CN212892591U - Magnetic sheet automatic feeding device - Google Patents

Abstract

The utility model discloses a magnetic sheet automatic feeding device, include: a conveying mechanism for conveying the magnetic sheet; a bin unit for storing magnetic sheets; the material pushing mechanism is used for pushing the magnetic sheets in the bin unit towards one side of the conveying mechanism; and the material sucking and moving mechanism is used for sucking the magnetic sheets pushed by the material pushing mechanism and placing the magnetic sheets on the conveying mechanism. The utility model discloses material loading convenient operation has improved work efficiency greatly, moreover the utility model discloses application scope is wider, can be applicable to multiple structural style's product, for example can include the product of circular, square, tile type and other abnormal shape structure. When changing the product, only need adjust the belt transport on the conveying mechanism spacing, all the other places all can not need to adjust, applicable in all kinds of big or small products.

Description

Magnetic sheet automatic feeding device

Technical Field

The utility model belongs to the technical field of the magnetic sheet processing, concretely relates to magnetic sheet automatic feeding device.

Background

Magnetizing means magnetizing a magnetic substance or increasing magnetism of a magnet having insufficient magnetism, and generally, a magnetic field force is generated by placing a magnetically chargeable object to be magnetized in a coil through which a dc power supply passes. The existing magnetizing machines are divided into a constant-current magnetizing machine and a pulse magnetizing machine, wherein the constant-current magnetizing machine enables a coil to generate a constant magnetic field by passing constant-current direct current in the coil, and then a product to be magnetized is placed in the secondary field to complete magnetizing instantly. The pulse magnetizing apparatus has no limitation to power supply configuration, is fast and efficient to use, and is suitable for magnetizing parts and components of permanent magnetic materials.

In the processing production process of magnetic sheet, often need carry out the material loading with the magnetic sheet, then carry to next process and operate, but the mode of current material loading adopts the mode of artifical material loading usually, and this kind of material loading mode efficiency is lower.

SUMMERY OF THE UTILITY MODEL

The utility model provides a magnetic sheet automatic feeding device improves material loading efficiency.

The technical scheme of the utility model is that: an automatic magnetic sheet feeding device, comprising:

a conveying mechanism for conveying the magnetic sheet;

a bin unit for storing magnetic sheets;

the material pushing mechanism is used for pushing the magnetic sheets in the bin unit towards one side of the conveying mechanism;

and the material sucking and moving mechanism is used for sucking the magnetic sheets pushed by the material pushing mechanism and placing the magnetic sheets on the conveying mechanism.

The utility model discloses when needing to carry out magnetic sheet material loading, place the magnetic sheet in the feed bin unit, then promote the magnetic sheet in the feed bin unit through pushing equipment, make it promote to conveying mechanism department, then absorb the magnetic sheet through inhaling material moving mechanism to remove the magnetic sheet and place on conveying mechanism, carry to next process department via conveying mechanism at last can.

The utility model discloses well conveying mechanism, feed bin unit, pushing equipment and inhale material moving mechanism's structural style have a variety, can adopt current multiple structural style.

Preferably, the bin unit comprises a bin bottom plate obliquely fixed below the conveying mechanism and a bin stop lever arranged on the bin bottom plate, and a bin storage area used for storing magnetic sheets is formed in an area surrounded by the bin bottom plate and the bin stop lever. The utility model discloses well feed bin unit sets up to slope form, only has the unilateral to lean on the fender, can let the product stably place and promote, also for adapting to different product quick replacement, and any position need not be adjusted to this kind of feed bin unit during the change.

In order to improve the working efficiency, preferably, the bin stop levers are arranged in parallel, and a plurality of bin storage areas are formed in the area enclosed by the bin stop levers and the bin bottom plate.

Preferably, the pusher mechanism includes:

a supporting plate for supporting the magnetic sheet;

the pushing piece is fixedly connected with the bearing plate;

a first drive mechanism for driving the pusher to move along the bin floor.

The utility model discloses when well needs propelling movement magnetic sheet, start first actuating mechanism, first drive will drive the impeller motion, and the bearing board is fixed in on the impeller, consequently makes the magnetic sheet that bearing board and bearing board bearing move together. Wherein, the utility model discloses well first actuating mechanism's structural style has the multiple, can adopt current multiple structural style for example, can drive by the form of lead screw module.

Preferably, the suction moving mechanism includes:

the adsorption piece is positioned above the conveying mechanism and used for absorbing the magnetic sheet;

and the second driving mechanism is used for driving the adsorption piece to move in the horizontal and vertical directions.

When needs adsorb the magnetic sheet, second actuating mechanism drive adsorbs a motion to magnetic sheet department, then adsorbs the magnetic sheet through adsorbing the piece, and after the magnetic sheet was adsorbed, second actuating mechanism continued the drive to adsorb the piece and removed, made it remove to conveying mechanism on, then stopped adsorbing, can be so that the magnetic sheet is carried to conveying mechanism on. The second driving mechanism has various structural forms, for example, horizontal and vertical movement can be realized by adopting a sliding block and sliding rail matching mode, and the second driving mechanism can be realized by adopting various existing structures, which is not described in detail herein.

The utility model discloses well adsorption member's structural style has the multiple, for example can be the electro-magnet, adsorbs magnet through the mode of magnetic attraction, when the electro-magnet circular telegram, with magnet inter attraction, when magnet outage, loses the appeal, and the magnetic sheet breaks away from adsorption member, as preferred, be provided with the vacuum adsorption hole that can produce vacuum adsorption power on the adsorption member. The utility model discloses in also can adopt vacuum adsorption's mode, produce vacuum suction and adsorb.

Preferably, the magnetic sheet pushing device further comprises an optical fiber sensor for detecting whether the magnetic sheet is pushed into position by the material pushing mechanism. The utility model discloses in can detect whether the propelling movement of magnetic sheet targets in place through fiber inductor to in carry out next operation.

Preferably, the magnetic disk temporary storage device further comprises a temporary storage platform for temporarily storing the magnetic disks to be loaded. The utility model discloses the magnetic sheet of well waiting for the material loading can be held temporarily in the platform of keeping in, treats other magnetic sheet material loading and finishes after, places the magnetic sheet on the platform of keeping in again and carries out the material loading in the feed bin storage area.

In order to improve the working efficiency, the bin units, the pushing mechanism and the material sucking and moving mechanism are preferably arranged in a one-to-one correspondence manner. The utility model discloses in can perhaps circulate simultaneously and carry out the magnetic sheet material loading work, improved work efficiency greatly.

Preferably, a Teflon material layer for placing the scratch magnetic sheet is adhered to the storage area of the storage bin unit.

The utility model discloses well magnetic sheet product that needs the material loading can be multiple structural style, for example can include the product of circular, square, tile type, and other heterotypic structure, as long as the surface has enough absorption vacuum area can. The method can be suitable for products with the length smaller than 60mm, the width larger than 10mm and the thickness of 1-10 mm, and can also customize other size ranges according to actual needs. When changing the product, only need adjust the belt transport on the conveying mechanism spacing, all the other places all can not need to adjust, applicable in all kinds of big or small products. The utility model discloses well feed bin is capacious, for example can buffer memory 8 sections products altogether, and general thickness (5mm) product can be deposited more than 500.

Compared with the prior art, the beneficial effects of the utility model are embodied in:

the utility model discloses material loading convenient operation has improved work efficiency greatly, moreover the utility model discloses application scope is wider, can be applicable to multiple structural style's product, for example can include the product of circular, square, tile type and other abnormal shape structure. When changing the product, only need adjust the belt transport on the conveying mechanism spacing, all the other places all can not need to adjust, applicable in all kinds of big or small products.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of another view angle of the present invention.

Fig. 3 is a schematic structural view of another view angle of the present invention.

Reference numerals:

1. a conveying mechanism; 2. a stock bin unit; 3. a material pushing mechanism; 21. a bin stop lever; 22. a bin floor; 31. a support plate; 32. a pusher member; 4. a temporary storage platform; 5. a magnetic sheet.

Detailed Description

In order to make the technical field personnel understand the utility model discloses the scheme, will combine the drawing in the embodiment of the utility model below, to the technical scheme in the embodiment of the utility model carries out clear, complete description.

As shown in fig. 1 to 3, the present embodiment is an automatic magnetic sheet feeding device, including:

a conveying mechanism 1 for conveying the magnetic sheet 5;

a bin unit 2 for storing magnetic sheets;

the pushing mechanism 3 is used for pushing the magnetic sheets in the bin unit 2 towards one side of the conveying mechanism 1;

and the material sucking and moving mechanism (not shown in the figure) is used for sucking the magnetic sheets pushed by the material pushing mechanism 3 and placing the magnetic sheets on the conveying mechanism 1.

When magnetic sheets need to be loaded, the magnetic sheets are placed in the bin unit 2, then the magnetic sheets in the bin unit 2 are pushed by the material pushing mechanism 3 to be pushed to the conveying mechanism 1, then the magnetic sheets are sucked by the material sucking and moving mechanism, the magnetic sheets are placed on the conveying mechanism 1 in a moving mode, and finally the magnetic sheets are conveyed to the next working procedure through the conveying mechanism 1.

In this embodiment, the conveying mechanism 1, the bin unit 2, the pushing mechanism 3, and the material suction moving mechanism have various structural forms, and may adopt various existing structural forms.

For example, as shown in fig. 1, the bin unit 2 of the present embodiment includes a bin bottom 22 obliquely fixed below the conveying mechanism 1 and a bin stop rod 21 disposed on the bin bottom 22, and an area surrounded by the bin bottom 22 and the bin stop rod forms a bin storage area for storing magnetic sheets. The bin unit 2 is arranged in a slope shape in the embodiment, only one side of the bin unit is stopped, products can be placed and pushed stably, the bin unit 2 is also fast replaced without adjusting any position in order to adapt to fast replacement of different products.

In order to improve the working efficiency, the bin stop rods 21 may be arranged in parallel, and a plurality of bin storage areas are formed in an area enclosed between the bin stop rods 21 and the bin bottom plate 22.

As shown in fig. 1, the pusher mechanism 3 in the present embodiment includes:

a support plate 31 for supporting the magnetic sheet;

a pushing member 32 fixedly connected with the supporting plate 31;

a first drive mechanism for driving the pusher 32 along the magazine floor 22.

In this embodiment, when the magnetic sheet needs to be pushed, the first driving mechanism is started, the first driving mechanism drives the pushing member 32 to move, and the supporting plate 31 is fixed on the pushing member 32, so that the supporting plate 31 and the magnetic sheet supported by the supporting plate 31 move together. In this embodiment, the first driving mechanism has a plurality of structural forms, for example, the first driving mechanism can adopt a plurality of existing structural forms, for example, the first driving mechanism can be driven in a form of a lead screw module.

The material sucking and moving mechanism in this embodiment includes:

an adsorption piece which is positioned above the conveying mechanism 1 and is used for absorbing the magnetic sheet;

and the second driving mechanism is used for driving the adsorption piece to move in the horizontal and vertical directions.

When needs adsorb the magnetic sheet, second actuating mechanism drive adsorbs a motion to magnetic sheet department, then adsorbs the magnetic sheet through adsorbing the piece, and after the magnetic sheet was adsorbed, second actuating mechanism continued the drive to adsorb the piece and removed, makes it remove to conveying mechanism 1 on, then stops to adsorb, can make the magnetic sheet be carried to conveying mechanism 1 on. The second driving mechanism has various structural forms, for example, horizontal and vertical movement can be realized by adopting a sliding block and sliding rail matching mode, and the second driving mechanism can be realized by adopting various existing structures, which is not described in detail herein.

The adsorption member in this embodiment has various structural forms, for example, the adsorption member may be an electromagnet, and adsorbs the magnet by magnetic attraction, when the electromagnet is powered on, the electromagnet attracts the magnet, when the magnet is powered off, the attraction is lost, the magnetic sheet is separated from the adsorption member, and the adsorption member is provided with a vacuum adsorption hole capable of generating vacuum adsorption force. In this embodiment, a vacuum suction mode may also be adopted to generate vacuum suction force for suction.

In addition, the embodiment also comprises an optical fiber sensor for detecting whether the magnetic sheet is pushed in place by the material pushing mechanism 3. In this embodiment, whether the magnetic sheet is pushed in place or not can be detected by the optical fiber sensor, so as to execute the next operation.

In addition, the present embodiment further includes a temporary storage platform 4 for temporarily storing the magnetic sheets to be loaded. The magnetic sheet of waiting for the material loading in this embodiment can be temporarily stored in the temporary storage platform 4, and after the material loading of other magnetic sheets is finished, the magnetic sheet on the temporary storage platform 4 is placed in the storage bin storage area for material loading. The utility model discloses can set up on the platform of keeping in and be used for the operation the utility model discloses an automatically controlled button.

In order to improve the working efficiency, the stock bin units 2, the pushing mechanism 3 and the material sucking and moving mechanism are all arranged in a one-to-one correspondence manner. In the embodiment, the magnetic sheet feeding work can be carried out simultaneously or circularly, so that the working efficiency is greatly improved. And the storage area of the storage bin unit 2 is adhered with a teflon material layer for placing the scratch magnetic sheet.

The magnetic sheet product to be loaded in the embodiment can be in various structural forms, for example, the magnetic sheet product can comprise a round structure, a square structure, a tile structure and other special-shaped structures, as long as the surface has enough vacuum adsorption area. The method can be suitable for products with the length smaller than 60mm, the width larger than 10mm and the thickness of 1-10 mm, and can also customize other size ranges according to actual needs. When changing the product, only need adjust the belt transport on conveying mechanism 1 spacing, all the other places all can not need to adjust, applicable in all kinds of big or small products. In this embodiment, the storage bin has a large capacity, for example, 8 sections of products can be cached, and more than 500 pieces of products can be stored in the storage bin with a general thickness (5 mm).

It is obvious that the described embodiments are only a part of the present embodiments, not all of them. All other embodiments obtained by persons of ordinary skill in the art based on the embodiments in the present embodiment without any creative efforts shall fall within the protection scope of the present embodiment.

Claims (10)

1. The utility model provides a magnetic sheet automatic feeding device which characterized in that includes:

a conveying mechanism for conveying the magnetic sheet;

a bin unit for storing magnetic sheets;

the material pushing mechanism is used for pushing the magnetic sheets in the bin unit towards one side of the conveying mechanism;

and the material sucking and moving mechanism is used for sucking the magnetic sheets pushed by the material pushing mechanism and placing the magnetic sheets on the conveying mechanism.

2. The automatic magnetic sheet feeding apparatus according to claim 1, wherein the bin unit includes a bin bottom plate slantly fixed below the conveying mechanism and a bin stopper rod provided on the bin bottom plate, and an area defined by the bin bottom plate and the bin stopper rod forms a bin storage area for storing the magnetic sheets.

3. An automatic magnetic sheet feeding apparatus according to claim 2, wherein the plurality of bin stoppers are arranged in parallel, and a plurality of bin storage areas are formed by an area defined between the plurality of bin stoppers and the bin bottom.

4. An automatic magnetic sheet feeding device according to any one of claims 2 to 3, wherein the material pushing mechanism comprises:

a supporting plate for supporting the magnetic sheet;

the pushing piece is fixedly connected with the bearing plate;

a first drive mechanism for driving the pusher to move along the bin floor.

5. An automatic magnetic sheet feeding device according to claim 4, wherein said suction moving mechanism comprises:

the adsorption piece is positioned above the conveying mechanism and used for absorbing the magnetic sheet;

and the second driving mechanism is used for driving the adsorption piece to move in the horizontal and vertical directions.

6. An automatic magnetic sheet feeding apparatus according to claim 5, wherein the suction member is provided with a vacuum suction hole for generating a vacuum suction force.

7. An automatic magnetic sheet feeding device according to claim 4, further comprising an optical fiber sensor for detecting whether the magnetic sheet is pushed in place by the pusher.

8. An automatic magnetic sheet feeding apparatus according to claim 1, further comprising a temporary storage platform for temporarily storing magnetic sheets to be fed.

9. The automatic magnetic sheet feeding device according to claim 1, wherein the bin unit, the material pushing mechanism and the material sucking and moving mechanism are all provided in a one-to-one correspondence.

10. The automatic magnetic sheet feeding device according to claim 2, wherein a storage area of the bin unit is attached with a teflon material layer in which the scratched magnetic sheet is placed.

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