KR100740166B1 - A structure of bypass pipe - Google Patents

Abstract

The present invention relates to the structure of the bypass pipe, more specifically, because the construction in the field using a pipe made of the main pipe and the bent branch pipe is provided integrally, each with a flange, without welding the pipe directly in the field, The purpose of the construction is to provide a bypass pipe structure that is quick and simple in construction and has improved construction precision.

      According to the present invention for achieving the above object, the main tube 10 through which the fluid flows, the flow meter or pump and other piping components 11 connected to the middle of the main tube 10, and the front and rear of the piping components 11 In the piping structure consisting of the valve 12 connected to the stage and the bypass pipe 20 connected to the front and rear ends of the valve 12, and the valve 13 is connected in the middle, the bypass pipe 20 ) Is branched and bent in the middle of the main pipe 10 or in the middle of the joint pipe 30 and the joint pipe 30 connected by the flange (50, 60) between the main pipe 10 and the valve 12 It is connected to the end is made of a branch pipe 40 is formed with a flange (50, 60) at the end, the valve 13 is provided with a bypass pipe structure, characterized in that connected to both ends of the branch pipe (40).

Description

A structure of bypass pipe

1 is a view showing an example of a conventional bypass pipe structure

Figure 2 is a state diagram showing an embodiment of the bypass pipe structure according to the present invention

3 is an exploded view of the embodiment shown in FIG.

4 is a view showing another embodiment of the bypass pipe structure according to the present invention;

<Description of the symbols for the main parts of the drawings>

    10: bypass pipe 12, 13: valve

15, 16: water pipe 30, 40: joint pipe

31, 41: main building 32, 42: branch

    40: flange 60: feed flange

    61: through hole 70: fixing means

    71: sealing material

The present invention relates to the structure of the bypass pipe, more specifically, because the construction in the field using a pipe made of the main pipe and the bent branch pipe is provided integrally, each with a flange, without welding the pipe directly in the field, Construction is quick and simple, and the structure of the bypass pipe with improved construction precision.

In general, a pipe such as a water supply is provided with a flow meter, a pump, and other piping components and a pair of valves connected to the front and rear thereof, and when the piping components are damaged or fail, the valve is closed and the flowmeter is replaced or repaired. In this case, as shown in FIG. 1, by appropriately connecting the bypass pipe 20 to the main pipe 10 connected to the outside of the valve 12, the flow meter, the pump, and other piping components 11 may be replaced. B) Water is communicated to the bypass pipe 20 during maintenance so that water is not cut even when the piping component 11 is replaced or repaired.

By the way, such a bypass pipe 20 is constructed by cutting a plurality of pipes to a suitable length in the field and welding them with an elbow 15 or a T-shaped pipe 14, and a pipe such as water supply is relatively large in construction. There is a problem that it is not easy to cut a plurality of tubes to a proper length in the field. In addition, in the field to connect the elbow 15 or T-shaped tube 14 in the field is also not easy to weld the connection, there is a problem that can be caused by leakage due to poor welding.

The present invention is to solve the problems described above, an object of the present invention is to provide a flange each using a precision machine in the factory, without the need to connect a plurality of pipes in the elbow or T-shaped pipe in the field It is to provide a bypass pipe structure that can be constructed more simply and quickly by using a bypass pipe formed by integrally manufacturing a joint pipe and a bent branch pipe.

On the other hand, it is equipped with a movable flange in the bypass pipe and can be connected by using welding or fixing means by cutting the bypass pipe to an appropriate length according to the site, the construction is convenient, the site where the flange adjacent to the flange is connected By inserting the fixing means of the sealing material in the bypass pipe to be configured to be sealed to provide a structure of the bypass pipe that the pipes and the pipe and the valve is connected without welding.

      According to the first aspect of the present invention, the fluid flows through the main tube 10, the flow meter or pump and other piping components (11) connected to the middle of the main tube 10, and connected to the front and rear ends of the piping components (11) In the piping structure consisting of the valve 12 and the bypass pipe 20 is connected to the front and rear ends of the valve 12, the valve 13 is connected in the middle, the bypass pipe 20 is In the middle of the main pipe (10) or between the main pipe (10) and the valve 12 is connected to the joint pipe 30 and the middle of the joint pipe (30) connected by the flange (50, 60) integrally connected Consists of a branch pipe 40 formed with flanges (50, 60) at the end, the valve 13 is provided with a bypass pipe structure, characterized in that connected to both ends of the branch pipe (40).

According to the second aspect of the present invention, at least one of the flanges 50 and 60, the flange 60 is formed in the center through-hole 61 is movably inserted into the outer peripheral surface of the bypass pipe 20, The bypass pipe structure is provided, characterized in that the front end of the bypass pipe 20 is cut in accordance with the size of the valve 13 to fix the flange 60 to the bypass pipe 20. .

According to the third aspect of the present invention, the periphery of the through-hole 61 of the flange 60 is formed to be inclined from the front to the rear, and is provided with a fixing means 70 of the ring or block made of a wedge cross section, The fixing means 70 is inserted between the periphery of the through-hole 61 of the flange 60 and the bypass pipe 20 to fix the flange 60 and the bypass pipe 20 to each other. A bypass pipe structure is provided.

According to a fourth aspect of the present invention, a sealing material 71 is provided on one side of the fixing means 70 in contact with the bypass pipe 40, so that the flange 50 adjacent to the flange 60 is provided. While being closely coupled to each other, the structure of the bypass pipe is provided such that the fixing means 70 seals the bypass pipe 20.

The objects, features and advantages of the present invention described above will become more apparent from the following detailed description. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Figure 2 is a state diagram showing an embodiment of the bypass pipe structure according to the present invention, Figure 3 is an exploded view of the embodiment shown in FIG. 2 and 3, a valve connected to the front and rear ends of the flowing main pipe 10 and the flow meter connected to the middle of the main pipe 10, the pump and other piping components 11 and the piping components (11). In the piping consisting of (12), the structure of the bypass tube 20 of the present invention is a joint pipe connected to the middle of the main pipe 10 or between the main pipe 10 and the valve 12 by a flange (50, 60) ( 30) and branch pipes (30) and bent in the middle of the joint pipe 30 is integrally formed and consists of a branch pipe (40) formed with flanges (50, 60) at the end and the valve (13) at both ends of the branch pipe (40) It is connected.

The bypass tube 20 is composed of a branch pipe 30 of a predetermined length and a branch pipe 40 branched and bent in the middle of the joint pipe 30 and integrally connected to each other. At this time, both ends of the branch pipe 40 of the bypass pipe 20 are provided to face each other, the valve 13 is connected therebetween. In addition, both ends of the joint pipe 30 and the ends of the branch pipe 40 are provided with flanges 50 and 60 of circular or polygonal shapes, respectively. On the other hand, the flanges 50 are provided at the pipe components 11, both ends of the valves 12 and 13, and end portions of the main pipe 10 connected to the valves 12, respectively.

The central portion of the flange (50, 60) is provided with a through hole 61 of a diameter that can be inserted into the outer surface of the bypass pipe 20 is provided with a transfer flange 60 that is movable in one bypass pipe (20). . In addition, one side of the branch pipe 40 into which the transfer flange 60 is movably inserted among the branch pipes 40 is formed to be somewhat long, so that the end portion A of the branch pipe 40 of the bypass pipe 20 is constructed. By cutting to an appropriate length to fit, and by transporting and welding the conveying flange 60 to the cut portion (B), it is possible to appropriately construct the bypass pipe 20 according to the conditions and conditions of the construction site.

Therefore, in constructing a bypass pipe 20 having a relatively large diameter such as running water in the field, the flange 50, which is bent or curved in the joint pipe 30, is welded in the field, without being welded in the field. By using the pair of bypass pipes 20, which are provided with 60) and processed by precision machines in the factory, there is an advantage that the construction is easy and rapid, and the construction is precise and there is no fear of leakage. . In addition, since the length of one side of the branch pipe 42 provided with the conveying flange 60 is somewhat longer, and can be constructed by cutting the branch pipe 42 to a suitable length in the field and moving the conveying flange 60, construction is convenient. There is an advantage.

On the other hand, Figure 4 is a view showing another embodiment of the bypass pipe structure according to the present invention. As shown in FIG. 4, the circumference of the through-hole 61 of the flange 60 is formed to be inclined from the front to the rear, and has a wedge shape in cross section and has a sealing material 71 provided on the inner circumferential surface thereof. 70, the fixing means 70 is inserted between the periphery of the through-hole 61 of the flange 60 and the bypass pipe 20 to the flange 60 and the bypass pipe 20 Fix each other.

The fixing means 70 is made of metal and has a wedge shape in its cross section, and a sealing material 71 such as rubber is provided on a surface contacting the bypass pipe 20 and formed in a ring shape. At the same time it is inserted into the (20) is inserted between the periphery of the through-hole 61 and the bypass pipe 40 in the front of the conveying flange 60. At this time, the fixing means 70 is protruded from the front of the conveying flange 60, the conveying flange 60 is coupled to the flange 50 of the valve 13 by a fastening means 80, such as bolts or clamping. At this time, the fixing means 70 is slid between the through-hole 61 and the bypass pipe 20. Therefore, the sealing material 71 of the fixing means 70 seals the bypass pipe 20, thereby preventing leakage due to the pressure of the fluid. On the other hand, in some cases, the fixing means 70 may be formed of a block having a predetermined width in a wedge shape as well as a ring shape, the entire fixing means 70 may be made of a sealing material (71).

Therefore, by inserting the fixing means 70 provided with the sealing material 71 to the portion where the conveying flange 60 is connected to seal the connecting portion of the bypass pipe 20 at the same time as the flange 50, 60 connection, Since it is firmly connected without welding, there is an advantage that there is no fear of leakage occurring at the connection portions of the flanges 50 and 60.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be apparent to those of ordinary knowledge.

As described above, according to the present invention, flanges are provided at each end without being directly welded and connected at the site where the bypass pipe is coupled to the main pipe through which the fluid flows and the bending part of the bypass pipe, and are formed by precision machining. By using the bypass pipe, the connection state of the bypass pipe is precise, which can prevent leakage and provide an effect that can be easily and quickly installed.

On the other hand, since the bypass pipe can be constructed by cutting to a suitable length to suit the conditions of the construction site and moving the conveying flange, the construction can provide a convenient effect. In addition, since the conveying flange is fixed and connected by an adjacent flange and a fixing member provided with a sealing material, the bypass pipe is firmly connected without welding, and the connection part is sealed to provide an effect of preventing leakage.

Claims (4)

        A main tube 10 through which fluid flows, a flow meter, a pump, and other piping components 11 connected between the main tubes 10, a valve 12 connected to front and rear ends of the piping components 11, and the valves. In the piping structure consisting of the bypass pipe 20 connected to the front and rear ends of the (12) and the valve 13 is connected in the middle, the bypass pipe 20 is the middle or main pipe of the main pipe 10 ( 10) and the valve 12 is connected to the joint pipe 30, which is connected to the flange (50, 60) in the middle of the joint pipe 30, bent and integrally connected, the flange (50, 60) at the end Is formed of a branch pipe 40, the valve 13 is connected to both ends of the branch pipe 40, at least one of the flanges (50, 60) of the flange (60) is formed in the central hole (61) Is inserted into the outer circumferential surface of the bypass pipe 20 so as to be movable, by cutting the front end of the bypass pipe 20 in accordance with the standard of the valve (13) The structure of the bypass pipe, characterized in that the group so as to secure the flange 60 to the bypass pipe (20). delete         According to claim 1, wherein the periphery of the through hole 61 of the flange 60 is formed inclined from the front to the rear, and the fixing means 70 of the ring or block having a wedge shape in cross section is provided, the fixing means ( 70 is inserted between the periphery of the through-hole 61 of the flange 60 and the bypass pipe 20 to fix the flange 60 and the bypass pipe 20 to each other. The structure of the path tube.         According to claim 3, The sealing member 71 is provided on one side of the fixing means 70 in contact with the bypass pipe 40, the flange 50 adjacent to the flange 60 is in close contact with each other While the fixing means 70 is sealed structure of the bypass pipe 20.

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