KR101343522B1 - Pipe connecting device, complex piping having the same and method for assebling the complex piping - Google Patents

Abstract

The present invention relates to a pipe connecting device capable of connecting a metal pipe and a synthetic resin pipe, a composite pipe having the same, and an assembly method thereof. The pipe connecting device according to the present invention is for connecting the metal pipe and the synthetic resin pipe, the connection pipe having a metal pipe coupling portion into which the end of the metal pipe is inserted and a synthetic pipe coupling portion into which the end of the synthetic resin pipe is inserted, the metal pipe coupling A compression ring for pressing the metal pipe joint to the outer surface of the metal pipe inserted therein by compressing the metal pipe joint by being fitted to the outer surface of the unit, and the synthetic pipe inserted in the synthetic pipe joint to the synthetic pipe joint Synthetic resin pipe fixing mechanism for fixing. Pipe connecting apparatus according to the present invention can easily connect the metal pipe and the synthetic pipe made of different materials.

Description

Pipe connecting device, complex piping having the same and method for assebling the complex piping}

The present invention relates to a pipe, and more particularly, to a pipe connecting device capable of connecting a metal pipe and a synthetic resin pipe, a composite pipe having the same, and an assembly method thereof.

In general, the pipe is used as a water supply line or an oil supply line to the industrial facilities of homes and various industrial sites. These pipes consist of a number of pipes connecting the supply points to the supply points of the fluid. Representative pipes include metal pipes, concrete pipes, and synthetic pipes.

Many of the pipes making up the pipe are connected in series via pipe connections. Between the pipe and the pipe, various valves are installed to control the flow of the fluid. While laying pipes of a certain length in sequence at the actual plumbing site, each pipe is connected by a pipe connecting device to complete a continuous pipe as a whole.

Typically, pipes are buried in a certain depth of ground from the ground to reduce the risk of breakage and secure ground space. The construction of the pipe consists of digging the ground first, securing sufficient space, connecting the pipes sequentially, and then burying them in the soil. In the case of urban areas, it is possible to minimize the risk of damage to pipes due to ground subsidence and collapse by increasing the density of soils by digging the soil around which the pipes are buried.

Recently, the use of synthetic resin pipes, which are light, and relatively easy to mold, have increased, unlike metal pipes. In particular, in the case of water supply pipes, the regulation on the allowable detection level of hazardous metals is tightened, and most of the newly constructed water supply pipes use synthetic pipes. In addition, replacement work for replacing old metal pipes with synthetic resin pipes is increasing.

However, it is difficult to construct the whole piping line with synthetic resin pipes. For example, various valves are made of a metal material, but metal pipes are required to firmly install the metal valve. Therefore, it is necessary to connect the synthetic pipe and the metal pipe to each other in the construction of the piping line.

A separate pipe connection device is required to connect the synthetic pipe and the metal pipe. Synthetic resin pipes can be connected to each other using a method such as fusion or adhesion, and metal pipes can be connected to each other by simple welding. However, synthetic pipes and metal pipes have different material properties, so that the ends of each pipe are melted or glued. Because it is difficult to attach and attach.

The present invention has been made in view of this point, and an object of the present invention is to provide a pipe connecting device capable of connecting a synthetic pipe and a metal pipe at a simple, effective and low cost, a composite pipe having the same, and a method for assembling the same.

Pipe connection device according to the present invention for achieving the above object, for connecting the metal pipe and the synthetic resin pipe, the metal pipe coupling portion is inserted into the end of the metal pipe and the synthetic resin pipe coupling is inserted into the end of the synthetic resin pipe A connection pipe having a portion, a compression ring for pressing the metal pipe coupling portion to an outer surface of the metal pipe inserted therein by compressing the metal pipe coupling portion by being fitted to an outer surface of the metal pipe coupling portion, and provided with the synthetic resin pipe coupling portion to the synthetic resin pipe And a synthetic resin pipe fixing mechanism for fixing the synthetic resin pipe inserted into the coupling portion to the synthetic resin coupling portion.

The synthetic resin pipe fixing mechanism may include a heating wire disposed on an inner surface of the synthetic resin pipe coupling portion to melt the outer surface of the synthetic resin pipe inserted into the synthetic resin pipe coupling portion, and a terminal connected to the heating wire to supply power to the heating wire. have.

The inner surface of the compression ring may be provided with an internal inclined portion of the inner diameter gradually decreases in size from one end of the compression ring toward the other end.

On the outer surface of the metal pipe coupling portion may be provided with an external inclined portion of the synthetic pipe coupling portion toward the end of the metal pipe coupling portion to gradually reduce the outer diameter size.

The pipe connecting device according to the present invention may further include a sealing member disposed between an inner surface of the metal pipe coupling portion and an outer surface of the metal pipe inserted into the metal pipe coupling portion to close a gap therebetween.

On the other hand, the pipe composite piping according to the present invention for achieving the above object includes a metal pipe made of a metal material, a synthetic resin pipe made of a synthetic resin material, a pipe connecting device for connecting the metal pipe and the synthetic resin pipe, the pipe The connecting device includes a connection pipe having a metal pipe coupling portion into which an end of the metal pipe is inserted and a synthetic pipe coupling portion into which an end of the synthetic resin pipe is inserted, and fitted to an outer surface of the metal pipe coupling portion to compress the metal pipe coupling portion. Compression ring for compressing the metal pipe coupling portion to the outer surface of the metal pipe inserted therein, the synthetic resin pipe coupling portion is provided in the synthetic resin pipe coupling portion to insert the synthetic resin pipe inserted into the synthetic resin pipe coupling portion to the synthetic resin pipe coupling portion Including regular sphere.

The outer surface of the metal pipe end inserted into the metal pipe coupling portion may be provided with a protrusion protruding outward to increase the friction force with the metal pipe coupling portion.

On the other hand, the composite pipe assembly method according to the present invention for achieving the above object, (a) inserting the end of the metal pipe to the metal pipe coupling portion provided on one end of the connection pipe, is provided on the other end of the connection pipe Inserting the end of the synthetic resin pipe into the synthetic resin pipe coupling portion, (b) inserting a compression ring to the outer surface of the metal pipe coupling portion to compress the metal pipe coupling portion, thereby compressing the metal pipe coupling portion to the outer surface of the metal pipe inserted thereto; (C) fixing the synthetic resin pipe inserted into the synthetic resin pipe coupling portion with a synthetic resin fixing mechanism provided at the synthetic resin pipe coupling portion.

In the step (c), the outer surface of the synthetic resin pipe may be melted and fused to the synthetic resin pipe joint.

Pipe connecting apparatus according to the present invention can easily connect the metal pipe and the synthetic pipe made of different materials.

In addition, the pipe connecting device according to the present invention is simple in structure and can be connected to the metal pipe and the synthetic pipe at low cost.

1 is an exploded view showing a composite pipe according to an embodiment of the present invention.
2 and 3 illustrate a process of assembling a composite pipe according to an embodiment of the present invention.
4 to 8 illustrate a composite pipe according to various embodiments of the present invention.

Hereinafter, with reference to the accompanying drawings, it will be described in detail with respect to the pipe connecting device according to the present invention and a composite pipe and a method for assembling the composite pipe having the same.

In describing the present invention, the sizes and shapes of the components shown in the drawings may be exaggerated or simplified for clarity and convenience of explanation. In addition, terms that are specifically defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user or operator. These terms are to be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the contents throughout the present specification.

1 is an exploded view showing a composite pipe according to an embodiment of the present invention, Figures 2 and 3 show a process of assembling the composite pipe according to an embodiment of the present invention.

As shown in FIG. 1, the composite pipe 100 according to an exemplary embodiment of the present invention includes a metal pipe 110 made of metal, a synthetic resin pipe 120 made of synthetic resin, a metal pipe 110, and a synthetic resin pipe 120. It includes a pipe connecting device 130 for connecting. The metal pipe 110 and the synthetic resin pipe 120 are connected to the fluid flow by the pipe connecting device 130.

The metal pipe 110 has a plurality of protrusions 111 protruding outward from the outer surface. The plurality of protrusions 111 are disposed to be spaced apart from each other on the outer surface of the end of the metal pipe 110 inserted into the connection pipe 131 of the pipe connection device 130. The protrusion 111 increases the friction between the inner surface of the connecting pipe 131 and serves to firmly fix the metal pipe 110 inserted into the connecting pipe 131 to the connecting pipe 131. The cross-sectional shape of the protrusion 111 has a shape in which the width decreases away from the outer surface of the metal pipe 110. In the shape of the protrusion 111, the end of the protrusion 111 may be in close contact with the inner surface of the connection pipe 131 at a greater pressure, thereby increasing friction between the protrusion 111 and the connection pipe 131. Can be.

The protrusion 111 is provided with an inclined portion 112. The inclined part 112 is disposed to face the end of the metal pipe 110 inserted into the connection pipe 131. Since the inclination part 112 is provided in the protrusion part 111, when the metal pipe 110 and the connection pipe 131 are fitted to each other, the end of the metal pipe 110 is connected to the inner surface of the connection pipe 131 without catching the connection pipe 131. Can be inserted smoothly).

The protrusion 111 may be formed in various forms that can penetrate the inner surface of the connection pipe 131 such as a ring shape as shown. When the protrusion 111 is formed in a ring shape, the protrusion 111 may be pressed onto the inner surface of the connection pipe 131 to obtain an effect of sealing between the outer surface of the metal pipe 110 and the inner surface of the connection pipe 131.

As shown in FIG. 1, the pipe connecting device 130 includes a pipe 131 and a synthetic pipe 120 to which the metal pipe 110 and the synthetic pipe 120 are fitted and fused to the connection pipe 131. The heating wire 134 is provided in the connection pipe 131, the coupling pipe 131 is fitted into the compression ring 136, the metal pipe 110 and the connection pipe to secure the metal pipe 110 to the connection pipe 131. And a sealing member 139 for sealing between 131.

The connection pipe 131 has a metal pipe coupling part 132 into which the end of the metal pipe 110 is inserted and a synthetic pipe coupling part 133 into which the end of the synthetic resin pipe 120 is inserted. The metal pipe 110 inserted into the metal pipe coupling part 132 is compressed and fixed to the connection pipe 131 by a compression ring 136, and the synthetic resin pipe 120 inserted into the synthetic pipe coupling part 133 is a synthetic resin pipe. It is fused to the connection pipe 131 by the heating wire 134 provided in the coupling portion 133.

The heating wire 134 is disposed in the form of a coil on the inner surface of the synthetic pipe coupling unit 133, and a terminal 135 for supplying power is connected to the heating wire 134. When power is applied to the heating wire 134 through the terminal 135, the heating wire 134 generates high heat to partially melt the outer surface of the synthetic pipe 120 inserted into the synthetic pipe coupling unit 133.

The compression ring 136 is coupled to the outer surface of the metal pipe coupling portion 132 to compress the metal pipe coupling portion 132 to compress the metal pipe coupling portion 132 to the outer surface of the metal pipe 110 inserted thereto. The compression ring 136 is fitted to the metal pipe coupling portion 132 of the connection pipe 131 in the same direction as the metal pipe 110 is inserted into the connection pipe 131. The compression ring 136 has an inner diameter partially smaller than the outer diameter of the metal pipe coupling part 132, and its strength is larger than that of the connection pipe 131. Therefore, when the compression ring 136 and the metal pipe coupling portion 132 are interference fit, the compression ring 136 may compress the metal pipe coupling portion 132. The compression ring 136 is manufactured to have a strength greater than that of the connection pipe 131 made of various materials such as metal or composite material.

An inner inclined portion 137 is provided on the inner surface of the compression ring 136. The inner diameter of the compression ring 136 gradually decreases at the inner inclined portion 137, and the inner diameter at one end of the compression ring 136 is larger than the outer diameter of the metal pipe coupling portion 132. Therefore, when the compression ring 136 is fitted to the metal pipe coupling portion 132, the end of the metal pipe coupling portion 132 can be easily inserted into the compression ring 136, the insertion depth of the metal pipe coupling portion 132 As the depth of the compression ring 136 compresses the metal pipe coupling portion 132 is gradually increased.

The outer surface of the compression ring 136 is provided with a groove 138. The groove 138 serves to increase the coupling force between the compression ring 136 and the tool when fitting the compression ring 136 to the metal pipe coupling part 132 using various tools. That is, when the compression ring 136 is inserted into the metal pipe coupling part 132 using various tools, a part of the tool is inserted into the groove 138 of the compression ring 136 and the tool is caught. It can prevent slipping.

Hereinafter, a method for assembling a composite pipe according to an embodiment of the present invention will be described with reference to the accompanying drawings.

First, as shown in FIG. 2, the sealing member 139 is coupled to the end of the metal pipe 110 provided with the plurality of protrusions 111, and the end of the metal pipe 110 is coupled to the metal pipe of the connection pipe 131. Inserted into the unit 132. Next, as shown in FIG. 3, the compression ring 136 is forcibly fitted to the metal pipe coupling part 132 into which the metal pipe 110 is inserted. When the compression ring 136 is coupled to the metal pipe coupling portion 132, the metal pipe coupling portion 132 is compressed by the compression ring 136, and the inner surface thereof is compressed to the outer surface of the metal pipe 110. The plurality of protrusions 111 provided on the outer surface of the metal pipe 110 penetrate the inner surface of the metal pipe coupling part 132 so that the metal pipe 110 is firmly fixed to the metal pipe coupling part 132. At this time, the sealing member 139 prevents the leakage of fluid through the metal pipe 110 and the metal pipe coupling portion 132 by blocking a gap between the metal pipe 110 and the metal pipe coupling portion 132.

Subsequently, as shown in FIG. 3, the end of the synthetic resin pipe 120 is inserted into the synthetic resin pipe coupling portion 133 of the connection pipe 131. Subsequently, power is supplied to the heating wire 134 installed in the synthetic resin pipe coupling unit 133 through the terminal 135 to partially melt the outer surface of the synthetic resin pipe 120 inserted into the synthetic resin pipe coupling unit 133. 120 is fused to the synthetic resin pipe coupling portion 133. When the synthetic resin pipe 120 is coupled to the connection pipe 131 to which the metal pipe 110 is connected, the metal pipe 110 and the synthetic resin pipe 120 are connected to enable fluid flow.

In the above description, the metal pipe 110 is first coupled to the connection pipe 131, and then the synthetic pipe 120 is coupled to the connection pipe 131. However, the coupling order of the metal pipe 110 and the synthetic pipe 120 is described in detail. Can be changed. That is, the synthetic pipe 120 may be coupled to the connection pipe 131, and then the metal pipe 110 may be coupled to the connection pipe 131.

As described above, the present invention can simply and effectively connect the metal pipe 110 and the synthetic resin pipe 120 made of different materials using the pipe connecting device 130 having a simple structure.

On the other hand, Figures 4 to 8 show various embodiments of the composite pipe according to the present invention.

In the following description of the composite pipe according to another embodiment of the present invention, the same reference numerals are given to the same parts as the composite pipe 100 according to an embodiment of the present invention described above and a detailed description thereof will be omitted. Shall be.

First, the composite pipe 200 shown in FIG. 4 includes a pipe pipe 210 for connecting the metal pipe 110, the synthetic resin pipe 120, the metal pipe 110, and the synthetic resin pipe 120. The metal pipe 110 and the synthetic resin pipe 120 are connected to the fluid flow by the pipe connecting device 210.

The pipe connecting device 210 is the same as the pipe connecting device 130 of the composite pipe 100 according to an embodiment of the present invention, most of the configuration described above, but there is some difference in the structure of the compression ring 211. . The inner inclined portion 212 and the pressing portion 213 is provided on the inner surface of the compression ring 211. The inner diameter of the pressing portion 213 is smaller than the outer diameter of the metal pipe coupling portion 132 of the connecting pipe 131, and the inner diameter of the inner inclined portion 212 gradually moves from one end of the compression ring 211 toward the pressing portion 213. Decreases. The inner diameter of the outermost inclined portion 212 is larger than the outer diameter of the metal pipe coupling portion 132. Therefore, when the compression ring 211 is fitted to the metal pipe coupling portion 132, the end of the metal pipe coupling portion 132 can be easily inserted into the compression ring 211, the insertion depth of the metal pipe coupling portion 132 As the depth of the compression ring 211 compresses the metal pipe coupling portion 132 is gradually increased.

The composite pipe 300 shown in FIG. 5 includes a metal pipe 110, a synthetic resin pipe 120, a pipe connection device 310 connecting the metal pipe 110 and the synthetic resin pipe 120. Here, the pipe connecting device 310 is the same as the pipe connecting device 130 of the composite pipe 100 according to an embodiment of the present invention, most of the configuration described above, but in the structure of the connecting pipe 311 There is a difference.

The connection pipe 311 has a metal pipe coupling portion 312 into which the metal pipe 110 is inserted and a synthetic resin coupling portion 133 into which the synthetic resin pipe 120 is inserted. The outer surface of the metal pipe coupling portion 312 is provided with an outer inclined portion 313 that gradually decreases the outer diameter size. The outer diameter of the outer inclined portion 313 gradually decreases toward the end of the metal pipe coupling portion 312. The maximum outer diameter of the outer inclined portion 313 is larger than the inner diameter of the compression ring 314, and the minimum outer diameter of the outer inclined portion 313 is smaller than the inner diameter of the compression ring 314. When the compression ring 314 having a constant inner diameter is fitted to the metal pipe coupling portion 312, the end of the metal pipe coupling portion 312 can be easily inserted into the compression ring 314, and the metal pipe coupling portion ( As the insertion depth of 312 deepens, the force of the compression ring 314 compressing the metal pipe coupling portion 312 gradually increases.

6, the composite pipe 400 includes a metal pipe 110, a synthetic resin pipe 410, and a pipe connecting device 420 connecting the metal pipe 110 and the synthetic resin pipe 410. The pipe connecting device 420 includes a metal pipe coupling portion 132 to which the metal pipe 110 is coupled, and a synthetic resin coupling portion 422 to which the synthetic resin pipe 410 is coupled. The metal pipe 110 and the synthetic resin pipe 410 are vertically connected by the pipe connecting device 420. The synthetic resin pipe coupling portion 422 is provided with a pressing member 423 and a fastening member 424 for fixing the synthetic resin pipe 410.

The pressing member 423 is hinged to the synthetic resin pipe coupling portion 422 and its inner surface is formed of a curved surface corresponding to the outer surface of the synthetic resin pipe 410. As the crimping member 423 is tightened by the fastening member 424 in the state in which the synthetic pipe 410 is in contact with the synthetic pipe coupling part 422, the crimping member 423 converts the synthetic pipe 410 into the synthetic pipe coupling part. It is pressed toward the 422, whereby the synthetic pipe 410 is fixed to the synthetic pipe coupling portion 422. A sealing member 425 is interposed between the synthetic resin pipe 410 and the synthetic resin pipe coupling portion 422 to prevent a gap therebetween. The flow path of the synthetic resin pipe 410 is connected to the flow path of the metal pipe 110 through a through hole 411 provided on the side surface of the synthetic resin pipe 410.

The composite pipe 500 shown in FIG. 7 includes a metal pipe 110, a synthetic resin pipe 120, a pipe connecting device 510 connecting the metal pipe 110 and the synthetic resin pipe 120. Most of the pipe connecting device 510 is the same as the pipe connecting device 130 shown in FIG. 1, but differs slightly in the structure of the connecting pipe 511. That is, the connection pipe 511 is formed in an elbow shape to connect the metal pipe 110 and the synthetic resin pipe 120 to form a constant angle.

The composite pipe 600 shown in FIG. 8 includes a pipe pipe 610 for connecting the metal pipe 110, the synthetic resin pipe 120, the metal pipe 110, and the synthetic resin pipe 120. Most of the pipe connecting device 610 is the same as the pipe connecting device 130 shown in FIG. 1, but there are some differences in the structure of the connecting pipe 611. The connection pipe 611 has a T-shaped tube shape, and has one metal pipe coupling part 132 and two synthetic resin pipe coupling parts 133. Accordingly, the pipe connecting device 610 may connect one metal pipe 110 and two synthetic resin pipes 120.

In addition, the structure of the composite pipe according to the present invention can be variously changed. For example, the synthetic resin pipe fixing mechanism for fixing the synthetic resin pipe such as the heating wire 134 or the pressing member 423 to the connection pipe may be changed to another structure capable of fixing the synthetic resin pipe to the connection pipe such as mechanical coupling or fusion. Can be.

The embodiments of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art can improve and modify the technical idea of the present invention in various forms. Accordingly, these modifications and variations are intended to fall within the scope of the present invention as long as it is obvious to those skilled in the art.

100 ~ 600: composite pipe 110: metal pipe
111: protrusion 120, 410: synthetic resin pipe
130, 210, 310, 420, 510, 610: pipe connecting device
131, 311, 421, 511, 611: connecting pipe
132, 312: metal pipe joint 133, 422: synthetic pipe joint
134: heating wire 135: terminal
136, 211, 314: Compression ring 137, 212: Internal inclined portion
139, 425: sealing member 313: outer inclined portion
423: pressing member 424: tightening member

Claims (10)

In the pipe connecting device for connecting metal pipes and synthetic pipes,
A connecting pipe having a metal pipe coupling part into which an end of the metal pipe is inserted and a synthetic resin pipe coupling part into which an end of the synthetic resin pipe is inserted;
A compression ring which is fitted to the outer surface of the metal pipe coupling part and compresses the metal pipe coupling part to compress the metal pipe coupling part to the outer surface of the metal pipe inserted thereto; And
And a synthetic resin pipe fixing mechanism provided at the synthetic resin pipe coupling portion to fix the synthetic resin pipe inserted into the synthetic resin pipe coupling portion to the synthetic resin pipe coupling portion.
The synthetic pipe fixing mechanism includes a heating wire disposed on an inner surface of the synthetic resin pipe coupling portion to melt an outer surface of the synthetic resin pipe inserted into the synthetic resin pipe coupling portion, and a terminal connected to the heating wire to supply power to the heating wire. Characterized by a pipe connection.
delete delete The method of claim 1,
The inner surface of the compression ring is connected to the pipe, characterized in that the inner inclined portion is provided with the inner diameter gradually decreases in size from one end of the compression ring to the other end.
The method of claim 1,
The outer surface of the metal pipe coupling portion is a pipe connecting device, characterized in that the outer inclined portion is gradually reduced in the outer diameter size is provided from the synthetic pipe coupling portion toward the end of the metal pipe coupling portion.
The method of claim 1,
And a sealing member disposed between an inner surface of the metal pipe coupling portion and an outer surface of the metal pipe inserted into the metal pipe coupling portion to close a gap therebetween.
A metal pipe made of a metal material;
Synthetic resin pipe made of synthetic resin material; And
It includes; pipe connection device for connecting the metal pipe and the synthetic resin pipe,
The pipe connecting device includes:
A connection pipe having a metal pipe coupling part into which an end of the metal pipe is inserted and a synthetic resin pipe coupling part into which an end of the synthetic resin pipe is inserted;
Compression ring that is fitted to the outer surface of the metal pipe coupling portion to compress the metal pipe coupling portion to compress the metal pipe coupling portion to the outer surface of the metal pipe inserted therein, and
A synthetic resin pipe fixing mechanism provided on the synthetic resin pipe coupling portion to fix the synthetic resin pipe inserted into the synthetic resin pipe coupling portion to the synthetic resin pipe coupling portion,
The synthetic pipe fixing mechanism includes a heating wire disposed on an inner surface of the synthetic resin pipe coupling portion to melt an outer surface of the synthetic resin pipe inserted into the synthetic resin pipe coupling portion, and a terminal connected to the heating wire to supply power to the heating wire. Composite piping characterized by the above.
The method of claim 7, wherein
The outer surface of the metal pipe end is inserted into the metal pipe coupling portion is a composite pipe, characterized in that provided with a protrusion projecting outward to increase the friction with the metal pipe coupling portion.
(a) inserting the end of the metal pipe into the metal pipe coupling part provided at one end of the connection pipe, and inserting the end of the synthetic resin pipe into the synthetic pipe coupling part provided at the other end of the connection pipe;
(b) pressing the metal pipe coupling part to the outer surface of the metal pipe inserted therein by fitting the compression ring to the outer surface of the metal pipe coupling part to compress the metal pipe coupling part; And
(c) fixing the synthetic resin pipe inserted into the synthetic resin pipe coupling portion with a synthetic resin pipe fixing mechanism provided in the synthetic resin pipe coupling portion;
In the step (c), the outer surface of the synthetic resin pipe is melted and fused to the synthetic resin pipe joint, characterized in that the assembly method of the composite pipe. delete

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