KR200308839Y1 - piping connector - Google Patents

Abstract

The present invention is equipped with the function of the valve to adjust the fluid volume, so that it is possible to avoid the waste of cost and manpower while eliminating the trouble of installing the control valve separately, and considerably narrow space such as the internal space of the water purifier. It also relates to a pipe connector that can be easily installed.

According to the present invention, in a pipe connector configured to interconnect a pair of pipes 2 and 3, a flow passage 5 communicating therein with any one pipe 2 of the pair of pipes 2 therein. Is formed and a body 10 having a helical guide groove 30 formed therein and an insertion hole 25 formed therein so that the body 10 is slidably coupled to the insertion hole 25. The inner wall surface of the insertion hole 25 is formed with a guide protrusion 35 or a thread 40 is slidably coupled to the guide groove 30, the inside of the pair of pipes (2, 3) And a housing 55 having a through hole 48 communicating with the other pipe 3, wherein the insertion part is inserted at one end of the body 10 facing the insertion hole 25 of the housing 55. A blocking wall 60 is formed at a position corresponding to the ball 25, and a circumference of the blocking wall 60 is shifted from the insertion hole 25. The inlet 65 of the flow path 5 is formed in the tooth, and the body 10 is rotated so that the blocking wall 60 at its end approaches or is spaced apart from the through hole 48 of the housing 55. A piping connector is provided which is adapted to regulate the amount of fluid supplied.

Description

Piping connector

The present invention relates to a pipe connection, more specifically, because the function of the valve to adjust the fluid amount is provided, it is possible to avoid the waste of cost and manpower while eliminating the trouble of installing the control valve separately, It relates to a pipe connection that can be easily installed in a very narrow space, such as the interior of the water purifier.

In general, the pipe connector is used to connect the pipe (pipe) to each other, there are various forms depending on the type and size of the pipe. These pipe connectors connect devices such as water purifiers, water softeners or bidets to various water supply pipe lines such as water pipes. In addition, a ball bearing valve or other control valve is separately installed between the pipe line such as a water purifier or water softener and the water supply pipe to control the amount of fluid. In particular, if the amount of water supplied to the water purifier is not properly controlled, it causes problems such as damage to the filter inside the water purifier, and therefore, a control valve for controlling the amount of fluid is provided.

However, in order to separately install the pipe connector and the control valve, the pipe connector is installed, and after cutting a predetermined portion of the pipe line, the control valve needs to be attached, which is cumbersome and wastes a lot of manpower and time. There is a problem that causes. In addition, since the piping connector and the control valve must be purchased separately, it causes a waste of cost. In particular, since a control valve such as the ball bearing valve is complicated in structure and large in size, in the case of a narrow space such as the inside of a water purifier having a plurality of pipe lines, the control valve and the pipe connection are separately provided. There is a problem that is very difficult to install.

The present invention has been proposed in view of the above-described problems, and the object of the present invention is that it is not necessary to install a separate control valve for controlling the amount of fluid to be supplied, eliminating the hassle of work, while cost, time and manpower It is possible to prevent the waste of, and because the simple structure is very small in size, to provide a pipe connector that can be easily installed in a fairly narrow space, such as the internal space of the water purifier.

1 and 2 is a cross-sectional view of the operating state of the pipe connector according to the present invention

3 is an exploded perspective view of another embodiment of a pipe connector of the present invention

4 and 5 is a cross-sectional view of the operating state of the pipe connector of FIG.

<Explanation of symbols for main parts of the drawings>

10.Body 25.Inlet

30. Guide groove 35. Guide protrusion

40. Thread part 48. Through hole

55. Housing 60. Barrier Wall

According to the present invention, in a pipe connector configured to interconnect a pair of pipes 2 and 3, a flow passage 5 communicating therein with any one pipe 2 of the pair of pipes 2 therein. Is formed and a body 10 having a helical guide groove 30 formed therein and an insertion hole 25 formed therein so that the body 10 is slidably coupled to the insertion hole 25. The inner wall surface of the insertion hole 25 is formed with a guide protrusion 35 or a thread 40 is slidably coupled to the guide groove 30, the inside of the pair of pipes (2, 3) And a housing 55 having a through hole 48 communicating with the other pipe 3, wherein the insertion part is inserted at one end of the body 10 facing the insertion hole 25 of the housing 55. A blocking wall 60 is formed at a position corresponding to the ball 25, and a circumference of the blocking wall 60 is shifted from the insertion hole 25. The inlet 65 of the flow path 5 is formed in the tooth, and the body 10 is rotated so that the blocking wall 60 at its end approaches or is spaced apart from the through hole 48 of the housing 55. A piping connector is provided which is adapted to regulate the amount of fluid supplied.

Hereinafter, described with reference to the accompanying drawings, preferred embodiments of the present invention is as follows.

1 is an exploded perspective view of a pipe connector according to the present invention, Figures 2 and 3 show a cross-sectional view of the pipe connector. Referring to this, the pipe connector is slidably coupled to the body 10 connected to any one pipe (2) of the pair of pipes (2, 3) connected to each other, the circumference of the body (10) And a housing 55 connected to the other pipe 3 from the pair of pipes 2 and 3.

The body 10 has a flow path 5 in communication with any one of the pipes 2 and 3 of the pair of pipes 2 and 3 connected to each other therein, and the blocking wall 60 is formed at one end thereof. Formed. In addition, a spiral guide groove 30 is formed on one outer circumferential surface of the blocking wall 60, and an inlet 65 communicating with the flow passage 5 is virtually formed on the other outer circumferential surface of the blocking wall 60. It is open in a direction perpendicular to the direction of the center line CC. In addition, a grip ring 14 having a plurality of divided pressing pieces 12 is installed inside the other end of the body 10 so that the flow path 5 can be moved back and forth. In addition, the flow path 5 of the body 10 provided with the grip ring 14 is provided with an inner diameter taper portion 17 which is reduced in diameter in the direction opposite to the end portion. In addition, the cap 22 is coupled to the circumferential portion of the body 10 so as to contact the grip ring 14 and move forward and backward.

Accordingly, when the fluid such as water is supplied while the tube (piping) 2 is inserted into the flow path 5, the grip ring 12 is moved by the fluid pressure generated in the flow path 5. Since the pressing piece 12 is tightened radially inward by the inner diameter taper 17 while being pushed in the end direction of the end, the tube 2 is pressurized and fixed. On the other hand, when the grip ring 12 is pushed to the inside of the body 10 to slide, since the pressing piece 12 is radially outwardly loosened, the tube 2 can be taken out.

The housing 55 is slidably coupled to the circumference of the blocking wall 60 of the body 10 by the insertion hole 25 formed through both ends therein, the inner wall surface of the insertion hole 25 The thread 40 is slidably coupled to the guide groove 30 in the spiral direction formed on the outer circumferential surface of the blocking wall 60 is formed. In addition, a through hole 48 having a smaller diameter than the insertion hole 25 is formed at one end of the housing 55. The through hole 48 is formed in a direction parallel to the direction of the virtual center line C-C, and is in a position that is displaced from the inlet 65 of the blocking wall 60 formed at one end of the body 10. In addition, a screw portion 55a is formed on one side outer circumferential surface of the housing 55, and the other pipe 3 among the pair of pipes 2 and 3 is connected to the screw portion 55a.

Accordingly, as shown in FIG. 1, when the cap 22 is grasped and rotated in the A direction, the guide groove 30 is formed on the outer circumferential surface of the blocking wall 60 of the body 10 by the thread of the housing 55. While sliding along the end, the end of the blocking wall 60 is moved in the direction of the through hole 48 of the housing 55, so that the gap between the end of the blocking wall 60 and the through hole 48 is narrowed. Meanwhile, as shown in FIG. 2, when the cap 22 is rotated in the B direction, the thread of the housing 55 slides along the guide groove 30 of the blocking wall 60 and the blocking wall ( Since the end of the 60 is moved in the direction opposite to the through hole 48 of the housing 55, a gap is formed between the end of the blocking wall 60 and the through hole 48.

On the other hand, Figure 3 shows another embodiment of the pipe connector according to the present invention, Figure 4 and Figure 5 is a cross-sectional view showing the operating state of the pipe connector according to FIG. 3 to 5 are formed so that the guide groove 30 is inclined in one direction to the outer circumferential surface of the blocking wall 60 of the body 10, the inner wall surface on the outer wall surface on one side of the housing 55 A screw hole 68 is formed to penetrate into the screw hole 68, and a guide protrusion 35 having a piece shape inserted into the guide groove 30 is screwed to the screw hole 68.

Therefore, as shown in FIG. 4, when the cap 22 is gripped and the body 10 is rotated in the A direction, the guide member 40 is an end portion of the body 10 along the guide groove 30. Since the end of the blocking wall 60 is moved in the direction of the through hole 48 of the housing 55 while sliding in the opposite direction, the gap between the end of the blocking wall 60 and the through hole 48 is narrowed. On the other hand, as shown in Figure 5, when holding the cap 22 to rotate the body 10 in the B direction, the guide member 40 is the end of the body 10 along the guide groove 30 The end of the blocking wall 60 is moved in the direction opposite to the through hole 48 of the housing 55 while being slid in the direction (D 'direction), so that the end of the blocking wall 60 and the through hole 48 are moved. There is a gap.

As such, the pipe connector of the present invention grips the cap 22 and rotates the body 10 to move forward and backward along the longitudinal direction of the housing 55 to block the wall 60 formed on the body 10. Since the degree of opening and closing between the end of the) and the through hole 48 of the housing 55 may be adjusted, the valve may control the amount of fluid supplied from the water pipes 2 and 3. Since these piping connectors have a simple structure and have a function of a valve, the pipe connectors are installed in the pipes 2 and 3 in order to control the amount of fluid or air supplied to an automation device or a water purifier as in the prior art. By cutting a predetermined portion of the pipe (2, 3) there is no need to separately install a ball bearing valve or other control valve.

Therefore, since the pipe connector is significantly smaller in size compared with the conventional installation of a ball bearing valve or a control valve separately to control the amount of fluid or air supplied, a plurality of pipe lines 2 and 3 are arranged. Like the inside of a water purifier, it can be installed very easily in a very narrow space. In addition, since the pipe connector is provided with a function of the valve, it is possible to eliminate the inconvenience of having to purchase and install the pipe connector and the control valve separately, as well as to prevent waste of cost, manpower and time. .

On the other hand, the pipe connector of the present invention is preferably made of a non-toxic synthetic resin (polyester) when installed in a device or a facility that requires hygiene management, such as drinking water or water purifier. As described above, the pipe connector may be made of a metal material (mainly copper) in an apparatus or facility which does not require hygiene management.

In this case, the pipe connector of the present invention is formed with a guide groove 30 on the outer circumferential surface of the blocking wall 60 of the body 10, the guide protrusion 35 or the thread 40 on the inner wall surface of the housing 55 ) Is formed and configured, on the contrary, the guide protrusion 35 or the thread 40 is formed on the outer circumferential surface of the blocking wall 60, and the guide groove 30 is formed on the inner circumferential surface of the housing 55. It may be.

As described above, according to the present invention, since the pipe connector is provided with a function of adjusting the amount of fluid and the amount of air, the inconvenience, cost, and manpower of separately purchasing and installing a control valve for adjusting the amount of fluid, etc. Waste can be prevented, and since the structure is simple and its size is very small, it can be easily installed even in a very narrow space.

Claims (1)

In a piping connector configured to interconnect a pair of pipes 2 and 3, a flow path 5 communicating with any one of the pipes 2 of the pair of pipes 2 is formed therein, and an outer peripheral surface thereof. The body 10 is formed with a guide groove 30 in the spiral direction, and the insertion hole 25 is formed therein so that the body 10 is slidably coupled to the insertion hole 25 and the insertion hole ( 25 is formed on the inner wall surface of the guide projections 35, 35 or the thread 40 is slidably coupled to the guide groove 30 and the other one of the pair of pipes (2, 3) therein It includes a housing 55 is formed with a through-hole 48 in communication with the pipe (3) of the insertion hole (25) on one side end of the body 10 facing the insertion hole 25 of the housing (55) A blocking wall 60 is formed at a position corresponding to 25, and a circumferential portion of the blocking wall 60 of the flow path 5 is positioned at a position shifted from the insertion hole 25. An inlet 65 is formed, and the body 10 is rotated so that the blocking wall 60 at its end approaches or is spaced apart from the through hole 48 of the housing 55, thereby adjusting the supply amount of the fluid. Piping connector, characterized in that.