KR200204912Y1 - Heating systems for facility houses - Google Patents

Abstract

The present invention relates to a heating system for a facility house, which is used to maintain a warm temperature in a facility house for growing vegetables or flowers, and is located on the upper side of the boiler and an auxiliary water tank for warming water using waste heat generated from the boiler, A direction control valve installed at a connection portion connecting the auxiliary water tank side pipe and the main pipe to adjust a circulation direction of hot water, and a water temperature sensor installed at the auxiliary water tank and operating the direction switching valve according to the temperature of the water tank; By including a, it is possible to heat the facility house by using the waste heat generated from the boiler has the advantage of reducing fuel costs.

Description

Heating systems for facility houses

The present invention relates to a heating system for facility houses used to maintain the temperature in the facility house for growing vegetables or flowers.

In general, facilities such as plastic houses are used to produce fresh vegetables and grow flowers in winter. At this time, the interior of the facility house is heated to the interior of the facility house to be suitable for the growth of cultivated crops.

Most of the early heating system for facility houses installed stoves inside the facility house and used the heat from the stove to properly control the temperature inside the facility house. However, the heating system using the stove is difficult to properly control the growth of cultivated crops because the temperature distribution inside the facility house is not constant according to the perspective with the stove.

Therefore, in recent years, in a heating system for facility houses, after the water is heated by using a boiler, the heated water is circulated inside the facility house so that the heating is performed. In the above-described heating system, the temperature distribution inside the facility house can be evened, so that the growth of crops grown in the facility house can be properly adjusted.

However, the conventional heating system for a facility house configured as described above heats water in the boiler and discharges all remaining heat to the outside of the facility house, resulting in low thermal efficiency, and in the case of boilers, most oil is used to heat water, but the oil price is increased. If the heating cost is too high, the profitability of the facility house is deteriorated.

The present invention has been made to solve the above problems of the prior art, to provide a heating system for a facility house that can increase the thermal efficiency by heating the water using the waste heat generated in the boiler and using the water for heating. There is a purpose.

1 is a block diagram showing a heating system for a facility house according to the present invention.

Figure 2 is a detailed view showing the direction switching valve which is the main configuration of the present invention.

3 is a block diagram showing a comprehensive boiler according to the present invention.

4 is a view showing a heat generating unit which is a main configuration of the present invention,

Figure 4 (a) is a perspective view showing the inner cylinder.

Figure 4 (b) is a perspective view showing a briquette combustion cylinder.

4 (c) is a perspective view showing a firewood combustion cylinder.

* Explanation of symbols for main parts of the drawings

11: boiler 12: auxiliary water tank

13: 1st direction control valve 14: 2nd direction control valve

15: water temperature sensor 16: control unit

17: room temperature sensor 18: heat dissipation unit

19: hot water pump 31: inner cylinder

31 ': hot water coil 31' ': rail

32: outer cylinder 33: insulation

34: air volume control door 35: waste heat discharge means

35a: outlet 35b: fire door

36: combustion cylinder 36a: combustion cylinder for briquettes

36b: firewood combustion tank 37: blower

38: valve 39: motor pump

The heating system for a facility house of the present invention for achieving the above object is a boiler installed to boil water, an auxiliary water tank positioned above the boiler and warming water using waste heat generated from the boiler, and a facility house. A plurality of heat dissipation units installed therein, a pipe unit connecting the boiler and the auxiliary water tank and the heat dissipation unit, a hot water pump installed at one side of the boiler to circulate hot water, and connecting the auxiliary water tank side pipe and the main pipe A direction control valve installed at a connecting portion to control a circulation direction of hot water, a water temperature sensor installed at the auxiliary water tank and operating the direction switching valve according to the temperature of the water tank, and installed in the facility house to be installed in the facility house. An indoor temperature sensor for sensing a temperature, and the boiler according to signals of the water temperature sensor and the indoor temperature sensor It characterized in that the controller is configured for operating the direction switching valve.

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

The heating system for a facility house according to the present invention has a boiler 11 installed to boil water as shown in FIG. 1 and FIG. 2, and is located above the boiler 11 and generated in the boiler 11. Auxiliary water tank 12 for warming water using waste heat, a plurality of heat dissipation unit 18 installed inside the facility house, connecting the boiler 11 and the auxiliary water tank 11 and the heat dissipation unit 18 A first hot water pump 19 installed at one side of the boiler 11 to circulate hot water, and a connection part connecting the auxiliary water tank side pipe and the main pipe to adjust a circulation direction of the hot water; Water temperature sensor 15 installed in the direction control valve 13 and the second direction control valve 14 and the auxiliary water tank 12 and operating the direction change valves 13 and 14 in accordance with the water tank internal temperature. Installed inside the facility house to detect the temperature inside the facility house. And a control unit 16 for operating the boiler 11 and the direction switching valves 13 and 14 according to the signals of the room temperature sensor 17 and the water temperature sensor 15 and the room temperature sensor 17. .

The first direction switching valve 13 and the second direction switching valve 14 are three-way valves connecting the auxiliary water tank side pipe and the main pipe or blocking the auxiliary water tank side pipe and allowing hot water to move along the main pipe. Is used.

The heating system for the facility house of the present invention configured as described above heats the water in the auxiliary water tank by using the waste heat generated from the boiler while simultaneously heating the inside of the facility house by using the boiler.

When the boiler 11 is operated, hot water generated in the boiler 11 is pressurized by the hot water pump 19 to flow along the main pipe. The hot water flowing along the main pipe heats the facility house by releasing heat from the radiator 18. At this time, it is possible to heat the water in the auxiliary water tank 12 installed on the upper side of the boiler 11 by using the waste heat generated in the boiler (11).

In addition, since the first direction switching valve 13 is opened and the second direction control valve 14 is closed, the hot water passes through the main pipe and the heat radiating unit 19 in the boiler 11 and then the first direction control valve 13. Is moved along the auxiliary water tank side pipe. Thus, the hot water is moved to the auxiliary water tank 12 to raise the temperature of the water in the auxiliary water tank 12.

When the temperature of the auxiliary water tank rises and reaches a predetermined temperature, the hot water sensor 15 sends a signal to the controller 16, and the controller 16 stops the boiler 11 and simultaneously switches the first direction. The valve 13 is closed and the second direction switching valve 14 is opened. Therefore, the water in the auxiliary water tank 12 is moved along the pipe on the side of the main pipe and the auxiliary water tank to heat the inside of the facility house. Of course, when the temperature inside the facility house falls below a certain temperature, the room temperature sensor 17 detects this and sends a signal to the controller 16 to restart the boiler 11.

As shown in FIG. 3 and FIG. 4, the integrated boiler used in the present invention includes an inner cylinder 31 having a hot water coil 31 'installed on an inner wall and a rail 31' 'formed on the bottom thereof, and the inner cylinder ( 31 is installed between the insulating material 33 and the outer cylinder 32 forming the outer wall of the boiler, and the air volume control door 34 is installed on the front of the inner cylinder 31 to adjust the air intake amount (34) ), Waste heat discharge means (35) installed above the inner cylinder (31) for discharging unnecessary heat to the outside of the facility house, and material moved and burned along the rail (31) formed in the inner cylinder (31). A combustion cylinder 36 having a different structure, a blower 37 installed above the outer cylinder 32 to prevent heat generated from the combustion cylinder 36 from being discharged to the outside, and the hot water coil 31 '. Valve 38 for controlling the inflow of water supplied to the water, and the water flowing in the hot water coil (31 ') It consists of a motor pump 39 to circulate.

The waste heat discharging means 35 has an opening at a lower side thereof so that heat generated from the combustion cylinder can be introduced therein, and an outlet 35a is installed at an upper side of the waste heat discharging unit so as to discharge the heat introduced thereinto the outside of the facility house. And, the fire door (35b) for opening and closing the outlet (35a) is installed according to the operation of the blower (37).

The combustion cylinder 36 is divided into a briquette combustion cylinder 36a and a firewood combustion cylinder 36b, and is formed as a single cylinder so that a flame does not directly contact the hot water coil, and each cylinder has a heat transfer effect. Multiple holes are drilled. In particular, in the case of firewood combustion barrels, the bottom is formed in the form of a net so that ashes can fall out. Of course, when burning oil, water is boiled without a separate combustion tank.

Comprehensive boiler configured as described above is to boil water using a variety of materials available from the surroundings as well as oil.

When fuel is combusted in the combustion cylinder 36, the water flowing inside the hot water coil 31 'is heated by the combustion heat. The warmed water is circulated by the motor pump 39 to obtain the intended heating effect.

Here, the blower 37 is to be used only for heating the hot water coil 31 'without the heat generated in the combustion cylinder 36 to the outside, the heat insulating material 33 made of glass fiber is a hot water coil 31' Blocks the heat from being discharged through the outer cylinder (32).

Looking at the combustion cylinder 36, the combustion cylinder 36 is moved along the rail 31 ″ formed in the inner cylinder 31, so that the combustion cylinder 36 can be used to replace water. It becomes possible. That is, when briquettes are put into the briquette combustion cylinder 36a and the briquette combustion cylinder 36b is pushed into the inner cylinder, the hot water coil 31 'can be heated by using the heat generated during combustion of the briquettes. In addition, although the firewood can be put into and burned in the firewood combustion tank 36b, the firewood is a waste material of firewood or buildings, and can be easily obtained from the mountains or the surroundings, thereby reducing fuel costs.

When the briquette combustion cylinder 36a and the firewood combustion cylinder 36b are used, the fire power cannot be easily controlled unlike when the oil is combusted. Partial heat is released to prevent overheating.

If only oil is used, it is easy to control fire or on / off, but when using briquettes or firewood, it is difficult to control the fire power and control on / off. Therefore, when the temperature inside the boiler is excessively increased or the temperature inside the facility house is required to stop the boiler, the outlet 35a of the waste heat discharging means 35 is opened without removing the burnt combustion cylinder. Waste heat is discharged outside the facility house.

That is, normally, by closing the outlet 35a by using the fire door 35b, the heat generated in the combustion cylinder 36 is used to heat the hot water coil 32 ', and the outlet 35a when the boiler is overheated. ) To prevent waste heat from discharging outside the facility house, preventing the temperature inside the facility house from rising to an abnormal temperature. Of course, when the fire door 35b is rotated so that the outlet 35a is opened, the blower 37 is stopped.

As such, the heating system for the facility house according to the present invention can heat the facility house by using the waste heat generated from the boiler, thereby reducing the fuel cost.

Claims (1)

A boiler installed to boil water, an auxiliary water tank positioned above the boiler and warming water using waste heat generated from the boiler, a plurality of heat dissipation units installed inside the facility house, the boiler and the auxiliary water tank, A piping unit for connecting a heat dissipation unit, a hot water pump installed at one side of the boiler to circulate hot water, and a direction control valve installed at a connection portion connecting the auxiliary water tank side pipe and the main pipe to adjust the circulation direction of the hot water; A water temperature sensor installed in the auxiliary water tank and operating the direction switching valve according to the temperature of the water tank, an indoor temperature sensor installed in the facility house and sensing a temperature inside the facility house, the water temperature sensor and the indoor temperature sensor Characterized in that the control unit for operating the boiler and the direction switching valve in accordance with the signal of Description House heating system.