CN116786250A

CN116786250A - Sand and stone aggregate shaping equipment

Info

Publication number: CN116786250A
Application number: CN202311090120.0A
Authority: CN
Inventors: 丁作良; 曹晓龙; 任登科; 沈贵平; 裴书正; 刘超
Original assignee: Xinxiang Green Machinery Co ltd
Current assignee: Xinxiang Green Machinery Co ltd
Priority date: 2023-08-28
Filing date: 2023-08-28
Publication date: 2023-09-22

Abstract

The invention relates to the technical field of sand and stone crushing, in particular to sand and stone aggregate shaping equipment. The invention aims to provide shaping equipment capable of timely crushing oversized sand into small sand or slightly smaller sand. The technical scheme is as follows: the utility model provides a grit aggregate plastic equipment, including the supporter, grinding device, smash the device, shaping device, the feed inlet, discharge gate and screening plant, the supporter bottom is connected with screening plant, and supporter center through-connection has shaping device, and the round hole has been seted up in shaping device both sides to the supporter, and shaping device bottom is connected with the discharge gate, and shaping device top is connected with smashes the device, smashes the device top and is connected with grinding device, and grinding device top is opened there is the feed chute, and feed chute department is connected with the feed inlet. The grinding device can timely crush the oversized sand into small sand or small sand.

Description

Sand and stone aggregate shaping equipment

Technical Field

The invention relates to the technical field of sand and stone crushing, in particular to sand and stone aggregate shaping equipment.

Background

The sand aggregate is a collective name of sand, broken stone, material stone and other materials in hydraulic engineering, the sand aggregate is a main building material of concrete, piled stone and other structures in hydraulic engineering, the sand aggregate of a natural river bed is prepared into a finished aggregate after being screened and washed, and crushing equipment is also needed to be used as a supplementary means for adjusting the grading of coarse aggregate and crushing super-diameter stone.

In the prior art, the sizes of the sand and stone raw materials fed into the crushing device are different, some large sand and stone blocks are too large, and the excessive sand and stone raw materials are not crushed in time or the crushing degree is not large, so that the equipment can be blocked, and the equipment cannot normally run.

Thus, there is a need for a truer that can break up oversized sand into small or smaller pieces in time.

Disclosure of Invention

The invention aims to overcome the defect that the equipment cannot normally operate due to the fact that excessive sand and stone raw materials are not crushed in time or the crushing degree is not large, and to provide shaping equipment capable of crushing excessive sand and stone into small sand and stone blocks or small sand and stone blocks.

The technical scheme is as follows: a sand aggregate shaping device, characterized by: including the supporter, grinding device, smash the device, shaping device, the feed inlet, discharge gate and screening plant, the supporter bottom is connected with screening plant, supporter center through connection has shaping device, shaping device bottom is connected with the discharge gate, shaping device top is connected with smashes the device, it is connected with grinding device to smash the device top, grinding device top is connected with the feed inlet, grinding device is including first motor, first eccentric shaft, grinding jaw and crushing shell, it is equipped with grinding shell to smash the device top, it has the feed chute to open at grinding shell top, feed chute and feed inlet fixed connection, the inside sliding connection of grinding shell has grinding jaw, grinding jaw surface evenly is equipped with the tooth, grinding shell inboard is close to grinding jaw tooth's one side evenly is equipped with the tooth, grinding shell surface is opened there is the rotary groove, grinding jaw outstanding one end is passed the rotary groove and is rotated and is connected with first eccentric shaft, first eccentric shaft is kept away from grinding jaw's one end fixedly connected with first motor, grinding shell is close to one side fixedly connected with backup pad of first motor, first motor and backup pad fixedly connected with.

As a preferable technical scheme of the invention, the grinding device further comprises an anti-blocking plate, and the anti-blocking plate is fixedly connected to the inside of the bottom end of the grinding shell.

As a preferred technical scheme of the invention, the shaping device comprises a second motor, a shaping cone, a partition block, an inner sliding arc body, a shaping shell, a chassis, a first bevel gear, a second bevel gear, a rotary rod and a third bevel gear, wherein the center of the support body is fixedly connected with the shaping shell in a penetrating way, the bottom end of the shaping shell is fixedly connected with a discharge hole, the partition block is fixedly connected inside the shaping shell, the bottom end of the partition block is fixedly connected with the chassis, three rotating grooves are arranged on the surface of the chassis, a sliding groove is formed in the center of the partition block, the second motor is fixedly connected in the sliding groove, the bottom end of the second motor is provided with a rotating shaft, the rotating shaft at the bottom end of the second motor penetrates through the rotating groove in the center of the chassis, the first bevel gear is fixedly connected with the first bevel gear, one side of the first bevel gear is symmetrically meshed with the second bevel gear, one end of the second bevel gear far away from the first bevel gear is fixedly connected with the rotary rod, the other end of the rotary rod is fixedly connected with the third bevel gear, the upper part of the shaping cone is meshed with the shaping cone, the periphery of the shaping cone is provided with an inner sliding arc body, the inner sliding arc body is provided with a hole, the shaping cone is positioned in the hole, the bottom end of the inner sliding arc body is fixedly connected with the chassis, and the outer surface of the shaping arc body is fixedly connected with the chassis.

As a preferable technical scheme of the invention, the top surface of the inner sliding arc body is a Kong Naqing inclined plane, and the hole is a conical hole.

As a preferred technical scheme of the invention, the shaping device further comprises a connecting protection body and a supporting shaft, the bottom end of the chassis is fixedly connected with the connecting protection body, a round hole is formed in the connecting protection body and is rotationally connected with the rotary rod, a rotary hole is further formed in one side of the connecting protection body, the supporting shaft is rotationally connected with the rotary hole, and the top end of the supporting shaft is rotationally connected with the shaping cone.

As a preferable technical scheme of the invention, the shaping device further comprises a rotating ring and a second eccentric shaft, the bottom end of the shaping cone is provided with a rotating hole, the rotating hole at the bottom end of the shaping cone is rotationally connected with the second eccentric shaft, the bottom end of the second eccentric shaft is fixedly connected with the rotating ring, the bottom end of the rotating ring is provided with conical teeth, and the conical teeth are meshed with a third conical gear.

As a preferred technical scheme of the shaping device, the shaping device further comprises a first driving belt, a driving shaft and a second driving belt, the smashing device comprises a rotating shaft, smashing teeth, a smashing shell and a connecting ring, the driving shaft is rotationally connected in a partition block, the driving shaft is located at one side of the second motor, the upper end of the second motor is rotationally connected with the rotating shaft, the top end of the rotating shaft is rotationally connected with the bottom end of the anti-blocking plate, the first driving belt is arranged on the rotating shaft at the bottom end of the second motor and the bottom end of the driving shaft, the second driving belt is arranged on the top end of the driving shaft and the bottom end of the rotating shaft, the smashing teeth are uniformly and fixedly connected with the bottom end surface of the rotating shaft, the bottom end of the smashing shell is rotationally connected with the top end of the shaping cone, the inner wall of the smashing shell is uniformly provided with teeth, the top end of the smashing shell is fixedly connected with the connecting ring, the top end of the connecting ring is fixedly connected with the smashing shell, and round holes are formed in two sides of the connecting ring.

As a preferred technical scheme of the invention, the surface of the connecting ring is provided with the dust collection device, the dust collection device comprises a dust collection pipe, a fixed block, an air pump and a dust box, the bottom end of the support body is symmetrically and fixedly connected with the fixed block, a round hole is formed in the fixed block, one end of the fixed block is slidably connected with the dust box, the air pump is arranged above the dust box, the bottom end of the air pump is provided with an air pipe, the air pump is connected with the dust box through the air pipe, one end of the air pump is fixedly connected with the dust collection pipe, and the other end of the dust collection pipe is fixedly connected with the round holes formed in two sides of the connecting ring through the round hole in the fixed block and the round hole formed in the support body.

As a preferable technical scheme of the invention, the screening device comprises a screening body, support rods and clamping blocks, wherein the screening body is arranged below the support body, two support rods are respectively connected to two sides of the screening body, the top ends of the support rods are fixedly connected with the support body, clamping grooves are formed in the bottoms of the support rods, sliding grooves are formed in the clamping grooves, the clamping blocks are connected in a sliding mode, and the clamping blocks are fixedly connected with the screening body through the sliding grooves.

As a preferable technical scheme of the invention, the screening device further comprises a vibrating machine, and one end of the screening body, which is higher, is fixedly connected with the vibrating machine.

The invention has the following advantages: 1. the grinding device can timely crush the oversized sand into small sand or slightly smaller sand; the multiple crushing processing of the crushing device, the crushing device and the shaping device can lead the processed sand to be more uniform and regular.

2. The invention can break up the larger sand and stone blocks into smaller sand and stone blocks through the secondary processing of the breaking device.

3. The dust suction device can suck all dust in the crushing process and discharge the dust, so that the cleanliness of the interior of the dust suction device is ensured.

4. The screening body can separate the finished sand and stone, and a series of consequences caused by mixing sand and stone with different sizes are avoided.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a cross-sectional view of the crushing device of the present invention.

Figure 3 is a cross-sectional elevation view of the crushing device and the shaping device of the present invention.

Figure 4 is a side view of the crushing and shaping device of the present invention in cross-section.

Fig. 5 is a detailed structural view of the crushing device of the present invention.

Fig. 6 is a schematic structural view of the bottom end of the shaping device of the present invention.

FIG. 7 is a schematic cross-sectional view of the shaping cone of the present invention.

Fig. 8 is a schematic structural view of the dust suction device of the present invention.

Fig. 9 is a schematic view of the entire structure of the screening apparatus of the present invention.

Reference numerals: 1: support body, 2: grinding device, 201: first motor, 202: first eccentric shaft, 203: grinding jaw, 204: grinding the outer shell, 205: anti-sticking board, 3: breaking device, 301: rotation axis, 302: breaking up teeth, 303: breaking up the shell, 304: connection ring, 4: shaping device, 401: second motor, 402: first belt, 403: transmission shaft, 404: second belt, 405: shaping cone, 4051: rotating ring, 4052: second eccentric shaft, 406: spacer block, 407: inner sliding arc, 408: shaping shell, 409: chassis, 410: first bevel gear, 411: second bevel gear, 412: rotating rod, 413: connection protector, 414: third bevel gear, 415: support shaft, 5: feed inlet, 6: discharge gate, 7: dust extraction, 701: dust collection pipe, 702: fixed block, 703: suction pump, 704: dust box, 8: screening device, 801: screening body, 802: vibration machine, 803: support bar, 804: and (5) clamping blocks.

Detailed Description

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

Example 1

The sand aggregate shaping equipment, as shown in figure 1, including supporter 1, grinding device 2, smash device 3, shaping device 4, feed inlet 5, discharge gate 6 and screening plant 8, supporter 1 bottom is connected with screening plant 8, supporter 1 center through-connection has shaping device 4, shaping device 4 bottom is connected with discharge gate 6, shaping device 4 top is connected with smash device 3, smash device 3 top is connected with grinding device 2, grinding device 2 top has feed inlet 5, grinding device 2 includes first motor 201, first eccentric shaft 202, grinding jaw 203 and grinding shell 204, it is equipped with grinding shell 204 to smash device 3 top, grinding shell 204 top is opened there is the feed tank, fixedly connected with feed inlet 5 in the trough department, grinding shell 204 inside sliding connection has grinding jaw 203, grinding jaw 203 surface evenly is equipped with tooth, grinding shell 204 is close to grinding jaw 203 tooth's one side evenly is equipped with the tooth, grinding shell 204 surface is opened and is had the rotation groove, the diameter of rotation groove is about to be greater than jaw 203, grinding jaw 203 outstanding one end is rotated through the rotation groove and is connected with first motor 202, eccentric shaft 202, first motor 203 is equipped with a fixed connection with first backup pad 201 through the rotation groove, first motor 201 is kept away from first motor 201 and is connected with first backup pad 201.

The sand and stone raw materials enter the equipment from the feed inlet 5, firstly, the sand and stone raw materials enter the grinding device 2 to grind the sand and stone with the excessive size into small sand and stone blocks or small sand and stone blocks, the grinding device 2 is driven by the first motor 201 to operate, the first motor 201 rotates to drive the first eccentric shaft 202 to rotate, the first eccentric shaft 202 rotates to drive the grinding jaw 203 to rotate along an arc line, teeth on the surface of the grinding jaw 203 are close to teeth arranged on the grinding shell 204, so that the movement of the upper jaw and the lower jaw during chewing is simulated, the excessive size sand and stone between the two teeth can be extruded when the two teeth are close, the excessive size sand and stone blocks or small sand and stone blocks can be ground into small sand and stone blocks by the two teeth, the crushed sand and stone blocks can be crushed into the crushing device 3, the crushed sand and stone blocks can be crushed into small sand and stone blocks by the crushing device 4, the crushed sand and stone blocks can be further processed into usable sand and stone blocks by the shaping device 4, the crushed sand and stone blocks can be crushed into sand and stone blocks by the shaping device 4 can be further processed into usable sand and stone blocks by the shaping device 8, and stone blocks can be sieved into sand and stone blocks through the screening device 8 to be sieved into usable sand and stone blocks to be sieved by the screening device 8.

As shown in fig. 2 and 3, the grinding device 2 further includes a locking plate 205, the locking plate 205 is fixedly connected to the inside of the bottom end of the grinding shell 204, and one end of the locking plate 205 is an inclined plane.

The inclined surface of the anti-blocking plate 205 can prevent some fine particles in the breaking process from returning to the bottom end of the grinding device 2 to be accumulated and not discharged along with rotation.

Example 2

Based on embodiment 1, as shown in fig. 2-4 and 6, the shaping device 4 comprises a second motor 401, a shaping cone 405, a partition block 406, an inner sliding arc body 407, a shaping shell 408, a chassis 409, a first bevel gear 410, a second bevel gear 411, a rotating rod 412 and a third bevel gear 414, wherein the center of the supporting body 1 is fixedly connected with the shaping shell 408 in a penetrating manner, the bottom end of the shaping shell 408 is fixedly connected with the discharge port 6, the inside of the shaping shell 408 is fixedly connected with the partition block 406, the bottom end of the partition block 406 is fixedly connected with the chassis 409, three rotating grooves are arranged on the surface of the chassis 409, the three rotating grooves are two large and one small, the rotating grooves on two sides are larger, the middle rotating groove is smaller, the center of the partition block 406 is provided with a sliding groove, the second motor 401 is fixedly connected in the sliding groove, the bottom end of the second motor 401 is provided with a rotating shaft, the rotating shaft at the bottom end of the second motor 401 penetrates through the rotating groove in the center of the chassis 409, one side of the first bevel gear 410 is symmetrically meshed with the second bevel gear 411, one end of the second bevel gear 411, which is far away from the first bevel gear 410, the other end of the second bevel gear 412 is fixedly connected with the rotating rod 414, the rotating rod 414 is fixedly connected with the third bevel gear 414, the rotating rod 414 is fixedly connected with the rotating rod 405, the rotating rod 405 is arranged on the third bevel gear 414, the rotating rod is fixedly connected with the inner sliding arc body 405, and the inner sliding arc body 405 is fixedly connected with the inner sliding arc body 405, the inner sliding arc body 405 is positioned on the top surface of the inner sliding arc body 405, and is fixedly connected with the inner sliding arc body 405, and has a round sliding groove 405, and is fixedly connected with the inner sliding arc 405, and has a round sliding groove.

The second motor 401 drives the rotation axis of bottom to rotate, the rotation axis drives first bevel gear 410 to rotate, first bevel gear 410 rotates and drives second bevel gear 411 to rotate, second bevel gear 411 rotates and drives transmission shaft 403 to rotate, transmission shaft 403 rotates and drives third bevel gear 414 to rotate, third bevel gear 414 rotates and drives plastic cone 405 to make conical rotation, plastic cone 405 rotates and can make its surface contact with the hole on interior sliding arc 407 surface, the grit after smashing falls to shaping device 4 department, it can be further processed through plastic cone 405, when plastic cone 405 meets with the hole on interior sliding arc 407 surface, the grit between them can receive the extrusion, receive the extrusion to obtain the grit can break into smaller piece, and plastic cone 405 rotates along the pitch arc and can more even extrusion into the grit piece with the grit.

As shown in fig. 2 and 4, the top surface of the inner sliding arc body 407 is inclined toward Kong Naqing, and the hole is a conical hole.

The broken sand will roll into the hole due to the inclined surface of the inner sliding arc 407, so that the shaping device 4 completes the processing operation.

As shown in fig. 6, the shaping device 4 further includes a connection protecting body 413 and a supporting shaft 415, the bottom end of the chassis 409 is fixedly connected with the connection protecting body 413, a circular hole is formed in the connection protecting body 413, the circular hole is rotationally connected with the rotating rod 412, a rotating hole is further formed in one side of the connection protecting body 413, the supporting shaft 415 is rotationally connected with the rotating hole, the top end of the supporting shaft 415 is rotationally connected with the shaping cone 405, and the supporting shaft 415 is used for supporting the shaping cone 405.

The connection protection body 413 can protect the rotary rod 412, so that the rotary rod can not be damaged due to collision of falling sand blocks, and the top end of the arc chamfer of the connection protection body 413 can prevent the sand blocks from accumulating at the top end of the connection protection body 413.

As shown in fig. 7, the shaping device 4 further includes a rotating ring 4051 and a second eccentric shaft 4052, the bottom end of the shaping cone 405 is provided with a rotating hole, the rotating hole at the bottom end of the shaping cone 405 is rotationally connected with the second eccentric shaft 4052, the bottom end of the second eccentric shaft 4052 is fixedly connected with the rotating ring 4051, a certain gap exists between the rotating ring 4051 and the shaping cone 405, so that the shaping cone 405 smoothly rotates along an arc, the bottom end of the rotating ring 4051 is provided with conical teeth, and the conical teeth are meshed with the third conical gear 414.

The third bevel gear 414 rotates to drive the rotating ring 4051 to rotate, the rotating ring 4051 rotates to drive the second eccentric shaft 4052 to rotate, the second eccentric shaft 4052 drives the shaping cone 405 to rotate in a conical shape by taking the top as a center point through the rotating hole, and the shaping cone 405 rotates to crush sand and stone in the conical hole of the inner sliding arc body 407, so that the sand and stone are more uniform.

As shown in fig. 2-4 and fig. 8, the shaping device 4 further includes a first driving belt 402, a driving shaft 403 and a second driving belt 404, the smashing device 3 includes a rotating shaft 301, a smashing tooth 302, a smashing housing 303 and a connecting ring 304, the driving shaft 403 is rotationally connected to a blocking block 406, the driving shaft 403 is located at one side of the second motor 401, the upper end of the second motor 401 is rotationally connected to the rotating shaft 301, the rotating shaft 301 is rotationally connected to the blocking block 406, the top end of the rotating shaft 301 is rotationally connected to the bottom end of the anti-blocking plate 205, the rotating shaft at the bottom end of the second motor 401 is provided with the first driving belt 402 on the bottom end of the driving shaft 403, the top end of the driving shaft 403 is provided with the second driving belt 404 on the bottom end of the rotating shaft 301, the surface of the rotating shaft 301 is uniformly and fixedly connected with the smashing tooth 302, the smashing tooth 302 can drive the crushed sand and stone to rotate, the bottom end surface of the rotating shaft 301 is rotationally connected with the smashing housing 303, the bottom end of the smashing housing 303 is rotationally connected to the top end of the shaping cone 405, the inner wall of the smashing housing 303 is uniformly provided with teeth, the tooth 304 can be used for breaking the shaping cone 405 when the shaping cone is prevented from being separated from rotating, the top end of the grinding ring 304 is fixedly connected to the connecting ring 204, and the two sides of the grinding ring 304 are fixedly connected to the round hole 204.

The second motor 401 drives the bottom rotation shaft to rotate, the rotation shaft rotates to drive the first transmission belt 402 to drive, the first transmission belt 402 drives the transmission shaft 403 to rotate, the transmission shaft 403 rotates to drive the second transmission belt 404 to drive the rotation shaft 301 to rotate, the rotation shaft 301 rotates to drive the surface breaking teeth 302 to rotate, the crushed sand falls into the breaking device 3, the rotation shaft 301 starts to rotate, the breaking teeth 302 drive the crushed sand to rotate and collide with each other to break the crushed sand, the sand can collide with teeth arranged on the breaking shell 303 and break the sand when rotating, and the sand which is crashed to a certain size can fall into the shaping device 4 through a leak hole formed in the bottom end of the breaking shell 303.

Example 3

On the basis of embodiment 2, as shown in fig. 2-4 and 8, a dust collection device 7 is arranged on the surface of a connecting ring 304, the dust collection device 7 comprises a dust collection pipe 701, a fixing block 702, a suction pump 703 and a dust box 704, the bottom end of a support body 1 is symmetrically and fixedly connected with the fixing block 702, a round hole is formed in the fixing block 702, one end of the fixing block 702 is slidably connected with the dust box 704, a handle is arranged at the outer end of the dust box 704, the suction pump 703 is arranged above the dust box 704, the top end of the suction pump 703 is fixedly connected with the support body 1, an air pipe is arranged at the bottom end of the suction pump 703, the suction pump 703 is connected with the dust box 704 through the air pipe, one end of the suction pump 703 is fixedly connected with the dust collection pipe 701, and the other end of the suction pipe 701 is fixedly connected with round holes formed in two sides of the connecting ring 304 through the round hole formed in the fixing block 702 and the support body 1.

During the breaking process, more dust can be lifted, and the suction pump 703 sucks the dust through the dust suction pipe 701 and discharges the dust into the dust box 704, so that the dust box 704 can be disassembled and cleaned after being full.

As shown in fig. 1 and 9, the screening device 8 comprises a screening body 801, a supporting rod 803 and a clamping block 804, the screening body 801 is arranged below the supporting body 1, a plurality of screening holes are uniformly formed in the surface of the screening body 801, two sides of the screening body 801 are respectively connected with two supporting rods 803, the top ends of the supporting rods 803 are fixedly connected with the supporting body 1, clamping grooves are formed in the bottoms of the supporting rods 803, sliding grooves are formed in the clamping grooves, the clamping blocks 804 are slidably connected in the clamping grooves, and the clamping blocks 804 are fixedly connected with the screening body 801 through the sliding grooves.

The screening device 8 further comprises a vibrating machine 802, a connecting plate is arranged at the higher inclined end of the screening body 801, and the vibrating machine 802 is fixedly connected to the connecting plate.

Sand and stone blocks falling onto the screening device 8 through the shaping device 4 can be screened, the sand and stone blocks slide down along the screening body 801, smaller sand and stone blocks can fall down through screening holes on the screening body 801, the vibrating machine 802 continuously vibrates to prevent larger sand and stone from being blocked into the screening holes on the surface of the screening body 801, and the clamping grooves at the bottom of the supporting rod 803 can prevent the screening body 801 from falling down due to vibration.

The foregoing is merely illustrative embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think about variations or substitutions within the technical scope of the present invention, and the invention should be covered. Therefore, the protection scope of the invention is subject to the protection scope of the claims.

Claims

1. A sand aggregate shaping device, characterized by: comprises a supporting body (1), a crushing device (2), a crushing device (3), a shaping device (4), a feed inlet (5), a discharge outlet (6) and a screening device (8), wherein the bottom end of the supporting body (1) is connected with the screening device (8), the center of the supporting body (1) is connected with the shaping device (4) in a penetrating way, the bottom end of the shaping device (4) is connected with the discharge outlet (6), the top end of the shaping device (4) is connected with the crushing device (3), the top end of the crushing device (3) is connected with the crushing device (2), the top end of the crushing device (2) is connected with the feed inlet (5), the crushing device (2) comprises a first motor (201), a first eccentric shaft (202), a crushing jaw (203) and a crushing shell (204), the top end of the crushing device (3) is provided with the crushing shell (204), the top end of the crushing shell (204) is provided with the crushing shell (204), the feeding groove is fixedly connected with the feed inlet (5), the inside of the crushing shell (204) is connected with the grinding jaw (203), the surface of the grinding jaw (203) is uniformly provided with teeth, the inner side of the grinding shell (204) is near the tooth of the grinding jaw (203) and the tooth is uniformly provided with teeth, the grinding shell (202) rotates, the first end of the grinding shell (203) rotates and protrudes through the first end of the grinding shell (203) through the grinding shell, one end of the first eccentric shaft (202) far away from the grinding jaw (203) is fixedly connected with a first motor (201), one side of the grinding shell (204) close to the first motor (201) is fixedly connected with a supporting plate, and the first motor (201) is fixedly connected with the supporting plate.

2. A sand aggregate shaping device as claimed in claim 1, wherein: the grinding device (2) further comprises an anti-blocking plate (205), and the anti-blocking plate (205) is fixedly connected inside the bottom end of the grinding shell (204).

3. A sand aggregate shaping device as claimed in claim 1, wherein: the shaping device (4) comprises a second motor (401), a shaping cone (405), a partition block (406), an inner sliding arc body (407), a shaping shell (408), a chassis (409), a first bevel gear (410), a second bevel gear (411), a rotating rod (412) and a third bevel gear (414), wherein the center of the supporting body (1) is fixedly connected with the shaping shell (408), the bottom end of the shaping shell (408) is fixedly connected with a discharge port (6), the partition block (406) is fixedly connected with the inside of the shaping shell (408), the bottom end of the partition block (406) is fixedly connected with the chassis (409), the surface of the chassis (409) is provided with three rotating grooves, the center of the partition block (406) is provided with a sliding groove, the second motor (401) is fixedly connected with the inside of the sliding groove, the bottom end of the second motor (401) is provided with a rotating shaft, the rotating shaft at the bottom end of the second motor (401) is fixedly connected with the first bevel gear (410) through the rotating groove at the center of the chassis (409), one side of the first bevel gear (410) is symmetrically meshed with the second bevel gear (411), one end of the second bevel gear (411) is far away from the first bevel gear (410) is fixedly connected with the rotating rod (412), the other end of the second bevel gear (412) is fixedly connected with the third bevel gear (414), the rotating rod (405) is fixedly meshed with the rotating rod (405), an inner sliding arc body (407) is arranged on the periphery of the shaping cone (405), a hole is formed in the surface of the inner sliding arc body (407), the shaping cone (405) is positioned in the hole, the bottom end of the inner sliding arc body (407) is fixedly connected with the chassis (409), and the outer surface of the inner sliding arc body (407) is fixedly connected with the shaping shell (408).

4. A sand aggregate shaping device as claimed in claim 3, wherein: the top surface of the inner sliding arc body (407) is a Kong Naqing inclined plane, and the hole is a conical hole.

5. A sand aggregate shaping device as claimed in claim 2, wherein: the shaping device (4) further comprises a connecting protection body (413) and a supporting shaft (415), the bottom end of the chassis (409) is fixedly connected with the connecting protection body (413), a round hole is formed in the connecting protection body (413), the round hole is rotationally connected with the rotary rod (412), a rotary hole is further formed in one side of the connecting protection body (413), the supporting shaft (415) is rotationally connected with the rotary hole, and the top end of the supporting shaft (415) is rotationally connected with the shaping cone (405).

6. A sand aggregate shaping device as claimed in claim 5, wherein: the shaping device (4) further comprises a rotating ring (4051) and a second eccentric shaft (4052), the bottom end of the shaping cone (405) is provided with a rotating hole, the rotating hole at the bottom end of the shaping cone (405) is rotationally connected with the second eccentric shaft (4052), the bottom end of the second eccentric shaft (4052) is fixedly connected with the rotating ring (4051), the bottom end of the rotating ring (4051) is provided with conical teeth, and the conical teeth are meshed with the third conical gear (414).

7. A sand aggregate shaping device as claimed in claim 6, wherein: shaping device (4) still including first drive belt (402), transmission shaft (403) and second drive belt (404), smash device (3) including rotation axis (301), smash tooth (302), smash shell (303) and go-between (304), partition block (406) internal rotation is connected with transmission shaft (403), transmission shaft (403) are located second motor (401) one side, second motor (401) upper end rotation is connected with rotation axis (301), rotation axis (301) top and anti-sticking board (205) bottom rotate and are connected, be equipped with first drive belt (402) on the rotation axis of second motor (401) bottom and the bottom of transmission shaft (403), be equipped with second drive belt (404) on transmission shaft (403) top and rotation axis (301) bottom, rotation axis (301) surface evenly fixedly connected with smashes tooth (302), the bottom surface rotation of rotation axis (301) is connected with smashes shell (303), smash shell (303) bottom and plastic cone (405) top rotation, smash shell (303) inner wall evenly is equipped with tooth, smash shell (303) top fixedly connected with go-between (304), go-between (204) and open circular hole (204) both sides fixedly connected with.

8. A sand aggregate shaping device as claimed in claim 7, wherein: the dust collection device comprises a dust collection pipe (701), a fixed block (702), a suction pump (703) and a dust box (704), wherein the surface of a connecting ring (304) is provided with the dust collection device (7), the bottom end of a supporting body (1) is symmetrically and fixedly connected with the fixed block (702), a round hole is formed in the fixed block (702), one end of the fixed block (702) is slidably connected with the dust box (704), the suction pump (703) is arranged above the dust box (704), an air pipe is arranged at the bottom end of the suction pump (703), the suction pump (703) is connected with the dust box (704) through the air pipe, one end of the suction pump (703) is fixedly connected with the dust collection pipe (701), and the other end of the suction pipe (701) is fixedly connected with the round hole formed in the fixed block (702) through the round hole and the round hole formed in the supporting body (1) and the round holes formed in two sides of the connecting ring (304).

9. A sand aggregate shaping device as claimed in claim 1, wherein: screening plant (8) is including screening body (801), bracing piece (803) and fixture block (804), and support body (1) below is equipped with screening body (801), and screening body (801) both sides are connected with two bracing pieces (803) respectively, bracing piece (803) top and support body (1) fixed connection, and the draw-in groove has been seted up to bracing piece (803) bottom, is equipped with the spout in the draw-in groove, and sliding connection has fixture block (804) in the draw-in groove, and fixture block (804) pass through spout and screening body (801) fixed connection.

10. A sand aggregate shaping device as claimed in claim 9, wherein: the screening device (8) further comprises a vibrating machine (802), and the higher end of the screening body (801) is fixedly connected with the vibrating machine (802).