KR100844920B1 - Scale prevention device in hot water tank for hot water hot water system - Google Patents

Abstract

An apparatus for preventing a scale in a hot water tank for a hot water supplying system is provided to employ a horizontal pipe having a plurality of injection holes provided on the bottom surface of a water supply pipe so that a hot water uniformly circulates in a hot water tank through an injection pressure according to the operation of a pump. A water supplying pipe(3) connecting a water tank(1) and a hot water tank(2) extends from an upper portion of the hot water tank to a lower portion of the hot water tank. A horizontal pipe(11) is fixed to the end of the water supplying pipe. Spray hole(12) are provided on the bottom surface of the horizontal pipe at a predetermined interval. An additional nozzle is provided to increase an injection pressure. A heat exchanger(4) is provided inside the hot water tank to heat a water. A water discharging pipe(6) linked with a hot water line(5) is connected to the upper portion of the hot water tank.

Description

Scale prevention device in hot water tank for hot water hot water system

1 is a schematic view showing the structure of a conventional hot water hot water supply system

Figure 2 is a schematic diagram showing the structure of the hot water hot water supply system to which the present invention is applied

3 is an enlarged view of portion “A” of FIG. 2;

4 is a cross-sectional view taken along the line B-B of FIG.

Explanation of symbols for the main parts of the drawings

1: water tank 2: hot water tank

3: supply pipe 4: heat exchanger

5: hot water line 6: discharge pipe

7: circulating pipe 8: pump

11: horizontal tube 12: injection hole

The present invention relates to a hot water tank applied to a hot water hot water supply system, and more specifically, a hot water tank in the process of continuously supplying the water in the water tank to the hot water tank and heating it by a heat exchanger. The present invention relates to a scale preventing device in a hot water tank for a hot water hot water supply system, which can prevent the sediment sinking and fixing in the bottom surface of the hot water.

In general, the hot water hot water supply system, as shown in Figure 1, the water tank (1) for continuously supplying water to the hot water tank (2) side on the roof of the building is installed, they are connected to the supply pipe (3) and the hot water tank Inside the (2) is a heat exchanger (4) is located so that the high temperature hot water or steam generated in the boiler (not shown) is supplied to the heat exchange with the water in the hot water tank (2) is located and the hot water tank The upper part of (2) is connected to the discharge pipe (6) for supplying hot water to the hot water line (5) of each room.

And the discharge side of the hot water line (5) connected to each room is connected to the circulation pipe (7) connected to the supply pipe (3) and the circulation pipe (7) for forcibly circulating hot water to the hot water tank (2) pump (8) ) Is installed.

Therefore, in the state in which the water in the water tank 1 is supplied to the hot water tank 2 through the supply pipe 3, hot water or steam is supplied to the heat exchanger 4 side to exchange heat with the cold water so that the hot water tank 2 When the water in the warmer is supplied to the hot water line (5) of each room through the discharge pipe (6) connected to the upper portion of the hot water tank (2) it is possible to use hot water in the bathroom of each room.

In the process of moving along the hot water line (5) hot water is re-introduced into the hot water tank (2) through the supply pipe (3) by the drive of the pump (8) installed on the circulation pipe (7) and then discharge pipe (6) It is possible to use the hot water in each room because it repeatedly performs the process supplied to the hot water line (5) through.

However, in the conventional hot water hot water supply system, the supply pipe 3 connected to the water tank 1 is connected to the bottom of the hot water tank 2 so that the water is filled into the hot water tank by the heat exchanger 4. Since the conversion is supplied to the hot water line (5) through the discharge pipe (6) there was a problem that a scale (9) occurs on the bottom surface of the hot water tank (2) during long-term use.

That is, since the water contained in the water tank 1 is tap water purified and supplied from the intake, there is a very small amount of pearls as well as chlorine. However, the water supplied into the hot water tank 2 is formed inside the hot water tank 2. Since it does not circulate and is heated while forming the water flow 10 as shown in FIG. 1 and supplied to the hot water line 5, dissolved oxygen is included in the precipitate submerged in the hot water tank 2 to react with iron to produce iron oxide. Scale 9 is fitted to the bottom surface of the hot water tank (2).

Further, in the process of repeatedly passing the hot water through the hot water line 5 along the direction of the arrow, the scale of the coagulated and precipitated inside of the pipe is moved to the hot water tank 2 side, so that the generation of the scale 9 is further intensified. As a result, the service life of the hot water tank 2 is reduced, and sometimes green water comes out.

This phenomenon is further intensified when the hot water tank 2 and the hot water line 5 are iron (Fe), and even if expensive stainless steel (SUS) is used to prevent this, the sediment is changed due to the problems described above. Seating can't be prevented, so that no rust comes out of the hot water line, or you have to clean the hot water tank every year.
In addition, stainless steel has a problem that welding repair is very difficult when cracks are generated at a welded part or another part due to low thermal conductivity and weakness in stress.

In addition, since the cold water flowing into the hot water tank 2 forms the water flow 10 as shown in FIG. 1, the cold water does not circulate evenly inside the hot water tank, and is discharged to the hot water line 5 through the discharge pipe 6. Insufficient heat exchange with the exchanger 4 has resulted in a decrease in thermal efficiency.

The present invention has been made in order to solve such a conventional problem, while improving the connection state and structure of the supply pipe while spraying the water in the direction of the water flowing into the inside of the hot water tank while circulating the inside of the hot water tank evenly Its purpose is to make it warm.

According to an aspect of the present invention for achieving the above object, while connecting the water tank and the hot water tank to the supply pipe, the heat exchanger is located inside the hot water tank and the discharge pipe connected to the hot water line on the top of the hot water tank. In the hot water hot water supply system is connected to the hot water line and the supply pipe is connected to the circulation pipe in which the pump is installed, while the supply pipe is embedded through the upper portion of the hot water tank inside the horizontal pipe at the end of the supply pipe and the horizontal pipe The bottom of the is provided with a scale preventing device in the hot water tank for hot water hot water supply system, characterized in that to form a plurality of injection holes.

Hereinafter, the present invention will be described in more detail with reference to FIGS. 2 to 4 as an embodiment.

2 is a schematic view showing the structure of the hot water hot water supply system to which the present invention is applied, FIG. 3 is an enlarged view of a portion “A” of FIG. 2, and FIG. 4 is a sectional view taken along line B-B of FIG. 2, and the present invention provides a water tank 1. Supply pipe (3) connecting the hot water tank (2) and is installed to extend through the upper portion of the hot water tank (2) to the lower end of the supply pipe (3) is a horizontal pipe orthogonally as shown in Figs. 11) is fixed to the connection, the bottom surface of the horizontal tube 11 is formed with injection holes 12 at regular intervals.

Although the injection holes 12 may be formed in the horizontal pipe 11 at regular intervals, a separate nozzle (not shown) may be provided to increase the injection pressure in the injection holes 12 as necessary. have.

And a heat exchanger (4) for heating the water by heat exchange is located inside the hot water tank (2) and the discharge pipe (6) connected to the hot water line (5) is connected to the upper portion of the hot water tank (2) The circulation pipe 7 is provided with a pump 8 between the hot water line 5 and the supply pipe 3.

Referring to the operation of the present invention configured as described above is as follows.

First, after the water in the water tank 1 is supplied to the inside of the hot water tank 2 through the supply pipe 3 and heated by heat exchange by hot water or steam passing through the heat exchanger 4, the discharge pipe 6 is opened. By circulating the hot water line (5) through the hot water is supplied to each room.

As described above, the hot water in the hot water tank 2 circulates the hot water line 5 to supply water and cool down, and the hot water tank 2 is supplied through the circulation pipe 7 and the supply pipe 3 according to the driving of the pump 8. Re-introduced into the inside of the supply pipe (3) is installed to extend into the inside of the hot water tank (2) and the end of the supply pipe is connected to the horizontal pipe (11) having a plurality of injection holes 12 formed on the bottom surface The water flowing back into the hot water tank 2 is injected in the direction of the arrow shown in Figures 3 and 4 to generate water flow inside the hot water tank (2).

Accordingly, even though the circulating water includes the scale generated from the precipitate or the hot water line 5, the water circulated does not settle to the bottom surface of the hot water tank 2 by the water flow generated in the process of being injected from the injection hole 12. While circulating the inside of the hot water tank (2) is a sufficient heat exchange with the heat exchanger (4) is converted to hot water is to continue to circulate the hot water line (5) through the discharge pipe (6).

As described above, the present invention has the following advantages.

First, a horizontal pipe 11 having a plurality of injection holes 12 is installed at the bottom of the supply pipe 3 extending to the inside of the hot water tank 2 so that the hot water circulated according to the driving of the pump 8 is provided. Since hot water is ejected to the injection hole 12 by the ejection pressure, the hot water circulates evenly in the inside of the hot water tank 2, so that even if the hot water contains sediment, the sediment is at the bottom of the hot water tank 2. As it does not settle to prevent the phenomenon of scale on the bottom surface of the hot water tank (2) in advance, even if the hot water tank is made of low-cost steel can be maximized life.

Second, the maintenance of the hot water tank (2) does not have to be cleaned periodically, so that the maintenance is convenient, thereby reducing expensive labor costs.

Third, the water re-introduced into the hot water tank (2) generates water flow in the process of being injected through the injection hole 12 to circulate evenly through the inside of the hot water tank (2) is heated by sufficient heat exchange with the heat exchanger (4) It is then discharged into the discharge pipe (6) to maximize the thermal efficiency.

Claims (1)

The water tank (1) and the hot water tank (2) is connected to the supply pipe (3), the heat exchanger (4) is located inside the hot water tank (2) and the hot water line at the top of the hot water tank (2) In the hot water hot water supply system which connects the discharge pipe (6) connected to the (5) and the hot water line (5) and the supply pipe (3) by connecting the circulation pipe (7) with the pump (8), the supply pipe ( 3) is embedded in the inside of the hot water tank through the upper portion of the hot water tank (2) and at the same time the end of the supply pipe (3) connects a horizontal tube (11) and a plurality of minutes on the bottom of the horizontal tube (11) Scale prevention apparatus in the hot water tank for hot water hot water supply system, characterized in that it is formed by the yarn 12.

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