JPS59187415A - Method of cutting and laminating silicon steel plate - Google Patents

Abstract

PURPOSE:To permit every block of steel plates to be easily carried out in a zigzag state, by relocating a pair of guides to be integrally slided in the lateral direction every time the silicon steel plates being cut are laminated by a prescribed number of sheets. CONSTITUTION:Every time a silicon steel plate 2 is cut to be laminated by a prescribed number of sheets, guides 16a, 16b are integrally relocated to be alternately moved to the left and the right on a slide plate 12. The slide plate 12 performs a sliding motion of prescribed width alternately to the left and the right in he width direction of the steel plate 2 by a cylinder 13 through a control box 15. If a prescribed number of sheets of the steel plate 2 are cut and laminated, the guides 16a, 16b are laterally moved by the lateral motion of the slide plate 12 and relocated in the width direction for every prescribed number of sheets of the steel plate 2, laminating the steel plate in a zigzag state.

Description

[Detailed description of the invention]

The present invention relates to a method for cutting and laminating aluminum steel sheets, and is used in the production process of cut-shaped wound iron rQ. The silicon steel plate 2 wound around the hoop 1 is detected by the roller 3, passed through the position 4, and then cut by the cutter 5.The cut silicon steel plate 2 is cut by the cutter 5. The corner installed on the trunk is in contact with the VC and placed on the stacking platform 6. The positioning device 4 is shown enlarged in FIG. As shown, the pedestal 7 and the pair of guides 8a and 8b, which are welded to the pedestal 7 and have an angled cross-section, are coated with Mg. , and both sides slide into guides 8a and 8b, and as a result, the width position is increased, and as a result, the silicon steel plate 2 is cut following the positioning device 4 and is pushed to a specified position on the stacking platform 6. The picks and silicon steel plates 2 are stacked in an orderly manner without misalignment, as shown in the side view in Figure 3(a) and in the side view in Figures 3(a) and 3(a). The laminated steel sheets 2 are...
A predetermined number of sheets (about 10 sheets) is defined as a - block, 5 to 6
It is wound separately into blocks (referred to as nine-rolling work), and each wound block is combined concentrically to form a wound core. -The reason why the block was set at around 10 was made by taking into consideration the fact that the roll would be rolled in the hand while being held in the hand. If the number of sheets is 2 or 3, the workability will be poor, and if there are too many, it will be difficult to form the strips. However, in the above-mentioned conventional technology, during the round winding operation,
When taking out a block of silicon steel plates 2, the work efficiency was poor because the pieces had to be taken out while gradually reducing the thickness. Also, guide 8. death. Since the interval between 8b cannot be changed, li'l,
- To manufacture a wound core that uses multiple types of steel plates with different ridges, such as a stepped wound core (using 5 to 6 types of steel plates), multiple positioning devices must be prepared, which is complicated. However, in view of the above-mentioned prior art, the present invention has been developed to provide a method for cutting a silicon steel plate that enables the production of wound cores with good workability.

[The purpose is to provide a lamination method. The structure of the present invention that achieves this object is to unroll a silicon steel plate wound into a roll, and position the plate in the width direction using a pair of guides that slide the two plates on one side in the width direction. , and then slid it on the horizontal stile and carried it out from this sill.
In the method of cutting and laminating silicon steel plates, in which the raw steel plates are cut and the cut ζ plates are stacked, the song ■) of the guide mutual 1#3] is cut to match the width of the silicon steel plates. V-cut silicon? The method is characterized in that the silicon steel plates are stacked by shifting the silicon steel plates in the width direction every predetermined number by shifting the pair of guides together in the width direction of the silicon steel plates each time a predetermined number of the silicon steel plates are stacked. First, the method of the present invention costs ¥1? , Before explaining, a positioning device for realizing this method will be explained with reference to FIG. 4 showing a perspective view, FIG. 5 showing a sectional view, and FIG. explain. As shown in these figures, the frame 10
A cutting rig 11 is formed along the width direction of the silicon steel plate 2, and a slide plate 12 is fitted into this cutting groove 11. A drive shaft 14 that is moved by a cylinder 13 (d1) is fixed to the back surface of the slide plate 12, and the cylinder 13 is controlled by a control box 15.
is fixed), and the tip of the rod 8 is the guide 16.
It engages with a seat 19 fixed to a and passes through the seat 17. A seat 20 on which a guide 16b is fixed is fixed to the threaded rod 18. Therefore, when the handle 21 provided on the screw 4 holder 18 is rotated, the guide 16b moves along the width direction of the silicon steel plate 2. Next, a method of the present invention using the positioning device having the above-described structure will be explained. First, turn the handle 21 to adjust the distance between the guides 16a and 16b to the width of the blank H plate 20. In this state, the silicon steel plates 2 are soaked and stacked on a stacking table while being cut with a cutter. In this case, the control box 15fzs cutter is set to rise and move the cylinder 13 every time it operates, for example, 10 times. Then, when ten cut silicon steel plates 2 are stacked, the cylinder 13 is actuated by a command from the control box 15, and the slide plate 12 is shifted, for example, to the right in FIG. 5 by a certain distance (N). That is, the guides 16a, 1
6b are shifted by (N) together. Guides 16a, 16b
Continue to cut the silicon steel plates 2 while the silicon steel plates 2 are out of alignment] Vi・Lamination continues, and when 10 silicon steel plates 2 have been cut again, a command opposite to the control box 15 is issued. Therefore, the cylinder 13 operates 61j times in the opposite direction, and the slide plate 12 moves a certain distance to the left in FIG.
The guides 16a and 16b are shifted by (N), and accordingly, the guides 16a and 16b
are shifted to the left by (N). Then, repeat this action 5 to 6 times. In this way, every time 10 silicon steel plates 2 are rolled, the guides 16a and 16b shift in the width direction of the silicon steel plates 2 by the awkward left and right alternating C.
As shown in the perspective view on the I++ plane, the sheets are stacked in a staggered manner in 61 directions every predetermined number (10 sheets in this case). Therefore, it is easy to take out the cut silicon steel plates block by block during the round winding operation, and the trouble of counting the pieces can be omitted, which improves work efficiency accordingly. Incidentally, when using silicon steel plates having different widths, it is preferable to adjust the distance between the guides 16a and 16b by turning the handle 2). More than '7? According to the present invention, as specifically explained in conjunction with the examples, guides and guides are formed according to the width of the silicon steel plate.
The spacing between the two 14-meter cable steel plates was changed and the wires were cut. The testicles are laminated with different widths, and the laminated silicon steel plates can be easily removed by a predetermined number of sheets, making it easy to roll the sheets in circles. Improves sex.

[Brief explanation of drawings]

Fig. 1 is an explanatory diagram for explaining the method of cutting and laminating silicon tip steel plates according to the prior art, and Fig. 2 is an explanatory diagram showing the positioning device used in the prior art (main diagram, Fig. 3). 1 (a) is an original technique (Fig. 3 shows a flattened fertile plate, Figure 3) is a print version of the same, and the parent is the method of the present invention. Figure 5 showing the positioning device for harvesting paddy.
The figure is a new view of the same, Figure 6 is a sectional view taken along line X-X of Figure 5,
Fig. 7(a) k:r, 1it, jl-fi1, bi1, 7, showing boron steel sheets laminated by the Futsuko four method (
b) is its oblique view. In the drawing, 1 is a hoop, 2 is a silicon steel plate, 3 is a roller, 5 is a cutter 6 is a stacking platform, 10 is a take-up stand, 12 is a slide plate, 13 is a cylinder, 15 is a control button, 16a and 16b are guides , 18 is the handle, and 21 is the handle.

Claims (1)

[Claims] A silicon steel plate wound into a roll is paid out, and the silicon steel plate is slid on a horizontal pedestal while its position in the width direction is defined by a pair of guides that are in sliding contact with both surfaces in the width direction, and from this pedestal. Cutting the silicon steel plates carried out and laminating the cut silicon steel plates; <++# In the method of cutting and stacking the plates, the interval between the guides is changed according to the width of the silicon steel plates, and the cutting By stacking a predetermined number of silicon steel plates, the pair of guides are shifted together in the width direction of the silicon steel plates. I (a method for cutting d1 and laminating silicon steel plates, which is characterized by laminating a predetermined number of laminated steel plates while shifting them in the width direction).