KR20070057306A - Upper anvil structure of riveting machine - Google Patents

Abstract

An upper anvil structure of a riveting machine, which can reduce riveting flaws by placing a slug rivet at an accurate position more stably such that the slug rivet is mounted on an upper anvil of the riveting machine, is provided. In a riveting machine comprising an upper anvil(10) that is movable up and down, and a lower anvil(20) for holding a slug rivet(30) disposed on a lower part of the upper anvil, an upper anvil structure of the riveting machine comprises a holder(40) which is installed on the lower part of the upper anvil, and to which the slug rivet to be riveted to a specific part(50) is held, wherein the holder has a cutout portion(41) formed on a lower part thereof and divided into a plurality of parts, a mounting groove(42) which is formed on the center of the cutout portion, and into which the slug rivet is inserted, an annular spring member(51) mounted on a wall surface around the cutout portion thereof to elastically support the cutout portion, and a catching projection(43) formed on the periphery thereof.

Description

Upper anvil structure of riveting machine

1 is a view showing the upper and lower anvil structure of the riveting device according to the prior art.

2 is a view showing the upper and lower anvil structure of the riveting device according to an embodiment of the present invention.

Brief description of symbols for the main parts of the drawings

10: upper anvil 20: lower anvil

30: slug rivet

The present invention relates to an upper anvil structure of a riveting device, and more particularly, an upper anvil structure of a riveting device which can reduce the riveting defect by more stably positioning a slug rivet mounted on the upper anvil of the riveting device. It is about.

In general, there are various methods such as welding, bolting, riveting, and the like as a means of coupling various mechanical parts to specific places.

Among these coupling means, the riveting means is a fastening means for permanently joining metal materials such as steel sheets and sections using rivets.

Such riveting is made by inserting a heated rivet into a hole drilled by overlapping a steel plate, supporting the head, and then deforming by hammering it with a machine or a hammer.

These rivets are usually made of mild steel, but for special purposes, they are made of alloy steel and light alloy, and the type is round head rivet, dish head rivet, flat head rivet, round plate rivet, pot head rivet, thin Flat head rivets. The length is 1.3 to 1.6 times the diameter depending on the thickness of the plate to be fastened, and the rivet hole is about 1 mm larger than the rivet diameter. When inserting small rivets, do not heat at room temperature.

In addition, the parts joined using rivets are called rivet joints, and the types include overlap joints, butt joints, parallel rivet joints, zigzag rivet joints, and shear face joints. Rivet joints are easy to work with and have strong joints. They are widely used in buildings, boilers, bridges, ships, gas tanks and walkways. When riveting, when caulking is required, caulking is required, and in some cases, fullering is required to perfect caulking.

Meanwhile, as shown in FIG. 1, the riveting unit of the riveting apparatus is disposed at the lower part of the upper anvil 1 and the upper anvil 1 is installed to be movable up and down by a predetermined power source. It consists of a lower anvil 2 supporting the rivet 3.

The lower end of the upper anvil 1 is provided with a holder 4 through which a slug rivet 3 to be riveted to a specific part 5 is provided, and the lower part of the holder 4 is divided into a plurality of cutouts 4a. Is formed, and a mounting groove 4b into which a slug rivet 3 is inserted is provided at the center of the cutout 4a.

The lower anvil 2 serves to stably support the lower end of the slug rivet 3.

If the upper anvil 1 is driven downward after mounting the slug rivet 3 on the holder 4 of the upper anvil 1, the slug rivet 3 is the upper anvil 1 and the lower anvil 2. It is riveted by the impact force in between.

However, such a conventional riveting device is that the slug rivet 3 mounted on the holder 4 of the upper anvil 1 is subjected to the slug rivet 3 by air pressure or other external force of the chip blower (not shown). There is a disadvantage in that the rocking or moving in the mounting groove (4b) of the holder (4), the failure of the riveting frequently occurs.

Accordingly, the present invention has been made in view of the above, and provides an upper structure of the riveting device that can reduce the riveting defects by more stably positioning the slug rivets mounted on the upper anvil of the riveting device. Its purpose is to.

The present invention for achieving the above object,

In the riveting device comprising an upper anvil and a lower anvil disposed below the upper anvil, which are installed to be movable up and down by a predetermined power source,

The lower end of the upper anvil is provided with a holder on which the slug rivet is mounted, and the lower center of the holder is provided with a mounting groove, and the wall around the mounting groove of the holder is formed in a plurality of cutouts. It characterized in that the annular spring member for providing an elastic force in the circumferential direction.

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

Figure 2 is a riveting device according to an embodiment of the present invention to support the upper anvil (10) installed to be movable in the vertical direction, and the slug rivets (30) are arranged in the lower portion of the upper anvil (10) The note consists of a lower anvil 20.

The upper anvil 10 is installed to be movable in the vertical direction by a predetermined power source (not shown) that generates hydraulic pressure or mechanical power.

The lower end of the upper anvil 10 is provided with a holder 40 is mounted with a slug rivet 30 to be riveted to a specific part 50, the lower end of the holder 40 is divided into a plurality of incisions (41) The center of the cutout 41 is provided with a mounting groove 42 into which a slug rivet 30 is inserted.

In addition, an annular spring member 51 is mounted on the wall around the cutout portion 41 of the holder 40 to elastically support the cutout portion 41 by applying a circumferential elastic force to the cutout portion 41 side. Done.

A locking projection 43 is formed around the holder 40 on which the spring member 51 is mounted, thereby preventing the spring member 51 from being detached from the site where the spring member 51 is mounted. As such, the structure for preventing the separation of the spring member 51 may not only form the locking protrusion 43 but also form a spring member mounting groove having a predetermined depth around the holder 40.

The lower anvil 20 serves to stably support the lower end of the slug rivet 30.

The operating relationship of the present invention configured as described above will be described in detail as follows.

When the slug rivet 30 is mounted to the cutout 41 of the holder 40 of the upper anvil 10, the slug rivet 30 is mounted to the inside of the cutout 41 of the holder 40. 42). At this time, the cutout portion 41 of the holder 40 receives the elastic force in the circumferential direction by the annular spring member 51 to hold the slug rivet 30 inserted into the mounting groove 42 more firmly. .

That is, by the annular spring member 51, the slug rivet 30 is prevented from fluctuation or movement due to the pneumatic pressure or other external force of the chip blower, and thus the slug rivet 30 is the upper anvil 10 It is more firmly positioned on the lower surface of the.

Then, when the upper anvil 10 is driven downward by the power source, the slug rivet 30 is riveted by its impact force between the upper anvil 10 and the lower anvil 20.

As described above, the present invention has an effect of reducing the riveting defect by more stably positioning the slug rivets mounted on the upper anvil of the riveting apparatus.

Claims (2)

In the riveting device comprising an upper anvil and a lower anvil disposed below the upper anvil, which are installed to be movable up and down by a predetermined power source, The lower end of the upper anvil is provided with a holder for mounting the slug rivet, the lower center portion of the holder is provided with a mounting groove, the wall around the mounting groove of the holder is formed in a plurality of cut-out shape, the mounting groove of the holder The upper anvil structure of the riveting device, characterized in that the annular spring member is provided to provide a circumferential elastic force in the periphery. The method of claim 1, The holder is an upper structure of the riveting device further comprises a locking projection or a spring member mounting groove for preventing the spring member from being separated.

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