KR20190125640A - Triple layer bonded metal sheet and apparatus and method for continuously manufacturing the same - Google Patents

Abstract

The present invention relates to an apparatus for continuously manufacturing a triple bonded steel sheet. The continuous manufacturing apparatus comprises: a steel sheet winding roll (10); a steel sheet conveying mechanism continuously conveying a steel sheet (1) from the steel sheet winding roll (10); a plurality of steel sheet guide rollers (11) guiding the transfer while preheating the steel sheet (1) to a predetermined temperature; a lower adhesive film winding roll (20) supplying a lower adhesive film (2) to a lower side of the steel sheet (1); an upper adhesive film winding roll around which an upper adhesive film (3) is wound; at least one lower adhesive film guide roller (21) guiding the lower adhesive film such that the lower adhesive film is laminated on the bottom surface of the steel sheet (1); at least a lower aluminum sheet guide roller (41) guiding a lower aluminum sheet (4) to be laminated on the lower adhesive film while preheating the lower aluminum sheet (4) to a predetermined temperature; a first bonding portion which presses the steel sheet (1) and the lower aluminum sheet (4) while passing the same between two rollers (61, 62) to bond the lower aluminum sheet (4) to the bottom surface of the steel sheet (1); at least one upper adhesive film guide roller (31) guiding the upper adhesive film (3); and a second bonding portion which presses the steel sheet (1) and an upper aluminum sheet (5) while passing the same between a second upper bonding roller (64) and a second lower bonding roller (63) in a state in which the upper aluminum sheet (5) is laminated on the top surface of the steel sheet (1) to bond the upper aluminum sheet (5) to the top surface of the steel sheet (1) of which the lower aluminum sheet (4) is bonded to the bottom surface.

Description

Triple layer bonded metal sheet and apparatus and method for continuously manufacturing the same

The present invention relates to a triple-bonded steel sheet and a triple-bonded steel sheet continuous manufacturing apparatus and method for manufacturing, in particular, an apparatus and method for continuously manufacturing a triple-bonded steel sheet consisting of bonding the aluminum cover sheet to each side of the steel core sheet with an adhesive sheet. It is about.

Recently, OLED TVs using OLED displays have been widely used in accordance with the trend toward larger, thinner, and lighter weight TVs.

Such OLED TVs have a back cover that protects the rear of the OLED display. The back cover of the OLED TV should have sufficient rigidity to prevent the panel from warping, have a strength to protect the main body from the impact from the outside, and it is required that the deformation of the display does not occur.

As such a back cover for OLED TV, what is disclosed and known by following patent document 1 is known.

KR 10-1431432 B1 The back cover disclosed in Patent Document 1 is composed of a composite material consisting of a metal plate on the front and a glass plate in close contact with the back. Since the conventional back cover includes a glass plate, it is excellent in thermal properties such as less heat deformation, but cannot be manufactured by a series of continuous operations, and thus has a disadvantage of low productivity.

The present invention has been devised to solve the above disadvantages of the back cover for the conventional OLED TV, the weight is light, thin thickness so as to be suitable as a material of the back cover of the TV, especially OLED TV is excellent in formability and excellent bending rigidity The object of the present invention is to provide a triple bonded steel sheet having high strength against external impact and high heat dissipation.

Another object of the present invention is to provide an apparatus and a method for continuously manufacturing the triple bond steel sheet described above.

The triple bonded steel sheet (P) of the present invention for achieving the above object is a steel sheet (1), and the aluminum sheet (4) heat-bonded via an adhesive film (2) on one surface of the steel sheet (1) and And the aluminum sheet 5 heat-bonded via the adhesive film 3 on the other surface of the steel sheet 1.

Here, the steel sheet 1 preferably has a thickness of 0.5 mm to 2.0 mm. The aluminum sheets 4 and 5 preferably have a thickness of 0.1 mm to 1.0 mm.

Triple bonded steel sheet continuous manufacturing apparatus of the present invention,

A steel sheet winding roll wound and held by a steel sheet and rotatably supported;

A steel sheet conveying mechanism for continuously pulling the free end of the steel sheet of the steel sheet winding roll to continuously convey the steel sheet wound on the steel steel sheet winding roll at a constant feed rate;

It is arranged in a zigzag in the up and down direction on the path in which the steel sheet is transported on the downstream side of the steel sheet take-up roll to guide the transfer of the steel sheet, each of which is heated to a constant temperature by an internal heat transfer heater wire to guide A plurality of steel sheet guide rollers for preheating the steel sheet to a constant temperature;

A lower adhesive film winding roll for winding and holding a lower adhesive film, rotatably supported under the steel sheet winding roll, and supplying the lower adhesive film to a lower side of the steel sheet which is released from the steel sheet winding roll;

An upper adhesive film winding roll which winds and holds an upper adhesive film, is rotatably supported on the upper side of the steel sheet winding roll, and supplies the wound upper adhesive film on a steel sheet which is released from the steel sheet winding roll and transported. ;

At least one lower adhesive film guide roller for guiding the lower adhesive film such that the lower adhesive film conveyed while being released from the lower adhesive film winding roll is laminated on the bottom surface of the steel sheet;

At least a lower aluminum sheet guide roller for guiding the lower aluminum sheet conveyed while being released from the lower aluminum sheet winding roll to be laminated on the lower adhesive film laminated on the bottom surface of the steel sheet;

While passing the upper adhesive film-steel sheet-lower adhesive film-lower aluminum sheet between the two rollers so that the lower adhesive film and the lower aluminum sheet are laminated on the bottom surface of the steel sheet and the upper adhesive film is laminated on the upper surface of the steel sheet. A first joining portion comprising a first upper adhesive roller and a first lower adhesive roller which press the first aluminum adhesive roller to adhere the lower aluminum sheet to the bottom surface of the steel sheet;

At least one upper adhesive for guiding the upper adhesive film such that the upper adhesive film conveyed while being released from the upper adhesive film winding roll is laminated on the upper surface of the steel sheet bonded to the lower aluminum sheet downstream of the first bonding part. Film guide roller;

2nd upper side adhesion of the steel sheet by which the lower aluminum sheet was joined to the bottom surface, the upper adhesive film was bonded to the upper side, and the upper aluminum sheet laminated | stacked on the upper surface of the upper side adhesive film of the said steel sheet through the said 1st bonding part. A second bonding part which presses while passing between the roller and the second lower adhesive roller to bond the upper aluminum sheet to the upper surface of the steel sheet to which the lower aluminum sheet is bonded to the bottom surface; And

And a planarization roller configured to planarize and pass the triple bonded steel sheet passing through the second bonded portion.

In addition, the triple bonded steel sheet continuous manufacturing method of the present invention,

A steel sheet conveying step of pulling the steel sheet wound on the steel sheet winding roll to convey at a constant conveying speed;

Preheating the steel sheet to a constant temperature with heat transferred from the plurality of tension rollers while guiding the conveyed steel sheet from the steel sheet winding roll to the plurality of tension rollers preheated to a constant temperature;

An upper film supplying step of releasing the upper adhesive film wound on the upper adhesive film winding roll and feeding the upper adhesive film toward the upper side of the steel sheet while conveying at the same speed as the feeding speed of the steel sheet;

A lower film supplying step of feeding the lower adhesive film wound on the lower adhesive film winding roll to the lower side of the steel sheet while being transported at the same speed as that of the steel sheet;

The lower aluminum sheet wound on the lower aluminum sheet winding roll under the steel sheet winding roll is arranged in a zigzag up and down direction, and the lower aluminum sheet is fixed as a row of guide rollers while passing through a plurality of guide rollers preheated to a constant temperature. Preheating to a temperature range;

Heating the preheated lower aluminum sheet with a heater to a predetermined temperature range;

On the upper side of the steel sheet winding roll, the upper aluminum sheet wound on the upper aluminum sheet winding roll is arranged in a zigzag up and down, and the upper aluminum sheet is fixed by a row of guide rollers while passing through a plurality of guide rollers preheated to a constant temperature. Preheating to a temperature range;

Heating the preheated upper aluminum sheet with a heater to a predetermined temperature range;

The lower adhesive film is in close contact with the bottom of the preheated steel sheet, the upper adhesive film is in close contact with the upper surface of the steel sheet in which the lower adhesive film is in close contact with the bottom, and then the lower aluminum sheet is in close contact with the bottom of the lower adhesive film. Bonding the lower aluminum sheet to the bottom surface of the steel sheet by pressing the upper heating roller and the lower heating roller while passing between the upper heating roller of the rubber material and the lower heating roller of the steel material, which are in close contact with each other;

The upper steel heating roller and the lower heating roller of the rubber material while passing between the upper steel heating roller and the lower heating roller of the rubber material while the upper aluminum sheet is laminated on the upper surface of the steel sheet having the lower aluminum sheet bonded to the bottom. And pressing the upper aluminum sheet to the upper side of the steel sheet by pressing.

According to the present invention described above, the weight is light, the thickness is thin, the moldability is excellent, but the bending rigidity is excellent, the strength against the external impact, it is possible to implement a triple bonded steel sheet having high heat dissipation.

In addition, according to the production method of the present invention, since the above-described triple bonded steel sheet can be manufactured continuously, productivity can be improved.

1 is a schematic diagram of an apparatus for manufacturing triple bond steel sheet according to the present invention.
FIG. 2 is an enlarged detail view of part “A” of FIG. 1.
3 is an enlarged detail view of part “B” of FIG. 1.

Hereinafter, an embodiment according to the present invention will be described with reference to the accompanying drawings.

The triple bonded steel sheet P according to the present invention is a steel sheet 1, the aluminum sheet 4 and the steel sheet 1, which is heat-bonded via an adhesive film 2 on one surface of the steel sheet 1, It consists of the aluminum sheet 5 heat-bonded through the adhesive film 3 on the other surface of the.

Preferably, the steel sheet 1 has a thickness of 0.5 mm to 2.0 mm, and the aluminum sheets 4 and 5 are made of an aluminum thin sheet of 0.1 mm to 1.0 mm thickness.

The manufacturing apparatus of the triple bonding steel plate P of this invention joins to the steel sheet winding roll 10 which wound the steel sheet 1, and the upper surface of the said steel sheet 1, as shown in FIG. An upper aluminum sheet winding roll 50 wound around the upper aluminum sheet 5 to be wound, a lower aluminum sheet winding roll 40 wound around a lower aluminum sheet 4 to be joined to the bottom of the steel sheet 1, The upper adhesive film winding roll 30 wound up the upper adhesive film 3 for bonding the upper aluminum sheet 5 to the upper surface of the steel sheet 1, and the lower aluminum sheet on the bottom surface of the steel sheet 1. The lower adhesive film winding roll 20 which wound the lower adhesive film 2 for bonding (4) is provided.

The conveying mechanism (not shown) includes the steel sheet 1 of the steel sheet winding roll 10, the upper aluminum sheet 5 of the upper aluminum sheet winding roll 50, and the lower aluminum sheet of the lower aluminum sheet winding roll 40. (4) is pulled from the free end side in the stacked state and conveyed at a constant speed. Such a transfer mechanism is advantageous for continuous operation, which consists of a pair of transfer rollers.

The plurality of steel sheet guide rollers 11 arranged in a zigzag manner along the transfer path of the steel sheet 1 on the downstream side of the steel sheet take-up roll 10 are unwound from the steel sheet take-up roll 10 and transferred. The steel sheet 1 is preheated to a predetermined temperature before joining the aluminum sheet while transporting.

The at least one lower adhesive film guide roller 21 disposed below the steel sheet guide roller 11 includes a lower adhesive film 2 which is unwound from the lower adhesive film winding roll 20 and transported to the steel sheet 1. The transfer guide to be stacked on the bottom of the.

The at least one lower aluminum sheet guide roller 41 has the lower surface of the steel sheet 1 while preheating the lower aluminum sheet 4 which is released from the lower aluminum sheet winding roll 40 to be transported to a constant temperature. It guides so that it may be laminated | stacked on the lower adhesive film 2.

The first bonding portion comprising the first upper adhesive roller 62 and the first lower adhesive roller 61 includes the lower adhesive film 2 and the lower aluminum laminated on the bottom of the steel sheet 1 and the steel sheet 1. The sheet 4 and the upper adhesive film 3 laminated on the upper surface of the steel sheet 1 are pressed by these two adhesive rollers 61 and 62 while passing between the two rollers 61 and 62 at once. As shown in FIG. 2, the lower aluminum sheet 4 is bonded to the bottom of the steel sheet 1.

At least one upper adhesive film guide roller 31 has an upper adhesive film 3 so as to be laminated on the upper surface of the steel sheet 1 to convey the upper adhesive film 3 which is conveyed while being released from the upper adhesive film winding roll 30. Guide).

The second bonding portion disposed downstream of the first bonding portion is composed of a second upper bonding roller 64 and a second lower bonding roller 63, and passes through the first bonding portion to the lower aluminum sheet 4 on the bottom. Is pressed to the steel sheet 1, the upper adhesive film 3 and the upper aluminum sheet 5 while passing between the second upper adhesive roller 64 and the second lower adhesive roller 63. The upper aluminum sheet 3 is bonded to the upper surface of the steel sheet 1 to which the lower aluminum sheet 4 is bonded.

And flattening rollers 65, 66, 71, 72 which pass through the triple bonded steel sheet P passing through the second bonded portion and planarize it. The flattened triple bonded steel sheet is cut through the flattening roller to the required length and used.

On the other hand, the manufacturing method of the triple bonded steel sheet according to the present invention,

A steel sheet conveying step of pulling the free end of the steel sheet 1 wound on the steel sheet winding roll 10 and conveying it at a constant conveying speed;

The steel sheet 1 is fixed by the heat transferred from the plurality of guide rollers while guiding the steel sheet 1 released from the steel sheet winding roll 10 to the plurality of guide rollers preheated to a predetermined temperature. Preheating to temperature;

An upper film supplying step of releasing the upper adhesive film (3) wound on the upper adhesive film winding roll (30) and feeding the upper adhesive film (3) toward the upper surface of the steel sheet (1) while being transported at the same speed as that of the steel sheet (1);

Lower film supply step of supplying the lower adhesive film (2) wound on the lower adhesive film winding roll 20 toward the lower side of the steel sheet (1) while conveying at the same speed as the conveying speed of the steel sheet (1) ;

Under the steel sheet winding roll 10, the lower aluminum sheet 4 wound on the lower aluminum sheet winding roll 40 is arranged in a zigzag up and down, and the plurality of guide rollers 41 preheated to a constant temperature. Preheating the lower aluminum sheet 4 to a predetermined temperature range with a row of guide rollers 41 passing therethrough;

Heating the preheated lower aluminum sheet (4) to a predetermined temperature range with an electric heater (not shown);

On the upper side of the steel sheet winding roll 10, a plurality of guide rollers 51, which are arranged in a zigzag up and down with the upper aluminum sheet 5 wound up on the upper aluminum sheet winding roll 50, are preheated at a constant temperature. Preheating the upper aluminum sheet 5 to a predetermined temperature range by the heat of the guide roller while passing therethrough;

Heating the preheated upper aluminum sheet (5) to a predetermined temperature range with an electric heater;

The lower adhesive film 2 is in close contact with the bottom of the preheated steel sheet 1, and the upper adhesive film 3 is in close contact with the upper surface of the steel sheet 1 in which the lower adhesive film 2 is in close contact with the bottom. The first upper side while passing between the first upper adhesive roller 62 and the first lower adhesive roller 61 which are in close contact with each other while the lower aluminum sheet 4 is in close contact with the bottom surface of the lower adhesive film 2. Bonding the lower aluminum sheet 2 to the bottom of the steel sheet 1 by pressing the adhesive roller 62 and the first lower adhesive roller 61; And

Passing between the second upper adhesive roller 64 and the second lower adhesive roller 63 in a state where the upper aluminum sheet 5 is laminated on the upper surface of the steel sheet 1 to which the lower aluminum sheet 4 is bonded to the bottom surface. And adhering the upper aluminum sheet 5 to the upper side of the steel sheet 1 by pressing the second upper adhesive roller 64 and the second lower adhesive roller 63.

1: steel sheet 2: upper adhesive film
3: upper adhesive film 4: lower aluminum sheet
5: upper aluminum sheet P: triple bonded steel sheet
10: steel sheet winding roll 11: guide roller
20: lower adhesive film winding roll 21: guide roller
30: upper adhesive film winding roll 31: guide roller
40: lower aluminum sheet winding roll 41: guide roller
50: upper aluminum sheet winding roll 51: guide roller
61: first lower adhesive roller 62: first upper adhesive roller
63: second lower adhesive roller 64: second upper adhesive roller
65, 66, 71, 72: flattening roller

Claims (4)

A triple bonded steel sheet comprising: a steel sheet 1, an aluminum sheet 4 bonded to one surface of the steel sheet 1 via an adhesive film 2, and the other surface of the steel sheet 1; A triple laminated steel sheet comprising an aluminum sheet (5) heat-bonded via an adhesive film (3). The method of claim 1,
The steel sheet (1) has a thickness of 0.5mm to 2.0mm, the aluminum sheet (4, 5) is a triple laminated steel sheet, characterized in that having a thickness of 0.1mm to 1.0mm. In the continuous manufacturing apparatus of the triple bonded steel sheet (P),
A steel sheet winding roll 10 wound around the steel sheet 1 and rotatably supported;
A steel sheet conveying mechanism for continuously pulling the free end of the steel sheet 1 of the steel sheet winding roll 10 to continuously convey the steel sheet 1 wound on the steel sheet winding roll 10 at a constant feed rate;
On the downstream side of the steel sheet winding roll 10, the steel sheet 1 is arranged in a zigzag in the up and down direction on a path where the steel sheet 1 is conveyed, thereby guiding the conveyance of the steel sheet 1, each of which is formed by an internal heat heater A plurality of steel sheet guide rollers 11 heated to a constant temperature to preheat the guiding steel sheet 1 to a constant temperature;
The lower adhesive film 2 is wound and held, rotatably supported under the steel sheet winding roll 10, and the lower adhesive film 2 is unwound from the steel sheet winding roll 10 to be transported. A lower adhesive film winding roll 20 for supplying the steel sheet 1 downward;
The upper adhesive film 3 is wound and held, rotatably supported on the upper side of the steel sheet winding roll 10, and the wound upper adhesive film 3 is released from the steel sheet winding roll 10. An upper adhesive film winding roll supplied onto the conveyed steel sheet 1;
At least one lower adhesive film guide roller for guiding the lower adhesive film such that the lower adhesive film conveyed while being released from the lower adhesive film winding roll 20 is laminated on the bottom surface of the steel sheet 1;
At least a lower aluminum sheet guide roller for guiding the lower aluminum sheet conveyed while being released from the lower aluminum sheet winding roll to be laminated on the lower adhesive film laminated on the bottom surface of the steel sheet 1;
The upper adhesive film-steel sheet-lower adhesive film-lower aluminum sheet is laminated so that the lower adhesive film and the lower aluminum sheet are laminated on the bottom surface of the steel sheet 1 and the upper adhesive film is laminated on the upper surface of the steel sheet 1. A first joining portion comprising a first upper adhesive roller and a first lower adhesive roller which press while passing between two rollers to bond the lower aluminum sheet to the bottom surface of the steel sheet 1;
The upper adhesive film 3 so that the upper adhesive film 3 conveyed while being released from the upper adhesive film winding roll is laminated on the upper surface of the steel sheet 1 bonded to the lower aluminum sheet on the downstream side of the first bonding part. At least one upper adhesive film guide roller for guiding);
Of the steel sheet 1 through which the lower aluminum sheet is bonded to the bottom surface and the upper adhesive film 3 is bonded to the upper surface of the first bonding part, and the upper adhesive film 3 of the upper surface side of the steel sheet 1. The upper aluminum sheet laminated on the upper surface is pressed while passing between the second upper adhesive roller 64 and the second lower adhesive roller 63, and the upper surface of the steel sheet 1 to which the lower aluminum sheet 4 is bonded to the bottom surface. And a second bonding portion for adhering the upper aluminum sheet to the upper portion of the second bonding portion. In the continuous manufacturing method of triple bonded steel sheet,
A steel sheet conveying step of pulling the free end of the steel sheet 1 wound on the steel sheet winding roll 10 and conveying it at a constant conveying speed;
The steel sheet 1 is fixed by the heat transferred from the plurality of guide rollers while guiding the steel sheet 1 released from the steel sheet winding roll 10 to the plurality of guide rollers preheated to a predetermined temperature. Preheating to temperature;
An upper film supplying step of releasing the upper adhesive film (3) wound on the upper adhesive film winding roll (30) and feeding the upper adhesive film (3) toward the upper surface of the steel sheet (1) while being transported at the same speed as that of the steel sheet (1);
Lower film supply step of supplying the lower adhesive film (2) wound on the lower adhesive film winding roll 20 toward the lower side of the steel sheet (1) while conveying at the same speed as the conveying speed of the steel sheet (1) ;
Under the steel sheet winding roll 10, the lower aluminum sheet 4 wound on the lower aluminum sheet winding roll 40 is arranged in a zigzag up and down, and the plurality of guide rollers 41 preheated to a constant temperature. Preheating the lower aluminum sheet 4 to a predetermined temperature range with a row of guide rollers 41 passing therethrough;
Heating the preheated lower aluminum sheet (4) to a predetermined temperature range with an electric heater (not shown);
On the upper side of the steel sheet winding roll 10, a plurality of guide rollers 51, which are arranged in a zigzag up and down with the upper aluminum sheet 5 wound up on the upper aluminum sheet winding roll 50, are preheated at a constant temperature. Preheating the upper aluminum sheet 5 to a predetermined temperature range by the heat of the guide roller while passing therethrough;
Heating the preheated upper aluminum sheet (5) to a predetermined temperature range with an electric heater;
The lower adhesive film 2 is in close contact with the bottom of the preheated steel sheet 1, and the upper adhesive film 3 is in close contact with the upper surface of the steel sheet 1 in which the lower adhesive film 2 is in close contact with the bottom. The first upper side while passing between the first upper adhesive roller 62 and the first lower adhesive roller 61 which are in close contact with each other while the lower aluminum sheet 4 is in close contact with the bottom surface of the lower adhesive film 2. Bonding the lower aluminum sheet 2 to the bottom of the steel sheet 1 by pressing the adhesive roller 62 and the first lower adhesive roller 61; And
Passing between the second upper adhesive roller 64 and the second lower adhesive roller 63 in a state where the upper aluminum sheet 5 is laminated on the upper surface of the steel sheet 1 to which the lower aluminum sheet 4 is bonded to the bottom surface. While pressing the second upper adhesive roller 64 and the second lower adhesive roller 63 while adhering the upper aluminum sheet (5) to the upper side of the steel sheet (1); Continuous manufacturing method of bonded steel sheet.

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