KR200453725Y1 - Hot water supply device using low power LED heating element and resistance heating element - Google Patents

Abstract

The present invention heats the water in the hot water storage tank by using the heat generated from the low-power LED heating element and the resistance heating element provided in electronics, etc. to supply heated hot water to mats, cushions, etc. The present invention relates to a hot water supply device using an LED heating element and a resistance heating element.
The present invention according to the above is provided with a solar panel 50 for capturing and converting the solar heat into electrical energy, the rechargeable battery 150 is filled with the electrical energy converted from the solar panel 50, the solar panel 50 ) Is provided with a charging control device 100 for converting the converted electrical energy to the required voltage to charge the rechargeable battery 150 to prevent overcurrent and overcharge, the water is stored therein and the heat sink is installed inside A tank 350 is provided, and a low power LED heating element and a resistance heating element 300 are provided to heat the water of the hot water storage tank by transferring heat generated when the heat is generated by receiving electricity of the rechargeable battery to the heat sink, and the hot water storage tank 350. In the hot water supply device using a low-power LED heating element and a resistance heating element made of a circulation motor 400 for circulating the hot water of the inside through the drain hose 501 into the hot water mat,
When the solar energy cannot be obtained according to climatic conditions such as rainy weather or when the rechargeable battery 150 is not charged, the auxiliary battery 200 supplies electricity to the secondary battery to heat the low power LED heating element and the resistance heating element 300. ;
Solar panels 50 for capturing solar heat and converting them into electrical energy, and provided on one side of the solar panels 50 to convert the electrical energy generated from the solar panels 50 into voltages required for the operation of the LED and the resistor 301. And converting, and controls to maintain the set temperature by receiving the information of the hot water storage tank 350 transmitted through the temperature sensor 351, and automatically adjust the temperature automatic control device 251 to the temperature desired by the user, solar heat When the electric energy generated from the plate 50 is supplied from the rechargeable battery, and the rainy season lacks sunlight and the rechargeable battery 150 is not charged, the power of the auxiliary battery 200 is supplied to the low power LED heating element and the resistive heating element 300. It characterized in that it comprises an integrated electronic control device 250 for generating heat.

Description

Hot-water supply system use led heating elements using low-power LED heating element and resistance heating element

The present invention relates to a hot water supply device using a low-power LED heating element and a resistance heating element, and more particularly heated by heating the water in the hot water storage tank using the heat generated from the low-power LED heating element and the resistance heating element provided in electronics, etc. The present invention relates to a hot water supply device using a low power LED heating element and a resistance heating element that can be used as a thermal mat and a thermal cushion by supplying hot water to a mat, a cushion, and the like.

In general, bedding mats using hot water use a portable boiler composed of a main body, a water storage tank, a hot water circulation pump, and a heater to heat water in a water storage tank of a boiler with a heater and circulate hot water with a circulation pump. When the temperature reaches the set heating temperature, the power supply to the heater is cut off so that the temperature of the hot water does not rise any more.If the hot water in the water storage tank falls below the set heating temperature after a certain time, the heater As the power supply resumes, the process of heating the hot water is repeated to maintain a constant heating temperature.

Since the mat is operated by receiving electricity, there is a problem in that a lot of power is consumed.

Therefore, the present invention uses the heat of the heat sink to absorb the heat generated when the electronic device is driven to heat the water in the hot water storage tank to supply the heated hot water to the mat, the thermal cushion to be used as a thermal mat, thermal cushion The present invention provides a hot water supply device and a hot water mat using a low power LED heating element and a resistance heating element.

The present invention is designed to solve the above problems has the following object.

The present invention uses a low power LED heating element and a resistance heating element provided in electronics to heat the water in the hot water storage tank to supply heated hot water to mats, cushions, low power that can be used as a thermal mat, thermal cushion An object of the present invention is to provide a hot water supply device using the LED heating element and the resistance heating element.

In order to achieve the above object, the present invention includes the following embodiments.

According to the first embodiment of the present invention, the hot water supply device using the low-power LED heating element and the resistance heating element of the present invention

A solar panel 50 is provided to collect solar heat and converts it into electrical energy. A rechargeable battery 150 is provided to charge the electrical energy converted from the solar panel 50. The charging control device 100 is provided to convert the electrical energy into the required voltage to charge the rechargeable battery 150 while preventing overcurrent and overcharging. And a low power LED heating element and a resistance heating element 300 for heating the water of the hot water storage tank by transferring the heat generated when the heat is generated by receiving electricity from the rechargeable battery, and draining the hot water from the hot water storage tank 350. In the hot water supply device using a low-power LED heating element and a resistance heating element made of a circulation motor 400 for circulating inside the hot water mat through 501,

When the solar energy cannot be obtained according to climatic conditions such as rainy weather or when the rechargeable battery 150 is not charged, the auxiliary battery 200 supplies electricity to the secondary battery to heat the low power LED heating element and the resistance heating element 300. ;

Solar panels 50 for capturing solar heat and converting them into electrical energy, and provided on one side of the solar panels 50 to convert the electrical energy generated from the solar panels 50 into voltages required for the operation of the LED and the resistor 301. And converting, and controls to maintain the set temperature by receiving the information of the hot water storage tank 350 transmitted through the temperature sensor 351, and automatically adjust the temperature automatic control device 251 to the temperature desired by the user, solar heat When the electric energy generated from the plate 50 is supplied from the rechargeable battery, and the rainy season lacks sunlight and the rechargeable battery 150 is not charged, the power of the auxiliary battery 200 is supplied to the low power LED heating element and the resistive heating element 300. It characterized in that it comprises an integrated electronic control device 250 for generating heat.

According to the second embodiment of the present invention, the hot water supply device using the low-power LED heating element and the resistance heating element of the present invention

Heat-dissipating plate 303 which is controlled through the integrated electronic control device 250, the heat generated when the heat generated when the heat generated by receiving the electrical energy from the charger 150 and the auxiliary battery 200, the LED and the resistance element 301 It serves to heat the water contained in the hot water storage tank (350), usually when the electricity is supplied from the rechargeable battery 151, the heat is generated, but the rainy season or the rechargeable battery 150 is not charged If not, the auxiliary battery 200 is supplied with electricity, characterized in that it comprises a low-power LED heating element and a resistance heating element 300 that generates a low power of less than 10 ~ 30W.

The present invention has the following effects by the above configuration.

The hot water supply device using the low power LED heating element and the resistance heating element of the present invention heats the water in the hot water storage tank by using the heat generated from the low power LED heating element and the resistance heating element provided in electronic products, and supplies the heated hot water to the mat, cushion, etc. By using it as a thermal mat and a thermal cushion, it has the effect of saving electricity costs.

1 is a schematic diagram showing the overall configuration according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The applicant will now describe in detail the construction of the embodiments with reference to the accompanying drawings.

Detailed descriptions of known functions and configurations that may be unnecessarily obscured by the gist of the present invention will be omitted.

The present invention is a solar panel 50 for capturing and converting solar heat into electrical energy; A rechargeable battery 150 filled with electrical energy obtained through the solar panel 50; Charge control device 100 for controlling this; An auxiliary battery 20 configured to supply electricity to the auxiliary battery when the rechargeable battery 150 is not filled; An integrated electronic control device 250 for controlling various devices; a low power LED heating element and a resistance heating element 300 for heating water received in the hot water storage tank 350 by receiving electric energy; A hot water storage tank 350 in which water is accommodated; A pump 400 for circulating hot water; It is composed of a hot water mat 500 that receives the hot water to generate heat.

The solar panel 50 collects thermal energy received from the sun and converts the thermal energy into electrical energy.

Charge control device 100 is provided on one side of the solar panel 50 converts the solar light collected from the solar panel 50 to electrical energy to charge the rechargeable battery 150 and the problem caused by overcurrent / overcharge during charging It prevents accidents by blocking.

The rechargeable battery 150 is charged with electric energy supplied from the solar panel 50, and serves to drive various devices by supplying charged electricity.

Integrated electronic control device 250 is provided with a solar panel 50 for capturing and converting the solar heat into electrical energy, and the electrical energy generated from the solar panel 50 is provided on one side of the solar panel 50 to the LED and the resistance element ( 301 is converted to the required voltage during operation, the control of the temperature is maintained by receiving the information of the hot water storage tank 350 transmitted through the temperature sensor 351, and the temperature automatic control device 251 automatically or user To adjust to the desired temperature.

At this time, the integrated electronic control device 250 supplies the electric energy generated from the solar panel 50 from the rechargeable battery, but when the rainy season and the rechargeable battery 150 is insufficient, the power of the auxiliary battery 200 is not charged. The low-power LED heating element and the resistance heating element 300 is supplied to generate heat.

In addition, it provides information according to the status of the various devices through the LED status indicator 253 that can display the driving status of the various devices.

The temperature automatic controller 251 allows a user to set a desired temperature and maintains a set temperature through the integrated electronic controller 250.

The low power LED heating element and the resistance heating element 300 are controlled through the integrated electronic control device 250, and generates heat by receiving electrical energy from the charger 150 and the auxiliary battery 200, and generates heat generated when the LED and The heat transfer plate 303 is attached to the bottom of the resistance element 301 to serve to heat the water contained in the hot water storage tank 350.

At this time, the low-power LED heating element and the resistance heating element is supplied with power from the rechargeable battery under the control of the integrated electronic control device 250 generates heat with low power of less than 10 ~ 30W, but in the rainy season when the solar power is insufficient to supply power from the auxiliary battery 200. Take fever.

In addition, the low-power LED heating element and the resistance heating element is heated to 200 ~ 300 ℃ can obtain a high heat generation compared to the power supply.

At this time, since the heat sink 303 is submerged in the hot water storage tank 350, it is preferable to apply the outside with a waterproof material so that a short circuit does not occur.

The hot water storage tank 350 circulates the water of the hot water mat 500 to circulate through the circulation motor 400 to contain the cooled water and serves to heat the low power LED heating element and the resistance heating element 300 again.

One side of the hot water storage tank 350 is provided with a temperature monitoring sensor 351, the temperature sensor 351 monitors the heat of the hot water of the hot water storage tank 350 to send information to the integrated electronic control device (250). do.

In addition, the hot water storage tank 350 is provided with a feeding indicator 353 to indicate the amount of water in the hot water storage tank 350 to inform the user of the loss of water due to heat to replenish the water in advance.

The circulation motor 400 serves to discharge hot water supplied from the hot water storage tank 350 to the hot water mat 500 through the discharge hose 401 using a low noise and high efficiency motor.

The hot water mat 500 dissipates heat through the hot water supplied from the hot water storage tank 350.

A discharge lake 501 is provided at one end of the hot water mat to discharge hot water from the hot water supply device 350 to the hot water mat through the pump 400.

Hereinafter, with reference to the accompanying drawings look at the working state of the present invention.

The heat energy obtained by the solar panel 50 is collected and converted into electrical energy through the charge control device 100 and then charged in the rechargeable battery 150.

Then, after receiving the water in the hot water storage tank 350 and set the desired temperature with the temperature control device 251 of the integrated electronic control device 250 and supplies the electrical energy to the low-power LED heating element and the resistance heating element 300 The LED and the resistor 301 generate heat.

At this time, the heat dissipation plate 303 provided at the lower portion of the LED and the resistance element 301 and received in the hot water storage tank 350 absorbs the heat generated from the LED and the resistance element 301 and of the hot water storage tank 351. Accepted Heat water to hot water.

When the hot water temperature of the hot water storage tank 350 is the temperature controlled by the automatic temperature control device 251, the temperature sensor 351, which is being monitored, transmits it to the integrated electronic controller 250.

The integrated electronic control device 250 receiving the information drives the pump 400 to supply hot water to the hot water mat 500.

The thermal mat 500 received the hot water is radiated.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

50: solar panel 100: charge control device
150: rechargeable battery 200: auxiliary battery
250: integrated electronic controller
300: low power LED heating element and resistance heating element
350: hot water storage tank 400: circulation motor

Claims (2)

A solar panel 50 is provided to collect solar heat and converts it into electrical energy. A rechargeable battery 150 is provided to charge the electrical energy converted from the solar panel 50. The solar panel 50 is collected and converted from the solar panel 50. It is provided with a charging control device 100 for converting the electrical energy into the required voltage to charge the rechargeable battery 150 while preventing overcurrent and overcharge, water is stored therein is provided with a hot water storage tank 350 is installed a heat sink And a low power LED heating element and a resistance heating element 300 for heating the water of the hot water storage tank by transferring the heat generated when the heat is generated by receiving electricity from the rechargeable battery, and draining the hot water from the hot water storage tank 350. In the hot water supply device using a low-power LED heating element and a resistance heating element made of a circulation motor 400 for circulating inside the hot water mat through 501,
When the solar energy cannot be obtained according to climatic conditions such as rainy weather or when the rechargeable battery 150 is not charged, the auxiliary battery 200 supplies electricity to the secondary battery to heat the low power LED heating element and the resistance heating element 300. ;
Solar panels 50 for capturing solar heat and converting them into electrical energy, and provided on one side of the solar panels 50 to convert the electrical energy generated from the solar panels 50 into voltages required for the operation of the LED and the resistor 301. And converting, and controls to maintain the set temperature by receiving the information of the hot water storage tank 350 transmitted through the temperature sensor 351, and automatically adjust the temperature automatic control device 251 to the temperature desired by the user, solar heat When the electric energy generated from the plate 50 is supplied from the rechargeable battery, and the rainy season lacks sunlight and the rechargeable battery 150 is not charged, the power of the auxiliary battery 200 is supplied to the low power LED heating element and the resistive heating element 300. Hot water supply apparatus using a low-power LED heating element and a resistance heating element, characterized in that it comprises an integrated electronic control device (250) to generate heat. The method of claim 1,
Heat-dissipating plate 303 which is controlled through the integrated electronic control device 250, the heat generated when the heat generated when the heat generated by receiving the electrical energy from the charger 150 and the auxiliary battery 200, the LED and the resistance element 301 It serves to heat the water contained in the hot water storage tank (350), usually when the electricity is supplied from the rechargeable battery 151, the heat is generated, but the rainy season or the rechargeable battery 150 is not charged When not supplied with electricity from the auxiliary battery 200, a hot water supply device using a low power LED heating element and a resistance heating element, characterized in that it comprises a low power LED heating element and a resistance heating element (300) that is generated at a low power of less than DC 10 ~ 30W.

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