DE102009060170A1 - Method for producing laminated cores for electrical machines - Google Patents

Abstract

The invention relates to a method for producing laminated cores (2) for electrical machines, in particular rotor and / or stator stacks, in which a plurality of individual laminations (8) are stacked one above the other and joined to form a laminated core (2). According to the invention, the individual sheets (8) are aligned relative to one another by the arrangement on or in a workpiece carrier (9) and an adhesive (13) is then made contactlessly on a wall surface of the sheet stack (2) formed by the end faces of the individual sheets (8). is sprayed on.

Description

The invention relates to a method for producing laminated cores for electrical machines, in particular of rotor or stator, in which a plurality of individual sheets are stacked and joined by gluing to form a laminated core.

In the manufacture of electrical machines often formed as rotor or stator packs laminated cores are used, which consist of stacked and interconnected electric plates. The individual sheet metal blanks of the laminated core are usually produced in stamping presses and then stacked. The interconnection of the sheets with each other can be done by gluing, welding or by mechanical fasteners, such as rivets.

When welding and riveting the sheets, it proves to be disadvantageous that an electrical contact between the individual sheets is produced. This electrical contact increases, especially at high frequencies, the losses in the electric motor during operation.

The gluing of the sheets has the advantage that there is no electrical contact between the individual sheets of a laminated core through the arranged between the sheets of adhesive. As a result, the efficiency of the electric motor is improved with the same package size or it can be used a smaller motor to achieve the same output power.

A known method for the production of electric motors with a high power density is that the sheets are provided with a special coating, a so-called baked enamel, so that the sheets forming the laminated core are later baked together by heating in an oven. As a result, a better mechanical strength and possibly a reduction of the noise is achieved by vibrations.

In the baked enamel process, it proves to be disadvantageous that the stacked sheets must be baked for up to two hours at temperatures between 90 ° C and 200 ° C in the oven to the desired strength of the adhesive bond between the sheets and To be able to ensure the mechanical strength of the laminated core. In addition to the high production times, the large investment for the required equipment and the low energy efficiency of the process prove to be particularly disadvantageous.

From the EP 1 833 145 A2 A method of the aforementioned type is already known in which individual sheets are punched out of a starting material designed as a strip by means of a stamping press. Before punching, an adhesive is applied in points to the top and / or bottom of the strip. Here, the adhesive can be applied on the one hand before the punching tool within the press with an external equipment or on the other hand in the punching tool itself with an integrated system. After application of the adhesive dots on the strip, the individual sheets are punched out of the strip and the laminated core is stacked in the die of the punching tool or in a die assigned to the die and joined together. A brake associated with the tray prevents the individual sheets from falling down through the tray.

Here, the high investment costs for a punch press with an integrated system for applying the adhesive and a die with a shaft and integrated brake prove to be particularly disadvantageous. Furthermore, as a result of the fact that the stamping of the individual sheets takes place only after the application of the adhesive dots, the stamp may touch the adhesive dots and these are destroyed, so that a process-reliable connection of the individual sheets to one another is not guaranteed. Another disadvantage is the contamination of the punch or the die by the contacted during the punching process adhesive points and an associated increased cleaning and maintenance costs, resulting in undesirable downtime of the punch press.

Other methods for producing laminated cores by gluing are from the DE 35 03 019 A1 and the DE 32 44 823 A1 known.

The invention has for its object to provide an energy-efficient and process-safe method for the production of laminated cores. At the same time low cycle times are to be achieved with the method and high investment costs are avoided.

This object is achieved by a method according to the features of patent claim 1. The subclaims relate to particularly expedient developments of the invention.

According to the invention, therefore, a method for producing laminated cores for electrical machines is provided, in which the individual sheets are aligned by the arrangement on or in a workpiece carrier relative to each other and then an adhesive contactless on a wall surface formed by the end faces of the individual sheets of the laminated core is sprayed on. By applying the adhesive as a spray, a possibility is created, the adhesive finely dosed and evenly distributed on the wall surface of the laminated core. Due to the capillary effect of the adhesive passes from the end faces of the individual sheets in the gaps between the individual sheets, wets the oppositely disposed surfaces of each adjacent individual sheets and glued the individual sheets to a laminated core. Furthermore, electrical contact between the individual sheets is prevented by the adhesive arranged between the individual sheets, so that relatively small electric motors with high power density can be produced by means of the method according to the invention. By gluing the individual sheets on a workpiece carrier following the punching process contamination of the individual sheets producing punching press is effectively prevented.

A particularly advantageous embodiment of the method according to the invention is also provided in that the individual sheets are arranged in or on the workpiece carrier such that openings arranged in the individual sheets form an opening in the laminated core. If the laminated core is to be used as a rotor core of an electric motor, the opening serves to receive a shaft, and if the laminated core is to be used as a stator, the rotor is arranged in the opening.

If the laminated core is a rotor core, it proves to be particularly expedient that the individual sheets are arranged on an engaging in the openings of the individual sheets centering mandrel of the workpiece carrier. As a result, the individual sheets on the one hand exactly aligned relative to each other and on the other hand is created by the engaging in the openings centering a possibility to ensure the accessibility of the outer wall surface of the laminated core for spraying the adhesive. The bonding and insulation of the individual sheets of the rotor is advantageously carried out in a stator facing the region of the rotor, so that the losses of the electric motor can be kept low.

In the production of a stator core, on the other hand, it proves to be particularly expedient, if the individual sheets are arranged in a workpiece carrier designed as a container such that an outer wall surface of the laminated core at least partially rests against a container wall. As a result, the orientation of the individual sheets is effected by the voltage applied to the container wall outer wall surface, so that then the adhesive can be sprayed onto an opening in the laminated core limiting inner wall surface of the laminated core. The bonding and insulation of the individual sheets of the stator takes place in a region facing the rotor, so that the losses of the electric motor can be kept low.

Another particularly advantageous development of the method according to the invention provides that the individual sheets arranged in or on the tool carrier are subjected to a pressure compressing the individual sheets before and / or after the adhesive is sprayed onto the wall surface of the laminated core. The pressure can ensure a uniform curing of the adhesive and a uniform package strength. Furthermore, by the pressure acting on the individual sheets pressure of the distance of the stacked individual sheets can be reduced. The smaller the distance of the individual sheets from one another, the greater is the existing capillary pressure and the further the adhesive penetrates into the gap between the individual sheets.

A particularly economical method is also provided in that the individual sheets are produced by means of a stamping press from a starting material, which is the punch press is supplied as a continuous strip, in particular as a coil.

The economy of the method according to the invention is further enhanced by the fact that the individual sheets are arranged in the punch press immediately after a punching operation in or on the workpiece carrier and transported together with the workpiece carrier from the punch press, wherein the individual sheets during the subsequent steps or on the workpiece carrier remain and the workpiece carrier is moved by a conveyor belt. As a result, additional manipulations of the individual sheets and the laminated cores are not required. The individual sheets may remain after the punching operation, during the spraying of the adhesive and during the pressurization and until the completion of the curing process in the respective workpiece carrier.

Furthermore, it proves to be particularly useful if a provided for spraying the adhesive metering device, in particular spray gun, and to be sprayed wall surface of the laminated core are moved relative to each other during the spraying process. In this way, the distribution of the adhesive and the wetting of the wall surface can be done very effectively and finely dosed. Soiling of the workpiece carrier by sprayed adhesive or by running down on the wall surface of the laminated core adhesive can be minimized. Here, on the one hand, the metering device can be moved relative to the stationarily arranged laminated core and, on the other hand, it is possible that the laminated core is moved relative to the stationary arranged metering device.

In the production of stator packs, it proves to be particularly advantageous that the metering device for spraying the adhesive is at least partially introduced into the opening of the laminated core. In this way, the distance of the metering device can be optimized by the sprayed to the inner wall of the laminated core.

A contamination of the individual sheets producing punching press by the contact of the punch with the adhesive points, as described above, can be prevented in the inventive method that the spraying of the adhesive takes place on the one hand only after the punching operation and on the other hand in the end faces of the individual sheets , It can be used a commercial punch press, whereby the investment costs for a punch press can be saved with an integrated adhesive application system. By spraying the adhesive in the region of the end face, it is also impossible for a clamping device acting on the individual sheets to come into contact with the adhesive under pressure. Furthermore, the use of a cold-curing adhesive provides an energy-efficient, process-reliable method by which low cycle times can be ensured.

The invention allows numerous embodiments. With reference to the single figure, the inventive method will be described below. The figure shows a schematic representation of a manufacturing facility 1 for the production of sheet metal pacts 2 for electrical machines, in particular rotor and / or stator packs. One on a coil 3 arranged starting material 4 , especially electrical sheet, is a punch press 5 fed continuously. By means of a stamp 6 arranged punching tool 7 be from the supplied strip-shaped starting material 4 Single sheets 8th punched out and in a trained as a container and in the punch press 5 arranged workpiece carrier 9 stacked. In the punching process are from the individual sheets 8th punched out in the figure, not shown openings, wherein the individual sheets 8th through the workpiece carrier 9 be aligned so that the openings of the individual sheets 8th are arranged one above the other, so that together they form an opening in the laminated core 2 form.

If in the workpiece carrier 9 the desired or required number of individual sheets 8th is arranged, the workpiece carrier 9 together with the individual sheets 8th through a conveyor belt 10 from the punch press 5 transported. Outside the punch press 5 is a metering device designed as a spray gun 11 in the opening in the workpiece carrier 9 arranged laminated cores 2 introduced (directional arrow 12 ). The spray gun becomes a cold curing adhesive 13 on one through the end faces of the individual sheets 8th formed wall surface sprayed. In the described embodiment, this wall surface is through an opening in the laminated core 2 bounding inner wall formed. The adhesive 13 passes through the capillary effect in a gap between the individual sheets 8th and wets the surfaces of each adjacent individual sheets 8th at least partially.

After spraying the adhesive 13 becomes the metering device 11 again from the opening of the laminated core 2 moved out and the individual sheets 8th be through a tensioning device 14 with a pressure compressing the individual sheets 15 applied. During the pressurization hardens at least in sections between the individual sheets 8th arranged adhesive 13 out. Following are the joined laminated cores 2 from the workpiece carrier 9 away. Advantageously, those on the conveyor belt 10 arranged workpiece carrier 9 moved continuously or intermittently during the process according to the invention. To clean the example by dripping adhesive 13 dirty workpiece carrier 9 To facilitate, they may have a coating of Teflon.

LIST OF REFERENCE NUMBERS

1

manufacturing facility

2

laminated core

3

coil

4

starting material

5

punch press

6

stamp

7

punching tool

8th

Single sheet

9

pallet holder

10

conveyor belt

11

metering

12

arrow

13

adhesive

14

tensioning device

15

print

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 1833145 A2 [0007]
• DE 3503019 A1 [0009]
• DE 3244823 A1 [0009]

Claims (10)

Method for producing laminated cores ( 2 ) for electrical machines, in particular rotor and / or stator packs, in which a plurality of individual sheets ( 8th ) stacked on top of one another and glued to a laminated core ( 2 ), characterized in that the individual sheets ( 8th ) by the arrangement on or in a workpiece carrier ( 9 ) are aligned relative to each other and then an adhesive ( 13 ) contactlessly on one through the end faces of the individual sheets ( 8th ) formed wall surface of the laminated core ( 2 ) is sprayed on. Method according to claim 1, characterized in that the individual sheets ( 8th ) in or on the workpiece carrier ( 9 ), that in the individual sheets ( 8th ) arranged openings an opening in the laminated core ( 2 ) form. Method according to claims 1 or 2, characterized in that the individual sheets ( 8th ) on one in the openings of the individual sheets ( 8th ) engaging centering mandrel of the workpiece carrier ( 9 ) to be ordered. Method according to at least one of the preceding claims, characterized in that the individual sheets ( 8th ) in such a container designed as a container ( 9 ) are arranged so that an outer wall surface of the laminated core at least partially rests against a container wall. Method according to at least one of the preceding claims, characterized in that the adhesive ( 13 ) on an opening in the laminated core ( 2 ) limiting inner wall surface of the laminated core ( 2 ) is sprayed on. Method according to at least one of the preceding claims, characterized in that the in or on the workpiece carrier ( 9 ) arranged individual sheets ( 8th ) before and / or after the spraying of the adhesive ( 13 ) on the wall surface of the laminated core ( 2 ) with a the individual sheets ( 8th ) compressive pressure ( 15 ). Method according to at least one of the preceding claims, characterized in that the individual sheets ( 8th ) by means of a punch press ( 5 ) from a starting material ( 4 ), which of the punch press ( 5 ) as a continuous strip, in particular as a coil ( 3 ) is supplied. Method according to at least one of the preceding claims, characterized in that the individual sheets ( 8th ) in the punch press ( 5 ) immediately after a punching operation in or on the workpiece carrier ( 9 ) and together with the workpiece carrier ( 9 ) from the punch press ( 5 ), whereby the individual sheets ( 8th ) during the subsequent process steps in or on the workpiece carrier ( 9 ) and the workpiece carrier ( 9 ) by a conveyor belt ( 10 ) is moved. Method according to at least one of the preceding claims, characterized in that one for spraying the adhesive ( 13 ) provided metering device ( 11 ), in particular spray gun, and the wall surface of the laminated core to be sprayed ( 2 ) are moved relative to each other during the spraying operation. Method according to at least one of the preceding claims, characterized in that the metering device ( 11 ) for spraying the adhesive ( 13 ) at least partially in the opening of the laminated core ( 2 ) is introduced.

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