KR20210041920A - Manufacturing method of cable veyor - Google Patents

Abstract

The present invention relates to a method for manufacturing a cable veyor, wherein the cable veyor is manufactured by a pair of compression rollers. From a structure including a valley forming roller of compressing a portion in which a sealing fusion unit is formed on an outer surface of the cable veyor discharged from a discharge side of the pair of compression rollers, and forming a valley, adhesion or fusion defects can be reduced in a manufacturing process, production costs can be reduced, and convenience for work of workers using the cable veyor can be promoted.

Description

Cable bayer manufacturing apparatus and method {MANUFACTURING METHOD OF CABLE VEYOR}

The present invention relates to an apparatus and method for manufacturing a cable bayer, and more particularly, it is possible to reduce adhesion or fusion defects in the manufacturing process and to reduce production costs, as well as to promote convenience in the work of workers using a cable bayer. It relates to an apparatus and method for manufacturing a cable bayer.

Currently, transmission lines such as cables and air hoses are used for energy supply or signal transmission in various industrial machines such as semiconductor equipment, clean room equipment, and robots.

In addition, a transmission line veyor is used to safely protect and move the transmission line.

Transmission line bayers are also called cable veyors.

In general, a transmission line bayer includes a plurality of unit blocks arranged in a line and a connection unit for connecting the plurality of unit blocks.

The connection unit connects a plurality of unit blocks to enable bending of the transmission line bayer.

As invented from the above point of view, there may be mentioned such things as "support module for long-axis transmission line sleeve" (hereinafter referred to as prior art) of Patent No. 10-1995954.

The prior art includes coverings with a plurality of receiving spaces formed. In the production of a general transmission line bayer including the prior art, most of the cases are formed using a mold for forming the wire hole and the laminated portion by heat fusion.

However, manufacturing and designing such a mold requires a lot of cost and time, and fusion defects often occur because the heat-sealed surface is not uniformly formed depending on the type of material.

That is, when manufacturing a general transmission line bayer, the laminated portion is formed by pressing or heat-sealing using the above-described mold, but defects in the bonding or heat-sealed portion for forming the bonded portion often occur.

Registered Patent No. 10-1995954

The present invention was invented to improve the above-described problems, and the cable bayer is capable of reducing adhesion or fusion defects in the manufacturing process and reducing production costs, as well as enhancing the convenience of work for workers using a cable bayer. It is to provide a manufacturing apparatus and method.

In order to achieve the above object, the present invention provides a pair of inner layers each having a first width formed on a surface facing the first material and having a second material formed on the opposite side of the first material, and the A pair of second materials are formed on opposite sides of the second material and have a second width greater than the first width on which the first material is formed on opposite sides of the second material, and are disposed outside the pair of inner layers. A pair of pressing rollers provided to pressurize the outer layer by heating and pressurizing the pair of outer layers to produce a cable bayer having a plurality of cable storage spaces and a plurality of sealing fusion portions; And a plurality of disks formed in the shape of a disk for compressing the portion where the sealing fusion part is formed on the outer surface of the cable bayer, further compressing the heat-sealed state of the second material of the pair of outer layers, and at the same time, the It is possible to provide a cable bayer manufacturing apparatus comprising a bone forming roller for forming a valley so that the formation position of the sealing fusion part can be visually recognized.

In addition, the present invention includes a first step of arranging a plurality of inner layers of a pair having a first width each formed on a surface facing the first material and having a second material formed on the opposite side of the first material in a line; A pair of outer layers each formed on a surface facing the second material and having a second width greater than the first width on which the first material is formed on opposite sides of the second material is formed of the pair of inner layers. A second step of disposing on the outside; And a plurality of cable storage spaces and a plurality of cable storage spaces between the pair of outer layers by heating and pressing while passing the pair of outer layers between a pair of crimping rollers provided to form a plurality of sealing fusion parts. It goes without saying that it is possible to provide a method of manufacturing a cable bayer comprising a third step of manufacturing a cable bayer formed in a line along the width direction of the pair of outer layers.

According to the present invention having the above configuration, the following effects can be achieved.

First, according to the present invention, by manufacturing a cable bayer through a crimping roller and a bone forming roller, it is possible to eliminate adhesion or thermal bonding defects that have often occurred in the existing cable bayer, and thus, it will be possible to significantly increase production efficiency.

In addition, the present invention uses a valley forming roller capable of manufacturing cable bayers having various widths and sizes according to the production environment without the need to design and manufacture complex and expensive molds such as conventional cable bayers. It has the effect of being able to actively respond to the demands of various consumers, as it becomes possible to produce products.

In addition, the present invention uses a bone forming roller to form a valley on the sealing fusion part, so that the operator can work with a cable bayer having a familiar shape and shape, such as using an existing product, so that the operation is convenient. You will be able to plan.

1 is a side conceptual view schematically showing the overall structure of a cable bayer manufacturing apparatus according to an embodiment of the present invention
FIG. 2 is a conceptual diagram showing the structure of a pair of crimping rollers, which are the main parts of the present invention, as viewed from the point IIa of FIG. 1 as viewed from the point of view IIa of FIG. 1 as shown in each part of the cable bayer manufacturing apparatus according to an embodiment of the present invention. , FIG. 2(b) is a conceptual diagram showing the structure of a bone-forming roller that is a main part of the present invention as viewed from the point IIb of FIG. 1
3 is a conceptual diagram showing manufacturing a cable bayer using a cable bayer manufacturing apparatus according to another embodiment of the present invention
Figure 4 shows the structure of the bone forming roller used in the cable bayer manufacturing apparatus according to another embodiment of the present invention, Figure 4 (a) is a side conceptual view of the bone forming roller, Figure 4 (b) is bone formation An exploded side conceptual diagram showing the overall coupling relationship of the roller
5 is a conceptual diagram sequentially showing a method of manufacturing a cable bayer according to an embodiment of the present invention

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to embodiments to be described later in detail together with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but will be implemented in a variety of different forms.

In the present specification, the present embodiment is provided to complete the disclosure of the present invention, and to fully inform the scope of the invention to those of ordinary skill in the art to which the present invention pertains.

And the invention is only defined by the scope of the claims.

Accordingly, in some embodiments, well-known components, well-known operations, and well-known techniques have not been described in detail in order to avoid obscuring interpretation of the present invention.

In addition, throughout the specification, the same reference numerals refer to the same constituent elements, and terms used in the present specification (referred to) are for explaining embodiments and not limiting the present invention.

In this specification, the singular form also includes the plural form unless specifically stated in the phrase, and the components and actions referred to as ``including (or including)'' do not exclude the presence or addition of one or more other components and actions. .

Unless otherwise defined, all terms (including technical and scientific terms) used in the present specification may be used with meanings that can be commonly understood by those of ordinary skill in the art to which the present invention belongs.

In addition, terms defined in commonly used dictionaries are not interpreted ideally or excessively unless they are defined.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

For reference, FIG. 1 is a side conceptual diagram schematically showing the overall structure of an apparatus for manufacturing a cable bayer according to an embodiment of the present invention.

And, Figure 2 shows each part of the cable bayer manufacturing apparatus according to an embodiment of the present invention, Figure 2 (a) is a pair of crimping rollers 410, which are the main parts of the present invention as viewed from the point IIa of FIG. A conceptual diagram showing the structure of 420), and FIG. 2(b) is a conceptual diagram showing the structure 500 of a bone-forming roller that is a main part of the present invention as viewed from the point IIb of FIG. 1.

And, Figure 3 is a conceptual diagram showing the production of the cable bayer 300 using the cable bayer manufacturing apparatus according to another embodiment of the present invention.

In addition, Figure 4 shows the structure of the bone forming roller 500 used in the cable bayer manufacturing apparatus according to another embodiment of the present invention, Figure 4 (a) is a side conceptual view of the bone forming roller 500, Figure 4 (b) is an exploded side conceptual view showing the overall coupling relationship of the bone forming roller 500.

In addition, FIG. 5 is a conceptual diagram sequentially showing a method of manufacturing a cable bayer according to an embodiment of the present invention.

First, the present invention manufactures the cable bayer 300 by a pair of crimping rollers 410 and 420 as shown, but the cable bayer 300 discharged from the discharge side of the pair of crimping rollers 410 and 420 It can be seen that it is a structure including a bone forming roller 500 for compressing the portion where the sealing fusion part 320 is formed on the outer surface of the) and forming a bone.

Here, the cable bayer 300 is formed by a pair of inner layers 100 and a pair of outer layers 200 supplied along a transparent arrow direction between the pair of pressing rollers 410 and 420.

At this time, the pair of inner layers 100 are respectively formed on the surface facing the first material 10 and the first width w1 in which the second material 20 is formed on the opposite side of the first material 10. To have.

In addition, the pair of outer layers 200 are formed on the side opposite to the second material 20, and are formed on the opposite side of the second material 20 and are larger than the first width w1 in which the first material 10 is formed. It has a large second width w2 and is disposed outside the pair of inner layers 100.

In this way, the pair of compression rollers 410 and 420 heat and press the pair of outer layers 200 surrounding the pair of inner layers 100 to form a plurality of cable storage spaces 310 and a plurality of sealing fusion parts ( It is to manufacture a cable bayer 300 having 320).

On the other hand, the bone forming roller 500 is disposed on the discharge side of the pair of crimping rollers 410 and 420, and a disk shape that compresses the portion where the sealing fusion part 320 is formed on the outer surface of the cable bayer 300 It includes a plurality of disks 510 formed as, and at the same time further compressing the heat-sealed state of the second material 20 of the pair of outer layers 200, and visually determining the formation position of the sealing and fusion part 320 They play a role in forming bones so that they can be recognized.

It goes without saying that the present invention can be applied to the above-described embodiments, and can also be applied to the following various embodiments.

First, the first material 10 may be ePTFE and the second material 20 may be TPU.

ePTFE is composed of more than 9 billion microscopic holes per square inch, and the size of one hole is more than 20,000 times smaller than that of water droplets and more than 700 times larger than water vapor molecules, so liquids such as rain or snow from outside cannot penetrate and water vapor inside is It is a substance that helps to be discharged.

TPU is a thermoplastic polyurethane elastomer, a polyurethane-based thermoplastic elastomer, a material that has mechanical properties such as the most excellent tensile strength, tear strength, and abrasion resistance among thermoplastic elastomers, and is widely used where high durability is required.

Meanwhile, a pair of pressing rollers 410 and 420 may have a rubber layer (not shown below) formed on their respective surfaces.

At this time, the pair of crimping rollers 410 and 420 is capable of adjusting the distance between each outer circumferential surface, and also adjusting the pressure and the thickness of the cable bayer 300, which is a crimping object.

Meanwhile, the bone forming roller 500 may further include a main shaft 520 and a spacer 530 mounted on the main shaft 520 as shown in FIG. 4.

Here, the main shaft 520 has an outer circumferential surface on which a plurality of disks 510 are coupled through and spaced apart from each other.

In this case, the above-described spacer 530 is a plurality of members mounted on the main shaft 520 and disposed between each of the plurality of disks 510.

That is, the plurality of spacers 530 are provided to maintain the spaced apart from each other of the plurality of disks 510.

The plurality of spacers 530 may have the same or different lengths from each other, and the lengths of the plurality of spacers 530 may be formed to be shorter than the length of the main shaft 520.

Accordingly, the disks 510 are disposed on the main shaft 520 in accordance with the position corresponding to the sealing fusion part 320 of the cable bayer 300, and the disks disposed between and at the outermost side of each of the disks 510 By disposing the spacers 530 on the outer surface of the 510, the discs 510 are prevented from being separated, and a valley is formed at an accurate position, that is, a position corresponding to the sealing fusion part 320.

That is, the bone forming roller 500 forms valleys on both sides or one side of the outer surface of the cable bayer 300 corresponding to the sealing fusion unit 320 as described above, so that the operator can use the cable manufactured by the device according to the present invention. Even when working with the bayer 300, it will be possible to visually recognize and work the cable bayer 300 formed of a combination of a familiar shape and shape without feeling a sense of difference or incongruity with the existing cable bayer.

Hereinafter, a method of manufacturing a cable bayer using the cable bayer manufacturing apparatus according to a preferred embodiment of the present invention will be described as follows.

First, the inner layer 100 and the outer layer 200 are pushed between a pair of pressing rollers 410 and 420 to produce a cable bayer 300, but the bone forming roller 500 is a cable bayer. A valley is formed in the sealing fusion part 320 formed in 300, and the inner layers 100 are arranged in a line for this (S1: first step).

Thereafter, an embodiment in which the outer layers 200 are disposed (S2: second step) and then heated and pressurized to produce a cable veyor 300 (S3: third step) may be applied.

First, in the first step (S1), the first material 10 has a first width (w1) formed on each side facing each other and the second material 20 formed on the opposite side of the first material 10 An operation of arranging a plurality of the pair of inner layers 100 in a line is performed.

Next, in the second step (S2), the second material 20 is formed on the opposite side, and the first material 10 is formed on the opposite side of the second material 20 than the first width w1 An operation of disposing a pair of outer layers 200 having a large second width w2 on the outer side of the pair of inner layers 100 is performed.

Thereafter, in the third step (S3), a pair of outer layers 200 are provided on a pair of pressing rollers 410 and 420 provided to form a plurality of cable storage spaces 310 and a plurality of sealing fusion parts 320. ) To heat and pressurize while passing through.

Accordingly, a plurality of cable storage spaces 310 and a plurality of sealing fusion parts 320 are formed between the pair of outer layers 200 in a line along the width direction of the pair of outer layers 200. ) Is produced.

First, before looking at the first step (S1), a more detailed look with reference to FIG. 5 will be made based on the column 110 disposed above the drawing among a pair of inner layers 100 arranged in a row. As a result, the first material 10 is formed on the first surface 101, and the second material 20 is formed on the second surface 102 opposite to the first surface 101.

A first material ( 10) is formed, and the second material 20 is formed on the fourth surface 104 opposite to the third surface 103.

Among the pair of outer layers 200 that surround a pair of inner layers 100 arranged in a row on the outer side, the fifth surface 205 is based on the outer layer 210 disposed above the drawing. The second material 20 is formed, and the first material 10 is formed on the sixth surface 206 opposite to the fifth surface 205.

The second material 20 is formed on the seventh surface 207 facing the fifth surface 205 based on the outer layer 220 disposed at the bottom of the drawing among the pair of outer layers 200 described above. Then, the first material 10 is formed on the eighth surface 208 opposite to the seventh surface 207.

In addition, in the third step (S3), by heating and pressing the pair of outer layers 200 by the pair of pressing rollers 410 and 420, the second materials respectively formed on the facing surfaces of the outer layer 200 As the (20) abuts and is fused, it is possible to form the sealing fusion part (320).

In order to form the sealing fusion part 320, in the first step (S1), a plurality of the pair of inner layers 100 are arranged in a row, respectively, but the pair of inner layers 100 are arranged spaced apart at regular intervals, respectively. Or it could be arranged to touch.

Looking at the third step (S3) in more detail, by heating and pressing the pair of outer layers 200, the second materials 20 respectively formed on the facing surfaces of the pair of outer layers 200 are thermally fused. At the same time, the process in which the second material 20 each formed on the facing surface of the pair of outer layers 200 and the second material 20 of each of the pair of inner layers 100 are thermally fused is performed. You can see what's happening.

On the other hand, in the third step (S3), the cable bayer 300 having a plurality of sealing and fusion parts 320 as shown in FIGS. 3 and 4 to visually identify the position where the plurality of sealing and fusion parts 320 are formed. The operation of compressing with the bone forming roller 500 on which the plurality of disks 510 formed in the shape of a disk are mounted on the outer surface of may be additionally performed.

The plurality of disks 510 provided on the bone forming roller 500 press the outer surface of the cable bayer 300 to face the pair of outer layers 200 at positions corresponding to the plurality of sealing fusion parts 320. A valley of a certain depth is formed on the viewing surface.

These bone-forming rollers 500 are arranged on one side of the outer surfaces of both sides of the cable bayer 300 as shown in FIG. 3(a) to compress the cable bayer 300, or with FIG. 2(b) or FIG. 3(b). The cable bayer 300 may be crimped by placing it on both sides together.

Therefore, the valley of a certain depth formed on both sides or one side of the outer surface of the cable bayer 300 by the bone forming roller 500, even if the operator works using the cable bayer 300 manufactured by the device according to the present invention, the existing It is intended to play a role of helping to visually recognize and work with the cable bayer 300 made of a combination of familiar shapes and shapes without feeling a sense of difference or incongruity with the cable bayer of.

As described above, the present invention is to provide an apparatus and method for manufacturing a cable bayer that can reduce adhesion or fusion defects in the manufacturing process and reduce production costs, as well as to facilitate work convenience for workers using cable bayers. It can be seen that it is a technical idea.

And, it goes without saying that many other modifications and applications are also possible for those of ordinary skill in the art within the scope of the basic technical idea of the present invention.

10...first material
20...second material
100... inner layer
101...Page 1
102...Page 2
103...Page 3
104...Page 4
110...a row arranged on the upper side of the drawing among a pair of inner layers 100
120...a row arranged at the bottom of the drawing among a pair of inner layers (100)
200... outer layer
205...p. 5
206...p. 6
207...p. 7
208...p. 8
210... an outer layer placed on the upper side of the drawing among a pair of outer layers (200)
220... an outer layer placed at the bottom of the drawing among a pair of outer layers (200)
300...cable bayer
310...cable compartment
320...sealed fusion part
410, 420... crimping roller
500... bone forming roller
510...disk
520... spindle
530...spacer
S1... the first stage
S2... the second step
S3...the third stage
w1...first width
w2...second width

Claims (11)

A pair of inner layers each having a first width in which a first material is formed on a side facing each other and a second material is formed on an opposite side of the first material, and the second material is formed on a side facing each other, It has a second width greater than the first width on which the first material is formed on the opposite side of the second material and is provided to heat and press a pair of outer layers disposed on the outer side of the pair of inner layers, and the pair A pair of pressing rollers for producing a cable bayer having a plurality of cable storage spaces and a plurality of sealing fusion portions by heating and pressing the outer layer of the outer layer; And
It is disposed on the discharge side of the pair of crimping rollers, and includes a plurality of disks formed in a disk shape for crimping a portion in which the sealing fusion portion is formed on an outer surface of the cable bayer, and the second of the pair of outer layers A cable bayer manufacturing apparatus comprising a bone forming roller for further compressing the heat-sealed state of the material and forming a valley so that the formation position of the sealing fusion part can be visually recognized.
The method according to claim 1,
The first material is ePTFE and the second material is a cable bayer manufacturing apparatus, characterized in that TPU.
The method according to claim 1,
Cable bayer manufacturing apparatus, characterized in that the rubber material layer is formed on the surface of each of the pair of crimping rollers.
The method according to claim 1,
The bone forming roller,
A main shaft having an outer circumferential surface on which the plurality of disks are coupled through and spaced apart,
A plurality of spacers mounted on the main shaft and disposed between each of the plurality of disks, further comprising a plurality of spacers for maintaining a spaced apart from each other of the plurality of disks,
The plurality of spacers have the same or different lengths, and the length of the plurality of spacers is shorter than the length of the main shaft.
A first step of arranging a plurality of a pair of inner layers each having a first width formed on a surface facing the first material and having a second material formed on the opposite side of the first material in a line;
A pair of outer layers each formed on a surface facing the second material and having a second width greater than the first width on which the first material is formed on opposite sides of the second material is formed of the pair of inner layers. A second step of disposing on the outside; And
By heating and pressing the pair of outer layers between a pair of pressing rollers provided to form a plurality of cable storage spaces and a plurality of sealing fusion parts, the plurality of cable storage spaces are formed between the pair of outer layers. A method of manufacturing a cable bayer comprising a third step of manufacturing a cable veyor formed in a line along a width direction of a pair of outer layers.
The method of claim 5,
The first material is ePTFE and the second material is a cable bayer manufacturing method, characterized in that TPU.
The method of claim 5,
The method of manufacturing a cable bayer, characterized in that a rubber layer is formed on the surface of each of the pair of pressing rollers.
The method of claim 5,
The third step,
The plurality of sealing fusion parts are compressed with a bone forming roller equipped with a plurality of disks formed in a disk shape on the outer surface of the cable bayer on which the plurality of sealing fusion parts are formed so that it is possible to visually grasp that the plurality of sealing fusion parts are formed And forming a valley having a predetermined depth on the facing surfaces of the pair of outer layers, which are positions corresponding to and.
The method of claim 5,
In the third step,
By heating and pressing the pair of outer layers, the second materials respectively formed on opposite surfaces of the outer layer are brought into contact with each other and fused to form a sealing fusion part.
The method of claim 5,
In the first step,
A method of manufacturing a cable bayer, characterized in that a plurality of the pair of inner layers are arranged in a line, respectively, and the pair of inner layers are arranged to be spaced apart or in contact with each other at predetermined intervals.
The method of claim 5,
The third step,
By heating and pressing the pair of outer layers, the second materials respectively formed on the facing surfaces of the pair of outer layers are heat-sealed, and at the same time, each of the second materials formed on the facing surfaces of the pair of outer layers. A method of manufacturing a cable bayer, characterized in that a process in which the second material and the second material of each of the pair of inner layers are thermally fused is performed.

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