KR102578161B1 - System for heating air and mat using gas fuel and method thereof - Google Patents

Abstract

The present invention relates to a hot air and mat heating system using gas and a control method thereof. The present invention relates to a gas flame generating unit that generates a flame with gas; a power port in which the water filled therein is heated by the flame of the gas flame generating unit; A heater that generates warm wind using hot water heated in the power port; a supply unit supplying hot water heated in the power port to the air heater; a mat heated with hot water that has passed through the heater; a return tube that guides cooled water that has passed through the mat to re-flow into the power port; a selection flow unit that guides the hot water that has passed through the heater to flow to the mat or return tube; a thermoelectric element that generates electricity by a flame of the gas flame generating unit; and a control unit that controls electricity generated from the thermoelectric element to be supplied to the hot air blower and the supply unit. According to the present invention, when camping using a tent, it not only warms the floor inside the tent, but also keeps the air inside the tent warm, and increases use time by efficiently using gas, which is a heat source.

Description

Warm air and mat heating system using gas and its control method {SYSTEM FOR HEATING AIR AND MAT USING GAS FUEL AND METHOD THEREOF}

The present invention relates to a hot air and mat heating system using gas and a control method thereof.

Due to recent improvements in living standards, the number of people using their spare time to engage in leisure activities such as camping or fishing is rapidly increasing. In the case of camping or fishing, camping is often done using tents. When camping in a tent, the cold and moisture from the tent floor can cause uncomfortable sleeping or health problems.

In Republic of Korea Patent No. 10-1635069 (published on June 30, 2016) (hereinafter referred to as prior art), a tube is provided inside a hot water mat, and water is heated in a boiler and circulated through a tube provided inside the hot water mat. A technology for keeping a hot water mat warm is disclosed. The prior art places a hot water mat on the floor of a tent, heats water in a boiler, and circulates it through the hot water mat to keep the hot water mat warm, allowing users to sleep comfortably inside a tent installed outdoors.

However, in the prior art, the user sleeps on a heated mat on the floor inside the tent, so the user's body can be warm, but since it is outdoors, the inside of the tent is cold at night, making it difficult for the user to stay comfortably. Meanwhile, when a boiler is placed inside a tent, users inside the tent may become poisoned by carbon monoxide due to an increase in carbon monoxide.

The purpose of the present invention is to provide a hot air and mat heating system using gas and a control method thereof that can not only warm the floor inside the tent when camping using a tent, but also keep the air inside the tent warm.

Another object of the present invention is to provide a hot air and mat heating system using gas that can keep the air and floor inside the tent warm while efficiently using gas, which is a heat source, and a control method thereof.

In order to achieve the purpose of the present invention, a gas flame generating unit that generates a flame with gas; a power port in which the water filled therein is heated by the flame of the gas flame generating unit; A heater that generates warm wind using hot water heated in the power port; a supply unit supplying hot water heated in the power port to the air heater; a mat heated with hot water that has passed through the heater; a return tube that guides cooled water that has passed through the mat to re-flow into the power port; a selection flow unit that guides the hot water that has passed through the hot air blower to flow to the mat or return tube; a thermoelectric element that generates electricity by a flame of the gas flame generating unit; A hot air and mat heating system using gas is provided, including a control unit that controls electricity generated from the thermoelectric element to be supplied to the hot air blower and the supply unit.

In addition, it includes a hot air mat simultaneous mode, a warm air mode, and a mat heating mode, wherein the hot air mat simultaneous mode includes the following steps: hot water heated in a power port passes through a hot air blower, the hot air blower operates, and the hot air blower emits warm wind; A step of supplying hot water that has passed through the heater to the mat to warm the mat; Returning the cooled water that has passed through the mat to the power port, wherein the hot air mode includes the steps of: hot water heated in the power port passing through a hot air blower, operating the hot air blower to emit warm air from the hot air blower; A step of returning the cooled water that has passed through the heater to the power port, wherein the mat heating mode is where hot water heated in the power port is supplied to the mat through the heater, but the heater is not operating and is supplied to the mat. The mat is warmed up; A method of controlling a hot air and mat heating system using gas is provided, including returning cooled water that has passed through the mat to the power port.

In the present invention, during outdoor camping, a gas flame generating unit is placed outside the tent, a power port filled with water is placed on the gas flame generating unit, a hot air blower is placed inside the tent, and a hot air blower is blown while a mat is placed on the inner floor of the tent. By dissipating heat, the air inside the tent is kept warm and the mat is kept warm, allowing you to camp comfortably.

In addition, the present invention allows the heater and the mat to be used selectively or simultaneously, which not only increases convenience of use but also allows efficient use of gas.

In addition, the present invention heats the water in the power port with the flame of the gas flame generating unit and simultaneously generates electric energy through a thermoelectric element to operate the supply unit and the hot air blower, thereby increasing gas energy efficiency.

In addition, the present invention includes a gas flame generating unit, a power port, a heater, a supply unit, a mat, a return tube, a selection flow unit, a thermoelectric element, and a control unit, so the configuration is simple, making it convenient to transport and use.

1 is a piping diagram showing an embodiment of a hot air and mat heating system using gas according to the present invention;
Figure 2 is a plan view showing a centering guide constituting an embodiment of a hot air and mat heating system using gas according to the present invention;
Figure 3 is a front view showing a centering guide constituting an embodiment of a hot air and mat heating system using gas according to the present invention;
Figure 4 is a perspective view showing an embodiment of a hot air and mat heating system using gas according to the present invention installed in a tent;
Figure 5 is a block diagram showing an embodiment of a method for controlling a hot air and mat heating system using gas according to the present invention;
Figure 6 is a flowchart of the hot air mat simultaneous mode constituting an embodiment of the control method of the hot air and mat heating system using gas according to the present invention;
Figure 7 is a flowchart of the hot air mode constituting an embodiment of the control method of the hot air and mat heating system using gas according to the present invention;
Figure 8 is a flowchart of a mat heating mode constituting an embodiment of a method of controlling a hot air and mat heating system using gas according to the present invention.

Hereinafter, embodiments of a hot air and mat heating system using gas and a control method thereof according to the present invention will be described with reference to the accompanying drawings.

As shown in Figures 1 and 2, the hot air and mat heating system using gas according to the present invention includes a gas flame generating unit (10), a power port (20), a hot air blower (30), a supply unit (40), and a mat. (50), a return tube (60), a selection flow unit (70), a thermoelectric element (80), and a control unit (90).

The gas flame generating unit 10 generates a flame with gas. As an example of the gas flame generating unit 10, the gas flame generating unit 10 includes a gas cylinder 11 filled with gas and provided with a valve on the upper gas outlet side, and a gas cylinder 11 that is detachably coupled to the gas cylinder 11. A burner (12) that generates a flame by the gas sprayed from (11), and a centering ring that is detachably coupled to the top of the burner (12) and guides the power port (20) to the center of the burner (12) when it is seated. Includes guide (13). The gas cylinder 11 can be small, medium, or large. The gas cylinder 11 is a known technology, so detailed description will be omitted. The burner 12 is provided with a plurality of support feet 1 at the upper end. There are generally three, four, or six support feet (1). Since the burner 12 is a known technology, detailed description will be omitted.

As an example of the centering guide 13, as shown in FIGS. 2 and 3, the centering guide 13 includes an annular ring plate portion 2 formed in the shape of an annular ring, and an annular ring plate portion 2 in the circumferential direction. A plurality of clip parts (3) are positioned at regular intervals and protrude from one side of the annular ring plate part (2) to be attached and detached from the top of the burner, and protrude in a vertical direction from the other side of the annular ring plate part (2). It includes a seating support portion 4 on which the power port 20 is seated. The annular ring plate portion 2 preferably has a uniform thickness and a uniform width. It is preferable that the plurality of clip parts 3 are formed to have the same size and shape. It is preferable that the longitudinal direction of the clip portion (3) is located in the radial direction of the annular ring plate portion (2). That is, the plurality of clip parts 3 are each positioned in a radial direction with respect to the center point of the annular ring plate part 2. It is preferable that there are 12 clip parts (3). As an example of the clip part 3, the clip part 3 cuts areas of a set size on both sides of the circumferential direction based on a reference area of a square area, bends the cut parts in the vertical direction, and folds them side by side in the vertical direction. It includes two bent plates positioned in a similar manner. The seating support portion 4 is preferably extended and bent on the inner peripheral surface of the annular ring plate portion 2. The clip portion (3) and the seating support portion (4) are located in opposite directions with respect to the annular ring plate portion (2).

The centering guide (13) is coupled so that the support foot (1) of the burner (12) is inserted into the clip part (3) with the clip parts (3) facing downward. At this time, the center hole of the annular ring plate part (2) is connected to the burner. It is located in the middle part of (12). The seating support portion 4 is located upward in the vertical direction. The power port 20 is inserted and seated in the seating support portion 4, and the power port 20 is not only located in the center of the burner 12 by the seating support portion 4, but is also supported so as not to move in the horizontal direction. .

The water filled inside the power port 20 is heated by the flame of the gas flame generating unit 10. As an example of the power port 20, the power port 20 includes a cylindrical water tank 21 with a closed bottom and an open top, and a lid 22 that covers the top of the water tank 21. do.

The hot air blower 30 generates warm wind using hot water heated in the power port 20. As an example of the hot air blower 30, the hot air blower 30 is bent in a zigzag manner so that one side is connected to the supply unit 40 and the other side is connected to the selection flow unit 70, and includes a heat radiation pipe 31 through which hot water flows, and , heat radiation fins 32 are coupled to the heat radiation pipe 31 at regular intervals to dissipate heat of hot water to the outside, and are located on one side of the heat radiation fins 32 to generate rotational force with electricity generated from the thermoelectric element 80. It includes a fan motor 33 that generates heat, and a heat dissipation fan 34 that is coupled to the fan motor 33 and rotates by the rotational force of the fan motor 33 to flow the heat radiated from the heat dissipation fins 32. The heat dissipation pipe 31, heat dissipation fins 32, fan motor 33, and heat dissipation fan 34 are located inside the case 35.

The supply unit 40 supplies hot water heated in the power port 20 to the air heater 30. As an example of the supply unit 40, the supply unit 40 includes a water supply tube 41 connecting the power port 20 and the hot air blower 30, and a water supply tube 41 connected to the power port 20. ) a circulation pump 42 that pumps water so that the water is supplied to the heater 30 through the water supply tube 41, a flow meter 43 provided in the water supply tube 41 to measure the flow rate, and water It includes a thermometer 44 provided in the supply tube 41 to measure the temperature of the water. The flow meter 43 measures the amount of water supplied to the hot air blower 30 through the water supply tube 41. The thermometer 44 measures the temperature of water supplied to the hot air blower 30 through the water supply tube 41.

The mat 50 is heated with hot water that has passed through the heater 30. The mat 50 includes a mat portion 51 having a set area and height, and a circulation pipe 52 provided throughout the interior of the mat portion 51 through which hot water circulates. One end of the circulation pipe 52 is an inlet through which water flows in, and the other end is an outlet through which water circulating in the circulation pipe 52 flows out. The selection flow unit 70 is connected to the inlet of the circulation pipe 52, and the return tube 60 is connected to the outlet of the circulation pipe 52.

The return tube 60 guides the cooled water that has passed through the mat 50 to reflow into the power port 20. That is, one end of the return tube 60 is connected to the circulation pipe outlet of the mat 50, and the other end is connected to the power port 20.

The selection flow unit 70 guides the hot water that has passed through the hot air blower 30 to flow to the mat 50 or the return tube 60. As an example of the selection flow unit 70, the selection flow unit 70 includes a main tube 71 whose one end is connected to the hot water outlet side of the hot air blower 30, and a branch at the other end of the main tube 71. a mat side branch tube 72 that is connected to the mat 50, a return side branch tube 73 that is branched from the other end of the main tube 71 and connected to the return tube 60, and a main tube 71. ) includes a three-way valve 74 that is provided at the other end and connects the water flowing into the main tube 71 to flow into the mat side branch tube 72 or the return side branch tube 73. The mat side branch tube 72 is connected to the inlet of the circulation pipe 52 of the mat 50. The return side branch tube 73 is connected to the middle portion of the return tube 60. A three-way valve may be provided at a portion where the return side branch tube 73 and the return tube 60 are connected.

When the selection flow unit 70 positions the three-way valve 74 so that the main tube 71 and the mat-side branch tube 72 communicate, the water flowing into the main tube 71 flows into the mat-side branch tube 72. It is supplied to the mat (50), and when the three-way valve (74) is positioned so that the main tube (71) and the return side branch tube (73) communicate, the water flowing into the main tube (71) flows to the return tube (60) and returns. It flows into the power port (20) through the tube (60).

The thermoelectric element 80 generates electricity by the flame of the gas flame generating unit 10. When heat is applied to the thermoelectric element 80, free electrons gain energy and generate electromotive force with that energy. As an example of the thermoelectric element 80, the thermoelectric element 80 includes a TEG (Thermoelectric Generator) module. This is a known technology, so detailed description will be omitted. The thermoelectric element 80 is preferably provided on the lower surface of the power port 20. It is preferable that there are multiple thermoelectric elements 80. Electricity generated from the thermoelectric element 80 is supplied to the hot air blower 30 and the supply unit 40 to drive the hot air blower 30 and the supply unit 40.

The control unit 90 controls the supply of electricity generated by the thermoelectric element 80 to the hot air blower 30 and the supply unit 40. The control unit 90 is connected to the thermoelectric element 80, the heater 30, and the supply unit 40, respectively. At this time, the fan motor 33 of the hot air blower 30 is connected to the control unit 90, and the circulation pump 42, flow meter 43, and thermometer 44 of the supply unit 40 are connected to the control unit 90. connected. It is preferable that the case 35 of the hot air blower 30 is further provided with a temperature sensor that detects the external temperature.

Meanwhile, in order to conveniently store and transport the hot air and mat heating system using gas, the water supply tube 41 and the power port of the supply unit 40 through which water is supplied from the power port 20 to the hot air blower 30. It is preferable that the first coupler 6 is provided adjacent to the power port 20 in the return tube 60 through which water returns to (20). In addition, a second coupler 7 is provided adjacent to the mat 50 on the mat side branch tube 72 through which water is supplied to the mat 50 and the return tube 60 through which water drains from the mat 50. This is desirable. The power port 20 and the mat 50 can be easily separated or connected to each other in the system by using the first and second couplers (6) and (7).

In such a hot air and mat heating system using gas, as shown in FIG. 4, when camping outdoors, the gas flame generating unit 10 is placed outside the tent and water is poured into the gas flame generating unit 10. Place the filled power port (20). Then, the heater 30 is placed inside the tent, and the mat 50 is placed on the inside floor of the tent.

When a flame is generated by combustion of gas in the gas flame generating unit 10, the water filled in the power port 20 is heated by the flame, and at the same time, electricity is generated in the thermoelectric element 80 to heat the supply unit 40 and the hot air heater. It is supplied to (30). The hot water heated in the power port 20 is pumped by the operation of the circulation pump 42 of the supply unit 40 and supplied to the heat radiation pipe 31 of the hot air blower 30 through the water supply tube 41. As hot water flows through the heat dissipation pipe 31 of the hot air blower 30, heat is dissipated through the heat dissipation fins 32, and the heat dissipation fan 34 rotates by the operation of the fan motor 33 of the hot air blower 30, thereby dissipating heat through the heat dissipation fins 32. ) keeps the air inside the tent warm by dissipating heat from the tent to the outside. The primary heat dissipated hot water that has passed through the heat radiation pipe 31 of the hot air blower 30 is supplied to the circulation pipe 52 of the mat 50 through the selection flow unit 70 and flows through the circulation pipe 52, and the hot water is supplied to the circulation pipe 52 of the mat 50. Heat is transferred to the mat portion 51 while passing through the circulation pipe 52, thereby maintaining the mat 50 in a warm state. The secondary heat dissipated cooled water that has passed through the circulation pipe 52 returns to the power port 20 through the return tube 60. While repeating this process, warm air is emitted from the heater 30 and the mat 50 is heated.

Figure 5 is a block diagram showing an embodiment of a method for controlling a hot air and mat heating system using gas according to the present invention.

As shown in Figure 5, one embodiment of the method of controlling the hot air and mat heating system using gas according to the present invention includes a hot air mat simultaneous mode (M1), a warm air mode (M2), and a mat heating mode (M3). Includes, and these modes are performed selectively.

As shown in FIG. 6, the hot air mat simultaneous mode (M1) sets the flow direction of the selection flow unit 70 so that hot water that has first passed through the hot air blower 30 is supplied to the mat 50. That is, the direction of the three-way valve 74 of the selection flow unit 70 is set so that water flows into the main tube 71 and the mat-side branch tube 72. As the hot water heated in the power port 20 passes through the hot air blower 30, the hot air blower 30 operates to emit warm wind from the hot air blower 30 (S11). At this time, the heated hot water in the power port 20 is supplied to the hot air blower 30 by the operation of the circulation pump 42 of the supply unit 40.

Next, a step (S12) in which hot water that has passed through the heater 30 is supplied to the mat 50 and the mat 50 is warmed is performed.

Next, a step (S13) in which the cooled water that has passed through the mat 50 is returned to the power port 20 is performed.

As this process is repeated, the heater 30 continuously releases warm air and the mat 50 maintains a warm state.

In the hot air mode (M2), as shown in FIG. 7, the flow direction of the selection flow unit 70 is set so that hot water that has first passed through the hot air blower 30 is supplied to the return tube 60 without passing through the mat 50. do. That is, the direction of the three-way valve 74 of the selection flow unit 70 is set so that water flows into the main tube 71 and the return side branch tube 73. As the hot water heated in the power port 20 passes through the hot air blower 30, the hot air blower 30 operates to emit warm wind from the hot air blower 30 (S21). At this time, the heated hot water of the power port 20 is supplied to the hot air blower 30 by the operation of the circulation pump 42 of the supply unit 40, and the heat dissipation fan 34 of the hot air blower 30 rotates to dissipate heat. released to the outside.

Next, a step (S22) in which the cooled water that has passed through the hot air blower 30 is returned to the power port 20 is performed.

As this process is repeated, only the hot air blower 30 continuously emits warm air.

In the mat heating mode M3, as shown in FIG. 8, the flow direction of the selection flow unit 70 is set so that hot water that has first passed through the hot air blower 30 is supplied to the mat 50. That is, the direction of the three-way valve 74 of the selection flow unit 70 is set so that water flows into the main tube 71 and the mat-side branch tube 72. Hot water heated in the power port 20 is supplied to the mat 50 through the heater 30, but the heater 30 does not operate and is supplied to the mat 50, thereby warming the mat 50 (S31). is in progress. At this time, the heated hot water in the power port 20 is supplied to the hot air blower 30 by the operation of the circulation pump 42 of the supply unit 40, and the fan motor 33 of the hot air blower 30 is not operated to dissipate heat. The fan 34 stops rotating. Due to this, the heated hot water from the power port 20 is supplied to the mat 50 through the heat dissipation pipe 31 of the air heater 30.

Next, a step (S32) in which the cooled water that has passed through the mat 50 is returned to the power port 20 is performed.

As this process is repeated, only the mat 50 is kept warm without emitting warm air from the heater 30.

As such, the present invention places the gas flame generating unit 10 outside the tent during outdoor camping, places the power port 20 filled with water on the gas flame generating unit 10, and installs a heater 30 inside the tent. With the mat (50) placed on the inner floor of the tent, heat is emitted through the heater (30) to keep the air inside the tent warm, and the mat (50) is kept warm so that you can camp comfortably. There will be.

In addition, the present invention allows the hot air blower 30 and the mat 50 to be used selectively or simultaneously, which not only improves convenience of use but also allows efficient use of gas.

In addition, the present invention heats the water in the power port 20 with the flame of the gas flame generation unit 10 and simultaneously generates electric energy through the thermoelectric element 80 to supply the electricity supply unit 40 and the hot air blower ( 30), thereby increasing gas energy efficiency.

In addition, the present invention includes a gas flame generating unit (10), a power port (20), a heater (30), a supply unit (40), a mat (50), a return tube (60), a selection passage unit (70), and a thermoelectric element. Since it includes (80) and a control unit (90), the configuration is simple, making transportation and use convenient.

10; Gas flame generating unit 20; power port
30; Heater 40; supply unit
50; mat 60; return tube
70; Select Eurounit 80; thermoelectric element
90; control unit

Claims (7)

A gas flame generating unit that generates a flame with gas;
a power port in which the water filled therein is heated by the flame of the gas flame generating unit;
A heater that generates warm wind using hot water heated in the power port;
a supply unit supplying hot water heated in the power port to the air heater;
a mat heated with hot water that has passed through the heater;
a return tube that guides cooled water that has passed through the mat to re-flow into the power port;
a selection flow unit that guides the hot water that has passed through the heater to flow to the mat or return tube;
a thermoelectric element that generates electricity by a flame of the gas flame generating unit; and
It includes a control unit that controls electricity generated from the thermoelectric element to be supplied to the heater and supply unit,
The gas flame generating unit includes a gas cylinder filled with gas and equipped with a valve on the upper gas outlet side, a burner that is detachably coupled to the gas cylinder and generates a flame by the gas sprayed from the gas cylinder, and an upper part of the burner. It is detachably coupled and includes a centering guide that guides the power port to the center of the burner when seated,
The centering guide includes an annular ring plate portion formed in the shape of an annular ring, and a plurality of pieces positioned at regular intervals in the circumferential direction of the annular ring plate portion, protruding from one side of the annular ring plate portion, and detachably coupled to the top of the burner. It includes clip parts and a seating support part that protrudes in a vertical direction on the other side of the annular ring plate part and on which the power port is seated,
The clip portion includes two bending plates that each cut a predetermined size area of the annular ring plate portion and bend the cut portions in a vertical direction to be positioned side by side with each other in the vertical direction,
A hot air and mat heating system using gas, characterized in that the plurality of clip parts are located in a radial direction with respect to the center point of the annular ring plate part and the support feet of the burner are coupled to each clip part. delete delete delete delete delete delete

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