CN115229959B - Casting equipment is used in production of assembled building material - Google Patents

Abstract

The invention discloses casting equipment for producing assembled building materials, which belongs to the field of casting equipment and is used for solving the problem that the casting equipment cannot distribute vibration to materials when in use.

Description

Casting equipment is used in production of assembled building material

Technical Field

The invention belongs to the field of building material production equipment, relates to casting technology, and in particular relates to casting equipment for producing an assembled building material.

Background

The assembled building is a building which is formed by transferring a large amount of field operation work in a traditional building mode to a factory, processing and manufacturing building components and accessories (such as floors, wallboards, stairs, balconies and the like) in the factory, transporting to a building construction site, and assembling and installing in the site through a reliable connection mode, wherein the assembled building mainly comprises a prefabricated assembled concrete structure, a steel structure, a modern wood structure building and the like, and is a representative of a modern industrial production mode due to the adoption of standardized design, industrial production, assembled construction, information management and intelligent application, and pouring equipment is needed to be used for pouring when the assembled building materials are poured.

In the prior art, when the pouring device is used, pouring after mixing building materials is directly carried out through pouring equipment, after pouring, a vibrator is generally utilized to continuously vibrate, gaps are not reserved between the poured materials, when the pouring device is used, a layer of pouring materials are required to be paved and then are continuously replaced, then a large amount of time is wasted in the replacing process, the pouring materials cannot be well distributed in the pouring process, and the pouring device is commonly stacked and separated through manpower, so that the pouring device for producing the assembled building materials is provided.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide casting equipment for producing an assembled building material.

The technical problems to be solved by the invention are as follows:

(1) In the prior art, the casting machine needs to be matched with a vibrating machine in the casting process, and a great amount of time is wasted in the casting process, so that the casting efficiency is reduced;

(2) In the prior art, materials are piled up during pouring, so that the materials cannot be distributed;

(3) In the prior art, when pouring is performed, the pouring thickness of each position cannot be accurately measured, so that the problem that errors occur in the pouring thickness is solved.

The aim of the invention can be achieved by the following technical scheme:

the utility model provides an assembled building material production is with pouring equipment, includes pours support body, guide frame and vibrations post, it is provided with the feeding hopper that is used for accomplishing the back building material leading-in with mixing to pour support body top, it is provided with the guide frame to pour support body one side, guide frame bottom is connected with the passage, it is provided with the pushing piece to pour support body one side of keeping away from the guide frame, it is provided with the moving piece that can follow its removal to pour support body bottom, the moving piece bottom is connected with the regulation pole, install the vibrations post that is used for its shrink on the regulation pole, all be provided with the scale line on vibrations post and the regulation pole, the vibrations post is provided with the vibrations board, it is connected with the regulating part that is used for adjusting its height and angle to pour support body bottom one end, vibrations board data connection has control system.

Further, the feeding hopper is of a funnel-shaped structure, and the feeding hopper is detachably connected with the pouring frame body.

Further, the pushing piece comprises an electric telescopic rod and a movable pushing plate, the electric telescopic rod is installed at one end, far away from the guide frame, of the pouring frame body, the electric telescopic rod is connected with the movable pushing plate installed inside the pouring frame body, the movable pushing plate is far away from the connecting end and is arranged into a conical structure, two ends of the conical surface are connected with pushing soft plates, the pushing soft plates and the movable pushing plate form square pushing plates, a guide cavity is arranged inside the pouring frame body, one end, far away from the electric telescopic rod, of the guide cavity is arranged into a conical surface, the movable pushing plate is attached to the conical surface, the inner diameter of the conical surface in the direction from the guide cavity to the conical surface is gradually reduced, a discharging hole communicated with the conical surface is formed in the pouring frame body, and the discharging hole is communicated with the guide frame.

Further, be provided with the lifter that is used for driving the guide chamber and reciprocate between regulation pole and the guide chamber, the lifter includes rotary motor, thread disc and lift slip table, the inside communicating lift groove in its top that is provided with of vibrations post, the inside helicitic texture that sets up of lift groove, the inside lift slip table that can follow its inside gliding from top to bottom that is provided with of lift groove, lift slip table internally mounted has rotary motor, install the thread disc with lift groove threaded connection on the rotary motor.

Further, the inside slip spacing groove of seting up of lift groove, be fixed with the slip stopper on the lift slip table, slip stopper and slip spacing groove sliding connection, the lift slip table passes through the slip stopper along slip spacing groove slides from top to bottom.

Further, a pressure sensor is installed at the bottom of the vibration column, the pressure sensor is in data connection with a control system, and the rotary motor is electrically connected with the control system.

Further, the inside of the material guiding frame is in a funnel shape, the inner diameter of the material guiding frame is gradually reduced from top to bottom, a booster pump for increasing the air pressure in the material guiding frame is arranged on the material guiding frame, and the booster pump is in data connection with a control system.

Further, the regulating part comprises an angle regulating column, a stabilizing table and a lifting column, wherein the lifting column capable of being adjusted up and down is arranged inside the stabilizing table, the lifting column is provided with the angle regulating column capable of being rotated along the lifting column, the top of the angle regulating column is fixedly connected with a pouring frame body, one end, close to the lifting column, of the angle regulating column is provided with a rotating disc fixed on the surface of the rotating disc, and a fixing bolt is arranged on the rotating disc in a threaded manner.

Further, the stabilizing table internally mounted has drive motor and receive and release groove, receive and release groove that is used for lifting column reciprocates is seted up at the stabilizing table top, receive and release groove bottom is provided with the drive motor of installing on the stabilizing table, install the threaded rod on the drive motor, the screw thread groove has been seted up to the lifting column inside, pass through threaded connection between lifting column and the threaded rod.

Further, the bottom of the stabilizing table is of a smooth structure, one end of a smooth surface of the bottom of the stabilizing table is of an arc shape, and a pulling handle is fixed on one side surface, close to the arc surface, of the stabilizing table.

Further, the stabilizer both ends are connected with the gusset plate, the gusset plate is detachable construction, is fixed with the fixture block on the gusset plate, the draw-in groove has been seted up on the stabilizer, the gusset plate passes through the fixture block joint inside the draw-in groove.

Further, the moving part comprises a sliding frame, a moving motor, a moving gear and a sliding guide rail, the bottom of the pouring frame body is fixedly provided with the sliding guide rail, moving grooves for sliding connection of the sliding frame are formed in two ends of the sliding guide rail, the sliding frame is in sliding connection with the sliding guide rail through the moving grooves, a moving tooth slot is formed in the bottom of the sliding guide rail, the moving motor is installed in the sliding frame, the moving gear meshed with the moving tooth slot is installed on the moving motor, a position sensor is installed on the sliding frame, and the moving motor and the position sensor are connected with a control system;

the pouring frame is characterized in that a material guiding scraper blade positioned below the feeding hopper is fixed on the inner wall of the pouring frame body, the material guiding scraper blade is of a right-angled triangle structure, one right-angle edge of the material guiding scraper blade is fixedly connected with the inner wall of the pouring frame body, the other right-angle edge of the material guiding scraper blade is attached to the top of the movable material pushing plate, and the inclined edge of the material guiding scraper blade is used for guiding materials into the material guiding cavity.

Further, promote soft board one end and the inside swing joint of activity pushing away the flitch, the activity is pushed away and is offered on the flitch and is used for receiving the play board groove of putting the soft board, put board groove internally mounted and be used for ejecting the release spring that the activity pushed away the flitch, promote the soft board outer wall and put the inboard wall and laminate mutually, promote the soft board bottom and laminate mutually with the guide chamber bottom.

Further, the guide pipe connecting end is connected with the bottom of the guide frame through a threaded connector, both ends of the threaded connector are provided with threaded structures, the threaded connector is connected with a cleaning pipe, the guide pipe is made of flexible materials, and an anti-sticking coating is coated inside the guide pipe.

Further, the control system comprises a central controller, a signal receiver, a control panel and an alarm unit, wherein the signal receiver is connected with a pressure sensor and a position sensor, the central controller is connected with a transmission motor, a rotary motor and a vibration plate, the signal receiver receives data information of the pressure sensor and the position sensor and conveys the data information to the central controller, and the central controller controls the power-on work of the transmission motor, the rotary motor and the vibration plate according to the data information.

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

1. when the pouring frame body is used for pouring the mixed building materials through the material guide pipe, the poured materials can be vibrated through the vibration column, so that gaps among the mixed materials are reduced, and the stability of the materials after pouring is improved;

2. according to the invention, the pouring position can be conveniently adjusted and changed through the material guide pipe when pouring is carried out, and after the poured material is led out along the material guide pipe, the material can be reasonably distributed by vibrating the vibrating column, so that the labor force is reduced.

3. When pouring is performed, the depth can be detected through the scale marks on the vibration column, the pouring height can be observed in real time, the pouring height of each position can be accurately fed back in real time, and the pouring effect is improved.

Drawings

The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

FIG. 1 is a schematic diagram of a casting apparatus for producing fabricated building materials according to the present invention;

FIG. 2 is a top cross-sectional view of a casting frame in casting equipment for producing fabricated building materials according to the present invention;

FIG. 3 is a front cross-sectional view of a casting frame in casting equipment for producing fabricated building materials according to the present invention;

FIG. 4 is a front cross-sectional view of a shock post in a casting apparatus for use in the production of fabricated building materials in accordance with the present invention;

fig. 5 is a left side cross-sectional view of a stabilizer table in a casting apparatus for producing an assembled building material according to the present invention.

In the figure: 1. pouring a frame body; 2. a charging hopper; 3. a material guiding frame; 4. a transmission adjusting frame; 5. an adjusting rod; 6. a material guiding pipe; 7. a vibration column; 8. scale lines; 9. a rotating disc; 10. a fixing bolt; 11. lifting columns; 12. a reinforcing plate; 13. a stabilization table; 14. an angle adjusting column; 15. an electric telescopic rod; 16. pushing the soft board; 17. a material guiding cavity; 18. a discharge hole; 19. a movable pushing plate; 20. a material guiding scraper; 21. a rotary motor; 22. a threaded disc; 23. a vibration plate; 24. lifting the sliding table; 25. a carriage; 26. a moving motor; 27. a moving gear; 28. a sliding guide rail; 29. a threaded rod; 30. a drive motor; 31. a winding and unwinding groove; 32. and a booster pump.

Detailed Description

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-5, a pouring device for producing an assembled building material comprises a pouring frame body 1, a material guiding frame 3 and a vibration column 7, wherein a feeding hopper 2 for guiding the building material after mixing is arranged at the top of the pouring frame body 1, the material guiding frame 3 is arranged on one side surface of the pouring frame body 1, a material guiding pipe 6 is connected to the bottom of the material guiding frame 3, a pushing piece is arranged on one side surface of the pouring frame body 1 far away from the material guiding frame 3, a moving piece capable of moving along the bottom of the pouring frame body 1 is arranged at the bottom of the pouring frame body, an adjusting rod 5 is connected to the bottom of the moving piece, a vibration column 7 for shrinking the adjusting rod 5 is arranged on the adjusting rod 5, scale marks 8 are arranged on the vibration column 7 and the adjusting rod 5, a vibration plate 23 is arranged at one end of the bottom of the pouring frame body 1, a control system is connected to the vibration plate 23 in a data connection mode, the mixed material inside the pouring frame body 1 is pushed out through the pushing piece, and the height of the pouring is measured in real time through the scale marks 8.

The feeding hopper 2 is arranged to be of a funnel-shaped structure, the feeding hopper 2 is detachably connected with the pouring frame body 1, when pouring materials, the building materials after mixing are poured into the feeding hopper 2 through the feeding hopper 2, and the materials enter the pouring frame body 1 along the feeding hopper 2 and are detachably connected, so that the pouring frame body 1 is conveniently assembled and disassembled.

The pushing piece comprises an electric telescopic rod 15 and a movable pushing plate 19, the electric telescopic rod 15 is installed at one end, far away from the guide frame 3, of the pouring frame body 1, the electric telescopic rod 15 is connected with the movable pushing plate 19 installed inside the pouring frame body 1, the movable pushing plate 19 is far away from the connecting end and is arranged into a conical structure, two ends of the conical surface are connected with pushing soft plates 16, the pushing soft plates 16 and the movable pushing plate 19 form a square pushing plate, a guide cavity 17 is arranged inside the pouring frame body 1, one end, far away from the electric telescopic rod 15, of the guide cavity 17 is arranged into a conical surface, the movable pushing plate 19 is attached to the conical surface, the inner diameter of the conical surface is gradually reduced from the guide cavity 17 to the conical surface, a discharge hole 18 communicated with the conical surface is formed on the pouring frame body 1, the discharge hole 18 is communicated with the guide frame 3, the electric telescopic rod 15 is connected with a central controller, the central controller controls the electric telescopic rod 15 to work, the electric telescopic rod 15 work pushes the movable pushing plate 19 to move, building materials inside the guide cavity 17 are pushed, and the building materials are conveniently led out through the guide cavity 17 along the discharge hole 18.

The lifting piece used for driving the material guiding cavity 17 to move up and down is arranged between the adjusting rod 5 and the material guiding cavity 17, the lifting piece comprises a rotary motor 21, a thread disc 22 and a lifting sliding table 24, a lifting groove communicated with the top of the vibration column 7 is formed in the vibration column, a thread structure is arranged in the lifting groove, the lifting sliding table 24 capable of sliding up and down along the inside of the lifting groove is arranged in the lifting groove, the rotary motor 21 is internally installed, the thread disc 22 in threaded connection with the lifting groove is installed on the rotary motor 21, the thread disc 22 is driven to rotate by the rotary motor 21, the thread disc 22 moves up and down in the lifting groove through threaded connection, the lifting sliding table 24 is driven to move up and down in the lifting groove, and the lifting sliding table 24 moves up and down to achieve shrinkage of the adjusting rod 5.

The inside slip spacing groove of having seted up of lift groove is fixed with the slip stopper on the lift slip table 24, slip stopper and slip spacing groove sliding connection, and lift slip table 24 is through the slip stopper along slip spacing groove vertical slip, and lift slip table 24 is along slip spacing groove vertical slip through the slip stopper when the inside removal of lift groove, improves the stability when lift slip table 24 reciprocates.

The pressure sensor is installed to vibrations post 7 bottom, pressure sensor data connection has control system, rotary motor 21 electric connection has control system, pressure sensor detects the pressure information of vibrations post 7 bottom, pressure sensor links to each other with the signal receiver in the control system, rotary motor 21 links to each other with the central controller in the control system, pressure sensor carries pressure information to signal receiver, signal receiver carries data information to central controller, when surpassing the maximum pressure that sets for in the central controller, then prove vibrations post 7 bottom and material pouring face laminating mutually.

The inside hopper-shaped that sets up of guide frame 3 just from top to bottom internal diameter diminishes gradually, installs the booster pump 32 that is used for increasing its inside atmospheric pressure on the guide frame 3, and booster pump 32 data connection has control system, and booster pump 32 produces atmospheric pressure to the inside of guide frame 3, makes the inside atmospheric pressure grow of guide frame 3, and the inside building material of guide frame 3 carries out quick derivation along guide pipe 6.

The regulating part comprises an angle regulating column 14, a stabilizing table 13 and a lifting column 11, wherein the lifting column 11 capable of being adjusted up and down is arranged inside the stabilizing table 13, the angle regulating column 14 capable of being adjusted up and down is arranged on the lifting column 11, the top of the angle regulating column 14 is fixedly connected with a pouring frame body 1, one end, close to the lifting column 11, of the angle regulating column 14 is provided with a rotating disc 9 fixed on the surface of the angle regulating column 14, a fixing bolt 10 is arranged on the rotating disc 9 in a threaded manner, when the angle regulating column 14 is used for adjusting the angle, the angle regulating column 14 drives the rotating disc 9 to rotate along the stabilizing table 13, the angle regulating column 14 is used for adjusting the angle of the pouring frame body 1, after rotating to a proper position, the fixing bolt 10 is attached to the stabilizing table 13, the rotating disc 9 is fixed, and then the angle regulating column 14 is fixed.

The stabilizing table 13 internally mounted has drive motor 30 and receive and release groove 31, receive and release groove 31 that is used for lifting column 11 reciprocates is offered at stabilizing table 13 top, receive and release groove 31 bottom is provided with the drive motor 30 of installing on stabilizing table 13, install threaded rod 29 on the drive motor 30, the inside screw thread groove of having offered of lifting column 11, pass through threaded connection between lifting column 11 and the threaded rod 29, drive motor 30 links to each other with central controller, central controller controls drive motor 30 work, drive motor 30 work drives threaded rod 29 rotation, threaded rod 29 rotates and makes lifting column 11 reciprocate along receive and release groove 31 through threaded connection, lifting column 11 reciprocates and adjusts the height of pouring support body 1 through angle adjusting column 14.

The stabilizing table 13 bottom sets up to smooth structure, stabilizing table 13 bottom smooth surface one end sets up to arcuation, stabilizing table 13 is close to an arcuation side and is fixed with the pulling handle, stabilizing table 13 bottom sets up to smooth structure and one end sets up to arcuation, reduce friction, when carrying out position adjustment, through the application of force to the pulling handle, the pulling handle drives stabilizing table 13 and removes, carry out the position and remove, stabilizing table 13 both ends are connected with gusset plate 12, gusset plate 12 is detachable construction, be fixed with the fixture block on the gusset plate 12, the draw-in groove has been seted up on the stabilizing table 13, gusset plate 12 passes through the fixture block joint inside the draw-in groove, set up the stability when stabilizing table 13 is placed to gusset plate 12, be convenient for carry out the dismouting to gusset plate 12 through the joint.

The moving part comprises a sliding frame 25, a moving motor 26, a moving gear 27 and a sliding guide rail 28, the bottom of the pouring frame body 1 is fixedly provided with the sliding guide rail 28, the two ends of the sliding guide rail 28 are provided with moving grooves for sliding connection of the sliding frame 25, the sliding frame 25 is provided with a transmission adjusting frame 4 for binding and adjusting the binding height of the material guiding pipe 6, the sliding frame 25 is in sliding connection along the sliding guide rail 28 through the moving grooves, the bottom of the sliding guide rail 28 is provided with the moving tooth grooves, the moving motor 26 is internally provided with the moving motor 26, the moving motor 26 is provided with the moving gear 27 meshed with the moving tooth grooves, the sliding frame 25 is provided with a position sensor, the moving motor 26 is connected with a control system, the position sensor is connected with a central controller in the control system, the position sensor is used for transmitting position information to the central controller, the central controller is used for controlling the moving motor 26 to work according to the position information, the moving motor 26 is used for driving the moving gear 27 to move along the moving tooth grooves, and the moving gear 27 moves along the moving tooth grooves 25 when the moving gear moves along the moving tooth grooves, and the sliding frame 25 moves along the sliding guide rail 25 is adjusted along the sliding guide rail 25.

The inner wall of the pouring frame body 1 is fixedly provided with a material guiding scraper blade 20 positioned below the feeding hopper 2, the material guiding scraper blade 20 is of a right-angled triangle structure, one right-angle side of the material guiding scraper blade 20 is fixedly connected with the inner wall of the pouring frame body 1, the other right-angle side of the material guiding scraper blade 20 is attached to the top of the movable material pushing plate 19, the inclined side of the material guiding scraper blade 20 is used for guiding materials into the material guiding cavity 17, one side of the material guiding scraper blade 20 is attached to the movable material pushing plate 19, and the movable material pushing plate 19 scrapes materials at the top of the movable material pushing plate 19 out of the material guiding cavity 17 when retracting.

One end of the pushing soft board 16 is movably connected with the inside of the movable pushing board 19, a board placing groove for collecting and placing the pushing soft board 16 is formed in the movable pushing board 19, a pushing spring for ejecting the movable pushing board 19 is arranged in the board placing groove, the outer wall of the pushing soft board 16 is attached to the inner wall of the board placing groove, the bottom of the pushing soft board 16 is attached to the bottom of the material guiding cavity 17, the movable pushing board 19 and the pushing soft board 16 are simultaneously pushed to move to the conical surface, the pushing soft board 16 is subjected to the pressure of the conical surface, the pushing soft board 16 is compressed into the board placing groove, the connecting end of the material guiding pipe 6 is connected with the bottom of the material guiding frame 3 through a threaded connector, both ends of the threaded connector are provided with a threaded structure, the threaded connector is connected with a cleaning pipe, the material guiding pipe 6 is made of flexible materials, the inside of the material guiding pipe 6 is coated, the replacement of the material guiding pipe 6 is convenient when the material guiding pipe 6 is connected through the threaded connector, and the cleaning pipe is convenient for cleaning the inside the material guiding pipe 6.

The control system comprises a central controller, a signal receiver, a control panel and an alarm unit, wherein the signal receiver is connected with a pressure sensor and a position sensor, the central controller is connected with a transmission motor 30, a rotary motor 21 and a vibration plate 23, the signal receiver receives data information of the pressure sensor and the position sensor and conveys the data information to the central controller, the central controller controls the transmission motor 30, the rotary motor 21 and the vibration plate 23 to be electrified according to the data information, the central controller is connected with the control panel in a data mode, and data parameters of the central controller are changed through the control panel.

The pouring equipment for the production of assembled building materials, during operation, the material after mixing is introduced into the guide cavity 17 inside the pouring frame body 1 through the feeding hopper 2, a central control system controls the electric telescopic rod 15 to work, the electric telescopic rod 15 works to push the movable pushing plate 19 to move, the movable pushing plate 19 moves to push the building material inside the guide cavity 17, the building material enters the inside of the guide frame 3 along the discharging hole 18, the central control system controls the pressure inside the guide frame 3 to become large, the mixed material is discharged along the guide pipe 6, the feeding position is changed through the guide pipe 6, after feeding, the central controller controls the vibration plate 23 to vibrate, the vibration plate 23 drives the vibration column 7 to vibrate, the rotary motor 21 works to drive the thread disc 22 to rotate during vibration, the thread disc 22 moves up and down through threaded connection inside the lifting groove, the thread disc 22 moves up and down to drive the lifting sliding table 24 to move up and down inside the lifting groove, the lifting sliding table 24 moves up and down to realize shrinkage of the pitch rod 5, the vibration column 7 moves, the pouring column 7 moves down, the pressure sensor is attached to the pressure sensor when the pressure sensor is attached to the pressure sensor, the thickness of the pressure sensor is attached to the bottom of the measuring surface of the measuring device, and the thickness sensor is attached to the thickness of the measuring the pressure sensor is attached to the thickness of the pressure sensor, and the thickness sensor is attached to the thickness measured to the thickness sensor is attached to the thickness measured, and the thickness is attached to the thickness and the thickness sensor is attached to and the thickness.

Meanwhile, when the plate-shaped material is poured, the material guide pipe 6 and the vibration column 7 are bound together, the central controller controls the movable motor 26 to work according to the position information, the movable motor 26 works to drive the movable gear 27 to move along the movable tooth slot, the movable gear 27 generates power along the movable rack 25 when the movable gear 27 moves along the movable tooth slot, the movable rack 25 slides on the sliding guide rail 28 along the movable groove to carry out position adjustment, when the movable rack moves along the movable tooth slot, the position sensor is connected with the signal receiver in the control system, the position sensor conveys the position information to the signal receiver, the signal receiver conveys the received data information to the central controller, the central controller controls the moving distance of the movable rack 25 according to the position information, when pouring is completed in a range, after pouring is completed at the current position, the fixed bolt 10 is rotated, the connecting part of the rotary disk 9 is loosened, the pouring rack 1 is forced, the pouring rack 1 is driven by the angle adjusting bolt 14 to rotate along the stabilizing table 13, the angle adjusting bolt 14 is used for adjusting the angle of the pouring rack 1, when the fixed bolt 10 is rotated to a proper position, the fixed bolt 13 is attached to the stabilizing table 13, the movable bolt is pulled to the fixed position, and then the fixed handle is pulled to the fixed position after the fixed handle is pulled to be forced, and the fixed position is pulled to be completely.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (10)

1. Pouring equipment for production of assembled building materials, characterized in that, including pouring support body (1), guide frame (3) and vibrations post (7), pour support body (1) top and be provided with be used for accomplishing the leading-in material bucket (2) of throwing of back building materials with mixing, pour support body (1) a side and be provided with guide frame (3), guide frame (3) bottom is connected with guide pipe (6), it is provided with the pushing piece to keep away from guide frame (3) side to pour support body (1), it is provided with the moving piece that can follow its removal to pour support body (1) bottom, the moving piece bottom is connected with regulation pole (5), install on regulation pole (5) and be used for to its shrink vibrations post (7), all be provided with scale mark (8) on vibrations post (7) and regulation pole (5), vibrations post (7) are provided with vibrations board (23), support body (1) bottom one end is connected with and is used for adjusting the regulating part of its height and angle of pouring.

2. The casting device for producing the assembled building materials according to claim 1, wherein the pushing piece comprises an electric telescopic rod (15) and a movable pushing plate (19), one end, far away from the material guiding frame (3), of the casting frame body (1) is provided with the electric telescopic rod (15), the electric telescopic rod (15) is connected with the movable pushing plate (19) arranged in the casting frame body (1), the movable pushing plate (19) is far away from the connecting end and is provided with a conical structure, two ends of the conical surface are connected with pushing soft plates (16), the pushing soft plates (16) and the movable pushing plate (19) form a square pushing plate, a material guiding cavity (17) is arranged in the casting frame body (1), one end, far away from the electric telescopic rod (15), of the material guiding cavity (17) is provided with a conical surface, the movable pushing plate (19) is attached to the conical surface, the inner diameter of the conical surface in the direction from the material guiding cavity (17) is gradually reduced, a discharging hole (18) communicated with the conical surface is formed in the casting frame body (1), and the discharging hole (18) is communicated with the material guiding frame (3).

3. Pouring equipment for producing assembled building materials according to claim 1, characterized in that a lifting piece for driving the material guiding cavity (17) to move up and down is arranged between the adjusting rod (5) and the material guiding cavity (17), the lifting piece comprises a rotary motor (21), a threaded disc (22) and a lifting sliding table (24), a lifting groove communicated with the top of the vibration column (7) is formed in the vibration column, a threaded structure is arranged in the lifting groove, the lifting sliding table (24) capable of sliding up and down along the lifting groove is arranged in the lifting groove, the rotary motor (21) is arranged in the lifting sliding table (24), and the threaded disc (22) in threaded connection with the lifting groove is arranged on the rotary motor (21).

4. Pouring device for the production of prefabricated building materials according to claim 1, characterized in that the inside of the material guiding frame (3) is provided with a funnel shape, the inner diameter of which gradually decreases from top to bottom, and the material guiding frame (3) is provided with a booster pump (32) for increasing the air pressure inside the material guiding frame.

5. Pouring equipment for producing assembled building materials according to claim 1, characterized in that the adjusting piece comprises an angle adjusting column (14), a stabilizing table (13) and a lifting column (11), wherein the lifting column (11) capable of being adjusted up and down along the stabilizing table (13) is arranged inside the stabilizing table, the angle adjusting column (14) capable of being rotated along the lifting column (11) is arranged on the lifting column (11), the pouring frame body (1) is fixedly connected to the top of the angle adjusting column (14), a rotary disk (9) fixed on the surface of the rotary disk (9) is arranged at one end, close to the lifting column (11), of the angle adjusting column (14), and a fixing bolt (10) is arranged on the rotary disk (9) in a threaded mode.

6. The casting device for producing the assembled building materials according to claim 5, wherein a transmission motor (30) and a retraction groove (31) are arranged in the stabilizing table (13), the retraction groove (31) for the lifting column (11) to move up and down is formed in the top of the stabilizing table (13), the transmission motor (30) arranged on the stabilizing table (13) is arranged at the bottom of the retraction groove (31), a threaded rod (29) is arranged on the transmission motor (30), a threaded groove is formed in the lifting column (11), and the lifting column (11) is connected with the threaded rod (29) through threads.

7. The casting device for producing the assembled building materials according to claim 5, wherein the bottom of the stabilizing table (13) is of a smooth structure, one end of a smooth surface at the bottom of the stabilizing table (13) is of an arc shape, and a pulling handle is fixed on one side surface, close to the arc surface, of the stabilizing table (13).

8. The casting device for producing the assembled building materials according to claim 1, wherein the moving piece comprises a sliding frame (25), a moving motor (26), a moving gear (27) and a sliding guide rail (28), the sliding guide rail (28) is fixed at the bottom of the casting frame body (1), moving grooves for sliding connection of the sliding frame (25) are formed in two ends of the sliding guide rail (28), the sliding frame (25) is in sliding connection with the sliding guide rail (28) through the moving grooves, moving tooth grooves are formed in the bottom of the sliding guide rail (28), the moving motor (26) is installed in the sliding frame (25), the moving gear (27) meshed with the moving tooth grooves is installed on the moving motor (26), and a position sensor is installed on the sliding frame (25);

the pouring frame is characterized in that a material guiding scraper blade (20) positioned below the feeding hopper (2) is fixed on the inner wall of the pouring frame body (1), the material guiding scraper blade (20) is of a right-angled triangle structure, a right-angle edge of the material guiding scraper blade (20) is fixedly connected with the inner wall of the pouring frame body (1), and the other right-angle edge of the material guiding scraper blade (20) is attached to the top of the movable pushing plate (19).

9. The casting device for producing the assembled building materials according to claim 2, wherein one end of the pushing soft board (16) is movably connected with the inside of the movable pushing board (19), a board placing groove for collecting and placing the pushing soft board (16) is formed in the movable pushing board (19), a pushing spring for ejecting the movable pushing board (19) is arranged in the board placing groove, the outer wall of the pushing soft board (16) is attached to the inner wall of the board placing groove, and the bottom of the pushing soft board (16) is attached to the bottom of the material guiding cavity (17).

10. The casting device for producing the fabricated building materials according to claim 1, wherein the connecting end of the material guiding pipe (6) is connected with the bottom of the material guiding frame (3) through a threaded connector, both ends of the threaded connector are provided with threaded structures, the threaded connector is connected with a cleaning pipe, the material guiding pipe (6) is made of flexible materials, and an anti-sticking coating is coated inside the material guiding pipe (6).