CN217405210U

CN217405210U - Magnetizing device

Info

Publication number: CN217405210U
Application number: CN202123139697.5U
Authority: CN
Inventors: 陈圣平; 李曾荣; 黄子龙; 钟世强; 王水根
Original assignee: Dongguan Nasheng Electronic Equipment Co ltd
Current assignee: Dongguan Nasheng Electronic Equipment Co ltd
Priority date: 2021-12-14
Filing date: 2021-12-14
Publication date: 2022-09-09
Anticipated expiration: 2031-12-14

Abstract

The utility model provides a magnetization device, include: a frame; the feeding mechanism is used for feeding the workpiece; the conveying belt is arranged on the rack and used for receiving the workpieces loaded by the loading mechanism and conveying the workpieces along the conveying direction; the magnetism charging and weakening mechanism is arranged on the rack, is positioned on the conveying path of the conveying belt and is used for charging and weakening magnetism to the workpiece on the conveying belt; the strong magnet charging mechanism is arranged on the rack, is positioned at the tail end of the conveying belt and is used for charging strong magnets to the workpieces subjected to weak magnet charging; and the blanking mechanism is arranged on the rack and used for blanking the workpiece which is subjected to the magnetic charging. The magnetizing device can realize continuous magnetizing of small workpieces.

Description

Magnetizing device

Technical Field

The utility model relates to a field of magnetizing especially relates to a magnetizing device.

Background

Magnetizing is the magnetization of magnetic materials. At present, the magnetization can be automated, and the participation of manpower is reduced.

The invention patent application with publication number CN106743392 discloses an earphone magnetizing device, which comprises the following working processes: the conveying mechanism conveys workpieces towards the tail end of the conveying mechanism, the first material pushing device pushes the workpieces into the storage bin one by one, the storage bin is driven by the rotating module to move to the magnetizing station, after the magnetizing is completed, the first material pushing device is driven by the rotating module to move to the discharging station, and the second material pushing device pushes the workpieces in the storage bin out of the loading mechanism one by one. However, when the rotating module drives the storage bin to rotate, the transportation mechanism, the first material pushing device, the magnetizing device and the second material pushing device all need to wait for the storage bin to be in place and cannot work until the storage bin is in place and then can not work continuously. This affects the efficiency of the magnetization to a greater or lesser extent, and for this reason, how to achieve a more rapid magnetization constitutes a major technical problem to be solved at present.

SUMMERY OF THE UTILITY MODEL

A primary object of the present invention is to provide a magnetizing apparatus, which can realize faster magnetizing.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a magnetizing apparatus comprising:

a frame;

the feeding mechanism is used for feeding the workpiece;

the conveying belt is arranged on the rack and used for receiving the workpieces loaded by the loading mechanism and conveying the workpieces along the conveying direction;

the magnetism charging and weakening mechanism is arranged on the rack, is positioned on the conveying path of the conveying belt and is used for charging magnetism to the workpiece on the conveying belt;

the strong magnet charging mechanism is arranged on the rack, is positioned at the tail end of the conveying belt and is used for charging strong magnets to the workpieces subjected to weak magnet charging;

and the blanking mechanism is arranged on the rack and used for blanking the workpiece which is subjected to the magnetic charging.

Preferably, a code spraying device is arranged at the position, close to one end of the feeding mechanism, of the conveyor belt of the rack, and the code spraying device is used for spraying a mark of a magnetic pole on the upper surface of a workpiece on the conveyor belt.

Preferably, the magnetic charging and weakening mechanism comprises:

the first support frame is arranged on the rack;

and the permanent magnet is supported on the first support frame in a vertically movable mode and is positioned right above the conveying belt.

Preferably, the magnetism charging and weakening mechanism further comprises an anti-attraction structure, and the anti-attraction structure comprises:

the two first belt pulleys are rotatably arranged on the rack and are respectively positioned on the front side and the rear side of the permanent magnet along the conveying direction, and the rotating axes of the two first belt pulleys are perpendicular to the conveying direction of the conveying belt and are positioned right above the conveying belt;

and the belt is used for driving and connecting the two first belt pulleys, and the lower part of the belt is at least partially positioned below the permanent magnet.

Preferably, a pressing plate is arranged on the upper surface of the lower part of the belt, the pressing plate is horizontally arranged and is lower than the lowest position of the first belt pulley, and the size of the pressing plate in the conveying direction of the conveying belt is configured to enable the suction force of the permanent magnet to the workpiece to be insufficient to enable the workpiece to move relatively on the conveying belt when the workpiece is located at the two ends of the pressing plate.

Preferably, the upper surface of clamp plate just is located the both ends of clamp plate are provided with a briquetting respectively, every the briquetting along the width direction of conveyer belt extends, every the both ends of briquetting are provided with the depression bar of vertical extension respectively, the briquetting is relative the depression bar can relative movement from top to bottom, the lower extreme of depression bar passes through the connecting block setting in the frame the cover is equipped with the pressure spring on the depression bar, the lower extreme of pressure spring supports and leans on the upper surface of briquetting, and the upper end supports and leans on the upper end of depression bar, the pressure spring is in the state of compressed all the time.

Preferably, still be provided with second belt pulley and third belt pulley in the frame, second belt pulley and third belt pulley are relative the frame is rotatable and the axis of rotation is on a parallel with the axis of rotation of first belt pulley, second belt pulley, third belt pulley are walked around to the top part of belt, the third belt pulley passes through the support frame and sets up in the frame, the one end of third belt pulley rotatably sets up on the installation piece be provided with the slider on the installation piece be provided with the slide rail that extends from top to bottom on the support frame, the slider with slide rail sliding fit. The spring fixing device is characterized in that a supporting plate is arranged on the supporting frame and located under the mounting block, a guide rod is vertically arranged on the mounting block, a spring is arranged on the guide rod, the lower end of the spring is abutted against the upper surface of the supporting plate, the upper end of the spring is fixed on the guide rod, and the spring is always in a compressed state.

Preferably, an auxiliary feeding frame is arranged on the rack and on one side of an outlet of the strong magnet charging mechanism, a bottom plate is arranged at the top end of the auxiliary feeding frame, two first limiting plates are arranged on the upper surface of the bottom plate and are arranged in the direction perpendicular to the conveying direction, a certain gap is reserved between the two first limiting plates, and a material moving groove for allowing the workpiece charged with the strong magnet to pass through is formed.

Preferably, a driving wheel is rotatably provided on the auxiliary feeding frame, a nip wheel is rotatably provided directly above the driving wheel, the rotational axes of the driving wheel and the nip wheel are parallel to each other and the rotational axis of the nip wheel is positioned directly above the rotational axis of the driving wheel, and the rotational axis of the driving wheel is perpendicular to the conveying direction, the driving wheel partially protrudes into the transfer chute from below the transfer chute, the nip wheel partially protrudes into the transfer chute from above the transfer chute, and the rotational direction of the driving wheel is configured to be able to move the workpiece in the conveying direction.

Preferably, unloading mechanism including set up in the frame and for move the silo with fill the rotatory unloading mechanism, the material thimble that pushes away and the unloading conveying mechanism of the opposite one side of magnetic mechanism, rotatory unloading mechanism includes:

the rotating bracket is arranged on the rack;

a rotating disk rotatably disposed on the rotating bracket,

the two second limiting plates are arranged on the selection turntable, a material pushing channel is formed between the two second limiting plates and located on one diameter of the selection turntable, the material pushing channel can be aligned with the tail end of the material moving groove, and a workpiece sent out from the tail end of the material moving groove enters the material pushing channel.

Compared with the prior art, the utility model discloses a following beneficial effect has:

the device at first magnetizes weak magnetism, recharges strong magnetism, is applicable to the occasion that needs magnetize in succession many work pieces, magnetizes weak magnetism earlier, makes can inter attraction between the work piece, can arrange into continuous one row, can avoid like this entering into to charge strong magnetism mechanism when bumping and cause the damage of work piece or other structures.

Drawings

Fig. 1 is a perspective view of a preferred embodiment according to the present invention;

FIG. 2 is an enlarged view at A;

FIG. 3 is an enlarged view at B;

FIGS. 4 and 5 are views showing a permanent magnet and its installation structure;

FIG. 6 is a view of the belt and its installation structure;

FIGS. 7 and 8 are structural views of the auxiliary feeding mechanism;

FIG. 9 is a structural view of a blanking mechanism;

fig. 10 is a structural view of the rotary blanking mechanism.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

As shown in fig. 1-10, a magnetizing device comprises a frame 1, a vibrating disk 2 arranged on the frame 1, a vibrating guide rail 3, a conveying belt 6, a magnetizing and weakening magnetic mechanism 5, a magnetizing and strengthening magnetic mechanism 8 and a blanking mechanism 9. The vibration disc 2 and the vibration guide rail 3 convey workpieces to be magnetized to the conveying belt 6, the conveying belt 6 sequentially conveys the workpieces into the magnetism magnetizing and weakening mechanism 5 and the magnetism magnetizing mechanism 8 to be magnetized and magnetized in a strong magnetism charging mode respectively, and after the strong magnetism is charged, the discharging mechanism 9 discharges the magnetized workpieces. The vibration disk 2 and the vibration guide rail 3 both adopt the prior art, and the output end of the vibration guide rail 3 corresponds to the middle position of the width direction of the conveying belt 6, namely, the workpiece is positioned in the middle of the width direction of the conveying belt 6.

Further, frame 1 just is located the position department that is close to the one end of vibration guide rail 3 of conveyer belt 6 and is provided with code spraying device 4, code spraying device 4 is used for the sign of the upper surface spraying magnetic pole of work piece, is convenient for distinguish the polarity of magnet after the completion of magnetizing. A cooling mechanism 41 is arranged right above the conveying belt 6 and on the side of the code spraying device 4 opposite to the vibration guide rail 3, and is used for cooling the paint sprayed by the code spraying device 4.

And the frame 1 is also provided with a magnetic charging and weakening mechanism 5 for charging and weakening magnetism to the workpiece. The magnetism charging and weakening mechanism 5 comprises a first support frame 51 arranged on the machine frame 1 and a permanent magnet 52 which is supported on the first support frame 51 in a vertically movable mode and is positioned right above the conveying belt 6, and when the workpiece passes through the magnetic field of the permanent magnet 52 on the conveying belt 6, the workpiece can be charged with certain magnetism. A manual adjustment lever 54 is provided at the tip of the first support frame 51, and the height of the permanent magnet 52 can be adjusted by the manual adjustment lever 54.

In order to prevent the workpiece from being sucked away by the permanent magnet 52 during the process of magnetizing, the magnetizing and weakening mechanism 5 further comprises an anti-suction structure. The anti-attraction structure comprises two first belt pulleys 55 and a belt 56, wherein the two first belt pulleys 55 are rotatably arranged on the rack 1 and are respectively positioned on the front side and the rear side of the permanent magnet 52 in the conveying direction of the conveying belt 6, the belt 56 is in transmission connection with the two first belt pulleys 55, the rotating axis of the two first belt pulleys 55 is perpendicular to the conveying direction of the conveying belt 6 and is positioned right above the conveying belt 6, the lower part of the belt 56 is positioned below the permanent magnet 52, the upper part of the belt is positioned above the permanent magnet 62, when the workpiece is close to the permanent magnet 52, the lower part of the belt 56 can block the workpiece to be attracted by the permanent magnet 52, and the belt 56 is rotary and can reduce friction.

Further, a pressing plate 511 is arranged on the upper surface of the lower portion of the belt 56, the pressing plate 511 is horizontally placed and is lower than the lowest position of the first belt pulley 55, so that the lower portion of the belt 56 can always abut against the lower surface of the pressing plate 511, and the lower portion of the belt 56 can be ensured not to shake as much as possible to influence the arrangement of the workpieces. The size of the pressing plate 511 in the conveying direction of the conveying belt 6 is configured such that the attraction force of the permanent magnets 52 to the workpiece is insufficient to move the workpiece relatively on the conveying belt 6 when the workpiece is located at both ends of the pressing plate 511.

Further, the upper surface of clamp plate 511 just is located the both ends of clamp plate 511 are provided with a briquetting 512 respectively, every briquetting 512 along the width direction of conveyer belt 6 extends, every the both ends of briquetting 512 are provided with vertical extension's depression bar 513 respectively, briquetting 512 is relative depression bar 513 can relative movement from top to bottom, the lower extreme of depression bar 513 passes through connecting block 515 to be set up in frame 1 the cover is equipped with pressure spring 514 on depression bar 513, the lower extreme of pressure spring 514 supports and leans on the upper surface of briquetting 512, and the upper end supports and leans on the upper end of depression bar 513, pressure spring 514 is in the state of compressed all the time to guarantee that clamp plate 511 can support and lean on all the time on belt 56. Preferably, both ends of the pressing plate 511 along the conveying direction of the conveying belt 6 are tilted upward to avoid friction between end corners of both ends and the belt 56.

Preferably, the pressing rod 513 is in threaded connection with the corresponding connecting block 515, the effective length of the pressing rod 513 can be adjusted by screwing, the pressure of the compression spring 514 can be adjusted, and the pressure of the pressing plate 511 on the belt 56 can be adjusted.

Preferably, a second belt pulley 57 and a third belt pulley 58 are further provided on the frame 1, the second belt pulley 57 and the third belt pulley 58 are rotatable relative to the frame 1 and have rotation axes parallel to the rotation axis of the first belt pulley 55, and an upper portion of the belt 56 passes around the second belt pulley 57 and the third belt pulley 58.

Preferably, the third pulley 58 is arranged on the frame 1 by means of a support bracket 51. One end of the third belt pulley 58 is rotatably disposed on the mounting block 59, a sliding block 511 is disposed on the mounting block 59, a sliding rail 510 extending up and down is disposed on the supporting frame 51, and the sliding block 511 is in sliding fit with the sliding rail 510. A support plate 511 is arranged on the support frame 51 and under the mounting block 59, a guide rod 512 is vertically arranged on the mounting block 59, a spring 513 is arranged on the guide rod 512, the lower end of the spring 513 abuts against the upper surface of the support plate 511, the upper end of the spring 513 is fixed on the guide rod 512, and the spring 513 is always in a compressed state, so that the third belt pulley 58 always abuts against the upper part of the belt 56. A nut 514 is arranged on the guide rod 512 and above the support plate 511 through threads, the upper end of the spring 513 abuts against the nut 514, the height of the third belt pulley 58 can be adjusted by adjusting the distance of the nut 514 on the guide rod 514, the acting force of the third belt pulley 58 on the belt 56 is further adjusted, and the tension of the belt 56 is finally adjusted.

A conveying guide rail 7 is provided at the end of the conveyor belt 6 on the frame 1, a rail groove 71 is provided on the conveying guide rail 7, the rail groove 71 extends along the conveying direction of the conveyor belt 6, and in a plan view, the rail groove 71 is in a V shape at an end close to the conveyor belt 6, the V shape gradually decreases in size along a direction of the rail groove 71 away from the conveyor belt 6, and the V shape helps a workpiece on the conveyor belt 6 to enter the rail groove 71.

The conveying guide rail 7 extends to the inside of the magnetism charging mechanism 8, the magnetism charging mechanism 8 can drive a workpiece to enter the inside under the action of magnetic force, and the workpiece in the rail groove 71 has weak magnetism, so that the workpieces can be attracted mutually, and the workpieces far away from the magnetism charging mechanism 8 can move forwards through the mutual attraction between the workpieces. The magnetic charging mechanism 8 adopts the prior art.

An auxiliary feeding frame 81, a bottom plate 82 arranged on the auxiliary feeding frame 81 and two first limiting plates 87 arranged on the bottom plate 82 are arranged on the rack 1 and at one side of an outlet of the strong magnetic charging mechanism 8, the two first limiting plates 87 are arranged along a direction perpendicular to the conveying direction of the conveying belt 6, a certain gap is formed between the two first limiting plates 87, and a material moving groove 84 for allowing the workpiece charged with strong magnetic to pass is formed.

A driving wheel 810 is rotatably provided on the auxiliary feeding stand 81, a pinch roller 89 is rotatably provided directly above the driving wheel 810, the rotational axes of the driving wheel 810 and the pinch roller 89 are parallel to each other, the rotational axis of the pinch roller 89 is positioned directly above the rotational axis of the driving wheel 810, the rotational axis of the driving wheel 810 is perpendicular to the conveying direction, the driving wheel 810 partially protrudes into the material transfer groove 84 from below the material transfer groove 84, the pinch roller 89 partially protrudes into the material transfer groove 84 from above the material transfer groove 84, and the rotational direction of the driving wheel 810 is configured to be capable of moving the workpiece in the conveying direction for driving the workpiece moving from the intensity magnetic mechanism 8 toward the blanking mechanism 9. Preferably, the driving wheel 810 is driven by a driving motor 811.

Specifically, a first notch 85 is provided on the bottom plate 82 at a position corresponding to the driving wheel 810, and a portion of the driving wheel 810 can protrude into the material moving groove 84 through the first notch 85. A second notch 86 is formed in the position of each of the two first limiting plates 87, which corresponds to the nip wheel 89, the width of the nip wheel 89 is larger than that of the material-moving groove 84, and a part of the nip wheel 89 can extend into the material-moving groove 84 through the second notch 86.

Further, the pinch roller 89 is rotatably arranged on the swing arm 811, one end of the swing arm 811 is rotatably arranged on the auxiliary feeding frame 81, the rotation axis of the swing arm 811 is parallel to the rotation axis of the pinch roller 89, a tension spring 812 is arranged on the swing arm 811, the upper end of the tension spring 812 is connected to the portion between the two ends of the swing arm 811, the lower end of the tension spring 812 is connected to the auxiliary feeding frame 81, and the tension spring 812 is always in a stretched state, so that the pinch roller 89 can always abut against the workpiece.

A baffle 87 is arranged at the tail end of the material moving groove 84, and the baffle 87 can move up and down to selectively block the tail end of the material moving groove 8 so as to control the workpiece to enter the blanking mechanism 9. The baffle 87 is driven by the material blocking cylinder 88.

The blanking mechanism 9 comprises a rotary blanking mechanism 91, a material pushing thimble 94 and a blanking conveying mechanism 92 which are arranged on the frame 1 and opposite to the strong magnetic mechanism 8 relative to the material moving groove 84.

The rotary blanking mechanism 91 comprises a rotary bracket 911 arranged on the machine frame 1, a rotary disc 912 rotatably arranged on the rotary bracket 911, and two second limiting plates 913 arranged on the selection disc 912, wherein a material pushing channel 914 is formed between the two second limiting plates 913, the material pushing channel 914 is located on one diameter of the selection disc 912, the material pushing channel 914 can be aligned with the tail end of the material moving groove 84, a workpiece sent out from the tail end of the material moving groove 84 enters the material pushing channel 914, when the number of the workpieces in the material moving groove 84 reaches a certain number, the baffle 87 moves downwards to prevent the workpiece from continuously moving along the conveying direction, and then the rotary disc 912 rotates 90 °.

The material pushing thimble 94 is arranged on the frame 1 and opposite to the blanking conveying mechanism 92 relative to the rotating disc 912, the axis of the material pushing thimble 92 is perpendicular to the conveying direction, and after the rotating disc 912 rotates by 90 degrees, the material pushing thimble 92 and the material pushing channel 914 are positioned on the same straight line, the material pushing thimble 92 can move back and forth along the axis thereof and then can extend into the material pushing channel 914 to push against the workpiece, so as to push the workpiece onto the blanking conveying mechanism 92. The pushing ejector 92 is driven by the pushing cylinder 93 and is made of a non-magnetizable material. The two second limit plates 913 are provided with cover plates 915 for covering the upper side of the pushing passage 914.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the principles of the present invention may be applied to any other embodiment without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A magnetizing apparatus, comprising:

a frame;

the feeding mechanism is used for feeding the workpiece;

the conveying belt is arranged on the rack and used for receiving the workpieces fed by the feeding mechanism and conveying the workpieces along the conveying direction;

the magnetism charging and weakening mechanism is arranged on the rack, is positioned on the conveying path of the conveying belt and is used for charging and weakening magnetism to the workpiece on the conveying belt;

the blanking mechanism is arranged on the rack and used for blanking the workpiece which is charged with strong magnetism;

the magnetism charging and weakening mechanism comprises:

the first support frame is arranged on the rack;

the permanent magnet is supported on the first support frame in a vertically movable mode and is positioned right above the conveying belt;

prevent inhaling structure includes:

2. The magnetizing apparatus of claim 1, wherein a code spraying device is disposed at a position of the conveyor belt near an end of the feeding mechanism, and the code spraying device is configured to spray a mark of the magnetic pole on an upper surface of the workpiece on the conveyor belt.

3. A magnetizing apparatus according to claim 1, wherein a pressing plate is provided on an upper surface of a lower portion of the belt, the pressing plate is horizontally disposed and lower than a lowest position of the first pulley, and a dimension of the pressing plate in a conveying direction of the conveyor belt is configured such that a suction force of the permanent magnet to the workpiece is insufficient to relatively move the workpiece on the conveyor belt when the workpiece is located at both ends of the pressing plate.

4. The magnetizing device of claim 3, wherein a pressing block is disposed on the upper surface of the pressing plate and at each of two ends of the pressing plate, each pressing block extends along the width direction of the conveying belt, a vertically extending pressing rod is disposed at each of two ends of each pressing block, the pressing blocks can move up and down relative to the pressing rods, the lower ends of the pressing rods are disposed on the frame through a connecting block, a pressing spring is sleeved on the pressing rods, the lower ends of the pressing springs abut against the upper surface of the pressing blocks, the upper ends of the pressing rods abut against the upper ends of the pressing rods, and the pressing springs are always in a compressed state.

5. The magnetizing device of claim 1, wherein a second belt pulley and a third belt pulley are further disposed on the frame, the second belt pulley and the third belt pulley are rotatable relative to the frame, the rotation axis of the second belt pulley and the rotation axis of the third belt pulley are parallel to the rotation axis of the first belt pulley, the upper portion of the belt bypasses the second belt pulley and the third belt pulley, the third belt pulley is disposed on the frame through a support frame, one end of the third belt pulley is rotatably disposed on a mounting block, a slider is disposed on the mounting block, a slide rail extending up and down is disposed on the support frame, the slider is in sliding fit with the slide rail, a support plate is disposed on the support frame and under the mounting block, a guide rod is vertically disposed on the mounting block, a spring is disposed on the guide rod, and the lower end of the spring abuts against the upper surface of the support plate, the upper end is fixed on the guide rod, and the spring is always in a compressed state.

6. The magnetizing device of claim 1, wherein an auxiliary feeding frame is disposed on the frame and on one side of the outlet of the magnetizing magnetic mechanism, a bottom plate is disposed on the top end of the auxiliary feeding frame, two first limiting plates are disposed on the upper surface of the bottom plate, the two first limiting plates are arranged in a direction perpendicular to the conveying direction, and a gap is formed between the two first limiting plates, so that a material moving groove for the workpiece after being magnetized to pass through is formed.

7. A charging device according to claim 6, wherein a driving wheel is rotatably provided on the auxiliary feeder frame, a pinch wheel is rotatably provided directly above the driving wheel, the rotational axes of the driving wheel and the pinch wheel are parallel to each other and the rotational axis of the pinch wheel is located directly above the rotational axis of the driving wheel, and the rotational axis of the driving wheel is perpendicular to the conveying direction, the driving wheel partially protrudes into the transfer chute from below the transfer chute, the pinch wheel partially protrudes into the transfer chute from above the transfer chute, and the rotational direction of the driving wheel is configured to move the workpiece in the conveying direction.

8. The magnetizing device of claim 6, wherein the discharging mechanism comprises a rotary discharging mechanism, a material pushing thimble and a discharging conveying mechanism, the rotary discharging mechanism is arranged on the frame and opposite to the magnetizing mechanism relative to the material moving groove, and the rotary discharging mechanism comprises:

the rotating bracket is arranged on the rack;

a rotating disk rotatably disposed on the rotating bracket,

the two second limiting plates are arranged on the rotating disc, a material pushing channel is formed between the two second limiting plates and is located on one diameter of the rotating disc, the material pushing channel can be aligned to the tail end of the material moving groove, and a workpiece sent out from the tail end of the material moving groove enters the material pushing channel.