KR900000929Y1 - Temperature control device for gas hot water tools - Google Patents

Abstract

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Description

Thermostat of gas instantaneous water heater

1 is a cross-sectional view of the assembled state of the temperature control valve according to the present invention.

2 is a state in which the thermostat according to the present invention is installed in the gas instantaneous water heater.

3 is an operational state diagram of the temperature control valve according to the present invention. a is controlled to obtain high temperature. b is a controlled state to obtain a low temperature.

* Explanation of symbols for main parts of the drawings

1: casing ia: fixed surface

2: housing 3: inner diameter

4: inlet hole 5: outlet hole

8: fixed rod 10: bellows

12: temperature sensing 13: cap

14 valve 14a shaft

15: opening and closing side 16: moving plate

17.17 ': coil spring 20: moving nut

22: adjustment shaft 23: thread

30: temperature control valve 40: heat exchanger

41: discharge pipe

The present invention is a gas instantaneous water heater that instantaneously increases the temperature of the water by the combustion action of the gas discharged into the hot water, the bellows is operated in accordance with the temperature change of the hot water to control the amount of combustion gas to supply hot water at a desired temperature It relates to a temperature control device for a gas instantaneous water heater.

In the existing gas instantaneous water heater, the temperature control is to control the amount of water to be heated while keeping the amount of combustion gas constant. When a hot temperature is desired, the water is supplied in a short time while the water is supplied. It is because the temperature is easily reached, and if you want a lukewarm temperature, the burning time is delayed while the amount of water is supplied, so there is a difference in the discharge time of the hot water. According to the purpose of using hot water, the user has to worry about the selection of the designated temperature.

In this case, when the previously heated water is heated, since the supply of the combustion gas amount is constant, there is a closed end with high gas consumption for heating to a constant temperature.

However, unlike the heating method as described above, the present invention for supplying water at a constant temperature inserts an opening and closing valve formed with a guide rod and a shaft before and after the coil spring and the valve as the inner diameter of the casing in which the gas holes and the outlet holes are formed. Freely insert the moving plate with the fixed rod into the shaft of the open / close side. The coil spring and the cap are inserted into the induction rod, and the housing is tightly fixed by the fixing surface of the casing so that the expansion gas is embedded and the bellows of the flexible housing is in elastic contact with the cap. The moving nut on the back of the housing screwed to the adjusting shaft of the knob is installed with a temperature control valve connected to the moving plate by a connecting beam in the gas supply pipe, and the temperature sensing piece 12 of the bellows is connected to the exhaust pipe of the heat exchanger. The gas supply amount is adjusted according to the temperature rise of the discharged water, which is installed in the water supply, so that the hot water heated to each temperature is uniformly supplied and the temperature of the hot water is controlled by the temperature of the hot water. It is to increase the reliability.

The present invention for achieving the above object will be described in detail with the accompanying drawings.

1 is a cross-sectional view of the assembled state of the temperature control valve according to the present invention.

As shown in the figure, the temperature control valve 30 of the present invention comprises a casing 1 having a control function of a gas to be supplied and a housing 2 having a temperature selection function. The control function of the gas is a bellows (10) containing a gas that expands in accordance with the rising temperature, and the opening and closing side (15) for controlling the supply of gas. And a moving plate 16 for controlling the opening and closing sides and respective coil springs 17.17 '. Temperature selection function is the knob 24 and the control shaft 22 to adjust the left and right, the movement nut 20 to move back and forth by the control shaft. And the temperature control valve 30 is composed of a fixed rod (8) connecting the moving plate and the moving nut of the gas control function.

Referring to the configuration of the gas control function in detail, the casing (1) drills the inner housing (3) for assembling the control function in the center, the outflow hole (5) and the inlet hole of the side to form the jaw (5a) at the tip (4) is formed in communication with each other. On the other side to form a fixing surface (la) through the through hole to be coupled to other objects.

Opening and closing side 15 forms a guide rod (14a) at the front end and a shaft (14a) at the rear end. A valve 14 having a jaw is formed in the middle to open and close the outlet hole 5 at the inner diameter 3 of the casing 1.

The moving plate 16 cuts the plate into an appropriate size and drills respective holes in the center and the corners to control the movement of the bellows 10 and the valve 4 on the shaft 14a of the open / close side 15. Do it.

The cap 13 is machined to have a cross-sectional shape, so that the bend of the opening penetrates the same hole of the position and size of the hole where the four corners of the moving plate 16 are drilled, so that the bellows 10 is protected and the spring is elastic. do.

The bellows 10 is formed in a bellows shape having a size fitted into the cap 13, and connects the connection pipe 11 having the temperature sensing piece 12 therein to store therein a gas that expands when the temperature rises. The bellows 10 is extended. Allow it to shrink.

One of the coil springs 17 and 17 'of each coil spring is wound to fit the outer diameter of the cap, and the other one is wound to the size of the guide rod, the elastic spring is coiled to fit the cap Larger, their resilience is closely followed by the bellows expansion and the configuration of the temperature selection function. The housing (2) protrudes the standing rod (19) on a square edge to a certain height to form a screw hole in the standing rod. The fixing rod 8 passes through the through hole formed by drilling a position such as the through hole drilled in the moving plate and the cap.

Fixing the finger board 21 on one side of the movable nut 20 with a screw hole. Drill holes through the same size as the screw hole, and drill the same hole in the hole position drilled on the moving plate and the cap and the housing so that the fixing rod (8) is fixed to move back and forth by the adjustment shaft (22). It pulls the fixing rod 8 to which the moving plate 16 is attached to the front and rear moving plate.

The adjusting shaft 22 forms a thread 23 at the front end and processes the rear end in a half moon shape so that the thread 23 is screwed with the movable nut 20 and the half moon is connected to the adjustment knob 24. Moving nut 20 in the left and right rotation action to achieve the front and rear movement action.

The fixing plate 25 drills a hole for the adjusting shaft in the center and a hole for fixing the standing rod in the square yarn to assist the support and the hydration of the adjusting shaft 22 in the housing 2.

In the assembly of the temperature control valve 30 having such a configuration, first, the coil spring 17 'is inserted into the inner diameter 3 of the housing 1, and the opening / closing piece 15 is inserted to guide the coil 14b at the tip. (17 '). Insert the movable plate 16 to which the fixed cylinder 8 is fixed to the shaft 4a. A large diameter coil spring 17 is inserted between the fixing cylinders 8 so that the hole around the cap 13 is inserted into the fixing rod 8.

Thereafter, the housing 2 in which the bellows 10 is fixed is tightly coupled to the fixing surface la of the casing 1, and the movable nut 20 of the housing 2 and the fixing rod 8 of the casing 1 are fixed. Secure it with a fitting washer or the like.

And insert the adjustment shaft 22 in the central hole of the fixed plate (25). Fix the hole of the corner to the standing rod (9) of the housing (2) and then the end screw thread (23) of the adjusting shaft (22) to make a screw connection with the screw hole of the movable nut (20). The temperature adjusting valve 30 is formed by fitting the adjusting knob 24 to the rear half moon shape.

2 is a state diagram in which the thermostat is installed in the gas instantaneous water heater according to the present invention, the temperature regulating valve 30 of the casing 1 at the gas supply pipe 50 connected to the burner 43. The gas supplied by connecting the inlet hole 4 and the outlet hole 5 is supplied to the burner 43 via the inner diameter 3 of the temperature control valve 30.

The temperature sensing piece 12 of the bellows 10 expands the temperature of the hot water when the temperature of the hot water rises above a predetermined temperature by the combustion action of the gas supplied by the heat exchanger 40 installed in the discharge pipe 41. To control the gas supply.

3 is a case in which a high temperature (75 ° C to 70 ° C) is selected and b is a case where a low temperature (40 ° C to 45 ° C) is selected.

In the case of a, the moving nut 20 retreats from the distal end thread 23 of the adjusting shaft 22 while the knob 24 is lifted in the high temperature direction.

The moving plate 16 connected by the fixed rod 8 retracts according to the movement of the moving nut 20, thereby compressing the coil spring 17 between the cap 13 and the moving plate 16, thereby reducing the compression force. 13) retreat.

At this time, the opening / closing edge 15 opens the inner diameter 3 which was closed by the distance which the cap 13 retreated by the coil spring 17 'of the front end.

In this state, open the gas valve (C) and ignite. When the gas exiting the inlet hole 4 and the outlet hole 5 of the open inner diameter 3 is ignited and burned by the burner 43 to heat the heat exchanger 40, the water supply valve W is opened. Water at room temperature supplied through the heating pipe 42 is heated while flowing through the heating pipe 42 and discharged into hot water.

However, when flammable above the specified temperature, the temperature sensing piece 12 installed in the discharge pipe 41 detects the temperature of the hot water, and the detected temperature is a valve that moves by expanding the volume of the gas contained in the bellows 10. Reduce gas supply to control heating above the specified temperature.

In more detail, as the temperature rises, the temperature is stretched due to the temperature of the gas delivered by the temperature delivered from the bellows 10 to the bellows 10 along the connecting pipe 11 through the sensing piece 12. This good bellows 10 is elongated by its expansion force so that the cap 13 of the bellows comes into contact with the valve 14 of the open / close side 15.

In this contact state alone, since the expansion force is weak, the elastic force of the coil spring 17 'of the controlled opening and closing edge 15 cannot be overcome, and the opening and closing edge 15 cannot be moved.

But. The temperature generated by the continuous combustion of the gas continues to be applied to the gas, which is an expandable material, through the sensing piece 12 and the connecting pipe 11, so that the gas expands gradually.

The gas expansion force of the bellows 10 increased by the combustion action as described above overcomes the coil spring 17 'force supporting the opening / closing edge 15 to move the opening / closing edge 15 toward the outlet hole 5. With the help of the coil spring 17 of the plate is moved, the opening and closing range of the gas inlet hole 4 is narrowed at the same time according to the movement state of the opening / closing edge 15, and the The runoff will also be enjoyed.

When the amount of outflow of gas decreases, the ignition flame in the burner 43 decreases, thereby reducing the heat generation, thereby reducing the thermal efficiency of the heat exchanger 40.

When the change in temperature as described above is transmitted to the gas made of the expansion material through the sensing piece 12 and the connection pipe 11, the expansion force of the gas is reduced so that the bellows 10 itself contracts, and at this time, the coil of the opening and closing valve 15 The spring (17 ') elasticity pushes the cap (13) of the bellows (10) in the direction of the knob, but only to the position at the time of initial temperature setting, thereby keeping the opening width of the gas inlet (4) reduced to the initial opening width. As a result, the supply amount of gas increases again, and the combustion amount of burner 43 increases again.

In the above process, if the temperature of the hot water rises above the designated temperature by adjusting the valve 24, the opening of the outlet hole 5 in the casing 1 is reduced by the expansion of the bellows 10 through the above-described path and operation. The bellows are contracted as the temperature of the hot water is lowered and the temperature of the hot water is lowered, and the opening / closing edge 15 is widened to the first setting position of the opening range of the outlet hole 5, and the repeated action of raising the temperature of the hot water is continued. It is prevented from being heated above.

Therefore, the user can control the rising temperature in the internal structure of the gas appliance by the temperature of hot water which discharges the effect that the user can continuously receive the hot water heated to the designated temperature. By selectively adjusting the discharge rate, hot water heating function and discharge function are improved.

In addition, in the present invention, when the water previously heated by solar heat or its heat is heated to about 40 ° C. to 45 ° C., the burner 43 may be set even if the temperature position of the adjusting knob 24 is set to a low temperature location (20 to 25 ° C.). The temperature can be obtained in a state where the gas consumption is small by heat and the temperature of the heated water.

In particular, in hot water at about 40 ° C. to 45 ° C., the gas expansion force in the bellows 10 does not overcome the compressive force of the coil spring 17 so that the inner diameter 3 of the casing 1 is continuously opened.

The present invention as described above is the effect of the expansion and contraction by the expansion gas of the bellows in contact with the opening and closing sides by the heat of hot water to be heated and said extension. The contraction action interacts with the elasticity of the coil spring compressed by the regulating knob. It has the property of controlling the gas supply when heated above the designated temperature, improving the temperature control function in the instantaneous water heater, especially the temperature in the gas supply pipe. It is a temperature regulating device of the gas instantaneous water heater which has the effect of equalizing the temperature of hot water discharged with economical gas consumption by installing the regulating device.

Claims (1)

Temperature control by adjusting knob 24 in gas instantaneous water heater. In constructing the valve 30. A guide rod 14b for freely inserting the coil spring 17 'and the moving plate lb and a gas control opening / closing valve 15 formed with the guide shaft 14a to the inner diameter 3 of the temperature regulating valve casing 1. Insert it. The coil spring 17 is inserted into the outer diameter. As the inner diameter, the cap 13 and the housing 2 into which the bellows 10 filled with gas are inserted are sequentially inserted into the fixing rod 8. The moving nut 20 into which the screw thread 23 of the knob shaft 22 is screwed is inserted into the fixing rod 8 penetrated by the housing 2. The inlet hole 4 of the casing 1 opened by setting the temperature by installing the sensing piece 12 of the bellows in the discharge pipe 41 of the heat exchanger 40 is used to change the state of the bellows due to the temperature of the water. The temperature control device of the gas instantaneous water heater, characterized in that the gas supply amount is configured to be adjusted by the forward and backward movement of the interlocking opening and closing along.