CN219725847U

CN219725847U - Diamond abrasive material arrangement structure

Info

Publication number: CN219725847U
Application number: CN202320643596.1U
Authority: CN
Inventors: 祝世连; 孙玉萍
Original assignee: Henan Xin Hong Abrasive Materials Co ltd
Current assignee: Henan Xin Hong Abrasive Materials Co ltd
Priority date: 2023-03-28
Filing date: 2023-03-28
Publication date: 2023-09-22
Anticipated expiration: 2033-03-28

Abstract

The utility model discloses a diamond abrasive material arrangement structure, and relates to the technical field of abrasive materials and grinding tools. The feeding device comprises a feeding conveying assembly, a diamond charging barrel and a discharging conveying assembly, wherein a plurality of electromagnets are arranged on the peripheral surface of the feeding conveying assembly, a first rotating motor is arranged at one end of each electromagnet, the center of the inner side of the feeding conveying assembly is provided with the diamond charging barrel, the front end of the periphery of the diamond charging barrel is fixedly connected with a diamond feeding pipe in a rotating mode, the inner side of the diamond charging barrel is in sliding connection with the diamond feeding assembly, the bottom side of one end of the feeding conveying assembly is provided with the discharging conveying assembly, and one end of the bottom side of the discharging conveying assembly is provided with a third cylinder. According to the utility model, through the feeding conveying assembly, the diamond charging barrel and the discharging conveying assembly, the problem that a large amount of time is consumed for orderly arranging the diamond abrasive for many times in the diamond abrasive arranging structure, and the stacking and discharging of the cold-pressed thin blanks are time-consuming and labor-consuming is solved.

Description

Diamond abrasive material arrangement structure

Technical Field

The utility model belongs to the technical field of abrasive grinding tools, and particularly relates to a diamond abrasive distribution structure.

Background

Diamond, which is a mineral composed of carbon elements, is the most rigid substance naturally occurring in nature, has the characteristics of high hardness, extremely high melting point, non-conduction, stable chemical properties and the like, so that the diamond can be used as a main material of tools such as geological drill bits, petroleum drill bits, abrasive materials, glass cutters, hardness tester heads and the like in industry, while diamond abrasive materials are the main raw materials for manufacturing saw blades for cutting marble, concrete and the like, and the diamond abrasive materials are arranged by using an arrangement structure in the production process in order to ensure the quality of the diamond saw blades, but the diamond saw blades still have the following defects in actual use:

1. the utility model discloses a novel orderly arranging system and an arranging process for diamond abrasive materials, wherein the material taking device comprises a cavity shell provided with an air extracting opening and a vibrator arranged on the cavity shell, one part of the cavity shell is an arranging pore plate, and a plurality of holes for adsorbing and fixing the diamond abrasive materials are orderly arranged in the arranging pore plate; the arrangement workbench is a magnetic workbench, when the diamond abrasive orderly arrangement system is in actual use, the cylinder sleeve is required to be moved to the upper side of the diamond abrasive, the diamond abrasive is orderly arranged on the lower side of the arrangement pore plate by exhausting air in the cylinder sleeve, and then the cylinder sleeve is moved to the upper side of the cold-pressed thin blank, so that the diamond abrasive is adhered to the upper side of the cold-pressed thin blank coated with the pressure-sensitive adhesive, the cylinder sleeve can only perform the arrangement of the diamond abrasive on one cold-pressed thin blank at one time, a great amount of time is required to be consumed for moving the cylinder sleeve and performing the arrangement of the diamond abrasive again after the arrangement of the diamond abrasive at one time, and the production efficiency is low;

2. after bonding the cold pressed thin blanks and the diamond abrasive, the diamond abrasive distribution structure requires workers to manually stack the cold pressed thin blanks containing the diamond abrasive and move the cold pressed thin blanks to the next processing procedure for cold press molding and hot press sintering, so that the labor intensity of the workers is high, and the quality of the produced diamond saw blade is poor due to negligence.

Disclosure of Invention

The utility model aims to provide a diamond abrasive material arrangement structure, which solves the problems that a great amount of time is consumed to arrange diamond abrasive materials on the lower side of an arrangement pore plate in order after the diamond abrasive material arrangement structure arranges a book of diamond abrasive materials on a cold-pressed thin blank through a feeding transmission assembly, a diamond charging barrel and a discharging transmission assembly, a plurality of arrangement structures are used to greatly increase the production cost, the diamond abrasive materials are required to be manually stacked and moved after the cold-pressed thin blank and the diamond abrasive materials are bonded, the labor intensity of staff is high, and the quality of a finished product is poor due to negligence.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to a diamond abrasive material arrangement structure, which comprises a feeding conveying assembly, a diamond charging barrel and a discharging conveying assembly, wherein a plurality of electromagnets are arranged on the outer peripheral surface of the feeding conveying assembly, cold pressing thin blanks made of adsorbable metal powder can be adsorbed and fixed by energizing the electromagnets, the stability of the cold pressing thin blanks during processing is ensured, discharging is conveniently carried out at a designated position, one end of each electromagnet is provided with a first rotating motor, the electromagnets can be driven by the first rotating motor to rotate in the vertical direction, the electromagnets can be matched with a diamond feeding assembly, the orderly arranged diamond abrasive materials are adhered and fixed on the surfaces of the cold pressing thin blanks, the diamond charging barrel is arranged at the inner side center of the feeding conveying assembly, a diamond feeding pipe is fixedly screwed at the outer peripheral surface of the diamond charging barrel, the diamond charging assembly is slidably inserted at the inner side of the diamond charging barrel, an air pump is connected at the inner side center of the diamond charging assembly in a penetrating manner, the diamond charging barrel can supplement the diamond abrasive materials in the diamond charging barrel in a timely manner, the diamond charging pipe can be ensured to continuously arrange the plurality of the cold pressing thin blanks, the diamond abrasive materials can be arranged in the vertical direction, the diamond abrasive materials can be conveniently arranged on the other side of the diamond grinding material assembly, the diamond abrasive material can be conveniently arranged by moving the diamond grinding material assembly, and the diamond abrasive material can be coated on the other side of the diamond abrasive material assembly after the orderly arranged by sequentially rotating the diamond abrasive material assembly, and the diamond abrasive material is sequentially arranged on the surfaces of the diamond abrasive material assembly, the distance between the hole plate and the diamond abrasive is greatly shortened, the diamond feeding assembly can arrange a large number of cold pressed thin blanks in a short time, the space utilization rate is improved, one end bottom side of the feeding conveying assembly is provided with the discharging conveying assembly, one end of the bottom side of the discharging conveying assembly is provided with the third air cylinder, the upper side of the third air cylinder is provided with the supporting rod, after the diamond abrasive is orderly arranged on the surface of the cold pressed thin blanks, the feeding conveying assembly drives the cold pressed thin blanks and the diamond abrasive to move, after the feeding assembly moves to the lower end, the third air cylinder drives the supporting rod to move upwards, and the electromagnet is powered off to enable the cold pressed thin blanks to fall to the upper side of the supporting rod under the action of gravity, after the stacked cold pressed thin blanks are obtained, the third air cylinder drives the stacked cold pressed Bao Pei to move downwards until the cold pressed thin blanks are attached to the upper side of the discharging conveying assembly, and the stacked thin blanks are driven to be discharged through the discharging conveying assembly, manual stacking and moving are not needed, the automation degree of the arrangement structure is improved, and the labor intensity of workers is reduced.

Further, two ends of the feeding conveying assembly are rotatably clamped with first rotating rollers, two ends of one first rotating roller are rotatably clamped with first supporting frames, one end of each first supporting frame is penetrated and clamped with a first rotating motor, and the first rotating motors are in transmission connection with the first rotating rollers;

the first rotating motor can drive the first rotating roller to rotate, the feeding conveying assembly is further driven to rotate, the electromagnets on the outer peripheral surface of the feeding conveying assembly are driven to move, and the plurality of cold-pressed thin blanks are fed simultaneously, so that the plurality of cold-pressed thin blanks can be continuously arranged with diamond abrasive materials.

Further, two ends of the electromagnet are fixedly clamped with rotating rods, the first rotating motor is clamped with one rotating rod relative to the other end of the electromagnet, one end of the rotating rod is clamped with a moving rod, the moving rod is positioned at the other end of the rotating rod relative to the electromagnet, the first rotating motor is positioned at the inner side of one end of the moving rod, and the moving rod is clamped with the outer peripheral surface of the feeding conveying assembly;

after the worker places the cold pressing thin embryo in the electro-magnet upside, can make the thin embryo that colds pressing adsorb to be fixed in the electro-magnet upside through leading to the electro-magnet, when needing to carry out the arrangement of diamond abrasive material, first rotating electrical machines drives electro-magnet and the thin embryo that colds pressing and carries out the rotation of vertical direction, make the thin embryo that colds pressing can cooperate with diamond material loading subassembly, carry out the orderly arrangement of diamond abrasive material, and after the arrangement of diamond abrasive material, continue to drive the thin embryo that colds pressing through material loading conveying subassembly and remove, can remove the thin embryo that colds pressing that contains the diamond abrasive material to ejection of compact conveying subassembly upside and go on the ejection of compact, do not need the manual ejection of compact, reduce staff's intensity of labour.

Further, a sealing gasket is fixedly clamped at the upper end of the inner side of the diamond charging basket, sliding grooves are formed in the two ends of the inner side of the diamond charging basket, a first air cylinder is slidably clamped at the two ends of the outer side of the diamond charging basket, a second supporting frame is clamped at the bottom end of the first air cylinder, and a first threaded pipe penetrates through and is welded at the front end of the periphery of the diamond charging basket;

the sealing gasket can prevent the diamond feeding component from being adsorbed on the surface of the diamond feeding component due to poor air tightness in the diamond charging bucket when the diamond charging component is used for exhausting air in the diamond charging bucket, and the first cylinder can drive the diamond charging bucket to move up and down, so that the diamond feeding component can be attached to the lower side of the cold-pressed thin blank.

Further, the front end of the diamond feeding pipe is penetrated and clamped with a second rotating motor, the rear end of the second rotating motor is clamped with a screw rod, the screw rod is positioned on the inner side of the diamond feeding pipe, the rear end of the inner side of the diamond feeding pipe is provided with a thread groove, the front side of the upper end of the diamond feeding pipe is penetrated and welded with a second thread pipe, and the thread groove is screwed and fixed on the outer peripheral surface of the first thread pipe;

the diamond abrasive enters the diamond feeding pipe through the second threaded pipe, and drives the screw rod to rotate through the second rotating motor, so that the diamond abrasive moves to the inner side of the diamond charging basket, and the sufficiency of the abrasive in the diamond charging basket is ensured.

Further, a first sliding block is clamped at one end of the outer peripheral surface of the diamond feeding assembly, a third rotating motor is clamped at one end of the first sliding block, the third rotating motor is clamped at one side of the diamond feeding assembly relative to the other end of the first sliding block, a second sliding block is clamped at the other end of the outer peripheral surface of the diamond feeding assembly in a rotating mode, a second air cylinder is clamped at the lower end of the second sliding block in a sliding mode, the first sliding block and the second sliding block are clamped at one side of the sliding groove in a sliding mode, and the second air cylinder is located inside the sliding groove;

after the diamond abrasive is uniformly distributed on the surface of the diamond feeding assembly, the diamond feeding assembly is driven to overturn only through the third rotating motor, the diamond feeding assembly is driven to move upwards through the second cylinder, so that the diamond can be attached to the surface of the cold-pressed thin blank coated with the pressure sensitive adhesive, after the diamond is distributed on the surface of one cold-pressed thin blank, the diamond feeding assembly is driven to move downwards again only through the second cylinder, so that the diamond abrasive can be quickly and orderly distributed on the surface of the diamond feeding assembly again, the moving distance is short, the feeding speed of the diamond abrasive is greatly improved, and the production efficiency is improved.

Further, the upper end and the lower end of the diamond feeding component are provided with ventilation grooves, the air pump is communicated with the two ventilation grooves in a penetrating way, the upper end and the lower end of the diamond feeding component are fixedly clamped with arrangement plates, the upper side of each arrangement plate is provided with a distribution hole in a penetrating way, and the two ventilation grooves are positioned between the two arrangement plates;

the upper and lower ventilation grooves and the arrangement plates are arranged on the diamond feeding component, when the diamond abrasive is tiny, when the lower side of the diamond feeding component is pumped by the air pump, the diamond abrasive on the upper side of the diamond feeding component is separated from the arrangement plates and stably adhered to the surface of the cold pressing Bao Pei, and meanwhile, the tiny rapid ordered arrangement in the diamond charging barrel is arranged in the arrangement holes on the lower side of the diamond feeding component, so that the diamond feeding component can arrange the diamond abrasive on the surface of the cold pressing Bao Pei again only by overturning, and the processing efficiency is further improved.

Further, two ends of the discharging and conveying assembly are rotatably clamped with second rotating rollers, two ends of one second rotating roller are rotatably clamped with third supporting frames, one side of each third supporting frame is clamped with a second rotating motor, the second rotating motor is in transmission connection with the second rotating rollers, two supporting plates are fixedly clamped between the two third supporting frames, the supporting plates are attached to the upper end of the inner side of the discharging and conveying assembly, the upper side of each third cylinder is slidably clamped with a connecting plate, the supporting rods are fixedly clamped with the upper ends of the supporting rods, and the connecting plates penetrate through and are connected to the upper sides of the supporting plates;

after the cold-pressed thin blanks adhered with diamond abrasive materials move to the lower side of the feeding conveying assembly along with the rotation of the feeding conveying assembly, the support rod is driven by the third air cylinder to move upwards and be attached to the lower side of the cold-pressed thin blanks, the electromagnet is powered off to enable the cold-pressed thin blanks to fall to the upper side of the support rod under the action of gravity until the specified number of cold-pressed thin blanks are stacked, the third air cylinder drives the stacked cold-pressed thin blanks to move downwards until the cold-pressed thin blanks are attached to the upper side of the discharging conveying assembly, the stacked cold-pressed thin blanks are driven by the discharging conveying assembly to be discharged, manual stacking and discharging are not needed, insufficient stacking quantity or excessive stacking quantity caused by negligence is avoided, and the quality of finished products is ensured.

The utility model has the following beneficial effects:

1. according to the utility model, the feeding conveying assembly and the diamond charging barrel are arranged, so that the problem that the production efficiency is low is solved, after the electromagnet drives the cold pressing Bao Pei of the pressure sensitive adhesive to overturn and move to the upper side of the diamond feeding assembly, the air pump pumps air to the inner side of the diamond charging barrel, so that the diamond abrasive is orderly arranged in the arrangement holes, the second cylinder drives the diamond feeding assembly to move upwards, the third rotating motor drives the diamond feeding assembly to overturn, so that the diamond abrasive is attached to the upper side of the cold pressing thin blank, the air pump pumps air again to the diamond feeding assembly, and the diamond abrasive on the upper side of the diamond feeding assembly can be locked and simultaneously the diamond abrasive on the lower side of the diamond feeding assembly can be orderly arranged again, thereby greatly improving the diamond abrasive arrangement efficiency.

2. According to the utility model, through arranging the feeding conveying assembly and the discharging conveying assembly, the problem that after the diamond abrasive material distribution structure bonds the cold-pressed thin blanks and the diamond abrasive materials, workers are required to manually stack the cold-pressed thin blanks containing the diamond abrasive materials and move the cold-pressed thin blanks to the next processing procedure to perform cold-press molding and hot-press sintering, the labor intensity of the workers is high, the produced diamond saw blade quality is easy to be poor due to negligence is solved, after the cold-pressed thin blanks bonded with the diamond abrasive materials move to the lower side of the feeding conveying assembly along with the rotation of the feeding conveying assembly, the third cylinder drives the supporting rod to move upwards and be attached to the lower side of the cold-pressed thin blanks, the electromagnet is powered off to enable the cold-pressed thin blanks to fall to the upper side of the supporting rod, after the cold-pressed thin blanks stacked to be attached to the upper side of the discharging conveying assembly, the third cylinder drives the stacked cold-pressed thin blanks to be attached to the upper side of the discharging conveying assembly, the stacked cold-pressed thin blanks are not required to be manually stacked and discharged, and the labor intensity of the workers is reduced, and the shortage or excessive stacking quantity due to negligence is avoided.

Drawings

FIG. 1 is a structural effect diagram of the present utility model;

FIG. 2 is a block diagram of a feed conveyor assembly of the present utility model;

FIG. 3 is a block diagram of an electromagnet according to the present utility model;

FIG. 4 is a block diagram of a diamond barrel according to the present utility model;

FIG. 5 is a block diagram of a diamond feed tube of the present utility model;

FIG. 6 is a block diagram of a diamond feed assembly of the present utility model;

fig. 7 is a block diagram of the outfeed conveyor assembly of the present utility model.

Reference numerals:

1. a feeding and conveying assembly; 101. an electromagnet; 102. a first support frame; 103. a first rotating motor; 104. a first rotating roller; 105. a moving rod; 106. a rotating lever; 107. a first rotating electric machine; 2. a diamond charging basket; 201. a diamond feeding pipe; 202. a diamond feeding assembly; 203. a sealing gasket; 204. a chute; 205. a second support frame; 206. a first cylinder; 207. a first threaded pipe; 208. a second rotating electric machine; 209. a second threaded tube; 210. a thread groove; 211. a screw rod; 212. an arrangement plate; 213. arranging holes; 214. a vent groove; 215. an air pump; 216. a first slider; 217. a third rotary electric machine; 218. a second slider; 219. a second cylinder; 3. a discharge delivery assembly; 301. a third cylinder; 302. a connecting plate; 303. a support rod; 304. a third support frame; 305. a support plate; 306. a second rotating roller; 307. and a second rotating motor.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1-7, the utility model is a diamond abrasive material arrangement structure, which comprises a feeding and conveying assembly 1, a diamond charging basket 2 and a discharging and conveying assembly 3, wherein a plurality of electromagnets 101 are arranged on the peripheral surface of the feeding and conveying assembly 1, a cold-pressed thin blank is placed on the upper side of the electromagnets 101 through manual work or a conveying device, the electromagnets 101 are electrified to enable the electromagnets 101 to absorb and fix the cold-pressed thin blank made of adsorbable metal powder, the electromagnets 101 and the cold-pressed thin blank are driven to move through the feeding and conveying assembly 1, one end of each electromagnet 101 is provided with a first rotating motor 107, after the surface of the cold-pressed thin blank is coated with pressure-sensitive adhesive, the first rotating motor 107 drives the electromagnets 101 to rotate in the vertical direction, the cold-pressed thin blank is positioned on the lower side of the electromagnets 101 until the cold-pressed thin blank moves to the upper side of the diamond charging basket 2, the center of the inner side of the feeding and conveying assembly 1 is provided with diamond 2, the front end of the periphery of the diamond charging basket 201 is rotationally fixed with a diamond feeding pipe 201, the inner side of the diamond charging basket 2 is slidingly inserted with a diamond charging basket 202, the center of the diamond charging basket 202 is clamped with an air pump 215, the diamond charging basket 201 is driven to move the diamond charging basket 2, the diamond grinding material is sequentially arranged on the lower side of the diamond charging basket 2 through the diamond charging basket 215, and the diamond grinding material is sequentially arranged on the diamond charging basket 2, and the diamond grinding material is stably arranged on the lower side of the diamond charging basket 2 through the diamond charging basket 2 and the air suction and the diamond grinding material has been sequentially coated on the diamond charging basket 2, meanwhile, the diamond abrasive in the diamond charging basket 2 is orderly arranged on the lower side of the diamond feeding assembly 202 through air suction, when the size of the diamond abrasive is large, the diamond abrasive is arranged on the surface of a cold-pressed thin blank, the diamond feeding assembly 202 moves downwards and pumps air in the diamond charging basket 2 through the air pump 215, the diamond abrasive is orderly arranged on the lower side of the diamond feeding assembly 202 again, a discharging conveying assembly 3 is arranged on the bottom side of one end of the feeding conveying assembly 1, a third air cylinder 301 is arranged on one end of the bottom side of the discharging conveying assembly 3, a supporting rod 303 is arranged on the upper side of the third air cylinder 301, after the diamond abrasive is orderly arranged on the surface of the cold-pressed thin blank, the first rotating motor 107 drives the electromagnet 101 and the cold-pressed Bao Pei to turn over, the feeding conveying assembly 1 drives the cold-pressed thin blank and the diamond abrasive to move, after the cold-pressed thin blank moves to the lower end of the feeding conveying assembly 1, the third air cylinder 301 drives the supporting rod 303 to move upwards, the electromagnet 101 is powered off, the cold-pressed thin blank falls to the upper side of the supporting rod 303 under the action of gravity, after the cold-pressed thin blank with a specified number is stacked, the third air cylinder 301 drives the stacked Bao Pei to move downwards until the cold-pressed thin blank is stacked, and the cold-pressed thin blank is attached to the conveying assembly 3, and the cold-pressed thin blank is stacked by the stacking assembly 3.

As shown in fig. 1-3, two ends of the feeding and conveying assembly 1 are rotatably clamped with first rotating rollers 104, two ends of one first rotating roller 104 are rotatably clamped with first supporting frames 102, one end of each first supporting frame 102 is penetrated and clamped with a first rotating motor 103, the first rotating motor 103 is in transmission connection with the first rotating roller 104, two ends of the electromagnet 101 are fixedly clamped with rotating rods 106, a first rotating motor 107 is clamped with one rotating rod 106 relative to the other end of the electromagnet 101, one end of each rotating rod 106 is clamped with a moving rod 105, the moving rod 105 is positioned at the other end of each rotating rod 106 relative to the electromagnet 101, the first rotating motor 107 is positioned at the inner side of one end of each moving rod 105, and each moving rod 105 is clamped with the outer peripheral surface of the feeding and conveying assembly 1;

the staff places the cold-pressed thin embryo in the electro-magnet 101 upside, makes cold-pressed thin embryo adsorb and be fixed in electro-magnet 101 upside through being circular telegram to electro-magnet 101, and first rotating electrical machines 103 drive the rotation of first rotating roller 104, further drive material loading conveying subassembly 1 and rotate, make a plurality of electro-magnets 101 of material loading conveying subassembly 1 outer peripheral face remove, remove the material loading simultaneously to a plurality of cold-pressed thin embryo, after cold-pressed thin embryo surface coating pressure sensitive adhesive, first rotating electrical machines 107 drive electro-magnet 101 and cold-pressed thin embryo and carry out the upset of vertical direction, until cold-pressed thin embryo removes to diamond storage bucket 2 upper end.

As shown in fig. 1, 4, 5 and 6, a sealing pad 203 is clamped and fixed at the upper end of the inner side of the diamond charging barrel 2, sliding grooves 204 are formed at the two ends of the inner side of the diamond charging barrel 2, a first air cylinder 206 is clamped and connected at the two ends of the outer side of the diamond charging barrel 2 in a sliding manner, a second supporting frame 205 is clamped and connected at the bottom end of the first air cylinder 206, a first threaded pipe 207 is welded at the front end of the outer periphery of the diamond charging barrel 2 in a penetrating manner, a second rotating motor 208 is clamped and connected at the front end of the diamond charging barrel 201 in a penetrating manner, a screw rod 211 is clamped at the rear end of the second rotating motor 208, the screw rod 211 is positioned at the inner side of the diamond charging barrel 201, a threaded groove 210 is formed at the rear end of the inner side of the diamond charging barrel 201, a second threaded pipe 209 is welded at the front end of the upper end of the diamond charging barrel 201 in a penetrating manner, and the threaded groove 210 is screwed and fixed on the outer periphery of the first threaded pipe 207;

the first sliding block 216 is clamped at one end of the outer peripheral surface of the diamond feeding assembly 202, the third rotating motor 217 is clamped at one end of the first sliding block 216, the third rotating motor 217 is clamped at one side of the diamond feeding assembly 202 relative to the other end of the first sliding block 216, the second sliding block 218 is rotatably clamped at the other end of the outer peripheral surface of the diamond feeding assembly 202, the second cylinder 219 is slidably clamped at the lower end of the second sliding block 218, the first sliding block 216 and the second sliding block 218 are slidably clamped at one side of the sliding groove 204, the second cylinder 219 is positioned at the inner side of the sliding groove 204, the upper end and the lower end of the diamond feeding assembly 202 are respectively provided with an air channel 214, an air pump 215 and two air channels 214 are communicated in a penetrating manner, the upper end and the lower end of the diamond feeding assembly 202 are fixedly clamped with arrangement plates 212, the upper side of the arrangement plates 212 are respectively provided with an arrangement hole 213 in a penetrating manner, and the two air channels 214 are positioned between the two arrangement plates 212;

the first cylinder 206 drives the diamond charging basket 2 to move up and down to a proper position, the diamond abrasive enters the diamond charging basket 201 through the second threaded pipe 209, the second rotating motor 208 drives the spiral rod 211 to rotate, the diamond abrasive is moved to the inner side of the diamond charging basket 2, the air pump 215 pumps air to the upper side, the diamond abrasive is orderly arranged in the arrangement holes 213 under the action of air pressure, the second cylinder 219 drives the diamond charging assembly 202 to move upwards, the third rotating motor 217 drives the diamond charging assembly 202 to overturn, the diamond abrasive is moved to the upper side of the diamond charging assembly 202, the air pump 215 pumps air to the upper side again through the pressure sensitive adhesive on the lower side of the cold-pressed thin blank, the locking of the diamond abrasive on the upper side is released, when the diamond abrasive is tiny, the diamond abrasive of the diamond charging basket 2 can be orderly arranged in the arrangement holes 213 on the lower side of the diamond charging assembly 202 again, and when the diamond abrasive particles are bigger, the second cylinder 219 drives the diamond charging assembly 202 to move downwards to arrange the diamond abrasive.

As shown in fig. 1 and 7, two ends of the discharging and conveying assembly 3 are rotatably clamped with second rotating rollers 306, two ends of one second rotating roller 306 are rotatably clamped with third supporting frames 304, one side of the third supporting frame 304 is clamped with a second rotating motor 307, the second rotating motor 307 is in transmission connection with the second rotating rollers 306, a supporting plate 305 is fixedly clamped between the two third supporting frames 304, the supporting plate 305 is attached to the upper end of the inner side of the discharging and conveying assembly 3, a connecting plate 302 is slidably clamped on the upper side of the third air cylinder 301, the supporting rod 303 is fixedly clamped on the upper end of the supporting rod 303, and the connecting plate 302 is inserted into the upper side of the supporting plate 305 in a penetrating manner;

after the cold-pressed thin blanks adhered with diamond abrasive materials move to the lower side of the feeding conveying assembly 1 along with the rotation of the feeding conveying assembly 1, the third air cylinder 301 drives the connecting plate 302 and the supporting rod 303 to move upwards and be attached to the lower side of the cold-pressed thin blanks, the electromagnet 101 is powered off to enable the cold-pressed thin blanks to fall to the upper side of the supporting rod 303 under the action of gravity, the third air cylinder 301 drives the cold-pressed thin blanks to move downwards for a certain distance so as to be convenient for carrying the next cold-pressed thin blanks until the cold-pressed thin blanks with the specified number are stacked, the third air cylinder 301 drives the stacked cold-pressed thin blanks to move downwards until the cold-pressed thin blanks are attached to the upper side of the discharging conveying assembly 3, the second rotating motor 307 drives the second rotating roller 306 to rotate, and further drives the discharging conveying assembly 3 to rotate, so that the stacked cold-pressed thin blanks move along the rotating direction of the discharging conveying assembly 3 to discharge.

The working principle of the embodiment is as follows: the second threaded pipe 209 and the feeding hose are fixed in a screwed mode, diamond grinding materials enter the diamond feeding pipe 201 through the second threaded pipe 209, the second rotary motor 208 drives the spiral rod 211 to rotate, the diamond grinding materials are moved to the inner side of the diamond charging barrel 2, the first cylinder 206 is controlled to drive the diamond charging barrel 2 to move up and down to a proper position according to the thickness of the cold-pressed thin blanks, an arrangement structure is started, the cold-pressed thin blanks are placed on the upper side of the electromagnet 101, the electromagnet 101 is electrified to enable the cold-pressed thin blanks to be adsorbed and fixed on the upper side of the electromagnet 101, the first rotary motor 103 drives the first rotary roller 104 to rotate, the feeding conveying assembly 1 is further driven to rotate, the electromagnets 101 on the outer peripheral surface of the feeding conveying assembly 1 are driven to move and feed the cold-pressed thin blanks at the same time, after the surface of the cold-pressed thin blanks is coated with the pressure sensitive adhesive, the first rotating motor 107 drives the electromagnet 101 and the cold-pressed thin blank to turn over vertically until the cold-pressed thin blank moves to the upper end of the diamond charging barrel 2, the first cylinder 206 drives the diamond charging barrel 2 to move up and down to a proper position, the diamond abrasive enters the diamond charging barrel 201 through the second threaded pipe 209, the second rotating motor 208 drives the spiral rod 211 to rotate, the diamond abrasive moves to the inner side of the diamond charging barrel 2, the air pump 215 pumps air to the upper side, the diamond abrasive is orderly arranged in the arrangement holes 213 under the action of air pressure, the second cylinder 219 drives the diamond charging assembly 202 to move upwards, the third rotating motor 217 drives the diamond charging assembly 202 to turn over, the diamond abrasive moves to the upper side of the diamond charging assembly 202, and is adhered to the lower side of the cold-pressed thin blank, the air pump 215 pumps air to the upper side again, the locking of the upper side diamond abrasive is released, when the diamond abrasive is finer, the diamond abrasive of the diamond charging basket 2 can be orderly arranged in the arrangement holes 213 at the lower side of the diamond feeding assembly 202 again, when the diamond abrasive particles are larger, the second air cylinder 219 drives the diamond feeding assembly 202 to move downwards for arranging the diamond abrasive, after the cold-pressed thin blanks adhered with the diamond abrasive move to the lower side of the feeding assembly 1 along with the rotation of the feeding assembly 1, the third air cylinder 301 drives the connecting plate 302 and the supporting rod 303 to move upwards and attach to the lower side of the cold-pressed thin blanks, the electromagnet 101 is powered off to enable the cold-pressed thin blanks to fall to the upper side of the supporting rod 303 under the action of gravity, and the third air cylinder 301 drives the cold-pressed thin blanks to move downwards for a certain distance so as to be convenient for carrying on the next cold-pressed thin blanks until the cold-pressed thin blanks with a specified number are stacked, the third air cylinder 301 drives the stacked cold-pressed thin blanks to move downwards to attach to the upper side of the discharging assembly 3, and the second rotating motor 307 drives the second rotating roller 306 to rotate to further drive the discharging assembly 3 to rotate so that the stacked cold-pressed thin blanks move along the rotating direction of the discharging assembly 3 to discharge.

The foregoing is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, and any modification, equivalent replacement, and improvement of some of the technical features described in the foregoing embodiments are all within the scope of the present utility model.

Claims

1. The utility model provides a diamond abrasive material arrangement structure, includes material loading conveying subassembly (1), diamond storage bucket (2) and ejection of compact conveying subassembly (3), its characterized in that: the feeding conveying assembly is characterized in that a plurality of electromagnets (101) are arranged on the outer peripheral surface of the feeding conveying assembly (1), a first rotating motor (107) is arranged at one end of each electromagnet (101), a diamond charging barrel (2) is arranged at the center of the inner side of the feeding conveying assembly (1), a diamond feeding pipe (201) is fixedly connected to the front end of the outer peripheral surface of each diamond charging barrel (2) in a screwed mode, a diamond feeding assembly (202) is connected to the inner side of each diamond charging barrel (2) in a sliding mode, an air pump (215) penetrates through the center of the inner side of each diamond feeding assembly (202) in a clamped mode, a discharging conveying assembly (3) is arranged at the bottom side of one end of each feeding conveying assembly (1), a third air cylinder (301) is arranged at one end of the bottom side of each discharging conveying assembly (3), and a supporting rod (303) is arranged at the upper side of each third air cylinder (301).

2. A diamond abrasive arrangement according to claim 1, wherein: the feeding conveying assembly is characterized in that two ends of the feeding conveying assembly (1) are rotatably clamped with first rotating rollers (104), two ends of one first rotating roller (104) are rotatably clamped with first supporting frames (102), one ends of the first supporting frames (102) penetrate through and are clamped with first rotating motors (103), and the first rotating motors (103) are in transmission connection with the first rotating rollers (104).

3. A diamond abrasive arrangement according to claim 1, wherein: the automatic feeding device is characterized in that rotating rods (106) are fixedly clamped at two ends of the electromagnet (101), the first rotating motor (107) is clamped at one end of one rotating rod (106) opposite to the other end of the electromagnet (101), one end of the rotating rod (106) is clamped with a moving rod (105), the moving rod (105) is located at the other end of the rotating rod (106) opposite to the other end of the electromagnet (101), the first rotating motor (107) is located at the inner side of one end of one moving rod (105), and the moving rod (105) is clamped at the outer peripheral surface of the feeding conveying assembly (1).

4. A diamond abrasive arrangement according to claim 1, wherein: the diamond charging basket (2) is fixed with sealing gasket (203) in the inboard upper end joint, spout (204) have been seted up at diamond charging basket (2) inboard both ends, the slip joint has first cylinder (206) in diamond charging basket (2) outside both ends, first cylinder (206) bottom joint has second support frame (205), diamond charging basket (2) periphery front end runs through the welding has first screwed pipe (207).

5. A diamond abrasive arrangement according to claim 4, wherein: the front end of the diamond feeding pipe (201) is penetrated and clamped with a second rotating motor (208), the rear end of the second rotating motor (208) is clamped with a screw rod (211), the screw rod (211) is positioned on the inner side of the diamond feeding pipe (201), a thread groove (210) is formed in the rear end of the inner side of the diamond feeding pipe (201), the front side of the upper end of the diamond feeding pipe (201) is penetrated and welded with a second thread pipe (209), and the thread groove (210) is screwed and fixed on the outer peripheral surface of the first thread pipe (207).

6. A diamond abrasive arrangement according to claim 4, wherein: the diamond feeding assembly (202) outer peripheral surface one end joint has first slider (216), first slider (216) one end joint has third rotating electrical machines (217), third rotating electrical machines (217) are in diamond feeding assembly (202) one side for first slider (216) other end joint, diamond feeding assembly (202) outer peripheral surface other end rotation joint has second slider (218), second slider (218) lower extreme slip joint has second cylinder (219), first slider (216) and second slider (218) slip joint are in spout (204) one side, second cylinder (219) are located spout (204) inboard.

7. A diamond abrasive arrangement according to claim 1, wherein: the upper end and the lower end of the diamond feeding component (202) are provided with ventilation grooves (214), the air pump (215) and the two ventilation grooves (214) are communicated in a penetrating mode, the upper end and the lower end of the diamond feeding component (202) are fixedly connected with arrangement plates (212) in a clamping mode, the upper sides of the arrangement plates (212) are provided with arrangement holes (213) in a penetrating mode, and the two ventilation grooves (214) are located between the two arrangement plates (212).

8. A diamond abrasive arrangement according to claim 1, wherein: two ends of the discharging and conveying assembly (3) are rotatably clamped with second rotating rollers (306), two ends of one second rotating roller (306) are rotatably clamped with a third supporting frame (304), one side of the third supporting frame (304) is clamped with a second rotating motor (307), the second rotating motor (307) is in transmission connection with the second rotating rollers (306), the two third support frames (304) are fixedly connected with a support plate (305) in a clamping mode, the support plate (305) is attached to the upper end of the inner side of the discharging and conveying assembly (3), a connecting plate (302) is laterally clamped on the upper side of the third air cylinder (301), the support rod (303) is fixedly connected with the upper end of the support rod (303) in a clamping mode, and the connecting plate (302) penetrates through and is connected to the upper side of the support plate (305).