KR20140060772A - Boiler having bypass valve integrated drain cock and valve assembly - Google Patents

Abstract

The purpose of the present invention is to provide a boiler including a bypass valve having an integrated drain cork so as to reduce the number of components and simplify a piping structure by integrating the bypass valve with a drain cork. In order to achieve the above described purpose, the boiler according to the present invention comprises: an integrally formed connection body (200) including an inlet pipe (210) connected to a heating supply pipe (110) so that heating water can flow therein, an outlet pipe (220) intercommunicating with the inlet pipe (210) and connected to a heating water return pipe (120), and a drain pipe (230) intercommunicating with the inlet pipe (210) and the outlet pipe (220) and discharging the water in the boiler to the outside; and a valve module (300) consisting of a bypass valve part (310) disposed between the inlet pipe (210) and the outlet pipe (220) to allow the water in the heating supply pipe to bypass to the heating water return pipe when the pressure in the heating supply pipe is at or above a predetermined pressure, and a drain cork part (320) inserted into the drain pipe (230) while the drain cork unit is coupled to the bypass valve part (310) so as to open or close the drain pipe (230).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a boiler and a valve assembly having a bypass valve,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a boiler and a valve assembly having a bypass valve in which a drain cock is integrated, and more particularly to a boiler and a valve assembly in which a bypass valve To a boiler and a valve assembly in which a water discharging cock for discharging heating water to the outside is integrated.

The boiler comprises a burner for burning fuel and a heat exchanger for transferring heat from the burned high temperature combustion air to the heating water, wherein the heat medium in the closed container is heated by a heat source to heat the desired area, The heating water heated by the high-temperature heat is a device that performs heating by circulating the inside of the heating pipe.

1 is a view showing a conventional gas boiler construction.

The boiler 1 includes a circulation pump 10 for circulating the heating water, a main heat exchanger 20 for heat exchange with the heat of the high temperature generated in the burner 21 by the heating water fed by the circulation pump 10, A three-way valve 30 for supplying heating water to the heating supply pipe 71 and supplying the heating water to the hot water heat exchanger 40 when hot water is used, a hot water heat exchanger 40 for heating hot water to supply hot water, An expansion tank (50) is provided for absorbing the pressure change of the heating water stored in the heating water circulation.

The heating source (not shown) of the boiler 1 is connected to a heating supply pipe 71 and a heating return pipe 72. The heating water heated by the main heat exchanger 20 is supplied to the heating supply pipe 71 The heat is discharged through the heating pipe installed at the heating destination and is returned to the heat return pipe 72. [

The circulated hot water is relatively lower in temperature than the heat supply water, and is heated by heat exchange in the main heat exchanger (20) by the circulation pump (10) through the expansion tank (50).

A connection pipe (73) and a bypass valve (60) are provided between the heating supply pipe (71) and the heating return pipe (72). When the heating water pressure in the heating supply pipe 71 and the heating water return pipe 72 is equal to or higher than a predetermined pressure, the heating water in the heating supply pipe 71 flows through the connection pipe 73 and the bypass valve 60, And can be supplied to the water return pipe (72).

Particularly when the heating load is reduced and the amount of heating water flowing through the heating source is reduced, some of the various valves (not shown) installed in the distributor (not shown) are closed to increase the pressure inside the heating supply pipe 71, do. In this case, when the bypass valve 60 is opened and a part of the heating water is bypassed to the heating water return pipe 72, the pressure drop and the noise are reduced.

On the other hand, a boiler (1) is provided with a discharge cock (80) for removing water inside the boiler (1) pipe before packaging for shipment after producing and inspecting the boiler at the factory. The withdrawal cock 80 is also used for removing water in the boiler 1 piping during boiler failure repair.

In the conventional boiler, since the bypass valve 60 is located inside the boiler 1, it is difficult to repair the bypass valve 60 when the bypass valve 60 fails, and the bypass valve 60 and the discharge cock 80 There is a problem that the number of parts is large and the piping structure for connecting them is also complicated.

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the above problems, and it is an object of the present invention to provide a boiler and a valve having a bypass valve in which a discharge cock is integrated with a bypass valve and a discharge cock to reduce the number of parts, And an object of the present invention is to provide an assembly.

The boiler according to the present invention for achieving the above object is provided with an inlet pipe 210 connected to a heating pipe 110 for introducing heating water and an outlet pipe 210 communicating with the inlet pipe 210, And a drain pipe (230) communicating with the inlet pipe (210) and the outlet pipe (220) and discharging the water inside the boiler to the outside; And a water supply pipe 110 provided between the inflow pipe 210 and the outflow pipe 220 for bypassing the water in the heating pipe 110 to the heating water return pipe 120 when the pressure inside the heating pipe 110 is higher than a predetermined pressure. And a discharging cock portion 320 inserted into the discharging pipe 230 and connected to the bypass valve portion 310 to open and close the discharging pipe 230.

A connection pipe 240 connected to the inlet pipe 210 and concentric with the drain pipe 230 is provided and the connection pipe 241 of the connection pipe 240 is connected to the inlet pipe 210 through the inlet pipe 210 And the bypass valve unit 310 may be inserted to restrict the flow of the inflow water.

The bypass valve unit 310 includes an inlet 312 inserted into the connection hole 241 through an O-ring 317 and communicating with the connection pipe 240; A valve body 311 having an outlet 313 for discharging the water introduced into the inlet 312 to the outlet pipe 220; And a plunger 316 elastically supported by the spring 315 to block the inlet 312. [

The drain cock 321 includes a drain body 321 inserted into and connected to the inlet 312 of the valve body 311 and a drain pipe connected to the drain pipe. And an O-ring 322 for maintaining airtightness with the O-ring.

A flange portion 321a having a diameter larger than that of the body to which the O-ring 322 is coupled may be formed in the discharge body 321.

The drain pipe (230) having the drain cock part (320) inserted therein may be installed to be exposed to the outside of the boiler.

The valve assembly of the present invention comprises the connection body 200 and the valve module 300 described above.

According to the present invention, there is an effect that manufacturing cost can be reduced by reducing the number of parts and simplifying the piping structure by unifying the discharge cock in the bypass valve that bypasses the heating supply water to the heat return pipe.

1 is a view showing a conventional gas boiler construction,
FIG. 2 is a view showing a structure in which a valve assembly in which a discharge cock and a bypass valve are integrated in a boiler according to the present invention,
3 is a view showing a configuration of a connection body of the present invention,
4 is a view showing a configuration of a valve module of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a view showing a structure in which a valve assembly in which a drain cock and a bypass valve are integrated in a boiler according to the present invention, FIG. 3 is a view showing the construction of a connection body of the present invention, Fig.

A boiler (1) of the present invention is characterized in that a heat supply pipe (110) through which heating water heated in the main heat exchanger (20) is connected to a heating water return pipe (120) (200) and a valve module (300).

The connection body 200 includes an inlet pipe 210 connected to the heating pipe 110 to receive heating water and an outlet pipe connected to the heating water pipe 120 in communication with the inlet pipe 210, And a water discharge pipe 230 communicating with the inflow pipe 210 and the discharge pipe 220 and discharging the water inside the boiler to the outside.

The inlet 211 of the inlet pipe 210 is connected to the heating pipe 110 and the outlet 221 of the outlet pipe 220 is connected to the heating water return pipe 120, The ejection port 231 is inserted and coupled with the ejection body 321 of the ejection cock portion 320 described later.

The connection pipe 240 is formed to extend from the inflow pipe 210 in a bent shape and has a concentric structure with the water discharge pipe 230. The connection pipe 240 is bent downward from the longitudinal direction of the inflow pipe 210 and positioned inside the water discharge pipe 230. A front end portion of a bypass valve unit 310, which will be described later, is inserted into the connection hole 241 of the connection pipe 240.

The connection body 200 may be manufactured by injection molding such that the inlet pipe 210, the outlet pipe 220, the water discharge pipe 230, and the connection pipe 240 are integrally formed.

The valve module 300 includes a bypass valve 310 for bypassing the heating water flowing into the inlet pipe 210 to the heating water pipe 120 through the outlet pipe 220, And a discharge cock portion 320 coupled to the pass valve portion 310 for discharging the heated water inside the heating pipe to the outside.

The bypass valve unit 310 bypasses the heating water of the heating pipe 110 to the heat return pipe 120 when the heating water pressure in the heating pipe 110 is higher than a predetermined pressure.

For this purpose, the bypass valve unit 310 is inserted into the connection port 241 of the connection pipe 240 to restrict the flow of the water introduced through the inlet pipe 210. In addition, the drain cock 316 is inserted into the drain pipe 230 in a state of being coupled to the bypass valve unit 310 and manually opens and closes the drain pipe 230.

The bypass valve unit 310 forms a valve body and is connected to the connection pipe 240 and includes an inlet 312 through which the heating water flows and an outlet 313 through which the introduced heating water flows into the outlet pipe 220 A plunger 316 provided in the valve body 311 for opening and closing an inlet 312 of the valve body 311 and a plunger 316 for opening and closing the plunger 316, And a spring 315 which is elastically pressed by the valve seat 314 of the valve body 311.

The heating water flowing through the inlet 312 overcomes the elastic force of the spring 315 when the heating water pressure in the heating pipe 110 is higher than a predetermined pressure and the plunger 316 is moved to the valve body 311, And then flows into the valve body 311 while being pushed into the internal space.

The heating water flowing into the valve body 311 flows out toward the outlet pipe 220 through an outlet 313 formed at one side of the valve body 311.

An O-ring 317 is coupled to an upper end of the valve body 311 to maintain airtightness with the connection port 241 when the valve body 311 is inserted into the connection port 241 of the connection pipe 240.

The water discharge cock 321 includes a discharge body 321 inserted into and coupled to an opening 311a formed in a side opposite to an inlet 312 of the valve body 311, And an O-ring 322 coupled to be surrounded to maintain airtightness with the inner circumferential surface of the water discharge pipe 230.

A flange portion 321a having a larger diameter than the body to which the O-ring 322 is coupled is formed in the discharge body 321. The lower end of the spring 315 is elastically supported on the upper surface of the water discharge body 321 and the flange portion 321a is exposed to the outside when the valve module 300 is inserted into the water discharge pipe 230, When water inside the boiler pipe is to be removed, the operator can remove the valve module 300 from the connection body 200 by holding the flange portion 321a by hand.

In this structure, the bypass valve unit 310 performing the bypass function and the water discharge cock unit 320 performing the water discharge function for removing the water in the boiler pipe are integrally formed with the valve module 300 As a result, the number of parts is reduced compared with the related art, and the piping structure for connecting the parts is also simplified compared with the conventional one.

The water discharge pipe 230 in which the water discharge cock portion 320 and the water discharge cock portion 320 are inserted is installed to be exposed to the outside of the boiler 1. The water discharge cock portion 320 is connected to the water discharge pipe 230), the water inside the boiler pipe can be simply removed.

As described above, the present invention is not limited to the above-described embodiments, and various changes and modifications may be made without departing from the scope of the present invention as defined in the appended claims. And such modifications are within the scope of the present invention.

1: boiler 110: heating supply pipe
120: Heat recovery pipe 200: Connection body
210: inlet pipe 211: inlet
220: outlet pipe 221: outlet
230: Water pipe 231: Water pipe
240: Connector 241: Connector
300: valve module 310: bypass valve part
311: valve body 312: inlet
313: Outlet 314: Valve seat
315: spring 316: plunger
317: O-ring 320: Discharge cock part
321: Exhaust body 322: O-ring
321a: flange portion

Claims (7)

An outflow pipe 220 connected to the heating supply pipe 110 and connected to the heating return pipe 120 in communication with the inflow pipe 210; A connection body 200 integrally formed with the drain pipe 230 for communicating with the drain pipe 220 and discharging the water inside the boiler to the outside;
And a water supply pipe 110 provided between the inflow pipe 210 and the outflow pipe 220 for bypassing the water in the heating pipe 110 to the heating water return pipe 120 when the pressure inside the heating pipe 110 is higher than a predetermined pressure. And a drain cock (320) inserted into the drain pipe (230) while opening and closing the drain pipe (230) in a state of being coupled to the bypass valve part (310) (300);
And a drain valve for supplying steam to the boil-off cock.
The method according to claim 1,
A connection pipe 240 connected to the inlet pipe 210 and concentric with the drain pipe 230 is provided and the connection pipe 241 of the connection pipe 240 is connected to the inlet pipe 210 through the inlet pipe 210 Wherein the bypass valve unit (310) is inserted to restrict the flow of the inflow water.
3. The method of claim 2,
The bypass valve unit 310,
An inlet 312 inserted into the connection hole 241 via an O-ring 317 and communicating with the connection pipe 240;
A valve body 311 having an outlet 313 for discharging the water introduced into the inlet 312 to the outlet pipe 220;
And a plunger (316) elastically supported by a spring (315) to block the inlet (312).
The method of claim 3,
The drain cock 321 includes a drain body 321 inserted into and connected to the inlet 312 of the valve body 311 and a drain pipe coupled to the drain pipe 321, And an O-ring (322) for maintaining airtightness between the boil-off cock and the boil-off cock.
5. The method of claim 4,
Wherein the drainage body (321) is formed with a flange portion (321a) having a larger diameter than the body to which the O-ring (322) is coupled.
The method according to claim 1,
Wherein the drain pipe (230) having the drain cock (320) inserted therein is exposed to the outside of the boiler.
A valve assembly comprising a connection body (200) and a valve module (300) as claimed in any one of claims 1 to 6.

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