KR19990045998A - forming method of clamp for a scaffold - Google Patents

Abstract

The present invention relates to a method for processing a scaffolding clamp, which causes less scrap to be generated when machining a scaffolding clamp in a piercing process and a blanking process.

The present invention by punching and blanking the iron plate (B) of a predetermined width using a press mold in the piercing process and the blanking process to continuously cut the dimensions of the body (11a) and the cover (12a) required for the product, In the manufacturing of the scaffold clamp 10 by the method of forming each body 11a and the cover 12a into a three-dimensional shape by drawing,

Scaffolding characterized in that the width of the iron plate (B) supplied to the press mold is made without margin on both sides of the iron plate (B) relative to the body (11a) by matching the length of the body (11a) Its characteristics are the processing method of the clamp.

Description

Forming method of clamp for a scaffold

The present invention relates to a method for processing a scaffolding clamp that causes less scrap to be generated when processing a clamp for scaffolding in a piercing process and a blanking process.

Scaffolding clamps are mainly used to install scaffolds by tangling pipes (single tubes) in length and width to enable work in high places during construction work.

As shown in FIG. 1, the completed scaffold clamp 10 is composed of two pairs of bodies 11 and a cover 12 to be fastened by a ball joint, and the scaffold clamp is an industrial safety standard. The thickness, tensile strength, material, etc. of the product specified in the bar to meet the requirements, typically 3 mm thick iron plate (A) after the various processes to complete the scaffold clamp 10.

In general, in order to manufacture the scaffold clamp 10, a conventional iron plate (A) having a width of 126 mm is provided, and the iron plate (A) is punched and blanked in a piercing process and a blanking process, and the body required for the product. After cutting and separating the dimensions of the 11a and the cover 12a, the respective bodies 11a and the cover 12a are drawn and molded into a three-dimensional shape, and then the body 11a and the cover 12a are drawn. After processing, plating and assembly are completed with the clamp 10. When punching and blanking the iron plate (A), the body 11a and the cover 12a are generally produced in a press mold according to the size of the product.

In other words, the press mold is mounted on a conventional press to simultaneously perform a punching process and a blanking process according to a piercing process and a blanking process.

FIG. 2 is a view illustrating a conventional piercing process and a blanking process, and when the iron plate A is conventionally processed into a press mold, the steel plate 11a having a larger length than the cover 12a is processed on the basis of the steel plate ( Since blanking is carried out with margins A1 of about 5 mm on both sides of A), the amount of scrap generated by the margin is about 1/10 of the product yield, and the size of the steel sheet (A) There was a closed end where the output of the clamp 10 per unit area decreased.

In addition, conventionally, the punching holes 21 formed at both ends of the body 11a are designed to protrude in a semicircular shape so that the blanking area is removed when the margin is eliminated between the width of the iron plate A and the processing surface of the body 11a. There was also a problem with the mold being chewed.

The present invention is to solve the above disadvantages, without continuously making a margin on both sides of the iron plate when the body and cover required for the scaffold clamp by punching and blanking the iron plate in the piercing process and the blanking process The purpose is to minimize the occurrence of scrap by processing.

1 is a perspective view of a state of use of a general scaffolding clamp.

2 is a view for explaining a conventional piercing process and the blanking process.

3 is a view for explaining a piercing process and a blanking process according to the present invention.

Figure 4 is a view showing the iron plate processed in the piercing process and the blanking process of the present invention.

* Description of the symbols for the main parts of the drawings *

A, B; Iron plate A1; Margin 10; clamp

11,11a; Torso 12,12a; Cover 20; mold

21; Punching holes 22; Blanking holes 23; Guide roll

The present invention punching and blanking the iron plate (B) of a predetermined width into the press mold 20 in the piercing process and the blanking process to continuously cut the dimensions of the body (11a) and the cover (12a) required for the product and Each of the body 11a and the cover 12a are drawn and processed into a three-dimensional shape to manufacture the clamp 10 for the scaffold, the width of the iron plate (B) supplied to the press mold 20 It is characterized by being made without a margin on both sides of the iron plate (B) relative to the body (11a) by matching the length of the body (11a).

Hereinafter, the operation of the present invention will be described in detail.

Figure 3 shows a method of processing the iron plate (B) with the press mold 20 to perform the piercing process and the blanking process.

As shown in FIG. 3, the lower die of the mold 20 mounted on the press is provided with a guide roll 23 at a predetermined interval to guide the iron plate B, and the body 11a is disposed between the guide rolls 23. ) And a punching hole 21 and a blanking hole 22 for processing the cover 12a are formed, and the iron plate B is transferred by one pitch between the guide rolls 23, and the punching processing and the blanking processing simultaneously and It is done continuously.

At this time, the width of the iron plate (B) supplied to the press mold 20 to match the dimensions of the product, that is, the length of the processed body (11a) does not place a margin on the iron plate (B).

The width of the illustrated iron plate (B) is 110mm, blanking the iron plate (B) is sheared only the side end of the body (11a) and both ends of the body (11a) is naturally coincident with the side line of the iron plate (B). In addition, forming the length of the blanking hole 22 provided in the mold 20 to be slightly larger than the width of the iron plate B in order to process the body 11a is well sheared during the blanking process and the iron plate B Can prevent this chewing.

On the other hand, since the cover 12a is formed smaller than the length of the body (11a) is blanked on the inside of the iron plate (B), each machining position of the iron plate (B) is punched to form a punching hole 21, then blanking processing The body 11a and the cover 12a are separated by processing dimensions.

As a result, as shown in FIG. 4, the body 11a blanked by the press die 20 is symmetrically sheared on both sides by the size and shape of the blanking hole 22 of the mold 20, and both ends are sheared. It is produced linearly without action. And the scrap is produced only in the periphery of the lid 12a and dropped into chips for processing.

As described above, the present invention does not have a margin on both sides of the iron plate B, so that the width of the iron plate B required for the manufacture of the clamp 10 for the scaffold 10 is smaller than that of the conventional 10 mm. Therefore, it is possible to minimize the occurrence of scrap during punching and blanking with the press mold 20, and to increase the output of the clamp 10 per unit area of the iron plate B without wasting expensive steel plate B. It can be effective.

Claims (2)

In the piercing process and the blanking process, punching and blanking the iron plate (B) having a predetermined width using a press mold is continuously cut the dimensions of the body (11a) and the cover (12a) required for the product, each body In manufacturing the scaffold clamp 10 by the method 11a and the cover 12a by drawing and molding into a three-dimensional shape, Scaffolding characterized in that the width of the iron plate (B) supplied to the press mold is made without margin on both sides of the iron plate (B) relative to the body (11a) by matching the length of the body (11a) Process of clamp The method of processing a clamp for a scaffold according to claim 1, wherein both ends of the trunk portion (11a) are formed in a straight line so that the overall length thereof matches the side line of the iron plate (B).