KR200484563Y1 - T-branch structure for Water tolerance - Google Patents

Abstract

The present invention relates to a structure of a T-shaped branch pipe for a water pipe, which allows tap water to be easily supplied to a diverging water pipe that acts as an even pressure of the main water pipe when the tap water supplied from the main water pipe branches, The branching tube includes a branching body having a hole formed in three directions; A main connection part formed to be larger than a diameter of the branch pipe body and formed integrally with the branch pipe body so as to be connected to the main water pipe to which tap water is supplied; A sub connection part having a diameter smaller than that of the branch pipe body at one side of the branch pipe body so as to be connected to the sub water pipe; And the branched connection portion formed in the branch pipe body to have a diameter smaller than the diameter of the sub connection portion and the tap water to be delivered from the main connection portion to the sub connection portion is congested in the branch pipe body having the branch connection portion, The diameter of the sub water pipe is formed smaller than the diameter of the main water pipe and the congestion section of the tap water is formed in the portion where the water pipe is formed, The tap water pressure is applied to the water pipe to facilitate the supply of water and the diameter of the sub water pipe is made smaller than the diameter of the main water pipe so that a constant pressure is applied to the sub water pipe, .

Description

T-branch structure for water tolerance for water supply system

The present invention relates to a T-branch structure for a water supply pipe, and more particularly, to a water supply pipe for allowing tap water to be easily supplied to a branch pipe when tap water supplied from the main water pipe is branched, T-branch structure.

In the related art, there have been proposed various configurations for connecting branch pipes which flow the water flowing in the main pipe of the metal material in the direction of the branch pipe in the connecting operation of the pipe used at the water pipe installation site or the construction site.

As a prior art, there has been filed a utility model registration application No. 2010-08721 (Feb. 29, 2012), a branch organization constituting a connecting jaw has been filed, a utility model registration No. 20-0261551, Also, the utility model registration application No. 1001997-54100 (published on May 15, 1999) was announced.

In the first prior art,

A lower joint is formed at the end of the lower end connecting portion of the branch pipe and a lower end connecting portion and a branch pipe jaw supporting the flange are formed so as to be engaged with the main connecting hole to be supported So that they are connected by welding.

In the second prior art,

A structure in which a branch pipe is joined such that a fluid is partially branched through a branch hole drilled on the outer circumferential surface of a cylindrical water supply and sewage pipe, characterized in that the pipe has two openings And a branch connection pipe having a joint flange attached to the upper end thereof is integrally formed at the upper center of the outer circumferential surface of the joining main body, the inner circumferential surface of which is composed of a rubber band, the inner circumferential surface of which is formed by bending, A rubber ring and a connecting protrusion protruding from a central portion of the circumferential surface are successively inserted into the gap between the branch hole and the branch connection pipe, and a fastening bolt is fastened to the fastening hole formed in the opening, And is inserted and joined together,

In the third prior art,

Generally, as a supply path for connection to automobiles, various mechanical devices, and other lubrication and supply, a pipe fitting of a T-shaped or cross-shaped pipe made of a metal pipe having a relatively small diameter of about 20 m / m or less It is about the recipe.

Wherein the main pipe has a main pipe integrally formed with a separating hole integrally formed in the circumferential wall portion or a separately formed main body having separate parts arranged to be spaced apart from each other at opposite ends thereof and a single pipe having a diameter larger than that of the main pipe, A part of the circumferential wall in the left and right longitudinal direction of the fitting body located on the side of the fitting of the branch tube is left with the part to which the branch tube strikes in a state where the branch pipe is in the vicinity of the branch connection hole of the fitting main body, And the diametrically opposed surfaces are integrally welded to each other in a state in which they are diametrically shrunk and joined to the outer circumferential surfaces of the main pipe and the branch pipe, respectively.

The above-mentioned conventional arrangements are troublesome and inconvenient due to troublesome work, troublesome work takes a long time, uneconomical problems and lack of appearance when installed at exposed positions are disadvantageous. Especially, lack of robustness There are many problems such as leakage when using for a long time.

When the tap water is dispensed from the main water pipe to the branch water pipe, the pressure of the tap water flowing into the main water pipe is not transmitted to the branch pipe, so that the tap water is not properly distributed .

In particular, when tap water is supplied to the branch water pipe located at the first portion or the end portion of the main water pipe or the tap water is supplied to both of them, the pressure of the main water pipe does not function properly with the branch water pipe located at the middle portion, There is a problem that it is not supplied properly.

That is, since the first portion of the main water pipe has the strongest pressure to supply the tap water to a certain distance, the pressure is maintained at the first portion of the main water pipe but the tap water is stagnated at the end portion. The tap water is supplied smoothly. However, the branch pipe located at the middle portion has a problem that the pressure of the tap water is injected at the first and the end portions and the pressure is not properly applied to the middle portion.

Patent Document 1: Utility Model Registration Application No. 2010-08721 (Published on February 29, 2012) Patent Document 2: Utility Model Registration No. 20-0261551 (Announcement of Apr. 24, 2002) Patent Document 3: Utility Model Registration Application No. 1001997-54100 (Published May 15, 1999)

In order to solve the above-mentioned problem, the present invention is to solve the above-mentioned problems, and it is an object of the present invention to provide a T-branch structure for a tap water which can easily supply tap water to a branched branch pipe, In order to solve the problem.

In addition, the present invention is also applicable to a water pipe for a water pipe which has a main water pipe having a different diameter from a branch pipe and a branch pipe, It is aimed to provide institutional structure.

In order to achieve the above object, there is provided a T-branch structure for a water pipe, comprising: a branch body having a hole formed in three directions; A main connection part formed to be larger than a diameter of the branch pipe body and formed integrally with the branch pipe body so as to be connected to the main water pipe to which tap water is supplied; A sub connection part having a diameter smaller than that of the branch pipe body at one side of the branch pipe body so as to be connected to the sub water pipe; And a branch connection part formed in the branch pipe body so as to be smaller than the diameter of the sub connection part, wherein tap water to be delivered from the main connection part to the sub connection part is stagnant in the branch pipe body formed with the branch connection part, The tap water is introduced into the branch connection portion smoothly.

The T branch pipe structure for a water pipe according to the present invention comprises a branch pipe body branching tap water flowing in one direction in two directions and making the pressure of tap water branched evenly in two directions, A main connecting part formed to be larger than a diameter of the branch pipe body so as to be connected to the sub pipe body and formed integrally with the branch pipe body, a sub connecting part having a diameter smaller than that of the branch pipe body at one side of the branch pipe body, And a branched connection portion formed in the branch pipe body to be smaller than the diameter of the branch pipe; The main connection part, the sub connection part and the branch connection part when the main connection part, the sub connection part and the branch connection part which are connected to the main water pipe, the sub water pipe and the branch water pipe are pressed, the main connection part, the sub connection part and the branch connection part A stationary ring to be installed; A main connection portion, a sub connection portion, and a branch connection portion, and a bushing formed in an elliptical shape to provide watertightness between the main water pipe, the sub water pipe, and the branch water pipe, and installed in the main connection portion, the sub connection portion and the branch connection portion.

A pressure generating portion having a diameter smaller than that of the branch pipe body and the sub connection portion is formed between the branch pipe body and the sub connection portion so that the tap water can flow smoothly into the branch connection portion. So that the flow of tap water is smoothly performed toward the branch connection portion.

The pressure generating portion of the present invention is formed with a tilting sphere whose diameter gradually decreases from one side of the branch body to the sub connecting portion and a pressure generating port having a smaller diameter than the sub connecting portion is formed between the tilting sphere and the sub connecting portion.

The diameter of the sub connection portion and the branch connection portion of the present invention is formed at a ratio of 65 to 35 as compared with the main connection portion so that the pressure of the tap water can be applied to the branch connection portion.

The main connection part of the present invention forms a main mounting projection so that it can be pressed and fixed to the main water pipe. The main mounting projection has a first bush mounting groove and a first ring mounting groove so that a bushing and a stationary ring can be installed .

The sub connection portion of the present invention forms a sub mounting protrusion so as to be pressed and fixed to the sub pipe, and the sub mounting protrusion is formed with a second bushing mounting groove and a second ring mounting groove such that the bushing and the stationary ring can be installed .

And the stagnation phenomenon of the tap water is generated by the inclined portion and the connecting portion of the present invention, so that the main connecting portion and the branch body pressurize each other.

The present invention has the effect that the diameter of the sub connection portion is made smaller than the diameter of the main connection portion and the stagnant section of the tap water is formed in the portion where the branch connection portion is formed, so that the tap water is easily supplied to the branch connection pipe, have.

In addition, the present invention has the effect that the supply of tap water is smoothly performed because the pressure of the tap water is uniformly applied to the sub connection portion and the branch connection portion by forming the sub connection portion and the branch connection portion of the main connection portion at a ratio of 65 to 35 in comparison with the diameter of the main connection portion.

In addition, since the present invention is applied to a T-branch system for water pipes according to the present invention for each branch where tap water is branched, a constant pressure is uniformly maintained in the water pipe, which can solve the problem that the supply of tap water due to a decrease in pressure is not smooth It is effective.

1 is a perspective view showing a T-branch structure for water pipes according to the present invention;
Fig. 2 is a sectional view showing the structure of a T-branch structure for water pipes according to the present invention; Fig.
FIG. 3 is a partial cross-sectional view showing the bushing structure of the T-branch structure for water pipes according to the present invention.
Fig. 4 is an installation view showing a state where a T-branch structure for a water pipe according to the present invention is applied to a water pipe.
5 is a block diagram showing another embodiment of a bushing installed in a T-branch structure for a water pipe according to the present invention.
Fig. 6 is a block diagram showing another embodiment of a bushing installed in the branch pipe of Fig. 5; Fig.
Fig. 7 is a block diagram showing another embodiment of the bushing installed in the branch pipe of Fig. 6; Fig.

Hereinafter, the structure of a T-branch system for water pipes according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a structure of a T-branch tube for a water pipe according to the present invention, FIG. 2 is a sectional view showing the structure of a T-branch tube structure for a water pipe according to the present invention, Fig. 4 is an installation view showing a state in which a T-branch structure for water pipes according to the present invention is applied to a water pipe.

Referring to FIGS. 1 to 4, a branch pipe 100 of the present invention is installed between a main pipe 10 and a sub-pipe 20 and is connected to a branch pipe 30 so that tap water can be branched.

The branch pipe (100) diverts tap water flowing in one direction in two directions, so that the pressure of the tap water branched can act in both directions evenly.

The branch pipe (100) constitutes a branch pipe body (110) so as to supply tap water flowing in one direction in two directions. On one side of the branch pipe body (110) The sub connection unit 130, and the branch connection unit 140, respectively.

A main mounting projection 121 is formed at one side of the main connecting portion 120 so that the main water pipe 10 is connected to the main connecting portion 120. The main mounting projection 121 includes a first bushing mounting groove 122, Ring mounting grooves 123, respectively.

The sub connection part 130 is formed with a sub mounting protrusion 131 at one side so as to be connected to the sub water pipe 20. The sub mounting protrusion 131 is provided with a second bushing installation groove 132, And a groove 133 is formed.

The branch connection part 140 is formed with a branch attachment protrusion 141 at one side so that the branch water pipe 30 can be connected to the branch connection part 140. The branch attachment part 141 is provided with the third bushing attachment groove 142, Thereby forming an installation groove 143.

A pressure generating part 150 is formed between the branch pipe body 110 and the sub connection part 130 so as to cause stagnation of tap water inside the branch pipe body 110.

The pressure generating part 150 forms a slope 151 so that the diameter of the pressure generating part 150 gradually decreases from one side of the branch body 110 to the side of the sub connection part 130. Tap water is discharged from the sub connection part A pressure generating member 152 is formed between the inclined portion 151 and the sub connecting portion 130 so that the pressure generating member 152 is supplied to the sub-

One side of the inclined tool 151 is formed to be equal to the diameter of the branch body 110 and the other side is formed to be smaller than the diameter of the sub connection portion 130 to prevent congestion of tap water inside the branch body 110 .

The diameter of the pressure generating member 152 is formed to be the same as the diameter of one end of the inclined sphere 151, but smaller than the diameter of the sub connection part 130.

The main water pipe 10, the sub water pipe 20, the branch water pipe 30, and the main connection part (not shown) are connected to the first ring installation groove 123, the second ring installation groove 133, Sectional shape of the main pipe 10, the sub pipe 20 and the branch pipe 30 at the time of compression by the compression bonding device (not shown) when the sub connection portion 130 and the branch connection portion 140 are combined with each other, The fixing ring 200 is provided so that the shape of the bushing 300 is maintained and the water-tightness is maintained.

The main water pipe 10, the sub water pipe 20 and the branch water pipe 30 are connected to the first bushing installation groove 122, the second bushing installation groove 132 and the third bushing installation groove 142, The bushing 300 is provided between the sub connection unit 130 and the branch connection unit 140 to prevent water from leaking out.

The bushing 300 is formed in an elliptical shape and includes an elliptical bushing body 310 so as to be fitted into the first bushing installation groove 122, the second bushing installation groove 132 and the third bushing installation groove 142 And the main water pipe 10 is connected to the main water pipe 10 when the main connection part 120, the sub connection part 130 and the branch connection part 140 are fixed to the main water pipe 10, the sub water pipe 20 and the branch water pipe 30, The bushing body 310 is provided with a rib 320 between the main pipe 120 and the sub pipe 20 and between the sub connection pipe 130 and the branch pipe 30 and the branch pipe 140, .

When the bushing 300 is fitted in the first bushing mounting groove 122, the second bushing mounting groove 132 and the third bushing mounting groove 142, the main connecting portion 120, When the connection part 130 and the branch connection part 140 are compressed, the elliptical bushing body 310 is formed in the shape of a circle so that the connection between the main pipe 10 and the main connection pipe 120, 20 and the sub connection part 130 and between the branch water pipe 30 and the branch connection part 140.

The bushing is not limited as shown in FIGS. 1 to 4 but may be formed differently as shown in FIGS.

Fig. 5 is a block diagram showing another embodiment of a bushing installed in a T-branch structure for a water pipe according to the present invention.

Referring to FIG. 5, in the state where the present invention is inserted into the first bushing installation groove 122, the second bushing installation groove 132, and the third bushing installation groove 142, the main connection unit 120, An elliptical bushing (300) is installed in the sub connection part (130) and the branch connection part (140).

The bushing 300 has an elliptical shape and is formed in a circular shape in cross section at the time of pressing. The bushing 300 forms a surface protruding in a direction perpendicular to the one side from the inner surface of the bushing body 310, A rib 320 is formed at an end of a protruding surface of the bushing body 310 so as to have an inclination of 30 to 45 degrees from the inner surface of the bushing body 310. The main connection portion 120, The elastic groove 311 is formed on the opposite side of the bushing body 310 on which the rib 320 is formed so as to have elasticity when the side end of the bushing body 140 is compressed.

The elastic groove 311 formed in the bushing 300 is elastically deformed in the bushing body 310 by elastic action to expand in both directions about the elastic groove 311 when the bushing body 310 formed by the ellipse is compressed, The rib 320 formed at the inner periphery of the main pipe 10 is closely adhered to the outer periphery of the main water pipe 10, the sub water pipe 20 and the branch water pipe 30 and at the same time, The rib 320 is tightly adhered to the outer surface of the main water pipe 10, the sub water pipe 20 and the branch water pipe 30 to provide a tight watertightness.

Fig. 6 is a block diagram showing another embodiment of the bushing installed in the branch pipe of Fig. 5;

Referring to FIG. 6, the bushing 300 of the present invention is formed in an elliptical shape so as to have a shape of '○' when the ends of the main connection part 120, the sub connection part 130 and the branch connection part 140 are compressed, The bushing body 310 includes a bushing body 310 installed in the groove 122, the second bushing installation groove 132 and the third bushing installation groove 142. The bushing body 310 has an inner surface of the bushing body 310, The first bushing mounting groove 122 and the second bushing mounting groove 122 are formed to have a slope of 30 to 45 degrees from the end protruding in the form of a 90 ° right angle from the inner surface of the bushing body 310, The metal piece 312 is formed inside the bushing body 310 to increase water tightness while maintaining the shape of the bushing 300 when the second bushing installation groove 132 and the third bushing installation groove 142 are pressed .

Since the metal piece 312 is installed inside the bushing 300, the shape of the bushing body 310 is deformed by the metal piece 312 when the main connection part 120, the sub connection part 130, The main connection pipe 120, the sub connection unit 130 and the branch connection unit 140 and the main water pipe 10, the sub water pipe 20 and the branch water pipe 30, respectively, The watertightness is improved.

The ribs 320 formed inside the bushing body 310 are formed such that one side thereof is perpendicular to the bushing body 310 at an angle of 90 °, The surface formed at right angles at 90 DEG is squeezed when the main connection portion 120, the sub connection portion 130 and the branch connection portion 140 are squeezed at the side ends thereof, so that the folded portion is folded back, The rib 320 is brought into close contact with the outer circumferential surface of the main water pipe 10, the sub water pipe 20 and the branch water pipe 30 to increase water tightness.

That is, since the metal pieces 312 formed on the bushing body 310 and the ribs 320 are combined with each other, the ribs 320 are firmly attached to the outer circumferential surface of the coupling pipe 20, The elasticity of the rib 320 is kept close to the outer circumference of the main water pipe 10, the sub water pipe 20 and the branch water pipe 30 so that water tightness is maintained.

Fig. 7 is a block diagram showing another embodiment of the bushing installed in the branch pipe of Fig. 6; Fig.

Referring to FIG. 7, the bushing 300 of the present invention has a plurality of ellipses integrally formed so as to have a shape of '○' when the ends of the main connection part 120, the sub connection part 130 and the branch connection part 140 are compressed The bushing body 310 is installed in the first bushing installation groove 122, the second bushing installation groove 132 and the third bushing installation groove 142. The bushing body 310 has one side And forms a rib 320 by forming a surface having a slope of 30 to 45 degrees from the end protruding at a right angle of 90 占 from the end of the bushing body 310, The first bushing mounting groove 122, the second bushing mounting groove 132 and the third bushing mounting groove 142 of the connecting portion 120, the sub connecting portion 130 and the branch connecting portion 140 are provided, A concave groove 313 is formed in the elliptical bushing body 310 on the opposite side where the rib 320 is formed and the rib 320 is formed.

When the plurality of elliptical bushing bodies 310 are pressed, the elliptical bushing body 310 is formed into a circular shape, and a repulsive force is generated to cause the elliptical bushing bodies 310 to expand.

The ribs 320 formed on the bushing body 310 also have an elastic force to widen the surface of the main pipe 10, the sub water pipe 20 and the outer water pipe 30 Tight tightness between the main water pipe 10, the sub water pipe 20, and the branch water pipe 30, the main connection part 120, the sub connection part 130, and the branch connection part 140,

The main connection portion 120, the sub connection portion 130 and the branch connection portion 140 are maintained in the shape of 'O' through the metal piece 312 provided inside the bushing 300 as described above, Since the bushing 300 can be prevented from being pushed into the main connection part 120, the sub connection part 130 and the branch connection part 140 by supporting the main water pipe 300, the sub water pipe 20, 30) outer periphery to enhance watertightness.

An elastic force is generated by the ribs 320 formed in the bushing 300 and the elastic grooves 311 and the concave grooves 313. The elastic force of the rib 320 is transmitted to the main pipe 10, The rib 320 is elastically deformed in a direction perpendicular to the main pipe 10 and the sub water pipe 20 so that the elastic pipe 30 is elastically deformed. And the outer circumference of the branch pipe (30), thereby having a solid watertightness.

The process of connecting the T-branch for water supply to the water pipe of the present invention constructed as described above will be described.

The main bushing 121, the sub-mounting bush 131 and the branch mounting bushing 141 formed before the main water pipe 10, the sub water pipe 20 and the branch water pipe 30, A bushing 300 made of rubber is installed in the installation groove 122, the second bushing installation groove 132 and the third bushing installation groove 142. The bushing 300 is connected to the main water pipe 10, The first ring mounting groove 123, the second ring mounting groove 133, and the third ring mounting groove 143 are formed of a metal material such that the first ring mounting groove 123, the second ring mounting groove 133, and the third ring mounting groove 143 are connected to each other, The stationary ring 200 is installed.

The fixing ring 200 not only retains the shape of the bushing 300 but also allows the main mounting projections 121, the sub mounting projections 131 and the branch mounting projections 141 to communicate with the main water pipe 10, The main mounting protrusion 121, the sub mounting protrusions 131 and the branch mounting protrusions 141 are maintained in the shape of "○" when they are pressed and fixed to the sub water pipe 20 and the branch water pipe 30, And the watertightness of the pressed portion is maintained evenly.

The main water pipe 10 is inserted into the main connection part 120 and the main installation protrusion 121 is compressed by using a compression device so that the bushing 300 installed inside the main installation protrusion 121 and the fixed ring Water tightness is formed between the main mounting projection 121 and the main water pipe 10 to prevent tap water from leaking.

The sub connection pipe 130 is connected to the sub connection pipe 130 in a state where the main pipe 10 is installed in the main connection part 120 and the sub pipe pipe 20 is drawn into the sub connection part 130, And the water pipes 20 are compressed and fixed using a compression device so as to have watertightness.

The branched connection pipe 140 is also drawn into one side of the branch pipe 30 and the branch connection pipe 140 of the branch connection pipe 140 is pressed onto the branch pipe 30 by using a compression bonding device, Tightness between the branch connection pipe (140) and the branch pipe (30) by the fixing ring (200).

When tap water is supplied to the main water pipe 10 in a state where the T-branch pipe 100 of the present invention is connected to the main water pipe 10, the sub water pipe 20 and the branch water pipe 30 as described above, 120 into the branch pipe body 110. [

The tap water flowing into the branch pipe body 110 is stagnated because the inclined sill 151 of the pressure generating part 150 is formed to be gradually narrowed in diameter, So that tap water can be easily supplied to the branch water pipe 30 connected to the branch connection part 140.

As described above, tap water is smoothly supplied to the branch pipe (30) connected to the branch connection part (140) by the congestion of the tap water as described above, so that the problem that occurs in the conventional T- It is possible to solve the problem that the supply of tap water is not smooth.

As described above, according to the present invention, the tap water is stagnated inside the branch pipe 100, so that a certain pressure acts on the side where the tap water is branched. Therefore, the inflow of tap water into the branch pipe 30 connected to the branch connection part 140 The water pressure of the tap water is low, and the tap water does not come out. ', And so on.

10: main water pipe 20: sub water pipe
30: branch water pipe 100: branch pipe
110: branch body 120: main connection part
121: main mounting projection 122: first bushing mounting groove
123: first ring installation groove 130: sub-
131: Sub-mounting boss 132: Second bushing mounting groove
133: second ring mounting groove 140:
141: branch mounting projection 142: third bush mounting groove
143: third ring installation groove 150: pressure generating portion
151: inclined portion 152: pressure generating portion
200: Retaining ring 300: Bushing
310: Bushing body 311: Elastic groove
312: metal piece 313: concave groove
320: rib

Claims (10)

delete In the T-branch structure for water pipes,
A pressure generating member 152 having a diameter smaller than the diameter of the inclined portion 151 and the sub water pipe 20 is formed so that the tap water flowing in one direction is branched in two directions and the pressure of the branched tap water is uniformly applied to both directions. The main branch pipe 110 is formed to have a diameter greater than the diameter of the branch pipe main body 110 so as to be connected to the main water pipe 10 to which tap water is supplied, A sub connecting part 130 and a sub connecting part 130 are formed on one side of the branch body 110 so as to be connected to the sub water pipe 20, A branch pipe (100) formed of a branch connection part (140) formed to be smaller than the diameter and formed in the branch pipe body (110);
The main connection part 120, the sub connection part 130, and the main connection part 130 are formed at the time of pressing the main connection part 120, the sub connection part 130 and the branch connection part 140 to be connected to the main water pipe 10, the sub water pipe 20, A stationary ring 200 installed in the main connection part 120, the sub connection part 130 and the branch connection part 140 so that the branch connection part 140 and the bushing 300 can maintain the shape of '○';
The main connection part 120, the main connection part 120, the sub connection part 130, and the branch connection part 140 and the water connection between the main water pipe 10, the sub water pipe 20 and the branch water pipe 30, And a bushing 300 installed in the sub connection part 130 and the branch connection part 140,
The tap water transferred from the main connection part 120 to the sub connection part 130 may be stagnated inside the branch pipe body 110 where the branch connection part 140 is formed and thus the pressure of the tap water flowing into the branch pipe body 110 The tap water flows into the branch connecting portion 140 smoothly,
A plurality of ellipses are formed integrally with the bushing so that the main connection portion 120, the sub connection portion 130 and the branch connection portion 140 are formed in the shape of 'O', and the first bushing installation groove 122, A bushing body 310 installed in the installation groove 132 and the third bushing installation groove 142; The bushing body 310 has a bushing body 310 formed to protrude from the inner surface of the bushing body 310 in a direction perpendicular to the one side, 310); The first bushing mounting groove 122, the second bushing mounting groove 132 and the third bushing mounting groove 142 of the main connecting portion 120, the sub connecting portion 130 and the branch connecting portion 140, And a concave groove (313) formed between a side of the rib (320) formed to generate elasticity by compression and a plurality of elliptical bushing bodies (310) on the opposite side where the rib (320)
The bushing body 310 has a repulsive force for turning the elliptical shape and a portion formed by the rib 320 at a right angle of 90 degrees acts as an elastic force for returning to the initial state and an elastic force to be released by the concave groove 313, Wherein the water pipe (10), the sub water pipe (20), and the branch water pipe (30) are tightly adhered to each other.
3. The method of claim 2,
Between the branch body 110 and the sub connection 130,
The pressure generating part 150 having a diameter smaller than that of the branch pipe body 110 and the sub connection part 130 is formed so that tap water stagnates and the tap water flows smoothly toward the branch connection part 140,
The pressure generating unit 150 includes:
A slope (151) whose diameter gradually decreases from one side of the branch body (110) toward the sub connection portion (130) is formed,
Wherein a pressure generating member (152) having a diameter smaller than that of the sub connection unit (130) and the sub water pipe (20) is formed between the inclination member (151) and the sub connection unit (130).
3. The method of claim 2,
The diameters of the sub connection part 130 and the branch connection part 140 are,
Wherein a ratio of 65 to 35 with respect to the main connection part (120) is formed so that the pressure of tap water can be applied to the branch connection part (140).
3. The method of claim 2,
The main connection part 120 includes:
A main mounting protrusion 121 is formed so as to be pressed and fixed to the main water pipe 10 and the main mounting protrusion 121 is provided with a bushing 300 and a stationary ring 200, (122) and a first ring installation groove (123) are formed in the first ring mounting groove (123). 3. The method of claim 2,
The sub-
A sub-mounting projection 131 is formed so that the sub-mounting projection 131 can be pressed and fixed to the sub water pipe 20. The sub-mounting projection 131 includes a bushing 300 and a stationary ring 200, (132) and a second ring installation groove (133) are formed in the first ring mounting groove (133).
3. The method of claim 2,
The branch connection part (140)
The branching protrusion 141 is formed to be able to be pressed and fixed to the branch pipe 30. The branching protrusion 141 has a bushing 300 and a fixing ring 200, (142) and a third ring installation groove (143) are formed in the first ring mounting groove (143).
3. The method of claim 2,
The bushing (300)
The main connection part 120, the sub connection part 130 and the branch connection part 140 are formed in an oval shape so as to have a shape of ' A bushing body 310 installed in the first bushing installation groove 122, the second bushing installation groove 132, and the third bushing installation groove 142;
The bushing body 310 is formed to protrude in a direction perpendicular to the inner surface of the bushing body 310 in a direction of 90 °, 310;
The bushing body 310 is formed on the opposite side of the bushing body 310 on which the rib 320 is formed to have a resiliency when the main connection part 120, the sub connection part 130 and the branch connection part 140 are compressed. An elastic groove 311;
Is formed on the outer circumferential surface of the T-shaped branch tube structure.
3. The method of claim 2,
The bushing (300)
The main connection part 120, the sub connection part 130 and the branch connection part 140 are formed in an oval shape so as to have a shape of ' A bushing body 310 installed in the first bushing installation groove 122, the second bushing installation groove 132, and the third bushing installation groove 142;
The bushing body 310 is formed to protrude in a direction perpendicular to the inner surface of the bushing body 310 in a direction of 90 °, 310;
A metal piece 312 installed inside the bushing body 310 to increase water tightness while maintaining the shape of the bushing body 310 when the main connection part 120, the sub connection part 130 and the branch connection part 140 are compressed;
Is formed on the outer circumferential surface of the T-shaped branch tube structure. delete

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