CN112706021A

CN112706021A - Product rotating device and deburring mechanism

Info

Publication number: CN112706021A
Application number: CN201911017880.2A
Authority: CN
Inventors: 陈斌; 俞健; 刘洋
Original assignee: Fuding Electronic Technology Jiashan Co Ltd
Current assignee: Fuding Electronic Technology Jiashan Co Ltd
Priority date: 2019-10-24
Filing date: 2019-10-24
Publication date: 2021-04-27
Anticipated expiration: 2039-10-24
Also published as: CN112706021B

Abstract

A product rotating device comprises a base, a transmission part and a driving part, wherein the transmission part is connected with the base and the driving part and used for being connected with at least one product and moving under the driving of the driving part to drive the at least one product to rotate, so that different surfaces of the at least one product are opposite to a grinding wheel, and burrs on different surfaces of the at least one product are removed through the grinding wheel. The invention also provides a deburring mechanism.

Description

Product rotating device and deburring mechanism

Technical Field

The invention relates to a product rotating device and a deburring mechanism with the product rotating device.

Background

After a product is machined, burrs are generally left on the product after the product is machined by a numerical control machine tool, and the product needs to be subjected to deburring treatment. General product is including a plurality of faces, and a plurality of faces all need the burring, and present operator passes through tools such as toothbrush, abrasive paper, blade and manually gets rid of the burr, gets rid of the burr of certain one side on the product after, rotates the product again and gets rid of the burr of the another side on the product through same mode, so, the work load that the operator got rid of the burr is big and difficult for getting rid of totally, and is inefficient.

Disclosure of Invention

In view of the above, it is desirable to provide a product rotating device and a deburring mechanism that facilitate an improvement in deburring efficiency.

A product rotating device comprises a base, a transmission part and a driving part, wherein the transmission part is connected with the base and the driving part and is used for being connected with at least one product and moving under the driving of the driving part to drive the at least one product to rotate, so that different surfaces of the at least one product are opposite to a grinding wheel, and burrs on different surfaces of the at least one product are removed through the grinding wheel.

The deburring mechanism comprises a grinding wheel, a mechanical arm and a product rotating device, wherein the grinding wheel is fixed on the mechanical arm, and the mechanical arm is used for moving the grinding wheel, so that the grinding wheel is in contact with a product, and burrs on different surfaces of the product are removed.

The transmission part of the deburring mechanism and the product rotating device moves under the driving of the driving part and drives the product to rotate, so that different surfaces of the product are opposite to the grinding wheel, burrs on different surfaces of the product are removed through the grinding wheel, the product does not need to be manually rotated, and the efficiency of removing the burrs on the product is improved.

Drawings

Fig. 1 is a perspective view of a deburring mechanism.

FIG. 2 is a perspective view of the product rotation device of FIG. 1 with a protective cover removed.

Fig. 3 is a partially exploded view of the product rotation device of fig. 2.

Fig. 4 is a perspective view of the product rotating apparatus of fig. 2 when the positioning pin slides to an upper end point of the sliding groove.

Description of the main elements

The following detailed description will further illustrate the invention in conjunction with the above-described figures.

Detailed Description

Referring to fig. 1 to 4, the present invention provides a deburring mechanism 100, which includes a robot 10, a grinding wheel 12 fixed on the robot 10, and a product rotating device 20. The product rotation device 20 is used to position and rotate at least one product 14 such that a different surface of the at least one product 14 is opposite the grinding wheel 12. The robot 10 is configured to move the grinding wheel 12 such that the grinding wheel 12 contacts the product 14 to remove burrs from different surfaces of the at least one product 14.

The product rotating device 20 includes a base 22, a transmission member 40 and a driving member 70. The transmission member 40 is connected to the base 22 and the driving member 70, and is configured to be connected to the at least one product 14, and drive the at least one product 14 to rotate under the driving of the driving member 70.

The base 22 includes two positioning plates 24 disposed at intervals and at least one fixing rod 26 fixedly connected between the two positioning plates 24. Specifically, the base 22 includes three fixing rods 26 connected between the two positioning plates 24. The base 22 further includes two fixing blocks 28, and the two fixing blocks 28 are fixed on two opposite sides of the two positioning plates 24. Each of the fixing blocks 28 is formed with a receiving groove 30 extending from one end of the fixing block 28 to the other end of the fixing block 28.

The transmission member 40 includes at least one pair of positioning members 42, at least one pair of linkage rods 44, a connecting rod 46, a positioning pin 48 and a moving block 50. The at least one pair of positioning members 42 are rotatably fixed to the two positioning plates 24 and are disposed opposite to each other. Each pair of positioning members 42 is connected to both ends of one of the products 14 to position one of the products 14. In one embodiment, the product rotation device 20 includes a plurality of positioning members 42. A plurality of through holes 32 are formed in each positioning plate 24. Each of the positioning members 42 includes a fixed shaft 52. The two fixed shafts 52 of each two positioning members 42 are relatively and rotatably fixed in the two through holes 32 of the two positioning plates 24. One end of each fixed shaft 52 close to the other fixed shaft 52 extends out of a positioning shaft 54 parallel to the positioning plate 24. The product 14 is formed with registration holes 56 at both ends. Every two of the positioning shafts 54 are disposed in two of the positioning holes 56 of a product 14 in a transition fit manner.

Each linkage rod 44 is fixedly connected with one positioning piece 42. The connecting rod 46 is fixedly connected with the at least one pair of linkage rods 44. The connecting rod 46 and the positioning member 42 are fixed at two ends of the linkage rod 44. The moving block 50 is formed with an inclined slide groove 58. The positioning pin 48 is fixed on the connecting rod 46 and is arranged in the sliding groove 58. The detent pin 48 can slide back and forth along the detent slot 58. The driving member 70 is slidably disposed in the receiving groove 30. One end of the driving member 70 is fixedly connected to the moving block 50, and is configured to drive the moving block 50 to move back and forth in a direction parallel to the connecting rod 46, so that the positioning pin 48 moves back and forth along the sliding groove 58 under the pushing of the moving block 50, and the connecting rod 46 is driven to drive the linkage rod 44, the positioning member 42, and the product 14 to rotate back and forth. In one embodiment, the driver 70 is a linear air cylinder.

In one embodiment, the chute 58 includes two ends, an upper end 57 and a lower end 59. When the positioning pin 48 slides to the lower end point 59, the linkage rod 44 is perpendicular to the connecting rod 46, and the upper surface of the product 14 is in a horizontal position and opposite to the grinding wheel 12. When the positioning pin 48 slides from the lower end point 59 to the upper end point 57, the link rod 46 drives the linkage rod 44 and the positioning member 42 to rotate, so that one end of the positioning shaft 54 on the positioning member 42 rotates upward from a horizontal position. When the positioning pin 48 slides to the upper end point 57, the linkage rod 44 is parallel to the connecting rod 46, and the product 14 rotates 90 degrees from the initial position, so that the side surface of the product 14 adjacent to the upper surface is opposite to the grinding wheel 12. In this way, the grinding wheel 12 can perform a deburring process on the upper surface and the side surface of the product 14. It will be appreciated that the angle of inclination and length of the chute 58 is determined by the desired angle of rotation of the product 14, and can be set according to the desired angle of rotation of the product 14.

The base 22 also includes at least a pair of stop blocks 34. The at least one pair of limiting blocks 34 are fixed on the two positioning plates 24. Each stopper 34 is located at one side of one positioning member 42, and a gap between each stopper 34 and an adjacent positioning shaft 54 is smaller than the width of the product 14, so as to prevent the product 14 from being separated from the positioning shaft 54 when the product 14 rotates to the horizontal position.

The product rotation device 20 further comprises at least one protection cover 60, and the at least one protection cover 60 covers the base 22, the at least one positioning element 42 and the driving element 70. The positioning member 42 and the driving member 70 are hidden between the protection cover 60 and the positioning plate 24.

The driving member 40 of the deburring mechanism 100 and the product rotating device 20 moves under the driving of the driving member 70 and drives the product 14 to rotate, so that different surfaces of the product 14 are opposite to the grinding wheel 12, and thus burrs on different surfaces of the product 14 are removed through the grinding wheel 12, the product 14 does not need to be manually rotated, and the efficiency of removing the burrs on the product 14 is improved.

It will be appreciated by those skilled in the art that the above embodiments are illustrative only and not intended to be limiting, and that suitable modifications and variations to the above embodiments are within the scope of the disclosure provided that the invention is not limited thereto.

Claims

1. A product rotation device, comprising a base, characterized in that: the product rotating device further comprises a transmission part and a driving part, wherein the transmission part is connected with the base and the driving part, is used for being connected with at least one product, moves under the driving of the driving part and drives the at least one product to rotate, so that different surfaces of the at least one product are opposite to a grinding wheel, and burrs on different surfaces of the at least one product are removed through the grinding wheel.

2. The product rotating apparatus as claimed in claim 1, wherein the base includes two spaced apart positioning plates, the transmission member includes at least one pair of positioning members rotatably fixed to the two positioning plates and disposed opposite to each other, and each pair of positioning members is connected to both ends of one of the products to position the one of the products.

3. The product rotating apparatus according to claim 2, wherein each positioning plate has a plurality of through holes formed therein, each positioning member includes a fixed shaft, and the fixed shafts of each two positioning members are relatively and rotatably fixed in the through holes of the two positioning plates.

4. The product rotating apparatus according to claim 3, wherein one end of each of the fixed shafts adjacent to the other fixed shaft extends out of a positioning shaft in parallel with the positioning plate, positioning holes are formed at both ends of the product, and each two positioning shafts are disposed in two positioning holes of a product in a transition fit manner.

5. The product rotating apparatus according to claim 4, wherein the base further comprises at least one pair of stoppers fixed to two of the positioning plates, each stopper being located at one side of one of the positioning members, and a gap between each stopper and an adjacent one of the positioning shafts is smaller than a width of the product.

6. The product rotating device according to claim 2, wherein the transmission member further includes at least one pair of linkage rods, a connecting rod, a positioning pin and a moving block, each linkage rod is fixedly connected to one of the positioning members, the connecting rod is fixedly connected to the at least one pair of linkage rods, the moving block is formed with an inclined sliding groove, the positioning pin is fixed to the connecting rod and is placed in the sliding groove, the driving member is fixedly connected to the moving block and is used for driving the moving block to move back and forth in a direction parallel to the connecting rod, so that the positioning pin moves back and forth along the sliding groove under pushing of the moving block, and the connecting rod is driven to drive the linkage rods, the positioning members and the product to rotate back and forth.

7. The product rotation apparatus of claim 6, wherein the drive member is a linear cylinder.

8. The product rotating apparatus according to claim 6, wherein the chute includes two end points, an upper end point and a lower end point, the linkage rod is perpendicular to the connecting rod when the positioning pin slides to the lower end point, the upper surface of the product is in a horizontal position and is opposite to the grinding wheel, the linkage rod is parallel to the connecting rod when the positioning pin slides to the upper end point, and a side surface of the product adjacent to the upper surface is opposite to the grinding wheel.

9. The product rotating apparatus as claimed in claim 6, wherein the base further comprises two fixing blocks fixed to opposite sides of the two positioning plates, each fixing block forming a receiving groove extending from one end of the fixing block to the other end of the fixing block and being disposed in the sliding groove, the driving member being slidably disposed in the receiving groove.

10. A deburring mechanism comprising a grinding wheel, wherein said deburring mechanism further comprises a robot arm and a product rotating means as claimed in any one of claims 1 to 9, said grinding wheel being secured to said robot arm, said robot arm being adapted to move said grinding wheel so that it contacts the product to remove burrs from different surfaces of the product.