KR960000132Y1 - Gas boiler - Google Patents

Abstract

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Description

Gas boiler

1 is a view showing an embodiment of a gas boiler according to the present invention

2 is a front sectional view of the fluid quantity sensing means according to the present invention

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a view showing a conventional gas boiler.

* Explanation of symbols for main parts of the drawings

10: water supply pipe 12: heat exchanger

14 gas burner 16: hot water pipe

18: gas passage 20: gas control valve

22: fluid quantity detection means 24: heating tube

26: male thread portion 28: connection portion

30: body 32: female thread

34: connection 36: lid

38: space part 40: magnetic material

42: part 44: guide part

46: water supply 48: rib

50: proximity switch 52: space

54: turning

The present invention relates to a gas boiler, and more particularly to a gas boiler to maintain a constant hot water temperature of the boiler by adjusting the amount of gas supplied to the gas burner in accordance with the variation in the amount of water introduced.

Conventionally, when the hot water of the boiler is used, the amount of burner heat that heats the heat exchanger is constant regardless of the fluctuation of the quantity of water supplied into the heat exchanger of the boiler. In addition, there is a problem that the hot water temperature is too low when the quantity supplied is large.

In addition, the gas boiler disclosed in Korean Utility Model Publication No. 85-9632 discloses a heat exchanger 104 having a water supply pipe 100 on an upstream side and a tapping tube 102 on a downstream side, as shown in FIG. Gas amount control valve 110 for adjusting the opening degree of the gas passage 108 for supplying gas to the gas burner 106 is configured to be controlled by the temperature sensing means 112 provided on the tapping pipe 102 side Therefore, when the hot water temperature on the tapping tube 102 side becomes excessively high, the gas quantity control valve 100 is controlled to stop the heating of the gas burner 106.

However, the conventional gas boiler prevents overheating of the gas boiler by shutting off the supply of gas when the water temperature of the tapping tube becomes higher than a predetermined temperature. A temperature sensing sensor such as a bimetal switch is installed in the tapping tube to prevent tapping. If the temperature is above a certain amount, the gas flow control valve is simply shut off. If the amount of water supplied is variable, there is a problem that can not maintain the temperature constant.

The present invention is to solve the above problems, by adjusting the amount of gas in the gas burner of the boiler automatically according to the change in the quantity of water supplied into the boiler to provide a gas boiler that can constantly maintain the boiler exhaust water temperature The purpose is to provide.

The gas boiler of the present invention for achieving the above object is supplied with water from the water supply pipe, heated by the gas burner in the heat exchanger and then discharged the hot water to the tapping pipe, the degree of opening of the gas passage connected to the gas burner In the gas boiler which is provided to the gas control valve is provided on the side of the water supply pipe and configured to be controlled by the fluid flow rate sensing means for detecting the change in the quantity of water through the water supply pipe, the fluid flow rate sensing means is passed through the mouth having a magnetic material. A guide part is formed to guide the lowering according to the quantity, and a water supply path is formed between the plurality of ribs arranged radially around the guide part, while a plurality of proximity switches are defined in the rib along the length direction of the guide part. Characterized in that arranged at intervals of.

According to the present invention having the structure as described above, even when taking a bath requiring a large amount of hot water, it is possible to obtain a convenient amount of hot water conveniently and quickly.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic view showing an embodiment of a gas blower according to the present invention, receiving water from a water supply pipe 10 and heating the gas burner 14 in a heat exchanger 12 to a tapping pipe. In the gas boiler to discharge hot water to the (16), a gas control valve (20) for adjusting the opening degree of the gas passage (18) connected to the gas burner (14), is installed in the water supply pipe (10) It is configured to be controlled by the fluid quantity detecting means 22 for detecting a change in the quantity of water supplied through the water supply pipe 10.

In addition, the hot water of the heating tube 24 is also heated by the gas burner 14 in the heat exchanger 12 to circulate.

In this case, the fluid quantity detecting means 22 detects a change in the amount of fluid passing through the water supply pipe 10 to control the gas control valve 20 proportionally, and the amount of fluid passing through the water supply pipe 10. When this increases, the opening degree of the gas control valve 20 is increased to increase the amount of gas supplied to the gas burner 18, while the amount of fluid passing through the water supply pipe 10 decreases. By reducing the opening degree of 20), the amount of gas supplied to the gas burner 18 is reduced.

2 is a front sectional view showing a fluid quantity detecting means according to the present invention, a body 30 having an upper male threaded portion 26 and a connecting portion 28 formed thereon, and a lower portion coupled to the male screwed portion 26; Lid 36 having a female threaded portion 32 and a connecting portion 34 of the upper portion is provided, the body 30 is formed in the space portion 38 inclined toward the upper portion inclined toward the upper portion, the space portion Rib 48 for dividing the guide portion 44 and the water supply passage 46 around the guide portion 44 so that the buoy 42 with the magnetic material 40 in the center of the 38 is moved up and down. A plurality of radially formed and a plurality of proximity switches 50, which are operated when the magnetic body 40 approaches, are embedded in a plurality of up and down ribs 48, which are appropriately located around the guide portion 44.

The lid 36 is formed with a space portion 52 inclined toward the upper portion inclined upward, and a projection 54 restricting the height of the mouthpiece 42 toward the center of the space portion 52 is radially. Many are formed.

Referring to the assembled and installed state of the present invention configured as described above, the mouth portion 42 is placed in the guide portion 44 formed on the space portion 38 in the body 30, the female screw portion 32 of the lid number of the body The projections 54 are inserted into the threaded portions 26 so that the upper portions of the ribs 48 are interviewed. In addition, the installation of the fluid quantity detecting means 22 assembled as described above is installed using the upper and lower connecting portions 28 and 34 in place of the water supply pipe 10 in the boiler body.

Referring to the operation and effect of the present invention assembled as described above, when the lowermost of the proximity switches 50 embedded in the rib 48 is operated so that the gas control valve 20 is closed, Is opened to the maximum when the operation is performed, and the gas amount is gradually reduced when the intermediate ones are operated step by step. When water is not supplied to the water supply pipe 10, as shown in FIG. The magnetic body 40 operates the proximity switch 50 at the bottom thereof to close the gas control valve 20.

In addition, when the water supply is maximized, the magnetic body 40 of the float shown as an imaginary line is raised by the water pressure to operate the proximity switch 50 at the top, and at the same time, the gas control valve 20 opens to the maximum gas burner 14 If the heat exchanger 12 is heated in the state of the maximum amount of heat generated, and the proximity switch 50 in the middle is operated in accordance with the lifting and lowering of the float 42 due to the water pressure difference depending on the quantity supplied. The gas control valve 20 is opened and closed at an appropriate level so that the calorific value of the burner is controlled to maintain a constant hot water temperature at all times.

Therefore, when using a small amount or a large amount of hot water always maintains the optimum hot water temperature according to the change in the amount of water, there is a convenient advantage that can be provided quickly bath water, especially when a large amount of hot water, such as a bath.

As described above, the gas boiler according to the present invention can be provided with hot water at a constant temperature at all times, and thus is a useful design having the advantage of being convenient and pleasing.

What has been described above is merely a mere example in all respects, and should not be construed as limited thereto, and all modifications existing within the true spirit and scope of the present invention belong to the claims of the present invention.

Claims (1)

Water is supplied from the water supply pipe 10 to heat the gas burner 14 in the heat exchanger 12 and then discharge the hot water to the tapping pipe 16, the gas passage 18 connected to the gas burner 14 Gas control valve 20 for adjusting the opening degree of the gas, which is installed in the water supply pipe 10 is configured to be controlled by the fluid quantity detection means 22 for detecting a change in the amount of water through the water supply pipe (10) In the boiler, A guide portion 44 is formed to allow the fluid quantity detecting means 22 to rise and fall in accordance with the amount of passage of the float 42 having the magnetic body 40, and is radially around the guide portion 44. A water supply passage 46 is formed between the plurality of ribs 48 arranged, while the plurality of proximity switches 50 are disposed at predetermined intervals along the longitudinal direction of the guide portion 44 on the ribs 48. Gas boilers characterized in that.