KR101726645B1 - Steam boiler system - Google Patents

Abstract

The present invention relates to a steam generator comprising a heating water tank provided with heating water to generate steam, a steam movement line through which steam generated from the heating water tank moves, a radiator for transmitting heat of the steam to the room, An auxiliary water tank for heating the condensed water to supply the condensed water to the heating water tank, and an auxiliary water injection line for supplying condensed water of the heated auxiliary water tank to the heating water tank, wherein the heating water The present invention is directed to a steam boiler system including a safety valve capable of injecting steam into a steam boiler system.

Description

[0001] Steam boiler system [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a steam boiler system, and more particularly, to a steam boiler system including an auxiliary water tank for supplying boiled water through a motor in order to prevent a heating state from being released in the middle.

In the conventional steam boiler system, if heating is maintained for about 30 minutes, the heating water is refreshed for 20 minutes, and the heating is not maintained for about 20 minutes during reheating, so that the interior is cooled down.

However, since the generated steam temperature is higher than about 300 ° C, it is difficult to use the sensor because it causes malfunction or failure of the sensor.

As a prior art related to the steam boiler system, Korean Utility Model Laid-Open No. 20-2013-0005803 (registered on October 20, 2013, portable boiler and melting apparatus, steamer) is exemplified.

In the patent document, FIG. 2 (refer to FIG. 1 of the specification of the present invention) is disclosed.

However, in the conventional steam boiler system such as the patent literature, if the heating water is heated by the thermal power, steam is generated and supplied along the steam tube to maintain the heating. If the heating water is insufficient in the water tank, When the steam is supplied as condensed water to the inside of the water tank again, the thermal power is transferred to generate steam to boil the supplied condensed water, thus failing to solve the aforementioned problems.

Korea Public Utility Model No. 20-2013-0005803 (Registered on Oct. 20, 2013), Portable Boiler and Melting Machine, Steamer

SUMMARY OF THE INVENTION It is an object of the present invention to provide a steam boiler system capable of keeping a heating state during operation of a heating system so that the interior of the heating system is not cooled.

A steam boiler system for achieving the above object comprises a heating water tank having heating water to generate steam, a steam movement line for moving steam generated from the heating water tank, a radiator for transferring heat from the steam to the room, An auxiliary water tank for heating the condensed water through a motor and supplying the heated water to the heating water tank, and an auxiliary water injection line for supplying condensed water heated through the motor to the heating water tank, And a safety valve.

In this case, the motor includes a motor switch for inputting an operation of the motor, and the condensed water of the auxiliary water tank is heated faster than the cooling water of the heating water tank.

In the steam boiler system of the present invention, one side supports the weight of the heating water tank, and operates the motor switch in operation by the weight change of the heating water tank, and the condensed water of the auxiliary water tank heated by the motor is heated And a counterweight that is positioned at the other side of the seeside and maintains the balance when the water is supplied to the water tank, the seesaw returning to the original position and releasing the operation of the motor switch, the center portion supporting the center of the seesaw portion.

The auxiliary water injection line may further include a check valve positioned in a direction in contact with the motor of the auxiliary water injection line to prevent the backflow of the heating water in the heating water tank, Further comprising a valve positioned in a direction in contact with the auxiliary water tank of the condensate transfer line in preparation for clogging occurring in at least one of the condensate transfer line and the auxiliary water injection line.

At this time, when the boiler is operated by locking the valve, the cause of clogging occurring in at least one of the steam movement line, the condensate movement line, and the auxiliary water injection line due to the action of the steam is generated .

In the steam boiler system of the present invention, when the heating water is heated and the heating water is heated to generate steam, the steam is transferred to the radiator through the steam movement line, and the heat of the steam is transmitted through the radiator The steam heated to a room temperature is liquefied and transferred to the inside of the auxiliary water tank through the condensate transfer line. As the steam moves, the weight of the heating water tank is reduced and connected to the heating water tank of the seawater The motor is operated to heat the auxiliary water tank and the heated condensed water is injected into the heating water tank through the auxiliary water injection line so that the weight of the heating water tank is increased, The operation of the motor switch is stopped , And the operation of the motor is also stopped.

According to the steam boiler system of the present invention,

First, since a system that operates by seesaw operation by weight and supplies hot water treated condensate until the weight of the heating water tank reaches a predetermined weight is used, a separate sensor is not necessary, so that it is not necessary to worry about malfunction or malfunction of the sensor due to heat .

Second, since the water inlet is closed through the lock device using the safety valve instead of the lid of the heating water tank, there is no loss due to leakage of the steam, so that the heating water can be prevented from being reduced.

Third, a valve is installed in the condensate transfer line between the radiator and the auxiliary water tank to prevent the steam, condensate, and auxiliary water from flowing into the line due to condensation, etc., thereby closing the valve and operating the steam boiler system It is possible to easily remove foreign substances or the like by moving the steam up to just before the valve.

Fourth, the phenomenon that the heating was stopped for about 30 minutes by heating for about 30 minutes and the steam was not supplied for about 20 minutes is supplied to the heating water tank through the auxiliary water tank and the motor, so that the steam can be supplied without interruption. .

1 is a drawing 2 of Patent Document 1.
2 is a view showing an embodiment of a steam boiler system according to a preferred embodiment of the present invention.
3 is a flowchart of a steam boiler system according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

2 is a view showing an embodiment of a steam boiler system according to a preferred embodiment of the present invention.

2, the steam boiler system of the present invention includes a heating water tank 10, an auxiliary water tank 20, and a radiator 30.

In this case, the heating water tank 10 having the heating water for generating steam and the radiator 30 for transmitting heat from the steam to the indoor are connected to the steam transfer line 40 through which the steam generated from the heating water tank 10 moves .

The auxiliary water tank 20 that heats the radiator 30 and the condensed water into the heating water tank 10 is connected to the condensate water transfer line 50 through which the condensed water generated by the steam is discharged.

The heating water tank 10 includes a safety valve 12 that hermetically locks the heating water inlet 11 for supplying / replacing the heating water. The safety valve 12 is formed to prevent the safety valve 12 Leakage of the heating water can be prevented by preventing the lock steam from escaping.

In the conventional steam boiler system, a lid is formed on the upper part of the heating water tank without opening the heating water inlet of the heating water tank. However, such a structure can prevent the steam from leaking when the steam is generated, The phenomenon occurred and we had to constantly replenish the water.

The steam boiler system of the present invention is capable of solving this problem by forming the safety valve 12.

The auxiliary water tank 20 separately forms a motor 21 for heating the condensed water of the auxiliary water tank 20 faster than the heating water of the heating water tank 10 so that condensed water boiled through the motor 21 is supplied to the heating water tank 10 ).

At this time, when the heating water in the heating water tank is supplied to the radiator 30 in the form of steam, the heating water in the heating water tank is reduced and the heating is interrupted. The steam is converted into condensed water and is supplied to the heating water tank 10 through the auxiliary water tank 20, The condenser water is supplied to the heating water tank 10 in a state where the condensed water is boiled in a short time due to the motor 21,

Therefore, it is possible to remarkably overcome the problem that the heating is not maintained for about 20 minutes due to the conventional heating for about 30 minutes and the heating for about 20 minutes.

The motor 21 is operated by a motor switch for inputting the operation of the motor 21. The motor switch 21 is provided with a seesection 70 and a counterweight 71 for inputting the operation of the motor 21 to the motor switch, A central portion 72 for supporting the center of the portion 70 is further formed.

One side supports the weight of the heating water tank 10 and operates the motor switch in operation due to the weight change of the heating water tank 10 and the condensed water of the auxiliary water tank 20 heated by the motor 21 is supplied to the heating water tank 10 The counterweight 71 for maintaining the balance is positioned at the other side of the seesaw 70, which returns to the original position and releases the operation of the motor switch.

There is a method of measuring the water level of the heating water in the heating water tank 10 or the weight of the heating water tank 10 by using the sensor but there is a possibility that the sensor is broken or malfunctions at about 300 degrees or more, It is more effective to use the slope of the seesaw due to the weight change of the heating water tank 10 more accurately.

Although the motor switch is located on the left side of the seesaw about the center portion 72 in FIG. 2, the motor switch can be positioned at any position that comes into contact with the seesaw when the seesaw equilibrium is released.

In addition, when the steam boiler system of the present invention is mounted on a caravan, the equilibrium state may not be maintained due to vibration and impact caused by running of the vehicle, so that the counterweight 71 is placed, .

The auxiliary water injection line 60 includes a check valve 61 located in a direction in contact with the motor 21 of the auxiliary water injection line 60 to prevent the backflow of the heating water in the heating water tank 10, The line 50 is connected to the auxiliary water tank 20 of the condensate transfer line 50 in preparation for clogging occurring in at least one of the steam transfer line 40, the condensate transfer line 50 and the auxiliary water injection line 60. [ And a valve (51) located in a direction in contact with the valve (51).

At this time, when the boiler is operated by locking the valve 51, pressure is generated while steam is generated, and a cause of clogging in at least one of the steam transfer line 40, the condensate transfer line 50 and the auxiliary water injection line 60 Is collected at a position before the valve (51) of the condensate transfer line (50).

When the condensate transfer line (50) is disconnected from the auxiliary water tank (20) and the valve is unlocked, the foreign matter or the cause of condensation escapes to the outside, thereby preventing condensation and clogging due to foreign matter.

3 is a flowchart of a steam boiler system according to a preferred embodiment of the present invention.

3, when the heating water is heated and the heating water is heated to generate steam, the steam is transferred to the radiator 30 through the steam movement line 40, The heat of the steam is liquefied and transferred to the inside of the auxiliary water tank 20 through the condensate transfer line 50.

At this time, the water for heating in the heating water tank 10 is reduced by the movement of the steam, the weight of the heating water tank 10 is reduced, and the portion 73 connected to the heating water tank of the seawater rises and operates the motor switch.

The motor 21 is operated to heat the condensed water in the auxiliary water tank 20 and the heated condensed water is injected into the heating water tank 10 through the auxiliary water injection line 60 to increase the weight of the heating water tank 10, The operation of the motor switch is stopped and the operation of the motor 21 is also stopped.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various modifications and changes may be made without departing from the scope of the appended claims.

10 ... Heating water tank 11 ... Heating water inlet
12 ... Safety valve 20 ... Secondary water tank
21 ... motor 22 ... motor switch
30 ... Radiator 40 ... Steam moving line
50 ... Condensate transfer line 51 ... Valve
60 ... Auxiliary water injection line 61 ... Check valve
70 ... Seesaw part 71 ... Counterweight
72 ... center portion 73 ... portion connected to the heating water tank

Claims (7)

A heating water tank provided with heating water to generate steam;
A steam movement line through which steam generated from the heating water tank moves;
A radiator for transferring heat from the boiler to the room;
A condensate transfer line through which condensed water generated by the steam is discharged;
An auxiliary water tank for heating the condensed water through a motor including a motor switch for heating the condensed water to a temperature faster than that of the heat of the heating water tank; And
And an auxiliary water injection line for supplying condensed water heated through the motor to the heating water tank,
The heating water tank,
And a safety valve for hermetically locking the heating water inlet,
One side supports the weight of the heating water tank, operates the motor switch during operation by the weight change of the heating water tank, and returns to the original position when the condensed water of the auxiliary water tank heated by the motor is supplied to the heating water tank A seesection for releasing the operation of the motor switch;
A center portion supporting a center of the seesection; And
And a counterweight positioned on the other side of said seesaw to maintain equilibrium,
Steam boiler system.
delete delete delete The method according to claim 1,
Wherein the condensate transfer line comprises:
Further comprising: a valve located in a direction in contact with the auxiliary water tank of the condensate transfer line in preparation for clogging occurring in at least one of the steam transfer line, the condensate transfer line, and the auxiliary water injection line,
Steam boiler system.
6. The method of claim 5,
When the boiler is operated by locking the valve, pressure is applied while the steam is generated, thereby eliminating the cause of clogging occurring in at least one of the steam movement line, the condensate movement line, and the auxiliary water injection line doing,
Steam boiler system.
The method according to claim 1,
When the heating water is heated and the heating water is heated to generate steam, the steam is transferred to the radiator through the steam moving line, and the heat of the steam increases the room temperature through the radiator, The discharged steam is liquefied and transferred into the auxiliary water tank through the condensate transfer line,
The weight of the heating water tank is reduced due to the movement of the steam, so that the portion of the septic portion connected to the heating water tank rises. When the motor switch is operated, the motor operates to heat the auxiliary water tank, Wherein the weight of the heating water tank is increased by injecting the water into the heating water tank through the auxiliary water injection line so that the portion of the seepage part connected to the heating water tank is lowered so that the operation of the motor switch is stopped and the motor is stopped.
Steam boiler system.

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