CN218313088U - Silicon steel sheet closed assembly positioner - Google Patents

Abstract

The utility model discloses a silicon steel sheet stacking and positioning device, which comprises an iron core stacking platform and a magnetic attraction component; the table top of the iron core stacking table is a silicon steel sheet stacking operation surface; the magnetic attraction parts are arranged below the silicon steel sheet stacking operation surface at intervals and are arranged in a lifting mode relative to the silicon steel sheet stacking operation surface; the magnetic attraction component corresponds to the silicon steel sheet on the silicon steel sheet stacking operation surface in a magnetic attraction way; during the stacking operation, the magnetic attraction component gradually rises along with the increase of the stacking thickness of the silicon steel sheets. The utility model provides a pair of silicon steel sheet closed assembly positioner inhales the effect through the magnetism that can follow the increase of silicon steel sheet closed assembly thickness and the magnetism that risees gradually and inhales the part, realizes the location to the silicon steel sheet, prevents that the silicon steel sheet from receiving to stack laminating power and taking place to sideslip.

Description

Silicon steel sheet closed assembly positioner

Technical Field

The utility model belongs to the technical field of the silicon steel sheet closed assembly, especially, relate to a silicon steel sheet closed assembly positioner.

Background

In the silicon steel sheet closed assembly process, when stacking another silicon steel sheet on the silicon steel sheet, because the briquetting need take off in advance, at this moment, the silicon steel sheet of the superiors has lost the holding down force, this sheet silicon steel sheet only self gravity provides stability, each silicon steel sheet below provides stability by self and the gravity of other silicon steel sheets of upper strata, consequently, the stability that is located the silicon steel sheet of the superiors is worst, when stacking the silicon steel sheet, the laminating force leads to the silicon steel sheet of the superiors that has accomplished the closed assembly easily to appear sideslipping, from the top down, other silicon steel sheets receive the influence of sideslipping to reduce gradually.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome exist not enough among the prior art, the utility model provides a silicon steel sheet closed assembly positioner inhales the effect through the magnetism that can follow the increase of silicon steel sheet closed assembly thickness and the magnetism that risees gradually and inhales the part, realizes the location to the silicon steel sheet, prevents that the silicon steel sheet from receiving to stack laminating power and taking place to sideslip.

The technical scheme is as follows: in order to achieve the purpose, the utility model discloses a silicon steel sheet stacking and positioning device, which comprises an iron core stacking platform and a magnetic suction component; the table top of the iron core stacking table is a silicon steel sheet stacking operation surface; the magnetic attraction components are arranged below the silicon steel sheet stacking operation surface at intervals and are arranged in a lifting mode relative to the silicon steel sheet stacking operation surface; the magnetic attraction component corresponds to the silicon steel sheet on the silicon steel sheet stacking operation surface in a magnetic attraction manner; during the stacking operation, the magnetic attraction component gradually rises along with the increase of the stacking thickness of the silicon steel sheets.

Furthermore, the magnetic attraction parts are multiple in number and respectively correspond to the positions of the middle column, the upper yoke, the lower yoke and the side yoke of the iron core.

Further, the magnetic attraction component is a magnet, and the magnet extends along the length direction of the silicon steel sheet in the length direction.

Furthermore, the magnetic attraction device comprises a lifting driving part, wherein the lifting driving part corresponds to the magnetic attraction part, and the lifting driving part is connected with the magnetic attraction part in a driving mode.

Further, the magnetic attraction component comprises a thickness detection sensor device, the thickness detection sensor device corresponds to the silicon steel sheets, and the thickness of the stacked silicon steel sheets is detected through the thickness detection sensor device in the stacking process, so that the lifting driving part drives and adjusts the height of the magnetic attraction component.

Further, the thickness detection sensor devices are provided in plural numbers, and correspond to respective positions of the center pillar, the upper yoke, the lower yoke, and the side yoke of the core.

Further, the thickness detection sensor device is a distance sensor, the distance sensor is located above the iron core stacking table, and the detection end of the distance sensor faces the silicon steel sheet stacking operation surface.

Has the beneficial effects that: the utility model discloses a silicon steel sheet closed assembly positioner, beneficial effect is: in the closed assembly operation in-process, the silicon steel sheet that is located the upper strata receives the laminating power influence of the silicon steel sheet of next stack easily and appears sideslipping, influences the closed assembly operation, the utility model discloses a can follow the increase of silicon steel sheet closed assembly thickness and the magnetic attraction effect of the part is inhaled to the magnetism that risees gradually, realizes the location to the silicon steel sheet, prevents that the silicon steel sheet from receiving to stack laminating power and taking place to sideslip.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic structural diagram of an iron core stacking table and an upper magnetic attraction component thereof.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1 and fig. 2, a silicon steel sheet stacking and positioning device includes an iron core stacking table 1 and a magnetic attraction component 2; the table top of the iron core stacking table 1 is a silicon steel sheet stacking operation surface; the magnetic attraction components 2 are arranged below the silicon steel sheet stacking operation surface at intervals and are arranged in a lifting mode relative to the silicon steel sheet stacking operation surface; at closed assembly operation in-process, the silicon steel sheet that is located the upper strata receives the laminating power influence of the silicon steel sheet of next stack easily and appears sideslipping, influences closed assembly operation, in order to eliminate the influence that sideslips, the utility model discloses a magnetism inhales 2 magnetism of part and inhales the principle of silicon steel sheet, magnetism inhales the silicon steel sheet magnetism on part 2 and the silicon steel sheet closed assembly operation face and inhales and correspond, and closed assembly's silicon steel sheet can be inhaled by the magnetism and be lived to realize magnetism and inhale the location, prevent that the silicon steel sheet from receiving to stack laminating power and taking place to sideslip.

It should be noted that, along with the increase of the stacking thickness, the magnetic attraction effect of the magnetic attraction member 2 on the uppermost silicon steel sheet needs to be ensured, so that during the stacking operation, the magnetic attraction member 2 gradually rises along with the increase of the stacking thickness of the silicon steel sheets, and the retentivity and the stability of the magnetic attraction of the silicon steel sheets can be ensured.

Preferably, the magnetic attraction component 2 is a magnet, and the magnet extends in the length direction of the silicon steel sheet for the purpose of overall magnetic attraction coverage of the single silicon steel sheet. In order to ensure the magnetic attraction effect on each silicon steel sheet stacked on the same plane, the number of the magnetic attraction parts 2 is multiple, and the magnetic attraction parts correspond to the positions of the center pillar, the upper yoke, the lower yoke and the side yoke of the iron core respectively.

The bottom of the iron core laminating table 1 is provided with a support plate 5 through a support column 2, and the support plate 5 is provided with a support leg 7 capable of being fixed on the ground. The supporting plate 5 is provided with a through hole corresponding to the magnet, and the magnet vertically slides to pass through the through hole. Including lift drive portion 3, lift drive portion 3 and magnetism inhale part 2 and correspond, 3 drives of lift drive portion are connected part 2 is inhaled to magnetism. The utility model discloses in, an embodiment is given to the concrete structure of lift drive portion 3, specifically is: the lifting driving part 3 is composed of a slide block 31, a screw rod 32 and a servo motor 33, the slide block 31 is arranged on the screw rod 32 in a threaded fit mode, the slide block 31 is fixedly connected with a corresponding magnet, the screw rod 32 is vertically and rotatably arranged on the supporting plate 5, and the servo motor 33 drives the connecting screw rod 32.

Magnetism is inhaled part 2 for realizing that the increase of silicon steel sheet closed assembly thickness and the process that risees gradually is automated control, and automatic accuracy is high, and is efficient moreover, the utility model discloses a thickness detection sensor device 4, thickness detection sensor device 4 corresponds with the silicon steel sheet, and silicon steel sheet closed assembly in-process passes through thickness detection sensor device 4 detects the thickness of closed assembly, makes the height of magnetism part 2 is inhaled in 3 drive regulation of lift drive portion. Preferably, the thickness detection sensor device 4 is a distance sensor, and the distance sensor is located above the iron core lamination table 1, specifically, is installed on the supporting bracket 8, and the detection end of the distance sensor faces the silicon steel sheet lamination operation surface. The distance sensor and the servo motor 33 are connected with the same control system, specifically, a signal sending end of the distance sensor is connected with a signal receiving end of the control system, and the control system controls the servo motor 33. When silicon steel sheet closed assembly operation, along with the increase of closed assembly thickness, the distance result that distance sensor detected reduces gradually to give control system with corresponding signal transmission, control system control servo motor 33 drive screw 32 drives the magnet and shifts up gradually, thereby makes the magnet to the magnetism of silicon steel sheet and inhale the location and have the persistence.

The stacking process has a sequence, generally, the center column, the upper yoke, the lower yoke and the last side yoke are arranged in sequence, and in order to realize accurate detection of the stacking thickness of the silicon steel sheets at each position, the number of the thickness detection sensor devices 4 is multiple and corresponds to each position of the center column, the upper yoke, the lower yoke and the side yoke of the iron core respectively.

The above description is only a preferred embodiment of the present invention, and it should be noted that: for those skilled in the art, without departing from the principle of the present invention, several improvements and modifications can be made, and these improvements and modifications should also be considered as the protection scope of the present invention.

Claims (7)

1. The utility model provides a silicon steel sheet closed assembly positioner which characterized in that: comprises an iron core stacking platform (1) and a magnetic part (2); the table top of the iron core stacking table (1) is a silicon steel sheet stacking operation surface; the magnetic attraction components (2) are arranged below the silicon steel sheet stacking operation surface at intervals and are arranged in a lifting manner relative to the silicon steel sheet stacking operation surface; the magnetic attraction component (2) corresponds to the silicon steel sheet magnetic attraction on the silicon steel sheet stacking operation surface; during the stacking operation, the magnetic attraction component (2) gradually rises along with the increase of the stacking thickness of the silicon steel sheets.

2. The silicon steel sheet stacking and positioning device as claimed in claim 1, wherein: the magnetic parts (2) are in a plurality of numbers and respectively correspond to the positions of the middle column, the upper yoke, the lower yoke and the side yoke of the iron core.

3. The silicon steel sheet stacking and positioning device as claimed in claim 2, wherein: the magnetic attraction component (2) is a magnet, and the magnet extends along the length direction of the silicon steel sheet in the length direction.

4. The silicon steel sheet stacking and positioning device as claimed in claim 1, wherein: including lift drive portion (3), lift drive portion (3) and magnetism inhale part (2) and correspond, lift drive portion (3) drive is connected magnetism inhales part (2).

5. The silicon steel sheet stack positioning device of claim 4, wherein: including thickness detection sensor device (4), thickness detection sensor device (4) correspond with the silicon steel sheet, and the silicon steel sheet closed assembly in-process passes through thickness detection sensor device (4) detect the thickness of closed assembly, make lift drive portion (3) drive regulation magnetism inhale the height of part (2).

6. The silicon steel sheet stack positioning device of claim 5, wherein: the number of the thickness detection sensor devices (4) is a plurality, and the thickness detection sensor devices correspond to the positions of a center pillar, an upper yoke, a lower yoke and a side yoke of the iron core respectively.

7. The silicon steel sheet stacking and positioning device as claimed in claim 5 or 6, wherein: the thickness detection sensor device (4) is a distance sensor, the distance sensor is positioned above the iron core stacking platform (1), and the detection end of the distance sensor faces the silicon steel sheet stacking operation surface.

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