KR100783055B1 - discharging system for heated water and container for heated water - Google Patents

Abstract

The present invention provides a hot water discharge system and a hot water tank for preventing the phenomenon that the water remaining in the cooled state in the hot water pipe is discharged when the terminal outlet (faucet) connected to the hot water pipe is operated.

The present invention for achieving the above object is a hot water pipe for supplying hot water from the hot water source to the hot water outlet; Disclosed is a technical configuration including an anti-cooling hot water storage tank at an adjacent portion of the hot water outlet of the hot water pipe.

Hot water discharge, cooling, hot water storage tank

Description

Discharging system for heated water and container for heated water

1 is a structural diagram illustrating a conventional piping system for hot water.

2 is for explaining an embodiment of the hot water piping system of the present invention.

3 is a perspective view of a hot water storage tank applied to an embodiment of the present invention.

4 is a cross-sectional view taken along the line AA ′ of FIG. 3.

5 is a cross-sectional view showing another embodiment of a hot water storage tank applied to the present invention.

6 is a cross-sectional view of a hot water storage tank of another embodiment of the present invention.

The present invention relates to a piping system and a hot water tank for preventing the phenomenon that the water remaining in the cooled state in the hot water pipe is discharged when the terminal outlet connected to the hot water pipe is operated.

To discharge hot water by operating a terminal outlet connected to the hot water pipe, for example, a household faucet, when the temperature is low, such as in winter, the temperature is lower than expected while the water cooled in the hot water pipe is discharged. Water will be discharged.

1 is a structural diagram illustrating a conventional piping system for hot water.

The hot water source 1 may be a boiler installed separately in each home, or a hot water joint that supplies hot water to each home in a common house such as an apartment. When the hot water outlet (2) such as the faucet of the washbasin of the home bathroom, the shower, and the hot water outlet (3) of the kitchen are operated, the pipe remains between the hot water source (1) and the hot water outlet (2), (3) After discharged from the water, the water flowing from the hot water source 1 is discharged. When the temperature of the air is low, such as in winter, the piping is also cooled and the temperature of the remaining water is low. Therefore, when the hot water outlets 2 and 3 are operated, the water flowing from the hot water source 1 flows into the hot water outlet 2. , Water of low temperature is discharged until it is discharged to (3), that is, until the water remaining in the pipe is discharged.

Therefore, when the user intends to use hot water, the water is discharged to the outside by operating the hot water outlets 2 and 3 to waste water and energy.

The present invention is to improve the above problems, an object of the present invention is a hot water piping system having a hot water tank for discharging hot water maintaining a predetermined temperature in the hot water outlet without discarding the cooled water of the hot water pipe and To provide a hot water tank for this.

Characteristic of the present invention is a wall body is formed receiving space for storing hot water therein; An inlet pipe installed at a bottom of the wall to introduce hot water into the accommodation space from the outside; It includes an outlet pipe for discharging the hot water stored in the receiving space to the outside; The outlet pipe extends to an upper portion of the accommodation space, and an opening is formed at a lower portion of the outlet pipe disposed in the accommodation space.

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In addition, in the present invention, the opening is preferably less than 1/2 of the area into which the warm water at the end of the outlet pipe flows.

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

2 is for explaining an embodiment of the hot water piping system of the present invention.

The hot water pipe is installed between the hot water source 1, the bathroom hot water outlet 2, and the kitchen hot water outlet 3. The hot water pipe is branched from the main pipe (4) and the main pipe (4) directly connected to the hot water source (1) to branch pipes (5), (6) connected to the hot water outlets (2), (3) Is done. In addition, the branch pipes (5), (6) is provided with hot water storage tanks (2), (3).

The storage capacity of the hot water storage tank 2 is determined by the temperature of the water to be stored and the volume of the main pipe 4.

When the volume of the main pipe (4) is V ₁ , the temperature of the main pipe (4) is T ₁ , the storage volume of the hot water storage tank is V ₂ , and the temperature of the water stored in the hot water storage tank is T ₂ . Assuming that water in the main pipe 4 is mixed without water flowing out, the final temperature T of the water in the hot water storage tank is determined by the following Equation 1 (at this time, it is assumed that there is no heat leakage from the hot water storage tank). do).

If the temperature of the pipe is 10 ° C., the temperature of the water in the hot water storage tank is 40 ° C., and the storage volume V ₂ of the hot water storage tank is equal to the volume V ₁ of the main pipe 4, the final temperature T of water is represented by Equation 1 By 25 degreeC.

Further, if the storage volume V ₂ of the hot water storage tank is twice the volume V ₁ of the main pipe 4 under the same conditions, the final temperature T of the mixed water becomes 30 ° C. according to Equation 1.

Further, if the storage volume V ₂ of the hot water storage tank is three times the volume V ₁ of the main pipe 4 under the same conditions, the final temperature T of the mixed water becomes 32 ° C. according to Equation 1.

Similarly, if the storage volume V ₂ of the hot water storage tank is four times the volume V ₁ of the main pipe 4, the final temperature T of the mixed water is 34 ° C. by Equation 1.

If the storage volume V ₂ of the hot water storage tank is larger than the volume V ₁ of the main pipe 4, the warm water is not discarded at first, and the storage volume of the hot water storage tank can be felt when the temperature is around 30 ° C. since V ₂ is a larger than the volume V ₁ of the main pipe 4 more in use conveniently up the final temperature, but the hot water storage tank volume becomes large to have the problems of the installation phase, and manufacturing preferably limited to less than approximately four times Do.

When the user discharges the water by operating the hot water outlet, the water in the hot water pipe flows into the hot water storage tank, and the water of the hot water storage tank is discharged from the hot water outlet. Will be discharged. At this time, when the amount of water introduced is greater than the amount of water discharged, the temperature of the water in the hot water storage tank is slightly lower than the temperature of the water determined by Equation 1, but when the water from the hot water source 1 is introduced into the storage tank. Again the temperature of the water rises.

3 is a perspective view of a hot water storage tank applied to an embodiment of the present invention, Figure 4 is a cross-sectional view taken along line AA 'of FIG.

The hot water storage tank 30 shown in Figures 3 and 4 is formed in a cylindrical shape that is sealed up and down, the lower portion is connected to the branch pipe 34, the water is introduced, the upper portion of the water through the branch pipe (35) Spills. In addition, a branch valve (not shown) is installed at the connection portion of the branch pipe 34 so that the introduced water does not flow out again through the branch pipe 34.

In addition, the body of the hot water storage tank 30 has a storage container layer 31 is formed to form a receiving space for accommodating the water made of synthetic resin or metal to the inside of the styrofoam or glass fiber to the outside of the storage container layer 31 The heat insulating layer 32 is formed of the same material, and the like, and the outer layer 32 is formed with a finishing layer 33 made of metal or synthetic resin. It is also well known that heat can be insulated by forming a vacuum space instead of the heat insulating layer 32.

5 is a cross-sectional view showing another embodiment of a hot water storage tank applied to the present invention.

Although the cross section of the body of the hot water storage tank shown in FIG. 5 is formed of the storage container layer 31, the heat insulation layer 32, and the finishing layer 33 shown in FIG. 4, the storage space formed of the storage container layer 31 is formed. Separated by the separation membrane 51, the branch pipe 34 for the water is introduced into the separated space and the branch pipe for the water flow is provided in the lower portion. At this time, the upper part of the separator 51 is in contact with the bottom surface of the storage container layer 31, but the upper part is open. One side of the space separated by the separation membrane 51 is connected to the branch pipe 34, the water is introduced, the other side is connected to the branch pipe 35 is the water flows out. Thus, when water flows into the receiving space through the branch pipe 34 and the water flows out into the branch pipe 35, the water is mixed with the pre-stored water by the separator 51, so that it is not mixed by the rapid inflow of water. It is possible to prevent the leakage of water without the state.

6 is a cross-sectional view of a hot water storage tank of another embodiment of the present invention.

The hot water storage tank 30 is water is stored in the receiving space formed in the wall 60, the inlet pipe 62 is installed on the bottom surface 61 of the wall 60, the water is introduced into the receiving space from the outside The outlet pipe 63 is installed so that the water in the accommodation space is discharged to the outside.

At this time, the end 66 of the inlet pipe 62 and the end 65 of the outlet pipe is placed in the receiving space. The end 66 of the inlet pipe is installed close to the wall bottom 61, and the end 65 of the outlet pipe extends in the receiving space to be installed close to the top surface 64 of the wall. In this way, the end 65 of the outlet pipe is extended to minimize the air accumulated in the accommodation space to remove the air discharge valve for discharging the air in the accommodation space to the outside, or to minimize the operation even if installed.

In addition, an opening 67 is provided in the lower portion of the outlet pipe 63 disposed in the accommodation space to discharge the residues accumulated in the accommodation space, in particular, on the bottom surface 61 of the wall to the outside through the outlet pipe 63. At this time, the width of the opening 67 does not exceed 1/2 of the cross-sectional area through which water at the end 65 of the outlet pipe flows out. If the width of the opening 67 exceeds half of the cross-sectional area at which the water at the end flows out, the amount of water flowing out through the opening 67 will be larger than the amount of water discharged through the end, thereby releasing the accumulated air. The effect is reduced.

According to the present invention of the above object and configuration, when operating the hot water outlet, the water remaining in the hot water pipe is discharged to prevent the phenomenon of discarding the first water by preventing the waste of water, thereby saving energy have.

Claims (8)

delete delete delete delete delete delete A wall having an accommodation space in which hot water is stored; An inlet pipe installed at a bottom of the wall to introduce hot water into the accommodation space from the outside; It includes an outlet pipe for discharging the hot water stored in the receiving space to the outside; The outlet pipe is formed to extend to the upper portion of the receiving space, the hot water storage tank, characterized in that an opening is formed in the lower portion of the outlet pipe disposed in the receiving space. 8. The hot water storage tank according to claim 7, wherein the opening is less than 1/2 of the area into which the hot water at the end of the outlet pipe flows.

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