CN-121983409-A - Magnetizing mechanism for special-shaped magnetic block

Abstract

The invention relates to the technical field of neodymium iron boron magnetizing, in particular to a magnetizing mechanism for special-shaped magnetic blocks, which is provided with a machine base and is characterized in that a feeding station, a magnetizing station and a discharging station are arranged on the machine base, the feeding station, the magnetizing station and the discharging station are respectively arranged on the same circumference, a magnetic block transferring mechanism is arranged on the machine base at the circle center position of the feeding station, the magnetizing station and the discharging station, the magnetizing mechanism is arranged on the machine base at the side surface of the magnetizing station, a discharging mechanism is arranged on the machine base at the side surface of the discharging station, the magnetic block transferring mechanism transfers the magnetic blocks stacked by the feeding station to the magnetizing station, the magnetic blocks after the magnetic blocks are transferred to the magnetizing mechanism for magnetizing, and the discharging mechanism transfers the magnetic blocks at the magnetizing port for magnetizing.

Inventors

• BAI XINYUAN
• GUO JIYUAN
• SUN XIAOJUN
• YAN WENLONG
• LUO YANG
• LIN XIAO
• YUAN XIAO
• ZHANG CHAOFAN

Assignees

• 有研稀土(荣成)有限公司
• 有研稀土新材料股份有限公司

Dates

Publication Date

20260505

Application Date

20260128

Claims (9)

1. 1. The utility model provides a magnetizing mechanism of abnormal shape magnetic path, is equipped with the frame, is characterized in that is equipped with material loading station, magnetizing station and unloading station on the frame, material loading station, magnetizing station and unloading station on same circumference respectively, install magnetic path transfer mechanism on the frame of material loading station, magnetizing station and unloading station's centre of a circle position, install magnetizing mechanism on the frame of magnetizing station side, install unloading mechanism on the frame of unloading station side, magnetic path transfer mechanism transfers the magnetic path that the material loading piles to magnetizing station at material loading station, after the magnetic path transfer mechanism transfers the magnetic path to magnetizing mechanism and magnetizes, transfer the magnetic path after magnetizing to the unloading station, unloading mechanism is unloaded the magnetic path of magnetizing mouth.
2. 2. The magnetizing mechanism of the special-shaped magnetic block according to claim 1, wherein the magnetic block transfer mechanism comprises a rotating motor, a rotating seat plate and a receiving assembly, the rotating motor is fixed on the machine base, the output end of the rotating motor is rotationally connected with the rotating seat plate, the receiving assembly is arranged on the rotating seat plate at the positions of a feeding station, a magnetizing station and a discharging station respectively, and the receiving assembly is an assembly capable of stacking, storing and transferring the anisotropic magnetic blocks.
3. 3. The magnetizing mechanism of the special-shaped magnetic block according to claim 1, wherein the material receiving assembly comprises a magnetizing vertical sliding seat, a material receiving vertical sliding seat, a magnetizing transfer seat, a material receiving column, a material receiving transfer seat, a material receiving plug and a material releasing cylinder, the magnetizing vertical sliding seat is fixed on the rotary seat plate, the magnetizing vertical sliding seat is in sliding connection with the magnetizing vertical sliding seat, the vertical magnetizing sliding seat is fixedly connected with the magnetizing transfer seat, the material receiving vertical sliding seat is fixed on the magnetizing transfer seat, the material receiving vertical sliding seat is in sliding connection with the material receiving vertical sliding seat, the vertical sliding block of receiving material is fixedly connected with the receiving material transfer seat, the discharging cylinder is fixed on the receiving material transfer seat, the output end of the discharging cylinder is connected with the receiving material plug, the receiving material transfer seat is fixedly provided with a receiving hole which is the same as the special-shaped magnetic block in appearance, the receiving material column on the side face of the receiving hole is provided with a receiving strip hole which is communicated with the receiving hole, the receiving material plug extends into the receiving hole for receiving material through the receiving strip hole, the receiving material transfer seat is driven to move up and down by the magnetizing transfer driver, and the receiving material transfer seat is driven to move up and down by the receiving material transfer driver.
4. 4. The magnetizing mechanism of the special-shaped magnetic block according to claim 1, wherein the magnetizing transfer seat comprises a lower seat plate, an upper seat plate and a connecting rod, the lower seat plate and the upper seat plate are in supporting connection through the connecting rod, a magnetizing jack plug in butt joint with the magnetizing transfer driver is connected below the lower seat plate, an avoidance hole for the material receiving transfer seat to move up and down is formed in the upper seat plate, a through hole for the material receiving transfer driver to enter is formed in the lower seat plate, and a material receiving jack plug in butt joint with the material receiving transfer driver is connected below the material receiving transfer seat.
5. 5. The magnetizing mechanism of the special-shaped magnetic block according to claim 1, wherein the magnetizing transfer driver is a magnetizing transfer cylinder, the magnetizing transfer cylinder is fixed below a base of the magnetizing station, a magnetizing transfer hole extending out of an output end of the magnetizing transfer cylinder is arranged on the base, the output end of the magnetizing transfer cylinder is connected with a magnetizing socket, a jack matched with a magnetizing jack plug is arranged on the magnetizing socket, after the output end of the magnetizing transfer cylinder extends out, the jack of the magnetizing socket is in butt joint with the magnetizing jack plug, the magnetizing transfer cylinder drives the magnetizing transfer base to move upwards to insert the receiving column into the magnetizing machine, and the magnetizing transfer cylinder drives the magnetizing transfer base to move downwards to move the receiving column out of the magnetizing machine.
6. 6. The magnetizing mechanism of the special-shaped magnetic block according to claim 1, wherein the material receiving and transferring driver is a material receiving and transferring cylinder, the material receiving and transferring cylinder is fixed below a machine base of the feeding station, a material receiving and transferring hole for extending out of an output end of the material receiving and transferring cylinder is arranged on the machine base, the output end of the material receiving and transferring cylinder is connected with a material receiving socket, a jack matched with a material receiving and transferring plug is arranged on the material receiving socket, after the output end of the material receiving and transferring cylinder extends out, the material receiving socket passes through a passing hole of the magnetizing and transferring seat and then is in butt joint with the material receiving and transferring plug below the material receiving and transferring seat, the material receiving and transferring cylinder drives the material receiving and transferring seat to move the material receiving plug to the top of a receiving hole of the material receiving column for material receiving, and the material receiving and transferring cylinder gradually drives the material receiving plug to gradually move downwards to the bottom of the receiving hole of the material receiving column along with the addition of the special-shaped magnetic block.
7. 7. The magnetizing mechanism of the special-shaped magnetic block according to claim 1, wherein the magnetizing mechanism comprises a magnetizing support column, a magnetizing machine, a lower pressing cylinder, a lower pressing head and a cylinder fixing seat, the lower end of the magnetizing support column is fixedly connected with a machine base, the magnetizing machine is fixedly connected with the side face above the magnetizing support column, a magnetizing through hole is formed in the magnetizing machine, a lower pressing cylinder is arranged above the magnetizing through hole and is fixedly connected with the magnetizing support column through the cylinder fixing seat, the output end of the lower pressing cylinder is connected with the lower pressing head, and the lower pressing head is driven by the lower pressing cylinder to move downwards to seal the upper end of a containing hole of a receiving column entering from the lower side of the magnetizing through hole, so that the special-shaped magnetic block after magnetizing is prevented from jumping out of the containing hole after magnetism.
8. 8. The magnetizing mechanism of the special-shaped magnetic block according to claim 1, wherein the blanking mechanism comprises a blowing supporting column, a blowing supporting rod and a blowing head, the lower end of the blowing supporting column is fixed on the machine base, one end of the blowing supporting rod is connected with the upper end of the blowing supporting column, the other end of the blowing supporting rod is connected with the discharging head, the discharging hole of the blowing head faces downwards vertically, the blowing head is connected with an air source through an air duct, the blowing head blows materials to a containing hole on a receiving column which moves to a blanking station, and the special-shaped magnetic block magnetized in the containing hole is discharged from the lower part of the containing hole.
9. 9. The magnetizing mechanism of the special-shaped magnetic block according to claim 1, wherein a receiving hole is arranged below a machine seat below a blowing head of the blanking mechanism, a receiving box is arranged below the machine seat at the position of the receiving hole, and the receiving box receives the stacked special-shaped magnetic blocks which are fallen in the receiving column and are magnetized.

Description

Magnetizing mechanism for special-shaped magnetic block Technical Field The invention relates to the technical field of neodymium iron boron magnetizing, in particular to a magnetizing mechanism of a special-shaped magnetic block. Background As is well known, neodymium iron boron is used as a rare earth permanent magnet material, has extremely high magnetic energy product and coercive force, and meanwhile, the advantage of high energy density enables the neodymium iron boron permanent magnet material to be widely applied in modern industry and electronic technology, so that the miniaturization, light weight and thinning of equipment such as instruments and meters, electroacoustic motors, magnetic separation magnetization and the like are possible. At present, in the preparation process of neodymium iron boron products, there is the preparation of abnormal shape magnetic path, for example, right angle type magnetic path, and right angle type magnetic path is generally all applied in folding position of folding screen cell-phone, but the magnetization of right angle type magnetic path needs the manual work to pile up right angle type magnetic path, then places in and sends into the magnetizer on the spacing device to pile up magnetic path and magnetizes, and this process is extravagant manpower, and the magnetization inefficiency. Disclosure of Invention The invention aims to solve the defects of the prior art and provides a magnetizing mechanism for special-shaped magnetic blocks, which is labor-saving, high in magnetizing efficiency and space-saving and is used for magnetizing magnetic blocks in various shapes. The technical scheme adopted for solving the technical problems is as follows: The utility model provides a magnetizing mechanism of abnormal shape magnetic path, is equipped with the frame, is characterized in that is equipped with material loading station, magnetizing station and unloading station on the frame, material loading station, magnetizing station and unloading station on same circumference respectively, install magnetic path transfer mechanism on the frame of material loading station, magnetizing station and unloading station's centre of a circle position, install magnetizing mechanism on the frame of magnetizing station side, install unloading mechanism on the frame of unloading station side, magnetic path transfer mechanism transfers the magnetic path that the material loading piles to magnetizing station at material loading station, after the magnetic path transfer mechanism transfers the magnetic path to magnetizing mechanism and magnetizes, transfer the magnetic path after magnetizing to the unloading station, unloading mechanism is unloaded the magnetic path of magnetizing mouth. The magnetic block transfer mechanism comprises a rotating motor, a rotating seat plate and a material receiving component, wherein the rotating motor is fixed on a machine base, the output end of the rotating motor is rotationally connected with the rotating seat plate, the material receiving component is arranged on the rotating seat plate at the positions of a feeding station, a magnetizing station and a discharging station respectively, and the material receiving component is a component capable of realizing stacking, storage and transfer of different magnetic blocks. The material receiving assembly comprises a magnetizing vertical sliding seat, a material receiving vertical sliding seat, a magnetizing transfer seat, a material receiving column, a material receiving transfer seat, a material receiving plug and a material releasing cylinder, wherein the magnetizing vertical sliding seat is fixed on a rotary seat plate, the magnetizing vertical sliding seat is in sliding connection with the magnetizing vertical sliding seat, the vertical magnetizing sliding seat is fixedly connected with the magnetizing transfer seat, the material receiving vertical sliding seat is fixed on the magnetizing transfer seat, the material receiving vertical sliding seat is in sliding connection with the material receiving vertical sliding seat, the material receiving vertical sliding seat is fixedly connected with the material receiving transfer seat, the material releasing cylinder is fixed on the material receiving transfer seat, the output end of the material releasing cylinder is connected with the material receiving plug, the material receiving column is fixed on the magnetizing transfer seat, a material receiving bar hole communicated with the material receiving hole is arranged on the material receiving column at the side surface, the material receiving plug extends into the material receiving hole through the material receiving bar hole, and the magnetizing seat is driven to move upwards and downwards through a magnetizing transfer driver, and the material receiving transfer seat is driven to move upwards and downwards through a material receiving driver. The magnetizing transfer seat comprises a lower seat plate, an u