CN217834081U - Forming equipment of refractory structure prefabricated member - Google Patents

Abstract

The utility model discloses a former of resistant material structure prefab, including being used for carrying out the compounding mechanism that mixes to the raw materials, compounding mechanism lower extreme is provided with and is used for carrying out the drop feed mechanism that emits to the mixture, the drop feed mechanism downside is provided with and is used for removing the transfer mechanism that supports to forming die to and sets up the mechanism of strickleing off that is used for striking off the moulded die upper surface clout of compounding mechanism one side, strickle off the mechanism drop feed mechanism with compounding mechanism connects. The utility model discloses a compounding mechanism, drop feed mechanism, transfer mechanism's setting is convenient for make the shaping material carry out the automation in to forming die and add and flow production, then clears away the clout of forming die upper surface through the setting of strickleing the mechanism, has improved the degree of automation of production, has reduced artificial intensity of labour.

Description

Forming equipment of resistant material structure prefab

Technical Field

The utility model relates to a refractory material processing field especially relates to a former of resistant material structure prefab.

Background

The refractory material is widely applied to various fields of national economy such as steel, nonferrous metals, glass, cement, ceramics, petrifaction, machinery, boilers, light industry, electric power, military industry and the like, is an essential basic material for ensuring the production operation and the technical development of the industries, and plays an irreplaceable important role in the development of high-temperature industrial production. Need make assorted prefab to the refractory material raw materials before the refractory material uses, but at present in the manufacture process, mainly collect the back through artifical refractory material after with the mixing and fill in forming die in proper order, so caused the shaping inefficiency, workman's operation volume is big, has influenced the progress of production.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a former of resistant material structure prefab just in order to solve above-mentioned problem.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

the molding equipment for the prefabricated member with the refractory structure comprises a mixing mechanism for mixing raw materials, wherein a discharging mechanism for discharging the mixed materials is arranged at the lower end of the mixing mechanism, a transfer mechanism for movably supporting a molding die and a strickling mechanism which is arranged on one side of the mixing mechanism and used for scraping residual materials on the upper surface of the molding die are arranged on the lower side of the discharging mechanism, and the strickling mechanism and the discharging mechanism are connected with the mixing mechanism;

the mixing mechanism comprises a frame body, a mixing box is arranged at the upper end of the frame body, a feeding hopper is arranged at the upper end of the mixing box, a mixing assembly for mixing and stirring added raw materials is arranged at the inner side of the mixing box, and a power assembly for providing rotary power for the mixing assembly is arranged at the rear end of the mixing assembly; the discharging mechanism comprises a vertical plate arranged at the lower end of the mixing box, a first electric telescopic rod is arranged on the vertical plate, a baffle is arranged at one end of the first electric telescopic rod, and sliding rails are arranged at the two sides of the baffle and positioned at the lower end of the mixing box;

the transfer mechanism comprises support rails which are symmetrically arranged on the lower side of the frame body in the front-back direction, support wheels are arranged on the support rails, a bottom plate is arranged at the upper ends of the support wheels, racks are arranged on the inner side walls of the support rails, a first servo motor is arranged at the lower end of the bottom plate, gears meshed with the racks are arranged at the output end of the first servo motor, clamping plates which are symmetrically arranged in the front-back direction are arranged on the upper side of the bottom plate, a second electric telescopic rod is connected onto the clamping plates, sliding columns are arranged on two sides of the second electric telescopic rod, a vibration motor is arranged in the middle of the lower end of the bottom plate, and limiting wheels are arranged on the support wheels on the front side and the back side of the support rails;

the scraping mechanism comprises a mounting plate arranged at one end of the frame body, the mounting plate is symmetrically arranged front and back, a screw rod and a feed rod are arranged between the mounting plates, a scraper is arranged on the screw rod, and one end of the screw rod is connected with a second servo motor.

Further setting: the mixing assembly comprises a main shaft penetrating through the mixing box, a spiral stirring piece is arranged on the inner side of the mixing box on the outer diameter of the main shaft, a connecting rod is arranged between the spiral stirring piece and the main shaft, and two ends of the main shaft are connected with the frame body through bearing seats.

So set up, make the rotation of main shaft drive the connecting rod, the spiral stirring piece rotates and mixes the raw materials.

Further setting: the connecting rod with spiral stirring piece, main shaft welding, spiral stirring piece is provided with two places in turn.

So set up, through the connecting rod with spiral stirring piece the main shaft is connected fixedly, improves holistic structural strength and to the quality of raw materials mixture in the blending box.

Further setting: the power assembly comprises an auxiliary belt pulley arranged at the rear end of the main shaft, a motor is arranged on the lower side of the mixing box, the output end of the motor is connected with a main belt pulley, and a belt is arranged on the outer diameter of the main belt pulley and the auxiliary belt pulley.

The arrangement is that the power of the motor drives the main shaft to rotate through the transmission between the main belt wheel and the auxiliary belt wheel.

Further setting: the power assembly comprises an auxiliary chain wheel arranged at the rear end of the main shaft, a motor is arranged on the lower side of the mixing box, the output end of the motor is connected with a main chain wheel, and a chain is arranged on the outer diameter of the main chain wheel and the auxiliary chain wheel.

The arrangement enables the power of the motor to drive the main shaft to rotate through the transmission between the main chain wheel and the auxiliary chain wheel.

Further setting: the first electric telescopic handle is provided with two positions, the baffle is connected with the slide rail in a sliding mode, the length and the width of the baffle are larger than those of the discharge hole of the mixing box, and the slide rail is welded with the mixing box.

So set up, make first electric telescopic handle's flexible stable promotion the baffle removes, right the discharge gate size of compounding case is controlled.

Further setting: the splint are concave structure, the second electric telescopic handle with bottom plate bolted connection, the traveller with bottom plate sliding connection.

So set up, through the flexible right of second electric telescopic handle splint promote, are convenient for fix forming die.

Further setting: the vibration motor is connected with the bottom plate through bolts, and the limiting wheels are connected with the supporting wheels in a rotating mode.

So set up, be convenient for shock dynamo is in installation on the bottom plate is fixed, makes spacing wheel is to the supporting wheel is in support the removal on the rail is restricted.

Further setting: the mounting panel with the support body welding, the lead screw with the mounting panel rotates to be connected.

So set up, improve the mounting panel with the firm in connection nature of support body is right the lead screw the feed bar supports.

Further setting: the lead screw with scraper blade threaded connection, the feed bar with scraper blade sliding connection, the width of scraper blade is greater than forming die's width.

So set up, make the rotation of lead screw drive the scraper blade move under the support of feed rod, get rid of the clout of moulded die upper surface.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the forming die has the advantages that the forming material can be automatically added into the forming die and can be subjected to flow production conveniently by arranging the material mixing mechanism, the material discharging mechanism and the transfer mechanism, and then the excess material on the upper surface of the forming die is removed by arranging the strickle mechanism, so that the production automation degree is improved, and the labor intensity of workers is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a first structural schematic diagram of an embodiment 1 of the forming apparatus for a refractory structural preform according to the present invention;

fig. 2 is a second schematic structural diagram of embodiment 1 of the forming apparatus for a refractory structure prefabricated member according to the present invention;

fig. 3 is a schematic front view of a structure of a refractory structure preform according to embodiment 1 of the present invention;

fig. 4 is a partial structural schematic view of a transfer mechanism of a forming device for a refractory structure prefabricated member according to the present invention;

fig. 5 is a schematic partial structural view of a scraping mechanism of a molding device for a prefabricated member with a refractory structure according to the present invention;

fig. 6 is a schematic partial structural view of a material discharge mechanism of a forming device for a refractory structure prefabricated member according to the present invention;

fig. 7 is a schematic structural diagram of a mixing assembly of a forming device for a refractory structure prefabricated member according to the present invention;

fig. 8 is a schematic structural diagram of embodiment 2 of the forming apparatus for a refractory structure preform according to the present invention.

The reference numerals are illustrated below:

1. a material mixing mechanism; 11. a frame body; 12. a mixing box; 13. a hopper; 14. a mixing assembly; 141. a main shaft; 142. a spiral stirring sheet; 143. a connecting rod; 15. a power assembly; 151. a secondary pulley; 152. a primary pulley; 153. an electric motor; 154. a secondary sprocket; 155. a main sprocket; 2. a discharging mechanism; 21. a vertical plate; 22. a first electric telescopic rod; 23. a baffle plate; 24. a slide rail; 3. a transfer mechanism; 31. a support rail; 32. a support wheel; 33. a base plate; 34. a rack; 35. a first servo motor; 36. a gear; 37. a second electric telescopic rod; 38. a splint; 39. a traveler; 310. a vibration motor; 311. a limiting wheel; 4. a strickling mechanism; 41. mounting a plate; 42. a lead screw; 43. a polished rod; 44. a squeegee; 45. a second servo motor.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The present invention will be further explained with reference to the accompanying drawings:

example 1

As shown in fig. 1-7, a molding device for a prefabricated member with a refractory structure comprises a mixing mechanism 1 for mixing raw materials, a discharging mechanism 2 for discharging a mixture is arranged at the lower end of the mixing mechanism 1, a transfer mechanism 3 for movably supporting a molding die is arranged at the lower side of the discharging mechanism 2, a strickling mechanism 4 is arranged at one side of the mixing mechanism 1 for strickling off excess materials on the upper surface of the molding die, and the strickling mechanism 4 and the discharging mechanism 2 are connected with the mixing mechanism 1;

the mixing mechanism 1 comprises a frame body 11, a mixing box 12 is arranged at the upper end of the frame body 11, a feeding hopper 13 is arranged at the upper end of the mixing box 12, so that raw materials can be added into the mixing box 12 conveniently, a mixing assembly 14 for mixing the added raw materials is arranged at the inner side of the mixing box 12, and a power assembly 15 for providing rotary power for the mixing assembly 14 is arranged at the rear end of the mixing assembly 14; the discharging mechanism 2 comprises a vertical plate 21 arranged at the lower end of the mixing box 12, a first electric telescopic rod 22 is arranged on the vertical plate 21, a baffle 23 is arranged at one end of the first electric telescopic rod 22, and sliding rails 24 are arranged at the two sides of the baffle 23 and positioned at the lower end of the mixing box 12 to support the baffle 23;

the transfer mechanism 3 comprises support rails 31 which are symmetrically arranged at the lower side of the frame body 11 in the front-back direction, support wheels 32 are arranged on the support rails 31, bottom plates 33 are arranged at the upper ends of the support wheels 32, racks 34 are arranged on the inner side walls of the support rails 31, first servo motors 35 are arranged at the lower ends of the bottom plates 33 and provide moving power for the bottom plates 33, gears 36 meshed with the racks 34 are arranged at the output ends of the first servo motors 35, clamping plates 38 which are symmetrically arranged in the front-back direction are arranged at the upper sides of the bottom plates 33, second electric telescopic rods 37 are connected onto the clamping plates 38, sliding columns 39 are arranged on two sides of the second electric telescopic rods 37, a vibration motor 310 is arranged in the middle position of the lower ends of the bottom plates 33, and limiting wheels 311 are arranged on the support wheels 32 and on the front side and the back side of the support rails 31;

the strickle mechanism 4 is including setting up the mounting panel 41 in support body 11 one end, and the mounting panel 41 is symmetrical setting from beginning to end, is provided with lead screw 42, feed rod 43 between the mounting panel 41, is provided with scraper blade 44 on feed rod 43, the lead screw 42, and lead screw 42 one end is connected with second servo motor 45.

Preferably: the mixing assembly 14 comprises a main shaft 141 penetrating through the mixing box 12, a spiral stirring blade 142 is arranged on the outer diameter of the main shaft 141 and positioned on the inner side of the mixing box 12, a connecting rod 143 is arranged between the spiral stirring blade 142 and the main shaft 141, and two ends of the main shaft 141 are connected with the frame body 11 through bearing seats, so that the rotation of the main shaft 141 drives the connecting rod 143 and the spiral stirring blade 142 to rotate to mix the raw materials; the connecting rod 143 is welded with the spiral stirring piece 142 and the main shaft 141, the spiral stirring piece 142 is alternately arranged at two positions, and the connecting rod 143 is fixedly connected with the spiral stirring piece 142 and the main shaft 141, so that the overall structural strength and the quality of mixing the raw materials in the mixing box 12 are improved; the power assembly 15 comprises an auxiliary pulley 151 arranged at the rear end of the main shaft 141, a motor 153 is arranged at the lower side of the mixing box 12, the output end of the motor 153 is connected with a main pulley 152, and a belt is arranged on the outer diameters of the main pulley 152 and the auxiliary pulley 151, so that the power of the motor 153 drives the main shaft 141 to rotate through the transmission between the main pulley 152 and the auxiliary pulley 151; the first electric telescopic rod 22 is provided with two positions, the baffle 23 is connected with the slide rail 24 in a sliding manner, the length and the width of the baffle 23 are larger than those of the discharge hole of the mixing box 12, and the slide rail 24 is welded with the mixing box 12, so that the baffle 23 is pushed to move stably by the first electric telescopic rod 22 in a telescopic manner, and the size of the discharge hole of the mixing box 12 is controlled; the clamping plate 38 is of a concave structure, the second electric telescopic rod 37 is in bolted connection with the bottom plate 33, the sliding column 39 is in sliding connection with the bottom plate 33, and the clamping plate 38 is pushed by the extension and contraction of the second electric telescopic rod 37, so that the forming die is conveniently fixed; the vibration motor 310 is connected with the bottom plate 33 through bolts, and the limiting wheel 311 is rotatably connected with the supporting wheel 32, so that the vibration motor 310 is conveniently installed and fixed on the bottom plate 33, and the limiting wheel 311 limits the movement of the supporting wheel 32 on the supporting rail 31; the mounting plate 41 is welded with the frame body 11, and the screw rod 42 is rotatably connected with the mounting plate 41, so that the connection firmness of the mounting plate 41 and the frame body 11 is improved, and the screw rod 42 and the light bar 43 are supported; the screw rod 42 is in threaded connection with the scraper 44, the lever 43 is in sliding connection with the scraper 44, and the width of the scraper 44 is larger than that of the forming die, so that the rotation of the screw rod 42 drives the scraper 44 to move under the support of the lever 43, and excess material on the upper surface of the forming die is removed.

Example 2

As shown in fig. 4-8, a forming apparatus for a prefabricated member of a refractory structure comprises a mixing mechanism 1 for mixing raw materials, a discharging mechanism 2 for discharging a mixture is arranged at the lower end of the mixing mechanism 1, a transfer mechanism 3 for movably supporting a forming mold is arranged at the lower side of the discharging mechanism 2, and a strickle mechanism 4 arranged at one side of the mixing mechanism 1 for strickleing off excess materials on the upper surface of the forming mold, wherein the strickle mechanism 4 and the discharging mechanism 2 are connected with the mixing mechanism 1;

the mixing mechanism 1 comprises a frame body 11, a mixing box 12 is arranged at the upper end of the frame body 11, a feeding hopper 13 is arranged at the upper end of the mixing box 12, so that raw materials can be added into the mixing box 12 conveniently, a mixing assembly 14 for mixing the added raw materials is arranged at the inner side of the mixing box 12, and a power assembly 15 for providing rotary power for the mixing assembly 14 is arranged at the rear end of the mixing assembly 14; the discharging mechanism 2 comprises a vertical plate 21 arranged at the lower end of the mixing box 12, a first electric telescopic rod 22 is arranged on the vertical plate 21, a baffle 23 is arranged at one end of the first electric telescopic rod 22, and sliding rails 24 are arranged at the two sides of the baffle 23 and positioned at the lower end of the mixing box 12 to support the baffle 23;

the transfer mechanism 3 comprises support rails 31 which are symmetrically arranged at the lower side of the frame body 11 in the front-back direction, support wheels 32 are arranged on the support rails 31, bottom plates 33 are arranged at the upper ends of the support wheels 32, racks 34 are arranged on the inner side walls of the support rails 31, first servo motors 35 are arranged at the lower ends of the bottom plates 33 and provide moving power for the bottom plates 33, gears 36 meshed with the racks 34 are arranged at the output ends of the first servo motors 35, clamping plates 38 which are symmetrically arranged in the front-back direction are arranged at the upper sides of the bottom plates 33, second electric telescopic rods 37 are connected onto the clamping plates 38, sliding columns 39 are arranged on two sides of the second electric telescopic rods 37, a vibration motor 310 is arranged in the middle position of the lower ends of the bottom plates 33, and limiting wheels 311 are arranged on the support wheels 32 and on the front side and the back side of the support rails 31;

the strickle mechanism 4 is including setting up the mounting panel 41 in support body 11 one end, and the mounting panel 41 is symmetrical setting from beginning to end, is provided with lead screw 42, feed rod 43 between the mounting panel 41, is provided with scraper blade 44 on feed rod 43, the lead screw 42, and lead screw 42 one end is connected with second servo motor 45.

Preferably, the following components: the mixing assembly 14 comprises a main shaft 141 penetrating through the mixing box 12, a spiral stirring blade 142 is arranged on the outer diameter of the main shaft 141 and positioned on the inner side of the mixing box 12, a connecting rod 143 is arranged between the spiral stirring blade 142 and the main shaft 141, and two ends of the main shaft 141 are connected with the frame body 11 through bearing seats, so that the rotation of the main shaft 141 drives the connecting rod 143 and the spiral stirring blade 142 to rotate to mix the raw materials; the connecting rod 143 is welded with the spiral stirring piece 142 and the main shaft 141, the spiral stirring piece 142 is alternately arranged at two positions, and the connecting rod 143 is fixedly connected with the spiral stirring piece 142 and the main shaft 141, so that the overall structural strength and the quality of mixing the raw materials in the mixing box 12 are improved; the power assembly 15 comprises an auxiliary chain wheel 154 arranged at the rear end of the main shaft 141, a motor 153 is arranged at the lower side of the mixing box 12, the output end of the motor 153 is connected with a main chain wheel 155, and chains are arranged on the outer diameters of the main chain wheel 155 and the auxiliary chain wheel 154, so that the power of the motor 153 drives the main shaft 141 to rotate through the transmission between the main chain wheel 155 and the auxiliary chain wheel 154; the first electric telescopic rod 22 is provided with two positions, the baffle 23 is connected with the slide rail 24 in a sliding manner, the length and the width of the baffle 23 are larger than those of the discharge hole of the mixing box 12, and the slide rail 24 is welded with the mixing box 12, so that the baffle 23 is pushed to move stably by the first electric telescopic rod 22 in a telescopic manner, and the size of the discharge hole of the mixing box 12 is controlled; the clamping plate 38 is of a concave structure, the second electric telescopic rod 37 is in bolted connection with the bottom plate 33, the sliding column 39 is in sliding connection with the bottom plate 33, and the clamping plate 38 is pushed by the extension and contraction of the second electric telescopic rod 37, so that the forming die is conveniently fixed; the vibration motor 310 is connected with the bottom plate 33 through bolts, and the limiting wheel 311 is rotatably connected with the supporting wheel 32, so that the vibration motor 310 is conveniently installed and fixed on the bottom plate 33, and the limiting wheel 311 limits the movement of the supporting wheel 32 on the supporting rail 31; the mounting plate 41 is welded with the frame body 11, and the screw rod 42 is rotatably connected with the mounting plate 41, so that the connection firmness of the mounting plate 41 and the frame body 11 is improved, and the screw rod 42 and the light bar 43 are supported; the screw rod 42 is in threaded connection with the scraper 44, the lever 43 is in sliding connection with the scraper 44, and the width of the scraper 44 is larger than that of the forming die, so that the rotation of the screw rod 42 drives the scraper 44 to move under the support of the lever 43, and excess material on the upper surface of the forming die is removed.

The utility model discloses theory of operation and use flow: the raw materials are added into a mixing box 12 through a charging hopper 13 of a mixing mechanism 1, power generated by a motor 153 is transmitted to a main shaft 141 of a mixing assembly 14 to rotate, so that a spiral stirring sheet 142 and a connecting rod 143 mix and stir the raw materials, then a forming die is placed on a bottom plate 33 of a transfer mechanism 3, a clamping plate 38 is pushed by a second electric telescopic rod 37 to clamp the forming die, a gear 36 is driven by a first servo motor 35 to be meshed with a rack 34 to rotate, the bottom plate 33 integrally moves to the lower side of the mixing box 12, a baffle plate 23 moves in a sliding rail 24 through contraction of a first electric telescopic rod 22 of a discharging mechanism 2, the mixed materials are placed into the forming die, meanwhile, a vibration motor 310 works to vibrate and sink the raw materials in the forming die, then the baffle plate 23 is closed to a discharging port, the bottom plate 33 continuously moves to a leveling mechanism 4, a lead screw 42 is driven by the second servo motor 45 to rotate, and a scraper 44 on the lead screw 42 and a polishing rod 43 scrapes residual materials on the upper surface of the forming die.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and the above embodiments and descriptions are only illustrative of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the present invention, and all such changes and modifications fall within the scope of the present invention as claimed.

Claims (10)

1. The utility model provides a former of resistant material structure prefab which characterized in that: the material mixing device comprises a material mixing mechanism (1) for mixing raw materials, wherein a material discharging mechanism (2) for discharging the mixed materials is arranged at the lower end of the material mixing mechanism (1), a transfer mechanism (3) for movably supporting a forming die is arranged at the lower side of the material discharging mechanism (2), and a strickle mechanism (4) which is arranged at one side of the material mixing mechanism (1) and is used for strickleing off excess materials on the upper surface of the forming die, and the strickle mechanism (4) and the material discharging mechanism (2) are connected with the material mixing mechanism (1);

the mixing mechanism (1) comprises a frame body (11), a mixing box (12) is arranged at the upper end of the frame body (11), a feeding hopper (13) is arranged at the upper end of the mixing box (12), a mixing assembly (14) for mixing and stirring added raw materials is arranged at the inner side of the mixing box (12), and a power assembly (15) for providing rotary power for the mixing assembly (14) is arranged at the rear end of the mixing assembly (14); the discharging mechanism (2) comprises a vertical plate (21) arranged at the lower end of the mixing box (12), a first electric telescopic rod (22) is arranged on the vertical plate (21), a baffle (23) is arranged at one end of the first electric telescopic rod (22), and sliding rails (24) are arranged on two sides of the baffle (23) and are positioned at the lower end of the mixing box (12);

the transfer mechanism (3) comprises support rails (31) which are symmetrically arranged on the lower side of the frame body (11) from front to back, support wheels (32) are arranged on the support rails (31), a bottom plate (33) is arranged at the upper ends of the support wheels (32), racks (34) are arranged on the inner side walls of the support rails (31), a first servo motor (35) is installed at the lower end of the bottom plate (33), gears (36) meshed with the racks (34) are arranged at the output end of the first servo motor (35), clamping plates (38) which are symmetrically arranged from front to back are arranged on the upper side of the bottom plate (33), a second electric telescopic rod (37) is connected onto the clamping plates (38), sliding columns (39) are arranged on two sides of the second electric telescopic rod (37), a vibration motor (310) is arranged in the middle position of the lower end of the bottom plate (33), and limiting wheels (311) are arranged on the front side and the back side of the support rails (31) on the support wheels (32);

strickle mechanism (4) including setting up mounting panel (41) of support body (11) one end, mounting panel (41) front and back symmetry sets up, be provided with lead screw (42), feed bar (43) between mounting panel (41), feed bar (43) be provided with scraper blade (44) on lead screw (42), lead screw (42) one end is connected with second servo motor (45).

2. The apparatus of claim 1, wherein: the mixing assembly (14) comprises a main shaft (141) penetrating through the mixing box (12), a spiral stirring sheet (142) is arranged on the outer diameter of the main shaft (141) and is positioned on the inner side of the mixing box (12), a connecting rod (143) is arranged between the spiral stirring sheet (142) and the main shaft (141), and two ends of the main shaft (141) are connected with the frame body (11) through bearing seats.

3. The apparatus of claim 2, wherein: the connecting rod (143) is welded with the spiral stirring sheet (142) and the main shaft (141), and the spiral stirring sheet (142) is alternately provided with two positions.

4. The apparatus of claim 2, wherein: the power assembly (15) comprises a secondary belt wheel (151) arranged at the rear end of the main shaft (141), an electric motor (153) is arranged on the lower side of the mixing box (12), a main belt wheel (152) is connected to the output end of the electric motor (153), and a belt is arranged on the outer diameter of the main belt wheel (152) and the secondary belt wheel (151).

5. The apparatus of claim 2, wherein: the power assembly (15) comprises an auxiliary chain wheel (154) arranged at the rear end of the main shaft (141), a motor (153) is arranged on the lower side of the mixing box (12), a main chain wheel (155) is connected to the output end of the motor (153), and a chain is arranged on the outer diameter of the main chain wheel (155) and the outer diameter of the auxiliary chain wheel (154).

6. The apparatus of claim 1, wherein: the electric telescopic handle is characterized in that the first electric telescopic handle (22) is provided with two positions, the baffle (23) is in sliding connection with the sliding rail (24), the length and the width of the baffle (23) are larger than those of a discharge hole of the mixing box (12), and the sliding rail (24) is welded with the mixing box (12).

7. The apparatus of claim 1, wherein: the clamping plate (38) is of a concave structure, the second electric telescopic rod (37) is connected with the bottom plate (33) through bolts, and the sliding column (39) is connected with the bottom plate (33) in a sliding mode.

8. The apparatus of claim 1, wherein: the vibration motor (310) is connected with the bottom plate (33) through a bolt, and the limiting wheel (311) is rotatably connected with the supporting wheel (32).

9. The apparatus of claim 1, wherein: mounting panel (41) with support body (11) welding, lead screw (42) with mounting panel (41) rotate to be connected.

10. The apparatus of claim 1, wherein: the screw rod (42) is in threaded connection with the scraper (44), the lever (43) is in sliding connection with the scraper (44), and the width of the scraper (44) is larger than that of the forming die.

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