CN112589953B - Automatic pouring equipment for high-rise building - Google Patents

Abstract

The invention discloses automatic pouring equipment for a high-rise building, which comprises a machine body and a building to be poured, wherein the right side of the machine body is fixedly provided with the building to be poured, a material bin is fixedly arranged in the machine body, a material storage cavity is arranged in the material bin, materials such as cement, broken stone and the like are stored in the material storage cavity, a water storage cavity is arranged in the machine body at the right side of the material storage cavity, water is stored in the water storage cavity, a rotating cavity is arranged in the machine body at the bottom of the material storage cavity, a stirring bin is fixedly arranged in the machine body below the water storage cavity, and a stirring cavity is arranged in the stirring bin. The process is convenient and fast, the waste of manpower and material resources is effectively avoided, and the cost is greatly reduced.

Description

Automatic pouring equipment for high-rise building

Technical Field

The invention relates to the relevant field of building pouring, in particular to automatic pouring equipment for a high-rise building.

Background

With the rapid development of economy in China, building construction projects are increased day by day, the construction scale and difficulty coefficient are also increased continuously, under the large background, concrete pouring is an important process, the concrete pouring refers to a process from pouring concrete into a mold until plasticizing, materials such as concrete and the like are put into the mold to be made into a preset shape in civil construction engineering, and because the concrete pouring is carried out continuously, particularly, the pouring is finished once when a column is poured, the intermittence cannot be generated, most of the pouring processes are finished in the whole process by manpower, the cost is overhigh due to large requirements on manpower, and the safety of pouring personnel in the pouring process of a high-rise building is difficult to guarantee, so that automatic pouring equipment for the high-rise building is required at present.

Disclosure of Invention

The invention aims to solve the technical problem of providing automatic pouring equipment for high-rise buildings, which can overcome the problems.

The technical scheme adopted by the invention for solving the technical problems is as follows: an automatic pouring device for high-rise buildings comprises a machine body and a building to be poured, wherein the right side of the machine body is fixedly provided with the building to be poured, a material bin is fixedly arranged in the machine body, a material storage cavity is arranged in the material bin, cement, broken stone and other materials are stored in the material storage cavity, a water storage cavity is arranged in the machine body on the right side of the material storage cavity, water is stored in the water storage cavity, a rotating cavity is arranged in the machine body at the bottom of the material storage cavity, a stirring cavity is fixedly arranged in the machine body below the water storage cavity, a stirring cavity is arranged in the stirring cavity, a pouring vehicle is arranged at the top of the building to be poured, a pouring cavity is arranged in the pouring vehicle, a feeding port is formed in the bottom end of the material bin, a feeding slide block is arranged at the bottom of the material storage cavity in a left-right sliding manner, a slide rod is fixedly connected to the bottom end of the feeding slide block, and a material delivery device is arranged on the slide rod, the material delivery device is used for delivering concrete materials; a sealing plate is fixedly arranged on the machine body at the bottom of the water storage cavity, a water drain valve is fixedly arranged on the sealing plate, a feed inlet is fixedly connected to the top end of the stirring bin below the water storage cavity, a first motor is fixedly arranged at the bottom of the left end of the machine body, and a stirring device is arranged on the first motor and used for stirring concrete; a lifting track is fixedly arranged on the building to be poured below the right side of the stirring bin, a baffle is fixedly connected to the right part of the top end of the lifting track, a lifting box is arranged on the lifting track in a vertically sliding mode, and a lifting device is arranged on the lifting box and used for lifting and dumping the stirred concrete; a support plate is fixedly connected to the top of the right end of the machine body, two motor starters are fixedly connected to the top end of the support plate in a bilateral symmetry manner, a second electric contact is fixedly connected to the top end of each motor starter, the top end of each second electric contact is elastically connected to the bottom end of each first electric contact through a contact spring, each first electric contact is fixedly connected to the bottom end of a fixed pulley seat block, a fixed pulley seat is fixedly connected to each fixed pulley seat, a fixed pulley shaft is rotatably connected to each fixed pulley seat, a fixed pulley is fixedly connected to each fixed pulley shaft, the fixed pulley is abutted against a steel wire rope, the right end of the steel wire rope is wound on a reel, the reel is rotatably connected to a second gear shaft, the second gear shaft is fixedly connected to a pouring head, a second gear is fixedly connected to the rear portion of the reel on the second gear shaft, and the lower portion of the second gear is meshed with the first gear, the first gear is fixedly connected to a first gear shaft, the first gear shaft is rotatably connected to the pouring lathe head, a fifth bevel gear is fixedly connected to the first gear shaft in front of the first gear, the lower portion of the fifth bevel gear is meshed with a third bevel gear, the third bevel gear is fixedly connected to the top end of a second motor shaft, a fourth bevel gear is fixedly connected to the second motor shaft below the third bevel gear, the second motor shaft is rotatably arranged in a second motor, the second motor is arranged in the pouring lathe head in a vertically sliding manner, a first magnet is fixedly connected to the bottom end of the second motor, the bottom end of the first magnet is elastically connected to the top end of a first electromagnet through a first magnet spring, the first electromagnet is fixedly connected to the top of a first magnet motor, and the first magnet motor is fixedly arranged on the pouring lathe head, the pouring vehicle head is fixedly connected to the right end of the pouring vehicle, a pouring device is arranged on the pouring vehicle, and the pouring device is used for automatically pouring concrete.

Further, the material delivery device comprises the slide bar, the slide bar is arranged in a slide bar groove in a sliding mode, the slide bar groove is fixedly arranged on the machine body, a connecting rod is connected to the slide bar in a rotating mode, the left end of the connecting rod is connected to a connecting rod shaft in a rotating mode, the connecting rod shaft is fixedly connected to a rotating disc, the rotating disc is fixedly connected to a second rotating shaft, the second rotating shaft is connected to the machine body in a rotating mode, a second bevel gear is fixedly connected to the bottom end of the second rotating shaft, the right side of the second bevel gear is meshed with a first bevel gear, the first bevel gear is fixedly connected to the left end of the first rotating shaft, and the first rotating shaft is connected to the machine body in a rotating mode.

Further, agitating unit includes first motor, the rotatable first motor shaft that is provided with in the first motor, the first belt pulley of first motor shaft right-hand member fixedly connected with, the butt has first belt on the first belt pulley, first belt top butt is on the second belt pulley, second belt pulley fixed connection be in the first pivot, first pivot right-hand member rotates to be connected in the stirring storehouse, first pivot right-hand member is in the stirring intracavity is fixed and is provided with the stirring leaf, be provided with the discharge gate in the stirring storehouse, the discharge gate right side is provided with the material storage mouth.

Furthermore, the lifting device comprises the lifting box, two lifting box wheel axle seats are fixedly connected to the right end of the lifting box in a vertically symmetrical mode, lifting box wheel axles are rotatably connected to the two lifting box wheel axle seats, two lifting box wheels are fixedly connected to the lifting box wheel axles in a front-back symmetrical mode respectively, the lifting box wheels can rotate on the lifting track, the bottom ends of the lifting box wheels are rotatably connected with lifting arm shafts, lifting arms are rotatably connected to the front ends and the rear ends of the lifting box wheels on the lifting arm shafts, and the tops of the lifting arms are connected with steel wire ropes.

Further, the pouring device comprises the pouring vehicle, two pouring wheel seats are fixedly connected at the bottom end of the pouring vehicle in a bilateral symmetry manner, a pouring wheel shaft is respectively and rotatably connected to the two pouring wheel seats, two pouring wheels are respectively and fixedly connected to the pouring wheel shaft in a front-back symmetry manner, the pouring wheels can rotate on the pouring rails by abutting against the pouring rails, the pouring rails are fixedly connected to the top end of the building to be poured, a pouring door is arranged at the bottom end of the pouring cavity on the pouring vehicle in a left-right sliding manner, the right end of the pouring door is fixedly connected with a second magnet, the right end of the second magnet is elastically connected to the left end of a second electromagnet through a second magnet spring, the second electromagnet is fixedly connected to the left end of a second magnet motor, the second magnet motor is fixedly arranged on the pouring vehicle, and a fourth belt pulley is fixedly connected to the right pouring wheel shaft, the fourth belt pulley is abutted with a second belt, the top end of the second belt is abutted against a third belt pulley, the third belt pulley is fixedly connected to a seventh bevel gear shaft, the seventh bevel gear shaft is rotatably connected to the pouring trolley, an eighth bevel gear is fixedly connected to the seventh bevel gear shaft in front of the third belt pulley, the eighth bevel gear is meshed with the seventh bevel gear, the seventh bevel gear is fixedly connected to the left end of a third rotating shaft, the third rotating shaft is rotatably connected to the pouring trolley and the pouring trolley head, and the right end of the third rotating shaft is fixedly connected with a sixth bevel gear which can be meshed with the fourth bevel gear on the right side.

The invention has the beneficial effects that: the utility model provides a high-rise building automatic pouring equipment, equipment structure is simple, and convenient operation can realize pouring high-rise building's automation, mutually supports and does not influence between each process, can realize the automatic stirring to the concrete and can pour high-rise building's automation after the stirring, process convenient and fast, the effectual waste of avoiding manpower and materials to reduce the cost by a wide margin.

Drawings

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

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic overall structure diagram of the automatic pouring equipment for the high-rise building.

Fig. 2 is an enlarged schematic view of a-a in fig. 1.

Fig. 3 is an enlarged schematic view of B in fig. 1.

Fig. 4 is an enlarged schematic view of C in fig. 1.

Fig. 5 is an enlarged schematic view of D in fig. 1.

Fig. 6 is an enlarged schematic view of E in fig. 5.

Fig. 7 is an enlarged structural view of F in fig. 5.

Detailed Description

The invention will now be described in detail with reference to fig. 1-7, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The automatic high-rise building pouring equipment disclosed by the attached drawings 1 to 7 comprises a machine body 11 and a building 28 to be poured, wherein the right side of the machine body 11 is fixedly provided with a material bin 12, the material bin 12 is internally provided with a material storage cavity 91, materials such as cement, broken stone and the like are stored in the material storage cavity 91, the right side of the material storage cavity 91 is internally provided with a water storage cavity 92 in the machine body 11, water is stored in the water storage cavity 92, the bottom of the material storage cavity 91 is internally provided with a rotating cavity 93 in the machine body 11, a stirring cavity 22 is fixedly arranged in the machine body 11 below the water storage cavity 92, a stirring cavity 94 is arranged in the stirring cavity 22, the top of the building 28 to be poured is provided with a pouring truck 57, a pouring cavity 95 is arranged in the pouring truck 57, the bottom end of the material bin 12 is provided with a feeding port 27, and the bottom of the material storage cavity 91 is provided with a feeding slide block 13 capable of sliding left and right, a sliding rod 38 is fixedly connected to the bottom end of the feeding sliding block 13, a material delivery device 101 is arranged on the sliding rod 38, and the material delivery device 101 is used for delivering concrete materials; a sealing plate 30 is fixedly arranged on the machine body 11 at the bottom of the water storage cavity 92, a drain valve 32 is fixedly arranged on the sealing plate 30, a feed inlet 26 is fixedly connected to the top end of the stirring bin 22 below the water storage cavity 92, a first motor 21 is fixedly arranged at the bottom of the left end of the machine body 11, a stirring device 102 is arranged on the first motor 21, and the stirring device 102 is used for stirring concrete; a lifting rail 29 is fixedly arranged on the building 28 to be poured below the right side of the stirring bin 22, the right part of the top end of the lifting rail 29 is fixedly connected with a baffle plate 31, a lifting box 44 is arranged on the lifting rail 29 in a vertically sliding manner, a lifting device 103 is arranged on the lifting box 44, and the lifting device 103 is used for lifting and dumping the stirred concrete; a support plate 53 is fixedly connected to the top of the right end of the machine body 11, two motor starters 52 are fixedly connected to the top of the support plate 53 in bilateral symmetry, a second electrical contact 51 is fixedly connected to the top of the motor starter 52, the top of the second electrical contact 51 is elastically connected to the bottom of the first electrical contact 49 through a contact spring 50, the first electrical contact 49 is fixedly connected to the bottom of the fixed pulley block 48, the fixed pulley block 48 is fixedly connected with a fixed pulley block 54, the fixed pulley block 54 is rotatably connected with a fixed pulley shaft 55, the fixed pulley shaft 55 is fixedly connected with a fixed pulley 56, the fixed pulley 56 is abutted with the steel wire rope 80, the right end of the steel wire rope 80 is wound on a reel 77, the reel 77 is rotatably connected to a second gear shaft 78, the second gear shaft 78 is fixedly connected to the machine head 65, and a second gear 79 is fixedly connected to the second gear shaft 78 behind the reel 77, the lower part of the second gear 79 is meshed with a first gear 76, the first gear 76 is fixedly connected to a first gear shaft 74, the first gear shaft 74 is rotatably connected to the casting head 65, a fifth bevel gear 75 is fixedly connected to the first gear shaft 74 in front of the first gear 76, the lower part of the fifth bevel gear 75 is meshed with a third bevel gear 73, the third bevel gear 73 is fixedly connected to the top end of a second motor shaft 71, a fourth bevel gear 72 is fixedly connected to the second motor shaft 71 below the third bevel gear 73, the second motor shaft 71 is rotatably arranged in the second motor 70, the second motor 70 is slidably arranged in the casting head 65 up and down, the bottom end of the second motor 70 is fixedly connected with a first magnet 69, the bottom end of the first magnet 69 is elastically connected to the top end of the first electromagnet 67 through a first magnet spring 68, the first electromagnet 67 is fixedly connected to the top of the first magnet motor 66, the first magnet motor 66 is fixedly arranged on the pouring vehicle head 65, the pouring vehicle head 65 is fixedly connected to the right end of the pouring vehicle 57, the pouring vehicle 57 is provided with a pouring device 104, and the pouring device 104 is used for automatically pouring concrete.

Advantageously, the material delivery device 101 includes the slide rod 38, the slide rod 38 is slidably disposed in the slide rod groove 37, the slide rod groove 37 is fixedly disposed on the body 11, the slide rod 38 is rotatably connected with the connecting rod 33, the left end of the connecting rod 33 is rotatably connected to the connecting rod shaft 34, the connecting rod shaft 34 is fixedly connected to the rotating disk 35, the rotating disk 35 is fixedly connected to the second rotating shaft 36, the second rotating shaft 36 is rotatably connected to the body 11, the bottom end of the second rotating shaft 36 is fixedly connected with the second bevel gear 17, the right side of the second bevel gear 17 is engaged with the first bevel gear 18, the first bevel gear 18 is fixedly connected to the left end of the first rotating shaft 15, and the first rotating shaft 15 is rotatably connected to the body 11.

Beneficially, the stirring device 102 includes the first motor 21, a first motor shaft 20 is rotatably disposed in the first motor 21, a first belt pulley 19 is fixedly connected to a right end of the first motor shaft 20, a first belt 16 is abutted on the first belt pulley 19, a top end of the first belt 16 is abutted on the second belt pulley 14, the second belt pulley 14 is fixedly connected to the first rotating shaft 15, a right end of the first rotating shaft 15 is rotatably connected to the stirring bin 22, a stirring blade 23 is fixedly disposed in the stirring cavity 94 at a right end of the first rotating shaft 15, a discharge port 25 is disposed in the stirring bin 22, and a storage port 24 is disposed on a right side of the discharge port 25.

Advantageously, the lifting device 103 includes the lifting box 44, two lifting box wheel axles 42 are fixedly connected to the right end of the lifting box 44 in an up-down symmetrical manner, two lifting box wheel axles 41 are rotatably connected to the two lifting box wheel axles 42, two lifting box wheels 40 are respectively fixedly connected to the lifting box wheel axles 41 in a front-back symmetrical manner, the lifting box wheels 40 can rotate on the lifting rail 29, a boom axle 45 is rotatably connected to the bottom end of each lifting box wheel 40, booms 43 are rotatably connected to the boom axle 45 at the front end and the rear end of each lifting box wheel 40, and a steel wire rope 80 is connected to the tops of the booms 43.

Advantageously, the pouring device 104 comprises the pouring trolley 57, two pouring wheel seats 59 are fixedly connected to the bottom end of the pouring trolley 57 in a bilateral symmetry manner, a pouring wheel shaft 60 is respectively and rotatably connected to the two pouring wheel seats 59, two pouring wheels 61 are respectively and fixedly connected to the pouring wheel shaft 60 in a front-back symmetry manner, the pouring wheels 61 can rotate on the pouring rails 62 against the pouring rails 62, the pouring rails 62 are fixedly connected to the top end of the building 28 to be poured, a pouring door 58 is arranged at the bottom end of the pouring cavity 95 on the pouring trolley 57 in a left-right sliding manner, a second magnet 87 is fixedly connected to the right end of the pouring door 58, the right end of the second magnet 87 is elastically connected to the left end of a second electromagnet 89 through a second magnet spring 88, the second electromagnet 89 is fixedly connected to the left end of a second magnet motor 90, and the second magnet motor 90 is fixedly arranged on the pouring trolley 57, a fourth belt pulley 64 is fixedly connected to the right-side pouring wheel axle 60, a second belt 63 abuts against the fourth belt pulley 64, the top end of the second belt 63 abuts against the third belt pulley 81, the third belt pulley 81 is fixedly connected to a seventh bevel gear shaft 84, the seventh bevel gear shaft 84 is rotatably connected to the pouring car 57, an eighth bevel gear 83 is fixedly connected to the seventh bevel gear shaft 84 in front of the third belt pulley 81, the eighth bevel gear 83 is meshed with the seventh bevel gear 82, the seventh bevel gear 82 is fixedly connected to the left end of a third rotating shaft 85, the third rotating shaft 85 is rotatably connected to the pouring car 57 and the pouring car head 65, a sixth bevel gear 86 is fixedly connected to the right end of the third rotating shaft 85, and the sixth bevel gear 86 can be meshed with the fourth bevel gear 72 on the right side.

Sequence of mechanical actions of the whole device:

when the device works, the first motor 21 is started, the first motor shaft 20 and the first belt pulley 19 on the first motor shaft 20 rotate, the first belt pulley 19 drives the second belt pulley 14 to rotate through belt transmission, the second belt pulley 14 drives the first rotating shaft 15 to rotate, the stirring blade 23 on the first rotating shaft 15 rotates along with the first belt pulley, the first bevel gear 18 on the first rotating shaft 15 drives the second bevel gear 17 to rotate, the second bevel gear 17 drives the second rotating shaft 36 and the rotating disc 35 on the second rotating shaft 36 to rotate, the connecting rod shaft 34 on the rotating disc 35 rotates along with the first belt pulley, the connecting rod shaft 34 drives the sliding rod 38 to slide in the sliding rod groove 37 in a left-right reciprocating manner through the connecting rod mechanism, the sliding rod 38 drives the feeding slide block 13 to slide in the bottom of the storage cavity 91 in the left-right manner, the feeding slide block 13 pushes cement, gravel and other materials in the storage cavity 91 into the feeding hole 26 through the feeding hole 27 and then falls into the stirring cavity 94, at this time, the drain valve 32 is started, water in the water storage cavity 92 enters the stirring bin 22 and is mixed with cement gravel and the like to form concrete under the stirring action of the stirring blade 23, the mixed and stirred concrete enters the material storage port 24 through the material outlet 25 under the action of the stirring blade 23, the concrete is accumulated to a certain amount in the material storage port 24 and then falls into the lifting box 44, when the weight of the concrete in the lifting box 44 is increased, the suspension arm 43 gives a downward force to the steel wire rope 80, the steel wire rope 80 gives a downward force to the pulley 56 to drive the fixed pulley seat 54 to slide downwards, the fixed pulley seat 54 drives the fixed pulley seat block 48 to slide downwards, the fixed pulley seat block 48 drives the first electric contact 49 to slide downwards to compress the contact spring 50, when the concrete in the lifting box 44 is full, the first electric contact 49 is just communicated with the second electric contact 51, the motor starter 52 is triggered, and the motor starter 52 starts the second motor 70 to rotate forwards, the second motor shaft 71 and the third bevel gear 73 on the second motor shaft 71 rotate, the third bevel gear 73 drives the fifth bevel gear 75 to rotate counterclockwise, the fifth bevel gear 75 drives the first gear shaft 74 and the first gear 76 on the first gear shaft 74 to rotate counterclockwise, the first gear 76 drives the second gear 79 to rotate clockwise, the second gear 79 drives the second gear shaft 78 and the reel 77 on the second gear shaft 78 to rotate clockwise, the reel 77 drives the wire rope 80 to wind the reel 77, the wire rope 80 pulls the lifting box 43 to drive the lifting box 44 to slide upwards along the lifting track 29, when the lifting box 44 slides to the top, the lifting box wheel 40 is blocked by the blocking plate 31, the wire rope 80 continues to pull the lifting box 43, the lifting box 43 drives the lifting box 44 to rotate around the lifting arm shaft 45, the lifting box 44 rotates to enable concrete in the lifting box 44 to be poured into the pouring cavity 95 in the pouring car 57, when the concrete in the lifting box 44 is empty, the fixed pulley block 48 slides upwards under the action of the contact spring 50 to disconnect the first electric contact 49 from the second electric contact 51, at this time, the first magnet motor 66 is started, the first magnet motor 66 drives the first electromagnet 67 to attract the first magnet 69 to slide downwards to press the first magnet spring 68, the first magnet 69 drives the second motor 70 to slide downwards until the fourth bevel gear 72 on the second motor shaft 71 is meshed with the sixth bevel gear 86, at this time, the second motor 70 is reversed, the second motor shaft 71 and the fourth bevel gear 72 on the second motor shaft 71 rotate, the fourth bevel gear 72 drives the sixth bevel gear 86 to rotate clockwise, the sixth bevel gear 86 drives the third rotating shaft 85 and the seventh bevel gear 82 on the third rotating shaft 85 to rotate anticlockwise, the seventh bevel gear 82 drives the eighth bevel gear 83 to rotate clockwise, the eighth bevel gear 83 drives the seventh bevel gear shaft 84 and the third pulley 81 on the seventh bevel gear shaft 84 to rotate clockwise, the third belt pulley 81 drives the fourth belt pulley 64 to rotate clockwise through belt transmission, the fourth belt pulley 64 drives the right pouring wheel shaft 60 and the pouring wheel 61 on the pouring wheel shaft 60 to rotate clockwise, the pouring wheel 61 rotates clockwise to drive the pouring trolley 57 and the pouring trolley head 65 to move rightward on the pouring track 62, at this time, because the third bevel gear 73 and the fifth bevel gear 75 are not meshed any more, the steel wire rope 80 is pulled to slide downwards along the lifting rail 29 under the action of the self gravity of the lifting box 44 and fall to the bottom, the second magnet motor 90 is started in the travelling process of the pouring trolley 57 on the pouring rail 62, the second magnet motor 90 drives the second electromagnet 89 to drive the second magnet 87 to slide rightwards and press the second magnet spring 88 tightly, and the second magnet 87 drives the pouring door 58 to slide rightwards so that concrete in the pouring cavity 95 is poured at a position to be poured, and therefore automatic pouring of the device is achieved.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims (5)

1. The utility model provides a high-rise building automatic pouring equipment, include the fuselage and the fixed building of waiting to pour that is provided with in fuselage right side, its characterized in that: a material bin is fixedly arranged in the machine body, a material storage cavity is arranged in the material bin, materials such as cement, broken stones and the like are stored in the material storage cavity, a water storage cavity is arranged in the machine body on the right side of the material storage cavity, water is stored in the water storage cavity, a rotating cavity is arranged in the machine body at the bottom of the material storage cavity, a stirring bin is fixedly arranged in the machine body below the water storage cavity, a stirring cavity is arranged in the stirring bin, a pouring truck is arranged at the top of a building to be poured, a pouring cavity is arranged in the pouring truck, a feeding port is arranged at the bottom end of the material bin, a feeding slide block is arranged at the bottom of the material storage cavity in a left-right sliding mode, a slide bar is fixedly connected to the bottom end of the feeding slide block, a material delivery device is arranged on the slide bar, and the material delivery device is used for delivering concrete materials; a sealing plate is fixedly arranged on the machine body at the bottom of the water storage cavity, a water drain valve is fixedly arranged on the sealing plate, a feed inlet is fixedly connected to the top end of the stirring bin below the water storage cavity, a first motor is fixedly arranged at the bottom of the left end of the machine body, and a stirring device is arranged on the first motor and used for stirring concrete; a lifting track is fixedly arranged on the building to be poured below the right side of the stirring bin, a baffle is fixedly connected to the right part of the top end of the lifting track, a lifting box is arranged on the lifting track in a vertically sliding mode, and a lifting device is arranged on the lifting box and used for lifting and dumping the stirred concrete; a support plate is fixedly connected to the top of the right end of the machine body, two motor starters are fixedly connected to the top end of the support plate in a bilateral symmetry manner, a second electric contact is fixedly connected to the top end of each motor starter, the top end of each second electric contact is elastically connected to the bottom end of each first electric contact through a contact spring, each first electric contact is fixedly connected to the bottom end of a fixed pulley seat block, a fixed pulley seat is fixedly connected to each fixed pulley seat block, a fixed pulley shaft is rotatably connected to each fixed pulley seat, a fixed pulley is fixedly connected to each fixed pulley shaft, a steel wire rope is abutted to each fixed pulley, the right end of each steel wire rope is wound on a reel, the reel is rotatably connected to a second gear shaft, the second gear shaft is fixedly connected to a pouring head, a second gear is fixedly connected to the rear portion of the reel on the second gear shaft, and the lower portion of the second gear is meshed with the first gear, the first gear is fixedly connected to a first gear shaft, the first gear shaft is rotatably connected to the pouring lathe head, a fifth bevel gear is fixedly connected to the first gear shaft in front of the first gear, the lower portion of the fifth bevel gear is meshed with a third bevel gear, the third bevel gear is fixedly connected to the top end of a second motor shaft, a fourth bevel gear is fixedly connected to the second motor shaft below the third bevel gear, the second motor shaft is rotatably arranged in a second motor, the second motor is arranged in the pouring lathe head in a vertically sliding manner, a first magnet is fixedly connected to the bottom end of the second motor, the bottom end of the first magnet is elastically connected to the top end of a first electromagnet through a first magnet spring, the first electromagnet is fixedly connected to the top of a first magnet motor, and the first magnet motor is fixedly arranged on the pouring lathe head, the pouring vehicle head is fixedly connected to the right end of the pouring vehicle, a pouring device is arranged on the pouring vehicle, and the pouring device is used for automatically pouring concrete.

2. The automatic casting equipment for the high-rise building according to claim 1, wherein: the material delivery device comprises the slide bar, the slide bar is arranged in a slide bar groove in a left-right sliding mode, the slide bar groove is fixedly arranged on the machine body, a connecting rod is connected to the slide bar in a rotating mode, the left end of the connecting rod is connected to a connecting rod shaft in a rotating mode, the connecting rod shaft is fixedly connected to a rotating disk, the rotating disk is fixedly connected to a second rotating shaft, the second rotating shaft is connected to the machine body in a rotating mode, a second bevel gear is fixedly connected to the bottom end of the second rotating shaft, the right side of the second bevel gear is meshed with a first bevel gear, the first bevel gear is fixedly connected to the left end of the first rotating shaft, and the first rotating shaft is connected to the machine body in a rotating mode.

3. The automatic casting equipment for the high-rise building, according to claim 2, is characterized in that: agitating unit includes first motor, the rotatable first motor shaft that is provided with in the first motor, first motor shaft right-hand member fixedly connected with first belt pulley, the butt has first belt on the first belt pulley, first belt top butt is on the second belt pulley, second belt pulley fixed connection be in the first pivot, first pivot right-hand member rotates to be connected in the stirring storehouse, first pivot right-hand member is in the fixed stirring leaf that is provided with in the stirring intracavity, be provided with the discharge gate in the stirring storehouse, the discharge gate right side is provided with the storage material mouth.

4. The automatic casting equipment for the high-rise building, according to claim 3, is characterized in that: the lifting device comprises the lifting box, two lifting box wheel axle seats are fixedly connected to the right end of the lifting box in a vertically symmetrical mode, lifting box wheel axles are rotatably connected to the two lifting box wheel axle seats, two lifting box wheels are fixedly connected to the lifting box wheel axles in a front-back symmetrical mode respectively, the lifting box wheels can rotate on the lifting track, the bottom ends of the lifting box wheels are rotatably connected with lifting arm shafts, lifting arms are rotatably connected to the front ends and the rear ends of the lifting box wheels on the lifting arm shafts, and the tops of the lifting arms are connected with steel wire ropes.

5. The automatic casting equipment for the high-rise building, according to claim 4, is characterized in that: the pouring device comprises the pouring vehicle, two pouring wheel seats are fixedly connected at the bottom end of the pouring vehicle in a bilateral symmetry manner, a pouring wheel shaft is respectively and rotatably connected on the two pouring wheel seats, two pouring wheels are respectively and fixedly connected on the pouring wheel shaft in a front-back symmetry manner, the pouring wheels can rotate on the pouring rails by abutting against the pouring rails, the pouring rails are fixedly connected at the top end of the building to be poured, a pouring door is arranged at the bottom end of the pouring cavity on the pouring vehicle in a left-right sliding manner, a second magnet is fixedly connected at the right end of the pouring door, the right end of the second magnet is elastically connected at the left end of a second electromagnet through a second magnet spring, the second electromagnet is fixedly connected at the left end of a second magnet motor, the second magnet motor is fixedly arranged on the pouring vehicle, and a fourth belt pulley is fixedly connected on the wheel shaft at the right side, the fourth belt pulley is abutted with a second belt, the top end of the second belt is abutted against a third belt pulley, the third belt pulley is fixedly connected to a seventh bevel gear shaft, the seventh bevel gear shaft is rotatably connected to the pouring trolley, an eighth bevel gear is fixedly connected to the seventh bevel gear shaft in front of the third belt pulley, the eighth bevel gear is meshed with the seventh bevel gear, the seventh bevel gear is fixedly connected to the left end of a third rotating shaft, the third rotating shaft is rotatably connected to the pouring trolley and the pouring trolley head, and the right end of the third rotating shaft is fixedly connected with a sixth bevel gear which can be meshed with the fourth bevel gear on the right side.

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