KR20140049688A - Hot water mat using hot water boiler - Google Patents

Abstract

The present invention relates to a heating mat using a hot water boiler. Provided is the heating mat using a hot water boiler preventing noise which comprises: a water heating unit discharging water introduced thereinto; a storage tank unit which forms a space for accommodating water and which stores hot water discharged from the water heating unit; a hot water mat unit which introduces hot water stored in the storage tank unit and which circulates the water therein; and a check valve unit which is located in at least one pipe duct formed so that the hot water discharged from the water heating unit moves to the hot water mat unit through the storage tank unit and which is provided to move the hot water only in one direction. According to the present invention, the heating mat using a hot water boiler can rapidly circulate hot water even through water is not sufficiently boiled in the water heating unit as vapor pressure is generated by exposing the heater submersed in the water in the water heating unit. The present invention can reduce the noise generated while water is boiled as compared to the conventional vapor pressure type heating mat. [Reference numerals] (AA) Hot water moving direction

Description

[0001] HOT WATER MAT USING HOT WATER BOILER [0002]

The present invention relates to a warm mat using a hot water boiler.

Although the electric plate using the heating wire is widely used at home for the local heating, the electric plate generates the electromagnetic wave between the use, and the use amount thereof is gradually decreased because there is a fear that it will adversely affect the human body.

Accordingly, in recent years, a hot water mat having no risk of generation of electromagnetic waves such as electric plates has been released by injecting hot water having heat energy into the mat. However, since the conventional hot water mat has to circulate the hot water through the circulation pump, noise and vibration due to the driving of the electric motor provided in the pump have been accompanied. This causes stress of the user and increases the volume of the hot water mat It became the main cause.

In order to solve such a problem, a hot water mat using a vapor pressure suction system has been proposed in Korean Patent Registration No. 10-0948908 (hereinafter referred to as "prior art").

In the prior art, there is an advantage that circulation of hot water is performed through a vapor pressure suction system, and therefore, a conventional circulation pump is not required. However, in order to generate a steam pressure to smoothly circulate hot water, I had to boil.

That is, the prior art has inevitably caused the boiling of water in the process of heating the water, which caused another noise problem.

Therefore, it is urgent to develop a hot water mat which can reduce noise for convenience of use.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a hot water mat technology in which no noise is generated.

According to an aspect of the present invention, there is provided a heating mat using a hot water boiler, comprising: a water heating unit for heating and discharging water introduced into the heating mat; A storage tank portion in which a space for receiving water is formed and stores hot water discharged from the water heating portion; A hot water mat portion for introducing the hot water stored in the storage tank portion and circulating the hot water therein; And a check valve unit positioned in at least one conduit through which the hot water discharged from the water heating unit moves to the hot water mat part via the storage tank unit and the hot water moves only in one direction; . ≪ / RTI >

In addition, the storage tank portion may include a hot water tank portion for storing the hot water heated by the water heating portion; A cold water tank for storing water flowing from the outside and supplying the water to the water heating unit; An auxiliary tank portion located between the hot water tank portion and the cold water tank portion and being defined by at least one partition wall; . ≪ / RTI >

In addition, a fluid passage hole through which water can pass may be formed in one surface of the partition wall partitioning the auxiliary tank portion.

Here, the height of the partition wall may be lower than the height of the storage tank portion.

Meanwhile, the heating mat using the hot water boiler may include a hot water inflow tube unit for connecting the hot water tank unit and the water heating unit to form a passage for moving hot water heated in the water heating unit to the hot water tank unit. And a hot water outlet tube portion connecting the hot water tank portion and the hot water mat portion to form a passage for moving the hot water stored in the hot water tank portion to the hot water mat portion; As shown in FIG.

The check valve unit may include a first check valve unit positioned in the hot water inflow tube unit and configured to move the hot water discharged from the water heating unit only in the direction of the hot water tank unit; And a second check valve disposed in the hot water outlet tube portion and configured to move the hot water discharged from the hot water tank portion only in the direction of the hot water mat portion; . ≪ / RTI >

According to another aspect of the present invention, there is provided a heating mat using a hot water boiler, comprising: a water heating unit having a heater for heating water introduced into the heating mat; A storage tank portion in which a space for receiving water is formed and stores hot water discharged from the water heating portion; And a hot water mat unit for introducing the hot water stored in the storage tank unit and circulating the hot water therein; Wherein the heater is spaced from the bottom surface of the water heating part and can be installed to be inclined with respect to a horizontal plane.

Also, the heating mat using the hot water boiler may include a water level sensor unit for checking the amount of water introduced into the water heating unit; As shown in FIG.

The water level sensor unit may include a first water level sensor disposed on an inner surface of the water heating unit and measuring a water level of the water introduced into the water heating unit; And a second water level sensor unit disposed at a lower position than the first water level sensor unit to measure the low water level of the water introduced into the water heating unit; . ≪ / RTI >

Meanwhile, the heating mat using the hot water boiler controls the operation of the heater according to the detection result of the water level sensor to supply heat stored in the water heating unit. As shown in FIG.

Further, the controller may control the power to be applied to the heater when the first level sensor unit operates, and may control the power source to be cut off when the second level sensor unit operates.

In addition, the storage tank portion may include a hot water tank portion for storing the hot water heated by the water heating portion; A cold water tank for storing water flowing from the outside and supplying the water to the water heating unit; An auxiliary tank portion located between the hot water tank portion and the cold water tank portion and being defined by at least one partition wall; . ≪ / RTI >

According to another aspect of the present invention, there is provided a heating mat using a hot water boiler, comprising: a water heating unit having a heater for heating water introduced into the heating mat; A storage tank portion in which a space for receiving water is formed and stores hot water discharged from the water heating portion; And a hot water mat unit for introducing the hot water stored in the storage tank unit and circulating the hot water therein; And a part of the bottom surface of the water heating part may be inclined in one direction.

Here, the bottom surface may include a first bottom surface configured to form a space for receiving water introduced into the water heating unit; And a second bottom surface inclined downward with respect to the first bottom surface; . ≪ / RTI >

In addition, the storage tank portion may include a hot water tank portion for storing the hot water heated by the water heating portion; A cold water tank for storing water flowing from the outside and supplying the water to the water heating unit; An auxiliary tank portion located between the hot water tank portion and the cold water tank portion and being defined by at least one partition wall; . ≪ / RTI >

In addition, the heating mat using the hot water boiler includes a water level sensor unit for checking the amount of water introduced into the water heating unit; As shown in FIG.

The water level sensor unit is disposed on the inner surface of the water heating unit, and includes a first water level sensor unit for measuring a water level of the water introduced into the water heating unit; And a second water level sensor unit disposed at a lower position than the first water level sensor unit to measure the low water level of the water introduced into the water heating unit; . ≪ / RTI >

Meanwhile, the heating mat using the hot water boiler controls the operation of the heater according to the detection result of the water level sensor to supply heat stored in the water heating unit. As shown in FIG.

As described above, according to the present invention, electromagnetic waves are not generated as the hot water is circulated by the vapor pressure. In addition, according to the present invention, since the heater, which is immersed in water, is quickly exposed to the air in the water heating unit to generate the vapor pressure, the circulation of the hot water can be rapidly performed even if the water does not sufficiently boil in the water heating unit.

That is, the present invention has the effect of reducing the noise generated when boiling water as compared with the conventional hot water mat of the vapor pressure type.

1 shows a heating mat using a hot water boiler according to the present invention.
2 is an exploded perspective view of a water heating unit according to the present invention.
3 is a sectional view of a housing according to the present invention in which a part of a heater is immersed in water stored in a water heating part.

The preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings, in which the technical parts already known will be omitted or compressed for simplicity of explanation.

≪ Embodiment 1 >

The heating mat 10 using the hot water boiler according to the present invention includes the water heating unit 100, the storage tank unit 200, the hot water mat unit 300, and the check valve unit 400, 1 to Fig. 3.

The water heating unit 100 includes a heater 110 for heating the water introduced into the water heating unit 100, and a heater 110 for heating the introduced cold water. As shown in FIG. 2, the heater 110 according to the first embodiment is preferably formed in a coil shape in terms of reducing the volume of the water heating part 100.

In addition, since the inside of the water heating unit 100 must be maintained at a high temperature over a certain temperature by the heater 110, it is preferable to use a polyester resin having excellent heat resistance and flexibility such as PBT (Polybutylene Terephthalate) .

The storage tank unit 200 forms a space for storing water by supplying water from the outside in order to supply water to the hot water mat unit 300 and stores hot water heated by the water heater unit 100 therein. Also, since the storage tank unit 200 is required to continuously store hot water at a high temperature, it is preferable that the storage tank unit 200 is formed of a synthetic resin type having excellent heat resistance and strength such as polycarbonate (PC). The storage tank unit 200 may be subdivided into a hot water tank unit 210, a cold water tank unit 220, and an auxiliary tank unit 230 according to respective functions.

The hot water tank unit 210 is a tank for storing hot water heated in the water heating unit 100 and connected to the water heating unit 100 by the hot water inflow tube unit 500. The hot water heated in the water heating unit 100 flows through the hot water inflow tube unit 500 and flows into the hot water tank unit 210.

On the other hand, the hot water flowing into the hot water tank unit 210 moves to the hot water mat unit 300 through the hot water outlet tube unit 600.

In the first embodiment of the present invention, the check valve unit 400 is provided in at least one channel formed so that the hot water discharged from the water heating unit 100 is moved to the hot water mat unit 300 via the hot water tank unit 210 And the check valve unit 400 controls the moving direction of the hot water so that hot water in the pipeline moves only in one direction.

That is, the first check valve unit 410 is located in the hot water inflow tube unit 500 so that the hot water discharged from the water heating unit 100 moves only in the direction of the hot water tank unit 210, The second check valve portion 420 is positioned within the hot water outlet tube portion 600 so that the hot water discharged from the hot water dispenser 210 moves only in the direction of the hot water mat portion 300. [

The cold water tank unit 220 receives and stores water from the outside, and the cold water recovery tube unit 1000 is connected to the lower surface of the cold water tank unit 220 and the upper surface of the water heating unit 100. A part of the water stored in the cold water tank unit 220 is supplied to the water heating unit 100 through the cold water replenishing tube unit 800 when the water stored in the water heating unit 100 falls below a predetermined water level.

The auxiliary tank portion 230 is located between the hot water tank portion 210 and the cold water tank portion 220 and is defined by at least one partition wall 231 and 232. At this time, on one side of the partition walls 231 and 232 partitioning the auxiliary tank part 230, a fluid-passing hole H through which water can pass is perforated.

A part of the water filled in the cold water tank part 220 flows into the auxiliary tank part 220 through the fluid transfer hole H when water flows into the inside of the cold water tank part 220 from the outside through the water injecting part 1100. [ 230 or the hot water tank part 210. [0050]

That is, even though water is introduced into the cold water tank part 220 more than the storage capacity of the cold water tank part 220 due to the mistake of the user injecting the water, The water introduced into the cold water tank 220 is not discharged to the outside through the water injecting part 1100. Accordingly,

1, the height of the partitions 231 and 232 is lower than the height of the storage tank part 200, so that the steam generated from the hot water stored in the hot water tank part 210 flows into the auxiliary tank part 200, (230) to the steam outlet (222) formed in the upper part of the cold water tank part (220), and is discharged to the outside.

Accordingly, the steam generated in the hot water tank unit 210 stays in the storage tank unit 200 for a long time, and most of the steam is supplied to the cold water stored in the lower part of the auxiliary tank unit 230 and the cold water tank unit 220 And only a part of the vapor which has not been liquefied is discharged to the outside.

That is, the present invention prevents burn incidents that may occur due to the discharge of hot steam, and minimizes the amount of water loss due to the steam discharge.

The hot water mat unit 300 flows the hot water stored in the hot water tank unit 210 and circulates the hot water introduced therein. Here, the hot water mat unit 300 includes a hot water circulation pipe (not shown) for circulating the hot water. The hot water introduced into the hot water mat unit 300 moves along the hot water circulation pipe and transfers heat to the outside of the hot water mat unit 300.

≪ Embodiment 2 >

In the configuration of the second embodiment, the same contents as those of the first embodiment described above will be omitted.

The water heating unit 100 includes a heater 110 for heating the water introduced into the water heating unit 100, and a heater 110 for heating the introduced cold water. Here, the heater 110 is installed so as to be spaced apart from the bottom surface of the water heating unit 100 and to be inclined with respect to the horizontal plane so as to prevent overheating of the water heating unit 100 during operation.

As shown in FIG. 2, the water heating unit 100 includes a heater 110, a housing 120, and a heater 110 cap. Since the end of the heater 110 is fixed by the heater fixing parts 132 and 133, the position of the heater 110 is fixed in the water heating part 100, and a predetermined distance from the bottom surface of the housing 120 .

In addition, the heater fixing portions 132 and 133 are formed to be inclined with respect to the horizontal plane of the heater cap 130, so that the heater 110 can be installed to be inclined in the water heating portion 100.

The water level sensor unit 700 senses the amount of water flowing into the water heating unit 100 and is disposed on the inner surface of the water heating unit 100 and measures the water level of the water flowing into the water heating unit 100 And a second water level sensor unit 720 disposed at a position lower than the first water level sensor unit 710 to measure the low water level of the water introduced into the first water level sensor unit 710 and the water heating unit 100 .

The control unit controls the operation of the heater 110 according to the detection results of the first water level sensor unit 710 and the second water level sensor unit 720 so as to supply heat to the water stored in the water heating unit 100 . That is, when the high level is sensed by the first level sensor unit 710, the controller controls the power source to be applied to the heater 110. When the low level is sensed by the second level sensor unit 720, 110 are turned off.

≪ Third Embodiment >

In the configuration of the third embodiment, the same contents as those of the first embodiment described above will be omitted.

3, the housing 120 of the water heating unit 100 includes a first bottom surface 121 and a second bottom surface 121 to form a space for accommodating water introduced into the water heating unit 100, And a bottom surface 122.

The second bottom surface 122 is inclined downward with respect to the first bottom surface 121 so that the hot water heated in the water heating unit 100 flows through the hot water outlet unit 131 into the hot water tank unit 210, a part of the water remains in the water heating unit 100. [ Further, the water remaining on the second bottom surface 122 is continuously brought into contact with one side of the inclined heater 110.

That is, according to the present invention, since the water remaining on the second bottom surface 122 is in contact with the heater 110, the overheat of the heater 110 is prevented, There is an effect of eliminating noise that may be generated when the heater 110 is brought into contact.

The circulation of the hot water in the heating mat 10 using the hot water boiler according to the present invention will be described as follows.

When the water is heated by the heater 110 in the water heating unit 100, the internal pressure of the water heating unit 100 is increased as steam is generated in the water heating unit 100. At this time, the hot water in the water heating part 100 opens the first check valve part 410 located on the hot water inflow tube part 500 by the steam pressure generated in the water heating part 100, And the hot water introduced into the hot water tank unit 210 moves toward the hot water mat unit 300 while opening the second check valve unit 420 located on the hot water outlet tube unit 600 .

As the hot water in the water heating unit 100 flows into the hot water tank unit 210, the water level of the water heating unit 100 gradually decreases. At this time, when the low level is sensed by the second water level sensor unit 720, the control unit controls the power applied to the heater 110 to be cut off.

The steam generated in the water heating unit 100 starts to be liquefied and the internal pressure of the water heating unit 100 is reduced after the power supply to the heater 110 is cut off, The hot water flowing into the water heating unit 100 flows through the cold water inflow unit 123.

If the high level sensing by the first water level sensor unit 710 does not occur until the pre-stored time elapses after the low level is sensed by the second water level sensor unit 720, The second solenoid valve portion 910 is opened to allow the steam remaining in the upper portion of the water heating portion 100 to flow into the cold water tank portion 220) so as to smoothly circulate the water by the vapor pressure.

As the water level in the water heating unit 100 rises again, the first water level sensor unit 710 senses this and the control unit controls the power to the heater 110 so that circulation of the hot water described above is repeatedly performed.

Since a separate check valve is not provided in the cold water collecting tube part 1000 between the water heating part and the hot water mat part 300, a part of the hot water remaining in the water heating part 100 is discharged to the hot water mat part (300). Therefore, the heater 110, which is immersed in the water of the water heating unit 100, is quickly exposed to the air, and it is easy to generate the vapor pressure by heating the air existing in the water heating unit 100. [

That is, according to the present invention, it is possible to generate the steam pressure before the water in the water heating unit 100 is sufficiently boiled, and the hot water can be moved to the hot water tank unit 210 by the generated steam pressure, .

In the present invention, since the heater 110 inside the water heating unit 100 is installed to be inclined with respect to the horizontal plane, the heater 110 can be quickly exposed to the air, The time for generating the vapor pressure is shortened.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. And the scope of the present invention should be understood as the following claims and their equivalents.

10: Heated mat using hot water boiler
100: water heating section
110: heater
120: Housing
121: first bottom surface
122: second bottom surface
123: cold water inlet
124:
125: second connector
130: heater cap
131: Hot water outlet
132, 133: heater fixing portion
200: Storage tank part
210: Hot water tank part
220: cold water tank part
221: Level sensor
222: steam outlet
230: auxiliary tank portion
231, 232:
H: Fluid movement hole
300: Hot water mat part
400: check valve portion
410: first check valve portion
420: second check valve portion
500: Hot water inflow tube part
600: Hot water outlet tube portion
700: Water level sensor unit
710: the first water level sensor unit
720: second water level sensor unit
800: cold water supplement tube portion
810: the first solenoid valve portion
900: tube for air discharge
910: the second solenoid valve portion
1000: cold water recovery tube part
1100: water injection unit
1200:

Claims (18)

A water heating unit for heating and discharging the water introduced into the inside;
A storage tank portion in which a space for receiving water is formed and stores hot water discharged from the water heating portion;
A hot water mat portion for introducing the hot water stored in the storage tank portion and circulating the hot water therein; And
A check valve unit located in at least one conduit through which the hot water discharged from the water heating unit moves to the hot water mat part via the storage tank unit and the hot water moves only in one direction; ≪ RTI ID = 0.0 >
Heated mat using hot water boiler. The method of claim 1,
The storage tank portion
A hot water tank for storing hot water heated by the water heating unit;
A cold water tank for storing water flowing from the outside and supplying the water to the water heating unit; And
An auxiliary tank portion located between the hot water tank portion and the cold water tank portion and being defined by at least one partition wall; ≪ RTI ID = 0.0 >
Heated mat using hot water boiler. 3. The method of claim 2,
And a fluid-moving hole through which water can pass is formed in one surface of the partition wall partitioning the auxiliary tank portion
Heated mat using hot water boiler. The method of claim 3,
And the height of the partition wall is formed to be lower than the height of the storage tank part
Heated mat using hot water boiler. 5. The method of claim 4,
The heating mat using the hot water boiler
A hot water inflow tube portion connecting the hot water tank portion and the water heating portion to form a passage for moving hot water heated in the water heating portion to the hot water tank portion; And
A hot water outlet tube portion connecting the hot water tank portion and the hot water mat portion to form a passage for moving the hot water stored in the hot water tank portion to the hot water mat portion; ≪ RTI ID = 0.0 >
Heated mat using hot water boiler. 6. The method of claim 5,
The check valve
A first check valve unit positioned in the hot water inflow tube unit and configured to move the hot water discharged from the water heating unit only in the direction of the hot water tank unit; And
A second check valve positioned in the hot water outlet tube portion and configured to move the hot water discharged from the hot water tank portion only in the direction of the hot water mat portion; ≪ RTI ID = 0.0 >
Heated mat using hot water boiler. A water heating unit having a heater for heating the water introduced therein;
A storage tank portion in which a space for receiving water is formed and stores hot water discharged from the water heating portion; And
A hot water mat portion for introducing the hot water stored in the storage tank portion and circulating the hot water therein; Lt; / RTI >
The heater is spaced apart from the bottom surface of the water heater, characterized in that installed to be inclined with respect to the horizontal plane
Heated mat using hot water boiler. 8. The method of claim 7,
The heating mat using the hot water boiler
A water level sensor for checking the amount of water introduced into the water heating unit; ≪ RTI ID = 0.0 >
Heated mat using hot water boiler. 9. The method of claim 8,
The level sensor unit
A first water level sensor disposed on an inner surface of the water heating unit and measuring a water level of the water introduced into the water heating unit; And
A second water level sensor disposed at a lower position than the first water level sensor to measure a low water level of water introduced into the water heating unit; ≪ RTI ID = 0.0 >
Heated mat using hot water boiler. 10. The method of claim 9,
The heating mat using the hot water boiler
A controller for controlling the operation of the heater according to the detection result of the water level sensor unit to supply heat stored in the water heating unit; ≪ RTI ID = 0.0 >
Heated mat using hot water boiler. 11. The method of claim 10,
Wherein the controller controls the power to be applied to the heater when the first level sensor unit operates and controls the power source to be cut off when the second level sensor unit operates,
Heated mat using hot water boiler. 12. The method of claim 11,
The storage tank portion
A hot water tank for storing hot water heated by the water heating unit;
A cold water tank for storing water flowing from the outside and supplying the water to the water heating unit; And
An auxiliary tank portion located between the hot water tank portion and the cold water tank portion and being defined by at least one partition wall; ≪ RTI ID = 0.0 >
Heated mat using hot water boiler. A water heating unit having a heater for heating the water introduced therein;
A storage tank portion in which a space for receiving water is formed and stores hot water discharged from the water heating portion; And
A hot water mat portion for introducing the hot water stored in the storage tank portion and circulating the hot water therein; Lt; / RTI >
A portion of the bottom surface of the water heater is characterized in that inclined in one direction
Heated mat using hot water boiler. 14. The method of claim 13,
The bottom surface is
A first bottom surface configured to define a space for receiving water introduced into the water heating unit; And
A second bottom surface inclined downward with respect to the first bottom surface; ≪ RTI ID = 0.0 >
Heated mat using hot water boiler. 15. The method of claim 14,
The storage tank portion
A hot water tank for storing hot water heated by the water heating unit;
A cold water tank for storing water flowing from the outside and supplying the water to the water heating unit; And
An auxiliary tank portion located between the hot water tank portion and the cold water tank portion and being defined by at least one partition wall; ≪ RTI ID = 0.0 >
Heated mat using hot water boiler. 16. The method of claim 15,
The heating mat using the hot water boiler
A water level sensor for checking the amount of water introduced into the water heating unit; ≪ RTI ID = 0.0 >
Heated mat using hot water boiler. 17. The method of claim 16,
The level sensor unit
A first water level sensor disposed on an inner surface of the water heating unit and measuring a water level of the water introduced into the water heating unit; And
A second water level sensor disposed at a lower position than the first water level sensor to measure a low water level of water introduced into the water heating unit; ≪ RTI ID = 0.0 >
Heated mat using hot water boiler. 18. The method of claim 17,
The heating mat using the hot water boiler
A controller for controlling the operation of the heater according to the detection result of the water level sensor unit to supply heat stored in the water heating unit; ≪ RTI ID = 0.0 >
Heated mat using hot water boiler.

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