CN216287830U - Transmission type magnetizing device - Google Patents

Abstract

The application relates to the technical field of magnet processing production, in particular to a transmission type magnetizing device. The key points of the technical scheme are as follows: comprises a frame, a track, a magnetizing mechanism and a discharging component; the rail is fixedly arranged on the rack, is horizontally arranged, penetrates through the magnetizing mechanism and is used for a workpiece to slide in and out of the magnetizing mechanism; the magnetizing mechanism comprises a shell and a coil, the coil is arranged in the shell and is electrically connected with a power supply through a lead, and the coil is sleeved outside the track; the discharging assembly is fixed on the rack and located at one end of the rail for discharging, the discharging assembly is adjacent to the magnetism adding mechanism, and the discharging assembly is used for drawing a workpiece out of the magnetism adding mechanism in a rotating mode. This application has the function that promotes the convenience that the magnet work piece adds magnetism.

Description

Transmission type magnetizing device

Technical Field

The application relates to the technical field of magnet processing production, in particular to a transmission type magnetizing device.

Background

The magnet is a natural magnetite and has certain magnetism, and after thousands of years of development, people can strengthen the magnetism of the magnetite by magnetizing the magnetite, and can also manufacture the magnet artificially, and the manufacturing process of the artificial magnet also needs to be subjected to a magnetizing step.

At present, in the magnetizing process, a magnetizing machine is generally adopted to magnetize a magnet with a small size, a plurality of magnets are sequentially adjacent to form a strip-shaped magnet, the strip-shaped magnet is placed in the magnetizing machine, a coil with extremely small resistance is arranged in the magnetizing machine and used for discharging, discharged pulse current generates a strong magnetic field in the coil, the magnet is magnetized by the magnetic field, and meanwhile, the disordered magnetic induction line of the magnet is corrected.

In the related art, in the process of magnetizing the hard magnetic material by using the magnetizing machine, the strip-shaped magnet cannot move automatically, and the magnet needs to be manually driven to move and magnetize, so that the convenience of magnetizing the magnet workpiece is still to be improved.

SUMMERY OF THE UTILITY MODEL

In order to promote the convenience that the magnet work piece adds magnetism, this application provides a transmission type adds magnetic device.

The application provides a transmission type adds magnetic device adopts following technical scheme:

a transmission type magnetizing device comprises a rack, a track, a magnetizing mechanism and a discharging assembly; the rail is fixedly arranged on the rack, is horizontally arranged, penetrates through the magnetizing mechanism and is used for a workpiece to slide in and out of the magnetizing mechanism; the magnetizing mechanism comprises a shell and a coil, the coil is arranged in the shell and is electrically connected with a power supply through a lead, and the coil is sleeved outside the track; the discharging assembly is fixed on the rack and located at one end of the rail for discharging, the discharging assembly is adjacent to the magnetism adding mechanism, and the discharging assembly is used for drawing a workpiece out of the magnetism adding mechanism in a rotating mode.

Through adopting above-mentioned technical scheme, the rectangular form work piece that will wait to add magnetism is placed in the one end that ejection of compact subassembly was kept away from to the track, and with in the work piece propelling movement adds magnetic mechanism, the work piece runs through the coil and adds magnetism, treat that the work piece is accomplished and add magnetism after, continue propelling movement work piece to ejection of compact subassembly department forward, ejection of compact subassembly pulls out the work piece and adds magnetic mechanism, and then the work piece is slipped to this by oneself and is added the magnetic device outside, and the work piece that the drive is located to add magnetic mechanism slides by oneself and adds magnetism through the coil, magnet work piece has been promoted and has added magnetic convenience.

Preferably, ejection of compact subassembly includes motor, first traction wheel and second traction wheel, the motor set up in the frame, first traction wheel with motor fixed connection, the second traction wheel rotate connect in the frame, first traction wheel is located under the second traction wheel, first traction wheel with form the clearance that can supply the work piece to pass through between the second traction wheel, the clearance with the one end of the track ejection of compact is just right mutually.

Through adopting above-mentioned technical scheme, starter motor, motor drive first traction wheel rotate, when the work piece from adding the magnetic mechanism cunning and move to the track tip, the work piece gets into the clearance between first traction wheel and the second traction wheel to the work piece is conveyed to adding the magnetic device outside under the rotation effect of first traction wheel, and the second traction wheel plays supplementary sliding action to the work piece.

Preferably, ejection of compact subassembly still includes presses splenium and torsional spring, press the both ends of splenium respectively with the frame and the second traction wheel rotates to be connected, the one end fixed connection of torsional spring in the frame, the other end of torsional spring with press splenium looks butt, the torsional spring is used for the drive the second traction wheel pushes down centre gripping work piece.

Through adopting above-mentioned technical scheme, for the convenience of work piece is from moving through the clearance between first traction wheel and the second traction wheel, be provided with and press splenium and torsional spring, the second traction wheel rotates to be connected on pressing the splenium, presses the splenium to drive the second traction wheel and push down under the spring action of torsional spring, makes second traction wheel and first traction wheel centre gripping work piece, and the work piece is under the centre gripping and the rotation effect of second traction wheel and first traction wheel, and the orientation adds the conveying of magnetic device external stability.

Preferably, a strip-shaped groove is formed in the top of the track along the length direction, and the groove wall, close to the feeding end of the track, of the strip-shaped groove is in a flaring shape.

Through adopting above-mentioned technical scheme, for the path of sliding of location work piece, the bar recess has been seted up at the track top to for the convenience of work piece edge bar recess gets into with magnetism mechanism, for the convenience of work piece gets into the bar recess, in the one end that is close to the track feeding, the both sides wall of bar recess is the flaring form from inside to outside, has increased the feeding area, and the work piece can be via in the flaring form cell wall guide gets into the bar recess, and then slides and add magnetism to adding magnetism in the magnetism mechanism.

Preferably, the cooling device further comprises a cooling mechanism, the cooling mechanism comprises a cooling assembly and a water storage assembly, the cooling assembly is wound outside the coil and is arranged on the ground, the cooling assembly is connected with the water storage assembly, the cooling assembly is used for cooling the coil, and the water storage assembly is used for storing water and supplying water to the cooling assembly for cooling.

Through adopting above-mentioned technical scheme, there is the heat transfer pipeline at the outside winding of coil, when starting to add magnetic device, the coil produces the heat because of letting in the electric current, here, the outside winding of coil is provided with cooling module, lets in flowing water in the cooling module, and flowing water carries out the heat transfer cooling to the coil, for supplying water to cooling module, is provided with water storage module and carries out water storage and water supply, goes into water storage module with the rivers of coil process heat exchange simultaneously in, and then realizes the cyclic utilization of water.

Preferably, the cooling assembly comprises a water inlet pipe, a heat exchange pipe, a water outlet pipe and a water pump, the water pump is arranged on the water storage assembly, the water inlet pipe is respectively connected with the water pump and the heat exchange pipe, the heat exchange pipe is wound outside the coil to form a cooling section, one end of the water outlet pipe is connected with the heat exchange pipe, and the other end of the water outlet pipe is communicated with the water storage assembly.

Through adopting above-mentioned technical scheme, be provided with the water pump on the inlet channel, through the water in the water pump extraction water storage component, the inlet channel lets in heat transfer pipeline with water, rivers through heat transfer pipeline and carry out the heat exchange with the coil, water cools down the coil, and water flows out via outlet channel afterwards and adds magnetic mechanism to water storage component to this reduction that reduces coil electromagnetic conversion rate.

Preferably, the water storage component comprises a water storage tank and a water pumping pipeline, cooling water is arranged in the water storage tank, the water pump is arranged on the water storage tank, the water pumping pipeline is located in the water storage tank, one end of the water pumping pipeline is connected with the water pump, and the other end of the water pumping pipeline is communicated with the water storage tank.

Through adopting above-mentioned technical scheme, owing to add the in-process that magnetism mechanism adds the work piece, the coil need constantly cool off with mobile hydrothermal exchange, and water through the heat exchange flows to the storage water tank after via outlet conduit, and water is stood in the storage water tank and is cooled down, and the water that extracts in the storage water tank through the water pump simultaneously flows back, and water flows into the inlet conduit via the pipeline that draws water, and then flows into heat transfer pipeline, and water and coil in the heat transfer pipeline carry out the heat exchange to this cycle work.

Preferably, the frame includes the support, the support be used for with the track install in the frame top, the one end fixedly connected with feeding plate of track feeding, the other end fixed connection of feeding plate is on the workstation, the one end fixedly connected with ejection of compact board of track ejection of compact, the other end downward sloping of ejection of compact board.

Through adopting above-mentioned technical scheme, because the track passes through support fixed mounting in the frame, the track has certain distance apart from the frame top, for the convenience of work piece business turn over track, the one end of feeding at the track is fixed with the feed plate, is fixed with out the flitch in the one end of the track ejection of compact, and the work piece slides from the workstation through the feed plate and gets into the track, and the work piece is drawn out the track back by ejection of compact subassembly, in the play flitch guide entering next workspace of via the downward sloping.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the workpiece slides in and out of the magnetizing mechanism on the track, the coil penetrates through the workpiece in the magnetizing mechanism to be magnetized, after the magnetizing is completed, the workpiece is pushed to the discharging assembly, the discharging assembly rotates to clamp the workpiece and pulls the workpiece out of the magnetizing mechanism, and meanwhile, the workpiece in the magnetizing mechanism is driven to automatically slide and magnetize through the coil, so that the magnetizing convenience of the magnet workpiece is improved;

2. the workpiece is stably conveyed towards the outside of the magnetizing device under the clamping and rotating actions of the second traction wheel and the first traction wheel;

3. the outside winding of coil is provided with cooling module, lets in the flowing water in the cooling module, and flowing water carries out the heat transfer cooling to the coil, simultaneously, is provided with water storage component and carries out water storage and water supply, and in the rivers income water storage component through the heat exchange with the coil, realize the cyclic utilization of water.

Drawings

Fig. 1 is a schematic view of the overall structure of the transmission type magnetizing apparatus of the present application.

Fig. 2 is a partial cross-sectional view of the present conveyor magnetizing apparatus.

Fig. 3 is an enlarged view of a portion a in fig. 1.

Description of reference numerals: 1. a frame; 11. a support; 12. a discharge plate; 2. a track; 21. a strip-shaped groove; 211. a feed inlet; 22. a feeding plate; 3. a magnetizing mechanism; 31. a housing; 32. a coil; 4. a discharge assembly; 41. a motor; 42. a first traction wheel; 43. a second traction wheel; 44. a gap; 45. a pressing part; 451. a first support arm; 452. a second support arm; 46. a torsion spring; 5. a cooling mechanism; 51. a cooling assembly; 511. a water inlet pipe; 512. a heat exchange conduit; 513. a water outlet pipeline; 514. a water pump; 52. a water storage assembly; 521. a water storage tank; 522. a water pumping pipeline.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a transmission type magnetizing device. Referring to fig. 1, this add magnetic device includes frame 1, track 2, add magnetic mechanism 3 and ejection of compact subassembly 4, frame 1 is placed on the workstation, 2 fixed mounting on track 1 tops, frame 1 tops are the horizontal plane, track 2 parallels with frame 1 top, add magnetic mechanism 3 fixed connection in frame 1, track 2 runs through and adds magnetic mechanism 3, the work piece gets into through track 2 and adds magnetic mechanism 3 and add the magnetism, ejection of compact subassembly 4 is fixed in on frame 1, and ejection of compact subassembly 4 is located the one end of the 2 ejection of compact of track, ejection of compact subassembly 4 is used for drawing out the work piece on track 2 and adds magnetic mechanism 3.

The rail 2 is in a long strip plate shape, a strip-shaped groove 21 is formed in the top of the rail 2 along the length direction, the strip-shaped groove 21 is located in the middle of the rail 2 and penetrates through two ends of the rail 2 in the length direction, a workpiece is in a long strip shape, the shape of the strip-shaped groove 21 is matched with the outline of the outer edge of the workpiece, and the workpiece slides from the strip-shaped groove 21 to enter and exit the magnetizing mechanism 3 for magnetizing; here, the end of the rail 2 for feeding is defined as the feeding end, the end of the rail 2 for discharging is defined as the discharging end, and the discharging assembly 4 is located at the discharging end of the rail 2.

In order to facilitate the workpiece to enter the track 2, two side groove walls of the strip-shaped groove 21 close to the feeding end of the track 2 are in flaring shapes, and the two groove walls are obliquely flared from inside to outside to form a feeding hole 211; when a workpiece needs to enter the strip-shaped groove 21, the workpiece firstly passes through the feed inlet 211 with a larger opening and enters the strip-shaped groove 21 under the guidance of the gradual reduction of the opening of the feed inlet 211, so that the feeding area is increased, and the workpiece can conveniently enter the strip-shaped groove 21.

In addition, the rack 1 comprises two brackets 11, the brackets 11 are rod-shaped, the bottom surface of the rail 2 is fixedly connected with one end of each bracket 11 through a screw, the other end of each bracket 11 is fixed at the top of the rack 1 through a screw, the two brackets 11 are arranged at intervals at one end of the rail 2, which is far away from the magnetizing mechanism 3, and the brackets 11 suspend the rail 2 so as to facilitate entering the magnetizing mechanism 3, so that the rail 2 has a certain distance from the top of the rack 1, and a workpiece cannot enter the rail 2 conveniently; to this, one side fixedly connected with feed plate 22 that feed inlet 211 is close to track 2 tip, and the connected mode chooses for use for gluing, and feed plate 22 is squarely, and feed plate 22 keeps away from one side of feed inlet 211 and fixes on the workstation through gluing, and then forms the inclined plane, and the work piece slides from the workstation top through feed plate 22, reentrant feed inlet 211 to get into the bar groove 21 in the track 2.

Referring to fig. 2, in order to improve the magnetizing effect of the magnetic workpiece, the workpiece enters the magnetizing mechanism 3 through the track 2 for magnetizing, and the magnetizing mechanism 3 comprises a shell 31 and a coil 32; casing 31 is the cubic form, and casing 31 bottom has the opening, and casing 31 passes through screw fixed connection in frame 1, and coil 32 fixed mounting is in casing 31, but casing 31 separation adds 3 inner structure of magnetic mechanism and external environment, has dirt-proof effect, and simultaneously, reducible staff mistake touches the condition of adding magnetic mechanism 3, has promoted the security of working process.

In this embodiment, the coil 32 is made of copper wire, the coil 32 is formed by winding copper wire into a circular ring shape, the coil 32 is electrically connected to a power supply through copper wire, and the coil 32 is sleeved outside the rail 2, so that the workpiece slides on the rail 2 and passes through the coil 32; when the coil 32 is energized with a direct current, the coil 32 generates a constant magnetic field that magnetizes the workpiece passing through the coil 32, thereby magnetizing the workpiece.

Because the coil 32 is electrified to generate heat, the coil 32 generates heat, and the electromagnetic conversion rate of the coil 32 is influenced, the magnetizing device further comprises a cooling mechanism 5, the cooling mechanism 5 comprises a cooling component 51, the cooling component 51 performs heat exchange and cooling on the coil 32, and the cooling component 51 is positioned in the magnetizing mechanism 3; meanwhile, in the process of magnetizing the workpiece by the magnetizing mechanism 3, the coil 32 needs to continuously exchange heat with flowing water, in order to reduce water resource waste, the cooling mechanism 5 further comprises a water storage assembly 52, the water storage assembly 52 is placed on the ground, the water storage assembly 52 is used for storing and supplying water, and the cooling assembly 51 is connected with the water storage assembly 52, so that water recycling is realized.

With continued reference to fig. 2, cooling assembly 51 includes a water inlet conduit 511, a heat exchange conduit 512, a water outlet conduit 513, and a water pump 514; the water pump 514 is provided with a water inlet end and a water outlet end, the water pump 514 is fixed at the top of the water storage component 52, and the water inlet end of the water pump 514 is communicated with the water storage component 52; one end of the water inlet pipe 511 is connected with the water outlet end of the water pump 514, and the other end of the water inlet pipe 511 penetrates through the workbench and the rack 1 and is connected with one end of the heat exchange pipe 512; the heat exchange pipe 512 is wound and fixed on one side of the coil 32 far away from the track 2 and forms a cooling section; the other end of the heat exchange pipe 512 is connected to one end of the water outlet pipe 513, and the other end of the water outlet pipe 513 penetrates through the rack 1 and the workbench and is communicated with the water storage assembly 52.

Therefore, the water pump 514 pumps water in the water storage assembly 52, the water inlet pipeline 511 feeds the water into the heat exchange pipeline 512, and the water flows through the heat exchange pipeline 512 and exchanges heat with the coil 32, so that the temperature of the coil 32 is reduced.

The water storage assembly 52 comprises a water storage tank 521 and a water pumping pipeline 522, the water storage tank 521 is placed on the ground, cooling water is filled in the water storage tank 521, and the water pump 514 is fixedly connected to the top of the water storage tank 521 through screws; the water pumping pipeline 522 is positioned in the water storage tank 521, one end of the water pumping pipeline 522 is positioned at the bottom of the water storage tank 521, the water pumping pipeline 522 is communicated with the inside of the water storage tank 521, and the other end of the water pumping pipeline 522 is connected with the water inlet end of the water pump 514 at the top of the water storage tank 521; therefore, after the heat-exchanged water flows into the water storage tank 521 through the water outlet pipe 513, the water is kept standing in the water storage tank 521 for cooling, meanwhile, the water in the water storage tank 521 is extracted through the water pump 514 to flow back, the water flows into the water inlet pipe 511 through the water pumping pipe 522 and then flows into the heat exchange pipe 512, the water in the heat exchange pipe 512 exchanges heat with the coil 32 again, and therefore the circulation work is achieved, and waste of water resources is reduced.

Referring to fig. 3, the work piece is adding the magnetism in the magnetic mechanism 3 and is accomplished and continue to slide forward to the discharge end of track 2 after adding the magnetism, and the one end of casing 31 is close to the discharge end in adding the magnetic mechanism 3, and discharge end fixed mounting has discharge assembly 4, pulls out the work piece through discharge assembly 4 and adds magnetic mechanism 3, and then the work piece slides and moves to this and add the magnetism device outside, and is concrete, and discharge assembly 4 includes motor 41, first traction wheel 42 and second traction wheel 43.

The motor 41 is fixedly connected to the frame 1 through screws, an output shaft of the motor 41 is fixedly connected with the first traction wheel 42, the first traction wheel 42 is opposite to the strip-shaped groove 21 of the rail 2, the top of the first traction wheel 42 is flush with the bottom of the strip-shaped groove 21, the second traction wheel 43 is rotatably connected to the frame 1, the second traction wheel 43 is positioned right above the first traction wheel 42, a gap 44 for a workpiece to pass through is formed between the first traction wheel 42 and the second traction wheel 43, and the gap 44 is opposite to the discharge end of the rail 2.

When the magnetizing device works, a power supply is switched on to start the motor 41, so that the motor 41 drives the first traction wheel 42 to rotate, when the workpiece is magnetized and slides to the discharge end of the track 2 from the magnetizing mechanism 3, the workpiece enters a gap 44 between the first traction wheel 42 and the second traction wheel 43, the workpiece is conveyed to the outside of the magnetizing device under the rotating action of the first traction wheel 42, and in the process, the second traction wheel 43 plays a role in assisting sliding of the workpiece.

With continued reference to fig. 3, in order to facilitate the workpiece to pass through the gap 44 between the first traction wheel 42 and the second traction wheel 43 by itself, the discharging assembly 4 further includes a pressing portion 45 and a torsion spring 46, the pressing portion 45 is in an L-shaped structure, the pressing portion 45 includes a first arm 451 and a second arm 452, the first arm 451 and the second arm 452 are integrally formed, and the first arm 451 and the second arm 452 are perpendicular to each other; one end of the first support arm 451, which is far away from the second support arm 452, is rotatably connected to the machine frame 1, and one end of the second support arm 452, which is far away from the first support arm 451, is rotatably connected to the second traction wheel 43; one end of the torsion spring 46 is fixedly connected to the frame 1, the torsion spring 46 is disposed adjacent to the first support arm 451, the other end of the torsion spring 46 abuts against the first support arm 451, and the first support arm 451 drives the second support arm 452 to press down under the action of the elastic force of the torsion spring 46, so that the second traction wheel 43 and the first traction wheel 42 clamp the workpiece.

In addition, a discharging plate 12 is fixed on one side of the first traction wheel 42 far away from the rail 2, the discharging plate 12 is connected to the frame 1 through a screw, one end of the discharging plate 12 is flush with the top of the first traction wheel 42, the other end of the discharging plate 12 is inclined towards the lower part of the discharging plate 12, and the discharging plate 12 is used for supporting and guiding the workpiece to slide to the outside of the magnetizing device; under the rotation of the first traction wheel 42 and the auxiliary sliding action of the second traction wheel 43, the workpiece is automatically conveyed out of the magnetizing mechanism 3 and is guided by the discharging plate 12 to enter the next working area in a transition mode, and the use convenience of the magnetizing device is improved.

The implementation principle of the transmission type magnetizing device in the embodiment of the application is as follows: a workpiece to be magnetized is placed on the workbench, slides to the feeding end of the track 2 through the feeding plate 22, and is pushed into the magnetizing mechanism 3 along the strip-shaped groove 21, and penetrates through the coil 32 to be magnetized; here, the cooling assembly 51 is wound and fixed on the outer side of the coil 32, the cooling assembly 51 performs heat exchange and temperature reduction on the coil 32, so as to maintain the electromagnetic conversion rate of the coil 32, and the water storage assembly 52 is arranged to supply water to the cooling assembly 51, so that the water is recycled; after the workpiece is magnetized, the workpiece is continuously pushed forward to the discharge end of the rail 2, the first traction wheel 42 and the second traction wheel 43 at the discharge end rotate to clamp the workpiece, the workpiece is pulled out of the magnetizing mechanism 3, and the workpiece is guided by the discharge plate 12 to slide to the next working area for subsequent processing.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A transmission type magnetizing device is characterized in that: comprises a frame (1), a track (2), a magnetizing mechanism (3) and a discharging component (4);

the track (2) is fixedly arranged on the rack (1), the track (2) is horizontally arranged, the track (2) penetrates through the magnetizing mechanism (3), and a workpiece slides in and out of the magnetizing mechanism (3) through the track (2);

the magnetizing mechanism (3) comprises a shell (31) and a coil (32), the coil (32) is arranged in the shell (31), the coil (32) is electrically connected with a power supply through a lead, and the coil (32) is sleeved outside the track (2);

the discharging assembly (4) is fixed on the rack (1) and located at one end of the rail (2) for discharging, the discharging assembly (4) is adjacent to the magnetism adding mechanism (3), and the discharging assembly (4) is used for drawing a workpiece out of the magnetism adding mechanism (3) in a rotating mode.

2. A conveyor magnetizing apparatus according to claim 1, wherein: ejection of compact subassembly (4) include motor (41), first traction wheel (42) and second traction wheel (43), motor (41) set up in on frame (1), first traction wheel (42) with motor (41) fixed connection, second traction wheel (43) rotate connect in on frame (1), first traction wheel (42) are located under second traction wheel (43), first traction wheel (42) with form clearance (44) that can supply the work piece to pass through between second traction wheel (43), clearance (44) with the one end of track (2) ejection of compact is just right mutually.

3. A conveyor magnetizing apparatus according to claim 2, wherein: ejection of compact subassembly (4) still include and press splenium (45) and torsional spring (46), press the both ends of splenium (45) respectively with frame (1) and second traction wheel (43) rotate the connection, the one end fixed connection of torsional spring (46) in frame (1), the other end of torsional spring (46) with press splenium (45) looks butt, torsional spring (46) are used for the drive second traction wheel (43) push down centre gripping work piece.

4. A conveyor magnetizing apparatus according to claim 1, wherein: the top of the track (2) is provided with a strip-shaped groove (21) along the length direction, and the groove wall of the strip-shaped groove (21) close to the feeding end of the track (2) is in a flaring shape.

5. A conveyor magnetizing apparatus according to claim 1, wherein: still include cooling body (5), cooling body (5) include cooling module (51) and water storage component (52), cooling module (51) winding set up in coil (32) outside, water storage component (52) set up subaerially, cooling module (51) with water storage component (52) are connected, cooling module (51) are used for cooling down coil (32), water storage component (52) are used for storing water and to cooling module (51) water supply cools off.

6. A conveyor magnetizing apparatus according to claim 5, wherein: cooling module (51) include inlet channel (511), heat transfer pipeline (512), outlet conduit (513) and water pump (514), water pump (514) set up in on water storage component (52), inlet channel (511) respectively with water pump (514) and heat transfer pipeline (512) are connected, heat transfer pipeline (512) twine in coil (32) outside forms the cooling zone, the one end of outlet conduit (513) with heat transfer pipeline (512) are connected, the other end of outlet conduit (513) leads to water storage component (52).

7. A conveyor magnetizing apparatus according to claim 6, wherein: the water storage assembly (52) comprises a water storage tank (521) and a water pumping pipeline (522), cooling water is filled in the water storage tank (521), a water pump (514) is arranged on the water storage tank (521), the water pumping pipeline (522) is located in the water storage tank (521), one end of the water pumping pipeline (522) is connected with the water pump (514), and the other end of the water pumping pipeline (522) is communicated with the water storage tank (521).

8. A conveyor magnetizing apparatus according to claim 1, wherein: frame (1) includes support (11), support (11) be used for with track (2) install in frame (1) top, the one end fixedly connected with feed plate (22) of track (2) feeding, the other end fixed connection of feed plate (22) is on the workstation, the one end fixedly connected with of track (2) ejection of compact goes out flitch (12), the other end downward sloping of play flitch (12).

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