CN113548447A

CN113548447A - Building feeding equipment

Info

Publication number: CN113548447A
Application number: CN202110844268.3A
Authority: CN
Inventors: 骆毅
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-07-26
Filing date: 2021-07-26
Publication date: 2021-10-26

Abstract

The building feeding equipment comprises a bottom plate (101), a side plate (102) is fixed on the bottom plate, a feeding mechanism (300) is arranged on the side plate (102), and a hopper (416) is driven by a motor (201) to swing left and right to realize position transfer of materials, so that feeding action is realized.

Description

Building feeding equipment

Technical Field

The invention relates to building equipment, in particular to equipment for feeding materials in a building process.

Background

With the development of the country and the progress of society, the urbanization degree of the country is gradually increased, and urban residents rise year by year, so that the urban housing demand also rises year by year, the development of the building industry is greatly promoted, the development of the building industry pulls employment of the society, and the economic development of the country is also promoted.

Disclosure of Invention

The invention aims to provide the building feeding equipment which is simple in structure, low in cost and simple and convenient to operate.

The invention relates to a building feeding device, which comprises

A bottom plate on which a side plate is fixed;

and the feeding mechanism is arranged on the side plate and drives the hopper to swing left and right through the motor, so that the position of the material is transferred, and the feeding action is completed.

The invention relates to a building feeding device, wherein

The feeding mechanism comprises a first crank, a second pin shaft, a first strip hole, a first strip rod, a first rack, a first gear, a third pin shaft, a first supporting plate, a first bevel gear, a second bevel gear, a fourth pin shaft, a transfer frame and a first guide rail;

the motor is fixed on the bottom plate, an output shaft of the motor is in driving connection with one end of the first crank, the other end of the first crank is fixedly connected with one end of the second pin shaft, the second pin shaft is arranged in the first strip-shaped hole and moves along the first strip-shaped hole, the first strip-shaped hole is formed in the first strip-shaped rod along the length direction of the first strip-shaped hole, one end of the first strip-shaped rod is arranged in the first guide rail and moves along the first guide rail, the first guide rail is fixedly connected with the side plate, the first strip-shaped rod is fixedly connected with the first rack, the first rack is meshed with the first gear, the first gear is coaxially fixed with the third pin shaft, one end of the third pin shaft is installed on the side plate through a bearing, one end of the first support plate is fixed in the middle of the third pin shaft, and the other end of the third pin shaft is coaxially fixed with the first bevel gear, the first bevel gear is meshed with the second bevel gear, the second bevel gear is coaxially fixed with the fourth pin shaft, the middle part of the fourth pin shaft is installed at the other end of the first supporting plate through a bearing, the other end of the fourth pin shaft is fixedly connected with the transfer frame, and the transfer frame is connected with the hopper.

The invention relates to a building feeding device, wherein

The motor also drives a clamping mechanism, and the clamping mechanism comprises a first belt pulley, a second belt pulley, a fifth pin shaft, a second gear, a first gear ring, a sixth pin shaft, a first connecting rod, a second connecting rod, a third supporting rod and a hopper;

an output shaft of the motor is coaxially fixed with the first belt pulley, the first belt pulley is in belt transmission with the second belt pulley, the second belt pulley is coaxially fixed with the fifth pin shaft, the fifth pin shaft is installed on the bottom plate through a bearing, the second gear is coaxially fixed at the other end of the fifth pin shaft, the second gear is meshed with the first gear ring, the first gear ring is coaxially arranged with the sixth pin shaft, and the sixth pin shaft is fixedly connected with the transfer frame;

first ring gear fixed surface has the one end of first connecting rod, the other end of first connecting rod with the one end hinged joint of second connecting rod, the middle part of second connecting rod with the one end hinged joint of third connecting rod, the other end of third connecting rod with the one end hinged joint of third bracing piece, the middle part of third bracing piece with shift a fixed connection, the other end and one of them of second connecting rod hopper fixed connection, another the hopper with shift a fixed connection.

The invention relates to a building feeding device, wherein

The clamping mechanism further comprises a third gear and a seventh pin shaft;

the first gear ring is meshed with the third gear, the third gear is coaxially fixed with one end of a seventh pin shaft, and the seventh pin shaft is installed on the transfer frame through a bearing;

the structure formed by the first connecting rods, the second connecting rods, the third connecting rods and the hopper is symmetrically distributed around the central line of the transfer frame, one end of one first connecting rod is fixedly connected with the surface of the first gear ring, and one end of the other first connecting rod is fixedly connected with the surface of the third gear.

The invention relates to a building feeding device, wherein

The clamping mechanism further comprises ratchet teeth, a clamping hook, a first magnet, a first electromagnet and a first spring;

the ratchet wheel teeth are uniformly distributed on the inner circumferential surface of the first gear ring, the ratchet wheel teeth can be in lap joint with one end of the clamping hook, the first magnet is fixed on the side surface of the clamping hook, the other end of the clamping hook is hinged with the outer circumferential surface of the sixth pin shaft, one end of the first spring is fixed on the outer circumferential surface of the sixth pin shaft, the other end of the first spring is fixedly connected with the middle of the clamping hook, the first electromagnet is further fixed on the outer circumferential surface of the sixth pin shaft, and the first electromagnet can be attracted to the first magnet.

The invention relates to a building feeding device, wherein

The motor drives the feeding mechanism through an intermittent mechanism, and the intermittent mechanism comprises a first disc, a first tooth, a first driving block, a first deflector rod, a first intermittent wheel, a second tooth, a first notch and a ninth pin shaft;

an output shaft of the motor is coaxially fixed with the first disc, one side of the outer circumferential surface of the first disc is uniformly provided with a plurality of first teeth, one end of the first driving block is fixed on the surface of the first disc in a non-coaxial way, the first driving block can be lapped with the first deflector rod, the first deflector rod is fixed on the outer circumferential surface of the ninth pin shaft, the first intermittent wheel is coaxially fixed in the middle of the ninth pin shaft, a plurality of second teeth are uniformly distributed on one side of the outer circumferential surface of the first intermittent wheel and can be meshed with the first teeth, the other side of the outer circumferential surface of the first intermittent wheel is provided with a first notch which can be lapped with the outer circumferential surface of the first disc, one end of the ninth pin shaft is mounted on the bottom plate through a bearing, and the other end of the ninth pin shaft is fixedly connected with one end of the first crank.

The invention relates to a building feeding device, wherein a first supporting plate is a bending rod.

A compounding equipment which characterized in that: comprises that

A bottom plate on which a side plate is fixed;

the driving part is arranged on the side plate, the hopper is driven by the motor to swing left and right, the hopper can rotate, so that the materials are fully mixed, and the materials after being mixed and the materials before being mixed can be stacked separately.

The building feeding equipment is different from the prior art in that the building feeding equipment can realize automatic feeding action of the building materials, saves manpower and can improve working efficiency.

The building feeding equipment of the invention is further explained with reference to the attached drawings.

Drawings

FIG. 1 is a front view of a building loading apparatus;

FIG. 2 is a side view of a building loading apparatus of the type shown in FIG. 1;

FIG. 3 is an isometric view of one of the construction feeding devices of FIG. 1;

FIG. 4 is a partially enlarged isometric view of FIG. 3;

FIG. 5 is a partial perspective view of FIG. 3;

FIG. 6 is a partial top plan view of the construction feeding apparatus of FIG. 1;

FIG. 7 is a modified view of the construction feeding apparatus of FIG. 1;

Detailed Description

As shown in figures 1, 2 and 3, the building feeding equipment comprises

A bottom plate 101 to which a side plate 102 is fixed;

and the feeding mechanism 300 is installed on the side plate 102, drives the hopper 416 to swing left and right through the motor 201, and realizes position transfer of materials, so that the feeding action is completed.

According to the invention, the motor 201 rotates through the output shaft 202, so that the hopper 416 is driven to swing, and materials such as bricks, stones, sand and ash can be transferred in the swinging process, so that the purpose of automatic feeding is realized, the manual labor is reduced, and the building construction efficiency is improved.

Wherein the base plate 101 can be placed on the ground;

the power module of the motor 201 comprises a battery, an electric control module and a wireless communication module, and the wireless communication module is in wireless connection with the user terminal.

According to the invention, through the wireless communication module, a user can directly control the rotation and the rotating speed of the motor 201, so that the control of the swinging speed of the hopper 416 is realized, and the feeding rate is further controlled.

As a further explanation of the invention, with reference to figure 4,

the feeding mechanism 300 comprises a first crank 309, a second pin shaft 310, a first elongated hole 311, a first elongated rod 312, a first rack 313, a first gear 314, a third pin shaft 315, a first support plate 316, a first bevel gear 317, a second bevel gear 318, a fourth pin shaft 319, a transfer frame 320 and a first guide rail 321;

the motor 201 is fixed on the bottom plate 101, the output shaft 202 of the motor 201 is in driving connection with one end of the first crank 309, the other end of the first crank 309 is fixedly connected with one end of the second pin shaft 310, the second pin shaft 310 is arranged in the first long hole 311 and moves along the first long hole, the first long hole 311 is arranged on the first long rod 312 along the length direction, one end of the first long rod 312 is arranged in the first guide rail 321 and moves along the first guide rail 321, the first guide rail 321 is fixedly connected with the side plate 102, the first long rod 312 is fixedly connected with the first rack 313, the first rack 313 is engaged with the first gear 314, the first gear 314 is coaxially fixed with the third pin shaft 315, one end of the third pin shaft 315 is mounted on the side plate 102 through a bearing, one end of the first support plate 316 is fixed in the middle of the third pin shaft 315, the other end of the third pin 315 is coaxially fixed to the first bevel gear 317, the first bevel gear 317 is engaged with the second bevel gear 318, the second bevel gear 318 is coaxially fixed to the fourth pin 319, the middle of the fourth pin 319 is mounted to the other end of the first support plate 316 through a bearing, the other end of the fourth pin 319 is fixedly connected to the transfer frame 320, and the transfer frame 320 is connected to the hopper 416.

According to the invention, the motor 201 drives the transfer frame 320 to swing left and right through the output shaft 202, and meanwhile, the transfer frame 320 can rotate in the swinging process, so that the loading, transferring and unloading of building materials are facilitated, the supply of the materials is better realized, and the working efficiency is further improved.

The output shaft 202 of the motor 201 drives the first crank 309 to rotate, the second pin shaft 310, the first elongated hole 311 and the first elongated rod 312 drive the first rack 313 to move left and right, so as to drive the first gear 314 and the third pin shaft 315 to synchronously rotate, the first support plate 316 is used for realizing the left and right swinging of the fourth pin shaft 319 and the transfer rack 320, and the first bevel gear 317 and the second bevel gear 318 are engaged to realize the synchronous rotation of the fourth pin shaft 319 and the transfer rack 320, so that the rotation of the transfer rack 320 in the left and right swinging process is realized, and the transfer and unloading of materials are more convenient.

Wherein, the output shaft 202 of the motor 201 is fixedly connected with one end of the first crank 309.

Wherein the first long bar 312 and the first rack 313 are preferably perpendicular to each other, facilitating the left and right movement of the first rack 313.

Wherein, the transfer frame 320 is fixedly connected with the hopper 416.

Wherein the first guide rail 321 is horizontally disposed.

The first guide rail 321 may be a dovetail guide rail, and one end of the first long bar 312 is provided with a dovetail slider, and the dovetail slider may be disposed in and move along the dovetail guide rail, so that it is ensured that the first long bar 312 can only slide left and right, and cannot move up and down and rotate.

As a further explanation of the invention, with reference to figure 5,

the motor 201 also drives a clamping mechanism 400, and the clamping mechanism 400 comprises a first belt pulley 401, a second belt pulley 406, a fifth pin 407, a second gear 408, a first gear ring 409, a sixth pin 410, a first connecting rod 412, a second connecting rod 413, a third connecting rod 414, a third supporting rod 415 and a hopper 416;

the output shaft 202 of the motor 201 is coaxially fixed with the first belt pulley 401, the first belt pulley 401 is in belt transmission with the second belt pulley 406, the second belt pulley 406 is coaxially fixed with the fifth pin shaft 407, the fifth pin shaft 407 is mounted on the base plate 101 through a bearing, the second gear 408 is coaxially fixed at the other end of the fifth pin shaft 407, the second gear 408 is engaged with the first gear ring 409, the first gear ring 409 is coaxially arranged with the sixth pin shaft 410, and the sixth pin shaft 410 is fixedly connected with the transfer frame 320;

the surface of the first gear ring 409 is fixed with one end of the first connecting rod 412, the other end of the first connecting rod 412 is hinged with one end of the second connecting rod 413, the middle part of the second connecting rod 413 is hinged with one end of the third connecting rod 414, the other end of the third connecting rod 414 is hinged with one end of the third supporting rod 415, the middle part of the third supporting rod 415 is fixedly connected with the transfer frame 320, the other end of the second connecting rod 413 is fixedly connected with one of the hoppers 416, and the other hopper 416 is fixedly connected with the transfer frame 320.

According to the invention, the motor 201 drives the hoppers 416 to approach each other and clamp, so that the hoppers 416 clamp materials, and the feeding mechanism 300 is combined to transfer the materials in the hoppers 416, so that a feeding function is realized.

According to the invention, the motor 201 drives the first belt pulley 401 to rotate through the output shaft 202 thereof, so as to drive the first transmission belt 402, the second belt pulley 406, the fifth pin 407 and the second gear 408 to synchronously rotate, further drive the first gear ring 409 and the third gear 418 to rotate, further drive the first connecting rod 412 to rotate, so that the two hoppers 416 are close to each other to clamp, and finally realize the clamping of the hoppers 416 to the material.

Wherein, two hoppers 416 can be overlapped, thereby realizing the clamping and transferring of the material by the hoppers 416.

The first gear ring 409 is coaxially disposed with the sixth pin 410 through a bearing, an inner circumferential circle of the first gear ring is fixedly connected with the bearing, and the sixth pin 410 is fixedly connected with an inner circumferential surface of the bearing.

A second magnet is fixed on one of the hoppers 416, a second electromagnet is fixed on the other hopper 416, the second electromagnet can attract the second magnet, a power module of the second electromagnet is fixed on the bottom plate 101, the power module is connected with a user terminal through a wireless communication module, and the user terminal controls the attraction and repulsion of the second electromagnet and the second magnet to realize the opening and closing of the two hoppers 416, so that the clamping and unloading of materials are controlled.

The first link 412 and the second link 413 are parallel, and the first link 412, the second link 413 and the third link 414 form a four-bar structure.

The first belt pulley 401 is in belt transmission with a third belt pulley 403 through a first transmission belt 402, the third belt pulley 403 is coaxially fixed with one end of an eighth pin 425, the middle part of the eighth pin 425 is coaxially fixed with a fourth belt pulley 404, and the fourth belt pulley 404 is in belt transmission with a second belt pulley 406 through a second transmission belt.

As a further explanation of the invention, with reference to figure 4,

the clamping mechanism 400 further comprises a third gear 418 and a seventh pin 419;

the first gear ring 409 is meshed with the third gear 418, the third gear 418 is coaxially fixed with one end of the seventh pin 419, and the seventh pin 419 is mounted on the transfer frame 320 through a bearing;

the first connecting rods 412, the second connecting rods 413, the third connecting rods 414 and the hopper 416 are symmetrically distributed about the center line of the transfer frame 320, wherein one end of one of the first connecting rods 412 is fixedly connected with the surface of the first gear ring 409, and one end of the other first connecting rod 412 is fixedly connected with the surface of the third gear 418.

The structure formed by the first connecting rod 412, the second connecting rod 413, the third connecting rod 414 and the hoppers 416 is symmetrically distributed about the central line of the transfer frame 320, so that the two hoppers 416 move together to realize opening and closing, the opening and closing range of the two hoppers 416 is increased, and the materials are clamped more conveniently.

As a further explanation of the invention, with reference to figure 5,

the clamping mechanism 400 further comprises ratchet teeth 420, a hook 421, a first magnet 422, a first electromagnet 424 and a first spring 423;

the inner circumferential surface of the first gear ring 409 is uniformly provided with a plurality of ratchet teeth 420, the ratchet teeth 420 can be lapped with one end of a hook 421, the side surface of the hook 421 is fixed with a first magnet 422, the other end of the hook 421 is hinged with the outer circumferential surface of a sixth pin 410, the outer circumferential surface of the sixth pin 410 is fixed with one end of a first spring 423, the other end of the first spring 423 is fixedly connected with the middle part of the hook 421, the outer circumferential surface of the sixth pin 410 is also fixed with a first electromagnet 424, and the first electromagnet 424 can attract the first magnet 422.

According to the invention, the hook 421 is overlapped with the ratchet teeth 420 distributed on the inner circumferential surface of the first gear ring 409, so that the first gear ring 409 can only rotate in a single direction, and the first gear ring 409 is blocked, so that the two hoppers 416 keep a clamping state, and the clamped materials cannot fall off in the transferring process of the hoppers 416.

When the first magnet 422 and the first electromagnet 424 are not overlapped, the hook 421 is overlapped with the ratchet teeth 420, at the moment, the first gear ring 409 can only rotate in a single direction, so that the hopper 416 keeps a clamping state, when the first magnet 422 and the first electromagnet 422 are overlapped, the hook 421 is overlapped with the ratchet teeth 420 to be invalid, at the moment, the first gear ring 409 can rotate freely, so that the hopper 416 can be loosened, and the clamped materials can fall down smoothly.

The power module of the first electromagnet 424 is fixed on the bottom plate 101, the power module is connected with a user terminal through a wireless communication module, and the user terminal controls the attraction and repulsion of the first electromagnet 424 and the first magnet 422 to realize the switching between the overlapping and the overlapping failure of the hook 421 and the ratchet teeth 420, so that the conversion between the unidirectional rotation state and the free rotation state of the first gear ring 409 is realized.

The surface of the first gear ring 409 is fixedly connected with one end of a fourth supporting rod 411, and the other end of the fourth supporting rod 411 is mounted on the sixth pin 410 through a bearing.

The other end of the seventh pin 410 is coaxially fixed to the second disc 425, the outer circumferential surface of the second disc 425 is hinged to the other end of the hook 421, the outer circumferential surface of the second disc 425 is fixedly connected to one end of the first spring 423, and the first electromagnet 424 is fixed to a position where the outer circumferential surface of the second disc 425 faces the first spring 422.

The side surfaces of the hoppers 416 are inclined from outside to inside in the direction from the position close to the other hopper 416 to the position far away from the other hopper 416, so that when the clamping hook 421 and the ratchet teeth 420 are in lap joint failure, the two hoppers 416 can be smoothly opened under the action of gravity, and unloading of materials is realized.

As a further explanation of the invention, with reference to figure 4,

the motor 201 drives the feeding mechanism 300 through an intermittent mechanism 500, and the intermittent mechanism 500 comprises a first disc 301, a first tooth 302, a first driving block 303, a first driving lever 307, a first intermittent wheel 304, a second tooth 305, a first notch 306 and a ninth pin shaft 308;

the output shaft 202 of the motor 201 is coaxially fixed with the first disc 301, one side of the outer circumferential surface of the first disc 301 is uniformly provided with a plurality of first teeth 302, one end of the first driving block 303 is non-coaxially fixed on the surface of the first disc 301, the first driving block 303 can be overlapped with the first driving lever 307, the first driving lever 307 is fixed on the outer circumferential surface of the ninth pin shaft 308, the first intermittent wheel 304 is coaxially fixed in the middle of the ninth pin shaft 308, a plurality of second teeth 305 are uniformly distributed on one side of the outer circumferential surface of the first intermittent wheel 304, the second teeth 305 can be engaged with the first teeth 302, the other side of the outer circumferential surface of the first intermittent wheel 304 is provided with the first notch 306, the first notch 306 can be overlapped with the outer circumferential surface of the first disc 301, one end of the ninth pin shaft 308 is mounted on the bottom plate 101 through a bearing, the other end of the ninth pin 308 is fixedly connected to one end of the first crank 309.

According to the invention, the motor 201 drives the feeding mechanism 300 to indirectly swing through the intermittent mechanism 500, so that the work of the clamping mechanism 400 is realized within the swing intermittent time of the feeding mechanism 300, the feeding mechanism 300 and the clamping mechanism 400 are intermittently matched with each other, the clamping, transferring and unloading of materials are realized, the whole action process is smoother, the feeding function can be better realized, and the working efficiency is improved.

The motor 201 drives the first disk 301 to rotate through its output shaft 202, when the outer circumferential surface of the first disk 301 is overlapped with the first notch 306, the first disk 301 rotates and the first intermittent wheel 304 does not rotate, when the first driving block 303 is overlapped with the first shift lever 307, the first intermittent wheel 304 starts to rotate, so that the first tooth 302 is engaged with the second tooth 305, the first intermittent wheel 304 is driven to continue to rotate until the outer circumferential surface of the first disk 301 is overlapped with the next first notch 306, and at this time, the first intermittent wheel 305 stops rotating.

Wherein, the number of the first rods 307 and the first notches 306 is equal.

The length direction of the first lever 307 points to the direction of the first notch 306, so that after the first driving block 303 drives the first lever 307 to rotate, the first tooth 302 just engages with the second tooth 305.

Wherein the second tooth 305 is spaced apart from the first notch 306.

As a further explanation of the invention, with reference to figure 4,

the first support plate 316 is a bent rod.

The first supporting plate 316 is a bent plate, and the included angle thereof is preferably 90 degrees.

Referring to fig. 1, 2, 3 and 7, the invention relates to a mixing device, which is characterized in that: comprises that

A bottom plate 101 to which a side plate 102 is fixed;

and a driving part 300 which is installed on the side plate 102, drives the hopper 416 to swing left and right through the motor 201, and the hopper 416 can rotate, so that the materials are fully mixed, and the materials after being mixed and the materials before being mixed can be piled.

The motor 201 of the present invention realizes the left and right swing of the hopper 416 and the self rotation of the hopper 416 by the driving part 300, so that the materials can be sufficiently mixed, and the materials can be separated from each other by the control of the user terminal after being mixed.

The above-mentioned embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solution of the present invention by those skilled in the art should fall within the protection scope defined by the claims of the present invention without departing from the spirit of the present invention.

Claims

1. The utility model provides a building charging equipment which characterized in that: comprises that

A bottom plate (101) on which a side plate (102) is fixed;

and the feeding mechanism (300) is arranged on the side plate (102), drives the hopper (416) to swing left and right through the motor (201), so that the position of the material is transferred, and the feeding action is completed.

2. A building loading apparatus as claimed in claim 1, wherein:

the feeding mechanism (300) comprises a first crank (309), a second pin shaft (310), a first long hole (311), a first long rod (312), a first rack (313), a first gear (314), a third pin shaft (315), a first supporting plate (316), a first bevel gear (317), a second bevel gear (318), a fourth pin shaft (319), a transfer frame (320) and a first guide rail (321);

the motor (201) is fixed on the bottom plate (101), an output shaft (202) of the motor (201) is in driving connection with one end of the first crank (309), the other end of the first crank (309) is fixedly connected with one end of the second pin shaft (310), the second pin shaft (310) is arranged in the first long bar hole (311) and moves along the first long bar hole, the first long bar hole (311) is arranged on the first long bar (312) along the length direction of the first long bar hole, one end of the first long bar (312) is arranged in the first guide rail (321) and moves along the first guide rail (321), the first guide rail (321) is fixedly connected with the side plate (102), the first long bar (312) is fixedly connected with the first rack (313), the first rack (313) is engaged with the first gear (314), and the first gear (314) is coaxially fixed with the third pin shaft (315), one end of the third pin shaft (315) is mounted on the side plate (102) through a bearing, one end of the first support plate (316) is fixed to the middle of the third pin shaft (315), the other end of the third pin shaft (315) is coaxially fixed to the first bevel gear (317), the first bevel gear (317) is meshed with the second bevel gear (318), the second bevel gear (318) is coaxially fixed to the fourth pin shaft (319), the middle of the fourth pin shaft (319) is mounted at the other end of the first support plate (316) through a bearing, the other end of the fourth pin shaft (319) is fixedly connected to the transfer frame (320), and the transfer frame (320) is connected to the hopper (416).

3. A building loading apparatus as claimed in claim 2, wherein:

the clamping mechanism (400) is driven by the motor (201), and the clamping mechanism (400) comprises a first belt pulley (401), a second belt pulley (406), a fifth pin shaft (407), a second gear (408), a first gear ring (409), a sixth pin shaft (410), a first connecting rod (412), a second connecting rod (413), a third connecting rod (414), a third supporting rod (415) and a hopper (416);

an output shaft (202) of the motor (201) is coaxially fixed with the first belt pulley (401), the first belt pulley (401) is in belt transmission with the second belt pulley (406), the second belt pulley (406) is coaxially fixed with the fifth pin shaft (407), the fifth pin shaft (407) is mounted on the bottom plate (101) through a bearing, the second gear (408) is coaxially fixed at the other end of the fifth pin shaft (407), the second gear (408) is meshed with the first gear ring (409), the first gear ring (409) is coaxially arranged with the sixth pin shaft (410), and the sixth pin shaft (410) is fixedly connected with the transfer frame (320);

the surface of the first gear ring (409) is fixed with one end of the first connecting rod (412), the other end of the first connecting rod (412) is hinged to one end of the second connecting rod (413), the middle of the second connecting rod (413) is hinged to one end of the third connecting rod (414), the other end of the third connecting rod (414) is hinged to one end of the third supporting rod (415), the middle of the third supporting rod (415) is fixedly connected with the transfer frame (320), the other end of the second connecting rod (413) is fixedly connected with one of the hoppers (416), and the other hopper (416) is fixedly connected with the transfer frame (320).

4. A building loading apparatus as claimed in claim 3, wherein:

the clamping mechanism (400) further comprises a third gear (418) and a seventh pin shaft (419);

the first gear ring (409) is meshed with the third gear (418), the third gear (418) is coaxially fixed with one end of a seventh pin shaft (419), and the seventh pin shaft (419) is mounted on the transfer frame (320) through a bearing;

the structure formed by the first connecting rods (412), the second connecting rods (413), the third connecting rods (414) and the hopper (416) is symmetrically distributed about the central line of the transfer frame (320), wherein one end of one first connecting rod (412) is fixedly connected with the surface of the first gear ring (409), and one end of the other first connecting rod (412) is fixedly connected with the surface of the third gear (418).

5. A building loading apparatus as claimed in claim 4, wherein:

the clamping mechanism (400) further comprises ratchet teeth (420), a clamping hook (421), a first magnet (422), a first electromagnet (424) and a first spring (423);

the inner circumferential surface of the first gear ring (409) is uniformly provided with a plurality of ratchet teeth (420), the ratchet teeth (420) can be in lap joint with one end of a clamping hook (421), the side surface of the clamping hook (421) is fixed with a first magnet (422), the other end of the clamping hook (421) is in hinged connection with the outer circumferential surface of a sixth pin shaft (410), the outer circumferential surface of the sixth pin shaft (410) is fixed with one end of a first spring (423), the other end of the first spring (423) is fixedly connected with the middle of the clamping hook (421), the outer circumferential surface of the sixth pin shaft (410) is further fixed with a first electromagnet (424), and the first electromagnet (424) can be mutually attracted with the first magnet (422).

6. A building loading apparatus as claimed in claim 5, wherein:

the motor (201) drives the feeding mechanism (300) through an intermittent mechanism (500), and the intermittent mechanism (500) comprises a first disc (301), a first tooth (302), a first driving block (303), a first shifting rod (307), a first intermittent wheel (304), a second tooth (305), a first notch (306) and a ninth pin shaft (308);

the output shaft (202) of the motor (201) is coaxially fixed with the first disc (301), one side of the outer circumferential surface of the first disc (301) is uniformly provided with a plurality of first teeth 302, one end of the first driving block (303) is non-coaxially fixed on the surface of the first disc (301), the first driving block (303) can be overlapped with the first driving lever (307), the first driving lever (307) is fixed on the outer circumferential surface of the ninth pin shaft (308), the middle of the ninth pin shaft (308) is coaxially fixed with the first intermittent wheel (304), one side of the outer circumferential surface of the first intermittent wheel (304) is uniformly distributed with a plurality of second teeth (305), the second teeth (305) can be meshed with the first teeth (302), the other side of the outer circumferential surface of the first intermittent wheel (304) is provided with a first notch (306), the first notch (306) can be overlapped with the outer circumferential surface of the first disc (301), one end of a ninth pin shaft (308) is installed on the bottom plate (101) through a bearing, and the other end of the ninth pin shaft (308) is fixedly connected with one end of the first crank (309).

7. A building loading apparatus as claimed in claim 6, wherein: the first support plate (316) is a bent rod.

8. A compounding equipment which characterized in that: comprises that

A bottom plate (101) on which a side plate (102) is fixed;

and a driving part (300) which is installed on the side plate (102), drives the hopper (416) to swing left and right through a motor (201), and the hopper (416) can rotate, so that the materials are fully mixed, and the materials after being mixed and the materials before being mixed can be stacked.