CN111002173A

CN111002173A - Magnetic ring floating polishing equipment

Info

Publication number: CN111002173A
Application number: CN202010028899.3A
Authority: CN
Inventors: 姚学群; 沈学泉
Original assignee: Huzhou Kefeng Magnetic Industry Co Ltd
Current assignee: Huzhou Kefeng Magnetic Industry Co Ltd
Priority date: 2020-01-12
Filing date: 2020-01-12
Publication date: 2020-04-14

Abstract

A top plate is fixed at the upper ends of a left support and a right support, a plurality of motors are fixed on the top plate at equal intervals, a left support square groove is formed in the left support, and a right support square groove is formed in the right support; the ejection cylinder is fixed on the lower supporting plate, and the structure of the feeding plate is as follows: a plurality of circular recesses are formed in the plate body and are distributed on the plate body at equal intervals, feeding plate inserting columns are formed in the middle of the circular recesses, center holes of the magnetic rings are inserted in the feeding plate inserting columns in a sleeved mode, and the magnetic rings are inserted in the circular recesses in a sleeved mode; a left jack and a right jack are formed on the plate body; when the magnetic ring is polished, the magnetic ring has certain floatability, so that the polished surface of the magnetic ring has better glossiness. It can go up a plurality of magnetic rings once and polish, has improved the efficiency of polishing.

Description

Magnetic ring floating polishing equipment

Technical Field

The invention relates to the technical field of magnetic ring production, in particular to equipment for polishing and grinding the surface of a magnetic ring.

Background

The next process of the magnetic ring with the well-formed magnetic powder after heat treatment is a process of machining the magnetic ring, and the upper surface and the lower surface of the magnetic ring are polished during machining. The existing magnetic ring polisher polishes a magnetic ring by using a polishing disc. The disadvantages are as follows: 1. the polishing disc and the magnetic ring are in hard contact, and the glossiness after polishing needs to be improved. 2. When polishing, the polishing wheel is required to be conveyed to a polishing wheel for polishing one by one, and the polishing efficiency is lower.

Disclosure of Invention

The invention aims to provide magnetic ring floating polishing equipment aiming at the defects of the prior art, wherein when a magnetic ring is polished, the magnetic ring has certain floatability, so that the polished surface of the magnetic ring has better glossiness. It can go up a plurality of magnetic rings once and polish, has improved the efficiency of polishing.

The technical solution of the invention is as follows:

a magnetic ring floating polishing device comprises a motor and a polishing disc, wherein the polishing disc is fixed on a rotating shaft of the motor, top plates are fixed at the upper ends of a left support column and a right support column, a plurality of motors are fixed on the top plates at equal intervals, a left support column square groove is formed in the left support column, a right support column square groove is formed in the right support column, and the groove bottom surfaces of the left support column square groove and the right support column square groove are positioned on the same plane;

the left pillar square groove is a through groove, the right pillar square groove is provided with a square groove vertical flange surface, the left end and the right end of the lower supporting plate are respectively fixed on the left pillar and the right pillar, and the ejection cylinder is fixed on the lower supporting plate;

the left pillar is formed with a left pillar inner side square groove, the right pillar is formed with a right pillar inner side square groove, the left pillar inner side square groove is opposite to the right pillar inner side square groove, the lower movable plate and the upper movable plate are the same in size, the left end and the right end of the lower movable plate and the upper movable plate are respectively inserted and sleeved in the left pillar inner side square groove and the right pillar inner side square groove, the upper end of the spring is welded and fixed on the upper movable plate, the lower end of the spring is welded and fixed on the lower movable plate, and the lower surface of the lower movable plate is pressed on a piston rod of the ejection cylinder;

go up flitch's structure and be: a plurality of circular recesses are formed in the plate body and are distributed on the plate body at equal intervals, feeding plate inserting columns are formed in the middle of the circular recesses, center holes of the magnetic rings are inserted in the feeding plate inserting columns in a sleeved mode, and the magnetic rings are inserted in the circular recesses in a sleeved mode; a left jack and a right jack are formed on the plate body;

a left cylinder and a right cylinder are fixed on the top plate, and piston rods of the left cylinder and the right cylinder are respectively inserted and sleeved in the left insertion hole and the right insertion hole.

A handle is formed on the plate body, the ejection cylinder is fixed on the lower supporting plate through a screw, and the left end and the right end of the lower supporting plate are respectively welded and fixed on the left supporting column and the right supporting column.

The motor is fixed on the top plate through screws, and the left cylinder and the right cylinder are fixed on the top plate through screws.

When the right side face of the plate body leans against the vertical flange face of the square groove, each polishing disc is opposite to one circular concave groove.

The invention has the beneficial effects that:

1. when the magnetic ring is polished, the magnetic ring has certain floatability, so that the polished surface of the magnetic ring has better glossiness. It can go up a plurality of magnetic rings once and polish, has improved the efficiency of polishing.

2. Compared with the magnetic ring polishing on the market, the magnetic ring polishing machine has the advantages of simple structure and lower equipment cost, and the cost of the equipment of the magnetic ring polishing machine is not more than five ten thousand yuan.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a structural schematic diagram of the feeding plate.

In the figure: 1. a motor; 2. grinding disc; 3. a left strut; 4. a right strut; 5. a top plate; 6. a lower support plate; 7. a movable plate is lowered; 8. an upper movable plate; 9. a spring; 10. ejecting out the cylinder; 11. feeding plates; 12. a magnetic ring; 13. a left cylinder; 14. and a right cylinder.

Detailed Description

Example (b): as shown in fig. 1 and 2, the magnetic ring floating polishing equipment comprises a motor 1 and a polishing disc 2, wherein the polishing disc 2 is fixed on a rotating shaft of the motor 1, a top plate 5 is fixed at the upper ends of a left support 3 and a right support 4, a plurality of motors 1 are fixed on the top plate 5 at equal intervals, a left support square groove 31 is formed on the left support 3, a right support square groove 41 is formed on the right support 4, and the groove bottoms of the left support square groove 31 and the right support square groove 41 are positioned on the same plane;

the left pillar square groove 31 is a through groove, the right pillar square groove 41 is provided with a square groove vertical flange surface 42, the left end and the right end of the lower supporting plate 6 are respectively fixed on the left pillar 3 and the right pillar 4, and the ejection cylinder 10 is fixed on the lower supporting plate 6;

a left pillar inner side square groove 32 is formed in the left pillar 3, a right pillar inner side square groove 43 is formed in the right pillar 4, the left pillar inner side square groove 32 is opposite to the right pillar inner side square groove 43, the lower movable plate 7 and the upper movable plate 8 are identical in size, the left end and the right end of the lower movable plate 7 and the upper movable plate 8 are respectively inserted and sleeved in the left pillar inner side square groove 32 and the right pillar inner side square groove 43, the upper end of the spring 9 is welded and fixed on the upper movable plate 8, the lower end of the spring 9 is welded and fixed on the lower movable plate 7, and the lower surface of the lower movable plate 7 is pressed on a piston rod of the ejection cylinder 10;

the structure of the feeding plate 11 is as follows: a plurality of circular recesses 112 are formed in the plate body 111, the circular recesses 112 are distributed on the plate body 111 at equal intervals, a feeding plate inserting column 113 is formed in the middle of each circular recess 112, a central hole of the magnetic ring 12 is inserted in the feeding plate inserting column 113, and the magnetic ring 12 is inserted in the circular recesses 112; a left jack 114 and a right jack 115 are formed on the plate body 111;

the top plate 5 is fixed with a left cylinder 13 and a right cylinder 14, and piston rods of the left cylinder 13 and the right cylinder 14 are respectively inserted and sleeved in the left insertion hole 114 and the right insertion hole 115.

A handle 116 is formed on the plate body 111, the ejection cylinder 10 is fixed on the lower support plate 6 through a screw, and the left end and the right end of the lower support plate 6 are respectively welded and fixed on the left pillar 3 and the right pillar 4.

The motor 1 is fixed on the top plate 5 through screws, and the left cylinder 13 and the right cylinder 14 are fixed on the top plate 5 through screws.

When the right side of the plate body 111 leans against the square groove vertical flange surface 42, each grinding disc 2 is opposite to one circular concave groove 112.

The working principle is as follows: in the initial state, the piston rods of the ejection cylinder 10, the left cylinder 13, and the right cylinder 14 are all retracted. The feeding plate 11 is arranged outside the equipment, after the magnetic ring 12 is manually inserted and sleeved on the feeding plate 11, the feeding plate 11 is manually inserted and sleeved at the position shown in figure 1, then the piston rods of the left cylinder 13 and the right cylinder 14 extend out, and the piston rods of the cylinder 13 and the right cylinder 14 are respectively inserted and sleeved in the left insertion hole 114 and the right insertion hole 115. Then the motor 1 is started, the piston rod of the ejection cylinder 10 extends out, the upper surface of the upper movable plate 8 elastically pushes against the lower surface of the upper material plate 11, the upper material plate 11 extends up, and the magnetic ring 12 is elastically contacted with the polishing disc 2 to start polishing.

After polishing, piston rods of the ejection cylinder 10, the left cylinder 13 and the right cylinder 14 are all retracted, the feeding plate 11 can be pulled out, and then the magnetic ring 12 is discharged.

Claims

1. The utility model provides a magnetic ring equipment of polishing that floats, includes motor (1) and polishing dish (2), is fixed with polishing dish (2) in the pivot of motor (1), its characterized in that: a top plate (5) is fixed at the upper ends of the left support column (3) and the right support column (4), a plurality of motors (1) are fixed on the top plate (5) at equal intervals, a left support column square groove (31) is formed in the left support column (3), a right support column square groove (41) is formed in the right support column (4), and the groove bottoms of the left support column square groove (31) and the right support column square groove (41) are positioned on the same plane;

the left support square groove (31) is a through groove, the right support square groove (41) is provided with a square groove vertical flange surface (42), the left end and the right end of the lower support plate (6) are respectively fixed on the left support (3) and the right support (4), and the ejection cylinder (10) is fixed on the lower support plate (6);

a left pillar inner side square groove (32) is formed in the left pillar (3), a right pillar inner side square groove (43) is formed in the right pillar (4), the left pillar inner side square groove (32) is opposite to the right pillar inner side square groove (43), the lower movable plate (7) and the upper movable plate (8) are identical in size, the left end and the right end of the lower movable plate (7) and the left end of the upper movable plate (8) are respectively inserted and sleeved in the left pillar inner side square groove (32) and the right pillar inner side square groove (43), the upper end of the spring (9) is welded and fixed on the upper movable plate (8), the lower end of the spring (9) is welded and fixed on the lower movable plate (7), and the lower surface of the lower movable plate (7) is pressed on a piston rod of the ejection cylinder (10);

the structure of the feeding plate (11) is as follows: a plurality of circular recesses (112) are formed in the plate body (111), the circular recesses (112) are distributed on the plate body (111) at equal intervals, upper material plate inserting columns (113) are formed in the middle of the circular recesses (112), a center hole of the magnetic ring (12) is inserted and sleeved in the upper material plate inserting columns (113), and the magnetic ring (12) is inserted and sleeved in the circular recesses (112); a left jack (114) and a right jack (115) are formed on the plate body (111);

a left cylinder (13) and a right cylinder (14) are fixed on the top plate (5), and piston rods of the left cylinder (13) and the right cylinder (14) are respectively inserted and sleeved in the left insertion hole (114) and the right insertion hole (115).

2. The magnetic ring floating grinding device as claimed in claim 1, wherein: a handle (116) is formed on the plate body (111), the ejection cylinder (10) is fixed on the lower supporting plate (6) through screws, and the left end and the right end of the lower supporting plate (6) are respectively welded and fixed on the left pillar (3) and the right pillar (4).

3. The magnetic ring floating grinding device as claimed in claim 1, wherein: the motor (1) is fixed on the top plate (5) through screws, and the left cylinder (13) and the right cylinder (14) are fixed on the top plate (5) through screws.

4. The magnetic ring floating grinding device as claimed in claim 1, wherein: when the right side surface of the plate body (111) leans against the vertical flange surface (42) of the square groove, each polishing disc (2) is opposite to one circular concave groove (112).