KR101050104B1 - Pipe anchors with bent joint structure - Google Patents

Abstract

The present invention relates to a machine element technology, and more particularly to a pipe anchor for supporting the riser pipe.

Pipe anchor of the present invention is a cylindrical intermediate body (1), the lower body (2) is fixed to the bottom of the place to be attached to the lower end of the intermediate body (1) as a c-shaped channel shape to be installed, the middle Anti-vibration rubber cup (3) is inserted into the body (1) has a coupling hole in the center of the bottom, the upper body (4) is inserted into the anti-vibration rubber cup and coupled to the clamp of the pipe, the dust-proof It consists of a binding bolt (5) for coupling the upper body (4) and the lower body (2) through the rubber cup (3), and a dust washer (6) installed on the head of the binding bolt (5).

The pipe anchor of the present invention is produced by the method of processing the steel plate by pressing each component and minimizing the welding area, the productivity is very high and there is little fear that defects caused by welding defects occur. As a result, the production cost of the product is low, and the energy consumption is low.

Pipe Anchor, Standing Pipe, Dustproof, Extension, Press, Welding

Description

Pipe Anchor of Bend Joining Structure

The present invention relates to a machine element technology, and more particularly to a pipe anchor for supporting the riser pipe.

In general, the piping system used to circulate or supply water, oil, refrigerant, etc. is configured by connecting a plurality of pipes, the fluid in the pipe is circulated by the pressure generated by the pump. Pipes arranged horizontally in such piping system are called transverse pipes, and pipes arranged vertically are called granular pipes. Recently, as the size of the building becomes larger and higher, the diameter of the standing pipes installed in the building becomes larger and the length is also longer than 100 meters, so the support of the standing pipes has emerged as a very important problem.

The piping system is the main passage through which the vibration generated by the pump is transmitted, and the vibration of the pump is transmitted to the building structure, which causes structural noise generated by the vibration and vibration of the building. In addition, in the case of hot water pipes, when the hot water flows into the pipe, the length of the pipe is extended by thermal expansion, thereby causing problems such as damage to the structure supporting the pipe.

Normally, as shown in FIG. 1, the riser pipe is divided into whole sections by a predetermined length to connect using expansion joints to absorb thermal expansion of the piping, and the expansion of the piping sections between the expansion joints and expansion joints. A pipe anchor is used to secure the pipe to the building structure. Although not shown, spring mounts are installed in many other places to allow expansion and contraction of the pipes, while distributing the supporting load of the pipes, and installing guides in many places to limit the horizontal deformation of the granules.

Among the pipe support devices as described above, the pipe anchor is installed at the reference point of the pipe deformation, which can be subjected to very large loads, and an important function of preventing the vibration of the pipe from being transmitted to the surroundings while limiting the displacement of the pipe to a minimum. Do it.

To install the pipe anchors, attach two pipe clamps to the pipe so as to face each other by welding, install washers on the upper surfaces of the two pipe clamps, and pass the fixing bolt through the gap between the two pipe clamps. Install by fastening to the screw hole formed at the top of the. Pipe anchors are fixed to the structure at the installation site.

A typical pipe anchor is shown in Figure 2, a cup-shaped intermediate body, the lower body is fixed to the building by being attached to the lower end of the intermediate body by welding, and the hole is formed in the center of the bottom as inserted into the intermediate body The anti-vibration rubber cup, the lower part is inserted into the anti-vibration rubber cup, and the upper part is attached with a nut that can be coupled with the clamp of the pipe, and the upper body supporting the pipe, and the upper body and the lower body are coupled through the anti-vibration rubber cup. It consists of a bolt and a dust washer installed on the head of the coupling bolt.

Conventional pipe anchors as described above, there is a problem in that all the parts overlapping with each other by welding, there is a high consumption of energy, low productivity, high probability of defective products due to welding defects.

Pipe anchors are an important component for supporting the riser pipes. In general, pipe anchors use a method of joining all important parts by welding. As described above, the pipe anchors consume a lot of energy, have low productivity, and There is a high probability of defective products caused by welding defects.

Therefore, in order to increase the productivity and lower the defect rate, a new structure of the pipe anchor that can reduce the welded joint to a minimum is required.

Pipe anchor of the present invention is a cylindrical intermediate body (1), the lower body (2) is fixed to the bottom of the place to be attached to the lower end of the intermediate body (1) as a c-shaped channel shape to be installed, the middle Anti-vibration rubber cup (3) is inserted into the body (1) has a coupling hole in the center of the bottom, the upper body (4) is inserted into the anti-vibration rubber cup and coupled to the clamp of the pipe, the dust-proof It consists of a binding bolt (5) for coupling the upper body (4) and the lower body (2) through the rubber cup (3), and a dust washer (6) installed on the head of the binding bolt (5).

Each part of the lower body 1 and the upper body 4 are all bent and manufactured by using a press, and the upper body 4 is also manufactured by pressing using a press.

The pipe anchor of the present invention is produced by the method of processing the steel plate by pressing each component and minimizing the welding area, the productivity is very high and there is little fear that defects caused by welding defects occur.

As a result, the production cost of the product is low, and the energy consumption is low.

Pipe anchor of the present invention, as shown in Figure 3, is a cylindrical intermediate body (1), a c-shaped channel shape is attached to the lower end of the intermediate body (1) by welding and fixed to the bottom of the place to be installed Inserted into the lower body (2), the intermediate body (1) is a dustproof rubber cup (3) having a coupling hole is formed in the center of the bottom, the dustproof rubber cup is inserted into and coupled to the clamp of the pipe A binding bolt 5 penetrating the upper body 4 and the dustproof rubber cup 3 to bind the upper body 4 and the lower body 2, and a dustproof washer installed on the head of the binding bolt 5. It consists of (6).

The intermediate body 1 is produced by cutting the steel pipe to a certain length.

The lower body 2 is manufactured by bending a steel plate having a predetermined thickness into a c-shape, and is attached to the lower end of the intermediate body 1 by welding. Welding is good for both appearance and strength in the whole circumferential welding inside the bottom of the intermediate body. In the center of the upper surface of the lower body (2) is formed a hole through which the binding bolt (5) can pass.

And the lower end of the lower body (2) bend the steel plate to both sides to form a fixing bracket 21, the fixing bracket 21 is formed a fixing hole 22 for fixing the pipe anchor to the installation place, such as the floor of the building. It is easy to use. The fixing hole 22 may be in the form of a hole or a groove in which the hole is open toward the side.

The lower body is produced by cutting a steel plate having a predetermined thickness into a rectangle, pressing and pressing at a press using a mold to bend at a time, and processing a hole and a fixing hole 22 through which the binding bolt 5 passes by a drill or the like. To make.

The anti-vibration rubber cup 3 is a cup shape having a hole through which the binding bolt 5 passes at the bottom, and is inserted into and coupled to the inside of the intermediate body 1. Since the anti-vibration rubber cup 3 has a function of blocking vibration while transmitting the load of the pipes transmitted from the upper body 4 to the lower body 2, the anti-vibration rubber is molded to a sufficient thickness. The height of the anti-vibration rubber cup (3) is such that the upper end of the anti-vibration rubber cup (3) is not exposed to the upper end of the intermediate body (1) when coupled to the intermediate body (1).

The anti-vibration rubber cup 3 may be a flat surface of the outer surface, but as shown in the figure, by forming a plurality of projections 31 on the surface of the outer surface, it is possible to better block the vibration of the pipe. As such, when the protrusions 31 are formed, when the load due to the horizontal vibration is applied, the protrusions 31 themselves undergo a large displacement and elastically deform. Therefore, the anti-vibration rubber cup 3 acts as a spring with a low spring constant in the horizontal direction, so that the anti-vibration effect is much greater. In the case of the vibration of the riser tube, mainly considering the lateral vibration is a problem, the vibration blocking role of the projection 31 is very large.

The upper body 4 is composed of a cup 41 inserted into the dustproof rubber cup 3 and a cover plate 42 covering the upper end of the cup 41. When the cup 41 has a certain height and is coupled to the anti-vibration rubber cup 3, the cup 41 is exposed to a certain height above the intermediate body 1, even if the anti-vibration rubber cup 3 causes compression deformation due to the weight of the pipe. Do not allow the upper body (4) to touch the intermediate body (1).

The cup 41 has a cup shape having a flange 411 open to the outside at the inlet, and has a cup protrusion 412 having a hole protruding toward the inside of the cup at the center of the bottom, and in the hole of the cup protrusion 412. A female screw is formed. The cup is manufactured by deep drawing or turning of a steel plate of a certain thickness, forms a bottom cup protrusion 412 by using a press, and then processes a female screw in the hole of the cup protrusion 412. How to make.

The cover plate 42 is formed by a method of processing a female screw in the hole of the cover protrusion 421 after forming a cover protrusion 421 having a hole in the center by using a press-shaped steel plate having a predetermined thickness.

The combination of the cup 41 and the cover plate 42 is also a press. The cover plate 42 is placed on the lower mold of the press, and the opening of the cup 41 is raised to contact the cover plate 42. The press is attached to the upper mold by pressing. When the press mold is properly designed, the edge portion of the cover plate 42 is folded inside to cover the flange 411 of the cup 41 when pressurized by the press, so that the cup 41 and the cover plate 42 are closed. Compressed and united together.

Binding bolt (5) is a conventional bolt, after the anti-vibration rubber cup (3) and the upper body (4) to sequentially combine the inside of the intermediate body (1) serves to bind them to the lower body (2). The binding bolt 5 is inserted into the hole of the lower body 2 from below, and the screw is coupled to the female screw formed on the cup protrusion 412 at the bottom of the cup 41 of the upper body 4.

The head portion of the binding bolt (5) is good to use a dust washer (6). The anti-vibration washer attaches a metal washer 62, such as a conventional flat washer, to distribute the load evenly to the rubber plate on one side of the rubber plate 61 of a certain thickness. The rubber plate 61 and the metal washer 62 may be manufactured separately or used by adhering with an adhesive, or may be manufactured by integrally molding the rubber plate 61 and the metal washer 62.

While the pipe is normally operated, the bottom portion of the anti-vibration rubber cup 3 receives the compressive force by the weight of the pipe, and the head of the binding bolt 5 is spaced apart from the lower surface of the lower body 2. However, when abnormal pressure is applied to the pipe or a large lateral load is applied, the head of the binding bolt 5 touches the lower surface of the lower body 2 so that the vibration of the upper body 4 moves along the binding bolt 5 to the lower body 2. Sometimes it is delivered to a building structure. When the anti-vibration washer 6 is used, the vibration transmitted along the binding bolt 5 is blocked by the anti-vibration washer 6 even when such an abnormal operation is performed, and thus is not transmitted to the lower body 2.

The use of the pipe anchor of the present invention is the same as the use of a conventional pipe anchor, the fixing bolt penetrated between the two clamps attached to the pipe cover projection formed in the center of the cover plate 42 of the upper body (4) In combination with the female screw of 421, a pipe and a pipe anchor are coupled.

The pipe anchor of the present invention is used to block the vibration by supporting the vertical pipe disposed vertically in the building.

1 is a portion where a pipe anchor is used in the riser pipe.

2 is a block diagram of a conventional pipe anchor.

3 is a block diagram of a pipe anchor of the present invention.

※ Important Component Number

1: middle body, 2: lower body, 3: dustproof rubber cup, 4: upper body,

5: binding bolt, 6: dust washer,

21: fixing bracket, 22: fixing hole, 31: protrusion

41: cup, 411: flange, 412: cup protrusion,

42: cover plate, 421: cover protrusion,

61: rubber plate, 62: metal washer.

Claims (4)

A cylindrical intermediate body 1; As the c-shaped channel shape is attached to the upper end of the intermediate body (1) by welding, the steel plate of a certain thickness is produced by bending the c-shape by using a press, and the coupling hole is formed in the center of the upper surface Lower body 2; An anti-vibration rubber cup (3) which is inserted into the intermediate body (1), is formed by molding the anti-vibration rubber into a cup shape, and a coupling hole is formed in the center of the bottom; It supports the clamp of the pipe and has a cup shape with a flange 411 that is opened outward and has a cup protrusion 412 having a hole protruding toward the inside of the cup at the center of the bottom, and in the hole of the cup protrusion 412. And a cover plate 42 having a female thread formed therein and a cover plate 421 having a hole in the center as a disc shape having a predetermined thickness, and having a female thread formed in the hole of the cover protrusion 421. The plate 42 and the cup 41 are the upper body (4) is the edge of the cover plate 42 is compressed and wrapped around the edge of the flange 411 of the cup 41; Then, after the dust-resistant rubber cup 3 and the upper body 4 are sequentially coupled to the inside of the intermediate body 1, they are bolts that bind them to the lower body 2, and are inserted into the holes of the lower body 2 and screwed. Is coupled to the female screw formed in the cup protrusion 412 of the bottom of the cup 41 of the upper body (4), binding bolt (5); Including, a pipe anchor. The method of claim 1, wherein the pipe anchor, It is fitted to the head of the binding bolt 5, the rubber plate 61 having a hole in the center through which the binding bolt 5 can penetrate, and attached to one side of the rubber plate in contact with the head of the binding bolt A pipe anchor, further comprising a dust washer (6) consisting of a metal washer (62). The method according to claim 1 or 2, The lower body (2) bends the lower ends of both sides to the outside to form a fixing bracket (21), and the fixing bracket (21) for fixing a pipe anchor to an installation place such as a floor of a building (22) A pipe anchor, characterized in that is formed. The method according to claim 1 or 2, The anti-vibration rubber cup (3) is a pipe anchor, characterized in that a plurality of projections are formed on the surface of the outer surface.

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