KR20170125451A - Operating method of hot water dispenser - Google Patents

Abstract

Disclosed is an operating method of a hot water dispenser. The operating method of a hot water dispenser supplies purified water after heating the purified water by using a heater when hot water is needed to be extracted, and comprises: a step of disclosing operation of hot water drain discharging hot water heated by the heater when hot water extraction request is inputted; a step of disclosing heating of the heater; a step of comparing an input signal of a flux sensor installed in a front end of the heater with a preset frequency; a step of stopping heating of the heater and operation of the hot water drain when the frequency of the input signal is less than the preset frequency; and a step of discharging pressure inside a flow path through a safety valve connected to the heater.

Description

[0001] OPERATING METHOD OF HOT WATER DISPENSER [0002]

The present application relates to a method of operating a water heater.

In order to minimize power consumption and downsize the apparatus, a hot water type hot water heater for heating and supplying purified water using a heater only when hot water extraction is required is widely used have.

However, in the case of the instant hot water type water heater, it is difficult to provide hot water having a stable target temperature, and various attempts have been made to solve this problem.

In the related art, there is a demand for a method for ensuring the safety of operation while the hot water type water heater provides hot water having a more stable target temperature.

In order to solve the above problems, an embodiment of the present invention provides a method of operating a water heater.

The operation method of the water heater is a method of operating a water heater for heating and supplying purified water using a heater when hot water extraction is required. In the method of operating the water heater, the hot water drain Initiating an operation; Initiating heating of the heater; Comparing an input signal of a flow rate sensor provided at a front end of the heater with a preset frequency; Stopping the heating of the heater and stopping the operation of the hot water drain if the frequency of the input signal is less than the predetermined frequency; And discharging the pressure in the flow path through a safety valve connected to the heater.

In addition, the means for solving the above-mentioned problems are not all enumerating the features of the present invention. The various features of the present invention and the advantages and effects thereof will be more fully understood by reference to the following specific embodiments.

According to an embodiment of the present invention, hot water having a stable target temperature is provided by draining hot water that does not reach a target temperature through a hot water drain, and when an abnormality such as clogging of a hot water drain is detected, The safety of the operation can be ensured.

1 is a configuration diagram of a water heater to which the present invention is applied.
2 is a flowchart of an operation method of a water heater according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order that those skilled in the art can easily carry out the present invention. In the following detailed description of the preferred embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In the drawings, like reference numerals are used throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . Also, to "include" an element means that it may include other elements, rather than excluding other elements, unless specifically stated otherwise.

The present invention relates to a water heater for purifying raw water and supplying hot water by heating the water, wherein the water heater is not only a water heater for providing only hot water, but also a water purifier for additionally providing a function of providing a constant- And a functional handler additionally provided with a function of supplying various functional water such as ionized water, carbonated water, and oxygenated water.

The water heater 100 according to the present invention may purify the raw water flowing through the raw water supply unit 105 by passing through the various filters and purify the purified water (hereinafter, referred to as 'constant' for the sake of convenience) ) Is stored in a separate storage space and can be discharged to the outside.

1 is a configuration diagram of a water heater to which the present invention is applied.

1, a water heater 100 to which the present invention is applied includes a filter unit 110, a storage tank 115, a hot water extraction pump 120, a flow sensor 125, a heater 130, a safety valve 135, A hot water sensor 140, a connector 145, a hot water drain pump 150, a hot water extractor 160, a controller 165, and an input unit 170.

The filter unit 110 may include a sediment filter, a pre-carbon filter, a reverse osmosis membrane filter, and a post-carbon filter. The filter unit 110 includes at least one filter, The number and order can be changed according to the filtration method of the water heater (water purifier) or the filtration performance required for the water heater (water purifier). For example, a hollow fiber membrane filter may be provided instead of the reverse osmosis membrane filter. Such a hollow fiber membrane filter is a porous filter having a pore size of several tens to several hundred nanometers (nm), and it removes contaminants in water through numerous micropores distributed on the membrane surface. In addition, a post-carbon filter may not be provided, or a micro filter MF or another functional filter may be provided in place of or in addition to the above-described filter.

The storage tank 115 passes through the filter unit 110 and stores the purified water, and can discharge the stored water at the time of hot water extraction.

Although not shown in FIG. 1, at least one water level sensor (not shown) for sensing the level of the purified water stored in the storage tank 115 may be installed inside the storage tank 115.

The hot water extraction pump 120 may be installed at the rear end of the storage tank 115 on the hot water flow path for supplying hot water and may supply the purified water stored in the storage tank 115 to the heater 130 during hot water extraction.

The hot water extraction pump 120 may be implemented by a motor, for example, a DC motor capable of controlling an operation speed using an input voltage or an AC motor capable of controlling an operation speed through frequency control.

The flow sensor 125 is disposed on the hot water flow path for providing hot water, for example, at the front end of the heater 130, for sensing the flow rate of the purified water flowing through the hot water flow path.

According to one embodiment, the flow sensor 125 can sense the flow rate of the purified water flowing through the hot water flow path. When the flow rate increases, the frequency of the input signal of the flow rate sensor 125 increases. When the flow rate decreases, 125 may be reduced in frequency. Further, when no flow of the purified water flows through the flow path, or when the flow sensor 125 fails, the input signal of the flow sensor 125 is not sensed.

The heater 130 is for heating the purified water supplied from the storage tank 115 and may be realized as a hot water type heater for heating the purified water supplied from the storage tank 115 when hot water extraction is required, Various instantaneous hot water type heaters known to the person skilled in the art can be employed, and a detailed description thereof will be omitted.

The safety valve 135 is connected to the heater 130 and is opened to discharge pressure (i.e., steam, hot water, etc.) when the pressure in the heater 130 and the hot water passage becomes a predetermined pressure or more.

According to one embodiment, the safety valve 135 can be controlled to open when the abnormality of the hot water drain 155 is detected by the control unit 165 to discharge the pressure.

The hot water sensor 140 is provided at the rear end of the heater 130 on the hot water flow path to measure the temperature of the hot water heated by the heater 130.

The connector 145 is provided at the rear end of the heater 130 on the hot water flow path so as to control the flow path so that the hot water heated by the heater 130 flows to the hot water drain 155 or the hot water extraction part 160.

According to one embodiment, the connector 145 can control the flow path under the control of the controller 165. [

The hot water sensor 140 and the connector 145 may be integrally formed and installed at the rear end of the heater 130.

The hot water drain pump 150 is installed on the drainage passage drained from the connector 145 to the hot water drain 155 so that the hot water having a temperature lower than the set temperature is drained to the hot water drain 155. The hot water drain pump 150 may be implemented by a motor, for example, a DC motor capable of controlling an operation speed using an input voltage or an AC motor capable of controlling an operation speed through frequency control.

The hot water extracting unit 160 is for providing the hot water provided through the hot water channel to the user, and may be implemented, for example, as a faucet.

The control unit 165 controls the overall operation of the water heater 100 and includes a central processing unit (CPU), a graphics processing unit (GPU), a microprocessor, an application specific integrated circuit (ASIC) Programmable gate arrays (FPGAs), and the like.

The control unit 165 controls the connector 145 so that the hot water heated by the heater 130 is discharged to the hot water drain 155 when the hot water extraction input signal is received from the input unit 170 And the operation of the hot water drain 155 is started by operating the hot water drain pump 150 and the purified water supplied from the storage tank 115 can be heated by the heater 130.

The control unit 165 determines whether the hot water drain 155 is abnormal based on the input signal of the flow sensor 125 and the feedback feedback current value of the hot water extraction pump 120 or the hot water drain pump 150, The operation of at least one of the heater 130, the safety valve 135 and the connector 145 can be controlled depending on whether the drain 155 is abnormal.

The concrete process of the control unit 165 detecting the abnormality of the hot water drain 155 and controlling it according to the detection result will be described later with reference to FIG.

The input unit 170 receives an input for operating the function of the water heater 100 from a user and the input signal from the input unit 170 can be transmitted to the controller 165.

2 is a flowchart of an operation method of a water heater according to an embodiment of the present invention.

2, when the hot water extraction input is received through the input unit 170 of the water heater (S21), the connector 145 is controlled so that hot water heated by the heater 130 is discharged to the hot water drain 155 The operation of the hot water drain 155 is started by operating the hot water drain pump 150 and the heating of the heater 130 is started to heat the purified water supplied from the storage tank 115 at step S23.

When the frequency of the input signal of the flow sensor 125 is equal to or higher than a predetermined frequency, the hot water extraction pump 120 or the hot water drain pump 150 (step S24) Can be compared with a preset value (S25).

As a result of the comparison, if the operation feedback current value of the hot water extraction pump 120 or the hot water drain pump 150 is less than the predetermined value, the hot water drain 155 is operating normally. Therefore, the hot water measured by the hot water sensor 140 (S26), and it is possible to determine whether or not to extract the hot water according to the result.

Specifically, if the temperature of the hot water is lower than the set temperature, the hot water is not heated sufficiently to the extent that it can be supplied to the user, so that the process can return to the step S24 described above. On the other hand, if the temperature of the hot water is equal to or higher than the set temperature, the connector 145 is controlled so that the hot water heated by the heater 130 is supplied to the hot water extracting unit 160 and the operation of the hot water drain pump 150 is stopped, 155, and extract hot water through the hot water extracting unit 160 (S27).

On the other hand, if the frequency of the input signal of the flow sensor 125 is less than the preset frequency or the operation feedback current value of the hot water extraction pump 120 or the hot water drain pump 150 is equal to or greater than a predetermined value, The heating of the heater 130 is stopped and the operation of the hot water drain pump 155 is stopped because the hot water is not discharged through the hot water drain 155 or the flow sensor 125 is damaged or the like. The operation of the hot water drain 155 is stopped by stopping the operation of the hot water drain 155 in step S28 and then the safety valve 135 is opened to control the pressure in the flow path to be discharged through the safety valve 135 in step S29. If necessary, the user may be notified that an abnormality has occurred in the hot water drain 155 through an alarm or the like.

The method of operating the water heater described above with reference to FIG. 2 may be performed by a processor included in the water heater.

The present invention is not limited to the above-described embodiments and the accompanying drawings. It will be apparent to those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: Water heater
105:
110:
115: Storage tank
120: Hot water extraction pump
125: Flow sensor
130: heater
135: Safety switch
140: Hot water sensor
145: Connector
150: Hot water drain pump
155: Hot water drain
160: Hot water extracting unit
165:
170:

Claims (4)

An operation method of a water heater for heating and supplying purified water using a heater when hot water extraction is required,
When the hot water extraction input is received, starting operation of the hot water drain for discharging hot water heated by the heater;
Initiating heating of the heater;
Comparing an input signal of a flow rate sensor provided at a front end of the heater with a preset frequency;
Stopping the heating of the heater and stopping the operation of the hot water drain if the frequency of the input signal is less than the predetermined frequency; And
And discharging the pressure in the flow path through the safety valve connected to the heater.
The method according to claim 1,
Comparing the operation feedback current value of the hot water extraction pump installed at the front end of the heater or the hot water drain pump connected to the front end of the hot water drain to a predetermined value if the frequency of the input signal is equal to or higher than the predetermined frequency, ,
And stopping the operation of the hot water drain if the operation feedback current value is greater than or equal to the preset value.
3. The method of claim 2,
And comparing the temperature of the hot water heated by the heater with the set temperature if the operation feedback current value is less than the predetermined value,
And if the temperature of the hot water is below the set temperature, proceeding to comparing the input signal of the flow sensor with a predefined frequency.
The method of claim 3,
And stopping the operation of the hot water drain and extracting hot water heated by the heater if the temperature of the hot water is equal to or higher than the set temperature.

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