KR20130016643A

KR20130016643A - Portable boiler

Info

Publication number: KR20130016643A
Application number: KR1020110078702A
Authority: KR
Inventors: 김인욱
Original assignee: 김인욱
Priority date: 2011-08-08
Filing date: 2011-08-08
Publication date: 2013-02-18

Abstract

PURPOSE: A portable boiler is provided to block air from a blowing fan toward a radiator when the temperature of water discharged from a hot water mat is lower than a predetermined temperature which is predetermined by a hot air control sensor, efficiently maintaining the heating for a bottom and the air inside a heating target space. CONSTITUTION: A portable boiler comprises a water container(100), a hot water line(200), a circulation pump(300), an overheated water block sensor(400), a hot water mat(500), a radiator(600), a blowing fan(700), and a hot air control sensor(800). The overheated water block sensor is installed at the hot water line so that the overheated water block sensor can be placed between the circulation pump and the water container. The overheated water block sensor measures the temperature of water which is heated in the water container, and then stops the operation of the circulation pump when the temperature of the water is higher than a predetermined temperature. The hot water mat is connected to be installed at the hot water line, and is supplied with the heated water discharged through the circulation pump. The radiator is connected to be installed at the hot water line, and is supplied with the water passed through the hot water mat. The blowing fan is installed at the radiator, and generates a hot air by blowing air to the heated radiator. The hot air control sensor is installed at the hot water line so that the hot air control sensor is placed between the hot water mat and the radiator. The hot air control sensor measures the temperature of the water discharged from the hot water mat, and then stops the operation of the blowing fan when the temperature of the water is higher than a predetermined temperature.

Description

Portable boiler

The present invention relates to a portable boiler, and more particularly, to a portable boiler that enables heating while circulating heated water through various fuel sources outdoors.

In general, when using a tent in the open air, since it is almost impossible to supply power from the surrounding area where the tent is installed, most of them use bedding having excellent thermal insulation such as sleeping bags.

However, when the outside temperature does not drop significantly, such as in summer, even if you use bedding such as sleeping bags, you can stay overnight.However, in winter, when the outside temperature is very low or when the weather is bad, such as snow or rain, Even if bedding such as sleeping bags are used, it is difficult to keep warm inside the tent because the temperature inside the tent is very low, making accommodation difficult.

Therefore, in recent years, using a heating means such as portable butane gas or portable gas burner using LPG as a fuel to heat the water stored in the metal water tank, the heated water is a hot water mat with a built-in soft water pipe Portable hot water boilers that use hot water mats to circulate in and heat them inside the tent are used.

However, in the conventional portable hot water boiler, the temperature of the water inside the water tank is controlled by controlling the fuel supply of the heating means without a separate temperature control means in the process of heating the water stored in the water tank using the heating means. This is because there is a problem that the precise temperature control of the hot water boiler is impossible.

An object of the present invention is to provide a portable boiler capable of simultaneously heating the floor and air inside a tent and maintaining a stable heating temperature.

The present invention is installed in the inlet of the water reservoir and the hot water line for circulating the water of the water reservoir, the water reservoir is heated by the heating means in the state of storing the water, And a circulation pump for pumping the water in the water reservoir to circulate through the hot water line, and installed in the hot water line so as to be disposed between the circulation pump and the water reservoir, and measuring the temperature of the water heated in the water reservoir. After that, when it is higher than the set temperature, the superheated water cut-off sensor for stopping the operation of the circulation pump, connected to the hot water line, the hot water mat receiving the water in the heated state discharged through the circulation pump; A radiator connected to the hot water line and receiving the water passing through the hot water mat, and installed in the radiator, A blowing fan for generating warm air by applying wind to the radiator, and installed in the hot water line to be disposed between the hot water mat and the radiator, and after measuring the temperature of the water discharged from the hot water mat, When it provides a portable boiler comprising a warm air control sensor for stopping the operation of the blowing fan.

In addition, the set temperature of the overheated water cutoff sensor may be 75 ~ 85 ℃.

In addition, the set temperature of the warm air control sensor may be 60 ~ 75 ℃.

In the portable boiler according to the present invention, when the heated water of the water reservoir is higher than the set temperature set by the superheated water cutoff sensor, supply to the hot water mat is cut off, and the water discharged from the hot water mat is set by the hot air control sensor. When it is lower, it prevents the wind from being radiated to the radiator by the blower fan, so that the heating of the floor and the air inside the heating target space can be efficiently maintained.

1 is a block diagram of a portable boiler according to an embodiment of the present invention.
2 is a block diagram showing a heating process of the portable boiler according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

1 is a block diagram of a portable boiler according to an embodiment of the present invention, Figure 2 is a block diagram showing a heating process of a portable boiler according to an embodiment of the present invention. 1 and 2, the portable boiler, water reservoir 100, hot water line 200, circulation pump 300, superheated water cut off sensor 400, hot water mat 500, radiator 600 And a blowing fan 700 and a warm air control sensor 800.

The water reservoir 100 stores water to be supplied to the hot water mat 500 and the radiator 600 through the hot water line 200 to be described later. The water reservoir 100 is heated by the heating means 10 such as a portable burner which is generally used to supply the water stored therein to the hot water line 200 in a heated state. Here, the water reservoir 100 is a stainless steel pot or a bowl generally used can be selectively used, but is not limited to this, of course, can be selected and applied to the tubular member formed of a metal material excellent in heat transfer rate. In addition, the heating means 10 for heating the water reservoir 100 is not limited to a portable burner, of course, may be in a heated state according to firewood or direct fire of oil. Here, the water reservoir 100 and the heating means 10 is installed to be disposed outside the heating target space such as a tent to prevent a safety accident.

The hot water line 200 supplies the water of the water reservoir 100 to the hot water mat 500 and the radiator 600 which will be described later, and then the water is circulated so as to be recovered to the water reservoir 100 again. It is a connector guiding if possible. That is, the inlet end of the hot water line 200 into which the water of the water reservoir 100 is introduced and the outlet end of the hot water line 200 through which the water passed through the radiator 600 are discharged are respectively the water reservoir 100. ) Is placed.

The circulation pump 300 pumps the water in the water reservoir 100 forcibly circulated through the hot water line 200. That is, the circulation pump 300 has a transfer force so that the heated water of the water reservoir 100 passes through the hot water mat 500 and the radiator 600, and then can be recovered to the water reservoir 100 again. to provide. The circulation pump 300 is installed at the inlet of the hot water line 100 into which the heated water flows from the water reservoir 100. That is, the circulation pump 300 is connected to the hot water line 100 to be disposed between the hot water mat 500 and the water reservoir 100 to be described later. Here, the circulation pump 300 is operated through the power supplied from the outside, and when the heating passes through the hot water mat 500 and the radiator 600 sequentially through the hot water line 200, It is rotated forward to be recovered to the water reservoir 100 again, and does not need heating, so when the water inside the hot water line 200 and the hot water mat 500 and the radiator 600 need to be drained, it can be driven to reverse rotation. have.

The superheated water cutoff sensor 400 is a temperature sensor that senses the temperature of the water so that the water heated higher than a predetermined temperature in the water reservoir 100 is not supplied to the hot water mat 500 to be described later. That is, the superheated water cutoff sensor 400 measures the temperature of the water supplied to the hot water line 200 in a heated state in the water reservoir 100, and when the temperature is higher than the set temperature, the circulation pump 300. ) To stop the operation of the water overheated to the hot water mat (500). As such, the superheated water cutoff sensor 400 prevents the overheated water from being supplied to the hot water mat 500, so that the user is placed on the hot water mat 500. It is possible to prevent the occurrence of safety accidents caused by damage due to overheating. The superheated water cutoff sensor 400 measures the temperature of the water supplied to the hot water mat 500 and then controls the operation of the circulation pump 300 and the water reservoir. It is also connected to the circulation pump 300 to transmit a signal detected in the state installed in the hot water line 200 to be disposed between the 100 to the circulation pump 300. Here, the set temperature of the water to stop the operation of the circulation pump 300 of the superheated water cutoff sensor 400 is 75 ~ 85 ℃. That is, the superheat means sensor 400 stops the operation while transmitting a stop signal to the circulation pump 300 when the temperature of the water moving into the hot water line 200 exceeds 75 ~ 85 ℃. .

The hot water mat 500 receives the heated water from the water reservoir 100 to heat the bottom of the heating target space. The hot water mat 500 selects a heating mat having a known structure having a pipe line 510 having an inlet 521 and an outlet 522 so as to circulate the heated water in the fabric 510. Of course, it is applicable. The hot water mat 500 is installed at the bottom of the heating target space in a state connected to the hot water line 200 to receive the water in a heated state pumped by the circulation pump 300.

The radiator 600 receives the water passing through the hot water mat 500 to heat the internal air of the heating target space. The radiator 600 includes a heating line 610 in which a plurality of fins 620 are mounted in an inlet 611 and an outlet 612 so as to circulate the water received from the hot water mat 500. Of course, it is possible to selectively use a radiator of a known structure having a). The radiator 600 is disposed inside the heating target space while being connected to the hot water line 200 to receive the water discharged through the outlet 522 of the hot water mat 500.

The blowing fan 700 generates warm air by applying wind to the radiator 600 heated by the water discharged from the hot water mat 500 to increase heating efficiency of the air inside the heating target space. . The blowing fan 700 is connected to the warm air control sensor 800 to be described later in a state where it is installed on one side of the radiator 600, and the operation is controlled according to the detection signal of the warm air control sensor 800. . The operation control by the hot air control sensor 800 of the blower fan 700 will be omitted since it will be described in the warm air control sensor 800 which will be described later.

The warm air control sensor 800 is a temperature sensor for sensing the temperature of the water so that the blowing fan 700 is not operated when the water discharged from the hot water mat 500 is lower than a predetermined temperature. That is, the warm air control sensor 800 measures the temperature of the water discharged through the outlet 522 of the hot water mat 500, and stops the operation of the blowing fan 700 when the temperature is lower than the set temperature. Do not apply wind to the radiator 600. As such, when the water cooled below a predetermined temperature is supplied to the radiator 600, the warm air control sensor 800 stops the blowing fan 700 to heat the air by the wind of the blowing fan 700. It is possible to prevent the air inside the object space from being cooled. The hot air control sensor 800 measures the temperature of the water discharged from the hot water mat 500, and then controls the operation of the blowing fan 700 so that the hot water mat 500 and the radiator ( It is also connected to the blowing fan 700 to transmit a signal detected in the state installed in the hot water line 200 to the blowing fan 700 to be disposed between the 600. Here, the set temperature of the water for stopping the operation of the blowing fan 700 of the warm air control sensor 800 is 60 ~ 75 ℃. That is, the warm air control sensor 800 stops the operation while transmitting a stop signal to the blowing fan 700 when the temperature of the water moving into the hot water line 200 is less than 60 to 75 ° C.

Referring to Figures 1 and 2 the operation of the portable boiler according to an embodiment configured as described above are as follows.

First, the water stored in the water reservoir 100 is heated through the heating means 10 in a state where water is stored in the water reservoir 100. Thereafter, when the power is supplied to the circulation pump 300 to operate the water inside the water reservoir 100 by the pumping force of the circulation pump 300, the hot water mat 500 through the hot water line 200. Is supplied.

At this time, after being pumped by the circulation pump 300, the temperature of the water in the hot water line 200 before entering the hot water mat 500 exceeds 75 ~ 85 ℃, for example the superheated water Operation of the circulation pump 300 by the superheated water cutoff sensor 400 when the temperature of the water in the hot water line 200 exceeds 80 ° C. when the cutoff sensor 800 is set to operate when the temperature exceeds 80 ° C. As it is stopped, the movement of the water stored in the water reservoir 100 to the hot water mat 500 is stopped.

Thereafter, the water is heated to 75 ~ 85 ℃ or less in the water reservoir 100, the water introduced into the hot water mat 500 by the circulation pump 300 after heating the bottom of the heating target space In addition, the radiator 600 is supplied to the radiator 600 through the hot water line 200 to heat the air in the heating target space while heating the radiator 600. At this time, the blower fan 700 is also operated to blow wind to the heated radiator 600 to increase the heating efficiency for the air in the heating target space.

In this case, when the temperature of the water in the hot water line 200 before being introduced into the radiator 600 after being discharged from the hot water mat 500 is not more than 60 ~ 75 ℃, for example, the warm air control When the sensor 800 is set to operate when measured below 65 ° C., when the temperature of the water in the hot water line 200 is less than 65 ° C., the operation of the blower fan 700 is performed by the warm air control sensor 800. As it is stopped, the wind being applied to the radiator 600 is stopped.

As such, the water discharged from the radiator 600 is recovered to the water reservoir 100 again through the hot water line 200, and then reheated and repeats the operation as described above, and the bottom of the heating target space. And internal air is heated.

As such, in the portable boiler of one embodiment, when the heated water of the water reservoir 100 is higher than the set temperature set by the superheated water cutoff sensor 400, the supply to the hot water mat 500 is blocked. When the water discharged from the hot water mat 500 is lower than the set temperature set by the hot air control sensor 800, the wind is blocked from being applied to the radiator 600 by the blowing fan 700, the heating It is possible to efficiently maintain the heating of the floor and air inside the object space.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: heating means 100: water reservoir
200: hot water line 300: circulation pump
400: superheat water cut off sensor 500: hot water mat
600: radiator 700: blowing fan
800: warm air control sensor

Claims

A water reservoir configured to heat the water by heating means while storing water;
A hot water line circulating water in the water reservoir;
A circulation pump installed at an inlet of the hot water line connected to the water reservoir and pumping the water in the water reservoir to circulate through the hot water line;
It is installed in the hot water line so as to be disposed between the circulation pump and the water reservoir, and measures the temperature of the water heated in the water reservoir, and when the temperature is higher than the set temperature, the superheated water cut off sensor to stop the operation of the circulation pump Wow;
A hot water mat connected to the hot water line and receiving the water in a heated state discharged through the circulation pump;
A radiator connected to the hot water line and receiving the water passing through the hot water mat;
A blowing fan installed in the radiator to generate warm air by applying wind to the heated radiator; And
It is installed in the hot water line so as to be disposed between the hot water mat and the radiator, and after measuring the temperature of the water discharged from the hot water mat, and includes a warm air control sensor to stop the operation of the blowing fan when the set temperature is lower than the set temperature; Portable boiler.

The method according to claim 1,
Portable boiler, the set temperature of the superheated water cutoff sensor is 75 ~ 85 ℃.

The method according to claim 1,
The set temperature of the hot air control sensor is a portable boiler of 60 ~ 75 ℃.