KR200414121Y1 - boiler system for a hothouse - Google Patents

Abstract

The present invention can greatly increase the efficiency of the boiler, in order to provide a greenhouse boiler system that can extend the use of the present invention, the present invention is to circulate the inside of the heat exchanger using the heating medium heated by the boiler as cooking oil, The heat exchanger 20 and the second heat exchanger 20a are connected in series, a blower fan 21 is installed behind the first heat exchanger, and the front of the second heat exchanger is opened so that the blower hose is installed. It is done.

Greenhouse, boiler, heat exchanger, radiator,

Description

Greenhouse Boiler System {boiler system for a hothouse}

       1 is a perspective view showing a greenhouse boiler structure according to the present invention.

       Figure 2 is a cross-sectional view showing the internal structure of the heat exchanger of the greenhouse boiler according to the present invention.

       Figure 3 is a perspective view showing the configuration of the radiator in the greenhouse boiler according to the present invention.

<Description of Symbols for Main Parts of Drawings>

 10: boiler 16: circulation pump

 20: first heat exchanger 20a: second heat exchanger

 21: blower fan 24: cooling tube

 28: outlet 30: first supply pipe

 32: second supply pipe 38: circulation pipe

 40: radiator

The present invention relates to a greenhouse boiler, and more particularly to a greenhouse boiler that can greatly increase the efficiency of the fuel.

Typically, a greenhouse boiler is used to increase the temperature of a large greenhouse, such as a plastic house, a greenhouse for growing crops, and various industries, and is heated by fuel such as electricity, gas, and kerosene. The heated heating medium heats the air to a high temperature in the heat exchanger and maintains the required room temperature while the hot air is supplied to the room.

However, in the conventional greenhouse boiler, since the heat medium is mostly used as water, high thermal efficiency cannot be expected, and the structure of the heat exchanger is also a simple primary heating method, which does not significantly increase the temperature.

The present invention is to overcome the above-mentioned conventional problems, an object of the present invention is to provide a boiler system for a greenhouse that can greatly increase the efficiency of the boiler, can be broadened use.

In order to achieve the above object, the present invention circulates inside a heat exchanger using a heating medium heated by a boiler as cooking oil, and the first heat exchanger 20 and the second heat exchanger 20a are connected in series. The blower fan 21 is installed at the rear of the first heat exchanger, and the blower hose is mounted at the front of the second heat exchanger.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a greenhouse boiler structure according to the present invention, Figure 2 shows the internal structure of the heat exchanger of the greenhouse boiler according to the present invention. And Figure 3 is a perspective view showing the configuration of a radiator in a greenhouse boiler according to another embodiment of the present invention.

The present invention according to the drawings, in the greenhouse boiler configured to circulate the heat medium heated in the boiler into the heat exchanger and blows the heated air into the room, having a vertically connected transport pipe 22 and vertically The first heat exchanger 20 and the second heat exchanger 20a, which are constituted by cooling tubes, are connected in series, and the first supply pipe 30 and the first supply pipe 30 for supplying the heat medium of the boiler 10 to each transfer pipe. 2 supply pipes 32 are connected to each of the transfer pipes 22, and recovery pipes 34 and 36 are respectively provided on the other side of the transfer pipes, and a blower fan 21 is provided behind the first heat exchanger. 2 The front of the heat exchanger is open and characterized in that the blowing hose is mounted.

In addition, the boiler 10 is connected to the radiator 40 by a circulation pipe 38, characterized in that the circulation pump 16 and the valve 18 is configured.

In addition, the heat medium is characterized in that the cooking oil.

The above is described in more detail as follows.

Greenhouse boiler system according to the present invention is provided with a boiler 10 for heating the heat medium filled therein by gas and kerosene and electricity. In this case, as the heat medium, a high breaking point is used for cooking oil which rises to a high temperature. And, the control box 14 for controlling the temperature and time is installed on one side of the casing 12 of the boiler. In addition, a supply pipe and a recovery pipe connected to the heat exchanger are installed at one side of the casing 12.

The heat exchanger has a transfer tube 22 having the same shape as the upper side and the lower side therein, and a plurality of cooling tubes 24 connecting upper and lower transfer tubes are installed, and the first exchanger 20 and the second exchanger ( 20a) are connected to each other in series. At this time, the first and second supply pipes 30 and 32 connected by the boiler 10 are connected to the transfer pipes 22 of the first and second heat exchangers, respectively. It is installed and connected to the inside of the boiler case. That is, the first supply pipe 30 connected to the boiler is connected to the rear lower end of the first heat exchanger, and the second supply pipe distributed from the first supply pipe or connected to the boiler is the front lower side of the second heat exchanger 20a. Is connected to.

Meanwhile, a blowing fan 21 is installed at the rear of the first exchanger, and a blowing hose 29 is mounted at the front of the second heat exchanger in the opposite direction.

The boiler 10 is connected to the radiator 40 installed in the greenhouse by the circulation pipe 38. That is, the circulation pipe 16 and the valve 18 are installed in the outflow pipe 17 and the circulation pipe 38 introduced into the casing to selectively supply the high temperature heat medium to the radiator 40. At this time, the circulation pipe 38 is appropriately installed along the inside of the greenhouse and connected to the radiator. Cooling fins 39 are installed along the outside to dissipate heat and increase the indoor temperature. In addition, inside the radiator 40, the cooling tube 42 is zigzag installed in multiple stages, and is connected to the circulation pipe 38 by a connecting pipe 48, and has a predetermined valve 49, and a blowing fan 46 at the rear. ) Is installed. Therefore, the high temperature heat medium supplied by the circulation pipe 38 is heat-exchanged in the radiator and is discharged forward by the blowing fan 46 to raise the room temperature.

The present invention configured as described above operates as follows.

First, the heat medium heated to a high temperature in the boiler is supplied to the first heat exchanger 20 and the second heat exchanger 20a through the first supply pipe 30 and the second supply pipe 32, respectively, and cooled inside each heat exchanger. Heat exchange with the outside air through the tube. At the same time, the rear blower fan 21 discharges the air, which has been raised to a high temperature, to the front, and supplies the greenhouse to the proper position through the blower hose 29.

On the other hand, by selectively operating the circulation pump 16 mounted on the circulation pipe 38 and opening and closing the valve 18, the heat medium inside the boiler is transferred through the circulation pipe 38 and the cooling fins 39 Heat is released, increasing the temperature of the room. In addition, as the radiator 40 is operated, the room temperature is also increased.

As described above, the greenhouse boiler system according to the present invention is to increase the efficiency of the boiler by using a heat medium that is quickly elevated to a high temperature and also to increase the heat generation efficiency by a heat exchanger composed of a double It is effective to save energy. In addition, since a small radiator can be installed in an indoor loading station together with a heat exchanger, it can be selectively used, thereby expanding its use.

Claims (3)

      In the greenhouse boiler system configured to circulate the heat medium heated in the boiler into the heat exchanger and to blow the heated air into the room,       The first heat exchanger 20 and the second flue exchanger 20a, which are composed of cooling tubes vertically connected with upper and lower transfer pipes 22, are connected in series, and the boiler 10 is connected to each transfer pipe. The first supply pipe (30) and the second supply pipe (32) for supplying the heat medium of the connected to each of the transport pipe 22, the recovery pipes 34, 36 are respectively installed on the other side of the transport pipe and the first Greenhouse boiler system, characterized in that the rear of the heat exchanger has a blowing fan (21), the front of the second heat exchanger is open and the blowing hose is mounted. The greenhouse boiler system according to claim 1, wherein the boiler (10) is connected to the radiator (40) by a circulation pipe (38) and constitutes a circulation pump (16) and a valve (18). The greenhouse boiler system according to claim 1, wherein the heat medium is cooking oil.

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