CN115534056A - Moulding preparation effect of building concrete wall is pour equipment - Google Patents

Abstract

The invention discloses a pouring device for shaping and manufacturing a building concrete wall, which comprises a material mixing mechanism, wherein the material mixing mechanism comprises a square support for bearing support, supporting vertical rods are vertically arranged on two sides of the top of the square support, a concave limiting support is arranged in the middle of the side wall of each supporting vertical rod, a circular groove is formed in the middle of the side wall of each concave limiting support, a fastening screw is arranged in a groove of the circular groove, a connecting vertical rod is vertically arranged in the middle of the bottom end of the fastening screw, and a screening box is fixedly arranged on the side of the top end of each connecting vertical rod.

Description

Moulding preparation effect of building concrete wall is pour equipment

Technical Field

The invention relates to the technical field of building pouring, in particular to pouring equipment for shaping and manufacturing a building concrete wall.

Background

Concrete, referred to as "concrete" for short: refers to the general name of engineering composite materials formed by cementing aggregate into a whole by cementing materials. The term concrete generally refers to cement as a cementing material and sand and stone as aggregates; the cement concrete, also called as common concrete, is obtained by mixing with water (which may contain additives and admixtures) according to a certain proportion and stirring, and is widely applied to civil engineering.

The invention discloses an assembly type building concrete pouring device, which is also an increasingly mature technology and comprises a discharge pipe, wherein the bottom of the discharge pipe is provided with an air elimination structure, the air elimination structure comprises a connecting cover, an air receiving pipe, a fixing clamp, a knob, a connecting seat, a fixing column, a threaded rod, a supporting plate and a vibrating rod, the knob can control the fixing clamp to horizontally move left and right through the threaded rod when a rotating force is applied to the knob, the fixing column penetrates through one side of the top of the connecting cover, and the vibrating rod is arranged at the bottom of the fixing column.

At present, not only brick walls but also outer walls based on foundation brick walls are required to be coated with a layer of material for mixed coating due to the molding of the building concrete walls, and the raw materials are mixed and processed with higher difficulty according to the mixed processing of the raw materials achieved by the principle of mixed coating, so that the raw materials are inconvenient to uniformly mix and prepare the finished raw materials, and the mixed and prepared process is complicated.

Disclosure of Invention

The invention aims to provide a pouring device for shaping and manufacturing a building concrete wall, which aims to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: the pouring equipment comprises a mixing mechanism, wherein the mixing mechanism comprises a square support for bearing support, two sides of the top of the square support are vertically provided with support vertical rods, the middle part of the side wall of each support vertical rod is provided with a concave limiting support, the middle part of the side wall of each concave limiting support is provided with a circular groove, a fastening screw is arranged in a groove of each circular groove, the middle part of the bottom end of each fastening screw is vertically provided with a connecting vertical rod, the side of the top end of each connecting vertical rod is fixedly provided with a screening box, the middle part of the top end of a box body of each screening box is provided with a feeding groove, the surface of each groove of each feeding groove is covered with a square screening plate, the middle parts of the surfaces of the square screening plates are correspondingly provided with square grooves, the middle parts of the square grooves are transversely provided with folding gaskets, and the surfaces of the folding gaskets are provided with a plurality of latch grooves;

the stirring mechanism is arranged in the middle of the side wall of the box body of the screening box and comprises a coupler arranged in the middle of the side wall of the screening box, a driving motor is transversely arranged at one end of the coupler, the output end of the driving motor is in transmission connection with one end of the coupler, and the output end of the driving motor is in transmission connection with a mixing stirring structure on the inner side of the screening box.

As a preferred scheme of the invention: the utility model discloses a sieve workbin, including sieve workbin, the sealed intercommunication in the box lateral wall middle part of sieve workbin has the ejection of compact fluting, the sealed intercommunication in the grooved trench end position of ejection of compact has the sleeve pipe, sheathed tube top end fixed mounting has conveying sleeve pipe, conveying sleeve pipe's outside wall pipe joint has arc impeller, the sealed intercommunication in one end of arc impeller has the union pump, the sealed intercommunication in pressure boost gas transmission end and the conveying sleeve pipe's end lateral wall of union pump, conveying sleeve pipe's end is provided with the adapter sleeve.

As a preferred scheme of the invention: one end of the connecting sleeve is hermetically communicated with a conical stirring mechanism, the conical stirring mechanism comprises a material mixing and pressurizing pouring tank arranged at the end of the connecting sleeve, the middle part of the top end of a tank body of the material mixing and pressurizing pouring tank is in transmission connection with a connecting rod, the middle part of the top end of the connecting rod is fixedly provided with a material mixing and stirring motor, the output end of the material mixing and stirring motor is in driving arrangement with the material mixing and pressurizing pouring tank through a coupler, the middle part of the bottom end of the connecting rod is fixedly provided with a spray pouring mechanism, the spray pouring mechanism comprises a conical connecting pipe arranged at the middle part of the bottom end of the material mixing and pressurizing pouring tank, one end of the bottom of the conical connecting pipe is transversely provided with a U-shaped connecting pipe, the middle surface of the U-shaped connecting pipe is sleeved with a pressure detection meter, the end of the pressure detection meter is provided with a pouring device mounting plate, the middle part of the side wall of the pouring device is provided with a plurality of hose connectors for pouring;

one end of the hose connector is communicated with a conveying guide pipe in a sealing mode, one end of the conveying guide pipe is communicated with a pouring nozzle in a sealing mode, and a valve used for adjusting the size of the hose connector is sleeved on the surface of the pouring nozzle in a sleeved mode.

As a preferred scheme of the invention: be located four equal fixed mounting in corner of the bottom of square support have the universal wheel, the fixed surface of square support installs the compounding storage tank, the bottom middle part fixed mounting of compounding storage tank has the storage taper pipe, the sealed intercommunication in bottom of storage taper pipe has the access pipeline.

As a preferred scheme of the invention: the back fixed mounting of square support has conveying mechanism, conveying mechanism is including installing the supporting baseplate at square support edge lateral wall, the face both sides limit of supporting baseplate all is equipped with compounding processing cabin, the top avris of compounding processing cabin corresponds installs a plurality of connecting pipes, a plurality of the sealed intercommunication in bottom middle part of connecting pipe has the conveyer pipe, the top of conveyer pipe is covered all around and is equipped with square cover, the top both sides limit of square cover all articulates there is the cross support.

As a preferred scheme of the invention: the avris of cross support is provided with the compounding pipe, the one end fixed mounting of compounding pipe has reinforced base, the sealed intercommunication in top middle part of reinforced base has the processing base that is used for the raw materials compounding, the top middle part drive of processing base is equipped with transversely connects the pipe box, the one end that transversely connects the pipe box is provided with the booster, the one end fixed mounting of booster has drive motor, the drive motor output sets up with the built-in drive structure transmission inside the supporting baseplate.

As a preferable scheme of the invention: the middle part of the back surface of the processing base is fixedly provided with a raw material storage mechanism, the raw material storage mechanism comprises a control cabinet arranged at the side of the screening box, and a trapezoidal box is arranged in the middle of the top end of the control cabinet;

the utility model discloses a storage tank, including trapezoidal case, rack, tilt control platform, operation button, standing groove, storage tank, trapezoidal case, the box top middle part fixed mounting of trapezoidal case has the rack, the top middle part fixed mounting of rack has the control box, the box top middle part fixed mounting of control box has the tilt control platform, the mesa middle part fixed mounting of tilt control platform has operation button, the standing groove has been seted up at the top middle part of rack, the top middle part of standing groove is equipped with square case, and the top middle part runs through and is equipped with the storage tank.

As a preferable scheme of the invention: the top of storage tank all is located through the protection casing installation all around the bottom of sieve workbin is provided with the vibration exciter, the bottom of vibration exciter is provided with the support pedestal.

As a preferred scheme of the invention: the driving motor, the arc pusher, the mixing stirring motor, the pressure detection meter, the supercharger, the driving motor and the vibration exciter are all electrically connected through a PLC (programmable logic controller), and the PLC is electrically connected with an external power supply.

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

1) By adopting the mixing mechanism and the square bracket, the concave limiting bracket is supported by stress according to the upper structure when the mixing mechanism and the square bracket are in the mounting state of the square bracket, the mounting of the screening box is aimed at by the mounting state of the concave limiting bracket, the screening box is mixed, the driving motor is started to control the shaft coupling to rotate at a high speed, and when the shaft coupling drives the rotation, the internal stirring structure is directly driven to rotate at a high speed, so that the mixing and stirring production of raw materials is realized;

2) Through the control state of the mixing pressurization plate loading and the pipe connecting device, after the mixing pressurization plate loading and the pipe connecting device are directly connected with each other, the mutual connection between the mixing pressurization plate loading and the pipe connecting device is realized according to the control of the hose connector, the communication between the mixing pressurization plate loading and the pipe connecting device is realized according to the connection of the hose connector, the conveying pipe is communicated according to the connection of a pouring nozzle and a pressurizer, the mixing pressurization plate loading and pipe connecting device is electrified with a driving motor to generate high-speed rotation, and finally, the mixing pressurization plate loading and the pipe connecting device are driven according to the driving motor, so that the materials are transferred and finally sprayed and poured.

Drawings

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

FIG. 2 is a schematic view of the coupling structure of the present invention;

FIG. 3 is a schematic structural view of a pouring head according to the present invention;

FIG. 4 is a schematic view of the conveying mechanism of the present invention;

FIG. 5 is a schematic view of the structure of the mixing mechanism of the present invention;

FIG. 6 is a schematic view of the material storage mechanism according to the present invention.

In the figure: 1. a material mixing mechanism; 11. a square bracket; 12. supporting the upright stanchion; 13. a concave limiting bracket; 14. fastening screws; 15. connecting the vertical rods; 16. screening the material box; 161. a vibration exciter; 17. feeding and grooving; 18. a square screening plate; 19. squarely slotting; 191. folding the gasket; 192. a universal wheel; 193. a mixing storage tank; 2. a stirring mechanism; 21. a coupling; 22. a drive motor; 23. discharging and grooving; 24. a sleeve; 25. a delivery cannula; 26. an arc pusher; 27. the pipe is connected with a pump; 28. connecting sleeves; 29. a material storage taper pipe; 291. connecting a pipeline; 3. a conical stirring mechanism; 31. mixing, pressurizing and pouring a tank; 32. a connecting rod; 33. a mixing and stirring motor; 4. a spraying and pouring mechanism; 41. a tapered adapter tube; 42. a U-shaped connecting pipe; 43. a pourer mounting plate; 44. a pipe connecting device; 45. a hose connector; 46. a delivery catheter; 47. pouring a spray head; 5. a conveying mechanism; 51. a support base plate; 52. a mixed material processing cabin; 53. a connecting pipe; 54. a square cover; 55. a cross-shaped bracket; 56. a mixing conduit; 57. a charging base; 58. processing a base; 59. transversely connecting pipe sleeves; 591. a supercharger; 592. a drive motor; 6. a raw material storage mechanism; 61. a control cabinet; 62. a trapezoidal box; 63. placing a rack; 64. a control box; 65. a tilt console; 66. an operation button; 67. a placement groove; 68. a square box; 69. a storage tank; 161. a vibration exciter; 162. a base is supported.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a pouring device for shaping and manufacturing a building concrete wall comprises a mixing mechanism 1, wherein the mixing mechanism 1 comprises a square support 11 supported by a stress, supporting vertical rods 12 are vertically arranged on two sides of the top of the square support 11, a concave limiting support 13 is arranged in the middle of the side wall of each supporting vertical rod 12, a circular groove is formed in the middle of the side wall of each concave limiting support 13, a fastening screw 14 is arranged in a groove of the circular groove, a connecting vertical rod 15 is vertically arranged in the middle of the bottom end of the fastening screw 14, a screening box 16 is fixedly arranged on the side of the top end of each connecting vertical rod 15, a feeding groove 17 is formed in the middle of the top end of a box body of the screening box 16, a square screening plate 18 is covered and arranged on the surface of the groove of the feeding groove 17, a square groove 19 is correspondingly formed in the middle of the surface of the square screening plate 18, folding gaskets 191 are transversely arranged in the middles of the square grooves 19, and a plurality of latch grooves are formed in the surface of the folding gaskets 191;

the box lateral wall mid-mounting of sieve workbin 16 has rabbling mechanism 2, and rabbling mechanism 2 is including installing the shaft coupling 21 at 16 lateral walls middle parts of sieve workbin, and driving motor 22 is transversely installed to the one end of shaft coupling 21, and driving motor 22's output is connected with the one end transmission of shaft coupling 21, and driving motor 22's output and the inboard compounding stirring structure transmission of sieve workbin 16 are connected.

In this embodiment: discharge slot 23 is transversely installed at the box lateral wall middle part of sieve workbin 16, the sealed intercommunication in trench end position of discharge slot 23 has sleeve pipe 24, the top end position fixed mounting of sleeve pipe 24 has conveying sleeve pipe 25, the outside wall pipe joint of conveying sleeve pipe 25 has arc impeller 26, the sealed intercommunication of one end of arc impeller 26 has pipe joint pump 27, the sealed intercommunication of pressure boost gas transmission end and the end lateral wall of conveying sleeve pipe 25 of pipe joint pump 27, the end of conveying sleeve pipe 25 is provided with adapter sleeve 28.

The structure of the conveying sleeve 25 is controlled by the pipe connection state of the arranged connecting sleeve 28 and the corresponding conveying sleeve 25, and the connecting sleeve is connected according to the corresponding connecting sleeve 28 and the state of the corresponding connecting sleeve 28 according to certain requirements.

In this embodiment: one end of the connecting sleeve 28 is hermetically communicated with a conical stirring mechanism 3, the conical stirring mechanism 3 comprises a material mixing and pressurizing pouring tank 31 installed at the end of the connecting sleeve 28, the middle part of the top end of a tank body of the material mixing and pressurizing pouring tank 31 is in transmission connection with a connecting rod 32, the middle part of the top end of the connecting rod 32 is fixedly provided with a material mixing and stirring motor 33, the output end of the material mixing and stirring motor 33 is in driving arrangement with the material mixing and pressurizing pouring tank 31 through a coupler 21, a spray pouring mechanism 4 is fixedly installed in the middle of the bottom end of the connecting rod 32, the spray pouring mechanism 4 comprises a conical connecting pipe 41 installed in the middle of the bottom end of the material mixing and pressurizing pouring tank 31, one end of the bottom of the conical connecting pipe 41 is transversely provided with a U-shaped connecting pipe 42, the middle surface of the U-shaped connecting pipe 42 is sleeved with a pressure detection meter, the end of the pressure detection meter is provided with a pouring device installing plate 43, the middle part of the side wall of the pouring device installing plate 43 is provided with a pipe connector 44, and the middle part of the side wall of the pipe connector 44 is provided with a plurality of hose connectors 45 for pouring and spraying;

one end of the hose connector 45 is hermetically communicated with a conveying conduit 46, one end of the conveying conduit 46 is hermetically communicated with a pouring nozzle 47, and a valve for adjusting the size is sleeved on the surface of the pouring nozzle 47.

Through the arranged conveying guide pipe 46 and the corresponding pouring nozzle 47, the pouring material is uniformly sprayed according to the pouring nozzle 47.

In this embodiment: four corners in the bottom of the square support 11 are fixedly provided with universal wheels 192, the surface of the square support 11 is fixedly provided with a material mixing storage tank 193, the middle of the bottom end of the material mixing storage tank 193 is fixedly provided with a material storing taper pipe 29, and the bottom of the material storing taper pipe 29 is communicated with an access pipeline 291 in a sealing mode.

The universal wheel 192 and the appointed material mixing storage tank 193 are arranged, and the material storage taper pipe 29 is communicated and then discharged according to the processing state of the appointed material mixing storage tank 193.

In this embodiment: the back fixed mounting of square support 11 has conveying mechanism 5, conveying mechanism 5 is including installing the supporting baseplate 51 at square support 11 marginal lateral wall, the face both sides limit of supporting baseplate 51 all is equipped with compounding processing cabin 52, the top avris of compounding processing cabin 52 corresponds installs a plurality of connecting pipes 53, the sealed intercommunication in bottom middle part of a plurality of connecting pipes 53 has the conveyer pipe, the top of conveyer pipe is covered all around and is equipped with square cover 54, the top both sides limit of square cover 54 all articulates there is cross support 55.

The transfer is performed by the processing state of the provided delivery pipe and the corresponding square cover 54, and the delivery is performed in accordance with the set state of the cross stent 55.

In this embodiment: the side of the cross-shaped support 55 is provided with a mixing guide pipe 56, one end of the mixing guide pipe 56 is fixedly provided with a feeding base 57, the middle of the top end of the feeding base 57 is hermetically communicated with a processing base 58 for mixing raw materials, the middle of the top end of the processing base 58 is provided with a transverse pipe connecting sleeve 59 in a driving mode, one end of the transverse pipe connecting sleeve 59 is provided with a pressure booster 591, one end of the pressure booster 591 is fixedly provided with a transmission motor 592, and the output end of the transmission motor 592 is in transmission arrangement with a driving structure which is arranged in the supporting base plate 51 in a built-in mode.

The conversion is realized by the processing state of the transmission motor 592 and the corresponding supercharger 591, and the structural conveying is achieved according to the supercharger 591.

In this embodiment: the middle part of the back of the processing base 58 is fixedly provided with a raw material storage mechanism 6, and the raw material storage mechanism 6 comprises a control cabinet 61 arranged at the side of the screening box 16, a trapezoidal box 62 arranged at the middle part of the top end of the control cabinet 61 and a trapezoidal box 62;

the box top middle part fixed mounting of trapezoidal case 62 has rack 63, and the top middle part fixed mounting of rack 63 has control box 64, and the box top middle part fixed mounting of control box 64 has tilt control platform 65, and the mesa middle part fixed mounting of tilt control platform 65 has operating button 66, and standing groove 67 has been seted up at the top middle part of rack 63, and the top middle part of standing groove 67 is equipped with square case 68, and the top middle part runs through and is equipped with storage tank 69.

The energization output is further realized by the processing of the provided reserve tank 69 and the designated square box 68.

In this embodiment: the top of the storage tank 69 is installed all around through a protective cover, a vibration exciter 161 is arranged at the bottom of the screening box 16, and a supporting base 162 is arranged at the bottom of the vibration exciter 161.

The high-frequency vibration generated in the screening box 16 is controlled by the electrifying state of the exciter 161.

In this embodiment: the driving motor 22, the arc-shaped pusher 26, the mixing stirring motor 33, the pressure detection meter, the supercharger 591, the transmission motor 592 and the vibration exciter 161 are electrically connected through a PLC (programmable logic controller), and the PLC is electrically connected with an external power supply.

The power-on control of each electric device is convenient.

When in specific use, the first step is as follows: firstly, concrete raw materials are poured into the mixing mechanism 1 for production according to the material for shaping the building concrete wall;

at the moment, a user directly puts the processed materials at the position of the folding gasket 191 to screen and pass through the specified square screening plate 18, then a plurality of parallel hole sites above the square screening plate 18 are formed, and then the materials for concrete grouting pass through a plurality of square slots until the materials are put into the screening box 16;

the second step is that: before that, some raw materials are prepared, and then the sand is conveyed by the conveying mechanism 5;

firstly, a user firstly puts a sandstone material into the mixing processing cabin 52 from one end of the connecting pipe 53, at the moment, the sandstone material needs to be conveyed along the direction of the transverse connecting pipe sleeve 59 according to the mixing guide pipe 56, the sandstone material is firstly subjected to mixing processing of the feeding base 57 during conveying, at the moment, other pouring materials are firstly mixed and added into the processing base 58, the mixture is transferred to one end of the supercharger 591 according to the processing base 58, negative pressure suction force is generated after the supercharger 591 is electrified through operation control, and the materials are directly transferred to the position of the mixing end at the rear end along the supporting bottom plate 51 to be mixed together;

the third step: storing the finished cement slurry;

at the moment, a user can directly inject the raw materials into the square box 68 according to the storage tank 69 of the raw material storage mechanism 6 by starting the raw material storage mechanism 6, the cement paste is placed into the square box 68 according to the top groove position placing state of the square box 68, the external driving stirring structure is used for high-speed rotation for production stirring of the cement paste, and finally the stirred materials are directly pumped out by the external water pump;

the fourth step: mixing cement paste and specified broken stone particles according to a certain mixing proportion to achieve material mixing processing between materials;

the gravel materials and the cement slurry are uniformly gathered into the screening box 16, the coupler 21 at the output end is directly controlled to rotate under the power-on driving of the driving motor 22 at the side of the screening box 16, the coupler 21 can drive the stirring structure to rotate at a high speed, and finally, after the stirring and mixing are finished, the raw material gravel and the cement slurry placed in the screening box 16 can be fully mixed into concrete water slurry suitable for being poured on the surface layer of the building concrete;

the fifth step: pumping out concrete water slurry;

at this time, a user needs to operate the mixing stirring motor 33 at the top end to be electrified so as to drive the stirring structure at the output end to rotate at a high speed, then the specified pipe joint pump 27 is opened in combination, according to the electrified access state of the pipe joint pump 27, material stamping and suction are realized, the material is pumped into the mixing pressurizing pouring tank 31 along one end of the connecting sleeve 28, the material is mixed and stirred by the stirrer which is driven inside the material, the material passes through the tapered connecting pipe 41 and is transferred to the pipe joint device 44, at this time, the user can transfer the hose joint 45 to the position of the pouring nozzle 47 along the conveying conduit 46 through the hose joint 45 which is externally connected with the pipe joint device 44, and finally, the pouring and spraying of the finished product poured concrete material are realized.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes, modifications, equivalents, and improvements may be made without departing from the spirit and scope of the invention.

Claims (9)

1. The utility model provides a moulding preparation of building concrete wall is with pouring equipment, includes mixing mechanism (1), its characterized in that, mixing mechanism (1) is including square support (11) that is used for the atress to support, the equal vertical support pole (12) of installing in square support (11) top both sides, the lateral wall mid-mounting of support pole (12) has concave type spacing support (13), circular fluting has been seted up at the lateral wall middle part of concave type spacing support (13), install fastening screw (14) in the slotted groove of circular fluting, the vertical connection pole (15) of installing in the bottom middle part of fastening screw (14), the top avris fixed mounting of connecting pole (15) has sieve case (16), sieve case (16) have seted up in the middle part of the box top of throwing material fluting (17) and throw material fluting (17) the trench surface cover and be equipped with square screening board (18), square fluting (19) have all been seted up correspondingly in the middle part of square fluting (18), folding gasket (191) are transversely installed in the middle part of a plurality of square (19), the fluting has been seted up on the surface of folding gasket (191);

the box lateral wall mid-mounting of sieve workbin (16) has rabbling mechanism (2), rabbling mechanism (2) are including installing shaft coupling (21) at sieve workbin (16) lateral wall middle part, driving motor (22) are transversely installed to the one end of shaft coupling (21), the output of driving motor (22) is connected with the one end transmission of shaft coupling (21), the output of driving motor (22) is connected with the compounding stirring structure transmission of sieve workbin (16) inboard.

2. The casting apparatus for shaping and manufacturing a building concrete wall according to claim 1, wherein: sieve box (16)'s box lateral wall middle part transversely installs ejection of compact fluting (23), the sealed intercommunication in trench end position of ejection of compact fluting (23) has sleeve pipe (24), the top end fixed mounting of sleeve pipe (24) has conveying sleeve pipe (25), the outside wall pipe of conveying sleeve pipe (25) has connect arc pusher (26), the sealed intercommunication in one end of arc pusher (26) has union coupling pump (27), the end lateral wall of the pressure boost gas transmission end of union coupling pump (27) and conveying sleeve pipe (25) seals the intercommunication, the end of conveying sleeve pipe (25) is provided with adapter sleeve (28).

3. The casting apparatus for shaping and manufacturing a building concrete wall according to claim 2, wherein: one end of the connecting sleeve (28) is hermetically communicated with a conical stirring mechanism (3), the conical stirring mechanism (3) comprises a mixing pressurizing pouring tank (31) arranged at the end of the connecting sleeve (28), the middle of the top end of the tank body of the mixing pressurizing pouring tank (31) is in transmission connection with a connecting rod (32), the middle of the top end of the connecting rod (32) is fixedly provided with a mixing stirring motor (33), the output end of the mixing stirring motor (33) is in driving arrangement with the mixing pressurizing pouring tank (31) through a coupler (21), a spraying pouring mechanism (4) is fixedly arranged in the middle of the bottom end of the connecting rod (32), the spraying pouring mechanism (4) comprises a conical connecting pipe (41) arranged in the middle of the bottom end of the mixing pressurizing pouring tank (31), one end of the bottom of the conical connecting pipe (41) is transversely provided with a U-shaped connecting pipe (42), the middle surface of the U-shaped connecting pipe (42) is sleeved with a pressure detection meter (42), the end of the pressure detection meter (42) is provided with a pouring device mounting plate (43), the middle of the side wall of the pouring device mounting plate (43) is provided with a pipe connector (44), and a plurality of spraying connectors (45) are arranged in the middle of the side wall of the pouring connector;

one end of the hose connector (45) is communicated with a conveying guide pipe (46) in a sealing mode, one end of the conveying guide pipe (46) is communicated with a pouring nozzle (47) in a sealing mode, and a valve used for adjusting the size of the hose connector is sleeved on the surface of the pouring nozzle (47).

4. The casting device for building concrete wall molding according to claim 1, wherein: be located four equal fixed mounting in corner of bottom of square support (11) have universal wheel (192), the fixed surface of square support (11) installs compounding storage tank (193), the bottom middle part fixed mounting of compounding storage tank (193) has storage taper pipe (29), the sealed intercommunication in bottom of storage taper pipe (29) has access pipeline (291).

5. The casting apparatus for shaping and manufacturing a building concrete wall according to claim 4, wherein: the back fixed mounting of square support (11) has conveying mechanism (5), conveying mechanism (5) are including installing supporting baseplate (51) at square support (11) edge lateral wall, the two avris of face of supporting baseplate (51) all are equipped with compounding processing cabin (52), the top avris correspondence of compounding processing cabin (52) is installed a plurality of connecting pipes (53), a plurality of the sealed intercommunication in bottom middle part of connecting pipe (53) has the conveyer pipe, the top of conveyer pipe is covered all around and is equipped with square cover (54), the two avris in top of square cover (54) all articulate there is cross support (55).

6. The casting apparatus for shaping and manufacturing a building concrete wall according to claim 5, wherein: the avris of cross support (55) is provided with compounding pipe (56), the one end fixed mounting of compounding pipe (56) has reinforced base (57), the sealed intercommunication in top middle part of reinforced base (57) has processing base (58) that are used for the raw materials compounding, the top middle part drive of processing base (58) is equipped with transversely connects pipe box (59), the one end that transversely connects pipe box (59) is provided with booster (591), the one end fixed mounting of booster (591) has driving motor (592), driving motor (592) output sets up with built-in drive structure transmission inside supporting baseplate (51).

7. The casting apparatus for shaping and manufacturing a building concrete wall according to claim 6, wherein: the middle part of the back surface of the processing base (58) is fixedly provided with a raw material storage mechanism (6), the raw material storage mechanism (6) comprises a control cabinet (61) arranged at the side of the screening box (16), and a trapezoidal box (62) is arranged in the middle of the top end of the control cabinet (61) and is a trapezoidal box (62);

the utility model discloses a storage tank, including trapezoidal case (62), box top middle part fixed mounting have rack (63), the top middle part fixed mounting of rack (63) has control box (64), the box top middle part fixed mounting of control box (64) has tilt control platform (65), the mesa middle part fixed mounting of tilt control platform (65) has operating button (66), standing groove (67) have been seted up at the top middle part of rack (63), the top middle part of standing groove (67) is equipped with square case (68), and the top middle part is run through and is equipped with storage tank (69).

8. The apparatus of claim 7, wherein the casting apparatus comprises: the top of storage tank (69) is all installed through the protection casing all around, is located the bottom of sieve workbin (16) is provided with vibration exciter (161), the bottom of vibration exciter (161) is provided with supporting pedestal (162).

9. The apparatus of claim 8, wherein the casting apparatus comprises: the automatic material mixing device is characterized in that the driving motor (22), the arc pusher (26), the material mixing stirring motor (33), the pressure detection meter (42), the supercharger (591), the transmission motor (592) and the vibration exciter (161) are all electrically connected through a PLC, and the PLC is electrically connected with an external power supply.

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