KR20050106951A - Automatic molding manufacturing device for transporting hook of wire mesh for concrete drainage - Google Patents

Abstract

The present invention relates to the molding of the transport ring part in the wire mesh manufacturing apparatus for concrete drainage, the apparatus for automatically forming the transport ring part in the wire mesh manufacturing apparatus for concrete drainage described in the registered Utility Model No. 321877. As a device for forming a transport ring between the vertical line 6C of the ring-shaped portion of the vertical wire 6 of the wire mesh and the welded horizontal line 7 and the following or a plurality of meshes, In particular, it is provided with a vertical line supply section 20, which is composed of a plurality of bobbins 22, 24, a wire drawer 31 and a horizontal line supply means, and is operated by a pressure cylinder 38 and powered from a welding transformer 36. A movable electrode operated by a welding device 30 configured with a plurality of movable electrodes 37 receiving pressure and pressurized cylinders 58a and 58b in which a pair of upper and lower sides is formed. The transport ring is formed by constructing a welding device 50 provided with a transport ring molding tool 51 which is operated by a cylinder 52 formed between the 57a and 57b and the movable electrodes 57a and 57b. Relieves quality deterioration and worker's pain in the process of manually attaching one or more wires to the wire, and the manufacturing process of wire mesh for concrete drainage is fully automated, which saves labor and manufactures wire mesh for concrete drainage It is possible to reduce the defective rate and shorten the working time relates to an automatic ring manufacturing apparatus for transporting the wire mesh of the concrete mesh drainage which has the effect of improving the productivity.

Description

Automatic molding device for transporting hook of wire mesh for concrete gutters {omitted}

The present invention relates to a ring manufacturing apparatus for transporting a wire mesh used as a framework of a concrete drainage channel. More specifically, in the developed device described in Korean Utility Model No. 321877, the wire mesh production of the concrete drainage system is described in detail. In this way, the manual attachment of the transport hook of the wire mesh can be automated to reduce the labor force by automating molding and welding, and the manufacturing of the transport loop of the wire channel for uniform channel can be made, which reduces the defect rate and improves productivity by shortening the working time. The present invention relates to a ring forming apparatus for manufacturing wire mesh of a concrete drain channel.

In general, various drainage channels such as sewers, waterways, etc. are manufactured in various materials and shapes according to the purpose of use and the installation environment. Referring to FIG. 1, the configuration of representative concrete drainage channels among the various types of waterways is shown. (1) is formed in the "U" shape of the socket portion (3) extending than the body (2) on one side end of the upper body 2 is open, the other end of the other drainage of the same shape is the socket portion ( 3) can be installed continuously in the drainage bar, each of the drainage (1) is a concrete material therein includes a wire mesh as a frame for increased durability.

Under the concrete drain pipe, the transport hook portion of the buried waterway wire mesh is protruded, and the hoist hook is hooked on this part to remove the concrete drain pipe from the mold, and then transport it to the destination using the transport vehicle and get off using the hook. When the concrete drain pipe is turned over, a constant drainage path is formed.

Looking at the configuration according to the manufacturing process of the wire mesh in connection with the present invention in more detail below with reference to Figure 2, the wire mesh (5) is a spot welded steel wire in the form of a mesh to form a plurality of times according to the shape of the drainage Through the process, the spot welds intersecting the first vertical line 6 and the horizontal line 7 mutually, but one end of the horizontal line 7 is extended to form the socket portion of the drainage line so as to form the socket molding portion 8. And a cutting step of cutting the vertical wires 6 such that the wire meshes 5 continuously manufactured by the vertical wires 6 wound on the bobbin have a predetermined width, and the cut wire mesh 5 is "U". A bending step of bending to correspond to the shape of the male drainage path, a socket part forming step of bending the horizontal line 7 to the shape of the socket part of the drainage path of the socket-shaped part 8 of the bent wire mesh 5, and the bending Horizontal lines By a bent portion in the socket portion a vertical pipe (9) to (7a) in the socket part welding step of spot welding to produce one of the completed wire mesh (5).

Meanwhile, in the conventional wire mesh manufacturing process as described above, the welding step, the cutting step, and the bending step are automated by a continuous series of devices, while the carrying ring portion after the bending of the wire mesh is completed as shown in FIG. 2. After attaching a large number by hand.

As described above, when attaching the carrying ring by hand, the worker complains of pain, the carrying ring is irregular, and there is a problem that productivity is reduced.

An object of the present invention for solving the problems described above, by automating the entire process, including the molding operation in attaching the hook of the wire mesh for transporting the drainage, reducing labor and manufacturing a uniform wire mesh It is possible to reduce the defective rate, and to provide a wire mesh manufacturing apparatus that improves productivity by shortening the working time, the wire mesh to the concrete drainage by performing the ring forming step and again welding step in the welding step and the next process Fully automated manufacturing process of the transport ring portion of the, but as a device for performing the transport ring forming step and the transport ring welding step comprises a transport ring forming device having a forming means and a transport ring portion welding device having a welding means do.

Referring to FIG. 3 in more detail in connection with the present invention, the ring-forming portion vertical line 6c is formed in a ring shape between one mesh or a plurality of meshes in which the vertical lines 6 and the horizontal lines 7 are welded to each other so as to protrude. After welding.

After the bending as shown in Figure 2 is formed a wire mesh for the concrete drainage channel and the transport ring is automatically formed.

4 shows the configuration of the vertical line supply unit 20 and the welding device 30. The vertical line supply unit 20 includes a plurality of bobbins 22 wound around steel wires supplied to the vertical line 6 of the wire mesh 5. The welding device 30 is a well-known means for supplying the steel wire drawer 31 and the straight horizontal line 7 cut to a predetermined length as a usual means for pulling and transporting each steel wire supplied from the vertical line supply unit 20. A horizontal line supply means (not shown) is provided, and a welding means including a welding transformer for spot welding the vertical line 6 and the horizontal line 7.

FIG. 5 is a plan view of the welding process described in Korean Utility Model No. 321877, showing the fabrication procedure of the wire mesh fabrication for the concrete drainage channel including the socket portion bending device 40. FIG.

FIG. 6 is a plan view showing a state in which the transport ring-shaped portion vertical line 6c is supplied to the outside of the welding device portion according to the present invention, and the ring-shaped portion vertical line 6c is not welded below the horizontal line 7 as shown in FIG. 5. The vertical part 6c, which is welded to the upper part of the horizontal line 7 so that it can be safely lifted even when the carrying ring part is lifted by the hoist, etc., even when the welding is incomplete, the upper part of the horizontal line 7 is supplied to the outside of the welding spot. That's how.

Looking at the configuration of the transport ring forming and welding device 50 of Figure 7 below, the transport ring forming and welding device 50 is supplied to the pressure cylinder (58a) (58b) while receiving power from the welding transformer. A pair of upper and lower movable electrodes 57a and 57b operated by each is formed in a pair of left and right, and a cylinder ring formed between the pair of movable electrodes 57a and 57b is formed in a transport ring. Form the sphere 51, but weld the supplied transport line vertical line 6c with a pair of movable electrodes 57a and 57b operated by the pressure cylinders 58a and 58b to form a transport ring. When it arrives, the carrying ring forming tool 51 is configured to operate the cylinder 52 to form a carrying ring portion, and then to the next mesh or a plurality of meshes, and then to the welding ring portion vertical line 6c.

At this time, after the carrying ring is molded, it is advanced in the advancing direction, and after the molded part is passed, the part connected to the back of the molded part by the front pressure cylinder 58b may be welded.

FIG. 8 shows a state in which the carrying ring-forming portion vertical line 6c is molded onto the horizontal line 7 and welded in the traveling state of FIG. 7.

According to the present invention configured as described above, in the manufacture of the wire mesh of the concrete drainage channel, by automatically molding the transport ring, it is possible to reduce the labor force, to produce a uniform wire mesh can reduce the defective rate, and to reduce the working time It has the effect of shortening and improving productivity.

1 is a perspective view showing a typical concrete drainage

Figure 2 is a perspective view showing the configuration of each process of the wire mesh according to the conventional manufacturing method

Figure 3 is a perspective view showing the step-by-step configuration of the waterway wimesh according to the present invention

Figure 4 is a plan view of the vertical line supply portion and the welding device of the conventional wire mesh manufacturing apparatus

5 is a plan view of the welding process described in Registration Utility No. 321877.

Figure 6 is a plan view showing a state of supplying the carrying ring vertical longitudinal line according to the present invention outside the welding device portion

Figure 7 is a perspective view showing the main portion showing the state in which the transport ring-shaped vertical line is welded to the lower portion of the horizontal line formed according to the present invention the molded ring portion

Figure 8 is a perspective view showing the main portion showing the state in which the transport ring-shaped vertical line is welded to the upper horizontal line formed in accordance with the present invention the molded ring portion

*** Explanation of symbols for main parts of drawing ***

1: drainage 2: body

3: socket portion 5: wire mesh

6: vertical line 6c: vertical line for carrying ring part

7: horizontal line 7a: horizontal line bent portion

8 socket forming part 9 socket vertical line

20: vertical line supply part 22, 24: bobbin

30: welding apparatus 31: steel wire drawing machine

37, 57a, 57b: movable electrodes 58a, 58b: pressurized cylinder

40 socket forming apparatus

50: transport ring forming part forming and welding device

51: carrying ring molding tool 52: cylinder

60: cutting device

Claims (3)

A vertical line supply unit 20 composed of a plurality of bobbins 22 wound around the vertical line 6, a known steel wire extractor 31, and a horizontal line supply means are provided, and a power is supplied from the welding transformer and the pressure cylinder 38 is provided. In the wire mesh manufacturing apparatus 10 including the welding device 30 composed of a plurality of movable electrodes 37 operated as a pressure cylinder (58a) (58b) formed a pair of left and right in a plurality of up / down Each of the movable electrodes 57a and 57b, which receive power from the welding transformer, is formed, and between the pair of movable electrodes 57a and 57b, a transport ring forming tool 51 for vertically operating as a cylinder 52 is provided. Configured transport ring forming and welding device A wire mesh manufacturing apparatus for welding a portion of a vertical line (6) or a portion of a horizontal line (7) between one mesh or a plurality of meshes to form a carrying ring. In the wire mesh manufacturing apparatus, one of the plurality of vertical lines 6 or the plurality of vertical lines 6 is supplied to the outside of the welding apparatus 30 so that the vertical lines 6 supplied to the outside are fitted to the purpose at the rear end of the welding apparatus 30. Apparatus for forming or welding.