CN113990602A - Magnet stacking device convenient to magnetize - Google Patents

Abstract

The invention relates to the field of magnet production and processing, in particular to a magnet stacking device convenient for magnetization, which comprises a bottom plate, a first fixing frame, a second fixing frame, a magnetizing machine, a first sliding frame and the like; the bottom plate top surface fixed mounting has first mount, and second mount fixed mounting is in the bottom plate top surface, and the same fixed mounting of magnetization machine is at the bottom plate top surface, and magnetization machine and second mount rigid coupling are connected with first carriage of sliding connection on the first mount. Through the effect of slurcam, the slurcam can arrange the magnet that piles up in the metal frame in order, makes magnet one side flush, guarantees that all magnets pile up neatly, then the slurcam pushes down the metal frame to the magnetization built-in for the work of magnetizing is carried out to the magnet of metal frame to the magnetization machine, saves the trouble that needs the artifical manual metal frame of taking to magnetize magnet.

Description

Magnet stacking device convenient to magnetize

Technical Field

The invention relates to the field of magnet production and processing, in particular to a magnet stacking device convenient for magnetization.

Background

The magnet is natural magnetite, the components of the magnet are iron, cobalt, nickel and other atoms, the internal structure of the atoms is special, the magnet has magnetic moment, and the magnet can generate a magnetic field and has the characteristic of attracting ferromagnetic substances such as iron, nickel, cobalt and other metals. Magnetizing a magnetic substance or increasing the magnetic property of a magnet with insufficient magnetic property is generally performed by placing a magnetizable object to be magnetized in a magnetic field formed by a coil through which a direct current passes.

In the existing magnet magnetizing technology, dispersed magnets are required to be manually stacked in a metal frame one by one, each magnet is spaced by a spacer to ensure that each magnet can be magnetized, the metal frame can ensure the neatness of the stacked magnets, the magnets are prevented from toppling over when being stacked, the metal frame is extended into a magnetizing machine to be magnetized, and due to the fact that the magnets are stacked in the metal frame one by one, the work efficiency is low, follow-up work is affected, and a large amount of labor resources are consumed when the magnets are too much.

Disclosure of Invention

The invention aims to provide a magnet stacking device which can automatically convey and stack magnets and spacers, can arrange and ensure that the stacked magnets are orderly stacked, and can magnetize the magnets, and is convenient to magnetize, so as to solve the problems that the work efficiency is low, the magnets are excessively stacked in a metal frame manually one by one, and a large amount of labor resources are consumed.

The technical scheme is as follows: the utility model provides a magnet piles up device convenient to magnetize, includes bottom plate, first mount, second mount, magnetizes quick-witted, first carriage, motor, third mount, deflector, slurcam, first reset spring, metal frame, slewing mechanism and pushing mechanism:

the top surface of the bottom plate is fixedly provided with a first fixing frame;

the second fixing frame is fixedly arranged on the top surface of the bottom plate;

the magnetizing machine is fixedly arranged on the top surface of the bottom plate and is fixedly connected with the second fixing frame and used for magnetizing the magnet;

the first sliding frame is connected with the first fixing frame in a sliding manner;

the first sliding frame is fixedly provided with a motor, and the motor is used for providing driving power for equipment;

the third fixing frame is fixedly arranged on the top surface of the bottom plate, fixedly connected with the first fixing frame and fixedly connected with the magnetizing machine;

the top of the third fixing frame is provided with a guide plate, and the guide plate is used for guiding the magnet and the spacer; the third fixing frame is connected with a second fixing frame in a sliding mode, and the second fixing frame is used for fixing the second fixing frame;

the first return spring is connected between the pushing plate and the third fixing frame;

the metal frame is placed on the third fixing frame, the pushing plate is in contact with the metal frame, and the metal frame is used for placing the magnets and simultaneously used for ensuring the uniformity of magnet stacking;

the rotating mechanism is rotatably connected to the first fixing frame and used for conveying the magnets and the spacers;

the pushing mechanism is arranged on the first fixing frame and used for cutting off power.

In a preferred embodiment of the present invention, the metal frame is a rectangular frame, which can keep one side of the magnet flush when the magnet and the spacer are placed, so as to ensure the neatness of the stacked magnets, and prevent the magnets from falling down when stacked.

In a preferred embodiment of the present invention, the rotating mechanism includes a rotating wheel, a belt, a clamping block, a first clutch shaft, a second clutch shaft, a first wedge strip and a second wedge strip, the rotating wheel is rotatably connected to the first fixing frame, the belt is connected between the rotating wheel and the external conveying wheel, the clamping blocks are connected to the belt in an evenly distributed manner, the first clutch shaft is welded to one end of the rotating wheel, the second clutch shaft is welded to one end of the motor output shaft, the first clutch shaft and the second clutch shaft are engaged with each other, the first wedge strip is fixedly mounted on the first sliding frame, and the second wedge strip is fixedly connected to the belt.

In a preferred embodiment of the present invention, the pushing mechanism includes a first fixing strip, a sliding strip, a fourth fixing frame, a first rack, a first wedge frame and a first gear, the first fixing strip is fixedly mounted on the first fixing frame, the sliding strip is slidably connected to the first fixing strip, the fourth fixing frame is fixedly connected to the sliding strip, the first rack is welded to one end of the fourth fixing frame, the first wedge frame is welded to the top surface of the first rack, the first wedge frame and the first wedge strip are in contact with each other, and the first gear is welded to the second clutch shaft.

In a preferred embodiment of the present invention, the device further comprises a blanking auxiliary mechanism, the blanking auxiliary mechanism is disposed above the third fixing frame, the blanking auxiliary mechanism comprises a fifth fixing frame, a second sliding frame, and a second return spring, the third fixing frame is fixedly provided with a fifth fixing frame, the fifth fixing frame is symmetrically and slidably connected with a second sliding frame, the second sliding frame is in mutual contact with a guide plate, the second sliding frame is fixedly connected with a second reset spring, one end of the second reset spring is connected with the fifth fixing frame, the sixth fixing frame is fixedly connected above the third fixing frame, the sixth fixing frame is slidably connected with the second wedge-shaped frame, the second wedge-shaped frame is connected with a third reset spring in a linkage mode, one end of the third reset spring is connected with the sixth fixing frame, and the third wedge-shaped strip is welded on the second sliding frame.

In a preferred embodiment of the present invention, the guide plate further comprises an arranging mechanism, the arranging mechanism is disposed at one end of the fourth fixing frame, the arranging mechanism comprises a seventh fixing frame, a first slide bar, a wedge block, a fourth return spring, a fixed block and a fourth wedge bar, the seventh fixing frame is welded at one end of the fourth fixing frame, the seventh fixing frame is connected with the first slide bar in a sliding manner, the wedge block is welded at the bottom end of the first slide bar, the fourth return spring is fixedly connected to the top surface of the wedge block, one end of the fourth return spring is connected with the seventh fixing frame, the fixed block is welded at the top end of the first slide bar, and the fourth wedge bar is fixedly connected to the bottom surface of the guide plate.

In a preferred embodiment of the present invention, the magnetizing apparatus further comprises a lifting mechanism, one end of the fourth fixing frame is provided with the lifting mechanism, the lifting mechanism comprises a second fixing strip, a fifth wedge strip, a rotating strip, a torsion spring and a lifting plate, the second fixing strip is welded at one end of the fourth fixing frame, the fifth wedge strip is welded below the second fixing strip, the rotating strip is rotatably connected to the fifth wedge strip, a pair of torsion springs is connected between the rotating strip and the fifth wedge strip, and the lifting plate is slidably connected to the magnetizing apparatus.

In a preferred embodiment of the invention, the magnetic-field-type magnetic-field generator further comprises a push-out mechanism, the push-out mechanism is connected on a third fixing frame in a sliding mode, the push-out mechanism comprises a second rack, a sliding block, a second sliding rod, a sixth wedge bar, a fifth return spring, a third rack and a second gear, the second rack is fixedly connected below the second fixing frame, the sliding block is connected on the third fixing frame in a sliding mode, the sliding block is connected with the sliding block in a sliding mode, the sliding block, the sixth wedge bar is welded at one end of the sixth wedge bar, the sixth wedge bar is in the third wedge bar, the third rack, the sliding mode, the third rack is connected in the sliding mode, the sliding-type magnetic-field-type magnetic-field-type magnetic-field-type magnetic-field-type magnetic-field-type magnetic-field-type magnetic-.

Has the advantages that:

carry to the metal crate in proper order through carrying magnet and spacer in, the spacer interval is in the middle of two magnets for magnet and spacer pile up in the metal crate, realize carrying the purpose of piling up magnet.

Through the effect of slurcam, the slurcam can arrange the magnet that piles up in the metal frame in order, makes magnet one side flush, guarantees that all magnets pile up neatly, then the slurcam pushes down the metal frame to the magnetization built-in for the work of magnetizing is carried out to the magnet of metal frame to the magnetization machine, saves the trouble that needs the artifical manual metal frame of taking to magnetize magnet.

Through the effect of lifter plate for the metal frame that is equipped with the magnet of accomplishing the magnetization is released from the magnetization machine, and the metal frame that is equipped with the magnet of accomplishing the magnetization can be pushed to the second mount on, reaches the completion and piles up the purpose of the running water work of magnetizing magnet, and the staff of being convenient for collects magnet.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a partial perspective view of the rotating mechanism of the present invention.

Fig. 4 is a partial perspective view of the present invention.

Fig. 5 is a schematic perspective view of the rotating mechanism of the present invention.

Fig. 6 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 7 is a schematic separated perspective structure of the pushing mechanism of the present invention.

Fig. 8 is a schematic perspective view of a part of the blanking assisting mechanism of the present invention.

Fig. 9 is a schematic perspective view of the auxiliary blanking mechanism of the present invention.

FIG. 10 is a schematic view of a first partially assembled body configuration of the collating mechanism of the present invention.

FIG. 11 is a schematic view of a second partial body structure of the collating mechanism of the present invention.

Fig. 12 is a schematic view of a first partially assembled body structure of the lifting mechanism of the present invention.

Fig. 13 is a schematic view of a second partial structure of the lifting mechanism of the present invention.

Fig. 14 is a partially disassembled perspective view of the lifting mechanism of the present invention.

Fig. 15 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 16 is a partial perspective view of the pushing mechanism of the present invention.

Labeled as: 1-a bottom plate, 2-a first fixing frame, 3-a second fixing frame, 4-a magnetizer, 5-a first sliding frame, 6-a motor, 7-a third fixing frame, 8-a guide plate, 9-a pushing plate, 10-a first return spring, 11-a metal frame, 12-a rotating mechanism, 121-a rotating wheel, 122-a belt, 123-a clamping block, 124-a first clutch shaft, 125-a second clutch shaft, 126-a first wedge bar, 127-a second wedge bar, 13-a pushing mechanism, 131-a first fixing bar, 132-a sliding bar, 133-a fourth fixing frame, 134-a first rack, 135-a first wedge frame, 136-a first gear, 14-a blanking auxiliary mechanism, 141-a fifth fixing frame and 142-a second sliding frame, 143-second restoring spring, 144-sixth fixing frame, 145-second wedge frame, 146-third restoring spring, 147-third wedge strip, 15-collating mechanism, 151-seventh fixing frame, 152-first slide bar, 153-wedge block, 154-fourth restoring spring, 155-fixing block, 156-fourth wedge strip, 16-lifting mechanism, 161-second fixing strip, 162-fifth wedge strip, 163-rotating strip, 164-torsion spring, 165-lifting plate, 17-pushing mechanism, 171-second rack, 172-sliding block, 173-second slide bar, 174-sixth wedge strip, 175-fifth restoring spring, 176-third rack, 177-second gear.

Detailed Description

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

A magnet stacking device convenient for magnetization is disclosed, as shown in figures 1-8, and comprises a bottom plate 1, a first fixing frame 2, a second fixing frame 3, a magnetizing apparatus 4, a first sliding frame 5, a motor 6, a third fixing frame 7, a guide plate 8, a pushing plate 9, a first return spring 10, a metal frame 11, a rotating mechanism 12 and a pushing mechanism 13, wherein the top surface of the bottom plate 1 is fixedly provided with the first fixing frame 2, the second fixing frame 3 is fixedly arranged on the top surface of the bottom plate 1, the magnetizing apparatus 4 is also fixedly arranged on the top surface of the bottom plate 1, the magnetizing apparatus 4 is fixedly connected with the second fixing frame 3, the first fixing frame 2 is slidably connected with the first sliding frame 5, the first sliding frame 5 is fixedly provided with the motor 6 for driving, the third fixing frame 7 is fixedly arranged on the top surface of the bottom plate 1, the third fixing frame 7 is fixedly connected with the first fixing frame 2, the third fixing frame 7 is fixedly connected with the magnetizing apparatus 4, the top of the third fixing frame 7 is provided with the guide plate 8, the third fixing frame 7 is connected with a pushing plate 9 in a sliding mode, a first reset spring 10 is connected between the pushing plate 9 and the third fixing frame 7, a metal frame 11 is placed on the third fixing frame 7, the metal frame 11 is used for placing magnets, the pushing plate 9 is in contact with the metal frame 11, the pushing plate 9 is used for pushing the magnets in the metal frame 11, the first fixing frame 2 is connected with a rotating mechanism 12 in a rotating mode, and the first fixing frame 2 is provided with a pushing mechanism 13.

The rotating mechanism 12 comprises a rotating wheel 121, a belt 122, a clamping block 123, a first clutch shaft 124, a second clutch shaft 125, a first wedge-shaped strip 126 and a second wedge-shaped strip 127, the rotating wheel 121 is rotatably connected to the first fixing frame 2, the belt 122 is connected between the rotating wheel 121 and an external conveying wheel, the clamping blocks 123 are uniformly distributed on the belt 122 and are used for spacing the magnet from the spacer, the first clutch shaft 124 is welded to one end of the rotating wheel 121, the second clutch shaft 125 is welded to one end of an output shaft of the motor 6, the first clutch shaft 124 and the second clutch shaft 125 are mutually engaged, the first wedge-shaped strip 126 is fixedly mounted on the first sliding frame 5, and the second wedge-shaped strip 127 is fixedly connected to the belt 122.

The pushing mechanism 13 includes a first fixing bar 131, a sliding bar 132, a fourth fixing frame 133, a first rack 134, a first wedge-shaped frame 135 and a first gear 136, the first fixing frame 2 is fixedly provided with the first fixing bar 131, the sliding bar 132 is connected to the first fixing bar 131 in a sliding manner, the fourth fixing frame 133 is fixedly connected to the sliding bar 132, one end of the fourth fixing frame 133 is welded with the first rack 134, the top surface of the first rack 134 close to the fourth fixing frame 133 is welded with the first wedge-shaped frame 135, the first wedge-shaped frame 135 is in contact with the first wedge-shaped bar 126, the first wedge-shaped frame 135 is used for pushing the first wedge-shaped bar 126 and the upper device thereof to move towards the direction close to the belt 122, and the second clutch shaft 125 is welded with the first gear 136.

This equipment sets up in magnet production water line, when needs pile up and magnetize magnet, the staff places magnet and spacer interval on belt 122, fixture block 123 is with magnet and spacer interval, staff's manual starter motor 6, motor 6 output shaft clockwise rotation drives second separation and reunion axle 125 and first gear 136 and rotates, second separation and reunion axle 125 promotes first separation and reunion axle 124 and rotates wheel 121 and rotate, it drives belt 122 and last device clockwise rotation to rotate wheel 121, belt 122 drives magnet and spacer and moves towards being close to metal frame 11 direction, make magnet and spacer carried to deflector 8 on, magnet drops to in metal frame 11 along with it, make magnet and spacer pile up in metal frame 11.

When the second wedge strip 127 and the first wedge strip 126 contact with each other, the second wedge strip 127 pushes the first wedge strip 126 and the device thereon to move away from the belt 122, so that the second clutch shaft 125 is separated from the first clutch shaft 124, the first clutch shaft 124 and the rotating wheel 121 do not rotate any more, the belt 122 stops conveying the magnets and spacers, and the magnets in the metal frame 11 are ensured to be stacked to the same height. At this time, the first gear 136 is engaged with the first rack 134, and the first gear 136 drives the first rack 134 and the upper device to move toward the direction close to the second fixing frame 3. The staff takes out the metal frame 11 with the stacked magnets and places the metal frame in the magnetizer 4 for magnetization.

The worker manually controls the output shaft of the motor 6 to rotate anticlockwise, the output shaft of the motor 6 drives the second clutch shaft 125 and the first gear 136 to rotate, the first gear 136 drives the first rack 134 and the upper device to move towards the direction far away from the second fixed frame 3, the first wedge-shaped frame 135 can push the first wedge-shaped bar 126 and the upper device to move towards the direction close to the belt 122, so that the second clutch shaft 125 is meshed with the first clutch shaft 124, the worker manually controls the output shaft of the motor 6 to rotate clockwise, the operation is repeated, the magnet and the spacer are stacked, after the work is finished, the worker manually closes the motor 6, and the equipment stops operating.

Example 2

On the basis of embodiment 1, as shown in fig. 8 to 9, the blanking assisting mechanism 14 is further included, the blanking assisting mechanism 14 is disposed above the third fixing frame 7, the blanking assisting mechanism 14 is used for assisting blanking, the blanking assisting mechanism 14 includes a fifth fixing frame 141, a second sliding frame 142, a second return spring 143, a sixth fixing frame 144, a second wedge frame 145, a third return spring 146 and a third wedge strip 147, the fifth fixing frame 141 is fixedly mounted above the third fixing frame 7, the fifth fixing frame 141 is symmetrically and slidably connected with the second sliding frame 142, the second sliding frame 142 is in contact with the guide plate 8, the second return spring 143 is fixedly connected to the second sliding frame 142, one end of the second return spring 143 far away from the second sliding frame 142 is connected to the fifth fixing frame 141, the sixth fixing frame 144 is fixedly connected above the third fixing frame 7, the sixth fixing frame 144 is slidably connected with the second wedge frame 145, a third return spring 146 is connected to the second wedge frame 145, one end of the third return spring 146, which is far away from the second wedge frame 145, is connected to a sixth fixed frame 144, and a third wedge bar 147 is welded to the second sliding frame 142.

The magnet is conveyed to the second sliding frame 142, when the clamping block 123 and the second wedge-shaped frame 145 contact each other, the clamping block 123 can push the second wedge-shaped frame 145 to move in a direction away from the first fixed frame 2, the second wedge-shaped frame 145 can push the third wedge-shaped strip 147 and the second sliding frame 142 to move relatively, the second sliding frame 142 no longer supports the magnet, the magnet falls into the metal frame 11, when the clamping block 123 and the second wedge-shaped frame 145 are separated, the compressed third reset spring 146 resets to drive the second wedge-shaped frame 145 to move in a direction close to the first fixed frame 2, the second wedge-shaped frame 145 and the third wedge-shaped strip 147 are separated, the compressed second reset spring 143 resets to drive the second sliding frame 142 and the third wedge-shaped strip 147 to move in a direction to reset, and the above operations are repeated, so that the magnet and the spacers sequentially and orderly fall into the metal frame 11, and the stacking work of the magnet is completed.

Example 3

On the basis of embodiment 2, as shown in fig. 10 to 11, the magnet stacking device further includes an arranging mechanism 15, the arranging mechanism 15 is disposed at one end of the fourth fixing frame 133, the arranging mechanism 15 is used for stacking the magnets in order, the arranging mechanism 15 includes a seventh fixing frame 151, a first sliding rod 152, and a wedge block 153, fourth reset spring 154, fixed block 155 and fourth wedge strip 156, seventh mount 151 welds in fourth mount 133 one end, seventh mount 151 is slided type and is connected with first slide bar 152, first slide bar 152 bottom welding has wedge 153, wedge 153 top surface fixedly connected with fourth reset spring 154, the fourth reset spring 154 one end of keeping away from wedge 153 couples with seventh mount 151, the first slide bar 152 top welding of keeping away from wedge 153 has fixed block 155, deflector 8 bottom surface fixedly connected with fourth wedge strip 156, fourth wedge strip 156 is used for promoting fixed block 155 and the upward movement of last device.

When the first rack 134 and the upper device thereof move toward the direction close to the second fixing frame 3, the wedge-shaped block 153 pushes the pushing plate 9 to move toward the direction close to the second fixing frame 3, and the pushing plate 9 pushes the magnet in the metal frame 11 to flush one side of the magnet, so that the magnet is stacked neatly. The pushing plate 9 continues to move towards the direction close to the second fixing frame 3, the pushing plate 9 can push the metal frame 11 to move towards the direction close to the second fixing frame 3 through the magnet, the metal frame 11 drops into the magnetizing machine 4, the magnetizing machine 4 magnetizes the magnet in the metal frame 11, and the trouble that the magnet needs to be magnetized by manually holding the metal frame 11 is omitted. When the fixing block 155 and the fourth wedge-shaped bar 156 contact with each other, the fourth wedge-shaped bar 156 pushes the fixing block 155 and the device thereon to move upward, the wedge 153 is separated from the push plate 9, the wedge 153 no longer pushes the push plate 9, and the stretched first return spring 10 is reset to drive the push plate 9 to move and reset in a direction away from the second fixing frame 3. When the fourth wedge bar 156 is separated from the fixing block 155, the compressed fourth return spring 154 is reset to drive the wedge block 153 and the device thereon to move downwards and reset. When the first rack 134 and the upper device thereof move away from the second fixing frame 3, the pushing plate 9 pushes the wedge block 153 and the upper device thereof to move upward, and the compressed fourth return spring 154 returns to drive the wedge block 153 and the upper device thereof to move downward to return, so that the wedge block 153 blocks the pushing plate 9.

Example 4

On the basis of embodiment 3, as shown in fig. 12 to 15, the magnetic magnetizer further includes an elevating mechanism 16, one end of the fourth fixing frame 133 is provided with the elevating mechanism 16, the elevating mechanism 16 includes a second fixing strip 161, a fifth wedge-shaped strip 162, a rotating strip 163, a torsion spring 164 and an elevating plate 165, one end of the fourth fixing frame 133 is welded with the second fixing strip 161, a fifth wedge-shaped strip 162 is welded below the second fixing strip 161, the fifth wedge-shaped strip 162 far away from the second fixing strip 161 is rotatably connected with the rotating strip 163, the fifth wedge-shaped strip 162 is used for blocking the rotating strip 163, a pair of torsion springs 164 is connected between the rotating strip 163 and the fifth wedge-shaped strip 162, the elevating plate 165 is slidably connected to the magnetizer 4, and the rotating strip 163 is used for pushing the elevating plate 165 to move upward.

When the first rack 134 and the upper device thereof move toward the direction close to the second fixing frame 3, the fourth fixing frame 133 drives the second fixing strip 161 and the upper device thereof to move toward the direction close to the second fixing frame 3, and when the lifting plate 165 contacts the rotating strip 163, the lifting plate 165 pushes the rotating strip 163 to swing, and then the lifting plate 165 is separated from the rotating strip 163, and the compressed torsion spring 164 resets to drive the rotating strip 163 to swing and reset.

Example 5

On the basis of embodiment 4, as shown in fig. 15 to 16, the magnetic pole type metal frame magnetic pole, the second sliding rod 173 penetrates through the fifth return spring 175, one end of the sixth wedge-shaped bar 174 is welded with a third rack 176, the second gear 177 is rotatably connected to the lifting plate 165, and the second gear 177 and the third rack 176 are engaged with each other.

When the first rack 134 and the upper device thereof move in a direction away from the second fixing frame 3, the fourth fixing frame 133 will drive the second fixing bar 161 and the upper device thereof to move in a direction away from the second fixing frame 3, because the fifth wedge bar 162 blocks the rotating bar 163, the rotating bar 163 will push the lifting plate 165 to move upwards, the lifting plate 165 will drive the metal frame 11 to move upwards, the lifting plate 165 will push the sixth wedge bar 174 and the upper device thereof to move upwards, so that the second gear 177 is engaged with the second gear 171, the second fixing bar 161 and the upper device thereof continue to move in a direction away from the second fixing frame 3, the second gear 171 drives the third rack 176 and the sixth wedge bar 174 to move in a direction close to the second fixing frame 3 through the second gear 177, and the sixth wedge bar 174 will push the metal frame 11 on the lifting plate 165 and push it to the second fixing frame 3. The second fixing bar 161 and the device thereon continue to move away from the second fixing frame 3, and when the lifting plate 165 is separated from the fifth wedge-shaped bar 162, the lifting plate 165, the sixth wedge-shaped bar 174 and the device thereon move downward under the influence of gravity, and the stretched fifth return spring 175 returns to drive the sixth wedge-shaped bar 174 to move and return away from the second fixing frame 3.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (8)

1. The utility model provides a magnet piles up device convenient to magnetize, characterized by, including bottom plate, first mount, second mount, magnetization machine, first carriage, motor, third mount, deflector, slurcam, first reset spring, metal frame, slewing mechanism and pushing mechanism:

the top surface of the bottom plate is fixedly provided with a first fixing frame;

the second fixing frame is fixedly arranged on the top surface of the bottom plate;

the magnetizing machine is fixedly arranged on the top surface of the bottom plate and is fixedly connected with the second fixing frame and used for magnetizing the magnet;

the first sliding frame is connected with the first fixing frame in a sliding manner;

the first sliding frame is fixedly provided with a motor, and the motor is used for providing driving power for equipment;

the third fixing frame is fixedly arranged on the top surface of the bottom plate, fixedly connected with the first fixing frame and fixedly connected with the magnetizing machine;

the top of the third fixing frame is provided with a guide plate, and the guide plate is used for guiding the magnet and the spacer;

the third fixing frame is connected with a second fixing frame in a sliding mode, and the second fixing frame is used for fixing the second fixing frame;

the first return spring is connected between the pushing plate and the third fixing frame;

the metal frame is placed on the third fixing frame, the pushing plate is in contact with the metal frame, and the metal frame is used for placing the magnets and simultaneously used for ensuring the uniformity of magnet stacking;

the rotating mechanism is rotatably connected to the first fixing frame and used for conveying the magnets and the spacers;

the pushing mechanism is arranged on the first fixing frame and used for cutting off power.

2. A magnet stacking apparatus for facilitating magnetization as claimed in claim 1, wherein the metal frame is formed in a rectangular frame shape and serves to keep one side of the magnet flush when the magnet and the spacer are placed, thereby ensuring the regularity of the magnet stack so that the magnet does not fall down when stacked.

3. The magnet stacking device convenient for magnetization according to claim 1, wherein the rotating mechanism comprises a rotating wheel, a belt, a clamping block, a first clutch shaft, a second clutch shaft, a first wedge-shaped bar and a second wedge-shaped bar, the rotating wheel is rotatably connected to the first fixing frame, the belt is connected between the rotating wheel and an external conveying wheel, the clamping blocks are connected to the belt in an evenly distributed mode, the first clutch shaft is welded to one end of the rotating wheel, the second clutch shaft is welded to one end of the motor output shaft, the first clutch shaft and the second clutch shaft are mutually engaged, the first wedge-shaped bar is fixedly mounted on the first sliding frame, and the second wedge-shaped bar is fixedly connected to the belt.

4. The magnet stacking device convenient for magnetization according to claim 3, wherein the pushing mechanism comprises a first fixing strip, a sliding strip, a fourth fixing frame, a first rack, a first wedge-shaped frame and a first gear, the first fixing strip is fixedly installed on the first fixing frame, the sliding strip is slidably connected onto the first fixing strip, the fourth fixing frame is fixedly connected onto the sliding strip, the first rack is welded at one end of the fourth fixing frame, the first wedge-shaped frame is welded on the top surface of the first rack, the first wedge-shaped frame is in contact with the first wedge-shaped strip, and the first gear is welded on the second clutch shaft.

5. The magnet stacking device convenient for magnetization according to claim 4, further comprising a blanking assisting mechanism, wherein the blanking assisting mechanism is disposed above the third fixing frame, the blanking assisting mechanism comprises a fifth fixing frame, a second sliding frame, a second return spring, a sixth fixing frame, a second wedge frame, a third return spring and a third wedge bar, the fifth fixing frame is fixedly disposed above the third fixing frame, the second sliding frame is symmetrically and slidably connected to the fifth fixing frame, the second sliding frame is in contact with the guide plate, the second return spring is fixedly connected to the second sliding frame, one end of the second return spring is connected to the fifth fixing frame, the sixth fixing frame is fixedly connected above the third fixing frame, the second wedge frame is slidably connected to the sixth fixing frame, the third return spring is connected to the second wedge frame, and one end of the third return spring is connected to the sixth fixing frame, and a third wedge-shaped strip is welded on the second sliding frame.

6. The magnet stacking device convenient for magnetization according to claim 5, further comprising an arranging mechanism, wherein the arranging mechanism is disposed at one end of a fourth fixing frame, the arranging mechanism comprises a seventh fixing frame, a first slide bar, a wedge, a fourth return spring, a fixing block and a fourth wedge bar, the seventh fixing frame is welded at one end of the fourth fixing frame, the seventh fixing frame is connected with the first slide bar in a sliding manner, the wedge is welded at the bottom end of the first slide bar, the top surface of the wedge is fixedly connected with the fourth return spring, one end of the fourth return spring is connected with the seventh fixing frame, the fixing block is welded at the top end of the first slide bar, and the fourth wedge bar is fixedly connected to the bottom surface of the guide plate.

7. The magnet stacking device convenient for magnetization according to claim 6, further comprising a lifting mechanism, wherein the lifting mechanism is arranged at one end of a fourth fixing frame, the lifting mechanism comprises a second fixing strip, a fifth wedge-shaped strip, a rotating strip, a torsion spring and a lifting plate, the second fixing strip is welded at one end of the fourth fixing frame, the fifth wedge-shaped strip is welded below the second fixing strip, the rotating strip is rotatably connected to the fifth wedge-shaped strip, a pair of torsion springs is connected between the rotating strip and the fifth wedge-shaped strip, and the lifting plate is slidably connected to the magnetization machine.

8. The magnet stacking apparatus convenient for magnetizing as claimed in claim 7, further comprising a push-out mechanism, the third fixing frame being slidably connected with the push-out mechanism, the push-out mechanism comprising a second rack, a slider, a second slide bar, the sixth wedge strip, the fifth reset spring, third rack and second gear, fixedly connected with second rack below the second fixed strip, the slidingtype is connected with the slider on the third mount, the slidingtype is connected with the second slide bar on the slider, second slide bar one end welding has the sixth wedge strip, sixth wedge strip and lifter plate contact each other, sixth wedge strip and magnetizer contact each other, be connected with the fifth reset spring between sixth wedge strip and the slider, the second slide bar runs through the fifth reset spring, sixth wedge strip one end welding has the third rack, the second gear is connected on the lifter plate with the movable connection of second gear, second gear and third rack intermeshing.

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