KR20230055770A - Hot water heater and clothes cleaning apparatus having the same - Google Patents

Abstract

The present invention relates to a hot water heater and a clothes cleaning apparatus having the same, and more specifically, to a hot water heater and a clothes cleaning apparatus having the same, wherein the hot water heater comprises a first temperature sensor installed at a height corresponding to the upper part of a heating unit so as to detect the temperature of liquid when the upper part of the heating unit is immersed in the liquid and to detect the temperature of gas when the upper part of the heating unit is exposed, and a control unit determines whether the upper part of the heating unit is immersed in the liquid or exposed to gas based on the temperature information detected by the first temperature sensor, thereby minimizing the exposure of the heating unit from the liquid and improving the safety in use of the hot water heater, and further eliminating the installation of a separate water level sensor to improve the economic efficiency.

Description

Hot water heater and clothes cleaner having the same {HOT WATER HEATER AND CLOTHES CLEANING APPARATUS HAVING THE SAME}

The present invention relates to a hot water heater and a clothes cleaner having the same, and more specifically, to sense the temperature of a liquid when the upper part of the heating part is immersed in a liquid, and to sense the temperature of a gas when the upper part of the heating part is exposed. A first temperature sensor installed at a height corresponding to the top of the unit, and the control unit determining whether the top of the heating unit is immersed in liquid or exposed to gas based on the temperature information sensed from the first temperature sensor, The present invention relates to a hot water type heater capable of minimizing exposure of a heating element from a hot water type heater to improve safety in use of a hot water type heater and improving economic feasibility by omitting the installation of a separate water level sensor, and to a clothes cleaner having the same.

In general, a clothes freshener is configured to supply moist air containing moisture into a treatment area where clothes are placed to remove substances attached to clothes, or to dry wet clothes by spraying dry air. In the case of such a clothes cleaner, a separate humidifier capable of supplying wet air, such as a hot water heater, is provided in the machine room side to provide moisture to clothes, and then supplying high-temperature dry air heated by a heat pump, etc. By inducing evaporation of moisture, contaminants or odorous substances deposited on clothes can be discharged to the outside. In this case, the heating element may be installed inside the hot water heater in a state of being immersed in water, and in this case, as the water level changes moment by moment, the heating element may be exposed to the upper part of the water surface at a specific time point. When the heating element is exposed in this way, overheating of the heating element may occur. In order to prevent this, a separate water level sensor for detecting the water level is generally installed inside the hot water type heater.

In the case of the ceramic heater provided in the agricultural electric boiler disclosed in Korean Patent Publication No. 2021-0058071 of John Infinity Co., Ltd., a separate water level sensor is provided in addition to the temperature sensor, and the ceramic heater is located below the water level measured by the water level sensor. By controlling the heater to be driven only, the ceramic heater located on the top of the water is driven without contacting the water and is prevented from being damaged or damaged due to deterioration. In the case of the ceramic heater of the above method, there is an advantage in effectively preparing for damage to the ceramic heater, but a water level sensor must be installed separately in addition to the temperature sensor for measuring the water temperature inside the heater, resulting in increased cost and manufacturing There was a problem of complicating the process.

The steamer disclosed in Korean Registered Patent Publication No. 2141078 of Shinwoo M-Tech Co., Ltd. is a standard water level sensor that detects whether the water level of the steam tank is the standard water level in addition to the water temperature sensor that detects the water temperature of the steam tank, and the water level of the steam tank is the standard water level It discloses controlling a heater and water supply based on information detected by the water temperature sensor, the standard water level sensor, and the dangerous water level sensor, including a dangerous water level sensor that detects whether or not the dangerous water level is higher than the set water level. Specifically, the steamer of Shinwoo Mtech described above detects the water level by a float method in which the float moves up and down according to the change in water level, and the magnet inside the float operates the switch inside the sensor to generate a contact signal according to the change in water level. Initiating what to do However, in the case of the float type water level sensor, as the magnet is moved by buoyancy, mechanical failure is likely to occur, and thus it is difficult to ensure reliability of water level measurement.

Korean Patent Publication No. 2021-0058071 Korean Registered Patent Publication No. 2141078

In order to solve the above problem, the hot water heater according to the present invention is located on the top of the heating part to sense the temperature of the liquid when the top of the heating part is immersed in the liquid and to sense the temperature of the gas when the top of the heating part is exposed. A first temperature sensor installed at a corresponding height is provided, and the control unit determines whether the top of the heating unit is immersed in a liquid or exposed to a gas based on the temperature information sensed from the first temperature sensor, so that the heating unit is removed from the liquid. The purpose is to minimize exposure to improve the safety of using a hot water heater and to improve economic feasibility by omitting the installation of a separate water level sensor.

In the hot water heater according to an embodiment of the present invention, an outlet through which liquid is discharged is formed at a predetermined height inside the accommodation space to limit the rise of the water level to a predetermined height or less when supplying water to the water supply unit, and the first temperature sensor is located below the outlet. Its purpose is to maintain the water level inside the hot water heater to always be below the target water level.

The hot water heater according to an embodiment of the present invention further includes a second temperature sensor installed below the first temperature sensor to prepare for a malfunction of the first temperature sensor and compare the temperature collected by the first temperature sensor. The purpose is to additionally collect the reference temperature.

The hot water heater according to an embodiment of the present invention further includes a bimetal that is thermally deformed to cut off current supplied to the heating unit when the heating unit is overheated at a predetermined temperature or higher, thereby further improving the safety of the hot water heater. The purpose.

In the hot water heater according to an embodiment of the present invention, when the control unit determines that the water level in the accommodation space is equal to or less than the installation height of the first temperature sensor, the controller controls to supply liquid to the accommodation space through the water supply unit, thereby overheating due to exposure of the heating unit. It is an object of the present invention to improve the durability and safety of a hot water heater by preventing

In the hot water heater according to an embodiment of the present invention, when the control unit determines that the water level in the accommodation space is equal to or less than the installation height of the second temperature sensor, the control unit stops the operation of the heating unit so that the first temperature sensor or the water supply unit malfunctions, etc. It aims to respond effectively in the event of an emergency.

In the hot water heater according to an embodiment of the present invention, the control unit determines the water level in the accommodation space based on the difference between the first temperature information and the second temperature information received from the first temperature sensor and the second temperature sensor, respectively, thereby generating heat. The purpose is to improve the accuracy of determining whether the part is immersed or exposed.

An object of the hot water heater according to an embodiment of the present invention is to improve the accuracy of determining whether the heating part is immersed or exposed by determining the water level based on the temperature change rate per unit time by the control unit.

A clothes cleaner according to the present invention includes a housing portion in which a processing space in which clothes are placed is formed, and a hot water heater for supplying steam to the inside of the housing portion. A first temperature sensor installed at a height corresponding to the top of the heating unit to sense the temperature and detect the temperature of the gas when the top of the heating unit is exposed, and the heating unit is immersed based on the temperature information detected from the first temperature sensor. Alternatively, by determining whether or not to be exposed, the object of the present invention is to minimize the exposure of the heating element from the liquid to improve the safety in use of the clothes cleaner.

In order to achieve the above object, a hot water heater according to the present invention includes a housing having an accommodation space for accommodating liquid therein, a water supply unit communicating with the housing and supplying the liquid to the accommodation space, and installed in the accommodation space. A heating unit at least partially immersed in the liquid to heat the liquid, when the upper portion of the heating unit is immersed in the liquid, the temperature of the liquid is sensed, and when the upper portion of the heating unit is exposed, within the accommodation space. A first temperature sensor installed at a height corresponding to the upper portion of the heating unit to detect the temperature of the gas located thereon, and the upper portion of the heating unit based on the temperature information sensed from the first temperature sensor by the liquid It is characterized in that it includes a control unit for determining whether it is immersed or exposed to the gas, and controlling the water supply unit and the heating unit according to the determination result.

In the hot water heater according to an embodiment of the present invention, an outlet through which the liquid is discharged is formed at the predetermined height inside the accommodation space to limit the rise of the water level to a predetermined height or less when supplying water to the water supply unit, The first temperature sensor is characterized in that it is installed below the outlet.

The hot water heater according to an embodiment of the present invention may further include a second temperature sensor installed below the first temperature sensor.

The hot water heater according to an embodiment of the present invention may further include a bimetal that is thermally deformed to cut off current supplied to the heating unit when the heating unit is overheated at a predetermined temperature or higher.

In the hot water heater according to an embodiment of the present invention, the control unit controls the water supply unit to supply the liquid to the accommodation space when it is determined that the water level is equal to or less than the installation height of the first temperature sensor. do.

The hot water heater according to an embodiment of the present invention further includes a second temperature sensor installed below the first temperature sensor, and the control unit determines that the water level is equal to or less than the installation height of the second temperature sensor. , It is characterized in that the control to stop the operation of the heating unit.

The hot water heater according to an embodiment of the present invention further includes a second temperature sensor installed below the first temperature sensor, wherein the control unit receives the first temperature sensor and the second temperature sensor, respectively. It is characterized in that the water level is determined based on a difference between first temperature information and second temperature information.

In the hot water heater according to an embodiment of the present invention, the controller may determine the water level based on a temperature change rate per unit time.

A clothes cleaner according to the present invention includes a housing portion in which a processing space in which clothes are placed is formed, and a hot water heater for supplying steam to the inside of the housing portion, wherein the hot water heater has an accommodation space in which liquid is accommodated. A housing having a housing, a water supply unit communicating with the housing and supplying the liquid to the accommodation space, a heating unit installed in the accommodation space and at least partially submerged by the liquid to heat the liquid, and an upper portion of the heating unit A first temperature installed at a height corresponding to the upper portion of the heating unit to detect the temperature of the liquid when immersed in the liquid and to detect the temperature of the gas located in the accommodation space when the upper portion of the heating unit is exposed. Based on the temperature information sensed by the sensor and the first temperature sensor, determining whether the upper portion of the heating unit is immersed in the liquid or exposed to the gas, and controlling the water supply unit and the heating unit according to the determination result It is characterized in that it includes a control unit.

According to the above configuration, the hot water heater according to the present invention detects the temperature of the liquid when the upper part of the heating part is immersed in the liquid, and senses the temperature of the gas when the upper part of the heating part is exposed, corresponding to the upper part of the heating part. A first temperature sensor installed at a height is provided, and the control unit determines whether the top of the heating unit is immersed in a liquid or exposed to a gas based on the temperature information detected by the first temperature sensor, thereby exposing the heating unit from the liquid. It provides the effect of improving the economy by omitting the installation of a separate water level sensor and improving the safety in use of the hot water heater by minimizing it.

In the hot water heater according to an embodiment of the present invention, an outlet through which liquid is discharged is formed at a predetermined height inside the accommodation space to limit the rise of the water level to a predetermined height or less when supplying water to the water supply unit, and the first temperature sensor is located below the outlet. It provides the effect of maintaining the water level inside the hot water heater to always be below the target water level.

The hot water heater according to an embodiment of the present invention further includes a second temperature sensor installed below the first temperature sensor to prepare for a malfunction of the first temperature sensor and compare the temperature collected by the first temperature sensor. It provides the effect of additionally collecting the standard temperature.

The hot water heater according to an embodiment of the present invention further includes a bimetal that is thermally deformed to cut off the current supplied to the heating unit when the heating unit is overheated at a predetermined temperature or higher, thereby further improving the safety of the hot water heater. provides

In the hot water heater according to an embodiment of the present invention, when the control unit determines that the water level in the accommodation space is equal to or less than the installation height of the first temperature sensor, the controller controls to supply liquid to the accommodation space through the water supply unit, thereby overheating due to exposure of the heating unit. It provides an effect of improving the durability and safety of the hot water heater by preventing

In the hot water heater according to an embodiment of the present invention, when the control unit determines that the water level in the accommodation space is equal to or less than the installation height of the second temperature sensor, the control unit stops the operation of the heating unit so that the first temperature sensor or the water supply unit malfunctions, etc. Provides an effective response effect in case of an emergency.

In the hot water heater according to an embodiment of the present invention, the control unit determines the water level in the accommodation space based on the difference between the first temperature information and the second temperature information received from the first temperature sensor and the second temperature sensor, respectively, thereby generating heat. It provides an effect of improving the accuracy of determining whether the part is immersed or exposed.

In the hot water heater according to an embodiment of the present invention, the control unit determines the water level based on the temperature change rate per unit time, thereby providing an effect of improving the accuracy of determining whether the heating unit is immersed or exposed.

A clothes cleaner according to the present invention includes a housing portion in which a processing space in which clothes are placed is formed, and a hot water heater for supplying steam to the inside of the housing portion. A first temperature sensor installed at a height corresponding to the top of the heating unit to sense the temperature and detect the temperature of the gas when the top of the heating unit is exposed, and the heating unit is immersed based on the temperature information detected from the first temperature sensor. Alternatively, by determining whether or not to expose, exposure of the heating element from the liquid is minimized, thereby providing an effect of improving safety in use of the clothes cleaner.

1 is a perspective view showing a clothes cleaner equipped with a hot water heater according to an embodiment of the present invention.
2 is a perspective view of a hot water type heater according to an embodiment of the present invention.
3 is an exploded perspective view of a hot water type heater according to an embodiment of the present invention.
4 and 5 are cross-sectional views showing different water levels in the accommodation space to explain the water level detection of the hot water heater according to an embodiment of the present invention.

Words and terms used in this specification and claims are not construed as limited in their ordinary or dictionary meanings, but in accordance with the principle that the inventors can define terms and concepts in order to best describe their inventions. It should be interpreted as a meaning and concept that corresponds to the technical idea.

Therefore, the embodiments described in this specification and the configurations shown in the drawings correspond to a preferred embodiment of the present invention, and do not represent all the technical ideas of the present invention, so that the corresponding configurations are various to replace them at the time of filing of the present invention. There may be equivalents and variations.

In this specification, terms such as "include" or "have" are intended to describe the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, but one or more other features It should be understood that the presence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded.

A component being in the "front", "rear", "above" or "below" of another component means that it is in direct contact with another component, unless there are special circumstances, and is "in front", "rear", "above" or "below". It includes not only those disposed at the lower part, but also cases in which another component is disposed in the middle. In addition, the fact that certain components are “connected” to other components includes cases where they are not only directly connected to each other but also indirectly connected to each other unless there are special circumstances.

Hereinafter, a clothes cleaner according to an embodiment of the present invention will be described with reference to the drawings. 1 is a perspective view showing a clothes cleaner equipped with a hot water heater according to an embodiment of the present invention, FIG. 2 is a perspective view of a hot water heater according to an embodiment of the present invention, and FIG. It is an exploded perspective view of the hot water type heater according to the embodiment.

As shown in FIG. 1, the hot water heater 10 according to an embodiment of the present invention is a specific example, and includes a housing part 70 having a processing space 72 so that clothes can be disposed therein. In the clothes cleaner 100, in a state where the treatment space 72 is sealed by the cover 74, a liquid (eg, water) is heated and the humidified air generated through this is supplied to the treatment space 72 It is a humidifier for Through this, the clothes freshener 100 according to an embodiment of the present invention can remove contaminants or odorous substances from clothes by providing moisture to clothes, or remove wrinkles formed on clothes. At this time, the hot water heater 10 according to an embodiment of the present invention has a unique first temperature sensor 52 and a control unit instead of a known water level sensor to quickly detect the water level in the hot water heater 10 and supply water. Overheating of the heating unit 40 can be prevented by controlling the unit 30 and the heating unit 40, which will be described in detail. However, the application of the hot water heater 10 according to an embodiment of the present invention is not limited to the above-described clothes cleaner 100, and in addition to various devices for supplying steam by evaporating liquid, such as a humidifier, for example Note that it may apply to However, in the following description, it is assumed that the hot water heater 10 according to an embodiment of the present invention is applied to the clothing cleaner 100 for convenience.

Specifically, as shown in FIGS. 2 and 3 , the hot water heater 10 according to an embodiment of the present invention includes a housing 20 accommodating liquid therein, and supplying liquid to the housing 20. A first temperature installed at a height corresponding to the water supply unit 30 and the heating unit 40 installed in the accommodation space 22 and heating the liquid by being at least partially immersed in the liquid, and the upper part 42 of the heating unit It may include a sensor 52 and a control unit (not shown) that determines whether the top of the heating unit is immersed or exposed to gas based on the temperature information detected by the first temperature sensor 52 .

First, as shown in FIG. 2, the housing 20 forms the outer shape of the hot water heater 10, and an accommodation space 22 in which liquid can be accommodated may be formed. At this time, the housing 20 is a non-limiting example, as shown in FIG. 3, the accommodating part 26, the protective part 28 disposed outside the accommodating part 26, and the accommodating part 26 It may include a discharge portion 24 coupled to the top of. Here, the accommodating part 26 may have an accommodating space 22 with an open top so that a predetermined volume of liquid can be stored therein, and a heating part 40 to be described later inside the accommodating space 22. ) can be installed in a state immersed by liquid. Through this, the liquid is heated and evaporated by the heating unit 40, so that humidified air can be supplied to the processing space 72 of the clothes cleaner 100. On the other hand, as shown in the drawing, the protection part 28 is arranged to surround the outside of the accommodating part 26 containing the high-temperature liquid, so that the accommodating part 26 is in a stable position inside the clothes cleaner 100. It is possible to maintain, for example, it is possible to minimize the loss of heat from the liquid stored in the containing portion 26 is formed of a heat insulating material. And, as shown in FIG. 3, the discharge part 24 is formed in the form of having only the side wall portion so that the top and bottom are open, and can be coupled to the upper portion of the receiving part 26 by a coupling member such as a bolt, The humidified air evaporated from the accommodating unit 26 may be guided to move toward the processing space 72 . At this time, referring to FIG. 2 again, the discharge part 24 has one side of the above-mentioned accommodation part 26 when liquid above a certain level is supplied, the liquid raised from the accommodation part 26 is discharged from the outside of the housing 20. An outlet 25 may be formed so that it can flow out to. Through this, when liquid is supplied to the housing 20 side by the water supply unit 30 to be described later, the rise of the water level in the accommodation space 22 can be limited to a height below the installation height of the outlet 25. However, as described above, the housing 20 is formed to be separable into the receiving portion 26, the protecting portion 28, and the discharge portion 24, respectively, is only one embodiment, and according to the design, the receiving portion ( 26), some or all of the protection part 28 and the discharge part 24 may be integrally formed, in which case the receiving part 26, the protection part 28 and the discharge part 24 are integrated with the housing ( 20) may refer to a part of.

Next, the hot water heater 10 according to an embodiment of the present invention may include a water supply unit 30 for supplying liquid to the accommodation space 22 . At this time, the water supply unit 30 may be formed by including a hollow tube 34 so that liquid can flow therein and a water supply port 32 formed at an end of the tube 34, as shown in FIG. As such, it may be connected to one side of the housing 20 and communicate with the accommodation space 22 of the housing 20. On the other hand, the other end of the tube 34 of the water supply unit 30 may be connected to a storage tank (not shown) in which the liquid is stored, and at this time, the storage tank collects the liquid discharged through the outlet 25 and receives it again. By supplying the liquid to the space 22, the user's convenience can be improved by making it possible to omit the process of recovering the excessively supplied liquid in the accommodation space 22.

Meanwhile, the hot water heater 10 according to an embodiment of the present invention may include a heating unit 40 installed inside the accommodation space 22 . At this time, the heating unit 40 is formed of a known heater that includes a conductive material so that current can flow but has a resistance of a predetermined size or more, so that when current is supplied, it can generate heat itself. In one embodiment of the present invention, the heating unit 40 may be installed in a form immersed in a liquid as described above, and as a result, the heat generated by the heating unit 40 is used inside the accommodation space 22. As the liquid is heated above its boiling point, humidified air (steam) containing moisture may be moved to the upper side of the housing 20 and finally supplied to the processing space 72. At this time, as a non-limiting example, as shown in the drawing, the heating unit 40 may have a predetermined radius, and may be formed in a structure that is spirally wound as a whole and is wound multiple times, and uniformly heats the liquid inside the accommodation space 22. and may be disposed as a whole along the height direction of the accommodation space in order to improve the speed of heating. Accordingly, as the liquid evaporates, the upper part 42 of the heating part 40 may be exposed to the gas located above the water surface of the liquid. At this time, in the case of the exposed upper part 42, heat cannot be transferred to the liquid side, It may be heated to have a higher temperature than the immersed state. In this way, when the heating unit 40 is heated for a long time while being exposed to gas, the heating unit 40 may lead to fatigue failure due to repeated thermal stress. To prevent this, according to an embodiment of the present invention The hot water heater 10 can quickly detect whether the upper portion 42 of the heating unit is exposed to gas and supply liquid so that the heating unit 40 can be immersed again. This will be described in detail through the following description.

4 and 5 are cross-sectional views showing different water levels in the accommodation space in order to explain the water level detection of the hot water type heater according to an embodiment of the present invention.

The hot water heater 10 according to an embodiment of the present invention may include a temperature sensor unit 50 that senses the temperature of liquid or gas (vapor evaporated from liquid). First, it may include a first temperature sensor 52 installed at a height corresponding to the upper part 42 of the heating unit described above. Here, the upper part 42 of the heating part is a part that is distinguished from the middle part or the lower part based on the height direction of the heating part 40, and refers to a region adjacent to the uppermost part or the top part of the heating part 40. can At this time, the first temperature sensor 52 may be formed of a known temperature sensor such as a thermocouple, resistance thermometer (RTD) or thermistor, and as shown in FIG. 4, the height of the liquid surface When it is located above (HL), it comes into contact with the gas (vapor evaporated from the liquid) existing at the top of the liquid to sense the temperature of the gas. In contrast, as shown in FIG. When positioned at a lower level and immersed in the liquid, the temperature of the liquid can be sensed. That is, the first temperature sensor 52 may change the target of the fluid to be sensed according to the change in the liquid level. In other words, as described above, the first temperature sensor 52 is installed at a height corresponding to the upper part 42 of the heating part 40, depending on whether the upper part of the heating part is exposed from the liquid or immersed in the liquid. The temperature sensing object of the first temperature sensor 52 may be different. As such, the first temperature sensor 52 senses the temperature information of liquid or gas according to circumstances and provides first temperature information so that the control unit to be described later can determine whether the upper portion 42 of the heating unit is exposed to gas. can As such, the hot water heater 10 according to an embodiment of the present invention properly arranges the temperature sensor in the accommodation space 22 without installing a separate water level sensor so that the temperature sensor performs the function of the water level sensor, thereby controlling the water level. There is an effect of reducing costs and processes according to the introduction of the sensor.

Meanwhile, the temperature sensor unit 50 may further include a second temperature sensor 54 in addition to the first temperature sensor 52 . At this time, the second temperature sensor 54 may be formed as a known contact temperature sensor like the first temperature sensor 52, and as shown in FIGS. 4 and 5, the second temperature sensor 52 is lower than the first temperature sensor 52. It is installed in the controller to provide second temperature information. More specifically, the second temperature sensor 54 is installed at a position corresponding to the upper part of the heat generating unit 40, and unlike the first temperature sensor 52, which varies the detection target according to the change in the liquid level, the receiving space ( 22), it can be arranged so that it is always submerged by the liquid by being disposed sufficiently lower in the inside. Accordingly, the second temperature sensor 54 can always sense the temperature of the liquid, and thus, the second temperature information by the second temperature sensor 54 can mean the temperature of the liquid. The second temperature sensor 54 may provide reference temperature information when determining whether the above-described first temperature sensor 52 senses a liquid or a gas, and also the first temperature sensor 54 When a malfunction occurs in 52 and the liquid level is excessively lowered, it can function as an emergency temperature sensor to quickly detect it. However, it should be noted that the second temperature sensor 54 is not necessarily provided in the hot water heater 10 according to an embodiment of the present invention and may be omitted depending on the design.

The hot water heater 10 according to an embodiment of the present invention determines whether the heating unit 40 is exposed based on the temperature information transmitted from the temperature sensor unit 50 described above, and if the heating unit 40 is When the upper portion 42 is exposed to gas, a controller may be included to control the operation of the water supply unit 30 or the heating unit 40 to prevent fatigue failure of the heating unit. As a specific example, as shown in FIG. 4, when the upper part 42 of the heating part is located above the height of the liquid surface (HL) and exposed to gas, the height H1 corresponding to the upper part 42 of the heating part The first temperature sensor 52 installed in can detect the temperature of gas (steam). In this case, the detected temperature may be a high temperature equal to or higher than the boiling point of the liquid. When such high temperature information is detected, the control unit determines that the upper portion 42 of the heating unit is exposed, and the water supply unit 30 moves the liquid toward the receiving space 22. It may be controlled to immerse the upper part 42 of the heating part again by supplying water, or control to temporarily cut off the supply of current to prevent the heating part 40 from overheating. As another example, the control unit may include a water supply unit ( 30) is controlled to supply water, but if it is determined that the water level is lower than the second temperature sensor 54 (for example, when the second temperature information is higher than the boiling point of the liquid), it is recognized as an emergency situation and the heating unit 40 ), it is possible to change the control method step by step, such as cutting off the current supplied to the side.

Meanwhile, as described above, the control unit may determine whether the upper part 42 of the heating unit is exposed using only the first temperature information itself (eg, by determining whether the first temperature information is equal to or greater than a predetermined value). , as another example, whether or not the heating unit 40 is exposed may be determined based on the rate of change per unit time of the first temperature information or by additionally considering it. In this case, more accurate water level sensing may be possible by using a change rate value per unit time having a greater degree of change than simple temperature information. In particular, when the first temperature sensor 52 is switched from a state immersed in liquid to a state exposed to gas, the temperature change rate value per unit time can rise more dramatically than a simple temperature change value, so that the control unit more quickly sets the water level. change can be detected. In addition, the control unit may determine whether the upper portion 42 of the heating unit is exposed in consideration of the second temperature information transmitted from the second temperature sensor 54 for more accurate water level sensing. In this case, the controller may determine the water level based on, for example, a difference between the first temperature information and the second temperature information. At this time, the second temperature information may function as a reference value for comparison as described above, and the controller determines that the first temperature information is the temperature of the gas when the difference between the first temperature information and the second temperature information is greater than or equal to a predetermined value. By judging, it can be determined that the heating part is exposed to the gas.

Referring back to FIGS. 3 and 4 , the hot water heater 10 according to an embodiment of the present invention is a bimetal that is thermally deformed to block current supplied to the heating unit 40 when the heating unit 40 is abnormally overheated. (60) may be further included. At this time, the bimetal 60 may be formed of a known bimetal including two metal plates having different coefficients of thermal expansion, and may be disposed on the lower side of the housing 20, for example, as shown in the drawing. As such, the hot water type heater 10 according to an embodiment of the present invention has 1-step detection by the first temperature sensor 52, 2-step detection by the second temperature sensor 54, and 3-step detection by the bimetal 60. By providing a multi-stage detection system including detection, it is possible to effectively prepare for abnormalities in the first and second stage detection. Through this, the hot water type heater 10 according to an embodiment of the present invention can thoroughly prevent even a fire accident that may occur with a very rare probability, thereby further improving safety.

As described above, in the hot water heater 10 according to an embodiment of the present invention, the first temperature sensor 52 installed at a height corresponding to the upper part 42 of the heating part detects whether or not the heating part is exposed. By performing a function as the above, it is possible to detect the exposure more quickly to improve user safety, and it is possible to reduce the process and cost of installing a separate water level sensor.

Although one embodiment of the present invention has been described above, the spirit of the present invention is not limited to the embodiments presented herein, and those skilled in the art who understand the spirit of the present invention may add elements within the scope of the same spirit. However, other embodiments can be easily proposed by means of changes, deletions, additions, etc., but these will also fall within the scope of the present invention.

10: hot water heater 20: housing
22: receiving space 25: outlet
30: water supply unit 40: heating unit
42: upper part of the heating part 50: temperature sensor part
52: first temperature sensor 54: second temperature sensor
60: bimetal 70: housing part
100: clothes freshener

Claims (9)

A housing having an accommodation space in which liquid is accommodated;
a water supply unit communicating with the housing and supplying the liquid to the accommodation space;
a heating unit installed in the accommodation space and at least partially immersed in the liquid to heat the liquid;
When the upper part of the heat generating part is immersed in the liquid, the temperature of the liquid is detected, and when the upper part of the heat generating part is exposed, the temperature of the gas located in the accommodation space is detected at a height corresponding to the upper part of the heat generating part. A first temperature sensor installed; and
a control unit that determines whether the upper part of the heating unit is immersed in the liquid or exposed to the gas based on the temperature information detected by the first temperature sensor, and controls the water supply unit and the heating unit according to the determination result; A hot water heater comprising a. According to claim 1,
An outlet through which the liquid is discharged is formed at the predetermined height inside the accommodation space to limit the rise of the water level to a predetermined height or less when supplying water to the water supply unit,
The first temperature sensor is a hot water heater, characterized in that installed below the outlet. According to claim 1,
The hot water heater, characterized in that it further comprises a second temperature sensor installed below the first temperature sensor. According to claim 1,
The hot water type heater further comprises a bimetal that is thermally deformed to cut off current supplied to the heating unit when the heating unit is overheated above a predetermined temperature. According to claim 1,
The controller controls the water supply unit to supply the liquid to the accommodation space when it is determined that the water level is equal to or less than the installation height of the first temperature sensor. According to claim 5,
Further comprising a second temperature sensor installed under the first temperature sensor,
The control unit controls to stop the operation of the heating unit when it is determined that the water level is equal to or less than the installation height of the second temperature sensor. According to claim 1,
Further comprising a second temperature sensor installed below the first temperature sensor,
The controller determines the water level based on a difference between first temperature information and second temperature information received from the first temperature sensor and the second temperature sensor, respectively. According to claim 1,
The controller determines the water level based on a temperature change rate per unit time. a housing in which a treatment space in which clothes are placed is formed; and
Including; a hot water heater for supplying steam to the inside of the housing,
The hot water heater,
A housing having an accommodation space in which liquid is accommodated;
a water supply unit communicating with the housing and supplying the liquid to the accommodation space;
a heating unit installed in the accommodation space and at least partially immersed in the liquid to heat the liquid;
When the upper part of the heat generating part is immersed in the liquid, the temperature of the liquid is detected, and when the upper part of the heat generating part is exposed, the temperature of the gas located in the accommodation space is detected at a height corresponding to the upper part of the heat generating part. a first temperature sensor installed; and
a control unit that determines whether the upper part of the heating unit is immersed in the liquid or exposed to the gas based on the temperature information detected by the first temperature sensor, and controls the water supply unit and the heating unit according to the determination result; Clothing freshener comprising a.

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