring plate 205 on one side to rotate, so that the mixed filter cylinder 206 is driven to rotate in the rotating ring plate 205 on the other side, then the mixing motor 214 is started to drive the rotating shaft 212 to rotate in the mixed filter cylinder 206, so that the mixing fan 213 on the outer side of the rotating shaft 212 and the mixed filter cylinder 206 rotate oppositely, impurities in the raw material are thrown out through the mixed filter cylinder 206 while the internal plastic raw material is stirred and mixed, so that the impurities in the raw material are reduced, the quality of the mixed raw material and the mixing efficiency of the raw material are improved, meanwhile, the electric hydraulic push rod 203 is started during the mixing, the placing cylinder 202 is obliquely swung left and right through the hinged support frame 201 through the cooperation of the electric hydraulic push rod 203 and the telescopic support rod 215, so that the raw material in the mixed filter cylinder 206 is moved left and right, the raw material is mixed more uniformly, dead angle positions do not exist, and the mixing effect of the raw material is further improved.

Make the absorption cover 301 of installing at row miscellaneous mouthful 211 produce suction through starting air exhauster 303, impurity piece absorption that throws away in the raw materials when will mixing a section of thick bamboo 206 and rotating, also can start lead screw motor 310 and drive cleaning scraper blade 309 and scrape the impurity piece of attaching to placing a section of thick bamboo 202 inner wall when daily clean simultaneously, thereby absorb impurity piece into in the plastic absorption tube 302, carry impurity piece through air exhauster 303 after that and place the case 305, place the clean filter plate 306 of case 305 and filter deposit impurity, when making the raw materials mix with daily clean operation, can be to placing a section of thick bamboo 202 in clean operation, reduce work load, improve clean efficiency, deposit impurity piece simultaneously, prevent that impurity piece from arranging miscellaneous mouthful 211 fly away and polluting the surrounding environment, conveniently regularly carry out centralized processing.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A preparation is with raw materials system of mixing for pipeline which characterized in that: the method comprises the following steps:

the mixing and impurity removing assembly (2) drives the mixing filter cylinder (206) and the mixing fan (213) to rotate oppositely through the rotating motor (207) and the mixing motor (214) respectively, so that impurities are thrown away through the mixing filter cylinder (206) in the process of mutually mixing the raw materials, and then the electric hydraulic push rod (203) drives the placing cylinder (202) to move left and right and incline to enable the raw materials to move and be mixed more uniformly;

the collection cleaning assembly (3) drives the screw rod (308) through the screw rod motor (310) to enable the cleaning scraper (309) to move to clean the inner wall of the placing cylinder (202), and meanwhile, the exhaust fan (303) is matched with the absorption cover (301) to absorb impurities in the placing cylinder (202) and convey the impurities into the placing box (305) for storage;

pretreatment subassembly (4), permeate board (403) through pretreatment case (402) messenger plastics raw materials along the oblique direction and evenly fall into import crown plate (209), spray antistatic water and the even mixture of plastics raw materials in antistatic case (404) through spraying box (408) this moment, antistatic water that water pumper (410) extraction dropped sends into antistatic case (404) inner loop and uses.

2. A preparation is with raw materials system of mixing for pipeline which characterized in that: the mixing and impurity removing device is characterized in that a mixing and impurity removing component (2) is mounted at the top end of the bottom plate (1), and the mixing and impurity removing component (2) comprises a hinged support frame (201), a placing cylinder (202), an electric hydraulic push rod (203), a rotating connecting plate (204), a rotating ring plate (205), a mixing filter cylinder (206), a rotating motor (207), a through port (208), an inlet ring plate (209), an outlet ring plate (210), an impurity discharging port (211), a rotating shaft (212), a mixing fan (213), a mixing motor (214), a telescopic support rod (215) and a rotating connecting block (216);

bottom plate (1) top middle part has articulated support frame (201) through the bolted mounting, articulated support frame (201) top is rotated and is installed and place a section of thick bamboo (202), bottom plate (1) top one side embedding is installed and is moved hydraulic push rod (203), it rotates connecting plate (204) to install on electric hydraulic push rod (203) top, it installs rotating ring board (205), two to place a section of thick bamboo (202) internal symmetry install rotating ring board (205) between rotating ring board (205) install mix and strain a section of thick bamboo (206), it corresponds rotating ring board (205) through the bolted mounting to place a section of thick bamboo (202) one side and rotates motor (207), it all has seted up through-hole (208) on one side to place a section of thick bamboo (202) outside top and bottom, it has inlet ring board (209) to pass and corresponds through-hole (208) and connects in the outside to mix to strain a section of thick bamboo (206) outside activity cup joint outlet ring board (210) and pass and correspond and connect in the outside, it has arranged miscellaneous mouth (211) to mix to strain a section of thick bamboo (206) bottom symmetry, it installs pivot (212) rotation and cup joints pivot (212) and rotate rotating ring board (205) and pass through the mixed fan (206) and locate to mix in one side and mix a section of thick bamboo (202) and install and mix a section of thick bamboo (202) and mix and strain a section of thick bamboo (213) and mix and strain a section of thick bamboo (206), it installs and mix a section of thick bamboo (202) and mix a section of thick bamboo (206) and mix and strain a section of thick bamboo (206) one side Machine (214), flexible bracing piece (215) is installed in bottom plate (1) top one side symmetry embedding, rotation on flexible bracing piece (215) top is installed and is rotated connecting block (216).

3. The raw material mixing system for manufacturing of the pipeline according to claim 2, wherein an output shaft of the mixing motor (214) penetrates through one side of the placing cylinder (202) and is connected to one end of the rotating shaft (212), and input ends of the electro-hydraulic push rod (203), the rotating motor (207) and the mixing motor (214) are respectively electrically connected with an output end of an external power supply.

4. The raw material mixing system for manufacturing the pipeline is characterized in that the rotary connecting plate (204) is mounted on one side of the bottom end of the placing cylinder (202) through screws, and the two rotary connecting blocks (216) are symmetrically mounted on the other side of the bottom end of the placing cylinder (202) through screws.

5. The raw material mixing system for manufacturing the pipeline is characterized in that a collection and cleaning component (3) is installed at the impurity discharging port (211), and the collection and cleaning component (3) comprises an absorption cover (301), a plastic absorption pipe (302), an exhaust fan (303), a placing table (304), a placing box (305), a cleaning filter plate (306), a through hole (307), a screw rod (308), a cleaning scraper blade (309) and a screw rod motor (310);

arrange miscellaneous mouthful (211) and locate to install and absorb cover (301), it is connected with plastic absorbent tube (302) to absorb cover (301) bottom, plastic absorbent tube (302) one end is connected in air exhauster (303) air intake department, air exhauster (303) bottom has been placed and has been placed platform (304), air exhauster (303) air outlet is connected in placing case (305) one side, it has clean filter plate (306) to place bottom sliding connection in case (305), it has seted up through-hole (307) to place case (305) both sides bottom symmetry, it installs lead screw (308) to place to rotate between a section of thick bamboo (202) inner wall and the import crown plate (209), clean scraper blade (309) have been cup jointed in the activity in lead screw (308) outside, it has lead screw motor (310) to place a section of thick bamboo (202) one side correspondence lead screw (308) department through the screw.

6. The raw material mixing system for manufacturing the pipeline according to claim 5, wherein an output shaft of the screw rod motor (310) penetrates through one side of the placing cylinder (202) and is connected to one end of the screw rod (308), and input ends of the exhaust fan (303) and the screw rod motor (310) are respectively and electrically connected with an output end of an external power supply.

7. The raw material mixing system for manufacturing the pipeline according to claim 5, wherein the outer side of the cleaning scraper (309) is tightly attached to the inner wall of the placing cylinder (202), and the length and the width of the cleaning filter plate (306) are equal to those in the placing box (305).

8. The raw material mixing system for the production of the pipeline is characterized in that a pretreatment component (4) is installed on one side of the top end of the placing cylinder (202), and the pretreatment component (4) comprises a limiting supporting plate (401), a pretreatment box (402), an inclined guide seepage plate (403), an antistatic box (404), a booster motor (405), a stirring column (406), a stirring motor (407), a spraying box (408), a feeding hole (409), a water pump (410) and a water conveying pipe (411);

place a section of thick bamboo (202) top one side top and have spacing backup pad (401) through the screw mounting, spacing backup pad (401) and import crown plate (209) top are installed and are pre-processed case (402), install oblique direction oozing board (403) in pre-processing case (402), pre-processing case (402) top has antistatic case (404) through the screw mounting, there is booster motor (405) through the screw mounting on antistatic case (404) top one side, the top rotates in antistatic case (404) and installs stirring post (406), pre-processing case (402) top corresponds stirring post (406) and locates to have agitator motor (407) through the screw mounting, antistatic case (404) bottom is run through and is pre-processed case (402) top and be connected with and spray box (408), pre-processing case (402) top one side has seted up feed inlet (409), pre-processing case (402) one side bottom has water pumper (410) through the screw mounting, water pumper (410) delivery port is installed raceway (411) and is cup jointed.

9. The raw material mixing system for manufacturing the pipeline according to claim 8, wherein a water pumping port of the water pump (410) penetrates through one side of the pretreatment tank (402) and is connected into the pretreatment tank (402), and input ends of the booster motor (405), the stirring motor (407) and the water pump (410) are respectively electrically connected with an output end of an external power supply.

10. The raw material mixing system for the production of the pipeline according to claim 8, wherein one end of the water pipe (411) penetrates through the top of one side of the antistatic box (404) and is connected into the antistatic box (404), and the width of the inclined guide seepage plate (403) is equal to the width in the pretreatment box (402).