KR100779516B1 - A heat water control valve - Google Patents

Abstract

A hot water control valve is provided to heat rooms in a uniform manner regardless of the length of a heating pipe and the distance between a boiler and rooms. A hot water control valve(100) includes a joining part(10), a tubular body(20), a first joint(30), a ring(40), a second joint(50), an O-ring, a shape memory spring, an elastic spring, and a ball valve. The joining part has a first threaded surface(11) to be bolted to a water dispenser unit and a second threaded surface having a diameter larger than that of the first threaded surface. The tubular body has one side with a pipe fitting portion(21) and a third threaded surface having a diameter larger than that of the pipe fitting portion, and the other side tightly contacting the second threaded surface of the joining part. The first joint is arranged at one end of the tubular body, and bolted to the second threaded surface to join the joining part to the tubular body. The ring tightens a heating pipe fitted to the pipe fitting portion. The second joint is bolted to the third threaded surface and tightens the ring so as to prevent the heating pipe from escaping from the pipe fitting portion. The O-ring is interposed between the second threaded surface and the tubular body for air-tightness. The shape memory spring is positioned at the joining part side in the tubular body. The elastic spring is positioned at the pipe fitting portion side in the tubular body. The ball valve is interposed between the shape memory spring and the elastic spring, and has an end with a round cap shape. The ball valve selectively shuts an outlet of the pipe fitting portion.

Description

Heating water flow control valve

The present invention relates to a heating water flow control valve that can automatically adjust the flow rate of the heating water in accordance with the water temperature.

In general, the heating structure of Korea, a plurality of heating pipes in the form of coils that are independently installed on a plurality of floors, distribution water supply unit for distributing the heating water supplied from the boiler to the heating pipes, and a plurality of heating pipes It includes a return portion for returning the heating water to the boiler. And valves are installed in the heating pipes connected to the distribution water supply unit, respectively, to control the amount of heating water circulating through each heating pipe. By this structure, the heating water supplied from the boiler is circulated to the boiler via the distribution water supply section-> each heating piping-> return section.

However, in the above-described structure, since the length of the heating pipes built into the floor of each room and the length between the boiler and the heating pipes are different, the degree of heating for each room when the boiler is operated at a specific temperature is set. Was different. That is, in the case of a large room with a long heating pipe and a small room with a short heating pipe, the large room did not heat well. This was so good. Furthermore, there was a problem that the heating is not uniform in the room close to the boiler than in the far room.

The present invention has been made to solve the above problems, and provides a heating water flow control valve that enables even heating, regardless of whether the length of the heating pipe is long or short, and regardless of the distance from the boiler. It aims to do it.

Another object of the present invention is to provide a heating water flow control valve that can remove the burden of floor construction by allowing even heating even if applied to the existing heating pipe as it is.

In order to achieve the above object, the heating water flow control valve according to the present invention,

Tubular water supply fastening portion having a first screw portion 11 screwed to a fastening portion (not shown) of the distribution water supply portion M and a second screw portion 12 having a diameter larger than that of the first screw portion 11. 10; It is formed on one side and has a pipe fitting portion 21 to which the heating pipe (H) is coupled and a third screw portion 22 having a larger diameter than the pipe fitting portion 21, the other side of the second screw portion 12 A tubular body 20 in close contact with the end; A first joint 30 which is installed on one side end of the body 20 so as not to be separated, and is screwed with the second screw part 12 to couple the water supply part fastening part 10 to the body 20; Fastening ring 40 is fitted to the outer circumference of the heating pipe (H) sandwiched in the pipe fitting portion 21; A second joint (50) which is screwed to the third screw portion (22) to tighten the fastening ring (40) so that the heating pipe (H) is not separated from the pipe fitting portion (21); An O-ring 60 installed between the second screw part 12 and the body 20 to enable airtightness; Shape memory spring 70 is located on the water supply fastening portion 10 side in the body 20; An elastic spring (80) positioned inside the pipe fitting portion (21) in the body (20); The ball valve 90 is installed between the shape memory spring 70 and the elastic spring 80 and has a round hat shape at the end when viewed from the side, and selectively blocks the outlet 21a of the pipe fitting portion 21. It characterized in that it includes;

According to the heating water flow control valve according to the present invention, by automatically adjusting the amount of heating water circulated to the heating pipe according to the temperature of the heating water, regardless of whether the length of the heating pipe is long or short, and at a distance from the boiler Even heating can be achieved regardless. Further, by applying to the heating pipe connected to the existing distribution water supply unit as it is possible to enable even heating, thereby eliminating the burden such as floor construction. Furthermore, even heating is possible for each floor, so the energy saving effect can be expected.

Hereinafter, the heating water flow control valve according to the present invention will be described with reference to the accompanying drawings.

The heating water flow control valve 100 according to the present invention is installed in each of the plurality of heating pipes H installed in the distribution water supply part M for distributing the heating water of the boiler, and circulates the heating pipe H. To control the flow rate of the heating water. That is, the flow rate control valve 100 is installed in each of a plurality of heating pipes, in the present embodiment will be described by way of example installed in one heating pipe (H) for easier explanation.

1 is a view for explaining the connection relationship between the heating water flow control valve and the distribution water supply and the heating pipe according to the present invention, Figure 2 is an exploded perspective view of the heating water flow control valve of Figure 1, Figure 3 4 is an assembled perspective view of the heating water flow control valve, and FIG. 4 is a partial cross-sectional view of the flow control valve of FIG. 3.

As shown, the heating water flow control valve 100 has a diameter larger than the first screw portion 11 and the first screw portion 11 that is screwed to the fastening portion (not shown) of the distribution water supply portion (M). A tubular water supply portion fastening portion 10 having a second screw portion 12 having a branch; It has a pipe fitting portion 21 formed on one side and the heating pipe (H) is coupled to the third screw portion 22 having a larger diameter than the pipe fitting portion 21, the other side end of the second screw portion 12 And tubular body 20 in close contact with; A first joint 30 which is installed at one end of the body 20 so as not to be separated, and is screwed with the second screw part 12 to couple the water supply part fastening part 10 to the body 20; Tightening ring 40 which is fitted to the outer circumference of the heating pipe (H) sandwiched in the pipe fitting portion 21; A second joint 50 screwed to the third screw portion 22 to tighten the tightening ring 40 so that the heating pipe H is not separated from the pipe fitting portion 21; An O-ring 60 installed between the second screw part 12 and the body 20 to enable airtightness; A shape memory spring 70 positioned on the water supply fastening portion 10 in the body 20; An elastic spring 80 positioned on the pipe fitting portion 21 side in the body 20; A ball valve 90 which is installed between the formation memory spring 70 and the elastic spring 80 and has an end cap having a rounded hat shape when viewed from the side, and selectively blocks the outlet 21a of the pipe fitting portion 21; It includes.

The water supply unit coupling unit 10 is coupled to the body 20 by the first joint 30, and the water supply unit connection unit 10 is installed in the boiler to a fastening portion of the distribution water supply unit M for distributing heating water. By screwing, the flow rate control valve 100 of the present application is coupled to the distribution water supply unit (M).

In the middle side of the body 20, when the flow rate control valve of the present application to the distribution water supply (M), a polygonal shape in which a wrench (not shown) is fitted to fix or rotate the body 20, this embodiment In the hexagonal wrench fixing portion 25 is formed.

On the surface of the pipe fitting portion 21, a barb having a plurality of inclined surfaces in the direction in which the heating pipe H is fitted in order to prevent the heating pipe H from being separated from the pipe fitting portion 21 ( 21b) is formed.

On the outer circumferential surface of the other end of the body 20, a groove 23 is formed to prevent the first joint 30 from being separated from the body 20, and the release preventing ring 24 is fixed to the groove 23. . The release preventing ring 24 is hooked on the inner circumferential ring ring 34 of the first joint 30 to be described later, so that the first joint 30 is not separated from the body 20.

The inner circumferential surface of the first joint 30 is formed with a first screw thread portion 32 screwed to the second screw portion 12, and at one end the inner circumferential ring ring on which the release preventing ring 24 is hooked ( 34) is formed. The first joint 30 also has a shape similar to the wrench fixing portion 25 described in the body 20.

The tightening ring 40 is a cut ring, which is tightened when the second joint 50 is coupled to the third screw part 22, thereby tightening the heating pipe H caught in the pipe fitting part 21. .

On the inner circumferential surface of the second joint 50, a second joint screw portion 52 screwed to the third screw portion 22 is formed, and on the other end, an inner circumferential ring ring 54 on which the tightening ring 40 is hung is formed. Formed. The second joint 50 also has a shape similar to the wrench fixing portion 25 described in the body 20.

The shape memory spring 70 increases or decreases according to the temperature of the heating water flowing into the body 20, thereby bringing the ball valve 90 into close contact with or separated from the outlet 21a side of the pipe fitting portion 21. . In the present embodiment, the shape memory spring 70 is adopted that can be extended in the temperature range of 45 ~ 47 ℃, when the heating water is higher than this temperature range, the shape memory spring 70 is increased, if the shape memory spring is low The spring 70 is reduced.

The elastic spring 80 biases the ball valve 90 in a direction to be separated from the outlet 21a of the pipe fitting portion.

The ball valve 90 has a latching portion 91 through which the shape memory spring 70 and an elastic spring 80 are attached, and protrudes downward from the latching portion 91 to allow an outlet of the pipe connection portion 20 ( A protrusion 92 selectively blocking 21a), a plurality of holes formed in the protrusion 92 to allow heating water to flow, and four holes 93 in this embodiment. At this time, when the size of the hole is increased, foreign matters can be prevented from being caught in the ball valve 90, thereby reducing the possibility of defects.

On the other hand, the incoming heating water is circulated in the protrusion 92 and then exits the hole 93, thereby decreasing the flow rate of the heating water in this process. Accordingly, it is possible to prevent the heating water from flowing rapidly, and to prevent noise generated by the flow of the heating water.

According to the above structure, when hot heating water (45 ~ 47 ℃ or more) flows into the body 20, the shape memory spring 70 is extended while the protrusion 92 of the ball valve 90 is pipe outlet ( Close contact with 21a) to prevent the heating water from flowing into the heating pipe (H). And when the temperature of the heating water is low (45 ~ 47 ℃ or less), the shape memory spring 70 is reduced, at this time, the elastic spring 80, the protrusion 92 of the ball valve 90, the pipe fitting portion outlet 21a It is pushed in a direction to be separated from the pipe fitting portion exit 21a, thereby allowing the heating water to flow well through the hole (93) to the heating pipe (H). That is, the amount of heating water circulated to the heating pipe is automatically adjusted according to the temperature of the heating water, thereby allowing even heating regardless of the length or length of the heating pipe H and the distance from the boiler. You can do that. In other words, even heating is possible for every floor, so energy savings can be expected.

In addition, the flow control valve of the present application can be applied as it is to the existing heating pipe connected to the distribution water supply, it is possible to eliminate the burden, such as floor construction.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom.

1 is a view for explaining the connection relationship between the heating water flow control valve and the distribution water supply and heating piping according to the present invention,

Figure 2 is an exploded perspective view of the heating water flow control valve of Figure 1,

Figure 3 is an assembled perspective view of the heating water flow control valve of Figure 2,

4 is a partial cross-sectional view of the flow control valve of FIG.

<Description of Signs of Major Parts of Drawings>

10 ... water supply connection part 11 ... 1st screw part

12 ... 2nd thread 20 ... Body

21 ... Piping fitting 21a ... Outlet

21b ... barb part 22 ... third thread part

23 ... Home 24 ... Breakaway Ring

25 ... wrench fixing part 30 ... joint

32 ... Article 1 Joint thread 34

40 ... fastening ring 50 ... second joint

54 ... inner ring break 60 ... O-ring

70 ... shape memory spring 80 ... elastic spring

90 ... ball valve 91 ...

92 ... protrusion 93 ... hole

Claims (3)

Tubular water supply portion fastening portion having a first screw portion 11 screwed to a fastening portion (not shown) of the distribution water supply portion M and a second screw portion 12 having a larger diameter than the first screw portion 11 ( 10); It is formed on one side and has a pipe fitting portion 21 to which the heating pipe (H) is coupled and a third screw portion 22 having a larger diameter than the pipe fitting portion 21, the other side of the second screw portion 12 A tubular body 20 in close contact with the end; A first joint 30 which is installed on one side end of the body 20 so as not to be separated, and is screwed with the second screw part 12 to couple the water supply part fastening part 10 to the body 20; Fastening ring 40 is fitted to the outer circumference of the heating pipe (H) sandwiched in the pipe fitting portion 21; A second joint (50) which is screwed to the third screw portion (22) to tighten the fastening ring (40) so that the heating pipe (H) is not separated from the pipe fitting portion (21); An O-ring 60 installed between the second screw part 12 and the body 20 to enable airtightness; Shape memory spring 70 is located on the water supply fastening portion 10 side in the body 20; An elastic spring (80) positioned inside the pipe fitting portion (21) in the body (20); The ball valve 90 is installed between the shape memory spring 70 and the elastic spring 80 and has a round hat shape at the end when viewed from the side, and selectively blocks the outlet 21a of the pipe fitting portion 21. Heating water flow control valve comprising: a. The method of claim 1, The surface of the pipe fitting portion 21, the heating water flow control valve, characterized in that the barb portion (21b) having a plurality of inclined surfaces in the direction in which the heating pipe (H) is fitted. The method of claim 1, The ball valve 90 has a latching portion 91 on which the shape memory spring 70 and an elastic spring 80 are attached, and protrudes downward from the latching portion 91 so that the pipe fastening portion 20 is formed. And a plurality of holes (93) formed in the protrusions (92) for selectively blocking the outlet (21a) and through which the heating water flows.

Images