CN214561841U - Vacuum mixing and pipe extruding all-in-one machine - Google Patents

Abstract

The utility model provides a vacuum mixing and pipe extruding integrated machine, which comprises a speed regulating motor, an electricity control box, a vacuum pump, a mixing and mud extruding component and a frame, and can achieve the purpose of uniformly mixing, mud refining, mud extruding, pipe manufacturing and other integrated operations on conventional materials and materials which are easy to oxidize, adsorb and have large chemical activity under the conditions of vacuum and specific temperature (such as heating, cooling, constant temperature or room temperature), the utility model has the advantages of simplifying the pipe manufacturing operation steps, integrating multiple functions of the equipment into a whole, occupying small space and reducing or avoiding dust (or harmful gas) leakage in the process, and the utility model has the functions of the conventional pipe extruding equipment, and has the functions of directly using over-wet materials to manufacture mud and extrude pipe, the utility model has the advantages of improving the product quality and the labor efficiency and reducing the labor cost of pipe manufacturing, the main components of the utility model are static or low-speed rotating components without vibration components, thereby having the advantage of low noise.

Description

Vacuum mixing and pipe extruding all-in-one machine

Technical Field

The utility model belongs to the technical field of inorganic non-metallic material, especially a crowded tub all-in-one is thoughtlessly practised in vacuum.

Background

At present, in the production process of producing tubes by using inorganic non-metallic materials such as ceramics, refractory materials, silicon carbide and the like, different devices with single function are respectively adopted in the working procedures of mixing, pugging, mud extrusion, tube production and the like, and the defects of long process of working procedure devices, large occupied space and large leakage of dust (or harmful gas) in the working procedures exist; furthermore, some materials need to be heated, cooled or kept at constant temperature during the processes of mixing, pugging and the like, and vacuum conditions are sometimes needed to improve the compactness of the manufactured pipe. Therefore, if the pipe manufacturing equipment which can meet the vacuum condition and can perform the integrated operation of mixing, pugging and extruding under the condition of a certain temperature can be provided, the equipment which can realize the integrated operation of uniformly mixing, compacting, pugging, extruding and the like of the pipe manufacturing materials can ensure that the operation process is simple, the leakage of dust (or harmful gas) in the process is reduced, the product quality and the labor efficiency can be improved, and the labor cost in the pipe manufacturing process is reduced.

Disclosure of Invention

The utility model discloses an inventive purpose: mainly to the above-mentioned condition, for overcoming prior art's shortcoming, the utility model aims at providing under certain temperature condition, satisfy vacuum compounding, pugging, crowded mud integration tubulation operation, and enable tubulation operation step simplify, equipment multiple function collect in an organic whole, reduce the process exist between dust (or harmful gas) reveal, improve product quality and labor efficiency, reduce tubulation cost of labor's a vacuum thoughtlessly to crowded tub all-in-one.

The technical scheme of the utility model is that: the utility model provides a vacuum mixing and pipe extruding integrated machine, which comprises a speed regulating motor, an electricity control box, a vacuum pump, a mixing and mud extruding component and a frame, wherein the mixing and mud extruding component comprises a cylindrical box, a square base plate and a mixing and grinding mud extruding component positioned in the cylindrical box, the top of the cylindrical box is provided with a dome cover, the central part of the dome cover is provided with a bearing sleeve inserting hole, the periphery of the bearing sleeve inserting hole of the dome cover is provided with a plurality of uniformly distributed threaded through holes, the central part of the square base plate is provided with a mud outlet, the periphery of the mud outlet of the square base plate is provided with a connecting threaded hole, a pipe extruding mould kit is fixed under the square base plate, the lower end surface of the cylindrical box is hermetically connected with the square base plate, the mixing and grinding mud extruding component comprises a material passing cylinder shaft, a bearing sleeve, a spiral shell cylinder, a mud extruding spiral, a rotating frame cylinder and a mud grinding wheel component, the material passing cylinder shaft is a part which is composed of a central upright column, an outer cylinder shaft and a plurality of uniformly distributed rib plates fixed between the central column and the outer cylinder shaft, the lower end part of the central upright post is provided with a square shaft inserting counter bore and a pin through hole, the central axis of the pin through hole is vertical to the central axis of the central upright post, the central axis of the square shaft inserting counter bore is coincident with the central axis of the central upright post, the outer circumference of the upper end part of the outer cylinder shaft is fixed with a transmission input wheel, the middle part of the outer circumference of the outer cylinder shaft is provided with a bearing boss, the upper end surface and the lower end surface of the bearing boss of the outer cylinder shaft are respectively provided with an axial stressed bearing which is positioned in a bearing sleeve, the bearing sleeve is inserted in a bearing sleeve inserting hole of a dome cover and is fixed on the dome cover by a screw through hole of the dome cover, the upper top end of the mud-extruding screw is provided with a square input shaft lever matched with the square shaft inserting counter bore, the input shaft lever is provided with a pin transverse through hole, the input shaft lever is inserted in the square shaft inserting counter bore, and a connecting pin is arranged in the pin transverse hole of the input shaft lever and the pin through hole of the central upright post, the mud-extruding screw passes through the spiral shell cylinder and is matched with the mud outlet, the lower top end of the mud-extruding screw is provided with a central positioning counter bore and a plurality of tightening screw counter bores which are uniformly distributed in the circumferential direction, the top end of the spiral shell cylinder is provided with a conical guide skirt with a small upper part and a large lower part, two symmetrical scraping plate frames are fixed on the outer conical surface of the conical guide skirt, a plurality of uniformly distributed diagonal draw bar rods are arranged between the outer part of the rotating frame cylinder and the conical guide skirt, the rotating frame cylinder is fixed on the outer side of the charging barrel shaft, the rotating frame cylinder is a rotating part which is composed of a rotating cylinder wheel, a circular top plate with a bearing sleeve through hole in the central part, a circular bottom plate with a charging barrel shaft through hole in the central part, a plurality of driven wheels and two horizontal driven wheel supporting ring plates, the circular top plate and the circular bottom plate are respectively fixed on the upper end surface and the lower end surface of the rotating cylinder wheel, the central part of the driven wheel supporting ring plate is provided with a charging barrel shaft through hole, two driven wheel supporting ring plates are horizontally and vertically fixed on the inner cylinder surface of a rotating cylinder wheel, the driven wheel is positioned between the driven wheel supporting ring plates, the rotating shaft of the driven wheel is parallel to the central axis of the rotating cylinder wheel and is uniformly fixed on the driven wheel supporting ring plates, the wheel surface of the driven wheel, the inner cylinder surface of the rotating cylinder wheel and the outer cylinder surface of a material passing cylinder shaft are matched and attached, a mud grinding wheel assembly is a component consisting of two flat supporting rods, two vertical supporting rods, two mud grinding wheels and two U-shaped lug plates, the flat supporting rods are symmetrically fixed on the outer side of the rotating frame cylinder, the symmetrical axes of the flat supporting rods are perpendicular to the different planes of the symmetrical axes of the scraping plate frame, the end parts of the flat supporting rods are provided with square inserting vertical holes, one ends of the vertical supporting rods are vertically inserted into the square inserting vertical holes of the flat supporting rods, the cross sections of the vertical supporting rods are matched with the square inserting vertical holes and are perpendicular to the rotating shaft of the mud grinding wheels, and the other ends of the vertical supporting rods are fixed with the U-shaped lug plates, the two ends of a rotating shaft of the mud grinding wheel are respectively fixed on the U-shaped ear plates, a compression spring is sleeved at the position of the vertical support rod between the U-shaped ear plates, a speed regulating motor is fixed on the side surface of the cylindrical box, a main driving wheel is arranged on an output shaft of the speed regulating motor, the main driving wheel is connected with a transmission input wheel through a transmission belt, the central axis of the output shaft of the speed regulating motor is parallel to the central axis of the feed passing cylinder shaft, the central axis of the cylindrical box, the central axis of the bearing sleeve, the central axis of the spiral shell cylinder, the central axis of the mud extruding spiral and the central axis of the rotating frame cylinder are all coincided with the central axis of the feed passing cylinder shaft, a vacuum sealing ring gasket is arranged between the feed passing cylinder shaft and the bearing sleeve, a pipe extruding die set is composed of an outer die cylinder, an inner die core, a pipe guiding guide plate and a guide plate lifting mechanism, the outer die cylinder is a cylinder with a connecting flange plate arranged at the upper end part, the upper section of the inner cavity of the outer die cylinder is a conical surface, and the lower section of the inner cavity of the outer die cylinder is a cylindrical surface, the inner diameter of a connecting flange plate of the outer die cylinder is matched with the diameter of a mud outlet, the inner die core is a rotating body with a small top and a large bottom, the upper portion of the rotating body is cylindrical, the lower portion of the rotating body is in a frustum shape, a central axis of the lower end face of the inner die core is provided with a positioning pin counter bore, a plurality of screw through holes are formed in the periphery of the positioning pin counter bore, the positioning pin counter bore of the inner die core is matched with the central positioning counter bore of the mud-extruding spiral in position, the screw through holes of the inner die core are matched with the number and the position of the fastening thread counter bore of the mud-extruding spiral, the inner die core is fixed on the lower end face of the mud-extruding spiral through positioning pins and fastening screws, the outer die cylinder is fixed below a square base plate through a connecting flange plate, the central axes of the inner cavity of the outer die cylinder and the inner die core are coincident with the central axis of the mud-extruding spiral, a guide plate is composed of a plate and a circular guide pipe sleeve, and the circular guide pipe sleeve is fixed on the plate.

The frame be by the frame that a rectangle shore frame, a rectangle shore frame and four upright frame posts constitute, the rectangle shore frame is relative at the bottom of rectangle shore frame and the rectangle shore frame level, the both ends that are fixed in the upright frame post that every apex angle of rectangle shore frame and every apex angle of rectangle shore frame correspond, what the four square bed plate of muddy crowded mud subassembly was mated is fixed in on the top surface of the rectangle shore frame of frame.

A conical cylinder-shaped material guide clapboard and a material distribution circular plate are arranged in a cylinder shell of the cylinder box, the material distribution circular plate is connected with the large-diameter end of the conical cylinder-shaped material guide clapboard, a spiral shell cylinder through hole is arranged at the central part of the material distribution circular plate, the plate of a plurality of cloth strip holes is evenly distributed on the edge part, the small diameter end of the conical tube-shaped guide baffle plate is connected with the upper end edge of the mud outlet in a matching way, the cylindrical shell of the cylinder box is respectively provided with a liquid outlet pipe and a liquid inlet pipe from bottom to top, both the liquid outlet pipe and the liquid inlet pipe are lower than the positions of the cloth circular plates, the spiral shell cylinder is inserted in the spiral shell cylinder through hole of the cloth circular plates, the length of the spiral shell cylinder is smaller than the height of the conical tube-shaped guide baffle plate, the distance between the lower end surface of the spiral shell cylinder and the small diameter end of the conical tube-shaped guide baffle plate is matched with the outer diameter of the mud extruding spiral, the cylinder box is provided with a temperature measuring meter capable of displaying temperature and a vacuum meter capable of displaying vacuum degree, and the cylinder box is provided with a liquid adding valve capable of being opened and a vacuum connecting pipe.

The vacuum pump is fixed on the cylinder box, the vacuum pump is connected with a vacuum connecting pipe on the cylinder box through a vacuum pipe in a penetrating way, and a vacuum valve is arranged on the vacuum connecting pipe between the vacuum pump and the vacuum pipe.

The electric control box is provided with a main power switch, a vacuum pump switch, a reversing switch of the speed regulating motor and a speed regulator of the speed regulating motor, and is fixed on the square base plate.

The bearing sleeve is a shell barrel part consisting of an upper cover plate ring, a bearing sleeve and a concave bottom cover ring, the outer diameter of the upper cover plate ring is larger than the diameter of a bearing sleeve insertion hole on the dome cover and is matched with the bearing sleeve insertion hole, the central part of the upper cover plate ring is provided with a through shaft hole, the upper edge of the upper cover plate ring is provided with a plurality of bearing sleeve fixing screw holes which are uniformly distributed along the circumference, a plurality of bearing sleeve connecting screw holes which are uniformly distributed are arranged between the through shaft hole and the bearing sleeve fixing screw holes, the inner diameter of the through shaft hole is matched with the outer diameter of the feed cylinder shaft, the upper end surface and the lower end surface of the bearing sleeve are provided with screw counter bores, the upper cover plate ring is fixed on the upper end surface of the bearing sleeve by screws through the bearing sleeve connecting screw holes, the central axis of the concave bottom cover ring is provided with a central through hole which is matched with the outer diameter of the feed cylinder shaft, a connecting hole with the inner diameter of the screw counter bore which is matched with the screw thread of the bearing sleeve is arranged between the central through hole and the edge of the concave bottom cover ring, the concave bottom cover ring is fixed on the lower end surface of the bearing sleeve through a connecting threaded hole on the bearing sleeve by a screw, and a bearing is arranged in an annular gap between the concave bottom cover ring and the circular top plate.

The upper end part of the material passing cylinder shaft is provided with a self-closing charging bell valve.

The guide plate lifting mechanism is composed of four sets of pulley assemblies, each pulley assembly is composed of a counterweight part, a guide fixed pulley and a steel wire rope, the upper top end of each pulley assembly is fixed with a movable pulley, one end of each steel wire rope is fixed on a plate disc of the guide pipe guide plate (40), and the steel wire rope is fixed on a square base plate through the guide fixed pulleys and the movable pulleys.

The scraping plate frame is an isosceles triangle frame, the vertex angle of the isosceles triangle frame points to the inner cylinder surface of the cylinder box and is matched with the cloth strip holes at the edge of the cloth circular plate, a reinforcing rib plate is arranged between the scraping plate frame and the rotating frame barrel, and the distance between the scraping plate frame and the cloth circular plate is not more than mm.

The utility model has the advantages that: the utility model can realize the integrated operation of mixing, pugging, mud squeezing, pipe making and the like on conventional materials and materials which are easy to oxidize, adsorb and have large chemical activity under the vacuum condition and the specific temperature condition (such as heating, cooling, constant temperature or room temperature), has the advantages of simplifying the pipe making operation steps, integrating multiple functions of equipment into a whole, occupying small space and field, and reducing or avoiding dust (or harmful gas) leakage between the working procedures; but also can improve the product quality and the labor efficiency and reduce the labor cost of pipe making.

Drawings

Fig. 1 is a schematic view of the overall appearance structure of the present invention.

Fig. 2 is a sectional view of the main assembly of the mud grinding wheel of the present invention.

Fig. 3 is a sectional view of the assembled scraper frame of the present invention.

Fig. 4 is a radial cross-sectional view of the turret tube of the present invention.

Fig. 5 is an axial view of the cloth circular plate of the present invention.

Fig. 6 is a partial assembled cross-sectional enlarged view of the bearing housing and the rotating frame cylinder of the present invention.

Fig. 7 is a schematic diagram of the self-closing charging clock valve of the present invention.

Fig. 8 is an assembly diagram of the bearing housing of the present invention.

Fig. 9 is a schematic view of the inner mold core of the present invention.

Fig. 10 is a schematic view of the material distribution device for scraping according to the present invention.

Fig. 11 is a schematic view of the spiral shell cylinder of the present invention for improving the effect of the spiral.

Wherein: 1 is a speed regulating motor; 2 is a power control box; 3 is a vacuum pump; 4 is a frame; 5 is a cylindrical box; 6 is a square base plate; 7 is a dome cover; 8 is a mud outlet; 9 is a pipe extruding mould set; 10 is a feed cylinder shaft; 11 is a bearing sleeve; 12 is a spiral shell cylinder; 13 is a mud extrusion screw; 14 is a rotating frame cylinder; 15 is a mud grinding wheel component; 16 is a central upright post; 17 is an outer cylinder shaft; 18 is a vertical rib plate; 19 is a bearing boss; 20 is an axial stressed bearing; 21 is an input shaft; 22 is a connecting pin; 23 is a conical material guide skirt; 24 is a scraping plate frame; 25 is a diagonal draw bar; 26 is a rotating drum wheel; 27 is a circular top plate; 28 is a circular bottom plate; 29 is a driven wheel; 30 is a driven wheel supporting ring plate; 31 is a mud grinding wheel; 32 is a U-shaped ear plate; 33 is a pressing spring; 34 is a main driving wheel; 35 is a conveyor belt; 36 is a transmission input wheel; 37 vacuum seal ring gasket; 38 is an outer mold cylinder; 39 is an inner mold core; 40 is a guide pipe guide plate; 41 is a guide plate lifting mechanism; 42 is a positioning pin; 43 is a set screw; 44 is a screw; 201 is a rectangular top bracing frame; 202 is a rectangular bottom support frame; 203 is an upright frame column; 301 is a cone-shaped material guide clapboard; 302 is a cloth circular plate; 303 is a spiral shell through hole; 304 is a cloth strip hole; 305 is a liquid outlet pipe; 306 is a liquid inlet pipe; 307 adding a valve to the liquid; 308 is a vacuum connection pipe; 401 is a vacuum tube; 402 is a vacuum valve; 601 is an upper cover plate ring; 602 a bearing sleeve; 603 is a concave bottom cover ring; 604 is a bearing; 701 is a self-closing charging clock valve; 801 a weight member; 802 is a guide fixed pulley; 901 is a stiffener plate.

The specific implementation mode is as follows:

the following describes the embodiments of the present invention in further detail with reference to the accompanying drawings.

A vacuum mixing and pipe extruding integrated machine is provided by figures 1-11 and comprises a speed regulating motor 1, an electricity control box 2, a vacuum pump 3, a mixing and mud extruding component and a frame 4, wherein the mixing and mud extruding component comprises a cylindrical box 5, a square base plate 6 and a mixing and grinding mud extruding component positioned in the cylindrical box 5, a dome cover 7 is arranged at the top of the cylindrical box 5, a bearing sleeve inserting hole is formed in the center of the dome cover 7, a plurality of uniformly distributed threaded through holes are formed in the periphery of the bearing sleeve inserting hole of the dome cover 7, a mud outlet 8 is formed in the center of the square base plate 6, connecting threaded holes are formed in the periphery of the mud outlet 8 of the square base plate 6, a pipe extruding die kit 9 is fixed below the square base plate 6, the lower end face of the cylindrical box 5 is hermetically connected with the square base plate 6, and the mixing and grinding mud extruding component comprises a material passing cylinder shaft 10, a bearing sleeve 11, a spiral shell 12, a mud extruding spiral 13, a vacuum pump 3, a vacuum pump and a mud extruding component and a frame 4, The material passing cylinder shaft 10 is a component consisting of a central upright post 16, an outer cylinder shaft 17 and a plurality of uniformly distributed upright rib plates 18 fixed between the central upright post 16 and the outer cylinder shaft 17, the lower end part of the central upright post 16 is provided with a square shaft inserted counter bore and a pin through hole, the central axis of the pin through hole is vertical to the central axis of the central upright post 16, the central axis of the square shaft inserted counter bore is superposed with the central axis of the central upright post 16, the outer circumference of the upper end part of the outer cylinder shaft 17 is fixed with a transmission input wheel 36, the middle part of the outer circumference of the outer cylinder shaft 17 is provided with a bearing boss 19, the upper end surface and the lower end surface of the bearing boss 19 of the outer cylinder shaft 17 are respectively provided with an axial stressed bearing 20, the axial stressed bearing 20 is positioned in a bearing sleeve 11, the bearing sleeve 11 is inserted in the bearing sleeve inserting hole of the dome cover 7 and is fixed on the dome cover 7 by a screw through the threaded through hole of the dome cover 7, the upper top end of the mud-extruding spiral 13 is provided with a square input shaft lever 21 matched with the square shaft inserting counter bore, the input shaft lever 21 is provided with a pin transverse through hole, the input shaft lever 21 is inserted in the square shaft inserting counter bore, a connecting pin 22 is arranged in the pin transverse through hole of the input shaft lever 21 and the pin through hole of the central upright post 16, the mud-extruding spiral 13 passes through the spiral shell barrel 12 and is matched with the position of the mud outlet 8, the lower top end of the mud-extruding spiral 13 is provided with a central positioning counter bore and a plurality of tightening screw thread counter bores uniformly distributed in the circumferential direction, the top end of the spiral shell barrel 12 is provided with a conical guide skirt 23 with a small upper part and a large lower part, the outer conical surface of the conical guide skirt 23 is fixed with two symmetrical scraping plate frames 24, a plurality of oblique pull rod rods 25 uniformly distributed are arranged between the outer part of the rotating frame barrel 14 and the conical guide skirt 23, the rotating frame barrel 14 is fixed at the outer side of the material passing barrel shaft 10, and the rotating frame barrel 14 is composed of a rotating barrel 26, A circular top plate 27 with a bearing sleeve through hole at the central part, a circular bottom plate 28 with a feed cylinder shaft through hole at the central part, a plurality of driven wheels 29 and a rotating component consisting of two horizontal driven wheel supporting ring plates 30, wherein the circular top plate 27 and the circular bottom plate 28 are respectively fixed at the upper end surface and the lower end surface of the rotating cylinder wheel 26, the central part of the driven wheel supporting ring plate 30 is provided with a feed cylinder shaft inserting hole, the two driven wheel supporting ring plates 30 are horizontally and vertically fixed at the inner cylinder surface of the rotating cylinder wheel 26, the driven wheel 29 is positioned between the driven wheel supporting ring plates 30, the rotating shaft of the driven wheel 29 and the central axis of the rotating cylinder wheel 26 are fixed on the driven wheel supporting ring plates 30 in parallel and uniformly distributed manner, the wheel surface of the driven wheel 29 and the inner cylinder surface of the rotating cylinder wheel 26 and the outer cylinder surface of the feed cylinder shaft 10 are matched and attached to each other, and the mud roller component 15 comprises two flat supporting rods, two vertical supporting rods, Two mud grinding wheels 31 and two U-shaped ear plates 32, the flat brace rod is symmetrically fixed on the outer side of the rotating frame barrel 14, the symmetrical axis of the flat brace rod is vertical to the different plane of the symmetrical axis of the scraping plate frame 24, the end part of the flat brace rod is provided with a square inserting vertical hole, one end of the vertical brace rod is vertically inserted into the square inserting vertical hole of the flat brace rod, the cross section of the vertical brace rod is matched with the square inserting vertical hole and is vertical to the rotating shaft of the mud grinding wheels 31, the other end of the vertical brace rod is fixed with the U-shaped ear plate 32, two ends of the rotating shaft of the mud grinding wheels 31 are respectively fixed on the U-shaped ear plates 32, a compression spring 33 is sleeved on the vertical brace rod between the U-shaped ear plates 32, the speed regulating motor 1 is fixed on the side surface of the cylindrical box 5, the output shaft of the speed regulating motor 1 is provided with a main driving wheel 34, the main driving wheel 34 is connected with a driving input wheel 36 through a conveying belt 35, the central axis of the output shaft of the speed regulating motor 1 is parallel to the central axis of the material passing barrel shaft 10, the central axis of the cylindrical box 5, the central axis of the bearing sleeve 11, the central axis of the spiral shell barrel 12, the central axis of the mud-extruding spiral 13 and the central axis of the rotating frame barrel 14 are all coincided with the central axis of the feed barrel shaft 10, a vacuum sealing ring gasket 37 is arranged between the feed barrel shaft 10 and the bearing sleeve 11, the pipe-extruding die set 9 is composed of an outer die barrel 38, an inner die core 39, a pipe-guiding guide plate 40 and a guide plate lifting mechanism 41, the outer die barrel 38 is a cylinder with a connecting flange plate at the upper end, the upper section of the inner cavity of the outer die barrel 38 is a conical surface, the lower section of the inner cavity of the outer die barrel 38 is a cylindrical surface, the inner diameter of the connecting flange plate of the outer die barrel 38 is equal to the diameter of the mud outlet 8, the inner die core 39 is a rotating body with a small upper part and a large lower part, the upper part of the rotating body is cylindrical, the lower part of the rotating body is in a frustum shape, a positioning pin is arranged at the central axis of the lower end surface of the inner die core 39, a plurality of screw through holes are arranged around the counter bores, the positioning pin counter bore of the inner die core 39 is matched with the central positioning counter bore of the mud-extruding spiral 13, the screw through hole of the inner die core 39 is matched with the number and the position of the fastening screw counter bore of the mud-extruding spiral 13, the inner die core 39 is fixed on the lower end face of the mud-extruding spiral 13 by a positioning pin 42 and a fastening screw 43, the outer die cylinder 38 is fixed under the square base plate 6 by a screw 44 through a connecting flange, the central axes of the inner cavity of the outer die cylinder 38 and the inner die core 39 are both coincided with the central axis of the mud-extruding spiral 13, the pipe guiding plate 40 is composed of a plate and a circular pipe sleeve 45, and the circular pipe sleeve 45 is fixed on the plate.

Frame 4 for by a rectangle top props frame 201, a rectangle bottom props frame 202 and four frames of standing upright 203 the frame that constitutes, rectangle top props frame 201 and rectangle bottom props the frame 202 level relatively, what every apex angle of rectangle top props frame 201 and every apex angle of rectangle bottom props frame 202 corresponds is fixed in the both ends of standing upright 203, what the square base plate 6 of crowded mud subassembly of mulling matches is fixed in on the top surface of the rectangle top props frame 201 of frame 4.

A conical cylindrical material guide baffle plate 301 and a material distribution circular plate 302 are arranged in a cylindrical shell of the cylindrical box 5, the material distribution circular plate 302 is connected with a large-diameter end of the conical cylindrical material guide baffle plate 301, the material distribution circular plate 302 is a plate with a spiral shell tube through hole 303 at the central part and a plurality of material distribution strip holes 304 uniformly distributed at the edge part, the small-diameter end of the conical cylindrical material guide baffle plate 301 is connected with the upper end edge of a mud outlet 8 in a matching way, a liquid outlet pipe 306 and a liquid inlet pipe 305 are respectively arranged on a cylindrical shell of the cylindrical box 5 from bottom to top, the liquid outlet pipe 306 and the liquid inlet pipe 305 are both lower than the material distribution circular plate 302, the spiral shell tube 12 is inserted in the spiral shell tube through hole 303 of the material distribution circular plate 302, the length of the spiral shell tube 12 is smaller than the height of the conical cylindrical material guide baffle plate 301, the distance between the lower end surface of the spiral shell tube 12 and the end of the conical cylindrical small-diameter baffle plate 301 is matched with the outer diameter of the mud-extruding spiral 13, a temperature measuring meter and a vacuum degree meter capable of displaying temperature are arranged on the cylindrical box 5, the cylinder case 5 is provided with a liquid adding valve 307 and a vacuum connection tube 308 which can be opened and closed.

The vacuum pump 3 is fixed on the cylinder box 5, the vacuum pump 3 is in through connection with a vacuum connecting pipe 308 on the cylinder box 5 through a vacuum pipe 401, and a vacuum valve 402 is arranged on the vacuum connecting pipe 308 between the vacuum pump 3 and the vacuum pipe 401.

The electricity control box 2 is provided with a main power switch, a vacuum pump switch, a reversing switch of the speed regulating motor and a speed regulator of the speed regulating motor, and the electricity control box 2 is fixed on the square base plate 6.

The bearing sleeve 11 is a shell cylinder part composed of an upper cover plate ring 601, a bearing sleeve 602 and a concave bottom cover ring 603, the outer diameter of the upper cover plate ring 601 is larger than the diameter of a bearing sleeve insertion hole on the dome cover 7 and is matched with the bearing sleeve insertion hole, the central part of the upper cover plate ring 601 is provided with a through shaft hole, the upper edge of the upper cover plate ring 601 is circumferentially provided with a plurality of uniformly distributed bearing sleeve fixing screw holes, a plurality of uniformly distributed bearing sleeve connecting screw holes are arranged between the through shaft hole and the bearing sleeve fixing screw holes, the inner diameter of the through shaft hole is matched with the outer diameter of the feed cylinder shaft 10, the upper end surface and the lower end surface of the bearing sleeve 602 are respectively provided with a thread counter bore, the upper cover plate ring 601 is fixed on the upper end surface of the bearing sleeve 602 by screws through the bearing sleeve connecting screw holes, the central axis of the concave bottom cover ring 603 is provided with a central through hole matched with the outer diameter of the feed cylinder shaft 10, a connecting hole with the inner diameter matched with the thread counter bore of the bearing sleeve 602 is arranged between the central through hole and the edge of the concave bottom cover ring 603, the concave bottom cover ring 603 is fixed on the lower end face of the bearing sleeve 602 by screws through connecting threaded holes on the bearing sleeve 602, and a bearing 604 is arranged in an annular gap between the concave bottom cover ring 603 and the circular top plate 27.

The upper end part of the feed cylinder shaft 10 is provided with a self-closing charging bell valve 701.

The guide plate lifting mechanism 41 is composed of four sets of pulley assemblies, each pulley assembly is composed of a counterweight part 801, a guide fixed pulley 802 and a steel wire rope, wherein the upper top end of each pulley assembly is fixed with a movable pulley, one end of each steel wire rope is fixed on a plate disc of the guide pipe guide plate 40, and the steel wire rope is fixed on the square base plate 6 through the guide fixed pulleys and the movable pulleys.

The scraping plate frame 24 is an isosceles triangle frame, the vertex angle of the isosceles triangle frame points to the inner cylinder surface of the cylinder box 5 and is matched with the cloth strip hole 304 at the edge of the cloth circular plate 302, a reinforcing rib plate 901 is arranged between the scraping plate frame 24 and the rotating frame cylinder 14, and the distance between the scraping plate frame 24 and the cloth circular plate 302 is not more than 5 mm.

The first embodiment is as follows: the utility model is used for liquid resin combines the production of carborundum pipe, prepares the preceding text before the operation each part and with each part connected assembly good, the utility model discloses a total height 2480mm, the power of the buncher 1 of adoption is 5000 watts, buncher 1's rotational speed 50 commentaries on classics/minute, and drum case 5's external diameter is 1250mm, highly is 750mm, and vacuum pump 3's power is 500 watts, and rated vacuum is 4 torr, the utility model discloses before the reinforced operation, the pipe guide 40 rises to highest position and blocks up outer mould section of thick bamboo 38 and inner mould core 39 clearance under the effect of counter weight part 801 and baffle elevating system 41. When the utility model starts to make the tube, the main power switch is switched on, water with the temperature of 80 ℃ flows in from the liquid outlet pipe 306 and flows out from the liquid inlet pipe 305 (because the viscosity of the liquid resin is large at the room temperature, the resin is not easy to be mixed evenly, the viscosity of the resin can be reduced by increasing the temperature, the resin is easier to be mixed), the vacuum pump switch is switched on to drive the vacuum pump 3 to run, the vacuum valve 402 is switched on to start vacuum pumping, when the vacuum degree (6 torr) and the temperature reach the preset value, the self-closing clock valve storage tank which is provided with the powdery material with the volume matched with the embodiment is connected with the self-closing charging clock valve 701 of the utility model (in figure 7, after the pressure lever B of the clock valve is pressed downwards, a gap for the material M to pass through is formed between the funnel A and the clock valve D, the arrow in figure 7 shows the material sliding direction, when the pressure lever B is not pressed by external pressure, the spring S makes the clock valve D move upwards, a seal is formed between the funnel A and the clock valve D), turning on a speed regulating motor switch to enable a speed regulating motor 1 to rotate (and ensuring the steering of a mud extruding spiral to enable materials to be lifted upwards), opening a liquid adding valve 307 to slowly add a proper amount of liquid resin into a cylinder box 5 after pure solid bulk materials in an external adding container are stably discharged into the cylinder box 5, adjusting a speed regulating motor speed regulator to enable the rotating speed of the speed regulating motor 1 (namely the rotating speed of the mud extruding spiral 13) to be matched with the materials to be mixed, rolled and extruded (spiral lifting), enabling the materials in an external storage tank to firstly pass through a self-closing type feeding bell valve 701, pass through a gap between a central upright post 16 and an outer cylinder shaft 17 of a charging barrel shaft 10 and fall onto a material distribution circular plate 302 through a conical material guide skirt 24 (and the mud extruding spiral 13), when the speed regulating motor 1 rotates, a transmission input wheel 36 and a material passing barrel shaft 10 rotate together under the driving of a conveyor belt 35, and enabling the mud extruding spiral 13 to be lifted through an input shaft lever 21 to drive the mud extruding spiral 13 (the materials to be lifted when the mud extruding spiral 13 rotates clockwise), at this time, the driven wheel 29 is rotated counterclockwise by the friction force of the outer edge of the material cylinder shaft 10 matching and attaching to the driven wheel 29, the driven wheel 29 drives the rotating cylinder wheel 26 to rotate counterclockwise, the rotating cylinder wheel 26 drives the mud-grinding wheel assembly 15 to rotate through the flat stay bar, the rotating cylinder wheel 26 drives the diagonal draw bar 25 to make the spiral shell cylinder 12, the tapered material guiding skirt 23 and the scraping plate frame 24 rotate counterclockwise, at this time, the material falling to the static material distributing circular plate 302 is grinded by the mud-grinding wheel 31, and then is scraped (pushed) by the scraping plate frame 24 into the material distributing hole 304 (see fig. 10, M in fig. 10 represents the material to be processed, the solid arrow represents the direction in which the material moves to the material distributing hole), falls to the inner cone of the tapered cylindrical material guiding partition plate 301, slides to the bottom of the tapered cylindrical material guiding partition plate 301, and is heated at the same time, and finally is pushed upward to the top opening of the spiral shell cylinder 12 through the mud-pressing spiral 13, the space between the oblique draw bar 25 falls to toper guide shirt rim 23 and arrives cloth plectane 302 again, is milled once more by milling mud wheel 31, scrapes flitch frame 24 and once more revolves and scrapes (push away) the cloth strip hole 304 that lies in cloth plectane 302 limit portion, slides once more to the bottom of awl cylindric guide baffle 301 through the inner conical surface, so relapse, the realization is scraped the mixing action of the cloth branch material effect of flitch frame 24, cloth plectane 302, the funnel effect of awl cylindric guide baffle 301, the rolling action of milling mud wheel 31, the crowded mud effect of spiral promotion, after the certain time, the utility model discloses under vacuum, heating (the temperature 60 ℃ in the cylinder case)) condition, accomplished and to adding the material in the utility model provides a make the mud operation of mixing, milling, crowded pugging material. After the mud making operation is finished, a reversing switch of the speed regulating motor is started to stop the rotation of the speed regulating motor 1, the speed regulating motor drives the conveyor belt 35 to drive the mud extruding screw 13 to rotate downwards in the mud extruding direction, mud on the cloth circular plate 302 in the cylinder box 5 and on the cone-shaped guide partition plate 301 is extruded by the mud extruding screw 13 through the mud outlet 8 and enters a channel between the inner mold core 39 and the outer mold cylinder 38, the mud moves downwards under the screw extrusion and is constrained by the inner mold core 39 and the outer mold cylinder 38 to form a resin-bonded silicon carbide pipe blank with the inner diameter consistent with the maximum outer diameter of the inner mold core 39 and the outer diameter consistent with the inner diameter of the outer mold pipe 38, meanwhile, the downward pressure of the pipe blank enables the guide pipe 40 to be separated from the inner mold core 39 and the outer mold cylinder 38, and the resin-bonded silicon carbide pipe blank stably moves downwards under the action of the counterweight component 801 and the guide plate lifting mechanism 41, and when the preset length is reached, and cutting and removing the tube blank by externally matched tube cutting equipment. Thereafter, the pipe guide 40 is moved upward and returned by the traction of the weight member 801 and the guide lifting mechanism 41, and the above steps are repeated until the sludge is used up. The utility model discloses crowded pipe operation finishes, and disconnection vacuum pump switch cuts off the buncher switch, closes the main power, the utility model discloses be in the stand-by state of shutting down.

In the operation process of the first embodiment, the material passing cylinder shaft 10 and the mud extruding screw 13 synchronously rotate in the same direction, and the spiral shell cylinder 12 rotates at a speed lower than the rotating speed of the mud extruding screw 13 through the transmission of all parts of the rotating frame cylinder 14Inverse directionRotating (see fig. 11, where M represents the material to be treated), in the mud-extruding screw 13The friction action of wall and material can increase the lifting force of mud-extruding screw 13 (increase the downward extruding force when extruding down) to improve the effect of mud-extruding screw 13, the transmission of rotating frame 14 each part makes the rotational speed of mud-grinding wheel assembly 15 slow down, has improved torsion and grinding force, does benefit to and obtains better mud-grinding effect. No dust and gas (volatile components in the resin) escape during the process, so that the working environment can be improved. The vacuum condition of the utility model can discharge the gas in the pug and be more compact, and the heating makes the viscous resistance of the pug become smaller and the plastic deformation is easier. The utility model discloses crowded pipe in-process, inner mold core 39 is rotatory under crowded mud spiral 13's drive, has not only reduced pug and body axial displacement's resistance (dynamic friction), and inner mold core 39 inner walls are rotatory moreover and the pug produces tangential friction power, tangential friction power with come to the resultant force of the bulldozing power of crowded mud spiral 13, make the pug produce radial and circumference to closely knit power, improve the intensity and the quality of pipe.

Example two: the utility model is used for cross operation such as wet material's mixing, grind mud, pugging (if adopt because of certain operation failure causes (aqueous) ceramic raw materials to cross wet, during the unable normal operation of conventional equipment): the equipment parameters are the same as those of the first embodiment, at this time, the liquid outlet pipe 306 and the liquid inlet pipe 305 are communicated with the outside, and before the operation is started, the guide pipe guide plate 40 is lifted to the highest position under the action of the counterweight part 801 and the guide plate lifting mechanism 41, so that the gap between the outer mold cylinder 38 and the inner mold core 39 is blocked. Switching on a main power switch, flowing water with the temperature of 90 ℃ from a liquid inlet pipe 305 and flowing out from a liquid outlet pipe 306, opening a vacuum pump switch to enable a vacuum pump 3 to operate, opening a vacuum valve 402 to start vacuumizing, after a storage tank filled with over-wet raw materials matched with the volume of the embodiment is well butted with a self-closing charging clock valve 701, opening a speed regulating motor switch to enable a speed regulating motor 1 to rotate (and ensure that a mud-extruding spiral turns to enable the materials to be lifted upwards), stably discharging pure solid bulk materials in an external charging container into a cylindrical box 5, closing a liquid adding valve 307 to prevent liquid or gas from being added into the cylindrical box 5, adjusting a speed regulating motor speed regulator to enable the rotating speed of the speed regulating motor 1 (namely the rotating speed of a mud-extruding spiral 13) to be matched with the materials to be mixed, ground and extruded, and the over-wet materials in the external storage tank firstly pass through the self-closing charging clock valve 701 and pass through a gap between a central upright post 16 and an outer cylinder shaft 17 of a charging barrel shaft 10, The material falls onto the distributing circular plate 302 through the conical material guiding skirt 24 or the mud extruding screw, the speed regulating motor 1 drives the conveyor belt, the transmission input wheel and the material passing cylinder shaft 10 rotate together under the drive of the conveyor belt, the material passing cylinder shaft 10 drives the mud extruding screw 13 through the input shaft lever 21, the direction of lifting the material by the mud extruding screw 13 is set to be clockwise, the friction force matching and attaching the outer edge of the material passing cylinder shaft 10 and the driven wheel 29 causes the driven wheel 29 to rotate (anticlockwise), the driven wheel 29 drives the rotating cylinder wheel 26 to rotate (anticlockwise), the rotating cylinder wheel 26 drives the mud grinding wheel assembly 15 to rotate through the flat support rod, the rotating cylinder wheel 26 drives the inclined pull rod 25 to cause the spiral shell cylinder 12, the conical material guiding skirt 23 and the material scraping plate frame 24 to rotate (anticlockwise), the material falling to the static distributing circular plate 302 is grinded by the mud grinding wheel 31 and then is rotatably scraped (pushed) by the material scraping plate frame 24 to the distributing strip hole 304 positioned at the distributing circular plate 302, falls into the inner conical surface of the cone-shaped material guiding clapboard 301, slides to the bottom of the cone-shaped material guiding clapboard 301, and at the same time, the material is heated, finally, after being pushed upwards to the opening at the top end of the spiral shell barrel 12 by the mud-extruding spiral 13, falls to the cone-shaped material guiding skirt 23 through the gap between the diagonal draw bars 25, then to the material distributing circular plate 302, is milled again by the mud milling wheel 31, and is scraped (pushed) to the material distributing strip hole 304 at the edge of the material distributing circular plate 302, and slides to the bottom of the cone-shaped material guiding clapboard 301 again through the inner conical surface, in the repeated process, the moisture in the over-wet material is evaporated and dehumidified under vacuum condition by vacuum, the cone-shaped material guiding clapboard 301 in the cylinder box 5 heats the material on the cone-shaped material through the wall of the liquid bath, the material temperature is increased to accelerate the evaporation speed of the wet material under vacuum, thus, the purpose of heating and dehumidifying the over-wet material under vacuum is realized, when the wet powder in the mud material is normal, and (4) closing the vacuum pump 3, stopping the liquid bath heating system, and performing normal operations of uniformly mixing, mud grinding and mud refining. After the mud making is finished, a reversing switch of the speed regulating motor is started to stop the rotation of the speed regulating motor 1, the speed regulating motor 1 is reversed, the speed regulating motor 1 drives the conveyor belt 35 to drive the mud extruding screw 13 to rotate in the direction of extruding mud downwards, mud on the material distributing circular plate 302 in the cylinder box 5 and on the conical cylinder guide partition plate 301 is extruded out by the mud extruding screw 13 through the mud outlet 8 and enters a channel between the inner mold core 39 and the outer mold cylinder 38, the mud moves downwards under the spiral extrusion and is constrained by the inner mold core 39 and the outer mold cylinder 38 to form a resin-bonded silicon carbide tube blank with the inner diameter consistent with the maximum outer diameter of the inner mold core 39 and the outer diameter consistent with the inner diameter of the outer mold tube 38, meanwhile, the downward pressure of the tube blank enables the guide tube 40 to be separated from the inner mold core 39 and the outer mold cylinder 38, and the tube blank stably moves downwards under the action of the counterweight component 801 and the guide plate lifting mechanism 41, and when the preset length is reached, the pipe is cut and moved out by an externally-matched pipe cutting device, and the pipe guide plate 40 moves upwards and returns under the traction of the counterweight part 801 and the guide plate lifting mechanism 41. The utility model discloses crowded pipe operation finishes, and disconnection vacuum pump switch cuts off the buncher switch, closes the main power, the utility model discloses be in the stand-by state of shutting down.

In this example two, the utility model discloses a liquid bath heating and vacuum function can overcome the unable direct shortcoming to the mixing of wet material, grind the mud, the operation such as pugging of conventional equipment, can realize the function of directly using the system mud of wet material, crowded pipe.

From the utility model discloses a structure and principle are easily seen out, the utility model is used for when carrying out mixing, system mud, crowded tub operation under room temperature, the air condition, equipment parameter is with embodiment one, only needs to cut off drain pipe 306 and feed liquor pipe 305 with the external world this moment, and vacuum pump 3 outage stop work. The other steps are similar to the first embodiment and the second embodiment, and the functions of directly preparing and extruding the mud can be realized. When the utility model adopts low temperature liquid (if less than zero) to be right, the utility model discloses can be to system mud, tubulation operation under the low temperature condition.

The utility model discloses in the operation in-process, cross feed cylinder axle 10 and crowded mud spiral 13 synchronous syntropy and rotate, make spiral shell section of thick bamboo 12 with the speed that is lower than crowded mud spiral 13 rotational speed through the transmission of a rotating frame section of thick bamboo 14 each partInverse directionTo rotating (see fig. 11, M in the figure represents the material to be processed), the friction action between the inner wall of the mud-extruding screw 13 and the material can increase the lifting force of the mud-extruding screw 13, thereby improving the effect of the screw lifting assembly, the transmission of each part of the rotating frame barrel 14 slows down the rotating speed of the mud-grinding wheel assembly 15, the torsion and the grinding force are improved, and the better mud-grinding effect is favorably obtained.

The technical scheme and the embodiment of the utility model show that the utility model can achieve the purpose of carrying out the integrated operations of mixing, pugging, mud squeezing, pipe making and the like on conventional materials and materials which are easy to oxidize, easy to adsorb and have large chemical activity under the conditions of vacuum and specific temperature (such as heating, cooling, constant temperature or room temperature), and has the advantages of simplifying the pipe making operation steps, integrating multiple functions of equipment into a whole, occupying small space, reducing or avoiding dust (or harmful gas) leakage and the like between the processes; but also can improve the product quality and the labor efficiency and reduce the labor cost of pipe making. The utility model discloses a shortcoming that conventional equipment can't be direct to the mixing of wet material, grind mud, pugging, crowded pipe etc. operation has direct system mud, the function of crowded pipe of wet material of using in heating and vacuum function, the utility model discloses a main part is for stewing or low-speed rotary part and shock-free mixing part, therefore still has the advantage that the noise is little.

Claims (9)

1. The utility model provides a crowded pipe all-in-one of vacuum mulling, includes buncher (1), accuse electricity box (2), vacuum pump (3), pug subassembly and frame (4) of mulling, its characterized in that: the mixing mud-squeezing component consists of a cylindrical box (5), a square base plate (6) and a mixed-grinding mud-squeezing component positioned in the cylindrical box (5), wherein a dome cover (7) is arranged at the top of the cylindrical box (5), a bearing sleeve insertion hole is formed in the center of the dome cover (7), a plurality of uniformly distributed threaded through holes are formed in the periphery of the bearing sleeve insertion hole of the dome cover (7), a mud outlet (8) is formed in the center of the square base plate (6), connecting threaded holes are formed in the periphery of the mud outlet (8) of the square base plate (6), a pipe-squeezing die set (9) is fixed below the square base plate (6), the lower end face of the cylindrical box (5) is hermetically connected with the square base plate (6), the mixed-grinding mud-squeezing component comprises a material passing cylinder shaft (10), a bearing sleeve (11), a spiral shell cylinder (12), a mud-squeezing spiral (13), a rotating frame cylinder (14) and a mud-grinding wheel component (15), the feeding cylinder shaft (10) is a component consisting of a central upright post (16), an outer cylinder shaft (17) and a plurality of uniformly distributed upright rib plates (18) fixed between the central upright post (16) and the outer cylinder shaft (17), the lower end part of the central upright post (16) is provided with a square shaft inserting counter bore and a pin through hole, the central axis of the pin through hole is vertical to the central axis of the central upright post (16), the central axis of the square shaft inserting counter bore is superposed with the central axis of the central upright post (16), the outer circumference of the upper end part of the outer cylinder shaft (17) is fixed with a transmission input wheel (36), the middle part of the outer circumference of the outer cylinder shaft (17) is provided with a bearing boss (19), the upper end surface and the lower end surface of the bearing boss (19) of the outer cylinder shaft (17) are respectively provided with an axial stressed bearing (20), the axial stressed bearing (20) is positioned in the bearing sleeve (11), the bearing sleeve (11) is inserted in the bearing sleeve hole of the dome cover (7), The mud-squeezing screw is fixed on the dome cover (7) through a threaded through hole of the dome cover (7) by a screw, a square input shaft lever (21) matched with a square shaft inserting counter bore is arranged at the upper top end of the mud-squeezing screw (13), a pin transverse through hole is arranged on the input shaft lever (21), the input shaft lever (21) is inserted in the square shaft inserting counter bore, a connecting pin (22) is arranged in the pin transverse through hole of the input shaft lever (21) and the pin through hole of the central upright post (16), the mud-squeezing screw (13) passes through the screw shell barrel (12) and is matched with the mud outlet (8), a central positioning counter bore and a plurality of tightly-screwed counter bores uniformly distributed in the circumferential direction are arranged at the lower top end of the mud-squeezing screw (13), a conical material guiding skirt edge (23) with a small upper part and a large lower part is arranged at the top end of the screw shell barrel (12), two symmetrical scraping plate frames (24) are fixed on the outer conical surface of the conical material guiding skirt edge (23), a plurality of uniformly distributed oblique pull rod rods (25) are arranged between the outside of a rotating frame barrel (14) and a conical material guide skirt edge (23), the rotating frame barrel (14) is fixed at the outer side of a material passing barrel shaft (10), the rotating frame barrel (14) is a rotating component which is composed of a rotating barrel wheel (26), a circular top plate (27) with a bearing sleeve through hole at the central part, a circular bottom plate (28) with a material passing barrel shaft through hole at the central part, a plurality of driven wheels (29) and two horizontal driven wheel supporting ring plates (30), the circular top plate (27) and the circular bottom plate (28) are respectively fixed at the upper end surface and the lower end surface of the rotating barrel wheel (26), the central part of each driven wheel supporting ring plate (30) is provided with a material passing barrel shaft inserting hole, the two driven wheel supporting ring plates (30) are both horizontally and vertically fixed on the inner barrel surface of the rotating barrel wheel (26), the driven wheels (29) are positioned between the driven wheel supporting ring plates (30), the rotating shaft of the driven wheel (29) is parallel to the central axis of the rotating barrel wheel (26) and is uniformly fixed on a driven wheel supporting ring plate (30), the wheel surface of the driven wheel (29), the inner barrel surface of the rotating barrel wheel (26) and the outer barrel surface of the feed barrel shaft (10) are matched and attached, the mud grinding wheel component (15) is a component consisting of two flat support rods, two vertical support rods, two mud grinding wheels (31) and two U-shaped ear plates (32), the flat support rods are symmetrically fixed on the outer side of the rotating barrel (14), the symmetrical axes of the flat support rods are perpendicular to the different planes of the symmetrical axes of the scraping plate frame (24), the end part of each flat support rod is provided with a square inserting vertical hole, one end of each vertical support rod is vertically inserted into the square inserting vertical hole of the flat support rod, the cross section of each vertical support rod is matched with the square inserting vertical hole and is perpendicular to the rotating shaft of the mud grinding wheel (31), and the U-shaped ear plate (32) is fixed at the other end of each vertical support rod, two ends of a rotating shaft of the mud grinding wheel (31) are respectively fixed on U-shaped lug plates (32), a compression spring (33) is sleeved on a part of a vertical support rod positioned between the U-shaped lug plates (32), a speed regulating motor (1) is fixed on the side surface of a cylinder box (5), a main driving wheel (34) is arranged on an output shaft of the speed regulating motor (1), the main driving wheel (34) is connected with a transmission input wheel (36) through a transmission belt (35), the central axis of the output shaft of the speed regulating motor (1) is parallel to the central axis of a material passing cylinder shaft (10), the central axis of the cylinder box (5), the central axis of a bearing sleeve (11), the central axis of a spiral shell cylinder (12), the central axis of a mud extruding spiral (13) and the central axis of a rotating frame cylinder (14) are coincided with the central axis of the material passing cylinder shaft (10), and a vacuum sealing ring gasket (37) is arranged between the material passing cylinder shaft (10) and the bearing sleeve (11), the pipe extruding die set (9) is composed of an outer die cylinder (38), an inner die core (39), a pipe guiding guide plate (40) and a guide plate lifting mechanism (41), wherein the upper end part of the outer die cylinder (38) is provided with a cylinder of a connecting flange, the upper section of the inner cavity of the outer die cylinder (38) is a conical surface, the lower section of the inner cavity of the outer die cylinder (38) is a cylindrical surface, the inner diameter of a connecting flange disc of the outer die cylinder (38) is equal to the diameter of a mud outlet (8) in a matching way, the inner die core (39) is a rotating body with a small upper part and a large lower part, the upper part of the rotating body is cylindrical, the lower part of the rotating body is in a frustum shape, a positioning pin counter bore is arranged at the central axis of the lower end surface of the inner die core (39), a plurality of screw through holes are arranged around the positioning pin counter bore, the positioning pin counter bore of the inner die core (39) is matched with the central positioning counter bore of the mud extruding spiral (13), and the screw through holes of the inner die core (39) are matched with the counter bores of the mud extruding spiral (13) in number and position, the inner mold core (39) is fixed on the lower end face of the mud extrusion spiral (13) through a positioning pin (42) and a set screw (43), the outer mold cylinder (38) is fixed below the square base plate (6) through a connecting flange plate through a screw (44), the central axes of the inner cavity of the outer mold cylinder (38) and the inner mold core (39) are coincided with the central axis of the mud extrusion spiral (13), the pipe leading guide plate (40) is composed of a plate disc and a circular guide pipe sleeve (45), and the circular guide pipe sleeve (45) is fixed on the plate disc.

2. The vacuum mixing and pipe extruding all-in-one machine as claimed in claim 1, wherein: frame (4) be by a rectangle top brace frame (201), the frame that constitutes of a rectangle end brace frame (202) and four upright posts (203), rectangle top brace frame (201) and rectangle end brace frame (202) level are relative, what every apex angle of rectangle top brace frame (201) and every apex angle of rectangle end brace frame (202) correspond is fixed in the both ends of upright post (203), what the square bed plate (6) of pugging mud squeezing component match is fixed in on the top surface of rectangle top brace frame (201) of frame (4).

3. The vacuum mixing and pipe extruding all-in-one machine as claimed in claim 1, wherein: a conical cylindrical material guiding partition plate (301) and a material distributing circular plate (302) are arranged in a cylindrical shell of the cylindrical box (5), the material distributing circular plate (302) is connected with a large-diameter end of the conical cylindrical material guiding partition plate (301), the material distributing circular plate (302) is a plate with a spiral shell barrel through hole (303) in the central part and a plurality of material distributing strip holes (304) in the side part, the small-diameter end of the conical cylindrical material guiding partition plate (301) is connected with the upper end edge of a sludge outlet (8) in a matching manner, a liquid outlet pipe (305) and a liquid inlet pipe (306) are respectively arranged on a cylindrical shell of the cylindrical box (5) from bottom to top, the liquid outlet pipe (305) and the liquid inlet pipe (306) are both lower than the material distributing circular plate (302), the spiral shell barrel (12) is inserted into the spiral shell barrel through hole (303) of the material distributing circular plate (302), the length of the spiral shell barrel (12) is smaller than the height of the conical cylindrical material guiding partition plate (301), the distance between the lower end surface of the spiral shell barrel (12) and a conical cylindrical material guiding partition plate (301) and a small-diameter end and a sludge extruding spiral sludge 13) The outer diameters of the cylinder box (5) are matched, a temperature measuring meter capable of displaying temperature and a vacuum meter capable of displaying vacuum degree are arranged on the cylinder box (5), and a liquid adding valve (307) and a vacuum connecting pipe (308) capable of being opened and closed are arranged on the cylinder box (5).

4. The vacuum mixing and pipe extruding all-in-one machine as claimed in claim 1, wherein: the vacuum pump (3) is fixed on the cylinder box (5), the vacuum pump (3) is in through connection with a vacuum connecting pipe (308) on the cylinder box (5) through a vacuum pipe (401), and a vacuum valve (402) is arranged on the vacuum connecting pipe (308) between the vacuum pump (3) and the vacuum pipe (401).

5. The vacuum mixing and pipe extruding all-in-one machine as claimed in claim 1, wherein: the electric control box (2) is provided with a main power switch, a vacuum pump switch, a reversing switch of the speed regulating motor and a speed regulator of the speed regulating motor, and the electric control box (2) is fixed on the square base plate (6).

6. The vacuum mixing and pipe extruding all-in-one machine as claimed in claim 1, wherein: the bearing sleeve (11) is a shell barrel part consisting of an upper cover plate ring (601), a bearing sleeve (602) and a concave bottom cover ring (603), the outer diameter of the upper cover plate ring (601) is larger than the diameter of a bearing sleeve insertion hole on the dome cover (7) and is matched with the bearing sleeve insertion hole, a through shaft hole is arranged at the central part of the upper cover plate ring (601), a plurality of uniformly distributed bearing sleeve fixing screw holes are arranged on the upper edge of the upper cover plate ring (601) along the circumference, a plurality of uniformly distributed bearing sleeve connecting nail holes are arranged between the through shaft hole and the bearing sleeve fixing screw holes, the inner diameter of the through shaft hole is matched with the outer diameter of the material passing barrel shaft (10), the upper end surface and the lower end surface of the bearing sleeve (602) are respectively provided with threaded counter bores, the upper cover plate ring (601) is fixed on the upper end surface of the bearing sleeve (602) through the bearing sleeve connecting nail holes by screws, a central through hole matched with the outer diameter of the material passing barrel shaft (10) is arranged on the central axis of the concave bottom cover ring (603), a connecting hole with the inner diameter matched with the threaded counter bore of the bearing sleeve (602) is arranged between the central through hole and the edge of the concave bottom cover ring (603), the concave bottom cover ring (603) is fixed on the lower end surface of the bearing sleeve (602) through a connecting threaded hole on the bearing sleeve (602) by a screw, and a bearing (604) is arranged in an annular gap between the concave bottom cover ring (603) and the circular top plate (27).

7. The vacuum mixing and pipe extruding all-in-one machine as claimed in claim 1, wherein: the upper end part of the feed cylinder shaft (10) is provided with a self-closing charging bell valve (701).

8. The vacuum mixing and pipe extruding all-in-one machine as claimed in claim 1, wherein: the guide plate lifting mechanism (41) is composed of four sets of pulley assemblies, each pulley assembly is composed of a counterweight part (801) with an upper top end fixed with a movable pulley, a guide fixed pulley (802) and a steel wire rope, one end of the steel wire rope is fixed on a plate disc of the guide pipe guide plate (40), and the steel wire rope is fixed on a square base plate (6) through the guide fixed pulley and the movable pulley.

9. The vacuum mixing and pipe extruding all-in-one machine as claimed in claim 1, wherein: the scraping plate frame (24) is an isosceles triangle frame, the vertex angle of the isosceles triangle frame points to the inner cylinder surface of the cylinder box (5) and is matched with the cloth strip holes (304) on the edge of the cloth circular plate (302), a reinforcing rib plate (901) is arranged between the scraping plate frame (24) and the rotating frame cylinder (14), and the distance between the scraping plate frame (24) and the cloth circular plate (302) is not more than 5 mm.

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