KR20120057593A - Connecting structure of hose - Google Patents

Abstract

PURPOSE: A structure for connecting a hose is provided to reduce a piping time and to easily connect a pipeline and the hose. CONSTITUTION: A structure for connecting a hose comprises a coupling nut(18), a pressure plate(28), a pressing packing(34), and an adapter(38). The coupling nut comprises a hollow portion(22), a through hole(26), a projection(20), and a female thread portion(24). The projection is formed in one end of the hollow portion. The hose(16) is inserted into the through hole of the projection. The female thread portion is formed on an inner surface of the hollow portion, and corresponds to a pipe(12) of a male thread portion(14). The inserted hose is passed through a pressure hole(32) of the pressure plate. An end part of the pressure plate is inserted into the other end of the hollow portion, and supported to the projection. A cross section of a first inclined outer surface(36) of the pressing packing is expanded to a bottom from a top. The adapter comprises a connection pipe(40), a support flange(42), and a coupling pipe(44). The end part of a lower surface of the support flange is supported to an upper end of the pipe.

Description

Connecting structure of hose

The present invention relates to a hose connection structure. More particularly, the present invention relates to a hose connection structure in which a piping pipe and a hose can be easily connected and can also be hermetically and firmly connected.

Products that use water such as sinks, dishwashers, washing machines, water purifiers, etc. are equipped with drain hoses for drainage. These drain hoses are connected to plumbing pipes, such as drain holes, which are pre-installed on the floor during construction of houses. The living water is drained outdoors.

In addition, a hot water distributor for heating the house is installed under the sink of the utility room or the kitchen, and the hot water distributor is provided with an air valve for discharging air generated from the heating pipe, and drains the air valve and the pipe. It is necessary to discharge the moist air to the outside by connecting with a hose.

As described above, when performing the pipe work by connecting the pipe pipe and the hose, the pipe pipe and the hose is connected to each other because the fluid flows must be tightly and tightly connected without leakage of the fluid at the connection portion.

1 is a view for explaining a hose connection structure according to the prior art. Conventionally, the hose connector 105 for connecting the hose 106 to the end of the pipe pipe 102 is provided, and the hose 106 is inserted into the hose connector tube 104 of the hose connector 105 in the state where the hose 106 is fitted. After the band 108 is wound around the outer periphery of the hose 106 into which the hose connecting tube 104 is inserted, the tightening band 108 is tightened by using the fastening bolt 110 and the fastening nut to connect the pipe pipe 102 and the hose ( 106) are connected to each other.

However, the hose connection structure according to the prior art has a problem that the pipe pipe and the hose is not firmly connected due to the loosening of the fastening bolt and the fastening nut during use.

In addition, the fastening band, fastening bolts and fastening nuts are exposed to the outside, so there was a risk of injury to people, such as a sharp fastening band made of steel, not good appearance after piping.

Republic of Korea Patent Publication No. 10-2004-0032232 (2004.04.17.)

The present invention provides a hose connecting structure in which a pipe pipe and a hose can be easily connected, and also a gas tight and firmly connected.

In addition, the connection between the piping pipe and the hose is hidden to provide a good, safe hose connection structure.

According to an aspect of the present invention, as a hose connecting structure for connecting a hose (hose) to the pipe pipe in which the male thread is formed at the end, a circular hollow portion penetrating from one end to the other end is formed, one end of the hollow portion is the hose A stepped nut extending toward the inside to form a through hole to be inserted, and a coupling nut having a female thread corresponding to the male thread of the pipe pipe on an inner circumferential surface of the hollow part; A pressure plate formed with a pressure hole through which the hose inserted through the through hole penetrates, and is inserted at the other end of the hollow part so that the end is supported by the step; A first inclined outer circumferential surface formed to extend a cross section from an upper end to a lower end, and a crimp packing on a tube in which an end of the hose penetrating the pressing hole is inserted at an upper end thereof; And a connecting flange inserted into the hose to which the compression packing is inserted, and a support flange extending outward from the lower end of the connecting pipe so that the end of the lower surface is supported at the upper end of the piping pipe and the connecting pipe and A hose connection structure is provided, including an adapter having a connection tube extending from a bottom surface and inserted into the plumbing pipe.

The hose connection structure may further include a sealing packing that is fitted to the connection pipe and is interposed between a lower surface of the support flange and an upper end of the pipe pipe.

On the outer circumference of the sealed packing, a second inclined outer circumferential surface may be formed to reduce the cross section toward the lower end of the connection pipe.

An inclined surface corresponding to the first inclined outer circumferential surface may be formed on an inner circumference of the pressing hole.

A fixing flange may be formed at a lower end of the crimping packing so as to be fitted into the connection tube and extend inward to fix the crimping packing.

The connection pipe may include a plurality of connection pipes communicating with the connection pipe and protruding upward from an upper surface of the support flange, and the pressure holes of the pressure plate may correspond to the positions of the plurality of connection pipes. It can be formed as.

The adapter may be integrally formed with the plumbing pipe.

The pipe pipe may be any one of the plurality of inlet pipes of a multi-connected socket including an outlet pipe having one end connected to the drain port and a plurality of inflow pipes communicating with the outlet pipe and protruding from the other end of the outlet pipe. have.

According to the embodiment of the present invention, the piping pipe and the hose can be easily connected to shorten the piping time, and the hose and the piping pipe can be tightly and firmly connected.

In addition, the connection between the hose and the plumbing pipe is concealed, which is good and safe.

1 is a view for explaining a hose connection structure according to the prior art.
Figure 2 is an exploded perspective view of the hose connection structure according to an embodiment of the present invention.
Figure 3 is an exploded cross-sectional view of the hose connecting structure according to an embodiment of the present invention.
4 is a cross-sectional view of the coupling of the hose connection structure according to an embodiment of the present invention.
5 is a view for explaining the adapter of the hose connection structure according to an embodiment of the present invention.
Figure 6 is a state of use of the hose connection structure according to an embodiment of the present invention.
Figure 7 is a perspective view of the adapter of the hose connecting structure according to another embodiment of the present invention.
Figure 8 is a perspective view of the pressure plate of the hose connecting structure according to another embodiment of the present invention.
9 is a cross-sectional view of the coupling of the hose connection structure according to another embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all transformations, equivalents, and substitutes included in the spirit and scope of the present invention. In the following description of the present invention, if it is determined that the detailed description of the related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

Hereinafter, an embodiment of the hose connection structure according to the present invention will be described in detail with reference to the accompanying drawings, in the following description with reference to the accompanying drawings, the same or corresponding components are given the same reference numerals and duplicated thereto. The description will be omitted.

2 is an exploded perspective view of a hose connection structure according to an embodiment of the present invention, Figure 3 is an exploded cross-sectional view of the hose connection structure according to an embodiment of the present invention, Figure 4 is a hose according to an embodiment of the present invention Coupling cross-sectional view of the connection structure, Figure 5 is a view for explaining the adapter of the hose connection structure according to an embodiment of the present invention. And, Figure 6 is a state diagram used in the hose connection structure according to an embodiment of the present invention.

2 to 6, the piping pipe 12, male thread portion 14, hose 16, coupling nut 18, step 20, hollow portion 22, female thread portion 24, through hole ( 26, the pressure plate 28, the inclined surface 30, the pressure hole 32, the pressing packing 34, the fixing flange 35, the first inclined outer peripheral surface 36, the adapter 38, the connecting pipe 40, Corrugation part 41, support flange 42, connection pipe 44, hermetic packing 46, second inclined outer peripheral surface 48, multi-connected socket 50, inlet pipe 52, outlet pipe 54 Is shown.

The hose connection structure according to the present embodiment is a hose connection structure that connects a hose (16) to a pipe pipe (12) in which an external thread portion (14) is formed at an end, and has a circular hollow penetrating from one end to the other end. A part 22 is formed, and at one end of the hollow part 22, a step 20 extending inwardly is formed to form a through hole 26 into which the hose 16 is inserted, and the hollow part ( A coupling nut 18 having an internal thread 24 corresponding to the external thread 14 of the piping pipe 12; Pressing holes 32 through which the hose 16 inserted from the through hole 26 penetrates are formed, and a pressing plate 28 inserted into the other end of the hollow part 33 so that the end is supported by the step 20. )and; A first inclined outer circumferential surface 36 formed to extend a cross section from an upper end to a lower end, and an end portion of the hose 16 penetrating the pressing hole 32 is inserted into the upper end of the tubing compression packing 34; And a connecting pipe 40 inserted into the hose 16 into which the crimping packing 34 is inserted, and an end of a lower surface thereof from the lower end of the connecting pipe 40 so as to be supported by the upper end of the piping pipe 12. An adapter 38 having an extended support flange 42 and a connection pipe 44 communicating with the connecting pipe 40 and extending from a lower surface of the support flange 42 and inserted into the piping pipe 12 ( Including an adapter, it is possible to easily connect the hose 16 and the piping pipe 12 to shorten the piping time, it is possible to connect the hose 16 and the piping pipe 12 tightly and firmly.

Plumbing pipe 12 is a rigid pipe, the male screw portion 14 is formed on the outer peripheral surface of the end, it may be made of a synthetic resin material or a metal material. The plumbing pipe 12 is connected with domestic wastewater such as a sink, a dishwasher, a washing machine, a water purifier, and a drainage hose 16 for draining air having moisture from a hot water distributor.

The hose 16 is a flexible pipe that can be bent freely and may be made of a synthetic resin material.

The coupling nut 18 is a member that is screwed into the pipe pipe 12, and a circular hollow portion 22 penetrating from one end to the other end is formed, and a hose 16 is inserted into one end of the hollow portion 22. A stepped portion 20 extending inwardly is formed so that a through hole 26 is formed, and an internal threaded portion 24 corresponding to the male threaded portion 14 of the piping pipe 12 is formed on an inner circumferential surface of the hollow portion 22. Is formed.

A female thread part 24 corresponding to the male thread part 14 of the piping pipe 12 is formed on the inner circumferential surface of the hollow part 22 so that the coupling nut 18 may be screwed to the piping pipe 12. One end portion of the coupling nut 18 is formed with an annular stepped portion 20 extending toward the inside of the hollow portion 22, and a hose (through a through hole 26 formed by the annular stepped portion 20). 16) is inserted. In addition, in the other end direction of the hollow part 22, a pressure plate 28 to be described later is inserted to allow the step 20 to support an end of the pressure plate 28.

The pressure plate 28 is formed with a pressure hole 32 through which the hose 16 inserted from the through hole 26 penetrates, and is inserted at the other end of the hollow portion 22 so that the end thereof is a stepped portion of the coupling nut 18. 20) is supported. The pressure hole 32 of the pressure plate 28 presses the first inclined outer circumferential surface 36 of the compression packing 34 to be described later according to the screwing of the coupling nut 18 to the piping pipe 12 to compress the compression 34. ), The inner circumferential surface pressurizes the outer circumferential surface of the hose 16.

The compression packing 34 is a tubular member in which a first inclined outer circumferential surface 36 is formed so that a cross section is enlarged from the upper end to the lower end, and the end of the hose 16 penetrating the pressure hole 32 is inserted at the upper end. . When the compression packing 34 is manufactured in the form of a cone (cone) in which a section is enlarged from the top to the bottom, the outer circumferential surface of the cone forms the first inclined outer circumferential surface 36. In addition, the compression packing 34 may have an inner diameter such that the outer circumferential surface of the hose 16 may be inserted into contact with the inner circumferential surface of the compression packing 34.

The upper portion of the compression packing 34 having a small cross section is fitted into the pressure hole 32 of the pressure plate 28, and the coupling nut 18 is lowered as the coupling nut 18 screwed into the piping pipe 12 is rotated. While moving to the pressure plate 28, the end of which is supported on the stepped portion 20 of the coupling nut 18 is moved to the bottom, whereby the pressure hole 32 is the first inclined outer peripheral surface 36 of the compression packing 34 Pressurizes the inner circumferential surface of the compression packing 34 is narrowed. The inner circumferential surface of the narrowed crimping packing 34 pressurizes the outer circumferential surface of the hose 16 coupled to the connecting pipe 40 to increase the traction force of the hose 16 with respect to the connecting pipe 40 to connect the hose 40 to the connecting pipe 40. 16) tightly and tightly combined.

The pressure hole 32 of the pressure plate 28 is moved downwardly along the first inclined outer circumferential surface 36 of the compression packing 34 to increase the traction force of the hose 16 with respect to the connection pipe 40. 32, an inclined surface 30 corresponding to the first inclined outer circumferential surface 36 of the compression packing 34 may be formed. Corresponding to the pressing packing 34 in the form of a pressing plate (28) from the upper surface to the lower surface to form a pressing hole 32 is enlarged to form an inclined surface 30 on the inner circumference of the pressing hole (32). The compression packing 34 may be made of an elastic material such as rubber or silicon.

The adapter 38 is a medium for communicating the hose 16 and the piping pipe 12. The connecting pipe 40 inserted into the hose 16 in which the crimping packing 34 is fitted and the end of the lower surface It communicates with the support flange 42 and the connection pipe 40 extending outward from the lower end of the connecting pipe 40 so as to be supported at the top of the pipe pipe 12 and extends from the bottom surface of the support flange 42 to extend the pipe pipe 12. ) Is provided with a connecting pipe 44.

The connecting pipe 40 and the connecting pipe 44 are in communication with each other, the connecting pipe 40 is coupled to the hose 16, the connecting pipe 44 is coupled to the pipe pipe 12 to the hose 16 and The piping pipes 12 communicate with each other. The end of the lower surface of the support flange 42 extending outward from the lower end of the connecting pipe 40 is supported by the end surface of the piping pipe 12.

Since the hose 16 is made of a flexible material, the outer diameter of the connector 40 is equal to or larger than the inner diameter of the hose 16 so that the connector 40 is inserted into the hose 16 in a force fitting manner. You can. In addition, the outer circumference of the connecting pipe 40 may be formed with a plurality of wrinkles 41 along the longitudinal direction of the connecting pipe 40, the cross section is enlarged in the direction opposite to the direction in which the hose 16 is inserted, such The pleat 41 facilitates insertion of the connector 40 into the hose 16.

The sealing nut 46 is inserted into the connecting pipe 44 so that the sealing packing 46 is interposed between the lower surface of the support flange 42 and the upper surface of the piping pipe 12. When screwed into the sealing packing 46 is compressed while the adapter 38 and the piping pipe 12 is hermetically coupled to each other. The inner diameter of the hermetic packing 46 may be formed to a size such that when the hermetic packing 46 is inserted into the connection pipe 44, the outer circumferential surface of the connection pipe 44 may contact the inner circumferential surface of the hermetic packing 46. The hermetic packing 46 may be made of an elastic material such as rubber or silicon.

When the connecting pipe 44 of the adapter 38 is inserted in the upper direction of the hermetic packing 46, the lower part of the hermetic packing 46 having a small cross section faces the piping pipe 12, and the lower part of the hermetic packing 46. Is screwed into the pipe pipe 12 in the state that is inserted into the pipe pipe 12, the end of the pipe pipe 12 presses the second inclined outer peripheral surface 48 of the hermetic packing 46 while The adapter 38 and the piping pipe 12 are hermetically coupled to each other.

On the other hand, at the lower end of the crimping packing 34, a fixing flange 35 may be formed to be inserted into the connector 40 to extend inwardly so that the crimping packing 34 is fixed to the connector 40. Referring to Figure 5, in the assembly process of the hose connection structure according to the present embodiment, the sealing packing 46 and the compression packing 34 is first coupled to the adapter 38, the compression packing 34 is a connector ( 40 is to form a fixing flange 35 extending inward to the bottom of the compression packing 34 to be fixed to fit. Therefore, the inner diameter formed by the end of the fixed flange 35 is a size that the end of the fixed flange 35 can contact the outer circumferential surface of the connection pipe 40 when the compression packing 34 is inserted into the connection pipe 40. It can be formed as. When the crimping packing 34 is inserted into the connector tube 40, the hose 16 is inserted into the connector tube 40, and the inner circumferential surface of the hose 16 comes into contact with the outer circumferential surface of the connector tube 40. The outer circumferential surface is in contact with the inner circumferential surface of the crimping packing 34.

Looking at the assembly process of the hose connection structure according to the present embodiment, first, the sealing packing 46 is inserted into the connection pipe 44 of the adapter 38, the compression packing to the connection pipe 40 of the adapter 38 Insert the adapter (34) to prepare the adapter (38). Next, the coupling nut 18 is inserted into the hose 16 so that one end of the hose 16 penetrates the through hole 26 of the coupling nut 18. Next, the pressure plate 28 is inserted into the hose 16 so that one end of the hose 16 into which the coupling nut 18 is fitted passes through the pressure hole 32. Next, one end of the hose 16 into which the coupling nut 18 and the pressure plate 28 are fitted is inserted into the connection pipe 40 of the adapter 38. Next, the coupling nut 18 is screwed into the piping pipe 12 while the connecting pipe 44 of the adapter 38 is inserted into the piping pipe 12. As the coupling nut 18 is screwed into the piping pipe 12, the compression packing 34 is pressed into the pressure hole 32 of the pressure plate 28, and the compression packing 34 is fitted into the connection pipe 40. By pressing the outer circumferential surface of the 16, the traction force of the hose 16 to the connector 40 is increased to tightly and securely couple the hose 16 to the connector 40. On the other hand, as the coupling nut 18 is screwed into the piping pipe 12, the hermetic packing 46 fitted to the connection pipe 44 is press-fitted to the end of the piping pipe 12 while the adapter 38 and the piping pipe ( 12) are hermetically coupled to each other.

6 illustrates a state in which the hose 16 is connected to the inlet pipe 52 of the multi connection socket 50 by applying the hose connection structure according to the present embodiment. Recently, with the development of the residential environment, products using water such as sinks, dishwashers, water purifiers and washing machines are increasing, and the number of drains for discharging such water to the outside is limited in houses. Therefore, the multi connection socket 50 may be used to discharge the water of various products through the limited drain.

The multi-connected socket 50 may include an outlet pipe 54 having one end connected to the drain port, and a plurality of inlet pipes 52 communicating with the outlet pipe 54 and protruding from the other end of the outlet pipe 54. The hoses 16 for discharging water of various products are respectively coupled to the plurality of inlet pipes 52.

As the inlet pipe 52 of the multi-connected socket 50, the above-described form of the piping pipe 12 may be applied. That is, the male thread portion 14 is formed outside the end of the inlet pipe 52, and the coupling nut 18 having the female thread portion 24 corresponding to the male thread portion 14 is used, according to the above-described embodiment. (16) can be tightly and firmly coupled to the inlet pipe (52).

Figure 7 is a perspective view of the adapter of the hose connection structure according to another embodiment of the present invention, Figure 8 is a perspective view of the pressure plate of the hose connection structure according to another embodiment of the present invention, Figure 9 is another embodiment of the present invention According to the coupling section of the hose connection structure. 7 to 9, the piping pipe 12, the male threaded portion 14, the hose 16, the coupling nut 18, the stepped portion 20, the female threaded portion 24, the pressure plate 28, and the inclined surface 30 are illustrated. The pressing hole 32, the compression packing 34, the adapter 38, the connection pipe 40, the support flange 42, the connection pipe 44, the sealing packing 46 is shown.

The present embodiment relates to a hose connecting structure for connecting a plurality of hoses 16 to one pipe pipe 12, the adapter 38 according to the present embodiment, protrudes upward from the upper surface of the support flange 42 And a plurality of connecting pipes 40 in communication with the connecting pipes 44. Accordingly, the pressing holes 32 of the pressing plate 28 are formed in plural to correspond to the positions of the plurality of connecting pipes 40 in order to press the compression packing 34 to be fitted to each of the plurality of connecting pipes 40. do.

In the present embodiment, but the compression packing 34 is fitted to each of the plurality of connection pipes 40, respectively, but the plurality of compression packing 34 to be fitted to each of the plurality of connection pipes 40 are integrally with each other. Can be formed.

In addition, in this embodiment, the hose 16 is connected to connect the two hoses 16 to one pipe pipe 12, but the number of hoses 16 coupled to the pipe pipe 12 is It is not limited.

Referring to Figure 9, looking at the assembly process of the hose connection structure according to the present embodiment, first, the sealing packing 46 is inserted into the connection pipe 44 of the adapter 38, the two connection pipe 40 Each of the compression packings 34 is fitted to prepare an adapter 38. Next, the coupling nut 18 is inserted into the two hoses 16 so that one end of the two hoses 16 penetrates the through hole of the coupling nut 18. Next, the pressure plate 28 is inserted into the two hoses 16 so that each of the two hoses 16 into which the coupling nut 18 is fitted passes through each of the two pressure holes 32. Next, two hoses 16 into which the coupling nut 18 and the pressure plate 28 are fitted are respectively inserted into the connection pipe 40 of the adapter 38. Next, the coupling nut 18 is screwed into the piping pipe 12 while the connecting pipe 44 of the adapter 38 is inserted into the piping pipe 12. As the coupling nut 18 is screwed into the pipe pipe 12, each press packing 34 is press-fitted into the corresponding pressure hole 32, respectively, and the outer circumferential surface of the hose 16 fitted into each connection pipe 40. By pressurizing, two hoses 16 are hermetically and firmly coupled to each connector 40. On the other hand, as the coupling nut 18 is screwed into the piping pipe 12, the hermetic packing 46 fitted to the connection pipe 44 is press-fitted to the end of the piping pipe 12 while the adapter 38 and the piping pipe ( 12) are hermetically coupled to each other.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It will be understood that the invention may be varied and varied without departing from the scope of the invention.

Many embodiments other than the above-described embodiments are within the scope of the claims of the present invention.

12: piping pipe 14: male thread portion
16: hose 18: coupling nut
20: step 22: hollow part
24: female thread portion 26: through hole
28: pressure plate 30: inclined surface
32: pressure hole 34: compression packing
35: fixed flange 36: the first inclined outer peripheral surface
38: adapter 40: connector
41: wrinkle portion 42: support flange
44: connection pipe 46: sealed packing
48: second inclined outer peripheral surface 50: multi-connected socket
52: inlet pipe 54: outlet pipe

Claims (8)

A hose connection structure for connecting a hose to a pipe pipe in which an external thread is formed at an end,
A circular hollow portion penetrating from one end to the other end is formed, and at one end of the hollow portion, a stepped portion extending inwardly is formed to form a through hole into which the hose is inserted. A coupling nut in which a corresponding female thread part is formed;
A pressure plate formed with a pressure hole through which the hose inserted through the through hole penetrates, and is inserted at the other end of the hollow part so that the end is supported by the step;
A first inclined outer circumferential surface formed to extend a cross section from an upper end to a lower end, and a crimp packing on a tube in which an end of the hose penetrating the pressing hole is inserted at an upper end thereof; And
A connecting pipe inserted into the hose, into which the crimping packing is fitted, and a support flange extending outward from a lower end of the connecting pipe so that an end portion of the lower surface is supported at an upper end of the pipe pipe and a lower surface of the supporting flange. And an adapter having a conduit extending from and inserted into the plumbing pipe.
The method of claim 1,
Fitted to the connecting pipe, the hose connection structure further comprising a sealing seal interposed between the lower surface of the support flange and the upper end of the pipe pipe.
The method of claim 2,
The outer periphery of the hermetic packing, the second inclined outer peripheral surface is formed so that the cross section is reduced toward the lower end of the connecting pipe, hose connection structure.
The method of claim 1,
The inner circumference of the pressing hole, the inclined surface corresponding to the first inclined outer peripheral surface, characterized in that the hose connection structure.
The method of claim 1,
The lower end of the crimping packing is fixed to the connection pipe, characterized in that the fixing flange extending toward the inside so that the crimping packing is fixed, hose connection structure.
The method of claim 1,
The connector,
In communication with the connecting tube, and includes a plurality of connecting tubes protruding upward from the upper surface of the support flange,
The pressure hole of the pressure plate,
Hose connection structure, characterized in that formed in plurality in correspondence with the position of each of the plurality of connection pipes.
The method of claim 1,
The adapter,
Hose connection structure, characterized in that formed integrally with the pipe pipe.
The method of claim 1,
The plumbing pipe,
Any one of the plurality of inlet pipes of the multi-connected socket including an outlet pipe, one end is connected to the drain port, and a plurality of inflow pipes communicating with the outlet pipe and extending from the other end of the outlet pipe. Connection structure.

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