CN214292660U

CN214292660U - Automatic sand blasting production line

Info

Publication number: CN214292660U
Application number: CN202022337184.4U
Authority: CN
Inventors: 邹聪; 王绍哲; 薛建平; 颜学政
Original assignee: Dongguan Everwin Precision Technology Co Ltd
Current assignee: Nanjing Huazhi Machinery Manufacturing Co ltd
Priority date: 2020-10-20
Filing date: 2020-10-20
Publication date: 2021-09-28
Anticipated expiration: 2030-10-20

Abstract

The utility model relates to an automatic sand blasting processing production line for carry out the sandblast to the material, it includes frame, first sand blasting machine, second sand blasting machine, first material pushing and conveying mechanism, lift conveying mechanism and second material pushing and conveying mechanism. The material processed by the first sand blasting machine is pushed to the lower-layer conveying belt through the first material pushing and conveying mechanism, the manipulator grabs the material on the lower-layer conveying belt and horizontally overturns the material and then places the material on the upper-layer conveying belt, the horizontal material pushing cylinder pushes the material conveyed by the upper-layer conveying belt to the lifting and conveying mechanism, and the lifting and conveying mechanism conveys the material to the second material pushing and conveying mechanism and pushes the material into the second sand blasting machine through the second material pushing and conveying mechanism for sand blasting. The utility model discloses can replace the production mode of traditional artifical clamping or transfer material, not only practice thrift the cost of labor, alleviate intensity of labour, and degree of automation is high, can improve production efficiency, satisfy automated production's demand.

Description

Automatic sand blasting production line

Technical Field

The utility model relates to a sand blasting treatment technical field especially relates to an automatic sand blasting treatment production line.

Background

In the prior art, the conventional sand blasting process mainly comprises: firstly, the material is clamped manually, then the material is transferred to a sand blasting machine for sand blasting treatment, and then the material is clamped manually, shaped, subjected to anode hanging tool mounting, subjected to anode oxidation, subjected to cathode hanging tool mounting and the like. In the sand blasting process, the materials are required to be manually clamped and transferred, so that the labor cost is increased, the production efficiency is extremely low, and the requirement of automatic production cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model provides an automatic sand blasting treatment production line to solve traditional sandblast technology and adopt artifical clamping and shift the material, lead to the problem that its production efficiency is low.

In order to solve the technical problem, the utility model provides an automatic sand blasting production line which is used for carrying out sand blasting on materials and comprises a frame, a first sand blasting machine, a second sand blasting machine, a first material pushing and conveying mechanism, a lifting and conveying mechanism and a second material pushing and conveying mechanism; the frame is provided with an upper layer conveying belt and a lower layer conveying belt which are parallel to each other, and the upper layer conveying belt and the lower layer conveying belt are arranged along the length direction of the frame; the conveying direction of the lower layer conveying belt is opposite to that of the upper layer conveying belt, the first sand blasting machine and the first material pushing and conveying mechanism are respectively arranged on the inner side of the input end of the lower layer conveying belt, the discharge end of the first sand blasting machine is in butt joint with the input end of the first material pushing and conveying mechanism, the output end of the first material pushing and conveying mechanism is in butt joint with the input end of the lower layer conveying belt, and the first material pushing and conveying mechanism pushes materials processed by the first sand blasting machine to the lower layer conveying belt; the lifting conveying mechanism and the second material pushing conveying mechanism are respectively arranged on the inner side of the output end of the upper layer conveying belt, the lifting conveying mechanism is in butt joint with the input end of the second material pushing conveying mechanism, and the output end of the second material pushing conveying mechanism is in butt joint with the feeding end of the second sand blasting machine; and the outer side of the output end of the upper layer conveying belt is also provided with a horizontal pushing cylinder, the horizontal pushing cylinder is used for pushing the materials conveyed by the upper layer conveying belt to the lifting conveying mechanism, the lifting conveying mechanism conveys the materials to the second pushing conveying mechanism, and the materials are pushed into the second sand blasting machine through the second pushing conveying mechanism.

In the structure, the lifting conveying mechanism comprises a lifting driving component, a lifting bracket in transmission connection with the lifting driving component and a conveying platform arranged on the lifting bracket, and the lifting driving component drives the lifting bracket to do lifting motion; when the lifting bracket rises to the same plane as the input end of the upper-layer conveying belt, the horizontal material pushing cylinder pushes the material to the conveying platform of the lifting bracket; when the lifting bracket descends to the same plane as the input end of the second material pushing and conveying mechanism, the material is conveyed to the second material pushing and conveying mechanism through the conveying platform on the lifting bracket, and the material is pushed into the second sand blasting machine through the second material pushing and conveying mechanism to be subjected to sand blasting treatment.

In the structure, the lifting driving assembly comprises a fixed seat and a lifting cylinder, the lifting cylinder is arranged in the middle of the fixed seat, an output shaft of the lifting cylinder extends out of the fixed seat and is in driving connection with the lifting bracket, and the lifting air rod drives the lifting bracket to do lifting motion through the output shaft; the conveying platform comprises a conveying motor and two conveying belts, the two conveying belts are arranged on two side faces of the lifting bracket in a parallel and opposite mode, and the conveying motor is arranged on the lifting bracket and is in transmission connection with one of the conveying belts.

In the structure, the first material pushing and conveying mechanism comprises a rack and a discharging transmission belt arranged on the rack, wherein a first horizontal pushing assembly is arranged on one side of the upper end surface of the discharging transmission belt, the first horizontal pushing assembly is arranged along the width direction of the discharging transmission belt, and the first horizontal pushing assembly is arranged at the discharging end of the first sand blasting machine; the other side of the upper end surface of the discharging conveying belt is provided with a second horizontal pushing assembly, and the second horizontal pushing assembly is arranged along the length direction of the discharging conveying belt and is arranged at the input end of the lower conveying belt; the first horizontal pushing assembly pushes materials processed by the first sand blasting machine to the discharging conveying belt, and the second horizontal pushing assembly pushes the materials on the discharging conveying belt to the input end of the lower-layer conveying belt.

In the structure, first flat push subassembly is including erectting in the installation crossbeam of ejection of compact transmission band both sides, two be connected with the installation extension board between the installation crossbeam, the installation extension board orientation the bottom surface of ejection of compact transmission band is equipped with ejection of compact shaftless cylinder, ejection of compact shaftless cylinder sets up along ejection of compact transmission band width direction, and this ejection of compact shaftless cylinder's sliding block fixed connection has revolving cylinder, revolving cylinder passes through ejection of compact shaftless cylinder and drives its motion along ejection of compact transmission band width direction, and this revolving cylinder's rotation axis is equipped with the tablet of pushing away.

In the structure, the second material pushing and conveying mechanism comprises a material inlet frame and a material inlet transmission belt arranged on the material inlet frame, a material inlet horizontal pushing assembly is arranged on one side of the upper end face of the material inlet transmission belt, the material inlet horizontal pushing assembly is arranged along the width direction of the material inlet transmission belt, and the material inlet horizontal pushing assembly is arranged at the material inlet end of the second sand blasting machine.

In the structure, the pan feeding horizontal pushing assembly comprises fixed cross beams and two fixed cross beams, wherein the fixed cross beams are erected on two sides of a pan feeding transmission band, a connecting plate is arranged between the fixed cross beams, a pan feeding shaftless cylinder is installed on the connecting plate, a sliding block fixedly connected with pushing plate of the pan feeding shaftless cylinder is vertically arranged on the pan feeding transmission band, and the pushing plate drives the pushing plate to move along the width direction of the pan feeding transmission band through the pan feeding shaftless cylinder.

In the structure, the production line further comprises a turnover manipulator, the turnover manipulator is installed at the output end of the lower-layer conveying belt, and the turnover manipulator is used for grabbing materials on the lower-layer conveying belt and placing the materials on the upper-layer conveying belt after horizontally turning the materials.

In the structure, a material detection mechanism and a material distribution mechanism are arranged on the upper layer conveying belt, the material detection mechanism and the material distribution mechanism are arranged at the output end of the upper layer conveying belt and are arranged at the adjacent positions of the horizontal material pushing cylinders, and the material detection mechanism is used for identifying and detecting materials to be subjected to sand blasting; the material distribution mechanism comprises two blocking cylinders which are vertically arranged on the upper-layer conveying belt at intervals, the two blocking cylinders are respectively arranged at the left end and the right end of the horizontal material pushing cylinder and used for respectively blocking materials on the upper-layer conveying belt so that the horizontal material pushing cylinder can conveniently push the materials conveyed by the upper-layer conveying belt to the lifting conveying mechanism.

In the structure, the first sand blasting machine comprises a sand blasting box body, a sand blasting chamber arranged in the sand blasting box body, a spray head is arranged in the sand blasting chamber, the spray head is connected with a sand blasting driving assembly, the sand blasting driving assembly is used for enabling sand in a sand hopper to pass through, and the spray head acts on the material to perform sand blasting on the sand blasting chamber.

The beneficial effects are that: the utility model discloses a material propelling movement to lower floor's conveyer belt after first sand blasting machine is handled to first material pushing and conveying mechanism, the manipulator snatchs the material on the conveyer belt of lower floor and places in upper conveyer belt after overturning its level, and the level pushes away the material propelling movement that the material cylinder carried upper conveyer belt to lifting and conveying mechanism on, lifting and conveying mechanism carries the material to second material pushing and conveying mechanism to carry out the sandblast in with material propelling movement to the second sand blasting machine through second material pushing and conveying mechanism. The utility model discloses can replace the production mode of traditional artifical clamping or transfer material, not only practice thrift the cost of labor, alleviate intensity of labour, and degree of automation is high, can improve production efficiency, satisfy automated production's demand.

Drawings

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

fig. 2 is a schematic structural view of an upper layer conveying belt and a lower layer conveying belt in the embodiment of the present invention;

fig. 3 is a schematic overall structure diagram of a first pushing and conveying mechanism according to an embodiment of the present invention;

fig. 4 is a schematic view of the overall structure of the second pushing and conveying mechanism and the lifting and conveying mechanism according to the embodiment of the present invention;

fig. 5 is a schematic view of the overall structure of the lifting conveying mechanism according to the embodiment of the present invention;

fig. 6 is a partially enlarged structural diagram of a in fig. 2.

Reference numerals: the device comprises a frame 1, a first sand blasting machine 2, a second sand blasting machine 3, a first material pushing and conveying mechanism 4, a lifting and conveying mechanism 5, a second material pushing and conveying mechanism 6, a horizontal material pushing cylinder 7, a material detecting mechanism 8, a material distributing mechanism 9, an upper layer conveying belt 11, a lower layer conveying belt 12, a rack 41, a material discharging conveying belt 42, a first horizontal pushing assembly 43, a mounting cross beam 431, a mounting support plate 432, a material discharging shaftless cylinder 433, a rotating cylinder 434, a material pushing sheet 435, a second horizontal pushing assembly 44, a lifting driving assembly 51, a fixed seat 511, a lifting cylinder 512, a guide rod 513, a lifting bracket 52, a conveying platform 53, a conveying motor 531, a conveying belt 532, a material feeding frame 61, a material feeding conveying belt 62, a material feeding horizontal pushing assembly 63, a fixed cross beam 631, a connecting plate 632, a material feeding shaftless cylinder 634 and a material pushing plate 635.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

The sand blasting process of the existing product needs manual clamping of materials, the materials are pushed into a sand blasting machine to be subjected to sand blasting treatment on the surface A, the materials subjected to sand blasting machine treatment are taken out and turned over to the surface B, and then the materials are pushed into another sand blasting machine to be subjected to sand blasting treatment on the surface B. The sand blasting process needs manual material clamping or material transferring, the efficiency is extremely low, and the requirement of automatic production cannot be met. The utility model provides an automatic sand blasting production line for solving the above problems, and the automatic sand blasting production line can realize the sand blasting of A, B faces to the material. In more detail, as shown in fig. 1 to 6, the automatic sand blasting production line includes a frame 1, a first sand blasting machine 2, a second sand blasting machine 3, a first material pushing and conveying mechanism 4, a lifting and conveying mechanism 5, and a second material pushing and conveying mechanism 6; an upper layer conveyor belt 11 and a lower layer conveyor belt 12 which are parallel to each other are fixedly installed on the frame 1. The upper layer conveyor belt 11 and the lower layer conveyor belt 12 are arranged along the length direction of the frame 1, and the conveying direction of the lower layer conveyor belt 12 is opposite to the conveying direction of the upper layer conveyor belt 11. Further, a first sand blasting machine 2 and a first material pushing and conveying mechanism 3 are respectively installed on the inner side of the input end of the lower-layer conveying belt 12, wherein the first sand blasting machine 2 is used for performing sand blasting treatment on the surface A of the material, and the second sand blasting machine 3 is mainly used for performing sand blasting treatment on the surface B of the material with the surface A treated. The discharge end of the first sand blasting machine 2 is in butt joint with the input end of the first material pushing and conveying mechanism 4, the output end of the first material pushing and conveying mechanism 4 is in butt joint with the input end of the lower layer conveying belt 12, namely the first material pushing and conveying mechanism 3 pushes the material processed by the first sand blasting machine 2 and processed by the surface A to the lower layer conveying belt 12. Further, the lifting conveying mechanism 5 and the second pushing conveying mechanism 6 are respectively arranged on the inner side of the output end of the upper layer conveying belt 11; the lifting conveying mechanism 5 is in butt joint with the input end of the second material pushing and conveying mechanism 6, and the output end of the second material pushing and conveying mechanism 6 is in butt joint with the feeding end of the second sand blasting machine 4; and a horizontal pushing cylinder 7 is further arranged on the outer side of the output end of the upper layer conveying belt 11, the horizontal pushing cylinder 7 is used for pushing the materials conveyed by the upper layer conveying belt 11 to the lifting conveying mechanism 5, the lifting conveying mechanism 5 conveys the materials to the second pushing conveying mechanism 6, and the materials are pushed into the second sand blasting machine 2 through the second pushing conveying mechanism 6 to be subjected to sand blasting treatment on the surface B.

In one embodiment, as shown in fig. 4 and 5, the lifting and conveying mechanism 5 includes a lifting and driving assembly 51, a lifting bracket 52 in transmission connection with the lifting and driving assembly 51, and a conveying platform 53 disposed on the lifting bracket 52, wherein the lifting and driving assembly 51 can drive the lifting bracket 52 to move up and down and drive the conveying platform 53 to move up and down. When the lifting bracket 52 is lifted to the same plane as the input end of the upper layer conveying belt 11 during operation, the horizontal pushing cylinder 7 pushes the material to the conveying platform 53 of the lifting bracket 52; when the lifting bracket 52 descends to the same plane as the input end of the second material pushing and conveying mechanism 6, the material is conveyed to the second material pushing and conveying mechanism 6 through the conveying platform 53 on the lifting bracket 52, and the material is pushed into the second sand blasting machine 4 through the second material pushing and conveying mechanism 6 for sand blasting treatment of the surface B.

Further, as shown in fig. 5, the lifting driving assembly 51 includes a fixing base 511 and a lifting cylinder 512, the lifting cylinder 512 is installed at the middle position of the fixing base 511, and an output shaft of the lifting cylinder 512 can extend out of the fixing base 511 and is fixedly connected with the lifting bracket 52, the working chamber, the lifting air rod 512 can drive the lifting bracket 52 to move up and down through the output shaft, so as to drive the conveying platform 53 to move up and down. The fixing seat 511 is further provided with a guide rod 513, one end of the guide rod 513 is fixedly connected with the lifting bracket 52, and the other end of the guide rod is connected with the fixing seat 51 in a sliding manner through a flange bearing. Further, the conveying platform 53 includes a conveying motor 531 and two conveying belts 532, the two conveying belts 532 are installed on two side surfaces of the lifting bracket 52 in parallel and oppositely, and the conveying motor 531 is fixedly installed on the lifting bracket 52 and is in transmission connection with one of the conveying belts 532.

In one embodiment, as shown in fig. 3, the first pushing and conveying mechanism 4 includes a frame 41 and an output conveyor belt 42 disposed on the frame 41, a first pushing component 43 is disposed on one side of the upper end surface of the output conveyor belt 42, the first pushing component 43 is disposed along the width direction of the output conveyor belt 42, and the first pushing component 43 is disposed at the output end of the first sandblasting machine 2. The other side of the upper end surface of the discharging conveying belt 42 is provided with a second flat pushing component 44, and the second flat pushing component 44 is arranged along the length direction of the discharging conveying belt 42 and is arranged at the input end of the lower conveying belt 12; during operation, the first horizontal pushing assembly 43 horizontally pushes the material on the surface a processed by the first sand blasting machine 2 to the discharging conveying belt 42, and the second horizontal pushing assembly 44 horizontally pushes the material on the discharging conveying belt 42 to the lower conveying belt 42.

Further, the first horizontal pushing assembly 43 comprises mounting beams 431 erected on two sides of the discharging conveyor belt 42, a mounting support plate 432 is connected between the two mounting beams 431, a discharging shaftless cylinder 433 is fixedly mounted on the bottom surface of the mounting support plate 432 facing the discharging conveyor belt 42, wherein the discharging shaftless cylinder 433 is arranged along the width direction of the discharging conveyor belt 42, a rotary cylinder 434 is fixedly connected to a sliding block of the discharging shaftless cylinder 433, the rotary cylinder 434 drives the discharging shaftless cylinder 433 to move along the width direction of the discharging conveyor belt 42, and a pushing sheet 435 is arranged on a rotating shaft of the rotary cylinder 434. In operation, the rotary cylinder 434 controls the rotation of the pusher 435 to be parallel to the outfeed conveyor 42. The discharging shaftless cylinder 433 drives the rotary cylinder 434 to move along the width direction of the discharging transmission belt 42 and is juxtaposed to the discharging end of the first sand blasting machine 2. The material of good A face after first sand blasting machine 2 handles is carried to the discharge end, and at this moment, revolving cylinder 434 control pushing sheet 435 rotates, makes it vertical in ejection of compact transmission band 42 and place in the material department, and rethread ejection of compact shaftless cylinder 433 drives revolving cylinder 434 and moves, and then makes the material translation propelling movement to ejection of compact transmission band 42 on. Since the first and second

translational components

43 and 44 have the same structure, only one will be described here.

In one embodiment, the second pushing and conveying mechanism 6 includes a feeding frame 61 and a feeding conveyor belt 62 disposed on the feeding frame 61, a feeding horizontal pushing assembly 63 is disposed on one side of an upper end surface of the feeding conveyor belt 62, the feeding horizontal pushing assembly 63 is disposed along a width direction of the feeding conveyor belt 62, and the feeding horizontal pushing assembly 63 is disposed at a feeding end of the second sand blasting machine 3. Further, pan feeding horizontal pushing assembly 63 is including erectting in the fixed beam 631 of pan feeding transmission band 62 both sides, is equipped with connecting plate 632 between two fixed beam 631, installs pan feeding shaftless cylinder 634 on two connecting plates 633, and slide block fixedly connected with scraping wings 635 of pan feeding shaftless cylinder 634, scraping wings 635 vertical installation is on pan feeding transmission band 62, and scraping wings 635 passes through pan feeding shaftless cylinder 635 and drives its motion along pan feeding transmission band 62 width direction. During operation, the lifting conveying mechanism 5 conveys materials to the feeding conveying belt 62 of the second pushing conveying mechanism 6, the feeding conveying belt 62 conveys the materials to the position of the feeding horizontal pushing assembly 63, and the feeding shaftless cylinder 634 drives the pushing plate 635 to move along the width direction of the feeding conveying belt 62 and push the materials into the second sand blasting machine 4 through the pushing plate 635 to perform sand blasting treatment on the surface B.

In one embodiment, the automated grit blasting line further comprises a flipping robot (not shown) mounted at the output end of the lower conveyor belt 12, the flipping robot being configured to grasp the material on the lower conveyor belt 12 and place the material on the upper conveyor belt 11 after being flipped horizontally.

In one embodiment, as shown in fig. 6, a material detecting mechanism 8 and a material distributing mechanism 9 are disposed on the upper layer conveying belt 11, the material detecting mechanism 8 and the material distributing mechanism 9 are mounted at the output end of the upper layer conveying belt 11 and are disposed adjacent to the horizontal material pushing cylinder 7, the material detecting mechanism 8 is used for identifying and detecting whether the material to be subjected to sand blasting is an empty material tray, and if the material tray is an empty material tray, the material tray is directly conveyed to the end of the upper layer conveying belt 11 and is manually taken. The material distributing mechanism 9 comprises two blocking cylinders 91 which are vertically arranged on the upper-layer conveyer belt 11 at intervals, the two blocking cylinders 91 are respectively arranged at the left end and the right end of the horizontal material pushing cylinder 7 and are used for respectively blocking the materials on the upper-layer conveyer belt 11 so that the horizontal material pushing cylinder 7 can push the materials to the lifting conveying mechanism 5, and meanwhile, the situation that the latter materials are overlapped with the former materials can be avoided. Furthermore, the first sand blasting machine 2 comprises a sand blasting box body and a sand blasting chamber arranged in the sand blasting box body, wherein a spray head is arranged in the sand blasting chamber, the spray head is connected with a sand blasting driving assembly, and the sand blasting driving assembly is used for acting sand grains in a sand grain hopper on a material through the spray head to perform sand blasting on the material; since the above sections are prior art, they are not discussed here in a redundant fashion.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only represent preferred embodiments of the present invention, which are described in more detail and detail, but are not to be construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. The utility model provides an automatic sand blasting production line for carry out the sandblast to the material, its characterized in that: the device comprises a frame, a first sand blasting machine, a second sand blasting machine, a first material pushing and conveying mechanism, a lifting and conveying mechanism and a second material pushing and conveying mechanism; the frame is provided with an upper layer conveying belt and a lower layer conveying belt which are parallel to each other, and the upper layer conveying belt and the lower layer conveying belt are arranged along the length direction of the frame; the conveying direction of the lower layer conveying belt is opposite to that of the upper layer conveying belt, the first sand blasting machine and the first material pushing and conveying mechanism are respectively arranged on the inner side of the input end of the lower layer conveying belt, the discharge end of the first sand blasting machine is in butt joint with the input end of the first material pushing and conveying mechanism, the output end of the first material pushing and conveying mechanism is in butt joint with the input end of the lower layer conveying belt, and the first material pushing and conveying mechanism pushes materials processed by the first sand blasting machine to the lower layer conveying belt; the lifting conveying mechanism and the second material pushing conveying mechanism are respectively arranged on the inner side of the output end of the upper layer conveying belt, the lifting conveying mechanism is in butt joint with the input end of the second material pushing conveying mechanism, and the output end of the second material pushing conveying mechanism is in butt joint with the feeding end of the second sand blasting machine; and the outer side of the output end of the upper layer conveying belt is also provided with a horizontal pushing cylinder, and the horizontal pushing cylinder is used for pushing materials conveyed by the upper layer conveying belt to the lifting conveying mechanism.

2. The automated grit blasting line of claim 1, wherein: the lifting conveying mechanism comprises a lifting driving assembly, a lifting bracket in transmission connection with the lifting driving assembly and a conveying platform arranged on the lifting bracket, and the lifting driving assembly drives the lifting bracket to do lifting motion; when the lifting bracket rises to the same plane as the input end of the upper-layer conveying belt, the horizontal material pushing cylinder pushes the material to the conveying platform of the lifting bracket; when the lifting bracket descends to the same plane as the input end of the second material pushing and conveying mechanism, the material is conveyed to the second material pushing and conveying mechanism through the conveying platform on the lifting bracket, and the material is pushed into the second sand blasting machine through the second material pushing and conveying mechanism to be subjected to sand blasting treatment.

3. The automated grit blasting line of claim 2, wherein: the lifting driving assembly comprises a fixed seat and a lifting cylinder, the lifting cylinder is arranged in the middle of the fixed seat, an output shaft of the lifting cylinder extends out of the fixed seat and is in driving connection with the lifting bracket, and the lifting air rod drives the lifting bracket to move up and down through the output shaft; the conveying platform comprises a conveying motor and two conveying belts, the two conveying belts are arranged on two side faces of the lifting bracket in a parallel and opposite mode, and the conveying motor is arranged on the lifting bracket and is in transmission connection with one of the conveying belts.

4. The automated grit blasting line of claim 1, wherein: the first material pushing and conveying mechanism comprises a rack and a discharging conveying belt arranged on the rack, a first horizontal pushing assembly is arranged on one side of the upper end face of the discharging conveying belt, the first horizontal pushing assembly is arranged along the width direction of the discharging conveying belt, and the first horizontal pushing assembly is arranged at the discharging end of the first sand blasting machine; the other side of the upper end surface of the discharging conveying belt is provided with a second horizontal pushing assembly, and the second horizontal pushing assembly is arranged along the length direction of the discharging conveying belt and is arranged at the input end of the lower conveying belt; the first horizontal pushing assembly pushes materials processed by the first sand blasting machine to the discharging conveying belt, and the second horizontal pushing assembly pushes the materials on the discharging conveying belt to the input end of the lower-layer conveying belt.

5. The automated grit blasting line of claim 4, wherein: first flat push subassembly is including erectting in the installation crossbeam of ejection of compact transmission band both sides, two be connected with the installation extension board between the installation crossbeam, the installation extension board orientation the bottom surface of ejection of compact transmission band is equipped with ejection of compact shaftless cylinder, ejection of compact shaftless cylinder sets up along ejection of compact transmission band width direction, and this ejection of compact shaftless cylinder's sliding block fixed connection has revolving cylinder, revolving cylinder drives its along ejection of compact transmission band width direction motion through ejection of compact shaftless cylinder, and this revolving cylinder's rotation axis is equipped with and pushes away the tablet.

6. The automated grit blasting line of claim 1, wherein: the second material pushing and conveying mechanism comprises a material inlet frame and a material inlet transmission belt arranged on the material inlet frame, a material inlet horizontal pushing assembly is arranged on one side of the upper end face of the material inlet transmission belt, the material inlet horizontal pushing assembly is arranged along the width direction of the material inlet transmission belt, and the material inlet horizontal pushing assembly is arranged at the material inlet end of the second sand blasting machine.

7. The automated grit blasting line of claim 6, wherein: pan feeding horizontal push subassembly is including erectting in the fixed cross beam of pan feeding transmission band both sides, two be equipped with the connecting plate between the fixed cross beam, install pan feeding shaftless cylinder on the connecting plate, the sliding block fixedly connected with scraping wings of pan feeding shaftless cylinder, the scraping wings is vertical to be set up on the pan feeding transmission band, and the scraping wings drives its motion along pan feeding transmission band width direction through pan feeding shaftless cylinder.

8. The automated grit blasting line of any one of claims 2 to 7, wherein: the production line also comprises a turnover manipulator, the turnover manipulator is installed at the output end of the lower-layer conveying belt and is used for grabbing materials on the lower-layer conveying belt and horizontally turning the materials and then placing the materials on the upper-layer conveying belt.

9. The automated grit blasting line of claim 1, wherein: the upper layer conveying belt is provided with a material detection mechanism and a material distribution mechanism, the material detection mechanism and the material distribution mechanism are arranged at the output end of the upper layer conveying belt and are arranged at the adjacent positions of the horizontal material pushing cylinders, and the material detection mechanism is used for identifying and detecting materials to be subjected to sand blasting; the material distribution mechanism comprises two blocking cylinders which are vertically arranged on the upper-layer conveying belt at intervals, the two blocking cylinders are respectively arranged at the left end and the right end of the horizontal material pushing cylinder and used for respectively blocking materials on the upper-layer conveying belt so that the horizontal material pushing cylinder can conveniently push the materials conveyed by the upper-layer conveying belt to the lifting conveying mechanism.

10. The automated grit blasting line of claim 1, wherein: first sand blasting machine include the sandblast box, set up in sandblast room in the sandblast box, be equipped with the shower nozzle in the sandblast room, the shower nozzle acts on the material.