阅读说明：本技术 一种提高磁性耐磨性的磁环及其制备方法 (Magnetic ring for improving magnetic wear resistance and preparation method thereof ) 是由 余涛 余兴如 余超 宋加培 陈号 于 2020-06-29 设计创作，主要内容包括：本发明公开一种提高磁性耐磨性的磁环及其制备方法,本发明该磁环通过添加黏土,在制备过程中增加磁环可塑性的同时有效增加制备成的磁环的表面硬度,从而提高磁环的耐磨性,通过添加四氧化三锰,使得制备得到的磁环具有狭窄的剩磁感应曲线,可以反复磁化,通过筒和铝的添加,有效增加制备得到的磁环的磁性,该成型设备可以同时成型两个磁环,同时通过注射螺杆的设计,使得混炼物的输送效率大大提高,磁环烘干后通过磁吸板将磁环吸出,有效提高整个磁环加工过程中效率。(The invention discloses a magnetic ring for improving magnetic wear resistance and a preparation method thereof, the magnetic ring is added with clay, the plasticity of the magnetic ring is increased in the preparation process, the surface hardness of the prepared magnetic ring is effectively increased, so that the wear resistance of the magnetic ring is improved, the prepared magnetic ring has a narrow remanence induction curve by adding manganous oxide, the magnetic ring can be repeatedly magnetized, the magnetism of the prepared magnetic ring is effectively increased by adding a cylinder and aluminum, the forming equipment can simultaneously form two magnetic rings, meanwhile, the conveying efficiency of a mixed material is greatly improved by the design of an injection screw, the magnetic rings are sucked out by a magnetic suction plate after being dried, and the efficiency in the whole magnetic ring processing process is effectively improved.)

1. The magnetic ring for improving the magnetic wear resistance is characterized by being prepared from the following raw materials in parts by weight: 50-60 parts of ferrite magnetic powder, 10-20 parts of manganic manganous oxide, 10-20 parts of carbon monoxide, 5-10 parts of copper, 2-5 parts of clay, 2-5 parts of zinc oxide, 2-5 parts of polylaurolactam and 1-3 parts of aluminum;

The magnetic ring for improving the magnetic wear resistance is prepared by the following steps:

the method comprises the following steps: putting the ferrite magnetic powder, manganous-manganic oxide, carbon monoxide, copper, clay, zinc oxide, polylaurolactam and aluminum into a mixing furnace for mixing to obtain a mixed material;

step two: pouring the mixed materials into two feeding hoppers of forming equipment, conveying the mixed materials into an injection pipe through a conveying pipe, enabling a piston rod of a fourth air cylinder to contract, enabling a translation plate to move towards the lower part of an installation frame, further driving two lower templates to move to the lower parts of the two upper templates, starting a second air cylinder, enabling a piston rod of the second air cylinder to downwards push a first lifting plate, enabling a first clamping air cylinder to be matched with a clamping plate to place the two upper templates above the two lower templates, enabling a piston rod of the fourth air cylinder to push the translation plate, simultaneously starting a third motor, enabling an output shaft of the third motor to drive an injection screw to rotate, conveying the mixed materials into an inner cavity formed between the upper templates and the lower templates through the injection screw, then conveying the upper templates and the lower templates into an oven, baking the mixed materials in the upper templates and the lower templates through the oven, and obtaining a magnetic;

step three: a piston rod of a fourth cylinder of the forming device contracts, a translation plate moves below a first lifting plate, a second cylinder is matched with a first clamping cylinder to clamp an upper template through a clamping plate, then the fourth cylinder drives two lower templates to move below two magnetic suction plates through the translation plate, a third cylinder is started and matched with the magnetic suction plates to adsorb magnetic rings in the lower templates, then a piston rod of the first cylinder pushes a moving frame, a first motor output shaft drives a first driving wheel to rotate, the two first driving wheels are matched with a belt to drive a first moving block to move, a first moving block drives a connecting plate to move towards the magnetic rings at the bottoms of the magnetic suction plates through the translation frame, a second clamping cylinder is matched with an arc-shaped clamping sleeve to clamp the two magnetic rings, then the first motor output shaft rotates reversely, the two magnetic rings are driven to move above two stacking rods through the arc-shaped clamping sleeve, and a piston rod of a fifth cylinder pushes the connecting plate downwards, the second motor output shaft drives the second transmission wheels to rotate, the two second transmission wheels are matched with the belt to drive the second moving block to ascend, the second moving block drives the stacking rod to ascend through the second lifting plate, and the second clamping cylinder is matched with the arc-shaped clamping sleeve to sleeve the magnetic ring at the bottom of the stacking rod.

2. The magnetic ring for improving the magnetic wear resistance as claimed in claim 1, is prepared from the following raw materials in parts by weight: 50 parts of ferrite magnetic powder, 10 parts of manganous-manganic oxide, 10 parts of carbon monoxide, 5 parts of copper, 2 parts of clay, 2 parts of zinc oxide, 2 parts of polylaurolactam and 1 part of aluminum.

3. A preparation method of a magnetic ring for improving magnetic wear resistance is characterized by comprising the following steps:

the method comprises the following steps: putting the ferrite magnetic powder, manganous-manganic oxide, carbon monoxide, copper, clay, zinc oxide, polylaurolactam and aluminum into a mixing furnace for mixing to obtain a mixed material;

step two: pouring the mixed materials into two feeding hoppers of forming equipment, conveying the mixed materials into an injection pipe through a conveying pipe, enabling a piston rod of a fourth air cylinder to contract, enabling a translation plate to move towards the lower part of an installation frame, further driving two lower templates to move to the lower parts of the two upper templates, starting a second air cylinder, enabling a piston rod of the second air cylinder to downwards push a first lifting plate, enabling a first clamping air cylinder to be matched with a clamping plate to place the two upper templates above the two lower templates, enabling a piston rod of the fourth air cylinder to push the translation plate, simultaneously starting a third motor, enabling an output shaft of the third motor to drive an injection screw to rotate, conveying the mixed materials into an inner cavity formed between the upper templates and the lower templates through the injection screw, then conveying the upper templates and the lower templates into an oven, baking the mixed materials in the upper templates and the lower templates through the oven, and obtaining a magnetic;

Step three: a piston rod of a fourth cylinder of the forming device contracts, a translation plate moves below a first lifting plate, a second cylinder is matched with a first clamping cylinder to clamp an upper template through a clamping plate, then the fourth cylinder drives two lower templates to move below two magnetic suction plates through the translation plate, a third cylinder is started and matched with the magnetic suction plates to adsorb magnetic rings in the lower templates, then a piston rod of the first cylinder pushes a moving frame, a first motor output shaft drives a first driving wheel to rotate, the two first driving wheels are matched with a belt to drive a first moving block to move, a first moving block drives a connecting plate to move towards the magnetic rings at the bottoms of the magnetic suction plates through the translation frame, a second clamping cylinder is matched with an arc-shaped clamping sleeve to clamp the two magnetic rings, then the first motor output shaft rotates reversely, the two magnetic rings are driven to move above two stacking rods through the arc-shaped clamping sleeve, and a piston rod of a fifth cylinder pushes the connecting plate downwards, the second motor output shaft drives the second transmission wheels to rotate, the two second transmission wheels are matched with the belt to drive the second moving block to ascend, the second moving block drives the stacking rod to ascend through the second lifting plate, and the second clamping cylinder is matched with the arc-shaped clamping sleeve to sleeve the magnetic ring at the bottom of the stacking rod.

4. The method as claimed in claim 3, wherein the drying time of the oven in the second step is 20-30min, and the drying temperature is 200-220 ℃.

5. The preparation method of the magnetic ring for improving the magnetic wear resistance is characterized in that in the second step, the forming device comprises a frame (1), a mounting frame (2) and an oven (3) are installed on the frame (1), two first cylinders (5) are installed on the mounting frame (2), a moving frame (7) is connected to the end portion of a piston rod of each first cylinder (5), a second cylinder (8) is installed on the mounting frame (2), the second cylinder (8) is arranged between the two first cylinders (5), a first lifting plate (9) is installed at the end portion of the piston rod of each second cylinder (8), two upper mold plates (10) are arranged below the first lifting plates (9), two clamping plates (11) are arranged on two sides of each upper mold plate (10), and the clamping plates (11) are installed at the end portions of the piston rods of the first clamping cylinders (12), the drying oven is characterized in that a third cylinder (13) is installed on the moving frame (7), a magnetic suction plate (14) is installed at the end part of a piston rod of the third cylinder (13), a fourth cylinder (15) is arranged below the installing frame (2), the end part of the piston rod of the fourth cylinder (15) is connected with a translation plate (16), two lower templates (17) are installed on the translation plate (16), two slide rails below the translation plate (16) extend into the drying oven (3), two stand columns (4) are installed at the top of the machine frame (1), an installing shell (18) is installed at the tops of the two stand columns (4), two first driving wheels (20) are rotationally arranged in the installing shell (18), the two first driving wheels (20) are connected through belt transmission, a first motor (19) is installed on the installing shell (18), and one first driving wheel (20) is connected with an output shaft of the first motor (19), a first moving block (21) is mounted on a belt between the two first driving wheels (20), the first moving block (21) is connected with a translation frame (22), a fifth cylinder (23) is mounted on the translation frame (22), the end part of a piston rod of the fifth cylinder (23) is connected with a connecting plate (24), four connecting rods (25) are mounted on one side of the connecting plate (24), second clamping cylinders (26) are mounted on the connecting rods (25), the four second clamping cylinders (26) are arranged oppositely in pairs, an arc-shaped jacket (27) is mounted at the end part of the piston rod of each second clamping cylinder (26), two groove columns (28) are arranged below the mounting shell (18), the two groove columns (28) are arranged between the two upright columns (4), two second driving wheels (30) are rotatably arranged in the groove columns (28), and the two second driving wheels (30) are connected through belt transmission, a second motor (29) is installed on one side of the grooved column (28), an output shaft of the second motor (29) is connected with one second driving wheel (30), a second lifting plate (32) is installed on a second moving block (31), two stacking rods (33) are installed on the second lifting plate (32), two third motors (35) are installed on the translation plate (16), an injection screw (341) is installed at the end part of an output shaft of the third motor (35), the injection screw (341) is arranged in an injection pipe (34), the injection pipe (34) is communicated with one side of the lower template (17), a conveying pipe (36) is arranged above the injection pipe (34), the conveying pipe (36) is communicated with the injection pipe (34), a feeding hopper (37) is installed at the top of the conveying pipe (36), and the bottom of the feeding hopper (37) is communicated with the top of the conveying pipe (36), two heat-proof shells (38) are installed on the translation plate (16), the third motor (35) and the injection pipe (34) are arranged in the heat-proof shells (38), the injection pipe (34) penetrates through the side wall of the heat-proof shells (38), and the feeding hopper (37) is arranged at the top of the heat-proof shells (38).

6. The method for preparing a magnetic ring for improving magnetic wear resistance as claimed in claim 5, wherein a moving plate (6) is mounted on the moving frame (7), four sliding blocks are mounted on two sides of the bottom of the moving plate (6), and the four sliding blocks at the bottom of the moving plate (6) are slidably connected with two sliding rails.

7. The method as claimed in claim 5, wherein four sliders are symmetrically disposed on two sides of the bottom of the translation plate (16), and the four sliders on the bottom of the translation plate (16) are slidably connected to two slide rails.

8. The method for preparing a magnetic ring for improving magnetic wear resistance as claimed in claim 5, wherein two sliding blocks are installed on the first moving block (21), two sliding rails are installed in the installation shell (18), the first moving block (21) is slidably connected with the two sliding rails through the two sliding blocks, a second moving block (31) is installed on a belt between the two second transmission wheels (30), the sliding rails are installed in the grooved columns (28), the sliding blocks are installed on the second moving block (31), and the second moving block (31) is slidably connected with the sliding rails in the grooved columns (28) through the sliding blocks.

Technical Field

The invention relates to the technical field of magnetic ring preparation, in particular to a magnetic ring for improving magnetic wear resistance and a preparation method thereof.

Background

The magnetic ring is a ring-shaped magnetizer. The magnetic ring is a common anti-interference element in an electronic circuit and has a good inhibition effect on high-frequency noise.

Patent document CN201811349097.1 discloses a magnetic ring processing method, which conveys mixed raw materials to a temporary sintering machine, presses the mixed raw materials into a magnetic ring green compact, polishes the magnetic ring green compact, and sinters and molds the polished green compact, thereby realizing the sintering process of the magnetic ring, but the magnetic ring processing method does not improve the magnetism and wear resistance of the existing magnetic ring, and the whole process flow of magnetic ring processing is not efficient.

Disclosure of Invention

The invention aims to provide a magnetic ring for improving magnetic wear resistance and a preparation method thereof, and solves the following technical problems: (1) according to the magnetic ring, clay is added, the plasticity of the magnetic ring is increased in the preparation process, meanwhile, the surface hardness of the prepared magnetic ring is effectively increased, so that the wear resistance of the magnetic ring is improved, the prepared magnetic ring has a narrow remanence induction curve and can be magnetized repeatedly by adding manganous-manganic oxide, and the magnetism of the prepared magnetic ring is effectively increased by adding a cylinder and aluminum; (2) the mixed material is poured into two feeding hoppers of forming equipment, the mixed material is conveyed into an injection pipe through a conveying pipe, a piston rod of a fourth air cylinder contracts, a translation plate moves towards the lower part of an installation frame to further drive two lower templates to move to the lower parts of the two upper templates, a second air cylinder is started, a piston rod of the second air cylinder pushes a first lifting plate downwards, a first clamping air cylinder is matched with a clamping plate to place the two upper templates above the two lower templates, a piston rod of the fourth air cylinder pushes the translation plate and simultaneously starts a third motor, an output shaft of the third motor drives an injection screw to rotate, the mixed material is conveyed into an inner cavity formed between the upper template and the lower template by the injection screw, then the upper template and the lower template are conveyed into an oven, the oven is used for baking the mixed material in the upper template and the lower template, a magnetic ring for improving the magnetic wear resistance is obtained after baking, and, the forming equipment can simultaneously form two magnetic rings, meanwhile, the conveying efficiency of the mixed material is greatly improved through the design of the injection screw, and the magnetic rings are sucked out through the magnetic suction plate after being dried, so that the efficiency in the whole magnetic ring processing process is effectively improved; (3) the piston rod of a fourth cylinder contracts to enable a translation plate to move below a first lifting plate, a second cylinder is matched with a first clamping cylinder to clamp an upper template through a clamping plate, then the fourth cylinder drives two lower templates to move below two magnetic suction plates through the translation plate, a third cylinder is started and matched with the magnetic suction plates to adsorb magnetic rings in the lower templates, then the piston rod of the first cylinder pushes a moving frame, a first motor output shaft drives a first driving wheel to rotate, two first driving wheels are matched with a belt to drive a first moving block to move, a first moving block drives a connecting plate to move towards the magnetic rings at the bottom of the magnetic suction plates through the translation frame, the second clamping cylinder is matched with an arc-shaped clamping sleeve to clamp the two magnetic rings, then the first motor output shaft rotates reversely, the two magnetic rings are driven to move above the two stacking rods through the arc-shaped clamping sleeve, and the piston rod of a fifth cylinder pushes the connecting plate downwards, the second motor output shaft drives the second driving wheel to rotate, the two second driving wheels are matched with the belt to drive the second moving block to ascend, the second moving block drives the stacking rod to ascend through the second lifting plate, the second clamping cylinder is matched with the arc-shaped clamping sleeve to sleeve the magnetic ring at the bottom of the stacking rod, and the forming device is arranged through the structure, can be used for stacking the formed magnetic ring on the stacking rod, is convenient for storing the magnetic ring, and can be used for placing the magnetic ring according to the height of the stacking rod after being stacked through the second lifting plate and the connecting plate, so that the arc-shaped clamping sleeve can be used for placing the magnetic ring according to the height of the stacking rod, and the situation that the magnetic ring is damaged when the magnetic ring is.

The purpose of the invention can be realized by the following technical scheme:

a magnetic ring for improving magnetic wear resistance is prepared from the following raw materials in parts by weight: 50-60 parts of ferrite magnetic powder, 10-20 parts of manganic manganous oxide, 10-20 parts of carbon monoxide, 5-10 parts of copper, 2-5 parts of clay, 2-5 parts of zinc oxide, 2-5 parts of polylaurolactam and 1-3 parts of aluminum;

the magnetic ring for improving the magnetic wear resistance is prepared by the following steps:

the method comprises the following steps: putting the ferrite magnetic powder, manganous-manganic oxide, carbon monoxide, copper, clay, zinc oxide, polylaurolactam and aluminum into a mixing furnace for mixing to obtain a mixed material;

step two: pouring the mixed materials into two feeding hoppers of forming equipment, conveying the mixed materials into an injection pipe through a conveying pipe, enabling a piston rod of a fourth air cylinder to contract, enabling a translation plate to move towards the lower part of an installation frame, further driving two lower templates to move to the lower parts of the two upper templates, starting a second air cylinder, enabling a piston rod of the second air cylinder to downwards push a first lifting plate, enabling a first clamping air cylinder to be matched with a clamping plate to place the two upper templates above the two lower templates, enabling a piston rod of the fourth air cylinder to push the translation plate, simultaneously starting a third motor, enabling an output shaft of the third motor to drive an injection screw to rotate, conveying the mixed materials into an inner cavity formed between the upper templates and the lower templates through the injection screw, then conveying the upper templates and the lower templates into an oven, baking the mixed materials in the upper templates and the lower templates through the oven, and obtaining a magnetic;

Step three: a piston rod of a fourth cylinder of the forming device contracts, a translation plate moves below a first lifting plate, a second cylinder is matched with a first clamping cylinder to clamp an upper template through a clamping plate, then the fourth cylinder drives two lower templates to move below two magnetic suction plates through the translation plate, a third cylinder is started and matched with the magnetic suction plates to adsorb magnetic rings in the lower templates, then a piston rod of the first cylinder pushes a moving frame, a first motor output shaft drives a first driving wheel to rotate, the two first driving wheels are matched with a belt to drive a first moving block to move, a first moving block drives a connecting plate to move towards the magnetic rings at the bottoms of the magnetic suction plates through the translation frame, a second clamping cylinder is matched with an arc-shaped clamping sleeve to clamp the two magnetic rings, then the first motor output shaft rotates reversely, the two magnetic rings are driven to move above two stacking rods through the arc-shaped clamping sleeve, and a piston rod of a fifth cylinder pushes the connecting plate downwards, the second motor output shaft drives the second transmission wheels to rotate, the two second transmission wheels are matched with the belt to drive the second moving block to ascend, the second moving block drives the stacking rod to ascend through the second lifting plate, and the second clamping cylinder is matched with the arc-shaped clamping sleeve to sleeve the magnetic ring at the bottom of the stacking rod.

Further, the drying time of the drying oven in the step two is 20-30min, and the drying temperature is 200-.

Further, in the second step, the forming equipment comprises a frame, a mounting frame and an oven are mounted on the frame, two first cylinders are mounted on the mounting frame, the end part of a piston rod of each first cylinder is connected with a moving frame, a second cylinder is mounted on the mounting frame and arranged between the two first cylinders, a first lifting plate is mounted at the end part of the piston rod of each second cylinder, two upper templates are arranged below the first lifting plate, two clamping plates are arranged on two sides of each upper template, the clamping plates are mounted at the end parts of the piston rods of the first clamping cylinders, a third cylinder is mounted on the moving frame, a magnetic suction plate is mounted at the end part of the piston rod of the third cylinder, a fourth cylinder is arranged below the mounting frame, the end part of the piston rod of the fourth cylinder is connected with a translation plate, two lower templates are mounted on the translation plate, and two slide rails below the translation plate extend into the oven, the device comprises a rack, a belt, a first transmission wheel, a second transmission wheel, a first motor, a first clamping cylinder, a second clamping cylinder, an arc-shaped clamping sleeve, two groove columns, a mounting shell, two first transmission wheels, a first moving block, a second moving block, a translation frame, a fifth cylinder, a connecting plate, four connecting rods, a second clamping cylinder, four second clamping cylinders, an arc-shaped clamping sleeve, two groove columns and a second clamping cylinder, wherein the two upright columns are mounted at the top of the rack, the mounting shell is mounted at the top of the two upright columns, the two first transmission wheels are rotatably arranged in the mounting shell, the two first transmission wheels are connected with the two first motor through the belt, the first moving block is mounted on the belt between the two first transmission wheels, the first moving block is connected with the translation frame, the fifth cylinder is, the groove column is internally and rotatably provided with two second driving wheels, the two second driving wheels are connected through a belt in a transmission manner, one side of the groove column is provided with a second motor, the output shaft of the second motor is connected with one of the second driving wheels, the second moving block is provided with a second lifting plate, the second lifting plate is provided with two stacking rods, the translation plate is provided with two third motors, the end part of the output shaft of each third motor is provided with an injection screw, the injection screw is arranged in an injection pipe, the injection pipe is communicated with one side of a lower template, a conveying pipe is arranged above the injection pipe, the conveying pipe is communicated with the injection pipe, the top of the conveying pipe is provided with a feeding hopper, the bottom of the feeding hopper is communicated with the top of the conveying pipe, the translation plate is provided with two heat-proof shells, the third motors and the injection pipe are arranged in the heat-proof shells, and, the feeding hopper is arranged at the top of the heat-proof shell.

Further, a moving plate is mounted on the moving frame, four sliding blocks are mounted on two sides of the bottom of the moving plate, and the four sliding blocks at the bottom of the moving plate are connected with two sliding rails in a sliding mode.

Furthermore, the two sides of the bottom of the translation plate are symmetrically provided with four sliding blocks, and the four sliding blocks at the bottom of the translation plate are connected with two sliding rails in a sliding manner.

Further, two sliding blocks are mounted on the first moving block, two sliding rails are mounted in the mounting shell, the first moving block is connected with the two sliding rails in a sliding mode through the two sliding blocks, a second moving block is mounted on a belt between the two second driving wheels, the sliding rails are arranged in the groove column, the sliding blocks are mounted on the second moving block, and the second moving block is connected with the sliding rails in the groove column in a sliding mode through the sliding blocks.

The invention has the beneficial effects that:

(1) according to the magnetic ring for improving the magnetic wear resistance and the preparation method thereof, clay is added into the magnetic ring, the plasticity of the magnetic ring is increased in the preparation process, and meanwhile, the surface hardness of the prepared magnetic ring is effectively increased, so that the wear resistance of the magnetic ring is improved;

(2) The mixed material is poured into two feeding hoppers of forming equipment, the mixed material is conveyed into an injection pipe through a conveying pipe, a piston rod of a fourth air cylinder contracts, a translation plate moves towards the lower part of an installation frame to further drive two lower templates to move to the lower parts of the two upper templates, a second air cylinder is started, a piston rod of the second air cylinder pushes a first lifting plate downwards, a first clamping air cylinder is matched with a clamping plate to place the two upper templates above the two lower templates, a piston rod of the fourth air cylinder pushes the translation plate and simultaneously starts a third motor, an output shaft of the third motor drives an injection screw to rotate, the mixed material is conveyed into an inner cavity formed between the upper template and the lower template by the injection screw, then the upper template and the lower template are conveyed into an oven, the oven is used for baking the mixed material in the upper template and the lower template, a magnetic ring for improving the magnetic wear resistance is obtained after baking, and, the forming equipment can simultaneously form two magnetic rings, meanwhile, the conveying efficiency of the mixed material is greatly improved through the design of the injection screw, and the magnetic rings are sucked out through the magnetic suction plate after being dried, so that the efficiency in the whole magnetic ring processing process is effectively improved;

(3) the piston rod of a fourth cylinder contracts to enable a translation plate to move below a first lifting plate, a second cylinder is matched with a first clamping cylinder to clamp an upper template through a clamping plate, then the fourth cylinder drives two lower templates to move below two magnetic suction plates through the translation plate, a third cylinder is started and matched with the magnetic suction plates to adsorb magnetic rings in the lower templates, then the piston rod of the first cylinder pushes a moving frame, a first motor output shaft drives a first driving wheel to rotate, two first driving wheels are matched with a belt to drive a first moving block to move, a first moving block drives a connecting plate to move towards the magnetic rings at the bottom of the magnetic suction plates through the translation frame, the second clamping cylinder is matched with an arc-shaped clamping sleeve to clamp the two magnetic rings, then the first motor output shaft rotates reversely, the two magnetic rings are driven to move above the two stacking rods through the arc-shaped clamping sleeve, and the piston rod of a fifth cylinder pushes the connecting plate downwards, the second motor output shaft drives the second driving wheel to rotate, the two second driving wheels are matched with the belt to drive the second moving block to ascend, the second moving block drives the stacking rod to ascend through the second lifting plate, the second clamping cylinder is matched with the arc-shaped clamping sleeve to sleeve the magnetic ring at the bottom of the stacking rod, and the forming device is arranged through the structure, can be used for stacking the formed magnetic ring on the stacking rod, is convenient for storing the magnetic ring, and can be used for placing the magnetic ring according to the height of the stacking rod after being stacked through the second lifting plate and the connecting plate, so that the arc-shaped clamping sleeve can be used for placing the magnetic ring according to the height of the stacking rod, and the situation that the magnetic ring is damaged when the magnetic ring is.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the structure of the molding apparatus of the present invention;

FIG. 2 is a schematic structural view of the mount of the present invention;

FIG. 3 is a side view of a first lifter plate of the present invention;

FIG. 4 is a schematic view of the construction of the translating plate of the present invention;

FIG. 5 is a schematic view of the mounting of the connection plate of the present invention;

FIG. 6 is a view showing the internal structure of the syringe of the present invention;

FIG. 7 is an internal structural view of the mounting housing of the present invention;

fig. 8 is an internal structural view of a groove column of the present invention.

In the figure: 1. a frame; 2. a mounting frame; 3. an oven; 4. a column; 5. a first cylinder; 6. moving the plate; 7. a movable frame; 8. a second cylinder; 9. a first lifter plate; 10. mounting a template; 11. a clamping plate; 12. a first clamping cylinder; 13. a third cylinder; 14. a magnetic attraction plate; 15. a fourth cylinder; 16. a translation plate; 17. a lower template; 18. mounting a shell; 19. a first motor; 20. a first drive pulley; 21. a first moving block; 22. a translation frame; 23. a fifth cylinder; 24. a connecting plate; 25. a connecting rod; 26. a second clamping cylinder; 27. an arc-shaped jacket; 28. a groove column; 29. a second motor; 30. a second transmission wheel; 31. a second moving block; 32. a second lifter plate; 33. stacking rods; 34. an injection tube; 341. an injection screw; 35. a third motor; 36. a delivery pipe; 37. feeding into a hopper; 38. a heat shield.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Please refer to fig. 1-8