KR102066460B1 - Manufacturing method of adhesive steel sheet for motor core - Google Patents

Abstract

The present invention is to provide a method for manufacturing an adhesive steel sheet for a motor core that can maximize the efficiency of manufacturing the thin plate as an adhesive steel sheet for a motor core by applying an adhesive to the thin plate before performing the blanking process.
To this end, after continuously forming a metal plate to be transferred to a core plate of a predetermined shape, a plurality of the core plate is bonded to a method of manufacturing an adhesive steel sheet for the motor core, the adhesive on both sides of the metal plate to be transferred Coating process for coating; A drying step of first curing the applied adhesive by drying the metal plate coated with the adhesive; A molding step of continuously blanking the dried metal plate to form a core plate, and sequentially transferring and stacking each of the molded core plates sequentially; And bonding the laminated core plates by pressing the dried core plates while pressing the dried core plates and bonding the laminated core plates to each other by completely curing the adhesive applied to each of the core plates. Characterized in that comprises a.

Description

Manufacturing method of adhesive steel sheet for motor core {Manufacturing method of adhesive steel sheet for motor core}

The present invention relates to a method for producing an adhesive steel sheet used to produce a core such as a motor or a generator.

Generally, a laminated steel sheet manufactured by laminating a plurality of steel sheets is used as a rotor and a stator of a generator or a motor.

As a method of manufacturing such a laminated steel sheet, a tab fixing method using an interlock tab for laminating and integrally fixing thin plates, and a welding fixing method and a rivet fixing method using welding, for example, laser welding, are known.

The tab fixing method has a problem of iron loss, and especially embossing on a thin plate becomes difficult, thereby showing a limitation as a manufacturing technology of laminated steel sheets.

In recent years, the adhesive fixing method which laminates the thin plates which comprise a core, apply | coats an adhesive, and integrates is applied.

In the adhesive fixing method, the thin plate is fed to the press molding machine by a transfer roller, and an adhesive is applied to the thin plate by the application roller and the nozzle before passing through the press molding machine.

And the core material by blanking accumulates in a press molding machine, it is integrated by an adhesive, and an adhesive laminated core is manufactured through this.

However, the conventional adhesive fixing method, that is, the adhesive laminated core manufacturing method can reduce the cost compared to laser welding, and the steel sheet can cope with the thinning, but the adhesive molding is applied because the components of the press molding machine and the nozzle coating roller are separated and operate independently. As a precise control is required for and blanking, there is a problem in that the structure of the press molding machine becomes complicated and accordingly, the press molding machine manufacturing and maintenance costs increase.

In the conventional adhesive laminated core manufacturing apparatus, there is a risk of leakage of the adhesive and surrounding contamination at the outlet of the nozzle applying the adhesive, and the adhesive is exposed to the outside of the nozzle so that the adhesive is caught on the surface of the nozzle, thereby blocking the outlet of the nozzle. There is a problem such as over-contamination, which may be more problematic in the trend of quantitative precision of adhesive and shortening of curing time.

In addition, the conventional adhesive laminated core manufacturing apparatus has a difficulty in applying a certain amount of adhesive to the surface of the steel sheet at regular intervals in conjunction with the blanking process, and in order to precisely control the amount of adhesive ejection and the nozzle operation time (adhesive application timing) Fine control of the adhesive supply pressure, ie the adhesive pressure inside the nozzle, is required, and if the adhesive application process is not carried out properly, the layers of the laminated core are separated and lead to product defects. Problems may occur.

Therefore, in the manufacture of an adhesive steel sheet for a motor core to be applied to a motor such as an electric vehicle to be more lightweight, it is necessary to develop an efficient method for bonding a plurality of thin plates.

Republic of Korea Patent Publication No. 10-0536212 (Registration Date: 2005.12.06) "Laminated core manufacturing apparatus" Republic of Korea Patent Publication No. 10-0119014 (Registration date: July 25, 1997) "Lamination bonding device of the motor core"

The present invention has been made to solve the above problems, the production of an adhesive steel sheet for the motor core that can maximize the efficiency of manufacturing the thin plate as an adhesive steel plate for the motor core by applying an adhesive to the thin plate before performing the blanking process Its purpose is to provide a method.

Along with this, the other objects and advantages of the present invention will be described below, which are further described by the means described in the claims of the present invention and the disclosure of the embodiments thereof, as well as means and combinations within the range that can be easily suggested therefrom. Please note that it will be covered in a wide range.

According to the present invention, there is provided a method of manufacturing an adhesive steel sheet for a motor core according to the present invention, after forming a continuously transferred metal plate into a core plate having a predetermined shape, joining a plurality of the core plates to bond the motor core. Claims [1] A method of manufacturing a steel sheet, comprising: a coating process of applying an adhesive to both surfaces of the metal plate being transferred; A drying step of first curing the applied adhesive by drying the metal plate coated with the adhesive; A molding step of continuously blanking the dried metal plate to form a core plate, and sequentially transferring and stacking each of the formed core plates; And a bonding step of bonding the laminated core plates by pressing the dried core plates while pressing the dried core plates and bonding the core plates laminated by completely curing the adhesive applied to each of the core plates. 2. Preparing a coating roll to absorb the adhesive to the sponge layer provided, the adhesive spraying step of spraying the adhesive to a plurality of places on both sides of the metal plate, and pressing both sides of the metal plate with a sponge layer of the coating roll, It characterized in that it comprises a coating step of uniformly applying the adhesive on both sides of the metal plate.

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As described above, according to the present invention, the following effects can be expected.

Optimized for the adhesion of the thin plate can improve the bonding strength of the adhesive steel sheet, while maximizing the production efficiency in the manufacturing process has the advantage that can be reduced overall costs compared to the prior art.

Along with this, other effects of the present invention are not only described in the above-described embodiments and claims of the present invention, but also possible effects that may occur within a range that can be easily estimated from them, and the possibility of potential advantages that contribute to industrial development. Add that they will be covered by a wider scope.

1 is a flowchart showing a preferred embodiment of the present invention.
2 is a view schematically showing a spray device and a coating device according to the present invention.
3 is a plan view of the core plate according to the present invention.
Figure 4 is a view showing a perspective view of the adhesive steel sheet according to the present invention.
5 is a cross-sectional view of the coating apparatus according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention. Prior to the description, the advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the singular forms "a", "an", and "the" are intended to include the plural as well, and the words referring to directions in the description to help understand the invention. In addition, detailed descriptions of related well-known techniques that may unnecessarily obscure the subject matter of the present invention will be omitted.

The present invention intends to propose an optimized method for laminating and bonding a plurality of thin plates in manufacturing an adhesive steel sheet for a motor core, which is applied to a motor such as an electric vehicle, and becomes more lightweight.

In addition, the present invention by applying the adhesive to the metal plate prior to the blanking process for forming a continuously transferred thin metal plate of the core plate of a predetermined shape, thereby maximizing the efficiency of manufacturing the thin plate as an adhesive steel sheet for the motor core An object of the present invention is to provide a method for manufacturing an adhesive steel sheet for a motor core.

Referring to the accompanying drawings, the manufacturing method of the adhesive steel sheet for a motor core according to the present invention for achieving the above object in detail as follows.

As shown in Figures 1 to 4, the present invention comprises a coating step, a drying step, a molding step and a bonding step sequentially.

The coating process is a process of applying an adhesive for the production of a laminated steel sheet on both sides of the metal plate (P) continuously transferred.

The drying step is a step of semi-curing the applied adhesive by drying the metal plate P to which the adhesive is applied and transported in a constant temperature atmosphere.

In addition, the molding process transfers the metal plate (P), which is dried and transported, to a press molding machine to continuously blank and mold the core plate (C), and then sequentially laminate each of the molded core plates (C) to prepare a joint. It is a process. That is, each time the blank plate is formed into the core plate C, the core plate C is moved to a place to be stacked to stack the blank plates in the order of blanking.

Next, the bonding process is a process of bonding the stacked core plates C by completely curing the adhesive applied to each of the core plates C by pressing the laminated core plates C at a predetermined pressure and temperature and drying them. to be.

In the manufacturing method of the adhesive steel sheet for motor cores of the present invention made as described above, the coating step is, by applying an adhesive to the metal plate (P) before the molding step for forming into the core plate (C), the thin plate for the motor core Looking at the preferred embodiment as a configuration for maximizing the efficiency of manufacturing the adhesive steel sheet as follows.

The main issue in the coating process is to maximize the volatility of the adhesive during adhesive application.

To this end, an embodiment of the coating process according to the present invention consists of a configuration that the adhesive is applied by rubbing on both sides of the metal plate (P) after absorbing the liquid adhesive sufficiently in the sponge.

Meanwhile, as shown in FIGS. 2 and 5, another embodiment of the coating process according to the present invention is performed by the spraying apparatus 100 and the coating apparatus 200.

First, the injection device 100 is formed in a pair of upper and lower portions of the metal plate (P) to be transported has a structure in which a plurality of nozzles are installed along the width direction of the metal plate to spray the adhesive liquid.

In addition, the coating apparatus 200 is installed in a pair of upper and lower portions of the injector 100 along the conveying direction of the metal plate P, and includes a coating roll 210 and a mist generating cover 230.

The coating roll 210 is rotatably installed along an axis, and an adhesive supply pipe 211 is formed to supply a liquid adhesive therein, and a sponge layer 213 is provided on an outer circumferential surface thereof.

In addition, the coating roll 210 communicates the outer circumferential surface of the coating roll 210 with the adhesive supply line 211, and an adhesive discharge line 212 is formed on the pipeline to have an orifice or a nozzle installed therein, so that the inside of the sponge layer 220 is formed. The adhesive is discharged to allow the inner side of the sponge layer 220 to absorb and retain the adhesive.

In addition, the mist generating cover 230 is formed in a semi-circular shape of the cross-section so as to wrap the upper side of the coating roll 210, the mist space portion to create a mist atmosphere by spraying a liquid adhesive solution therein ( MS).

The mist generating cover 230 includes an outer case 231 and a mist generating tank 232 having a semi-circle 1/2 tube shape.

The mist generating tank 232 is formed in the shape of a semi-circle (1/2) tube along the inner circumferential surface of the outer case 231 to store the adhesive liquid therein, and a spray hole communicating internal and external parts to the inner circumferential surface side. The spraying hole 233, such as an ultrasonic vibrator for spraying a liquid adhesive, is formed in the spray hole to spray the adhesive liquid into the mist space portion MS between the sponge layer 213 and the mist generating tank 232. This allows the outer side of the sponge layer 213 to absorb and retain the adhesive.

The coating process using the spray device 100 and the coating device 200 as described above comprises a coating roll preparation step, an adhesive spray step and a coating step.

The coating roll preparation step is a step of preparing the coating by absorbing and supplying the adhesive to the inside and outside of the sponge layer 213 of the coating roll 211.

Next, the adhesive spraying step is a step of spraying the adhesive to a plurality of places on both sides of the metal plate (P) to be continuously transferred.

Subsequently, the coating step is continuously transferred to lower the coating apparatus 200 to both sides of the metal plate P on which the adhesive is sprayed on both sides to press the metal plate P with the sponge layer 213 to uniformly apply the adhesive. Step.

According to the present invention made as described above it is possible to improve the bonding strength of the adhesive steel sheet is optimized for the adhesion of the thin plate, while maximizing the production efficiency in the manufacturing process can be expected to reduce the overall cost relative to the prior art Could be.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains various modifications, changes, and substitutions without departing from the essential characteristics of the present invention. will be. As described above, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical spirit of the present invention, but to describe the scope of the present invention by the embodiments and the accompanying drawings. It doesn't happen. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

P: metal plate
C: core plate
100: injector
200: coating equipment
210: coating roll
211: glue supply line
212: adhesive discharge pipe
213: sponge layer
230: mist generating cover
231: outer case
232: mist generating tank
233: spraying means

Claims (3)

In the method of forming a metal plate that is continuously transported to a core plate of a predetermined shape, and then joining a plurality of the core plate to produce an adhesive steel sheet for a motor core,
A coating process of applying an adhesive to both surfaces of the transferred metal plate;
A drying step of first curing the applied adhesive by drying the metal plate coated with the adhesive;
A molding step of continuously blanking the dried metal plate to form a core plate, and sequentially transferring and stacking each of the molded core plates sequentially; And,
Bonding the laminated core plates by pressing the dried core plates and pressing the dried core plates to completely cure the adhesive applied to each of the core plates, thereby bonding the laminated core plates; Including;
The coating process,
Coating roll preparation step of absorbing the adhesive to the sponge layer provided on the outer peripheral surface of the coating roll,
An adhesive spraying step of spraying an adhesive to a plurality of locations on both sides of the metal plate;
Pressing both sides of the metal plate with a sponge layer of the coating roll, the manufacturing method of the adhesive steel sheet for a motor core, characterized in that it comprises a coating step of uniformly applying an adhesive on both sides of the metal plate. delete delete

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