KR200164120Y1 - A structure to joint a hose - Google Patents

Abstract

The present invention relates to a hose connection structure. The present invention, in the hose connection structure in which the outer diameter of the body portion of the first connecting member is screwed to the inner diameter of the fastening portion of the second connecting member, the stepped portion (in step) to the inner diameter of the fastening portion 21 of the second connecting member (20) 24 and an annular recess 24a is formed at the inner circumference of the stepped portion 24, and the airtight holding member 80 is forcibly inserted into the inner diameter of the annular recess 24a, and the airtight holding member 80 is formed. The outer diameter of the one side is to maintain the airtight to be inserted exposed from the annular groove (24a), the present invention configured as described above, while maintaining the airtightness of the 1.2 connecting member to secure the airtight while maintaining the airtight Compared with the conventional hose connection structure, the number of processes due to the fastening operation is reduced, thereby improving the workability.

Description

Hose connection structure {A STRUCTURE TO JOINT A HOSE}

The present invention relates to a connection structure for connecting a hose, such as a boiler, in particular, to form an annular groove in the inner diameter of the second connection member of the hose connection structure, and to insert the airtight retaining member into the annular groove to fasten the 1.2 connection member. It relates to a hose connection structure that improves the fastening workability while maintaining the airtight accordingly.

In general, a boiler used in each home is to supply hot and cold water from the boiler body to each room through a plurality of branch pipes, and has a connection structure for connecting a hose installed between the boiler body and the branch pipe. In this connection, the connecting structure is made by fastening the 1.2 connecting member, and the Teflon tape is used to maintain the mutual airtightness of the 1.2 connecting member.

This conventional hose connection structure will be described with reference to the accompanying drawings, FIGS. 1 to 3.

1 is a state diagram showing a conventional hose connection structure, Figure 2 is an exploded perspective view showing a conventional hose connection structure, Figure 3 is a cross-sectional view of the main portion of the conventional hose connection structure. As shown in FIGS. 1 to 3, the hose connection structure includes a first connection member 100 and a second connection member 200.

The first connection member 100, the body portion 110 formed on one side, and the head portion 120 formed integrally with the body portion 110.

The insertion hole 130 is formed in communication with the body 110 and the head 120 of the first connection member 100.

The pipe 310 of the branch pipe 300 is screwed to the inner diameter of the head 120 of the first connection member 100, the Teflon tape (T) is an airtight member to the outer diameter of the body 110 It is wound.

The second connection member 200 includes a fastening part 210 to which the body part 110 of the first connection member 100 is screwed, and a fitting part 220 formed integrally with the fastening part 210. Is made of.

In the fastening part 210 and the fitting part 220 of the second connection member 200, the insertion hole 230 penetrates to correspond to the insertion hole 130 of the first connection member 100.

In the inner diameter of the insertion hole 230, the insertion portion 230 is formed with a seating portion 212 is provided with its own elastic force and the packing member 400 made of rubber material is inserted and seated.

A hose 500 connected to the boiler body 700 is inserted into an inner diameter of the packing member 400, and a fastening nut 600 is fastened to an outer diameter of the fitting portion 220 of the second connection member 200. It will be fixed 500.

Referring to the coupling state of the conventional hose connector configured as described above, first, the insertion hole 130 formed in the inner diameter of the head portion 120 of the first connecting member 100 of the hose connecting structure to the pipe 310 of the branch pipe 300. After the screw is fastened, the Teflon tape T is wound around the outer diameter of the body 110 of the first connecting member 100, and then the second connecting member ( When screwing the insertion hole 230 formed in the inner diameter of the fastening portion 210 of the 200, the screw is fastened to the inner diameter of the insertion hole 230 of the fastening portion 210, wherein the body portion of the first connection member 100 Cold water is supplied to the branch pipe 300 through the hose 500 from the boiler body 700 by maintaining the airtightness of the first connection member 100 and 200 with the Teflon tape T wound around the outer diameter. And prevent hot water from leaking.

In this state, the packing member 400 is inserted into and fixed to the seating portion 212 of the inner diameter of the insertion hole 230 formed in the fitting portion 220 of the second connection member 200, and then the inner diameter of the packing member 400 is fixed. When the fastening nut 600 is fastened to the outer diameter of the fitting portion 220 of the second connection member 200 while the hose 500 is inserted, the hose 500 connected to the boiler body 700 is fixed. At this time, the packing member 400 made of a rubber material is to support the hose 500 while being deformed due to the characteristics of the material.

However, as described above, the conventional hose connection structure for connecting between the boiler body and the branch pipe, Teflon is a hermetic holding member to the second connecting member when the first connecting member of the hose connecting structure to the second connecting member in the fastening operation After winding the tape one by one, by screwing to maintain the airtightness of the 1.2 connection member, the number of processes according to the fastening operation is increased, the workability is deteriorated.

The present invention is to solve such a conventional problem, the present invention is to form an annular groove in the inner diameter of the second connecting member of the hose connection structure, inserting the airtight holding member to maintain the airtight to improve workability Will be.

The technical problem of the present invention, in the hose connecting structure in which the outer diameter of the body portion of the first connecting member is screwed to the inner diameter of the fastening portion of the second connecting member, forming a stepped portion in the inner diameter of the fastening portion of the second connecting member To form an annular groove in the step portion inner circumference, forcing the airtight holding member into the annular inner groove forcibly, one outer diameter of the airtight holding member is exposed to be exposed from the annular groove is achieved by maintaining the airtight.

1 is a use state diagram showing a conventional hose connection structure.

Figure 2 is an exploded perspective view showing a conventional hose connection structure.

3 is a sectional view of essential parts of a conventional hose connection structure.

Figure 4 is a use state showing the hose design structure of the present invention.

Figure 5 is an exploded perspective view showing the hose design structure of the present invention.

Figure 6 is a sectional view of the main part of the subject hose connection structure.

<Explanation of symbols for main parts of drawing>

20: second connecting member 21: fastening portion

24: step portion 24a: annular groove

80: confidential member

Hereinafter, the configuration of the present invention with reference to the accompanying drawings in detail as follows.

Figure 4 is a state diagram showing the hose connection structure of the present invention, Figure 5 is an exploded perspective view of the hose connection structure of the present invention, Figure 6 is a cross-sectional view of the main portion of the hose connection structure of the present invention. As shown in Figure 4 to 6, the hose connection structure of the present invention, the first connection member 10 and the second connection member (20).

The first connection member 10 is composed of a body portion 11 formed on one side, and a head portion 12 formed integrally with the body portion 11.

The insertion hole 13 is formed in communication with the body 11 and the head 12 of the first connection member 10.

The pipe 31 of the branch pipe 30 is screwed to the inner diameter of the head 12 of the first connection member 10.

The second connection member 20 includes a fastening portion 21 to which the body portion 11 of the first connecting member 10 is screwed, and a fitting portion 22 integrally formed with the fastening portion 21. Is made of.

In the fastening portion 21 and the fitting portion 22 of the second connecting member 20, an insertion hole 23 penetrates to correspond to the insertion hole 13 of the first connecting member 10.

In the inner diameter of the insertion hole 23 of the fastening part 21, a stepped part 24 is formed to fasten the tip of the body part 11 of the first connection member 10.

An annular recess 24a is formed at an inner circumference of the blocking portion 24, and an airtight holding member 80 is inserted into the annular recess 24a.

The hermetic holding member 80 is made of a rubber material having its own elastic force and is inserted into the annular recess 24a so that its outer diameter is exposed so that the front end of the body portion 11 of the first connecting member 10 is formed. Close contact improves airtightness.

A seating portion 25 is formed in the inner diameter of the insertion hole 23 of the fitting portion 22 so that its own elastic force is provided and a packing member 40 made of a rubber material is inserted and seated.

A hose 50 connected to the boiler body 70 is inserted into the inner diameter of the packing member 40, and a fastening nut 60 is fastened to the outer diameter of the fitting portion 22 of the second connection member 20 to the hose. The 50 will be fixed.

Referring to the operation of the present invention configured as described above, the insertion hole 13 formed in the inner diameter of the head portion 12 of the first connection member 10 of the hose connection structure screwed to the pipe 31 of the branch pipe 30 Next, when the insertion hole 23 formed in the inner diameter of the fastening portion 21 of the second connecting member 20 is screwed to the outer diameter of the body portion 11 of the first connecting member 10, the fastening portion 21 of the The screw hole is fixed to the step portion 24 formed in the insertion hole 23 in the inner diameter so that the tip of the body portion 22 of the first connection member 10 is caught. In this case, the step portion of the second connection member 10 is fixed. (24) By contacting the tip of the body portion 22 of the first connection member 10 to the hermetic holding member 80, the outer diameter of which one side is exposed inside the annular recess 24a formed in the inner circumference and is inserted by interference fit. 1.2 maintains the airtightness of the connecting members 10 and 20 to prevent leakage of cold water and hot water supplied from the boiler body 70 to the branch pipe 30 through the hose 50. It is.

In this state, the packing member 40 is inserted into and fixed to the seating portion 25 of the inner diameter of the insertion hole 23 formed in the fitting portion 22 of the second connecting member 20, and then the inner diameter of the packing member 40 is fixed. When the fastening nut 60 is fastened to the outer diameter of the fitting portion 22 of the second connecting member 20 while the hose 50 is inserted, the hose 50 connected to the boiler body 70 is fixed. At this time, the packing member 40 made of a rubber material is to support the hose 50 while being deformed due to the characteristics of the material.

As described above, the present invention provides an annular recess in the inner periphery of the stepped portion of the second connecting member forming a connecting structure for connecting a hose connected to a boiler, and the like. By tightening the airtightness is excellent and at the same time compared to the conventional hose connection structure that is wound around the Teflon tape to maintain the airtight, the number of processes according to the fastening operation is reduced, thereby improving the workability.

Claims (1)

In the hose connecting structure in which the outer diameter of the body portion of the first connecting member is screwed to the inner diameter of the fastening portion of the second connecting member, A stepped portion 24 is formed in the inner diameter of the fastening portion 21 of the second connection member 20, and an annular groove 24a is formed in the inner circumference of the stepped portion 24, and the inner diameter of the annular groove 24a is formed. The airtight holding member (80) is forcibly inserted into the hose connection structure, characterized in that one side outer diameter of the airtight holding member (80) is inserted to be exposed from the annular groove (24a) to maintain the airtightness.