KR101084158B1 - Automatic circulation system for hot water - Google Patents

Abstract

The present invention relates to a hot water automatic circulation system, and more particularly, hot water automatic is configured to enable continuous automatic circulation of hot water by using the circulating power of the pressure difference between the heating water supply tank and the heating water recovery tank and the water inertia force. The purpose is to provide a circulation system.

In addition, the present invention uses a pressure difference and water inertia of the heating water supply tank and the heating water recovery tank as a natural power source for continuous automatic circulation of hot water, so that a simple and compact configuration is possible, even in a place where power supply is impossible. It can be used to effect such as.

Boiler, hot water automatic circulation, pressure difference, circulation inertia

Description

Hot water automatic circulation system {AUTOMATIC CIRCULATION SYSTEM FOR HOT WATER}

The present invention relates to a hot water automatic circulation system, and more particularly, heating by using a pressure difference in a heating water supply tank and a heating water recovery tank that repeats contraction and expansion due to steam pressure, such as blood circulation by a self-pulsating heart. It relates to a hot water automatic circulation system configured to enable automatic circulation of water.

In general, the hot water circulation system is composed of a hot water circulation structure for supplying a heating pipe to the hot water produced by the boiler using the power of the circulation pump, and then recovered to the boiler.

Recently, a hot water automatic circulation system using the steam pressure of hot water as a circulating power without using external power such as a circulation pump in the hot water circulation system has been developed.

In particular, the hot water automatic circulation system as shown in FIG. 1 supplies cold water to the boiler 100 through supply valves 101 and 102 opened by using water pressure due to the height difference in the water storage tank 100. Is heated, and the supply valves 101 and 102 are closed by the hot water vapor pressure of the boiler, and the discharge valve 111 is opened secondly so that the hot water of the boiler is supplied to the heating pipe 120. The hot water is recycled back to the water storage tank and configured to circulate.

However, the hot water automatic circulation system has a structural problem such as excessive installation space is required by installing the water storage tank 100 at a considerable height than the boiler 110 in order to secure the supply pressure of the cold water.

In addition, the hot water automatic circulation system requires a significant water pressure according to the height difference when recovering the heating water of the heating pipe 120 to the water storage tank 100, the specific solution for this is not presented in the practical use There is a limit.

In addition, the conventional hot water automatic circulation system developed so far is mainly configured to circulate the hot water using the steam pressure of the hot water, but it is difficult to be commercialized due to its technical problems such as not generating sufficient circulation power or discontinuous hot water circulation. There is.

The present invention has been made to improve the above problems of the prior art, it is configured to enable the continuous automatic circulation of hot water by using the circulation power by the pressure difference and the water inertia force of the heating water supply tank and the heating water recovery tank. The purpose is to provide a hot water automatic circulation system.

In order to achieve the above object, the present invention is a hot water automatic circulation system known to be configured to automatically circulate the hot water produced in the boiler to the heating element is installed by using the pressure difference according to the change in the steam pressure, When the hot water of the boiler is stored through the hot water supply line and the water supply pressure supply means is provided with a heating water supply tank to buffer the water supply pressure through the diaphragm; A heating water recovery tank for resupplying the heating water to the boiler when the heating water of the heating pipe is recovered through the hot water recovery line; A pressure regulating chamber installed at an upper portion of the heating water recovery tank and having a relief valve; wherein the internal pressure of the heating water recovery tank and the heating water supply tank increases in a closed state of the relief valve, the diaphragm for water supply pressure When the pressure in the heating water recovery tank is lowered to atmospheric pressure according to the opening of the relief valve, the maximum pressure difference between the heating water supply tank and the heating water recovery tank is used as the circulation power. The heating water of the heating water supply tank is supplied through the heating water supply line, and the water pressure buffer means expands the diaphragm to fill the empty space in the heating water supply tank due to the discharge of the heating water, and generates negative pressure in the heating water supply tank. It is to provide a hot water automatic circulation system, characterized in that configured to prevent.

The present invention configured as described above is simple and compact configuration is possible by using the pressure difference and the water inertia of the heating water supply tank and the heating water recovery tank as a natural power source for the continuous automatic circulation of hot water, the power supply is It can be used even in an impossible place.

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

Figure 2 is a block diagram illustrating an automatic hot water circulation system according to the present invention.

According to one embodiment of the present invention, as shown in FIG. 2, the boiler 1 and a heating water supply tank 10 for supplying heating water at a constant water pressure while storing hot water supplied from the boiler, It is composed of a heating member 20 to be heated by the heating water supplied to the heating pipe 21, the heating water recovery tank 30 for recovering the heating water of the heating pipe and re-supply to the boiler.

At this time, the boiler 1 in the present invention is composed of a boiler pipe (2) and the heating means (3) is made of a general structure to produce hot water, but the boiler pipe using a heating means such as a portable gas burner It has a structure that can produce hot water so that it can be used in places where power supply is impossible.

In addition, the heating water supply tank 10 is configured to receive hot water through the hot water supply line (5) connected to the boiler pipe (2), the first check valve 6 is installed on the hot water supply line while the heating water It is configured to fundamentally block the phenomenon that the hot water in the supply tank flows back to the boiler pipe side by the water pressure in the heating water supply tank.

Here, the diaphragm 11 is built in the heating water supply tank 10, and the water supply pressure buffer means 15 such as nitrogen gas is charged at the upper side of the heating water supply tank 10, and the hot water supply line 5 at the lower side thereof. It is configured to be filled with hot water supplied through.

Accordingly, the hot water filled in the heating water supply tank 10 is expanded at a high temperature to achieve a substantial high pressure, and the gas pressure of the water pressure-absorbing means 15 such as nitrogen gas is passed through the diaphragm 11. It is configured to buffer the pressure of the hot water filled in the heating water supply tank.

In other words, in the heating water supply tank 10, the water pressure buffer means 15 such as nitrogen gas pushes the diaphragm 11 down by using its own pressure, and the hot water in the heating water supply tank supplies the heating water. Even though the volume and pressure of the hot water are reduced through the line 12, the diaphragm supported by the water pressure receiving means 15 compresses the hot water in the heating water supply tank to a constant pressure so that the hot water in the heating water supply tank is always the same. It acts to discharge water at the water pressure.

In addition, the heating element is usually supplied to the evacuation member (20) forming a radiator or an ondol room of the building through a heating water supply line (12) connected to the heating water supply tank (10). It is configured to be heated as water passes.

On the other hand, the heating water recovery tank 30 recovers the heating water through the heating water recovery line 22 connected to the heating pipe 21, and the recovered heating water through the hot water recovery line 31 to the boiler pipe ( It is configured to supply 2).

At this time, while the second check valve 23 is installed on the hot water recovery line 22, the phenomenon in which the hot water in the heating water recovery tank 30 flows back to the heating pipe 21 side by the water pressure in the heating water recovery tank is perfectly. It is configured to block.

Here, the heating water recovery tank 30 is provided with a pressure control chamber 40 at the upper portion thereof, and the pressure control chamber 40 has two or more soundproofing and brackish separation members 41 in the middle thereof. It is built to be Shanghai.

In particular, two or more sound insulation and water separation member 41 is installed in a vertically stacked state, each of the plurality of gas outlets are perforated, but the gas outlets are arranged alternately so that the gas outlets are not located on the same axis, naturally when the gas rises It causes a collision, and eventually acts to separate and recover the moisture in the gas while preventing noise.

In addition, the pressure control chamber 40 is provided with a relief valve 50 at the upper portion, the relief valve is automatically opened when the pressure in the heating water recovery tank 30 reaches the set pressure, thereby increasing the pressure of the heating water recovery tank. To atmospheric pressure.

In other words, the heating water recovery tank 30 gradually increases its internal pressure due to the recovered heating water and its vapor pressure, and when the internal pressure reaches the set pressure of the relief valve 50, it opens through the opened relief valve. The gas in the heating water recovery tank 30 is discharged, and eventually the internal pressure thereof is reduced to atmospheric pressure.

At this time, while the pressure in the heating water recovery tank 30 is increased while the relief valve 50 is closed, the water pressure in the heating water supply tank 10 is also increased, and in this process, the water pressure buffering means 15 is diaphragm. Compression is gradually performed through the (11) to act to buffer the water supply pressure in the heating water supply tank (10) increased.

However, when the relief valve is opened while the internal pressure of the heating water recovery tank 30 reaches the set pressure of the relief valve 50, the pressure in the heating water recovery tank is lowered to atmospheric pressure, and in this process, the heating water supply tank ( 10) and the maximum pressure difference is generated between the heating water recovery tank and the heating water of the heating water supply tank is supplied through the heating water supply line 12 at a time, wherein the hydraulic pressure buffer means that has been compressed by the hydraulic pressure ( 15) is expanded to fill the empty space in the heating water supply tank in which the heating water is discharged by pushing the diaphragm 11 is configured to prevent the occurrence of negative pressure in the heating water supply tank according to the discharge of the heating water.

In addition, the heating water of the heating water supply tank 10 is heated by the water supply inertia at the moment of being supplied by the water supply pressure and heated in the boiler 1 via the heating pipe 21 and the heating water recovery tank 30, and then again. It is configured to maintain the circulation power until it is returned to the heating water supply tank.

In short, in the present invention, after supplying the heating water by using the pressure difference between the heating water supply tank 10 and the heating water recovery tank 30 as the water supply pressure, the circulation of water is maintained by using the water inertia of the heating water. It is a technical feature to be configured to enable continuous automatic circulation.

As described above, in the detailed description of the present invention, specific embodiments have been described, but it is understood that various modifications can be made without departing from the scope of the present invention.

Therefore, the substantial scope of the present invention should not be limited by the above-described embodiment, but should be defined by the same structure as the claims as well as the claims described below.

1 is a block diagram illustrating a conventional hot water automatic circulation system;

Figure 2 is a block diagram illustrating an automatic hot water circulation system according to the present invention.

<Brief description of the main parts of the drawing>

DESCRIPTION OF SYMBOLS 1: Boiler 10: Heating water supply tank 20: Heating member 30: Heating water recovery tank 40: Pressure regulating chamber 50: Relief valve

Claims (3)

In a well-known automatic hot water circulation system configured to automatically supply and circulate hot water produced by the boiler 1 to a heating member 21 provided with a heating pipe 21 using a pressure difference according to a change in steam pressure, When the hot water of the boiler (1) is stored through the hot water supply line (5) and the water supply pressure buffer means 15 is provided with a heating water supply tank 10 so as to buffer the water supply pressure through the diaphragm (11); A heating water recovery tank 30 for resupplying the boiler 1 when the heating water of the heating pipe 21 is recovered through the hot water recovery line 22; Composed to the upper portion of the heating water recovery tank 30, the pressure control chamber 40 is provided with a relief valve 50; When the internal pressure of the heating water recovery tank 30 and the heating water supply tank 10 is increased in the closed state of the relief valve 50, the water pressure receiving means 15 is connected to the heating water supply tank 10 through the diaphragm 11. When the pressure in the heating water recovery tank 30 is reduced to atmospheric pressure by buffering the water supply pressure in the inside and the relief valve 50, the maximum between the heating water supply tank 10 and the heating water recovery tank 30 By using the pressure difference as a circulating power, the heating water of the heating water supply tank 10 is supplied through the heating water supply line 12, and the water supply pressure buffer means 15 expands the diaphragm 11 to discharge the heating water. Hot water automatic circulation system, characterized in that configured to prevent the occurrence of negative pressure in the heating water supply tank 10 while filling the empty space in the heating water supply tank (10). The method according to claim 1, The pressure control chamber 40 is a hot water automatic circulation system, characterized in that a plurality of sound insulation and water separation member 41 is laminated so as to be spaced apart from each other. The method according to claim 1, The hot water supply line (5) and the hot water recovery line (22) is a hot water automatic circulation system, characterized in that the first check valve 6 and the second check valve 23 is configured to be installed respectively.

Images