CN113113209A - Multifunctional magnet magnetizing device - Google Patents

Abstract

The invention relates to the technical field of magnetization, and provides a multifunctional magnet magnetizing device. The machine comprises a case, the machine case has the case that magnetizes, the block terminal, the case that magnetizes, the incasement that demagnetizes is fixed with the sleeve, the sleeve internal rotation is connected with the oven, the side of oven all is equipped with T type and leads to the groove, the oven both sides are equipped with the conveyer belt, it has the magnet box to carry on the conveyer belt, be fixed with the electric heater in the middle of the inside of oven, two sets of through grooves have been seted up to both sides around the case that demagnetizes, the rear side of case that demagnetizes is fixed with the feeding baffle, the front side of case that demagnetizes is fixed with ejection of compact baffle, the case that magnetizes has two sets of solenoid through the backup pad support, the upper and lower both sides of coil all have the platform that magnetizes through the. The magnet is provided with the oven for heating and demagnetizing before magnetizing, so that the magnetizing efficiency is improved; the magnetizing platform can simultaneously magnetize a plurality of groups of magnets; the magnetizing magnetic field type can be changed, and the cost is reduced.

Description

Multifunctional magnet magnetizing device

Technical Field

The invention relates to the technical field of magnetization, in particular to a multifunctional magnet magnetizing device.

Background

The traditional magnetizing method of the magnet mainly comprises the following steps: direct current magnetizing, pulse magnetic field magnetizing and superconductive magnetic field magnetizing. D, direct current magnetizing: and D, electrifying direct current in the electromagnet coil to generate a magnetizing magnetic field. Magnetizing by a pulse magnetic field: the alternating current is converted into direct current to be stored in a capacitor, then the capacitor is instantaneously discharged or discharged by a large-capacity transistor, strong pulse current is generated in the sprint coil, so that a strong pulse magnetic field is generated, and the magnet in the coil is magnetized. When pulse discharge is carried out, the pulse current within a few milliseconds can reach more than 100KA, the maximum magnetic field which can be provided by a common pulse magnetizing device is about 6-10T, and in principle, a permanent magnet material with the coercive force of 2400KA/m can be magnetized to reach saturation in a demagnetizing state. The superconducting magnetic field magnetizing method comprises the following steps: the spiral tube is wound by superconducting material, the resistance of the spiral tube disappears suddenly when the temperature is reduced to the superconducting critical temperature, and a strong superconducting magnetic field can be generated by applying a small voltage on the superconducting coil.

And D, direct current magnetizing, wherein a strong magnetizing magnetic field is difficult to generate due to large energy consumption, slow starting and difficult cooling. The pulse magnetic field can cause certain pulse impact to the product in the magnetizing process. The superconducting magnetic field magnetizing method comprises the following steps: such devices require a cryogen such as liquid nitrogen. The prior art often adopts a pulsed magnetic field magnetizing method.

However, the existing magnet is always provided with certain weak magnetism before magnetization, and the magnetic field distribution of the magnet is irregular, so that the magnetizing time can be shortened after the magnet is demagnetized and then magnetized. The demagnetizing method of the magnet includes heating and impact, the magnet is brittle, and the impact can damage the magnet. Heating degaussing is mainly considered.

The magnets are difficult to splice due to the existence of repulsion among the magnets after being magnetized, and the magnets can be ejected out of the mold due to the mutual repulsion in severe cases, so that accidents of hurting people or damages to the magnets are caused. In the existing magnetizing technology, only a single magnet can be magnetized at each time, and the magnetizing efficiency is low. Meanwhile, the existing magnetizing equipment can only provide one magnetizing magnetic field generally, and the magnetizing magnetic field cannot be changed, so that enterprises need to be equipped with various magnetizing equipment.

Disclosure of Invention

The invention aims to provide a multifunctional magnet magnetizing device which is mainly used for solving the problems that a magnet magnetizing device is not provided with a demagnetization mechanism and the problems that the magnetizing efficiency is low and the magnetizing magnetic field cannot be changed.

The technical problem of the invention is mainly solved by the following technical scheme: the novel oven comprises an oven case, a partition plate I and a partition plate II are arranged in the oven case, the oven case is isolated by the partition plate I and the partition plate II, a demagnetization box, a distribution box and a magnetizing box are fixed in the demagnetization box from top to bottom, two groups of cylindrical sleeves are fixed in the demagnetization box from top to bottom, a prismatic oven is rotatably connected in the middle of the sleeves and drives a motor, the motor is fixed in the demagnetization box, T-shaped through grooves are formed in the side surfaces of the oven, conveyor belts are arranged on the two sides of the T-shaped through grooves in the side surfaces of the oven, a magnet box is conveyed on the conveyor belts, a box cover is spirally fixed at the top of the magnet box, a T-shaped boss is arranged at the bottom of the magnet box and slides in the T-shaped through grooves, an electric heater is fixed in the middle of the inside of the oven, heat generated by the electric heater radiates out of the inside of the oven through the T, the magnetic box comprises a through groove, a sleeve, a feeding guide plate, a discharging guide plate, a plurality of groups of pulleys, a plurality of groups of support plates, two groups of electromagnetic coils, a coil frame, a sliding rail, a magnet charging platform, a box body with an opening at the upper end, a sliding rail, a plurality of groups of clamping grooves and a T-shaped boss, wherein the through groove is communicated with the sleeve, the feeding guide plate is fixed at the bottom of the through groove at the rear side of the demagnetization box, the discharging guide plate is fixed at the bottom of the through groove at the front side of the demagnetization box, the plurality of groups of pulleys are rotatably connected at the tops of the feeding guide plate and the discharging guide plate, the magnetization box is provided with a plurality of groups of support plates at the upper and lower parts, the two groups of electromagnetic coils are supported by the support plates, the two groups of electromagnetic coils are fixed on the coil frame, the sliding rail is arranged between the coil frame and the support plates, two sets of windows that magnetize are opened to the front side of case that magnetizes, it passes through to magnetize the platform the window business turn over magnetize the case, solenoid all is connected with the control integrated circuit, the control integrated circuit is fixed in the block terminal, the block terminal is opened with the rear side of case that magnetizes and is equipped with the maintenance cabinet door, through the maintenance cabinet door is right block terminal and the incasement part that magnetizes overhauls.

Preferably, a conductive circuit board is arranged on the upper side or the lower side of the magnetizing platform, and the conductive circuit board is provided with an eddy current circuit. The conductive circuit board provides an auxiliary secondary magnetic field, and the auxiliary secondary magnetic field and the magnetic field generated by the electromagnetic coil complement each other, so that the magnetizing efficiency is improved.

Preferably, the control integrated circuit includes a capacitor and a transistor.

Preferably, the oven is one of a triangular prism, a quadrangular prism, a pentagonal prism and a hexagonal prism. The upper and lower two groups of drying ovens can adopt different shapes, so that the transmission of the magnet boxes with different sizes can be met.

Preferably, a handle is fixed on the front side of the magnetizing platform. The magnetizing platform is pushed and pulled through the handle, so that the magnetizing platform is conveniently pushed and pulled.

The invention has the beneficial effects that: the magnet is heated and demagnetized by the oven before magnetization, so that the magnetization difficulty is reduced, and the magnetization efficiency is improved; the magnet is placed in the magnet box for magnetization, so that the phenomenon that people are injured by catapulting and the magnet is damaged after the magnet is magnetized is prevented; the magnetizing platform can simultaneously magnetize a plurality of groups of magnets, so that the magnetizing efficiency is improved; the electromagnetic coil is installed in the magnetizing box in a modularized manner, so that the type of a magnetizing magnetic field is conveniently changed, and the machine purchasing cost of an enterprise is reduced.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a cross-sectional elevation view of the present invention;

FIG. 3 is a left side view of the present invention;

FIG. 4 is a cross-sectional left side view of the present invention;

FIG. 5 is a rear view of the present invention;

FIG. 6 is a schematic cross-sectional view of a part oven of the present invention;

FIG. 7 is a bottom view of the component magnet cartridge of the present invention;

FIG. 8 is a schematic diagram of a conductive trace board structure of the present invention;

FIG. 9 is a left side view of the component feed guide of the present invention;

FIG. 10 is a top view of the component feed guide of the present invention;

FIG. 11 is a cross-sectional elevation view of the part outfeed guide of the present invention;

FIG. 12 is a cut-away right side view of the part discharge guide of the present invention;

the notation in the figure is:

1. the magnetic field generator comprises a case, a partition I, a partition II, a partition 4, a demagnetizing case, a distribution box 5, a magnetizing case 6, a supporting plate 7, a conductive circuit board 8, a magnetizing platform 9, an electromagnetic coil 10, a coil rack 11, a magnet box 12, a magnet box 13, a clamping groove 13, a T-shaped boss 14, a sliding rail 15, a box cover 16, an eddy current circuit 17, a capacitor 18, a transistor 19, a transistor 20, a control integrated circuit 21, a sleeve 21, a T-shaped through groove 22, an oven 23, a conveyer belt 24, an electric heater 25, an electric motor 26, a discharging guide plate 27, a pulley 28, a baffle 29, a passing groove 30, a magnetizing window 31, a handle 32, an overhauling cabinet door 33 and a feeding guide plate 34.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings.

Example 1

The multifunctional magnet magnetizing device comprises a case 1, a partition plate I2 and a partition plate II 3 are arranged in the case 1, the case 1 is isolated by the partition plate I2 and the partition plate II 3 to form a demagnetizing box 4, a distribution box 5 and a magnetizing box 6, two groups of cylindrical sleeves 21 are vertically fixed in the demagnetizing box 4, a prism drying box 23 is rotatably connected to the middle of the inside of each sleeve 21, the drying box 23 is driven by a motor 26, and the motor 26 is fixed to the demagnetizing box 4. The side of oven 23 all is equipped with T type through groove 22, and the side of oven 23 all is equipped with conveyer belt 24 in the both sides of T type through groove 22, has carried magnet box 12 on the conveyer belt 24, and the top spiral of magnet box 12 is fixed with lid 16, and the bottom of magnet box 12 is equipped with T type boss 14, and T type boss 14 slides in T type through groove 22, is fixed with electric heater 25 in the middle of the inside of oven 23, and the heat that electric heater 25 produced radiates out the inside of oven 23 through T type through groove 22. As shown in fig. 1, 4 and 5, two sets of passing grooves 30 are formed in the front side and the rear side of the demagnetization box 4, the passing grooves 30 are communicated with the sleeve 21, a feeding guide plate 34 is fixed to the bottom of the passing groove 30 on the rear side of the demagnetization box 4, a discharging guide plate 27 is fixed to the bottom of the passing groove 30 on the front side of the demagnetization box 4, and a plurality of sets of pulleys 28 are rotatably connected to the tops of the feeding guide plate 34 and the discharging guide plate 27. As shown in fig. 2, a plurality of support plates 7 are arranged above and below the magnetizing box 6, two sets of electromagnetic coils 10 are supported by the support plates 7, the electromagnetic coils 10 are fixed on a coil rack 11, a slide rail 15 is arranged between the coil rack 11 and the support plates 7, the coil rack 11 is pulled out of the magnetizing box 6 through the slide rail 15, magnetizing platforms 9 are supported by the support plates 7 on the upper and lower sides of the electromagnetic coils 10, the magnetizing platforms 9 are box bodies with openings at the upper ends, a slide rail 15 is also arranged between the support plates 7 and the magnetizing platforms 9, a plurality of sets of clamping grooves 13 are arranged at the bottom of the magnetizing platforms 9, a T-shaped boss 14 at the bottom of the magnet box 12 can be embedded into the clamping groove 13, two sets of magnetizing windows 31 are arranged at the front side of the magnetizing box 6, the magnetizing platforms 9 enter and exit the magnetizing box 6 through the magnetizing windows 31, the electromagnetic coils 10 are connected with a control integrated circuit 20, the control integrated circuit 20 is, the parts in the distribution box 5 and the magnetizing box 6 are overhauled through the overhaul cabinet door 33.

As shown in fig. 8, a conductive circuit board 8 is provided on the upper side or the lower side of the magnetizing platform 9, and the conductive circuit board 8 has an eddy current circuit 17. The conductive circuit board 8 provides an auxiliary secondary magnetic field which is complementary with the magnetic field generated by the electromagnetic coil 10, and the magnetizing efficiency is improved.

Wherein control integrated circuit 20 includes capacitor 18 and transistor 19.

The oven 23 of the present embodiment is a hexagonal prism, and the magnet boxes 12 have the same size. In practice, the magnet housing 12 may also be sized differently to accommodate different sized magnets.

Wherein, a handle 32 is fixed on the front side of the magnetizing platform 9. The magnetizing platform 9 is pushed and pulled through the handle 32, so that the magnetizing platform 9 is conveniently pushed and pulled.

In use, the magnets to be magnetized are placed in the magnet box 12, then placed on the feed guide 34, and pushed into the degaussing tank 4. The magnet box 12 continues into the degaussing cabinet 4 again under the influence of the conveyor belt 24. After the magnets are heated for a period of time, the conveyor belt 24 is started to output the magnet boxes 12 from the passing groove 30 at the front side, and the output magnet boxes 12 slide out of the degaussing boxes, slide out of the discharge guide plate 27 and are blocked by the baffle plate 29.

Then the magnet after being heated and demagnetized is placed in the magnetizing platform 9, and the T-shaped boss 14 at the bottom of the magnet box 12 is embedded into the clamping groove 13, so that the magnet box 12 is prevented from jumping after the magnet is magnetized. The magnetizing platform 9 with the magnet case 12 placed thereon is pushed into the magnetizing box 6 by the handle 32. Then, a direct current power supply is introduced into the control integrated circuit 20, so that the electromagnetic coil 10 generates a pulse magnetic field to magnetize the magnet. And the conductive circuit board 8 can also generate an auxiliary magnetic field in the same magnetic field direction when being electrified, and the two magnetic fields are superposed, so that the magnetizing efficiency is improved.

The magnetic field provided by the embodiment is mainly used for magnetizing the radiation ring magnet, and when the magnetic strip or the U-shaped magnet is charged, the electromagnetic coil 10 can be replaced by a magnetizing source in other magnetic field shapes. The electromagnetic coil 10 and other magnetization sources can be installed and fixed on the magnetizing platform 9 according to the structure modularization of the magnetizing box 6, when the magnetic field type is needed, the corresponding magnetizing platform 9 is pushed into the magnetizing box 6, and thus enterprises do not need to purchase magnetizing equipment with different magnetic field types.

While the foregoing embodiments are illustrative of the present invention, various modifications and changes may be readily made by those skilled in the art based upon the teachings and principles of this invention, which are intended to be limited not to the details of construction and methods herein shown, but rather to the preferred embodiments described, and therefore all equivalent modifications and changes in light of the above teachings are intended to be included within the scope of the present invention as defined in the appended claims.

Claims (5)

1. A multifunctional magnet magnetizing device comprises a case (1) and is characterized in that a partition plate I (2) and a partition plate II (3) are arranged in the case (1), the case (1) is isolated by the partition plate I (2) and the partition plate II (3) to form a demagnetization box (4), a distribution box (5) and a magnetizing box (6), two groups of cylindrical sleeves (21) are fixed in the demagnetization box (4) from top to bottom, a prism drying oven (23) is rotatably connected to the middle inside of each sleeve (21), the drying oven (23) is driven to a motor (26), the motor (26) is fixed to the demagnetization box (4), T-shaped through grooves (22) are formed in the side surfaces of the drying oven (23), conveyor belts (24) are arranged on the two sides of each T-shaped through groove (22), and magnet boxes (12) are conveyed on the conveyor belts (24), a box cover (16) is spirally fixed at the top of the magnet box (12), a T-shaped boss (14) is arranged at the bottom of the magnet box (12), the T-shaped boss (14) slides in the T-shaped through groove (22), an electric heater (25) is fixed in the middle of the inside of the oven (23), heat generated by the electric heater (25) radiates out of the inside of the oven (23) through the T-shaped through groove (22), two groups of through grooves (30) are formed in the front side and the rear side of the demagnetization box (4), the through grooves (30) are communicated with the sleeve (21), a feeding guide plate (34) is fixed at the bottom of the through groove (30) on the rear side of the demagnetization box (4), a discharge guide plate (27) is fixed at the bottom of the through groove (30) on the front side of the demagnetization box (4), and a plurality of groups of pulleys (28) are rotatably connected to the tops of the feeding guide plate (34) and the discharge guide plate (27), the magnetizing box (6) is provided with a plurality of groups of supporting plates (7) from top to bottom, two groups of electromagnetic coils (10) are supported by the supporting plates (7), the electromagnetic coils (10) are fixed on coil frames (11), sliding rails (15) are arranged between the coil frames (11) and the supporting plates (7), the coil frames (11) are pulled out of the magnetizing box (6) through the sliding rails (15), magnetizing platforms (9) are supported by the upper sides and the lower sides of the electromagnetic coils (10) through the supporting plates (7), the magnetizing platforms (9) are box bodies with openings at the upper ends, the sliding rails (15) are also arranged between the supporting plates (7) and the magnetizing platforms (9), a plurality of groups of clamping grooves (13) are formed in the bottoms of the magnetizing platforms (9), and T-shaped bosses (14) at the bottoms of the magnet boxes (12) can be embedded into the clamping grooves (13), it is equipped with two sets of windows (31) that magnetize to magnetize the front side of case (6), it passes through to magnetize platform (9) it passes in and out to magnetize window (31) magnetize case (6), solenoid (10) all are connected with control integrated circuit (20), control integrated circuit (20) are fixed in block terminal (5), block terminal (5) and the rear side of magnetizing case (6) are opened and are equipped with maintenance cabinet door (33), through maintenance cabinet door (33) are right block terminal (5) and magnetizing case (6) inner part overhaul.

2. A multifunctional magnet charging device as claimed in claim 1, characterized in that the charging platform (9) is provided with an electrically conductive circuit board (8) on the upper or lower side, said electrically conductive circuit board (8) having eddy current lines (17).

3. A multifunctional magnet charging device as claimed in claim 1, characterized in that said control integrated circuit (20) comprises a capacitor (18) and a transistor (19).

4. A multifunctional magnet charging device as claimed in claim 1, characterized in that said oven (23) is one of a triangular prism, a quadrangular prism, a pentagonal prism, and a hexagonal prism.

5. A multifunctional magnet charger as claimed in claim 1, characterized in that a handle (32) is fixed to the front side of the charging platform (9).

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