KR20230021681A - Water heater - Google Patents

Abstract

The present invention relates to an instantaneous heating water heater. The water heater according to the present invention may comprise: a first flow path extending from a water source; a heater capable of heating a water in the first flow path; a second flow path and a third flow path branching from the first flow path; a valve allowing the water in the first flow path to flow selectively to one of the second flow path and the third flow path; a hydrant connected to the second flow path; and a drainage tank accommodating the water discharged from the third flow path. An objective of the present invention is to provide the water heater capable of properly supplying the water at a temperature desired by a user.

Description

Water heater {WATER HEATER}

The present invention relates to a water heater, and more particularly to an instantaneous heating type water heater.

Water heaters can often be divided into storage type and instantaneous heating type. Among them, the instantaneous heating type refers to a method in which a heater is operated together when a hydrant is operated by a user's manipulation, so that water flows into the hydrant and is instantly heated by the heater and supplied to the user.

However, water passing through the heater may not be sufficiently heated from immediately after the heater starts operating until it reaches a steady state. This is because the temperature of the heater itself is in equilibrium with the ambient temperature before the heater starts operating, so it takes a certain amount of time for the heater to warm up.

Therefore, there is a problem in that the user receives water at a lower temperature than the desired level.

In order to solve the above problem, an object of the present invention is to provide a water heater capable of properly supplying water at a temperature desired by a user.

Another object of the present invention is to provide a water heater capable of ensuring smooth operation.

Another object of the present invention is to provide a water heater capable of promoting user safety.

A water heater according to the present invention includes a first flow path extending from a water source, a heater capable of heating water in the first flow path, a second flow path and a third flow path branching from the first flow path, and water in the first flow path. Further comprising a valve capable of selectively flowing into one of the second flow path and the third flow path, a hydrant connected to the second flow path, and a water temperature sensor for measuring the temperature of the water heated by the heater, the valve When the temperature of the water measured by the water temperature sensor is equal to or higher than a preset temperature, the water in the first channel flows into the second channel, and when the temperature is lower than the preset temperature, the water in the first channel flows into the third channel. so that it can be discharged to the outside.

On the other hand, a first flow path extending from a water source, a heater capable of heating water in the first flow path, a second flow path and a third flow path branching from the first flow path, and the water in the first flow path is connected to the second flow path. A valve capable of selectively flowing into any one of the flow path and the third flow path, a hydrant connected to the second flow path, and a predetermined amount of water on the third flow path to determine whether or not it has flowed along the third flow path. Further comprising a flow sensor installed, the valve allows the water in the first flow path to flow into the third flow path and discharges it to the outside, and when a predetermined amount of water flows along the third flow path, the first Water in the passage may flow into the second passage.

On the other hand, a first flow path extending from a water source, a heater capable of heating water in the first flow path, a second flow path and a third flow path branching from the first flow path, and water in the first flow path A valve capable of selectively flowing into one of the second flow path and the third flow path, a hydrant connected to the second flow path, and a preset time after the valve allows the water in the first flow path to flow into the third flow path. Including a timer provided in the valve to determine whether the time has elapsed, the valve causes the water in the first flow path to flow into the third flow path and discharges the water to the outside, and then a preset amount of water flows through the third flow path. When flowing along, the water in the first flow path may flow into the second flow path.

The water heater according to the present invention allows the water heated by the heater to be immediately supplied to the user when the temperature is higher than the preset temperature, and to be supplied to the user after being discharged to a certain extent to the outside when the temperature is lower than the preset temperature, so that the user can Water at the desired temperature can be properly supplied from the beginning.

At this time, the water that is not sufficiently heated by the heater is not directly discharged to the outside, but is discharged to the drain tank. As a result, when the height of the water contained in the drain tank exceeds a preset height, the pump discharges the water to the outside. According to this, the flow resistance of the passage for discharging water can be designed to be smaller, and the risk of burns due to the water passing through the heater being immediately discharged to the outside can be prevented.

1 is a schematic diagram of a water heater according to an embodiment of the present invention.
2 is a perspective view showing a part of a water heater according to an embodiment of the present invention.
3 is a flowchart illustrating an operating method of a valve of a water heater according to an embodiment of the present invention.
4 is a flowchart illustrating another operation method of a valve of a water heater according to an embodiment of the present invention.

A water heater 10 according to an embodiment of the present invention will be described in detail with reference to the drawings.

1 is a schematic diagram of a water heater 10 according to an embodiment of the present invention. 2 is a perspective view showing a part of the water heater 10 according to an embodiment of the present invention, showing the heater 12, the valve 16 and the drain tank 18 side.

1 and 2, the water heater 10 includes a first flow path 11, a heater 12, a water temperature sensor 13, a second flow path 14, a third flow path 15, a valve 16, and a water supply valve. (17), a drain tank (18) and a pump (19).

The first flow path 11 extends from a water source where water to be supplied to the user is located. Here, the water source is, for example, a water storage tank in which water that has undergone a water purification process is stored, and may be provided inside the water heater 10 or separately provided outside the water heater 10 .

The heater 12 is installed on the first flow path 11 and serves to heat the water. Therefore, the water of the water source can be instantaneously heated by the heater 12 while flowing along the first flow path 11 .

The heater 12 may be made of, for example, a ceramic heater.

The water temperature sensor 13 serves to measure the temperature of the water heated by the heater 12 . To this end, the water temperature sensor 13 may be installed adjacent to the heater 12 on the first flow path 11 and downstream of the heater 12 .

The second flow path 14 and the third flow path 15 branch from the first flow path 11 , respectively. That is, the first flow path 11 , the second flow path 14 , and the third flow path 15 are connected in an approximate T to Y shape.

The valve 16 is installed at the branch point of the second flow path 14 and the third flow path 15, so that the water in the first flow path 11 is selectively transferred to either the second flow path 14 or the third flow path 15. plays a role in mobilizing In other words, according to the operation of the valve 16, only the second flow path 14 is opened and the third flow path 15 is closed, so that water in the first flow path 11 may flow to the second flow path 14, and the third flow path 15 may flow. Since the second flow path 14 is closed and only the third flow path 15 is open, water in the first flow path 11 may flow into the third flow path 15 .

The conditions under which the valve 16 causes the water in the first flow path 11 to flow into the second flow path 14 or the third flow path 15 will be described later.

The water supply hydrant 17 is connected to the second flow path 14 . Therefore, when the valve 16 causes the water in the first flow path 11 to flow into the second flow path 14, the water heated by the heater 12 can be supplied to the user through the hydrant 17.

Since the specific structure of the hydrant 17 is well known, a description thereof will be omitted.

The drain tank 18 receives water discharged from the third flow path 15 when the valve 16 causes the water in the first flow path 11 to flow into the third flow path 15 .

The pump 19 serves to discharge the water contained in the drain tank 18 to the outside when necessary.

However, if the water contained in the drain tank 18 can be released to the outside, a pipe (not shown) is coupled to the lower part of the drain tank 18 and a separate valve (not shown) opens and closes the pipe when necessary. Other means may also be employed. Hereinafter, for convenience of understanding and description, the corresponding means will be collectively referred to as a pump.

Based on the configuration of the water heater 10 described above, the operation method of the valve 16 and the pump 19 will be described.

First, the operation method of the valve 16 will be described.

3 is a flow chart of one operation method of the valve 16 of the water heater 10 according to an embodiment of the present invention.

Referring to FIG. 3 , when the hydrant 17 is operated by a user's manipulation (S11), water from the water source flows along the first flow path 11, and the heater 12 starts to operate (S12). Therefore, the water in the first flow path 11 will be instantaneously heated by the heater 12 .

However, water passing through the heater 12 may not be sufficiently heated from immediately after the heater 12 starts to operate until it reaches a steady state.

Therefore, the valve 16 allows the water in the first flow path 11 to flow into the third flow path 15 when the temperature of the water measured by the water temperature sensor 13 is less than a preset temperature (eg, about 60° C.) (S13 ). Accordingly, water that has not yet been sufficiently heated is discharged to the drain tank 18 along the third flow path 15 instead of being supplied to the user through the hydrant 17 as it is.

Thereafter, when the heater 12 reaches a steady state and the temperature of the water measured by the water temperature sensor 13 exceeds a preset temperature, the water in the first flow path 11 flows into the second flow path 14 (S14 ). Therefore, sufficiently heated water can now be supplied to the user through the hydrant 17.

Of course, if the temperature of the water measured by the water temperature sensor 13 when the heater 12 starts to operate is already higher than the preset temperature, it is immediately without going through the step of being discharged to the drain tank 18 along the third flow path 15. It flows into the second flow path 14 (S14).

4 is a flowchart of another operation method of the valve 16 of the water heater 10 according to an embodiment of the present invention.

Referring to FIG. 4, compared to the operation method of the valve 16 described above with reference to FIG. 3, the step of determining whether there is an abnormality in discharging the water contained in the drain tank 18 to the outside (S21) and the valve (16) further comprising a step (S22) of determining whether a preset amount of water flows along the third flow path 15 after the water in the first flow path 11 flows into the third flow path 15 There is a difference.

Other details are substantially the same, and even if there are some differences, this is only a degree that a person skilled in the art would naturally expect to be modified in response to the difference, and thus a description thereof will be omitted.

More specifically, when the water supply hydrant 17 is operated by a user's manipulation, before determining whether the temperature of the water measured by the water temperature sensor 13 is equal to or higher than a preset temperature, the water contained in the drain tank 18 is discharged to the outside. It is determined whether there is an abnormality in emission (S21). This can be determined through whether outputs of related parts such as sensors provided in the pump 19 or the drain tank 18 are within a normal range.

If there is nothing wrong with this, it is determined whether the temperature of the water measured by the water temperature sensor 13 is equal to or higher than the preset temperature, and as described above, the water in the first flow path 11 flows through the second flow path 14 and the third flow path 15. ) to any one of them.

On the other hand, if there is any abnormality, the water in the first flow path 11 flows into the second flow path 14 regardless of the water temperature measured by the water temperature sensor 13 . Furthermore, the user may be notified of more than that.

On the other hand, when the temperature of the water measured by the water temperature sensor 13 is lower than the preset temperature, and the water in the first channel 11 flows into the third channel 15, then the preset amount (for example, about 30 cc) ) It is determined whether the water flows along the third flow path 15 (S22). This may be directly determined through the amount of water measured by a flow sensor (not shown) installed on the third flow path 15 . Alternatively, a timer (not shown) may be provided in the valve 16 to determine whether a preset time has elapsed after the valve 16 allows the water in the first flow path 11 to flow into the third flow path 15. There will be.

Accordingly, when a predetermined amount of water flows along the third flow path 15, it is treated as that the heater 12 has reached a steady state in the meantime, and the water in the first flow path 11 flows through the second flow path 14. make it fluid Therefore, only sufficiently heated water can be supplied to the user through the hydrant 17.

Next, the operation method of the pump 19 will be described.

As the operation method of the valve 16 described above proceeds repeatedly, that is, as the water in the first flow path 11 is repeatedly discharged little by little from the third flow path 15, the height of the water contained in the drain tank 18 gradually rises. will be.

Accordingly, a water level sensor (not shown) is provided in the drainage tank 18, and when the height of the water sensed by the water level sensor exceeds a preset level, the pump 19 is operated to discharge the water to the outside.

According to this, compared to the case where the third flow path 15 is extended to the outside and the water in the first flow path 11 is directly discharged to the outside along the third flow path 15, the third flow path 15 is relatively short. Not only can it be formed, but also the degree of freedom in the design of the overall shape of the third passage 15 can be improved. Accordingly, the flow resistance of the third flow path 15 can be easily designed to be smaller by a method such as forming the third flow path 15 linearly.

Furthermore, the third flow path 15 is connected to the upper part of the drain tank 18, and the preset height may be lower than the point at which the third flow path 15 is connected. According to this, the end of the third passage 15 is always exposed without being immersed in the water contained in the drain tank 18, so that the pressure at the end side can be maintained at atmospheric pressure.

Due to these circumstances, water in the first flow path 11 can be more smoothly discharged along the third flow path 15 .

Moreover, even if the water is not sufficiently heated compared to the user's desired level, since the absolute temperature itself is still high, there may be a burn or other safety hazard if the water is immediately discharged to the outside.

However, once discharged to the drain tank 18 as described above, the above risk can be prevented because the water can be discharged to the outside in a state where the temperature of the water is somewhat lowered while remaining temporarily until the height of the water reaches a preset height or higher.

In order to further ensure this effect, a water temperature sensor (not shown) for measuring the temperature of the water contained in the drain tank 18 is further provided so that the temperature of the water measured by the water temperature sensor is set at a preset temperature (ie, no risk of burns). temperature), the pump 19 may be operated to discharge the water to the outside.

The embodiments of the present invention described above and shown in the drawings do not limit the technical idea of the present invention. The protection scope of the present invention is determined by the matters described in the claims. On the other hand, those skilled in the art will be able to variously improve or change the technical spirit of the present invention. Such improvement or change falls within the protection scope of the present invention as long as it is obvious to a person skilled in the art.

Claims (3)

a first flow path extending from the water source;
A heater capable of heating water in the first flow path;
A second flow path and a third flow path diverging from the first flow path;
A valve that allows the water in the first flow path to selectively flow to one of the second flow path and the third flow path;
A hydrant connected to the second flow path;
Further comprising a water temperature sensor for measuring the temperature of the water heated by the heater,
The valve allows the water in the first flow path to flow into the second flow path when the temperature of the water measured by the water temperature sensor is equal to or higher than a preset temperature, and allows the water in the first flow path to flow into the third channel when the temperature is lower than the preset temperature. A water heater that flows through a flow path and discharges it to the outside. a first flow path extending from the water source;
A heater capable of heating water in the first flow path;
A second flow path and a third flow path diverging from the first flow path;
A valve that allows the water in the first flow path to selectively flow to one of the second flow path and the third flow path;
A hydrant connected to the second flow path;
Further comprising a flow sensor installed on the third flow path to determine whether a preset amount of water has flowed along the third flow path,
The valve allows the water in the first flow path to flow into the third flow path and discharges it to the outside, and when a preset amount of water flows along the third flow path, the water in the first flow path flows into the second flow path. A water heater that makes it fluid. a first flow path extending from the water source;
A heater capable of heating water in the first flow path;
A second flow path and a third flow path diverging from the first flow path;
A valve that allows the water in the first flow path to selectively flow to one of the second flow path and the third flow path;
A hydrant connected to the second flow path;
Including a timer provided in the valve to determine whether a preset time has elapsed after the valve allows the water in the first flow path to flow into the third flow path,
The valve allows the water in the first flow path to flow into the third flow path and discharges it to the outside, and when a preset amount of water flows along the third flow path, the water in the first flow path flows into the second flow path. A water heater that makes it fluid.

Images