KR20220117988A - water heater - Google Patents

Abstract

The present invention relates to a water heater in which a cold water inlet pipe, through which cold water is introduced from the outside, is installed at the lower inside of a hot water tank in which hot water is stored, and a discharge device connected to a discharge pipe having a water outlet is operated at the upper inside of the hot water tank, thereby allowing hot water from the hot water tank to be discharged to the outside. The water heater includes: a first temperature sensor which is installed adjacent to a water outlet installed inside a hot water tank; a heater which heats cold water introduced from a cold water inlet pipe; a second temperature sensor which is installed below the first temperature sensor; and a controller which heats the heater if a detection temperature (T1) of the first temperature sensor is equal to or below a preset discharge temperature, or even when the detection temperature (T1) of the first temperature sensor exceeds the preset discharge temperature, if the temperature (T2) of the second temperature sensor is equal to or below a second set temperature (t2).

Description

hot water heater

The present invention relates to a hot water drinker for reducing the temperature difference between upper and lower portions of the hot water stored in the hot water tank of the hot water water dispenser so that the hot water of the hot water tank can be used in large quantities.

The hot water drinker is a device that allows the user to use hot water by discharging the hot water stored in the hot water tank to the outside by operating the discharge device.

1 is a structural cross-sectional view for explaining the structure of a conventional hot water drinker.

In the conventional hot water dispenser, as shown in FIG. 1 , the hot water stored in the hot water tank 11 is heated by a heater 17 having a heating unit installed adjacent to the bottom of the hot water tank 11 , and the hot water tank 11 . Manipulate the discharge device 27 provided with the water outlet pipe 26 having the water outlet 25 installed adjacent to the upper surface of the to discharge the hot water to the outside.

In addition, in the conventional hot water drinker, a cold water inlet pipe 20 having an outlet 21 is installed between the heater 17 and the bottom surface of the hot water tank 11, and the amount of water flowing into the cold water inlet pipe 20 is controlled by the controller ( It is controlled by a solenoid valve 19 controlled by a (not shown).

In addition, in the conventional hot water drinker, the first temperature sensor 23 is installed adjacent to the water outlet 25, and the temperature detected by the first temperature sensor 23 is displayed on a temperature display unit (not shown) installed on the outer surface of the case of the hot water drinker. The water level sensor 13 measures that the hot water is reduced as the user operates the discharge device to discharge the hot water and uses it, so that the hot water is discharged from the discharge device 27 when it is in the temperature range preset in the controller. Therefore, the controller opens the solenoid valve 19 to replenish the reduced hot water.

The conventional hot water drinker configured as described above receives cold water from the lower part of the hot water container 11 and heats it with the heater 17 , and the heated hot water moves to the upper part and is discharged from the upper part through the water outlet 25 . If the hot water in the hot water tank 11 is fully charged, the capacity is 12 liters (L), and if the allowable range of the hot water discharge temperature is preset to 89℃ ~ 91℃, the hot water discharge rate (ΔL/Δt) However, when using a hot water dispenser in a business such as a restaurant, many customers do not suddenly come at once, but 2, 4, 5, etc. come sequentially and use the hot water, so the hot water within the range of use is gradually increased , the cold water moves to the upper part in a state where the cold water is not heated yet, and eventually the temperature of the hot water detected by the first temperature sensor 23 falls below the set temperature, and there is a problem of having to wait until the preset temperature is reached. will occur

2 is a configuration diagram for explaining the problems of the prior art.

The state of FIG. 2 (a) means that the temperature of the hot water stored in the hot water tank 11 is equal to or higher than the first preset temperature t1 from the upper part to the lower part, and the state of (b) is the discharge device 27 ), hot water is discharged from the water outlet 25, and cold water is gradually introduced from the water inlet pipe, so that cold water is introduced to the adjacent part of the heater heating element, but when the heater heating element does not generate heat, the cold water moves upward. Since the hot water does not move downward, the cold water stays in the lower part of the hot water container 11 and the hot water stays in the upper part of the hot water container 11 so that the first temperature sensor 23 detects a temperature above the first set temperature. and the heater does not operate in this state. As hot water is used in the state of (b), it becomes the state of (c). The state of (c) is a state in which more cold water is introduced by discharging more hot water in the hot water container 11 in the state of (b), but the detection temperature of the first temperature sensor 23 still detects a temperature above the first set temperature. and the heater does not operate even in this state. However, when hot water is discharged from the state of (c) to reach the state of (d), the first temperature sensor 23 detects a temperature lower than the first set temperature, and the heater is finally operated to heat the heating element. , it is necessary to heat a large amount of cold water, and the cold water heated in the cold water heating process moves upward, and the hot water remaining in the upper part and the cold water moving upward are disturbed, and the first temperature sensor 23 is set for a long time. It senses a temperature lower than the temperature.

As described above, the hot water drinker of the conventional configuration has a problem in that the heater is operated only after a large amount of hot water is discharged from the hot water tank, so that the standby time during heating the heater is prolonged, which causes inconvenience in use.

In order to solve this problem, a method of controlling the number of heaters in a specific temperature range by installing a plurality of heaters and a plurality of temperature sensors as in Patent 10-1160795 (Title of the invention: power-saving automatic control electric water heater) has been devised, but this It can be used as heating water circulating the heating pipe or used as a device for supplying hot water for daily life, but an outlet pipe 26 having an outlet 25 adjacent to the upper surface of the hot water tank 11 in order to discharge hot water. ) is not suitable for use as a device for a hot water drinker for supplying drinking water to be installed, but it is accompanied by a problem in that the device becomes large and expensive.

The present invention has been devised in consideration of the problems of the prior art, and the solution of the present invention is to make the temperature difference between the upper and lower parts of the hot water tank small while miniaturizing the device, thereby allowing the user to continuously discharge water from the hot water tank. This is to eliminate or minimize the waiting time due to heater heating by heating by introducing cold water as much as the discharged amount even in the case of heating.

A solution for solving the above problem is a cold water inlet pipe through which cold water is introduced from the outside is installed at an inner lower part of a hot water tub in which hot water is stored, and an outlet pipe having an outlet in an inner upper part of the hot water tub and a discharge connected to the outlet pipe In the hot water water dispenser for discharging the hot water of the hot water tub to the outside by operating a device, comprising: a first temperature sensor installed adjacent to the water outlet installed in the hot water tub; a heater for heating the cold water introduced from the cold water inlet pipe; a second temperature sensor installed under the first temperature sensor; The temperature T2 of the second temperature sensor even when the detection temperature T1 of the first temperature sensor is less than or equal to a preset discharge temperature, or when the detection temperature T1 of the first temperature sensor exceeds the predetermined exhaust temperature When is less than the second set temperature (t2) will include a controller for heating the heater.

In addition, in the present invention, the heating body of the heater is installed above the cold water inlet pipe, and a separator is installed between the cold water inlet pipe and the heating body of the heater so that the cold water introduced from the cold water inlet pipe is gradually mixed with the hot water. It is preferable to be

In addition, in the present invention, the second temperature sensor is preferably installed on the upper portion of the separation plate.

In addition, in the present invention, a cold water inlet pipe through which cold water is introduced from the outside is installed at the lower inner side of the hot water tank storing hot water, and an outlet pipe having an outlet port on the inner upper part of the hot water tank and a discharge device connected to the outlet pipe are operated to operate the hot water A hot water water dispenser for discharging hot water from a tank to the outside, comprising: a first temperature sensor installed adjacent to the water outlet installed in the inside of the hot water tank; a heater for heating the cold water introduced through the cold water inlet pipe; a second temperature sensor installed in the hot water tub and installed below the first temperature sensor; It is preferable to include a controller for operating the heater when the temperature difference between the detected temperature T1 of the first temperature sensor and the detected temperature T2 of the second temperature sensor is equal to or greater than a preset ΔT value.

According to the present invention having the above problems and means, by using the hot water stored in the hot water tank, when cold water flows into the lower part of the hot water tank, the introduced water is heated in real time to minimize the temperature difference between the upper and lower parts of the hot water tank. By minimizing the temperature difference between the upper and lower parts of the interior, the waiting time according to the use of hot water can be minimized and the amount of hot water used can be maximized.

1 is a structural cross-sectional view for explaining the structure of a conventional hot water drinker. 2 is a cross-sectional configuration diagram for explaining the overall configuration of the present invention. 3 is a block diagram of a controller for performing the control operation of the present invention. 4 is a flowchart for operating the heater in the heater driving discrimination module in the present invention.

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

Figure 3 is a cross-sectional configuration diagram for explaining the overall configuration of the present invention, Figure 4 is a block diagram of a controller for performing the control operation of the present invention.

The hot water drinker 100 of the present invention is an improved and developed hot water drinker of the prior art shown in FIG. 1 , and the same components as those in FIG. 1 are denoted by the same reference numerals, and detailed descriptions thereof will be omitted.

The hot water drinker 100 of the present invention is suitable for a small device used for a user to drink hot water rather than a large device supplied for floor heating. A water outlet pipe having an outlet port of the discharge device is installed inside the hot water tank to discharge the water from It is preferable that the heating element is installed.

The hot water tank 11 of the hot water dispenser 100 was experimentally manufactured to be 210 × 155 × 455 (mm) (width × length × height), but it is not limited thereto and may be manufactured differently depending on various needs such as the installation location. .

A cold water inlet pipe 20 is installed in the hot water tub 11 and its outlet 21 is installed 20 mm above the bottom surface of the hot water tub 11, and at the upper portion of the outlet 21 of the cold water inlet pipe 20 The separating plate 30 is installed horizontally.

The separation plate 30 is a plate with a plurality of through-holes formed in the plate, and when cold water comes in from the cold water inlet pipe 20, the cold water rapidly rises upward to prevent rotting with the hot water at the top. The outlet of the cold water inlet pipe 20 It is preferable to be installed between the (21) and the heater (17).

At this time, the separation plate 30 is installed at 50 mm from the bottom surface of the hot water tank 30 .

In addition, the heater 17 is made of a flat plate-shaped heating element at the bottom and a support rod that supports it and has an electric supply line installed therein, and the heating is made centered on the heating element, and the heating element is preferably located at 70 mm from the floor.

In addition, a second temperature sensor 15 is installed at an upper portion of 60 mm of the heating element of the heater 17 to measure the temperature of water in the lower portion of the hot water tank 11 .

The height of the second temperature sensor 15 is installed on the lower side of the first temperature sensor 23 to sense the temperature of the cold water in the lower inner side of the hot water tub 11 so that the controller 50 to be described later operates the heater 17 . By increasing the height of the second temperature sensor 15, the heater 17 is heated when a lot of cold water flows in, and when the height is lowered, the heater 17 is heated even when a small amount of cold water flows in. do.

At this time, the heater 17 may have various forms such as a heating element installed long downward from the top inside the hot water tub, or a heating element configured to be installed in a lower portion of the inside of the hot water tub, but effectively heats cold water and heated cold water, that is, It is assumed that the heating element is installed in the lower part of the hot water tank so that the hot water is moved to the upper part.

In addition, the hot water tub 11 is provided with a discharge device 27 connected to the water outlet pipe 26 having an outlet 25 on the inner upper portion of the hot water tub, so that the user operates the discharging device 27 to remove the hot water from the hot water tub. is discharged to the outside.

In addition, a first temperature sensor 23 is installed at a height of 255 mm from the bottom surface of the hot water tank 11 adjacent to the water outlet 25 to detect the temperature of the hot water being discharged, and the detected temperature is the temperature installed on the outer surface of the hot water tank. displayed on the display unit 60 .

In addition, a water level sensor 13 is installed between the first temperature sensor 23 and the upper surface of the hot water tub to supply cold water as water is discharged by the discharge device 27 to maintain a constant water level.

The present invention shown in FIG. 3 maintains a constant water level in the hot water tank 11 by opening and closing a valve (not shown) using an electronic water level measuring sensor 13, but the water level using a stainless steel ball-top (float type) method. can be kept constant.

The hot water drinker 100 of the present invention is a controller that minimizes the temperature difference between the upper and lower sides of the hot water tank 11 by driving the heater 17 according to the temperature detected by the first temperature sensor 23 and the second temperature sensor 15 . (50) is provided.

The controller 50 controls the water level measuring sensor 13, the solenoid valve driving unit 191, the heater 17, the first temperature sensor 23, the second temperature sensor 15, and the temperature display unit 60, which are connected control objects. Or, an algorithm that receives and calculates an input signal and detects the temperature signal of the control module 51 in charge of the O.S (Operating System), the first temperature sensor 23, and the second temperature sensor 15 and stored therein. a heater driving discrimination module 53 to drive the heater by is done

4 is a flowchart for operating the heater in the heater driving discrimination module in the present invention.

An input unit (not shown) is installed in the controller 50 of the present invention, and when a manufacturer or a user inputs the discharge temperature (t1) of the hot water of the hot water tank 11 through the input unit, the discharge temperature (t1) of the hot water is controlled by the control module ( 51) and stored in the heater driving discrimination module 53.

A preset allowable error temperature (Δt1) range is stored in the heater driving discrimination module 53, and the temperature (T1) detected by the first temperature sensor 23 is the allowable error temperature (Δ) based on the discharge temperature (t1). If it is within the t1) range, the hot water is discharged to the outside, and if the temperature is low outside the allowable error temperature (Δt1) range, the heater is operated (S1).

In step S1 of FIG. 5 , the heater driving discrimination module 23 operates the heater when the temperature T1 detected by the first temperature sensor 23 is equal to or less than the discharge temperature t1, but this is actually T1 When ≤ t1 - Δt1, it means that the heater is operated.

For example, if t1 = 90°C and Δt1 = ±2°C, when the detection temperature T1 of the first temperature sensor 23 = (t1-Δt1) = 90-2 = 88 or less is detected, the heater is will be activated

In addition, the heater driving discrimination module 23 detects the detection temperature T2 of the second temperature sensor 15 when the detection temperature T1 of the first temperature sensor 23 exceeds t1, and the detection temperature T2. When is less than the second preset temperature (t2) to operate the heater (S2), the detection temperature (T1) of the first temperature sensor 23 and the detection temperature (T2) of the second temperature sensor 15 Let the temperature difference (ΔT) be reduced.

In addition, the heater driving discrimination module 23 causes the temperature difference ΔT between the detection temperature T1 of the first temperature sensor 23 and the detection temperature T2 of the second temperature sensor 15 to be greater than or equal to a preset temperature difference. It can be designed to drive the heater (17).

In the present invention, even when the temperature T1 of the first temperature sensor 23 exceeds the discharge temperature, the temperature T2 of the second temperature sensor 15 is equal to or less than the second set temperature t2. According to the use of hot water by minimizing the temperature difference between the upper and lower parts of the hot water container 11 by heating the cold water in the lower part of the hot water container 11 by operating the heater, which corresponds to the case where cold water is introduced into the lower part of (11). This will prevent waiting times from occurring.

11: hot water tank 13: water level sensor 15: second temperature sensor 17: heater 20: cold water inlet pipe 21: outlet 23: first temperature sensor 27: ejection device 30: separator plate 50: controller 100: hot water drinker

Claims (4)

A cold water inlet pipe through which cold water is introduced from the outside is installed at the lower inner side of the hot water tub in which the hot water is stored, and an outlet pipe having an outlet at the inner upper part of the hot water tub and a discharge device connected to the outlet pipe are operated, so that the hot water in the hot water tub is operated. For the hot water dispenser that is discharged to the outside: a first temperature sensor installed adjacent to the water outlet installed in the hot water tank; a heater for heating the cold water introduced from the cold water inlet pipe; a second temperature sensor installed under the first temperature sensor; The temperature T2 of the second temperature sensor even when the detection temperature T1 of the first temperature sensor is less than or equal to a preset discharge temperature, or when the detection temperature T1 of the first temperature sensor exceeds the predetermined exhaust temperature. When is less than the second set temperature (t2), the hot water water dispenser, characterized in that it comprises a controller for heating the heater. The method according to claim 1, The heating body of the heater is installed on the upper portion of the cold water inlet pipe, between the cold water inlet pipe and the heating body of the heater, a separating plate for allowing the cold water introduced from the cold water inlet pipe to be gradually mixed with the hot water. Hot water water dispenser, characterized in that installed. The hot water water dispenser according to claim 2, wherein the second temperature sensor is installed on the upper part of the separation plate. A cold water inlet pipe through which cold water is introduced from the outside is installed at the lower inner side of the hot water tub in which the hot water is stored, and an outlet pipe having an outlet at the inner upper part of the hot water tub and a discharge device connected to the outlet pipe are operated, so that the hot water in the hot water tub is operated. For the hot water dispenser that is discharged to the outside: a first temperature sensor installed adjacent to the water outlet installed in the hot water tank; a heater for heating the cold water introduced through the cold water inlet pipe; A second temperature sensor installed inside the hot water tub and installed below the first temperature sensor; The temperature difference between the detection temperature T1 of the first temperature sensor and the detection temperature T2 of the second temperature sensor Hot water drinker comprising a controller for operating the heater when the set ΔT value or more.

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