CN211103272U - Novel automatic feeding polisher - Google Patents

Abstract

The utility model discloses a novel automatic feeding polisher, the feeding mechanism is arranged on one side of the assembly line, the polishing mechanism is arranged on the other side of the assembly line, the clamping mechanism is arranged on the side of the assembly line, the feeding mechanism comprises a first mounting frame, a first motor, a first sliding plate and a first sliding rail, the first sliding plate is provided with the first sliding plate, and the first sliding plate is connected with the first motor through a driving medium; the clamping mechanism comprises a second mounting frame, a second motor, a second slide rail, a second slide plate, a lifting cylinder and a sucker, the second slide plate is arranged on the second slide rail, the lifting cylinder is fixed on the second slide plate, the telescopic end of the lifting cylinder is provided with the sucker, and the sucker can move between the first slide plate and the assembly line in a reciprocating manner; the applicability is better, and the polishing device is suitable for polishing products of different specifications.

Description

Novel automatic feeding polisher

Technical Field

The utility model relates to a polisher equipment technical field especially relates to a novel automatic feeding polisher.

Background

The grinding machine, the full-name reciprocating type electric polishing grinding machine, is widely used for finish machining and surface polishing treatment in the mold industry in the early stage, and now through carrying out corresponding adjustment on the structure of the grinding machine, particles on the surface of a small film, a PE sheet, a planar plate and the like after screen printing can be polished and ground by using sand paper and the like, so that the grinding machine can meet the requirements of customers.

In the existing polishing machine, manual feeding is generally adopted in the polishing process, manpower is wasted, polishing stations of products to be polished with different specifications need to be confirmed and positioned respectively, the feeding efficiency and precision cannot be guaranteed, and the polishing efficiency is influenced; in addition, in the grinding process, if the feeding position of a product to be ground is not accurate, a grinding dead angle may exist, so that the product quality is influenced because the product cannot be polished at the position.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a novel automatic feeding polisher, assembly line, feed mechanism, clamping mechanism and polishing mechanism act synergistically to realize the automatic feeding of the product to be polished, polish the product without dead angle, and have high polishing efficiency and good polishing effect; the applicability is better, and the polishing device is suitable for polishing products of different specifications.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a novel automatic feeding polisher comprises a rack, a feeding mechanism, a clamping mechanism, a production line and a polishing mechanism, wherein the production line is arranged on the rack, the feeding mechanism is arranged on one side of the production line on the rack, the polishing mechanism is arranged on the other side of the production line on the rack, and the clamping mechanism is arranged on the side of the production line and used for conveying products on the feeding mechanism to the production line; the feeding mechanism comprises a first mounting frame, a first motor, a first sliding plate and a first sliding rail, wherein the first motor and the first sliding rail are arranged on the first mounting frame, the first sliding plate for placing a product is arranged on the first sliding rail in a sliding manner, and the first sliding plate is connected with the first motor through a transmission piece; the clamping mechanism comprises a second mounting frame, a second motor, a second slide rail, a second slide plate, a lifting cylinder and a sucker, the second slide rail is arranged on the second mounting frame, the second slide plate can be arranged on the second slide rail in a sliding mode and is connected with the second motor in a transmission mode, the lifting cylinder is fixed on the second slide plate, the sucker is arranged at the telescopic end of the lifting cylinder, and the sucker can move between the first slide plate and the assembly line in a reciprocating mode.

As a further optimization, the transmission member is a transmission chain, and one end of the first sliding plate is fixed on the transmission chain.

As a further optimization, the lower extreme of first mounting bracket is equipped with the bottom plate, be equipped with a plurality of guide rails on the bottom plate, what can slide on the guide rail is equipped with the gag lever post that is used for spacing product, be equipped with on the first slide with gag lever post assorted spacing waist groove.

As a further optimization, the polishing mechanism comprises a third mounting frame, a third motor, a third slide rail, a third slide plate and a polishing assembly, the third motor and the third slide rail are arranged on the third mounting frame, the third slide plate can be arranged on the third slide rail in a sliding manner, and the polishing assembly is arranged on the third slide plate.

As a further optimization, the polishing assembly comprises an abrasive paper conveying assembly and a polishing head, the abrasive paper conveying assembly comprises abrasive paper, a discharging roller, a receiving roller and a receiving motor, the polishing head comprises a prepressing cylinder, a shell, a pressing cylinder, a frame body, a rotating motor, an eccentric head and a polishing pressing block, the prepressing cylinder is fixed on a third sliding plate, the shell is arranged at the lower end of the prepressing cylinder, the pressing cylinder is arranged on the shell, the frame body is arranged at the lower end of the pressing cylinder and located in the shell, the rotating motor is arranged in the frame body, the output end of the rotating motor is connected with the polishing pressing block through the eccentric head, and the polishing pressing block is driven by the pressing cylinder to extend out of the bottom of the shell; the abrasive paper is rolled on the receiving roller after the discharging roller sequentially penetrates through the plurality of guide rollers, and the middle of the abrasive paper is located below the polishing head.

As a further optimization, the inner wall of the shell is fixed with a sliding rail, the outer wall of the frame is fixed with a sliding block, and the sliding block is arranged on the sliding rail in a sliding manner.

As a further optimization, the emptying roller, the receiving roller and the guide roller are all provided with limiting rings for limiting abrasive paper.

As a further optimization, dust suction ports are arranged on two side walls of the shell and connected with a dust collector fixed on the rack.

As further optimization, the assembly line comprises a fourth motor, a driving shaft, a driven shaft and a belt, the driving shaft is connected with the fourth motor, and the belt used for conveying products is sleeved on the outer side of the driving shaft and the outer side of the driven shaft.

As a further optimization, a pair of nip rolls is arranged above the production line and positioned on two sides below the grinding mechanism.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. through the cooperative action of the assembly line, the feeding mechanism, the clamping mechanism and the polishing mechanism, the automatic feeding of a product to be polished can be realized, the product can be polished without dead angles, the automation degree is high, the polishing efficiency is high, and the polishing effect is good;

2. the applicability is good, and the polishing machine is suitable for polishing products (with different sizes and thicknesses) with different specifications;

3. the polishing head adopts double servo and ball screw drive for polishing, so that the silencing effect is good, the stability is good, and the polishing can be uniform; the grinding and conveying adopt servos, so that different grinding requirements can be met; the sand paper folding and unfolding structure is unique in design, so that the utilization rate of the sand paper can be improved; the machine has compact structure and small floor area.

Drawings

Fig. 1 is a structural diagram of the present invention.

Fig. 2 is the structure diagram of the assembly line, the feeding mechanism and the clamping mechanism of the present invention.

Fig. 3 is a structural diagram of the feeding mechanism of the present invention.

Figure 4 is the structure diagram of the polishing assembly of the present invention.

Fig. 5 is a structural diagram of the polishing head of the present invention located in the casing.

In the figure, 10, a frame; 11. a production line; 12. a feeding mechanism; 13. a gripping mechanism; 14. a polishing mechanism; 15. a nip roll; 111. a fourth mounting bracket; 112. a fourth motor; 113. a drive shaft; a driven shaft; 115. a belt; 121. a first mounting bracket; 122. a first motor; 123. a first slide rail; 124. a transmission member; 125. a first slide plate; 131. a second mounting bracket; 132. a second motor; 133. a second slide plate; 134. a lifting cylinder; 135. a suction cup; 141. a third mounting bracket; 142. a third motor; 143. a third slide rail; 144. a third slide plate; 145. polishing the assembly; 146. a dust suction port; 147. a vacuum cleaner; 1251. a limiting waist groove; 1261. a base plate; 1262. a guide rail; 1263. a limiting rod; 145a, a receiving roller; 145b. a discharge roll; 145c, a receiving motor; 1451. a pre-pressing cylinder; 1452. a housing; 1453. pressing down the air cylinder; 1454. a frame body; 1455. a rotating electric machine; 1456. an eccentric head; 1457. polishing and briquetting; 1458. a slider; 1459. and a material guide roller.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 5, a novel automatic feeding polisher includes a frame 10, a feeding mechanism 12, a clamping mechanism 13, a flow line 11 and a polishing mechanism 14, wherein the flow line 11 is disposed on the frame 10, the feeding mechanism 12 is disposed on the frame 10 and located on one side of the flow line 11, the polishing mechanism 14 is disposed on the frame 10 and located above the other side of the flow line 11, and the clamping mechanism 13 is disposed on the side of the flow line 11 and used for conveying a product on the feeding mechanism 12 to the flow line 11; the feeding mechanism 12 comprises a first mounting frame 121, a first motor 122, a first sliding plate 125 and a first sliding rail 123, the first motor 122 and the first sliding rail 123 are arranged on the first mounting frame 121, the first sliding plate 125 for placing a product is slidably arranged on the first sliding rail 123, and the first sliding plate 125 is connected with the first motor 122 through a transmission member 124; the clamping mechanism 13 includes a second mounting bracket 131, a second motor 132, a second slide rail (not shown), a second slide plate 133, a lifting cylinder 134 and a suction cup 135, the second slide rail is disposed on the second mounting bracket 131, the second slide plate 133 is slidably disposed on the second slide rail and is connected to the second motor 132 through a transmission chain, the lifting cylinder 134 is fixed on the second slide plate 133, the telescopic end of the lifting cylinder is provided with the suction cup 135, and the suction cup 135 can reciprocate between the first slide plate 125 and the production line 11.

The product to be polished is stacked on the first sliding plate, the first motor drives the first sliding plate to stably move up on the first sliding rail through the transmission part, the second motor drives the sucker to reciprocate between the first sliding plate and the assembly line, the product to be polished is placed on the assembly line, automatic feeding of the product is completed, the feeding mechanism achieves stable feeding, the clamping mechanism achieves product transfer, the assembly line achieves that the product is conveyed to the position below the polishing mechanism, feeding is accurate, and feeding efficiency is high; the assembly line carries out the product pay-off along a direction, and grinding machanism removes along the direction with assembly line material loading direction looks vertically, through assembly line and grinding machanism's concerted action, can realize treating that the positive no dead angle of the product of polishing is polished, and degree of automation is high, and it is efficient to polish.

The transmission member 124 is a transmission chain, and one end of the first sliding plate 125 is fixed on the transmission chain.

The lower extreme of first mounting bracket 121 is equipped with bottom plate 1261, be equipped with a plurality of guide rails 1262 on bottom plate 1261, what can slide on the guide rail 1262 is equipped with the gag lever post 1263 that is used for spacing product, be equipped with on the first slide 125 with gag lever post 1263 assorted spacing waist groove 1251, can be to the product of waiting to polish of different specifications (size, thickness), relative position through the adjustment gag lever post, the accurate location of the product of waiting to polish is realized, the convenient clamp of getting is got the mechanism and is drawn the same position, the messenger waits to polish the product and has accurate position of placing on the assembly line.

Grinding mechanism 14 includes third mounting bracket 141, third motor 142, third slide rail 143, third slide 144 and grinding assembly 145, and third motor 142 and third slide rail 143 set up on third mounting bracket 141, and third slide 144 can set up on third slide rail 143 that slides, and grinding assembly 145 sets up on third slide 144.

The sanding assembly 145 includes a sandpaper conveying assembly and a sanding head, the sandpaper conveying assembly includes sandpaper (not shown), a discharge roller 145b, a receiving roller 145a and a receiving motor 145c, the sanding head includes a pre-pressing cylinder 1451, a housing 1452, a down-pressing cylinder 1453, a frame 1454, a rotating motor 1455, an eccentric 1456 and a sanding block 1457, the pre-pressing cylinder 1451 is fixed on the third sliding plate 144, the housing 1452 is disposed at a lower end of the pre-pressing cylinder 1451, the down-pressing cylinder 1453 is disposed on the housing 1452, the frame 1454 is disposed at a lower end of the down-pressing cylinder 1453 and is located in the housing 1452, the rotating motor 1455 is disposed in the frame 1454, an output end of the rotating motor 1455 is connected with the sanding block 1457 through the eccentric 1456, and the sanding block 1457 is driven by the down-pressing; guide rollers 1459 are respectively arranged at the upper end and the lower end of the outer wall of the shell 1452, the discharging roller 145b and the receiving roller 145a are respectively arranged on two sides above the polishing head, abrasive paper sequentially penetrates through the guide rollers 1459 by the discharging roller 145b and then is wound on the receiving roller 145a, the middle of the abrasive paper is positioned below the polishing head, the polishing pressing block can move downwards under the driving of the pressing cylinder and is abutted to the upper end surface of the abrasive paper, the lower end surface of the abrasive paper is abutted to a product to be polished, the polishing pressing block is driven by a rotating motor to do eccentric motion, and the polishing treatment of the surface of the product to be polished by the abrasive paper is realized.

A slide rail is fixed on the inner wall of the housing 1452, a slide block 1458 is fixed on the outer wall of the frame 1454, and the slide block 1458 is arranged on the slide rail in a sliding manner, so that the up-and-down moving accuracy of the polishing press block is improved.

The discharging roller 145b, the receiving roller 145a and the guide roller 1459 are all provided with a limiting ring for limiting abrasive paper, so that the abrasive paper can be prevented from swinging, and the abrasive paper can be opposite to a grinding pressing block.

Dust suction ports 146 are formed in two side walls of the casing 1452, the dust suction ports 146 are connected with a dust collector 147 fixed on the rack 10, dust suction ports are formed in the polishing assembly, dust generated by polishing can be removed through the dust collector, the dust is prevented from falling back on a polishing product, polishing precision is improved, and meanwhile, the working environment can be optimized through dust collection.

The assembly line 11 includes fourth mounting bracket 111, fourth motor 112, driving shaft 113, driven shaft 114 and belt 115, the fourth mounting bracket is fixed in the frame, the fourth motor, driving shaft and driven shaft set up on the fourth mounting bracket, driving shaft 113 links to each other with fourth motor 112, this driving shaft 113 is equipped with the belt 115 that is used for carrying the product with the outside cover of driven shaft 114, the material loading of product of waiting to polish is realized to the assembly line, the artifical or automatic product of waiting to polish of accessible will be placed on the assembly line.

A pair of material pressing rollers 15 are arranged above the assembly line 11, and the pair of material pressing rollers 15 are located on two sides of the lower portion of the polishing mechanism 14, so that the phenomenon that two sides of the polishing mechanism are tilted when a product to be polished is polished by the polishing mechanism can be prevented, and stable polishing is facilitated.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (10)

1. The novel automatic feeding polisher is characterized by comprising a rack (10), a feeding mechanism (12), a clamping mechanism (13), a production line (11) and a polishing mechanism (14), wherein the production line (11) is arranged on the rack (10), the feeding mechanism (12) is arranged on the rack (10) and located on one side of the production line (11), the polishing mechanism (14) is arranged on the rack (10) and located above the other side of the production line (11), and the clamping mechanism (13) is arranged on the side of the production line (11) and used for conveying products on the feeding mechanism (12) to the production line (11); the feeding mechanism (12) comprises a first mounting frame (121), a first motor (122), a first sliding plate (125) and a first sliding rail (123), the first motor (122) and the first sliding rail (123) are arranged on the first mounting frame (121), a first sliding plate (125) used for placing a product is arranged on the first sliding rail (123) in a sliding manner, and the first sliding plate (125) is connected with the first motor (122) through a transmission piece (124); the clamping mechanism (13) comprises a second mounting frame (131), a second motor (132), a second slide rail, a second slide plate (133), a lifting cylinder (134) and a sucker (135), the second slide rail is arranged on the second mounting frame (131), the second slide plate (133) can be arranged on the second slide rail in a sliding mode and is connected with the second motor (132) in a transmission mode, the lifting cylinder (134) is fixed on the second slide plate (133), the telescopic end of the lifting cylinder is provided with the sucker (135), and the sucker (135) can move between the first slide plate (125) and the production line (11) in a reciprocating mode.

2. The new automatic feeding sander according to claim 1, wherein the transmission member (124) is a transmission chain, and one end of the first sliding plate (125) is fixed to the transmission chain.

3. The novel automatic feeding sander according to claim 1, wherein a bottom plate (1261) is provided at the lower end of the first mounting rack (121), a plurality of guide rails (1262) are provided on the bottom plate (1261), a limiting rod (1263) for limiting a product is provided on the guide rails (1262) in a sliding manner, and a limiting waist groove (1251) matched with the limiting rod (1263) is provided on the first sliding plate (125).

4. The novel automatic feeding sander according to claim 1, wherein the sanding mechanism (14) comprises a third mounting frame (141), a third motor (142), a third slide rail (143), a third slide plate (144), and a sanding assembly (145), the third motor (142) and the third slide rail (143) are disposed on the third mounting frame (141), the third slide plate (144) is slidably disposed on the third slide rail (143), and the sanding assembly (145) is disposed on the third slide plate (144).

5. The new automatic feeding sander according to claim 4, wherein the sanding assembly (145) comprises a sandpaper conveying assembly and a sanding head, the sandpaper conveying assembly comprises a sandpaper, a discharging roller (145b), a receiving roller (145a) and a receiving motor (145c), the sanding head comprises a pre-pressing cylinder (1451), a housing (1452), a down-pressing cylinder (1453), a frame (1454), a rotating motor (1455), an eccentric head (1456) and a sanding block (1457), the pre-pressing cylinder (1451) is fixed on the third sliding plate (144), the housing (1452) is disposed at the lower end of the pre-pressing cylinder (1451), the down-pressing cylinder (1453) is disposed on the housing (1452), the frame (1454) is disposed at the lower end of the down-pressing cylinder (1453) and is disposed in the housing (1452), the rotating motor (1455) is disposed in the frame (1454), and the output end thereof is connected to the sanding block (1457) through the eccentric head (1456), the grinding pressing block (1457) is driven by a lower pressing cylinder (1453) to extend out of the bottom of the shell (1452); the abrasive paper is wound on the material receiving roller (145a) after sequentially passing through the plurality of material guiding rollers (1459) by the discharging roller (145b), and the middle of the abrasive paper is positioned below the polishing head.

6. The novel automatic feeding sander according to claim 5, wherein a slide rail is fixed to the inner wall of the housing (1452), a slider (1458) is fixed to the outer wall of the frame (1454), and the slider (1458) is slidably disposed on the slide rail.

7. The novel automatic feeding sander according to claim 5, wherein the discharging roller (145b), the receiving roller (145a) and the guiding roller (1459) are provided with limiting rings for limiting sandpaper.

8. The new automatic feeding sander according to claim 5, characterized in that the housing (1452) has suction ports (146) on both sides, and the suction ports (146) are connected to a suction cleaner (147) fixed to the frame (10).

9. The novel automatic feeding sander according to claim 1, wherein the production line (11) comprises a fourth motor (112), a driving shaft (113), a driven shaft (114) and a belt (115), the driving shaft (113) is connected with the fourth motor (112), and the belt (115) for conveying products is sleeved on the outer side of the driving shaft (113) and the driven shaft (114).

10. The new automatic feeding sander according to claim 1, characterized in that a pair of nip rolls (15) is provided above the flow line (11), and a pair of nip rolls (15) is located on both sides below the sanding mechanism (14).

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