JPS60140805A - Method and apparatus for laminating core for transformer - Google Patents

Abstract

PURPOSE:To enable automatic stacking without manual operation, and to improve the efficiency of laminating work by alternately moving two movable guides arranged on an aligning base for silicon steel plates left and right every time the silicon steel plates are laminated at every one layer section, and lowering the silicon steel plates attracted and moved from a base plate by an attraction pad onto the aligning base. CONSTITUTION:Cylinders A, A' are elevated while a cylinder B is operated, and a movable guide 5 is projected in predetermined length in the right direction. Cylinders C are retreated to the base plate 8 side by a cylinder E while the cylinders C are lowered, and a silicon steel plate K is sucked by a suction pad 7. The cylinders C are lifted and the cylinders C are moved on an aligning base 3 by the cylinder E, and the cylinders C are descended. When the inside of the suction pad 7 is returned to atmospheric pressure and the suction of the silicon steel plate is released, the silicon steel plate K slips off on each tapered section of side guides 4, a movable guides 4, 5, 2d.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for laminating leg cores in a transformer core and an improvement in a laminating apparatus.

Generally, when manufacturing the leg core of a transformer, as shown in Figure 1, for example, a silicon steel plate with both left and right ends cut at an angle of 45 degrees (
1), hold one or two plates at a time, position one end of the plate toward the first direction (for example, toward the left), and press it against the guide rod (2).Then the next silicon steel plate (la) Silicon steel plate (1
) and press one end of it against the guide rod (2a).

Such operations were repeated one after another, and the silicon steel plates (1) were stacked while being alternately shifted left and right by a predetermined dimension (1). Note that the guide (2b) prevents deviation in the width direction.

The above lamination method had the following drawbacks.

(1) Manually aligning and stacking several thousand or more silicon steel plates per leg core takes time and requires considerable effort.

(3) (2) Since it is not possible to directly connect the silicon steel sheet cutting line to automatic stacking, it has been difficult to improve the productivity of some iron cores.

The purpose of this invention is to solve the conventional problems.The purpose is to improve the efficiency of stacking work by making it possible to automatically stack the silicon steel plates (1) constituting the leg core without having to use all hands, and to improve the efficiency of the stacking work. The aim is to completely improve the productivity of the iron core legs by directly connecting them to the fins.

In order to achieve the above object, the present invention includes a fixed guide (2c), a G! d)
A side guide (4) and movable guides (51, (6) are arranged, and the movable guides (51, (6) are alternately moved left and right each time one layer of silicon steel plates is laminated, and the suction batt (γ
), the silicon steel plates ■, which had been suctioned and moved from the mounting table (8), are lowered onto the alignment table (8), and all 1 to 2 of these silicon steel plate marks are placed on the left and right at a predetermined size (11 minutes apart). It performs automatic loading.

Embodiments of this invention are shown in FIGS. 2 to 12 (4) To explain.

(9) is a base on which the alignment table (8) and the cylinder mounting stands αO), ol) on both sides are integrally mounted, and the alignment table (8) is driven by a hydraulic or pneumatic full drive source (one odor). The cylinder 〇) is fully activated to move the alignment table (8) up and down, and the movable rod (2) is connected to the cylinder ◎, which is moved. Also, for α6), place one side on the alignment stand (8),
The other is a support rod that is pivotally connected to the mounting rod 04), and these movable rods Oj, mounting rod 0, support rod (16) i cylinder ■)
It operates like a bantagow and moves the alignment table (8) up and down.

Incidentally, the alignment table (8) may be moved up and down by a cylinder (-) as shown in FIG.

Next, in the cylinder mounting base (10'l, 111), a cylinder (83, 1r-e lifting platform 07 mounted so as to be able to move up and down) is inserted into the column (]8), and this lifting platform (
The first gap is a fixed stand (mounted on the barrel or cylinder (3), which operates up and down with the holder.

Movable guides (5) and (6) are cylinders Q3>, (81
As shown in FIG. 6, the upper end is tapered, and a portion of this taper is provided to match the angle of the longitudinal end of the silicon steel plate. Also fixed guide (2
c) , (2) are formed in the same manner and are mounted on the alignment table (8) so as to be adjustable from side to side.
) is formed with a tapered upper end and serves as an alignment table (8).
Mounted on top so that it can be adjusted back and forth. (e) in Figure 5,
(f) shows each guide (2c), (2a side guide (4)
) is the mounting hole.

Next, a moving device that moves the silicon steel plates on the mounting table (8) onto the alignment table (8) places a guide tray IL/1zll above the mounting table (8) and the alignment table (8). A cylinder (C) is attached to this guide tray μ (21) so as to be movable back and forth via a roller (22N), and a suction pad (for example, made of rubber) (γ ) is attached.Guide rail (21)
is suspended from the ceiling or the like via a support member (231').

The moving device (Rin) is driven by a cylinder (D. Also, the interval between cylinders (C) can be changed arbitrarily according to the length of All-Silicon Steel Plate Co., Ltd.). An insertion hole is provided into which the fork of the lift can be inserted in order to move the iron core.The silicon steel plate U placed on the mounting table (8) is cut by a cutting device (not shown) and removed from the mounting table (8). 8).Furthermore, the guide tray IV 1ztl has a mounting hole for installing a stopper (to) that regulates the moving distance of the moving device (20) according to the width dimension of the silicon steel plate. (26) are provided in an appropriate number.

The operation of this invention will be explained with reference to FIGS. 4 and 5 and FIGS. 11 and 12.

(1) When placing the first silicon steel plate ■ on the alignment table (8), raise the cylinder CA (A)'C, actuate the cylinder (B)', and move the movable guide (5) to the right. protrude a certain length. (In this case, the fixed guide (2θ(2+) side guide (4) is set at a predetermined position. Also, after the movable guide (5) protrudes, the cylinder (5) is lowered) ( 2) The cylinder (0) is moved back toward the mounting table (8) by the cylinder (2), and the cylinder ((l) is lowered and the silicon steel plate ■ is adsorbed by the suction batt (γ). Although not shown, it is in a vacuum state by a suction/exhaust device.) (8) After raising the cylinder (0), move the cylinder (0) onto the alignment table (8) using the cylinder (g).

(4) Cylinder (C) ' Lower Ik. The point of descent is above a part of the taper of the side guide (4) in the width direction of the silicon steel plate (K), and above a part of the taper of the movable guide (5) and fixed guide (2Φ) in the length direction. Set with the limit switch (LS). (Figure 11 (a)
(Refer to) (5) When the inside of the suction bar (γ) is returned to atmospheric pressure and the adsorption of the silicon steel plate is released, the silicon steel plate (6) is moved by the side guide (4) in the state shown in Fig. 11 (b). Guide (5),
Slide down a portion of each taper of the fixed guide (2d) and
As shown in Figure 1 (c), each of the guides (4), (51, (
2d).

(6) Raise the cylinder (0) completely and lower it by the thickness of the silicon steel plate mark (approximately 0.3 a).

(γ) Cylinder CB) '! After operating the movable guide (6)i to protrude a certain length, the cylinder is lowered and the silicon steel plate (6) on the alignment table (8) is held down by the lower surface of the movable guide so that it does not move.

(8) Retract the cylinder (B)' and then raise it to the cylinder (A)'. Movable guide (6) made of silicon steel plate■
Move 1,000 degrees away from the position. (See Figure 11, 31)) (9
) Create the actions (2) to (4) above. (See Figure 11) (10) When the suction bat (γ) is solved, silicon steel plate modified 1
) slides on a part of each taper of the side guide (4), movable guide (6), and fixed guide (2d) as shown in Fig. 11(e), and slides on each guide (4) as shown in Fig. 11(e). ), (a)
, (2c) is supported and held. As a result, the silicon steel plate mark (K1) is laminated while maintaining the dimensional difference (t) between the left and right sides.

(See FIG. 11 (E)) C11) In the same manner, the above-mentioned operations are repeated to stack the silicon steel plates (K2) to (Kn).

(When the silicon steel plates are stacked on the alignment table (8) to the required thickness, for example, about 150+A+), stop the stacking once,
Thereafter, an adhesive (S) is applied to the end faces in the width direction of the laminated silicon steel plates as shown in FIG.

(To) After assimilating the adhesive (S), the insertion hole of the alignment table (8) -
Insert the fork into the laminated leg core (T)
! il - Lift up and transfer to another workbench not shown.

The 0-diameter leg core ■) is subdivided into 5 to 6 thicknesses, and the core is assembled one by one using a yoke (not shown).

In addition, when laminating two silicon steel plates, (2) to (5)
) and (9) to (10) are performed twice each to stack the layers.

In this case, the cylinder (■) will be lowered approximately Q, 6111M.

(It is lowered according to the thickness of the silicon steel plate.) All operations of each cylinder and suction vat are controlled by a microcomputer. In other words, the limit switch (LS) is set to operate only when the cylinder (0) falls onto the alignment table (8).The present invention describes a device that uses hydraulic pneumatic means as the drive source. However, since the drive source is an electric motor that drives and operates the rod corresponding to the piston of the di-cylinder, I(1) the lamination work of silicon steel plates can be automated without the need for manpower.

(2) Therefore, since it can be directly connected to a cutting device for silicon steel plates, the leg core can be manufactured efficiently.

(8) Since each cylinder in the laminating device can be controlled by a microcomputer, the laminating work can be performed reliably, and the device itself is not particularly complicated due to the use of cylinders, etc., and can be easily manufactured. 11) It doesn't require much space.

It is an invention that brings excellent benefits such as.

[Brief explanation of drawings]

Fig. 1 is a plan view showing the entire conventional laminated state, Fig. 2, Fig. 6 is a perspective view of the core laminated according to the present invention, Fig. 4 is a front view showing the entire laminated device of the present invention, and Fig. 5 is a plan view. Figures 6 to 8 are perspective views of each guide, Figures 9 and 10 are sectional views taken along lines X-X and Y-Y in Figure 5, and ((a) to (a) in Figure 11). Fig. 12 is a time chart showing the operation of each cylinder, and Fig. 13 is a front view showing another embodiment of the alignment table. (8) Cylinder Ton silicon steel plate (
8) Alignment table (4) (2c) (2d) Fixed guide (51 (6) Movable guide (γ) Suction pad (8) Mounting table Applicant Aichi Electric Works Co., Ltd. Figure 9 2d f Figure 10 Figure 13

Claims (2)

[Claims] (1) Fixed guide (2c) that has been positioned and fixed in advance (
2d), of the left and right movable guides (51 (6)) with respect to the side guide (4), one movable guide (51'
i - After protruding foot length, the cylinder (■) is moved by the cylinder (
C) After retreating to the replacement stand (8) side, remove the cylinder (O
is lowered and the suction batt (γ) moves the silicon steel plate (A) onto the bun arrangement table (8) which has been suctioned, and the suction batt (γ) is released following the descent of the cylinder C) to remove the first sheet. Arrange the silicon steel plates ■ on the stand (8) and place each of the guides (
4) % (51%) After supporting and holding (2c), lower the alignment table (8) by the thickness of the silicon steel plate (K), then after protruding the other movable guide (6) a certain length, Lower the cylinder (A)', hold the -grained silicon steel plate ■ on the alignment table (8) with the movable guide (6), and lower the cylinder (A)'.
B) Retract the cylinder (A)' (i = raised and move the movable guide (5) away from the position of the first silicon steel plate ■, then move the cylinder (D) and the cylinder (0) After performing the same operation as above, each guide (
4), (6), and (2d) keep the left and right dimension difference (t)'e on top of the first silicon steel plate (K1).
) 'e A method for laminating a transformer core, characterized by supporting and holding the core in a laminated state. (2) An alignment table (8) that can be raised and lowered, a pair of movable guides (6) (6) that are moved alternately horizontally and vertically on the alignment table (8), and a silicon A moving device for a silicon steel plate mark that moves the steel plate ([0) to the alignment table (8) and lowers it between the guides (2c, 2d, and 4) installed on the alignment table (8). A laminating device for transformer cores.