KR20150006759A - The apparatus of hot and cool mat with water - Google Patents

Abstract

The present invention provides a smart anti-condensation type hot and cool water mat apparatus comprising a slim type twin cold and hot water supplying module (100) and an anti-condensation type hot and cool water mat (200). It is possible to make the volume of an apparatus slim since the smart anti-condensation type hot and cool water mat has a twin structure with a cold water mode of a thermoelectric element module and a hot water mode of a PTC heater module. It is possible to increase thermal efficiency per surface by 2.5 times or more and has the power consumption less than a half. An aluminum conductive plate to receive cool air of the thermoelectric element module is inserted into the internal side of a water storage tank to supply cold water from the water storage tank and air in the apparatus can be maintained to be dry through the thermoelectric element module and the PTC heater module.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a smart,

In the present invention, since the twin structure of the cold water mode of the thermoelectric module and the hot water mode of the PTC heater module can be manufactured slimly, the volume of the device can be slimly reduced and the matt surface of the mat surface due to the hot summer day or cold winter day temperature difference The present invention relates to a smart clean type hot / cold water mat device through a slim type twin cold and hot water generation module capable of reducing condensation phenomenon by 70%.

Generally, a seamless type cold / hot water mat is a device capable of selectively providing cooling and heating to a mat using water.

Among the conventional seamless hot / cold water mats, in Korean Patent Laid-Open Publication No. 10-2013-0027545, a plurality of metal plates which are embedded in a zigzag repetitive bent pipe to form a cold or hot heat exchange channel are arranged to be symmetrical to each other; On each side of the metal plate facing each other is attached a thermoelectric element which is electrically connected to different poles so as to provide cold or hot heat; A heat sink having a cooling fan is disposed between the thermoelectric elements to dissipate the heat generated by the heat generated by the thermoelectric elements and the heat generated by the heat generated by the heat generated by the heat sinks; The bending type piping internally coupled to the plurality of metal plates is formed so that the water channel is branched from one connecting hose line by forming a T-shaped socket at the inlet-side end, and a three-way valve is connected to the drain- The hot / hot water generating module for a cold / hot water mat using a double thermoelectric element and a three-way valve, which are formed to provide cold water or hot water by being selectively opened and closed,

Since there are two thermoelectric elements, there is a problem that the volume of the hot / hot water generating module for the hot / hot water mat becomes large. In the module, one thermoelectric element is dedicated to cold water and the other thermoelectric element is driven exclusively for hot water. The indoor air is always in a humid state, causing malfunction of the device and failure.

In addition, when the hot water is driven exclusively through the thermoelectric element, the effect of the hot water is lower than the set value and the set temperature and time, and the hot water transferred to the hot water type martacle is lukewarm, There has been a problem in that the cold water is supplied to the mattress-type cold / hot water mat on the hot summer day frequently, and the condensation phenomenon due to the temperature difference is frequently generated on the seamless cold / hot water mat.

Korean Patent Publication No. 10-2013-0027545

In order to solve the above-mentioned problems, the present invention has a twin structure of a cold water mode of a thermoelectric module and a hot water mode of a PTC heater module, thereby making it possible to slim the volume of the device. The power consumption is less than half and the thermal efficiency per area is 2.5 times or more And the aluminum conduction plate that has received the cool air of the thermoelectric module is inserted into the water storage tank to generate cold water in the water storage tank and the air inside the device is dried through the thermoelectric module and the PTC heater module The sensor can be attached to the water storage tank, the thermoelectric module, the PTC heater module, and the module main body, so that the device can be checked all the time, Since the hot-cold water mat is formed on the mat surface due to the difference in temperature on a hot summer day or on a cold winter day, To provide a remarkably slim twin-type hot water generated by smart seamless modules with hot water mat device can be reduced has its purpose.

In order to accomplish the above object, the smart clean type hot / cold water mat device through the slim type twin cold / hot water generating module according to the present invention

A slim type twin cold / hot water generating module (100) which is located at one side of the seamless cold / hot water mat and transforms the water into cold water or hot water in accordance with a user setting temperature and supplies the water to the seamless hot /

Hot-water mat (200) having a rectangular mat-type structure and being converted into a cold water mat by receiving the cold water from the slim-type twin cold / hot water generating module or receiving hot water from the slim- A smart clean hot / cold water mat device through a twin cold / hot water generating module,

The non-return type cold / hot water mat (200)

A mat main body 210 having a square mat shape and supporting the top cover mat and the bottom cover mat,

The upper cover mat is placed on the upper end of the lower cover mat, and the waterproof member is joined on the rectangular PVC material, and then the hexagonal honeycomb mold is formed on the surface by the hexagonal honeycomb mold, An upper cover mat (220) integrally connected to generate a honeycomb cold / hot water channel so that cold or warm water flows therethrough to transmit cool air or warm air to the mat main body,

The upper cover mat is placed at the lower end, and the waterproof member is joined on the rectangular PVC material, and then the hexagonal honeycomb mold is formed on the surface by the hexagonal honeycomb mold frame, A lower cover mat 230 which is integrally connected to generate a honeycomb cold / hot water channel so as to flow cold water or hot water and supports the upper cover mat in the lower direction,

A honeycomb cold / hot water channel portion 240 formed of a hexagonal honeycomb structure between the upper cover mat and the lower cover mat to form a channel by receiving cold water or hot water,

Hot water or hot water supplied to the seamless type hot / cold water mat is disposed between the one side of the second supply hose to which the first supply hose is connected and the one side of the second discharge hose to which the first discharge hose is connected, A second check valve (250) for preventing backflow to the discharge hose,

A second supply hose (260) which is formed on the inlet of the mat main body and which supplies cold water or hot water to the inflow-type cold / hot water mat inlet,

A second discharge hose 270 formed on the discharge port of the mat main body and discharging cold water or hot water circulated into the mat main body to the slim type twin cold / hot water generating module,

When the cold water or hot water flows along the honeycomb type cold / hot water channel portion, cold water or hot water is supplied to the one side portion through the second supply hose to guide the mat body to be circulated clockwise or counterclockwise to be charged, And a mat separating membrane 280 for guiding the cold water or hot water filled in the mat main body to discharge the hot water or the cold water or hot water.

As described above, according to the present invention, a twin structure of the cold water mode of the thermoelectric module and the hot water mode of the PTC heater module can be manufactured slimly, and the power consumption is less than half and the thermal efficiency per area is 2.5 times or more The thermoelectric module and the PTC heater module can keep the air inside the device dry. The sensor can be attached to the water storage tank, the thermoelectric module, the PTC heater module and the module body. It is possible to improve the safety of the product to 95% by virtue of being able to drive immediately when the device is out of order, and it is possible to improve the safety of the mat on the mat surface by 70% due to temperature difference on hot summer day or cold winter day, There is a remarkable effect that can be reduced.

" 형상을 갖는 매트분리막으로 이루어진 슬림형 트윈냉온수생성모듈을 통한 스마트 무결로형냉온수매트장치를 통해 냉수모드로 구동되는 것을 도시한 일실시예도,
도 14는 본 발명에 따른 "

"형상을 갖는 매트분리막으로 이루어진 슬림형 트윈냉온수생성모듈을 통한 스마트 무결로형냉온수매트장치를 통해 온수모드로 구동되는 것을 도시한 일실시예도,
도 15는 본 발명에 따른 "

" 형상을 갖는 매트분리막으로 이루어진 슬림형 트윈냉온수생성모듈을 통한 스마트 무결로형냉온수매트장치를 통해 냉수모드로 구동되는 것을 도시한 일실시예도,
도 16은 본 발명에 따른 "

"형상을 갖는 매트분리막으로 이루어진 슬림형 트윈냉온수생성모듈을 통한 스마트 무결로형냉온수매트장치를 통해 온수모드로 구동되는 것을 도시한 일실시예도,
도 17은 본 발명에 따른 "Y"자형 연결밸브(300)의 구성을 도시한 사시도,
도 18은 본 발명에 따른 "Y"자형 연결밸브(300)가 슬림형 트윈냉온수생성모듈의 제1 공급호스와 2개의 제2 역류방지밸브의 제2 유입관 사이, 그리고, 슬림형 트윈냉온수생성모듈의 제1 배출호스와 2개의 제2 역류방지밸브의 제2 배출관 사이에 연결된 것을 도시한 일실시예도.FIG. 1 is a configuration diagram showing the components of a smart-type cold / hot water mat device 1 through a slim-type twin cold / hot water generating module according to the present invention,
FIG. 2 is an exploded perspective view showing components of a slim-type twin cold / hot water generating module in which a first supply hose 181 and a first discharge hose 182 are formed in accordance with the present invention,
3 is an exploded perspective view showing components of a slim-type twin cold / hot water generating module in which a first supply hose 181 and a first discharge hose 182 are connected in one piece according to the present invention,
4 is a block diagram illustrating the construction of the water storage tank 130, the sensing unit 140, the thermoelectric module 150, the PTC heater module 160, the suction and discharge pump 170, A combined perspective view showing that the cold / hot water hose 180 is coupled,
5 is a side view of a water storage tank according to an embodiment of the present invention in which a pressure regulating self-closing valve 130a for a water storage tank is connected to one side of an outlet of the water storage tank,
6 is a perspective view showing the components of the self-regulating valve 160a for a PTC heater according to the present invention,
FIG. 7 is a perspective view showing the constituent elements of the seamless type cold / hot water mat 200 according to the present invention,
FIG. 8 is an internal cross-sectional view showing internal components of the seamless type cold / hot water mat 200 according to the present invention,
9 is a perspective view showing the components of the first check valve 180a according to the present invention,
10 is a perspective view showing the components of the second check valve 250 according to the present invention,
11 is a sectional view showing internal components of the first and second check valves according to the present invention,
12 is a circuit diagram showing a connection configuration of the microcomputer according to the present invention,
Fig. 13 is a schematic diagram of a "

One embodiment showing that the device is driven in the cold water mode through the smart-line type cold / hot water mat device through the slim type twin cold / hot water generating module formed of the mat separating film having the shape "
Fig. 14 is a cross-

In the hot water mode through the smart-line type cold / hot water mat device through the slim type twin cold / hot water generating module made of the mat separating film having the shape "
Fig. 15 is a cross-

One embodiment showing that the device is driven in the cold water mode through the smart-line type cold / hot water mat device through the slim type twin cold / hot water generating module formed of the mat separating film having the shape "
Fig. 16 is a cross-

In the hot water mode through the smart-line type cold / hot water mat device through the slim type twin cold / hot water generating module made of the mat separating film having the shape "
17 is a perspective view showing a configuration of a "Y" -shaped connection valve 300 according to the present invention,
18 shows that the "Y" -shaped connection valve 300 according to the present invention is connected between the first supply hose of the slim type twin cold / hot water generating module and the second inflow pipe of the two second check valves, One embodiment showing the connection between the first discharge hose and the second discharge pipe of the two second check valves.

First, when the water described in the present invention is transformed into any one of cold water or hot water, the property (fast) is obtained when the thermoelectric module 150 and the PTC heater module 160 are operated at 200 W or 300 W, It can be deformed within 10 to 20 minutes based on 20 ℃ to 28 ℃ for cold water, and it can be deformed within 5 to 10 minutes based on 30 ℃ to 40 ℃ for hot water.

That is, in the present invention, compared to the existing cold / hot water mat, the cold water of 20 ° C to 28 ° C can be deformed in a state of fast The hot water of 30 占 폚 to 40 占 폚 can be deformed in a state of fast (fast) in 5 to 10 minutes in a state where it is set to the cold water mode.

In addition, in the slim type twin cold / hot water generating module described in the present invention, the slim type means that a width × height × height is made of 10 cm × 20 cm × 10 cm or 8 cm × 15 cm × 8 cm.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing components of a smart-type cold / hot water mat device 1 through a slim type twin cold / hot water generating module according to the present invention. This module is composed of a slim type twin cold / hot water generating module 100, And a mat (200).

First, the slim type twin cold / hot water generating module 100 according to the present invention will be described.

The slim-type twin cold / hot water generating module 100 is located at one side of the seamless hot / cold water mat, and transforms the water into cold water or hot water in accordance with a user-set temperature, .

The main body 110 includes a box body 120, a water storage tank 130, a sensing unit 140, a thermoelectric module 150, a PTC heater module 160, a suction and discharge pump 170, (180), and a microcomputer (190).

First, the box-like main body 110 according to the present invention will be described.

The box-shaped main body 110 is formed in a box shape and serves to protect and support each device from external pressure.

It consists of a top cover and a bottom cover.

The top cover has a key button portion formed on an upper surface thereof, and the microcomputer is formed as a PCB substrate on a lower side portion directly below the key button portion.

The lower cover includes a water storage tank, a sensing unit, a thermoelectric module, a PTC heater module, a suction / discharge pump, and a cold / hot water hose in an internal space.

Second, the key button unit 120 according to the present invention will be described.

The key button unit 120 is positioned on the upper surface of the box-shaped main body, and serves to input the temperature control and timer setting to turn on / off the respective devices.

A cold water operation time up button, a cold water drive time lowering button, a cold water drive temperature controller, a power on / off button, a cold operation indicator lamp, a water shortage indicator lamp, an inspection lamp, A time lowering button, a hot water temperature control unit, a timer indicator lamp, and a timer button.

Here, the timer function can set the reservation ON function to 1 to 24 hours, and the reservation OFF function to 1 to 24 hours.

When the hot water is selected through the cold / hot water selection button, the key button unit is configured to light the red LED, and when the cold water is selected through the cold / hot water selection button, the green LED is turned on.

Third, the water storage tank 130 according to the present invention will be described.

The water storage tank 130 is located inside the box-shaped main body, and stores the water introduced through the water inlet of the upper surface of the box-shaped main body. The water stored in the water storage tank 130 is converted into cold water through the thermoelectric module, .

It is formed in a "?" Shape in cross section when viewed from the side direction, and stores water therein.

The water storage tank includes a built-in block type aluminum conductor of a thermoelectric module.

Here, the block type aluminum conductor conducts cold air generated from the thermoelectric element and conducts cold air to the water stored in the water storage tank to generate cold water.

The water storage tank is connected to an outlet of the PTC heater module on one side thereof, and supplies the hot water generated from the PTC heater module to the cold / hot water mat with the small-sized submersible motor pump.

The water storage tank has a four-level water level sensor in its inner space and a first temperature sensor on one side of the four-level water level sensor.

The water storage tank 130 is formed with a ceramic ball 131 therein to prevent water stored therein from becoming turbid or contaminated even after a long period of time.

In addition, the water storage tank 130 includes a self-regulating valve 130a for a water storage tank at one side to which the first supply hose 181 of the cold / hot water hose 180 is connected.

The pressure regulating self-closing valve 130a for the water storage tank serves to regulate the pressure in the water storage tank itself according to the suction pressure and discharge pressure of the suction and discharge pump 170. [

Fourth, the sensing unit 140 according to the present invention will be described.

The sensing unit 140 senses the temperature of the water storage tank, the water level, the inclination of the box-shaped main body, the overheating temperature of the PTC heater module, and the heat of the thermoelectric module, and transmits the sensed temperature to the microcomputer.

The first temperature sensor 142, the tilt sensor 143, the PTC heater overheat sensor 144, the second temperature sensor 145, and the third temperature sensor 146 are connected by a four-phase water level sensor 141, a first temperature sensor 142, .

The four-level water level sensor 141 is located inside the water storage tank, and detects the water level of the water stored in the water storage tank in four stages and transmits it to the microcomputer. Here, the fourth step is to divide the water level into upper, middle, lower, and lower to check the water level stored in the water storage tank. In this case, a touch sensor is formed on one side of the upper part of the water storage tank, one side of the middle part, one side of the middle part, and one side of the lower part to detect water, .

The first temperature sensor 142 is located inside the water storage tank and detects the temperature of the cold water stored in the water storage tank and transmits the temperature to the microcomputer.

The inclination sensor 143 is disposed at one side of the box-shaped main body, and detects the tilt value of the box-shaped main body and transmits the tilt value to the microcomputer.

The PTC heater overheat sensor 144 is disposed on one side of the upper end of the PTC heater module, and senses the overheating temperature of the PTC heater module and transmits it to the microcomputer.

The second temperature sensor 145 is disposed on one side of the upper end of the thermoelectric module to sense the surface temperature of the thermoelectric module and transmit the sensed temperature to the microcomputer.

The third temperature sensor 146 is positioned at one side of the water storage tank to sense the hot water of the water storage tank and transmit the sensed hot water to the microcomputer.

Fifth, the thermoelectric module 150 according to the present invention will be described.

The thermoelectric module 150 is arranged in a row in a horizontal direction from the rear single direction of the water storage tank to the internal space of the water storage tank and is driven in accordance with a control signal of the microcomputer to transfer cool air to the water stored in the water storage tank .

As shown in Fig. 2, this is constituted by a rotary fan 151, a heat sink 152, a thermoelectric element 153, and a block type aluminum conductor 154.

The rotary fan 151 is located at the lower end of the heat sink, and cools the heat conducted to the heat sink by air cooling.

Which is connected to the microcomputer and driven in accordance with a control signal of the microcomputer.

The heat dissipation plate 152 is positioned horizontally with respect to the thermoelectric element and externally discharges the heat through the heat dissipation fin.

The thermoelectric element 153 is located at the lower end of the block-shaped aluminum conductor and is driven under the control of the microcomputer so as to generate endothermic heat on one side and generate peltier effect on the opposite side according to the direction of current flow.

The block-shaped aluminum conductor 154 protrudes from one side of the inner space side of the water storage tank and conducts cool air conducted through the thermoelectric element to the water stored in the water storage tank to generate cold water.

Sixth, the PTC heater module 160 according to the present invention will be described.

The PTC heater module 160 is located at one side of the water storage tank. The PTC heater module 160 heats the water supplied from the water storage tank according to the control signal of the microcomputer, directly transfers the water to the seamless cold / hot water mat, And serves to heat the water supplied from the low-temperature cold / hot water mat and transfer it to the water storage tank.

This is a semiconductor device having a constant temperature characteristic using a PTC thermistor (Positive Temperature Coefficient Thermistor), and its electrical resistance value increases when the temperature rises.

The PTC heater module has a resistance value rapidly increased due to self-heating corresponding to a Joule (joule) heat when a current exceeding a certain level flows in the PTC thermistor, thereby limiting the current. Is characterized by a heating element with a rapid rise in temperature.

Such a PTC heater module has an advantage that a high temperature can be realized in a shorter time than a heating contact point of a thermoelectric device.

The PTC heater module used in the present invention is located on one side of the side of the water storage tank and heats hot water flowing around the cold / hot water mat.

At this time, the heated hot water is supplied to the seamless hot / cold water mat.

The PTC heater module 160 includes a PTC heater self-regulating valve 160a for regulating the pressure of hot water generated in the PTC heater module itself according to the thermal expansion pressure of the PTC heater module.

6, the pressure regulating self-closing valve 160a for a PTC heater includes a valve body 160a-1, a hose inserting protrusion 160a-2, a nacelle 160a-3, Adjustment module 160a-4.

The valve body 160a-1 has a cylindrical structure and protects and supports each device from external pressure. The hose insertion protrusion is formed on one side of the head portion and the nap portion is formed along the rear edge.

The hose inserting protrusion 160a-2 is formed in the head portion of the valve body and serves to insert the first supply hose connected to the PTC heater.

The nip portion 160a-3 is formed along the rear edge of the valve body, and is screwed to the water tank outlet.

The cylindrical pressure regulating module 160a-4 is inserted into the internal space of the valve body and is normally opened by a gravity difference to supply water stored in the water storage tank to the PTC heater module, When the thermal expansion is applied and pressure is generated, a first barrier membrane is formed to prevent the hot water from flowing back to the water tank. When the thermal expansion pressure is higher than the reference threshold value, the first hot water inflow hole is formed at the second center, And discharging it to regulate the pressure.

Seventh, the suction and discharge pump 170 according to the present invention will be described.

The suction and discharge pump 170 discharges the cold water or hot water stored in the water storage tank to the seamless cold / hot water mat according to the control signal of the microcomputer, discharges hot water heated by the PTC heater module to the seamless cold / hot water mat, Cold water or hot water discharged from the low-temperature cold / hot water mat to the water storage tank.

It is driven in the suction mode and the discharge mode.

The suction mode is a mode for discharging cold water stored in a water storage tank or hot water heated by a PTC heater module to a seamless cold / hot water mat according to a control signal of the microcomputer.

The discharge mode is a mode for sucking the cold water or hot water discharged to the seamless type cold / hot water mat according to the control signal of the microcomputer and delivering it to the water storage tank.

Eighth, the cold / hot water hose 180 according to the present invention will be described.

The cold / hot water hose 180 is formed between the water storage tank and the non-return type hot / cold water mat inlet, the discharge port of the seamless hot / cold water mat and the water storage tank, and serves to transmit cold water or hot water through the hose.

It consists of a first supply hose 181 and a first discharge hose 182.

The first supply hose 181 may be one or two, and is formed between the water storage tank and the inflow-type cold / hot water mat inlet port to supply the cold water or hot water to the inflow-type cold / hot water mat inlet.

The first discharge hose 182 is formed of one or two pieces, and is formed between the discharge port of the seamless type cold / hot water mat and the water storage tank, so that the cold water or hot water discharged from the seamless water- It is a role to convey.

In addition, a first check valve 180a is included between the first supply hose 181 and the first discharge hose 182 according to the present invention.

When the first supply hose 181 and the first discharge hose are opened in accordance with the suction mode and the discharge mode of the suction / discharge pump 170, the first check valve 180a is operated to discharge the cold water flowing in one direction And prevents the hot water from flowing back inside the box-shaped body.

As shown in Figs. 9 and 11, a first valve body 180a-1 of an "H" shape is formed, and the first inlet pipe 180a-2 and the first inlet pipe 180a- The first discharge spring 180a-4 and the first elastic driving bar 180a-5 are formed in the first inlet pipe and the first outlet pipe 180a-3.

Here, the first valve body 180a-1 is formed in a square shape having an "H" shape to protect and support each device from external pressure.

The first inflow pipe (180a-2) serves to introduce cold water or hot water into the seamless type cold / hot water mat inlet unit.

The first discharge pipe 180a-3 serves to discharge the cold water or the hot water circulated in the water-cooled hot / cold water mat to the water storage tank.

The first seesaw-type elastic spring 180a-4 is located at the center of the first elastic driving bar and sees the first elastic driving bar in a seesaw manner by the water pressure generated according to the suction mode and the discharge mode of the suction- It also plays a role of driving.

The first elastic driving bar 180a-5 is located between the first inlet pipe and the first outlet pipe in the valve body. The first elastic driving bar 180a-5 is disposed between the first inlet pipe and the first outlet pipe by the elastic force and the restoring force of the first seesaw- It serves to unseal or seal any one.

FIG. 2 is a view showing a state in which a water storage tank and a seamless type cold / hot water mat inlet are formed between the first supply hose 181 and the first discharge hose 182, FIG. 3 is a perspective view of an embodiment in which a first supply hose 181 and a first discharge hose 182 are formed, and a water storage tank, a seamless hot / cold water mat inlet portion, a seamless hot / And a water storage tank.

Ninthly, the microcomputer unit 190 according to the present invention will be described.

The microcomputer 190 controls the overall operation of each device and changes the water into hot water or cold water for a period of 1 hour to 24 hours in accordance with the temperature of the user setting, And controls the operation of the device to be all-stop when a sensing abnormal signal is transmitted from the sensing unit and to generate a warning sound to the outside.

It consists of ATmega128.

12, a key button unit is connected to one side of the input terminal, and a temperature control signal, a timer setting signal, and a drive on / off signal are inputted through a key button unit, and a four- A sensing value of the water stored in the water storage tank is input to one of the input terminals and a sensing value of the cold water temperature stored in the water storage tank is inputted, The tilt sensor is connected to one input terminal of the other input terminal, the slope value of the box-shaped main body is inputted, and the PTC heater overheat detection sensor is connected to one input terminal of the other input terminal. A second temperature sensor is connected to one input terminal of the other input terminal and a sensor value which senses a surface temperature of the thermoelectric module is inputted and a third temperature sensor is connected to another input terminal, And the Zigbee communication module 190a is connected to one side of the other input terminal so as to perform Zigbee communication with the first water circulation check detection sensor. In this way, the mat main body of the seamless type hot / And the thermoelectric module is connected to one side of the output terminal, and the thermoelectric module is connected to the thermoelectric module to transmit cool air to the water stored in the water storage tank. And the PTC heater module is connected to one side of the other output terminal to drive the PTC heater module to heat the water supplied from the water storage tank and directly transfer the water to the seamless cold / hot water mat, And the water is supplied from the cold / hot water mat to the water storage tank, and then the water is supplied to the water storage tank, and the suction / discharge pump is connected to one side of the other output terminal, The inlet / outlet pump is driven to discharge the cold water or the hot water stored in the water storage tank to the seamless hot / cold water mat, or the hot water heated by the PTC heater module is discharged to the seamless hot / cold water mat, And outputs the output signal so as to transfer the cold water or hot water discharged to the water storage tank.

In addition, the microcomputer 190 according to the present invention drives the suction / discharge pump, the thermoelectric module, and the PTC heater module according to the temperature control signal of the key input unit to drive the module in the cold water mode or the hot water mode.

Next, the seamless type cold / hot water mat 200 according to the present invention will be described.

The flat type cold / hot water mat 200 has a rectangular mat shape, and is converted into a cold water mat by receiving cold water from the slim type hot / hot water generating module, or is converted into a hot water mat by receiving hot water from the slim type hot /

6, the mat main body 210, the top cover mat 220, the bottom cover mat 230, the honeycomb type hot / hot water channel section 240, the second check valve 250, A hose 260, a second discharge hose 270, and a mat separating film 280.

First, the mat main body 210 according to the present invention will be described.

The mat main body 210 has a square mat shape and supports the top cover mat and the bottom cover mat.

Second, the top cover mat 220 according to the present invention will be described.

The upper cover mat 220 is positioned at the upper end of the lower cover mat, and a waterproofing member 220a is bonded on the rectangular PVC material, and then a hexagonal honeycomb mold is formed on the surface by a hexagonal honeycomb mold frame And is integrally connected to the lower cover mat through high frequency fusion bonding to generate a honeycomb cold / hot water channel so as to flow cold water or hot water to transmit cold or warm air to the mat main body.

Third, the lower cover mat 230 according to the present invention will be described.

The lower cover mat 230 is positioned at the lower end of the upper cover mat, and a waterproofing member 230a is bonded on a rectangular PVC material, and then a hexagonal honeycomb mold is formed on the surface by a hexagonal honeycomb mold frame And is integrally connected to the upper cover mat through high frequency fusion bonding to generate a honeycomb cold / hot water channel to flow cold water or hot water and to support the top cover mat in the bottom direction.

The top cover mat 220 and the bottom cover mat 230 have the waterproofing members 220a and 230a bonded on the rectangular PVC material, and are excellent in water resistance and conductivity.

More specifically, the waterproof member is formed by adhering a nano-web membrane, which is a hydrophobic polyurethane microporous film having a weight of 5.2 g / m 2 and a thickness of 10 탆, on the surface of a nylon fabric with hot melt adhesive, And a coating layer is formed thereon,

The hot-melt adhesive is composed of 75 to 85 wt% of a composite polyamide resin obtained by blending a polyamide resin having a density (g / cm 3) of 1.08 and a polyamide resin having a density (g / cm 3) of 1.07 in a weight ratio of 75:25 and a terpene resin and 2 to 5% by weight of polyethylene wax or paraffin wax and 2 to 5% by weight of talc or calcium carbonate (CaCO ₃ )

The coating layer may contain 1 to 5 parts by weight of a melamine hardener, 0.5 to 3 parts by weight of TMHDA (Tetramethylenediamine) of Catalys, 100 parts by weight of a matting agent, 100 parts by weight of a polyurethane resin (PU resin) 2 to 10 parts by weight of synthetic silica and 10 to 20 parts by weight of toluene as a solvent are mixed with 98 to 99.5 wt% of polyurethane coating agent and 0.5 to 2 wt% of conductive metal, Is applied onto the nano-web membrane.

The waterproofing member is made of a nylon fabric as a base material, one side of the nylon fabric is adhered to the PVC raw material, and a waterproofing membrane layer and a polyimide film are formed on the opposite side (hereinafter referred to as' The upper cover mat 220 and the lower cover mat 230 are formed on the inner surfaces of the upper cover mat 220 and the upper cover mat 230. In this way, 220, and a lower cover mat 230, respectively.

The nano-web membrane adhered to the other side of the nylon fabric is a microporous film having a weight of 5.2 g / m 2 and a thickness of 10 μm, which is obtained by electrospinning a hydrophobic polyurethane.

At this time, adhesion of the nano web membrane to the other side of the nylon fabric is by lamination treatment.

The lamination is a method of bonding two materials of a fabric and a membrane with an adhesive. The adhesive may be selected from an emulsion type, a solvent type, and a hot-melt type.

More specifically, 75 to 85 wt% of a composite polyamide resin obtained by blending a polyamide resin having a density (g / cm 3) of 1.08 and a polyamide resin having a density (g / cm 3) of 1.07 in a weight ratio of 75:25,

8 to 15 wt% of terpene resin,

2 to 5 wt% of polyethylene wax or paraffin wax,

A hot-melt adhesive composed of a mixture of talc or calcium carbonate (CaCO ₃ ) in an amount of 2 to 5 wt% is used.

The polyamide resin has a strong adhesive force when a polyamide resin having a density (g / cm 3) of 1.08 and a polyamide resin having a density (g / cm 3) of 1.07 are blended in a weight ratio of 75:25. When the amount of the composite polyamide resin is less than 75 wt%, the bonding strength may be lowered. When the amount of the composite polyamide resin exceeds 85 wt%, the mechanical properties may be deteriorated. Therefore, Is preferably limited to a range of 75 to 85 wt%.

The terpene resin is also compounded with the composite polyamide resin to form an adhesive, thereby giving a strong adhesive force to the adhesive.

If the amount of the terpene resin used is less than 8 wt%, the bonding strength may be lowered. If the amount of the terpene resin exceeds 15 wt%, the mechanical properties may deteriorate. Therefore, the amount of the terpene resin used is preferably in the range of 8 to 15 wt% .

The polyethylene wax or paraffin wax affects the melt viscosity of the hot melt adhesive, and when used within the above-mentioned range, the optimum melt viscosity can be maintained.

Talc or calcium carbonate (CaCO ₃ ) affects mechanical properties. If it is less than 2 wt%, it is difficult to expect improvement in mechanical properties. If it exceeds 5 wt%, dispersion is not properly performed, The use amount of talc or calcium carbonate (CaCO ₃ ) is preferably limited to a range of 2 to 5 wt% with respect to the total amount of the adhesive.

Next, a coating layer is formed by air-spray coating a coating solution containing a conductive metal powder such as copper on the nano-web membrane. At this time, the coating layer imparts a function of improving the waterproof function and durability of the waterproof member.

1 to 5 parts by weight of a melamine hardener, 0.5 to 3 parts by weight of TMHDA (Tetramethylenediamine) of a catalyst (Catalys), 100 parts by weight of a matting agent, 100 parts by weight of a polyurethane resin (PU resin) 2 to 10 parts by weight of silica, 10 to 20 parts by weight of toluene of a solvent, and 0.5 to 2% by weight of a conductive metal.

When the amount of the polyurethane coating agent used is less than 98 wt%, the waterproofing function and durability improving function may be poor. When the amount of the polyurethane coating agent is more than 99.5 wt%, the amount of the conductive metal used may be decreased, The amount of the coating agent to be used is limited within the range of 98 to 99.5 wt% with respect to the total amount of the coating liquid.

If the amount of the conductive metal used is less than 0.5 wt%, the conductivity may be deteriorated. If the amount of the conductive metal is more than 2 wt%, it is difficult to uniformly coat the conductive metal and improve the waterproof function and durability. The amount of the conductive metal to be used is limited within the range of 98 to 99.5 wt% with respect to the total amount of the coating liquid.

Fourth, the honeycomb type hot / hot water channel unit 240 according to the present invention will be described.

The honeycomb type cold / hot water channel part 240 is formed in a hexagonal honeycomb structure between the upper cover mat and the lower cover mat to serve as a water channel by receiving cold water or hot water.

Fifth, the second check valve 250 according to the present invention will be described.

The second check valve 250 is located between one side of the second supply hose to which the first supply hose is connected and one side of the second discharge hose to which the first discharge hose is connected so that the cold water Or the hot water is prevented from flowing back to the first supply hose / first discharge hose.

As shown in FIGS. 10 and 11, a second valve body 251 having an "H" shape is formed, and a second inlet pipe 252 and a second outlet pipe 253 are formed in the outer direction of the second valve body, And a second seesaw type elastic spring 254 and a second elastic driving bar 255 are formed inside the second inlet pipe and the second outlet pipe.

Here, the second valve body 251 is formed in a semicircular shape of an "H" shape so as to protect and support each device from external pressure.

The second inflow pipe 252 serves to introduce cold water or hot water into the seamless type cold / hot water mat.

The second discharge pipe 253 serves to discharge the cold water or hot water circulated in the seamless type cold / hot water mat by the slim type twin cold / hot water generating module.

The second seesaw type elastic spring 254 is positioned at the center of the second elastic driving bar and serves to seesaw the second elastic driving bar by the water pressure generated according to the suction mode and the discharge mode of the suction and discharge pump .

The second elastic driving bar 255 is located between the second inlet pipe and the second outlet pipe inside the valve body and is connected to either one of the second inlet pipe and the second outlet pipe by the elastic force and the restoring force of the second seesaw- Or to seal it.

Sixth, the second supply hose 260 according to the present invention will be described.

The second supply hose 260 is formed on one or two of the inlet hoses of the mat main body and serves to supply cold water or hot water to the cold / hot water mat inlet portion.

Seventh, the second discharge hose 270 according to the present invention will be described.

The second discharge hose 270 has one or two discharge hoses 270 and discharges the cold water or hot water circulated into the mat main body to the slim type twin cold / hot water generating module formed on the discharge port of the mat main body.

Which comprises a first water circulation check detection sensor 271.

Here, the first water circulation check detection sensor is configured in the Zigbee communication module, and transmits a sensing value to the microcomputer, which senses that cold water or hot water circulating along the entire mat main body has arrived.

Eighth, the mat separation membrane 280 according to the present invention will be described.

When the cold water or hot water flows along the honeycomb type cold / hot water flow path, the mat separating membrane 280 supplies cold water or hot water to the one side portion through the second supply hose to circulate the mat body clockwise or counterclockwise And guiding the chilled water or hot water filled in the mat main body through the second discharge hose to discharge water, thereby setting the direction of the cold water or the hot water.

" 및 "

"형상을 갖는 금형틀을 융착시켜 매트본체 상에 "

" 및 "

"형상으로 형성시켜서, 매트본체의 일측방향을 냉온수 공급 수로부로 설정시키고, 매트본체의 타측방향을 냉온수 배출 수로부로 설정시키도록 구성된다.After the upper cover mat and the lower cover mat are subjected to high frequency welding,

"And"

"On the mat main body by fusing a mold frame having a shape"

"And"

Shaped shape so that one side direction of the mat main body is set as the cold / hot water supply side portion, and the other side direction of the mat main body is set as the cold / hot water discharge side portion.

" 및 "

"형상을 갖는 매트분리막의 끝단 일측인 제2 공급호스를 냉온수 공급 수로부 상에 위치시키고, 제2 배출호스를 냉온수 배출 수로부 상에 각각 위치시킨다.remind "

"And"

The second supply hose which is one end of the end portion of the mat separating film having the shape of "H" is positioned on the cold / hot water supply channel portion, and the second discharge hose is respectively positioned on the cold / hot water discharge channel portion.

Therefore, when cold water or hot water supplied to the mat main body is circulated in a clockwise or counterclockwise direction when guided by the mat main body, cold air or warm air can be efficiently transmitted to the mat main body while guiding the water to be filled.

Also, the smart clean type cold / hot water mat device through the slim type twin cold / hot water generating module according to the present invention includes a "Y" shaped connection valve 300.

When the "Y" -shaped connection valve 300 is connected with two of the cold-type hot and cold water mats, a "Y" -shaped connection valve 300 is provided between the first supply hose of the slim type twin cold / hot water generating module and the second inlet pipe of the two second check valves, Shaped cold / hot water generating module, the cold water or hot water generated by the one slim type twin cold / hot water generating module is supplied at the same time, and the first discharge hose of the slim type twin cold / hot water generating module and the two second reverse- And the second discharge pipes are connected in a "Y" shape so as to simultaneously discharge cold water or hot water circulated in the two seamless hot / cold water mats at the same time.

It consists of a straight connector 310, a "V" connector 320.

The linear connector 310 connects the first supply hose of the slim type twin cold / hot water generating module and the first drain hose of the slim type twin cold / hot water generating module.

The V-shaped connecting pipe 320 connects the second inlet pipe of the second check valve and the second outlet pipe of the second check valve.

FIG. 17 is a perspective view showing a configuration of a "Y" -shaped connection valve 300 according to the present invention, and FIG. 18 is a sectional view showing a "Y" -shaped connection valve 300 according to the present invention, 1 connection between the first supply tube and the second inlet pipe of the two second check valves and between the first discharge hose of the slim type twin cold and hot water generating module and the second outlet pipes of the two second check valves FIG.

Hereinafter, a specific operation of the smart-line type cold / hot water mat device through the slim type twin cold / hot water generating module according to the present invention will be described.

[ Cold water mode  Driving process]

First, the water is stored in a water storage tank through a water bottle.

Next, the key button section is pressed to select the cold water power source, and the temperature and the timer are set.

Next, when the cold water mode is driven, the thermoelectric module is driven under the control of the microcomputer.

Next, the thermoelectric module is driven to conduct cold air to the water stored in the water storage tank to generate cold water.

Next, when the sensing value sensed by the first temperature sensor of the water storage tank is input to the microcomputer, the microcomputer compares the current temperature of the water storage tank with the preset temperature set through the key button, If the temperature is higher than the set temperature, the suction and discharge pump is driven for 1 hour (to prevent the sickness), and the cold water is discharged to the clean type hot and cold water mat.

From now on, the drive time is reserved by the timer switch.

Next, the cold water is supplied to the portion of the honeycomb type hot / hot water passage of the seamless hot / cold water mat.

At this time, when the supply of the cold water to the honeycomb type cold / hot water channel is completed, the discharge mode driving of the suction and discharge pump is stopped, and the temperature of the seamless type cold / hot water mat is sensed by the fourth temperature sensor of the seamless type hot /

Next, when the mat temperature detected by the fourth temperature sensor is higher than the set temperature set through the key button unit in the microcomputer, the suction mode of the suction and discharge pump 170 is driven to suck the cold water delivered to the seamless type cold / When the mat temperature is lower than the set temperature set through the key button unit, the suction / discharge pump 170 and the hot / cold water hose 180 are stopped to stop the discharge mode driving.

Finally, the microcomputer senses the temperature of the water storage tank sensed by the sensing unit, the water level, the slope of the box-type main body, and the heat of the thermoelectric module, .

[ Hot water mode  Driving process]

First, the water is stored in a water storage tank through a water bottle.

Next, press the key button section to select the hot water power, and set the temperature and the timer.

Next, when the hot water mode is driven, the PTC heater module is driven under the control of the microcomputer unit.

Next, the PTC heater module is driven, and the underwater motor supplies hot water to the water storage tank.

Next, when the sensing value sensed by the first temperature sensor of the water storage tank is input to the microcomputer, the microcomputer compares the current temperature of the water storage tank with the preset temperature set through the key button unit, When the temperature is lower than the set temperature, the suction and discharge pump is driven to discharge the hot water to the seamless hot / cold water mat.

Next, the hot water is supplied to the honeycomb type hot / hot water channel of the seamless hot / cold water mat.

At this time, when the hot water supply to the honeycomb type cold / hot water channel reaches the set temperature, the discharge mode driving of the suction and discharge pump is stopped and the temperature of the seamless type cold / hot water mat is sensed by the fourth temperature sensor of the seamless type hot /

Next, if the mat temperature detected by the fourth temperature sensor is lower than the preset temperature set through the key button unit, the microcomputer stops the discharge mode driving of the suction and discharge pump. When the mat temperature reaches the set temperature The suction mode of the suction and discharge pump is driven to suck hot water transferred to the seamless type cold / hot water mat and draw it into the water storage tank, so that the mat temperature is continuously circulated so as to be higher than the set temperature.

Finally, the microcomputer senses the temperature of the water storage tank, the water level, the slope of the box-type main body, and the overheating temperature of the PTC heater module sensed through the sensing unit. .

1: Smart clean hot water mat device 100: Slim type twin hot water generating module
110: box-shaped main body 120: key button portion
130: water storage tank 140: sensing part
150: thermoelectric element 160: PTC heater module
170: Suction / exhaust pump 180: Hot and cold water hose
190: Microcomputer 200: Heat and cold water mat

Claims (2)

A slim type twin cold / hot water generating module (100) which is located at one side of the seamless cold / hot water mat and transforms the water into cold water or hot water in accordance with a user setting temperature and supplies the water to the seamless hot /
Hot-water mat (200) having a rectangular mat-type structure and being converted into a cold water mat by receiving the cold water from the slim-type twin cold / hot water generating module or receiving hot water from the slim- A smart clean hot / cold water mat device through a twin cold / hot water generating module,
The non-return type cold / hot water mat (200)
A mat main body 210 having a square mat shape and supporting the top cover mat and the bottom cover mat,
The upper cover mat is placed on the upper end of the lower cover mat, and the waterproof member is joined on the rectangular PVC material, and then the hexagonal honeycomb mold is formed on the surface by the hexagonal honeycomb mold, An upper cover mat (220) integrally connected to generate a honeycomb cold / hot water channel so that cold or warm water flows therethrough to transmit cool air or warm air to the mat main body,
The upper cover mat is placed at the lower end, and the waterproof member is joined on the rectangular PVC material, and then the hexagonal honeycomb mold is formed on the surface by the hexagonal honeycomb mold frame, A lower cover mat 230 which is integrally connected to generate a honeycomb cold / hot water channel so as to flow cold water or hot water and supports the upper cover mat in the lower direction,
A honeycomb cold / hot water channel portion 240 formed of a hexagonal honeycomb structure between the upper cover mat and the lower cover mat to form a channel by receiving cold water or hot water,
Hot water or hot water supplied to the seamless type hot / cold water mat is disposed between the one side of the second supply hose to which the first supply hose is connected and the one side of the second discharge hose to which the first discharge hose is connected, A second check valve (250) for preventing backflow to the discharge hose,
A second supply hose (260) which is formed on the inlet of the mat main body and which supplies cold water or hot water to the inflow-type cold / hot water mat inlet,
A second discharge hose 270 formed on the discharge port of the mat main body and discharging cold water or hot water circulated into the mat main body to the slim type twin cold / hot water generating module,
When the cold water or hot water flows along the honeycomb type cold / hot water channel portion, cold water or hot water is supplied to the one side portion through the second supply hose to guide the mat body to be circulated clockwise or counterclockwise to be charged, And a mat separating membrane (280) for guiding the cold water or hot water filled in the mat main body to discharge the hot water through the slit-type twin hot / hot water generating module Device.
The waterproofing member according to claim 1, wherein the waterproof member is formed by adhering a nano-web membrane, which is a hydrophobic polyurethane microporous film having a weight of 5.2 g / m 2 and a thickness of 10 m, on the surface of a nylon fabric with a hot-melt adhesive, And a coating layer formed on the membrane,
The hot-melt adhesive is composed of 75 to 85 wt% of a composite polyamide resin obtained by blending a polyamide resin having a density (g / cm 3) of 1.08 and a polyamide resin having a density (g / cm 3) of 1.07 in a weight ratio of 75:25 and a terpene resin and 2 to 5% by weight of polyethylene wax or paraffin wax and 2 to 5% by weight of talc or calcium carbonate (CaCO ₃ )
The coating layer may contain 1 to 5 parts by weight of a melamine hardener, 0.5 to 3 parts by weight of TMHDA (Tetramethylenediamine) of Catalys, 100 parts by weight of a matting agent, 100 parts by weight of a polyurethane resin (PU resin) 2 to 10 parts by weight of synthetic silica and 10 to 20 parts by weight of toluene as a solvent are mixed with 98 to 99.5 wt% of polyurethane coating agent and 0.5 to 2 wt% of conductive metal, The upper surface of the nano-web membrane, and the lower surface of the nano-web membrane.

Images