KR102098384B1 - Partially reinforced rollers and manufacturing process of the same - Google Patents

Abstract

Partially strengthened roller according to the present invention, the inner rod of a metal material; A ring shape enclosing a part of the inner rod so that the inner side is spaced apart from the outer side of the inner rod, a ring-shaped protruding end formed to protrude in close contact with the outer side of the inner rod in the longitudinal interruption of the inner side. Reinforcement ring; It is configured to include, including; an outer bar filling the gap between the outer surface of the inner bar and the inner surface of the inner ring, the outer ring of the inner bar is coupled to surround a portion where the reinforcing ring is not coupled. The partial reinforcement roller according to the present invention has an advantage in that a separate reinforcing ring is added, but since no space is generated in the reinforcing ring coupling portion, the phenomenon of chemical penetration into the reinforcing ring coupling portion gap is prevented.

Description

Partially reinforced rollers and manufacturing process of the same}

The present invention relates to a roller and a method of manufacturing the partially enhanced corrosion resistance and hardness by adding a separate reinforcing ring, and more specifically, a partial reinforcing roller configured to prevent a gap from occurring in the coupling portion of the reinforcing ring and the same It relates to a manufacturing method.

In general, it is well known that a small and lightweight electronic product such as a mobile phone requires a lot of circuits therein, but a high-density circuit is built to enable various performances even at a small size.

The high-density circuit embedded in an electronic product forms a circuit pattern on a thin-plate printed circuit board (PCB), and the device is installed in the pattern in a surface-mounted type to perform a required function. In forming a pattern on a thin plate type PCB, conventionally, a thin plate type PCB, which is a plated object, is immersed in a plating bath containing a highly conductive plating solution (electrolyte) to form a copper film by an electroplating method, and then etching or etching leaving only necessary portions A method of forming a circuit pattern through a process is widely adopted.

When manufacturing a product with a metal printing layer (hereinafter abbreviated as 'printed product') such as the above-mentioned thin plate type PCB, a roller is used for pressurization and transfer of the printed product, and such a roller does not damage the product. The surface is made of plastic with softness such as polypropylene.

However, when the entire roller is made of plastic having ductility such as polypropylene, there is a problem in that the point pressurized on the high hardness part of the printed product is easily damaged. In order to solve this problem, there has been proposed a method of assembling a reinforced ring made of a synthetic resin material having high hardness, such as engineering plastic, in a region where damage is frequently generated in the roller, but in this case, due to assembly tolerance of the reinforcement ring There is a problem in that a gap is formed even finely, and chemicals penetrate into the gap and cause corrosion of the roller and generation of foreign substances.

KR 10-1578640 B1

The present invention is proposed to solve the above problems, a separate reinforcing ring is added, but there is no separation space in the reinforcing ring coupling portion, and the reinforcing ring is firmly combined to improve durability by partially strengthening the roller. And an object of the present invention.

Partially strengthened roller according to the present invention for achieving the above object,

A metal inner bar;

A ring shape enclosing a part of the inner rod so that the inner side is spaced apart from the outer side of the inner rod, a ring-shaped protruding end formed to protrude in close contact with the outer side of the inner rod in the longitudinal interruption of the inner side. Reinforcement ring;

An outer rod that is coupled to surround a portion of the outer side of the inner rod where the reinforcing ring is not coupled, and fills between an inner side of the reinforcing ring and an outer side of the inner rod;

It is configured to include.

Ring-shaped concave grooves are formed on the left and right sides of the protruding end of the inner surface of the reinforcing ring, respectively.

The outer bar is formed to fill between the concave groove of the reinforcing ring and the outer surface of the inner bar.

The outer rod is formed by injection method on the inner rod on which the reinforcing ring is mounted.

The inner rod is made of stainless steel, the reinforcing ring is made of engineering plastic, and the outer rod is made of polypropylene.

Method for manufacturing a partially reinforced roller according to the present invention,

A metal inner bar and a ring shape surrounding a part of the inner bar so that the inner surface is spaced apart from the outer surface of the inner bar, but a protruding end protruding so as to be in close contact with the outer surface of the inner bar during longitudinal interruption among the inner surfaces. A first step of providing the formed reinforcing ring;

A second step of coupling one or more reinforcing rings to the inner bar;

A third step of inserting an inner bar to which at least one reinforcing ring is coupled into an injection mold;

A fourth step of injecting liquid plastic into the injection mold to form an outer rod surrounding the outer surface of the inner rod;

A fifth step of demolding after curing of the outer bar is completed;

A sixth step of finishing the surface after processing the shaft hole in the outer bar;

It includes.

On the left and right sides of the protruding end of the inner surface of the reinforcing ring, ring-shaped concave grooves surrounding the inner rod are respectively formed.

The inner rod is made of stainless steel, the reinforcing ring is made of engineering plastic, and the outer rod is made of polypropylene.

The partial reinforcement roller according to the present invention has an advantage in that a separate reinforcing ring is added, but since no space is generated in the reinforcing ring coupling portion, the phenomenon of chemical penetration into the reinforcing ring coupling portion gap is prevented. When using the method for manufacturing a partially reinforced roller according to the present invention, even if the outer rod is heat-shrinked, the reinforcement ring can maintain a tightly coupled state, and thus has the advantage of being able to manufacture a durable partially reinforced roller.

1 is a perspective view of a partially reinforced roller according to the present invention.
2 is a cross-sectional view of a partially reinforced roller according to the present invention.
3 and 4 are perspective and cross-sectional views of a reinforcing ring included in a partially reinforced roller according to the present invention.
5 to 9 sequentially show a sequence of a method for manufacturing a partially reinforced roller according to the present invention.

Hereinafter, embodiments of the partially strengthened roller and the manufacturing method thereof according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a partially reinforced roller according to the present invention, FIG. 2 is a cross-sectional view of a partially reinforced roller according to the present invention, and FIGS. 3 and 4 are perspective and sectional views of a reinforcing ring included in the partially reinforced roller according to the present invention. to be.

Partially strengthened roller according to the present invention is a roller for pressurizing and conveying a product (hereinafter abbreviated as 'printed product') that requires metal printing, such as a printed circuit board or a copper foil, an outer surface so as not to damage the printed product. Most of them are made of soft plastic, but a separate reinforcing ring 200 is provided at a portion where high corrosion resistance and strength are required. At this time, the partial reinforcement roller according to the present invention is not separately manufactured and mounted after the reinforcing ring 200 is manufactured separately, but is constructed so as to not generate a gap in the reinforcing ring 200 coupling portion by manufacturing by an injection method. The point is the biggest feature.

That is, the partial reinforcement roller according to the present invention, the inner rod 100 of a metal material, the reinforcement ring 200 mounted to surround a portion of the inner rod 100, and the outer surface of the inner rod 100 The reinforcing ring 200 is composed of an outer rod 300 that is manufactured by an injection method so as to surround a portion that is not coupled.

The reinforcing ring 200 forms a ring shape surrounding a part of the inner bar 100 so that the inner surface 210 is spaced apart from the outer surface of the inner bar 100, but the length of the inner surface 210 In the direction interruption, a ring-shaped protruding end 230 is formed to protrude in close contact with the outer surface of the inner rod 100. Therefore, when the outer rod 300 is formed in an injection method while the reinforcing ring 200 is mounted on the inner rod 100, the outer rod 300 and the inner surface 210 of the reinforcing ring 200 Bars are filled between the outer surfaces of the inner bar 100, so that the reinforcing ring 200 and the outer bar 300 are kept in perfect contact.

As such, when the reinforcing ring 200 and the outer bar 300 are completely in close contact, a phenomenon in which chemicals or other foreign substances are introduced between the reinforcing ring 200 and the outer bar 300 is basically prevented. Partially strengthened rollers will not cause corrosion or damage.

Meanwhile, the outer rod 300 injected to surround the inner rod 100 undergoes a certain ratio of heat shrinkage in the curing process, and when the heat shrinkage rate is high, between the outer rod 300 and the reinforcing ring 200 Gaps may occur.

Partially strengthened rollers according to the present invention can solve this problem, that is, even if heat shrinkage occurs in the process of hardening the outer bar 300, the area in contact with the reinforcing ring 200 is not separated from the reinforcing ring 200 Not to be, the left and right sides of the protruding end 230 of the inner surface 210 of the reinforcing ring 200 may have ring-shaped concave grooves 220 surrounding the inner rod 100, respectively.

When the concave groove 220 is formed on the left and right sides of the reinforcing ring 200, the outer tube is injected to fill the concave groove 220, so that the outer rod 300 is in the longitudinal direction (in FIG. 2, left and right direction) ) Even if heat shrinkage occurs, the portion in contact with the reinforcing ring 200 is not separated from the reinforcing ring 200. That is, a portion of the outer rod 300 filled in the concave groove 220 performs the function of grabbing the reinforcing ring 200, so that no gap is generated between the outer rod 300 and the reinforcing ring 200. Is done.

In this embodiment, only the case where the concave groove 220 is formed in a ring shape surrounding the inner tube, the concave groove 220 may be replaced by a plurality of polygonal grooves or hemispherical grooves.

On the other hand, in the present embodiment, only the case where the outer rod 300 is manufactured by injection method on the inner rod 100 on which the reinforcing ring 200 is mounted is described as an example, but the outer rod 300 is a reinforcing ring. If the space between the 200 and the inner rod 100 can be filled, it can be manufactured in any way.

In addition, the inner rod 100 is preferably made of stainless steel so that the structural strength of the partially strengthened roller according to the present invention is high, and the outer rod 300 is more than a reference value so as not to damage the printed product. It is preferable to be made of polypropylene having ductility, and the reinforcing ring 200 is preferably made of engineering plastic so that it does not damage the printed product while having better corrosion resistance and strength than polypropylene.

5 to 9 sequentially show a sequence of a method for manufacturing a partially reinforced roller according to the present invention.

The method for manufacturing a partially reinforced roller according to the present invention is a manufacturing method for manufacturing the partially reinforced rollers shown in FIGS. 1 to 4, and first, an inner rod 100 made of a metal material and a reinforcement ring 200 made of a synthetic resin material are provided. . At this time, the inner rod 100 is preferably made of stainless steel so as to maintain a high structural strength of the partial reinforcement roller according to the present invention, the reinforcing ring 200 is excellent in corrosion resistance and strength while damaging the printed product It is preferably made of engineering plastic so as not to give.

The reinforcing ring 200 forms a ring shape surrounding a part of the inner bar 100 so that the inner surface 210 is spaced apart from the outer surface of the inner bar 100, but the length of the inner surface 210 In the direction interruption, a protruding end 230 protruding to be in close contact with the outer surface of the inner rod 100 is formed. The reinforcing ring 200 is manufactured separately from the inner rod 100, and then mounted as a structure in which the inner rod 100 is inserted as shown in FIG. At this time, this embodiment only shows the case where two reinforcing rings 200 are mounted on one inner rod 100, but the number and number of the reinforcing rings 200 are the use and characteristics of the partially reinforced roller according to the present invention. It can be changed freely according to.

When the reinforcing ring 200 is coupled to the inner rod 100, as shown in Figure 6, the inner rod 100 to which the reinforcing ring 200 is coupled is introduced into the injection mold 10. The injection mold 10 has an inner space of a size into which the inner rod 100 to which the reinforcing ring 200 is coupled can be inserted, and is injected to inject liquid plastic (injection solution) into the inner space Part 12 is formed, such injection mold 10 is commercialized in a variety of structures and various shapes in the technical field of the present invention, detailed description thereof will be omitted.

When the inner rod 100 to which the reinforcing ring 200 is coupled is seated inside the injection mold 10, liquid plastic is injected into the injection mold 10 through the injection portion 12 as shown in FIG. By injection, the injected liquid plastic wraps the outer surface of the inner rod 100. At this time, the liquid plastic injected to wrap the outer surface of the inner rod 100 becomes the outer rod 300. The outer rod 300 is preferably made of polypropylene having a ductility higher than the reference value so as not to damage the printed product.

At this time, the liquid plastic injected into the injection mold 10 fills both the inner surface 210 of the reinforcing ring 200 and the outer surface of the outer bar 300. In the future, the outer bar 300 will The advantage of being perfectly in close contact with the reinforcing ring 200, that is, there is an advantage that no chemicals or other foreign substances are introduced into the outer rod 300 and the reinforcing ring 200.

Furthermore, when the concave grooves 220 of the ring shape surrounding the inner rod 100 are formed on the left and right sides of the protruding end 230 of the inner surface 210 of the reinforcing ring 200, the injection mold 10 ) The liquid plastic injected therein fills the concave groove 220, so even if heat shrinkage occurs in the longitudinal direction (left and right in FIG. 7) of the outer rod 300, it is in contact with the reinforcing ring 200. The portion that is located is not spaced apart from the reinforcing ring 200. As described above, the effect when the liquid plastic is formed to fill the concave groove 220 has been described with reference to FIGS. 1 to 4, and detailed description thereof will be omitted.

When curing of the outer rod 300 is completed, as shown in FIG. 8, after removing the injection mold 10, that is, after undergoing a demoulding process, as shown in FIG. 9, to the outer rod 300 Various shapes such as shaft hole 310 are processed and the surface is finished to complete the product. At this time, the configuration processed on the outer bar 300 may be variously changed according to the use of the partially strengthened roller according to the present invention.

As described above, the present invention has been described in detail using preferred embodiments, but the scope of the present invention is not limited to specific embodiments, and should be interpreted by the appended claims. In addition, those skilled in the art should understand that many modifications and variations are possible without departing from the scope of the present invention.

10: injection mold 12: injection part
100: inner bar 200: reinforcement ring
210: inner surface 220: concave groove
230: projecting end 300: outer bar
310: shaft hole

Claims (7)

delete delete delete delete The inner bar 100 made of stainless steel and the inner surface 210 made of an engineering plastic material form a ring shape surrounding a part of the inner bar 100 so as to be spaced apart from the outer surface of the inner bar 100. A protruding end 230 protruding so as to be in close contact with the outer surface of the inner rod 100 is formed in the longitudinal stop of the side 210, and the left and right sides of the protruding end 230 of the inner surface 210 are formed. In the first step of providing a reinforcing ring 200, each of the ring-shaped concave grooves 220 surrounding the inner rod 100 is formed;
A second step of coupling one or more reinforcing rings 200 to the inner bar 100;
A third step of introducing the inner bar 100 to which at least one reinforcing ring 200 is coupled, into the injection mold 10;
A concave groove formed on the right side of the protruding end 230 in close contact with the outer surface of the inner bar 100 by injecting liquid polypropylene into the center of the inner bar 100 introduced into the injection mold 10 And filling the space between the outer surfaces of the inner bar 100, and injecting liquid polypropylene into the end of the inner bar 100 introduced into the injection mold 10, thereby injecting liquid polypropylene into the outer surface of the inner bar 100. Forming the outer rod 300 to fill between the outer surface of the inner rod 100 and the concave groove formed on the left side of the protruding end 230 in close contact with the, of the outer surface of the inner rod 100 Reinforcing ring 200 is formed so as to surround a portion that is not coupled, and when the outer bar 300 is formed, when the heat shrinks, a portion filled in the concave groove 220 among the outer bar 300 is the reinforcing ring 200 ) To perform the function of grabbing, and the gap between the outer rod 300 and the reinforcing ring 200 A fourth step of inhibiting the production;
A fifth step of demolding after curing of the outer rod 300 is completed; And
Comprising a sixth step of finishing the surface after processing the shaft hole 310 to the outer rod 300
Partial reinforcement roller manufacturing method. delete delete

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