JPH0195231A - Hot water feeding device - Google Patents

Abstract

PURPOSE:To get hot water simultaneous with feeding out of another hot water by a method wherein thermal accumulating material kept at its liquid state at a temperature more than a predetermined value, solid state at a temperature less than the predetermined value and keeping the predetermined temperature under a mixed condition of its liquid and solid condition and an electric heater for heating the material are installed within a thermal accumulating tank connected to a part near a hot water feeding-out plug. CONSTITUTION:A thermal accumulating tank 7 having a relative low capacity which is installed at a position near a hot water feeding-out plug 6 in a hot water feeding passage 5 has thermal accumulating materials 13, 13... with proper spacings 12, 12... acting as flow passages in it. When the hot water feeding-out plug 6 is opened to feed out hot water, the hot water contained in the thermal accumulating tank 7 is fed out and then water in a hot water feeding-out passage 5 between a hot water feeder 1 and the thermal accumulating tank 7 passes within the thermal accumulating tank 7 and during this passage of water, it is heated through plates 14, 14... of the thermal accumulating materials 13, 13... and fed out, then hot water heated by the hot water feeder 1 is fed out in continuous with the feeding- out of the hot water. Then, as the water within the hot water feeding passage 5 passes within the thermal accumulating tank 7, the thermal accumulating material 16, 16... show a variation of state from liquid to solid through thermal discharging and keep a specified temperature during this variation of state. As the hot water in the hot water feeder 1 passes within the thermal accumulating tank, the thermal accumulating materials 16, 16... are heated and liquefied to store heat. Accordingly, it is made possible to perform an instantaneous feeding-out hot water.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Industrial Application Field The present invention relates to a water heater that can obtain hot water at the same time as hot water is tapped.

For example, as shown in Japanese Patent Publication No. 62-19662, a water supply pipe and a hot water return pipe are provided in the hot water outlet passage of a water heater, and a circulation bonder for forced circulation of hot water is installed in these pipes, which eliminates the need for a large number of pipes. At the same time, a pump is also required, which increases the cost. The longer the tube, the greater the heat loss.

(c) Problems to be Solved by the Invention It is an object of the present invention to be able to obtain hot water at the same time as hot water supply without using piping or pumps for hot water circulation.

B) Means for Solving the Problems The present invention connects a hot water tap to the hot water tap of a water heater via a hot water supply flow path, and connects a relatively small capacity heat storage tank to a portion of the hot water supply flow path adjacent to the hot water tap. And inside this heat storage tank,
It is equipped with a heat storage material that maintains a predetermined temperature in a liquid state above a predetermined temperature, a solid state below a predetermined temperature, and a mixed state of liquid and solid, and an electric heater that heats the heat storage material to a set temperature higher than the above predetermined temperature. It is what it is.

(E) Action When the temperature inside the heat storage tank is below the set temperature, the electric heater heats the water and heat storage material in the heat storage tank to above the set temperature. When the hot water tap is opened, the hot water in the heat storage tank is first discharged, and then the water in the hot water flow path between the water heater and the hot water tap is heated by the heat storage agent in the heat storage tank and hot water is discharged from the hot water tap. After that, hot water from the water heater will come out.

(f) Example An example of the present invention will first be explained based on FIG.
For example, (1) is a gas instantaneous water heater, in which a water supply pipe (3) connected to the water supply and a hot water outlet pipe (4) are arranged at the bottom of the main body (2), and the hot water outlet pipe has a hot water supply flow path. A tap (6) is connected via (5).

(The power is provided by a relatively small-capacity heat storage tank installed near the hot water outlet and (6) of the hot water supply flow path (5), and as shown in Figure 2, there is a water supply port (9) at the bottom (8), A hot water supply port αυ is provided in the upper part α■, and an appropriate interval a is provided inside to form a flow path.
Place 21a'a... and heat storage material f13) (131...
・It is arranged.

This heat storage material is made of, for example, a pair of heat-resistant and corrosion-resistant plates fi4) (14)K with recesses (151 (151...) provided at appropriate intervals, as shown in FIG. After accommodating a heat storage agent mm-... containing trihydrate (NOK M material: a product name of NOK Corporation) etc. in a capsule, plates 0 and 4 are joined, and L distribution plate 0 (stomach)
The periphery of f14) is hermetically sealed.

(17) is an electric heater attached to the bottom of the energy storage tank (7), and is energized and controlled by the controller 08)K.

This controller detects the temperature inside the heat storage tank (7) with a temperature sensor a1 attached to the side wall of the heat storage tank (7), and if the temperature is below a set temperature, such as 60°C, it turns on the electric heater C17). energize. j is the power cord for the electric heater fin and the controller IQ.

By energizing the controller, the temperature inside the heat storage tank (7) is detected by the 4 degree sensor (19), and if the temperature is below the set temperature, the controller is turned on for 90 seconds.
(Thermal heater 07) is energized.

On the other hand, when the hot water tap 16) is opened and hot water is tapped, the hot water in the heat storage tank (7) is first tapped out, and then the water heater 11+
The water in the hot water supply flow path (5) between the heat storage tank (7) and the heat storage tank (7) passes through the heat storage material (13) f131.
It is heated through the plate 14)fi4) of... and the hot water tap (6
), followed by hot water heated by the water heater (1).

Here, when the water in the hot water supply flow path (5) passes through the heat storage tank (7), this water is heated by the heat storage agent (g) (g)... # heat (latent heat), but on the other hand Heat storage agent mm-・・
This heat radiation causes a state change from liquid to solid. During this state change, the heat storage agent maintains a constant temperature as shown in Figure 4, and when hot water passes through the heat storage tank of the water heater (11), the heat storage agent... Forced to liquefy,
Store heat. So once! ! The heat storage agent (T) (T)... heated to the set temperature by the thermal heater 0η is heated to the set temperature by the water heater after the water passes through the hot water supply flow path (5). 1
Since it is heated by the hot water in step 1), it is usually heated using an electric heater (
There is no need to energize lη.

On the other hand, the principle of maintaining a constant temperature while the heat storage agent 1st floor... solidifies from a liquid to a solid is the same as that of maintaining 0°C while ice liquefies into water, and In the case of hydrates, the temperature is maintained at 58°C.

(g) Effects of the Invention With the configuration of the present invention, hot water can be immediately tapped with a relatively simple configuration without the need for circulation flow pipes, circulation pumps, etc. for circulating hot water. It can also be easily attached to piping.

[Brief explanation of the drawing]

FIG. 1 is a schematic explanatory diagram of the present invention, FIG. 2 is an enlarged explanatory diagram of the main parts, and FIG. 3 is an exploded perspective view of the heat storage material.
FIG. 4 is a characteristic diagram as well. 11)... Water heater, (4)... Hot water outlet pipe, (5)...
・Hot water supply channel, (6)...Hot water tap, (7)...Heat storage tank, α-cooler...Heat storage material, C17)...Electric heater.

Claims (1)

[Claims] (1) A hot water tap is connected to the hot water tap of the water heater via a hot water supply flow path, and a relatively small capacity heat storage tank is connected to a portion of the hot water supply flow path near the hot water tap; A heat storage material that maintains a predetermined temperature in a mixed state of liquid and solid, which is liquid above a predetermined temperature and solid below a predetermined temperature, and an electric heater that heats the heat storage material to a set temperature higher than the predetermined temperature are installed. A hot water supply system consisting of