KR100270199B1 - Apparatus for automatically adjusting pressure of hot water of hot water boiler - Google Patents

Abstract

PURPOSE: An apparatus for automatically adjusting pressure of hot water of a hot water boiler is provided to safely heat an interior of industrial facilities while maintaining the proper temperature by using the hot water boiler. CONSTITUTION: A hot water boiler(200) is provided to heat an interior(100) of industrial facilities. A heat emitting device(300) is installed at an outside of the interior(100) such that the heat emitting device(300) is exposed to the exterior. The heat emitting device(300) is connected to the hot water boiler(200) to emit heat of the hot water boiler(200). A control section(400) controls the hot water boiler(200) when the temperature of the interior(100) exceeds a predetermined level, so that hot water is circulated to the heat emitting device(300) from the hot water boiler(200). A boiler room(110) is formed at an outside of the interior(100) and the hot water boiler(200) is accommodated in the boiler room(110). The heat emitting device(300) is installed at an upper portion of the hot water boiler(200).

Description

APPARATUS TO AUTO CONTROL HOT WATER PRESSURE OF WATER BOILER

The present invention relates to an automatic control device for hot water pressure of a hot water boiler, and in particular, to enable a safe and automatic heating while maintaining an appropriate temperature by using a hot water boiler that uses briquettes, lump coal, firewood, etc. as a fuel in an industrial heating facility. It relates to a hot water pressure automatic control device of the hot water boiler.

Generally, an oil boiler is used for heating in the crop cultivation house in winter, and when the room temperature rises to a temperature suitable for growing crops, the amount of oil is reduced to reduce the calorific value and the room temperature decreases. When the oil supply is increased to increase the calorific value, the room temperature is maintained at an appropriate temperature. In this way, the oil boiler can easily adjust the flow of oil, so that the room temperature can be freely adjusted and automatically adjusted.

In addition, as the cost of oil rises dramatically, house crop cultivation is in the red, causing problems. The oil is expensive and the price is unstable. There is an urgent need to use boilers that use firewood, coal briquettes, briquettes, etc. as fuel for heating industrial facilities.

However, when a boiler using firewood, coal briquettes, briquettes, etc. as a heat source has been conventionally used, for example, for heating a crop cultivation facility, a method in which a wind heated by the boiler's heat is blown into the room is heated. Since the heating is to dry the room can not maintain the humidity required for the growth of the crop, there is a problem that the growth of the crop is slow as well as the quality of the crop is slowed down due to increased breeding of pests such as mites.

Heating a room using a hot water boiler with firewood, lump coal, briquettes, etc. will solve the problems of oil boilers and hot air heating, but such hot water boilers can regulate the flow rate like oil. There is a problem that the temperature can not be automatically adjusted because the charged fuel is burned until it is exhausted inside the boiler, and the indoor temperature is maintained at a suitable temperature to block the hot water supply to the indoor side. When the boiler and the pipe is overheated, there is a problem that can not be used because the critical pressure caused by the high pressure is formed in the pipe rupture occurs.

That is, if hundreds of briquettes are charged into a hot water boiler for heating the room and the heating is performed, if the hot water circulation in the room is blocked, the temperature of the boiler is quickly overheated. It can be dropped by automatic control, and the heating temperature can be easily adjusted automatically according to the season and climate, but the briquette boiler can't take out hundreds of briquettes once charged, so it can't prevent the overheating of the hot water boiler. Because it is difficult to automatically control the heating temperature, it was economically advantageous, but it was not used to heat indoor horticultural crops and other industrial facilities.

The present invention has been made to solve the above-mentioned conventional defects and problems, while maintaining the proper temperature by using a hot water boiler that uses briquettes, coal briquettes, firewood, etc. as a fuel in the interior of an industrial facility, such as a crop cultivation house. It is to provide a hot water pressure automatic control device of the hot water boiler that can safely and automatically heating.

In order to achieve the above object, the present invention is a hot water boiler for heating the interior of an industrial facility; A heat dissipation device installed to be exposed to the outside of the indoor air and connected to the hot water boiler to dissipate heat of the hot water boiler; And a control unit for controlling the hot water of the hot water boiler to circulate through the heat radiating device to radiate heat when the supply temperature of the hot water rises above a set value.

In addition, by installing an automatic control opening and closing valve in the air control opening of the hot water boiler, the heat dissipating device is configured to close, the heat dissipating device is installed on top of the hot water boiler and connected to the hot water boiler and hot water circulation pipe Is used.

One side of the radiator is provided with a blower for forced air cooling, and a heat exchanger is installed in the indoor and outdoor of the heating facility to be operated together or independently as needed.

The radiator may be a form in which a plurality of heat dissipation tubes are fixedly arranged in parallel between a supply part to which hot water is supplied and a discharge part to be discharged, or a form in which a plurality of heat dissipating plates are inclined to be alternated with each other is used. Can be.

The heat exchanger installed inside or outside the heating facility heat-exchanges cold water pumped (or pumped and stored in a storage tank) from groundwater or reservoirs, and the warmed and heated water is used for watering, for example.

The heat exchanger may use a form in which a synthetic resin pipe is disposed in a spiral or meandering shape in the water tank, and various other heat exchangers may be used.

1 is a block diagram of a hot water pressure automatic control device of the present invention hot water boiler.

Figure 2 is a partial perspective view of the hot water pressure automatic control device of the present invention hot water boiler.

Figure 3 is a block diagram of the hot water pressure automatic control device of the present invention hot water boiler.

<Explanation of symbols for main parts of drawing>

100: indoor 200: hot water boiler

300: radiator 310: radiator

320: blower 400: control unit

406: automatic control opening and closing 500: indoor side heat exchanger

600: outdoor side heat exchanger

Hereinafter, with reference to the accompanying drawings, the present invention will be described in detail as follows.

1 is a view showing the configuration of the hot water pressure automatic control device of the hot water boiler of the present invention, Figure 2 is a partial perspective view of the hot water pressure automatic control device of the hot water boiler of the present invention, Figure 3 is a hot water pressure of the hot water boiler of the present invention As shown in the block diagram of the automatic control device, as shown, the hot water boiler 200 for heating the interior of the industrial facility 100 is required to heat; A heat dissipation device 300 installed to be exposed to the outside of the room 100 and connected to the hot water boiler 200 to dissipate heat of the hot water boiler 200; When the internal temperature of the room 100 rises above the set value, the controller 400 is configured to control the hot water of the hot water boiler 200 to circulate to the heat radiating device 300 to radiate heat.

The room 100 may be, for example, a vinyl house or a glass house for growing crops.

The boiler room 110 is formed at an outer side of the interior 100, the hot water boiler 200 is installed inside the boiler room 110, and the briquette boiler is used as the hot water boiler 200 as an example. .

The heat dissipation device 300 is installed on the upper portion of the hot water boiler 200 is used a heat radiator 310 is connected to the hot water boiler 200 and the hot water circulation pipe.

The hot water boiler 200 is connected to the heating tube 210 and the first hot water supply pipe 211 and the first hot water discharge pipe 212 disposed in the room 100, the hot water heated in the hot water boiler 200 is the first The hot water supply pipe 211 is supplied to the heating tube 210 and is circulated in the process of flowing back into the hot water boiler 200 through the first hot water discharge pipe 212 in the heating tube 210.

The radiator 310 is installed on the upper portion of the hot water boiler 200, and the second hot water supply pipe 311 and the second hot water discharge pipe 312 to the first hot water supply pipe 211 and the first hot water discharge pipe 212, respectively. It is connected, the valve A (401) is coupled to the connection portion of the first hot water supply pipe 211 and the second hot water supply pipe 311 and the temperature sensor 402 is connected to one side, the first hot water discharge pipe (212) ) And the second hot water discharge pipe 312 is connected to the valve B (403).

The controller 400 panel is provided at a suitable position such as the main wall of the hot water boiler 200 or the boiler room 110, and the valve A 401 and the temperature sensor 402 are connected to the controller 400. .

The hot water boiler 200 has an outlet 201 formed on the top plate, an inlet 202 is formed on one side wall, the exhaust port 203 is formed on the rear wall, respectively. In addition, the pressure gauge 230 and the thermometer 231 are coupled to the top plate of the hot water boiler 200.

In addition, a manual air control unit 204 is formed at a lower portion of the front plate that slides open and close of the hot water boiler 200, and an automatic air control unit 205 is formed at the rear plate.

The first hot water supply pipe 211 is connected to the outlet 201, the first hot water discharge pipe 212 is connected to the inlet 202, and the flue 220 is connected to the exhaust port 203.

As the hot water heated in the hot water boiler 200 is supplied to the heating tube 210 of the room 100 through the first hot water supply pipe 211, the temperature of the room 100 rises, and the first hot water supply pipe 211. ) Is sensed by the temperature sensor 402 is transmitted to the control unit 400, the valve coupled to the middle portion of the first hot water supply pipe 211 when the detected temperature reaches the set value set in the control unit 400 A 401 is operated to block the supply of hot water flowing to the room 100, flow to the radiator 310, and the hot water supplied to the radiator 310 is heat-exchanged in the radiator 310 to radiate heat into the atmosphere.

Accordingly, in the case of the indoor 100 of the crop cultivation house, when the temperature of the first hot water supply pipe 211 reaches a set value, the hot water supply of the indoor 100 is blocked, so that a temperature suitable for the growth of crops may be maintained. The heat generated from the hot water boiler 200 may be radiated from the radiator 310 so that the heat may be safely operated.

The radiator 310 prevents overheating of the hot water boiler 200 even when the hot water supplied to the room 100 is supplied and continues to operate the hot water boiler 200, thereby continuing the hot water boiler 200. It can be operated safely, and will be able to automatically adjust the temperature of the room (100) of the crop cultivation house.

For example, when the temperature of the room 100 rises to 23 ° C., and thus the temperature of the first hot water supply pipe 211 reaches 85 ° C. set in the controller 400, the hot water supply to the room 100 is blocked. Hot water is supplied to the radiator 310 to radiate heat.

Between the first hot water supply pipe 211 and the second hot water supply pipe 311 is connected to the connection pipe 313 for preventing freezing of the radiator 310 in the winter, the valve C in the middle of the connection pipe 313 404 is combined. The connecting pipe 313 is opened when hot water is supplied to the indoor 100 side and is not supplied to the radiator 310 side, that is, when the second hot water supply tube 311 is closed, so that a small amount of water is directed to the radiator 310 side. By allowing the freeze of the radiator 310 to be prevented.

A blower 320 is installed below the radiator 310. The blower 320 operates when the radiator 310 is not sufficiently radiated according to the temperature of the outdoor unit. Forced air cooling for faster heat dissipation.

When the hot air is supplied to the radiator 310 side by the automatic control opening and closing valve 406 is coupled to the automatic air adjusting opening 205 formed on the rear plate of the hot water boiler 200, it is controlled by the control of the controller 400 The inflow of air is blocked.

An indoor side heat exchanger 500 is installed in the indoor 100, and an outdoor side heat exchanger 600 is installed outside.

The indoor heat exchanger 500 is connected to the radiator 310 and the third hot water supply pipe 501, connected to the second hot water discharge pipe 312 and the third hot water discharge pipe 502, and the third hot water supply pipe 501. The valve D 405 is connected to the pump A 510, and the valve D 405 is controlled to be opened and closed by the controller 400.

The outdoor side heat exchanger 600 is connected to the valve A (401) and the fourth hot water supply pipe 601 connected to the connection portion of the first hot water supply pipe 211 and the second hot water supply pipe 311, the first hot water discharge pipe 212 and the fourth hot water discharge pipe 602, the pump B 610 is connected to the fourth hot water supply pipe 601.

When the radiator 310 is operated, when the valve D 405 is opened by the controller 400 and the pump A 510 is operated, the hot water of the radiator 310 is heat-exchanged through the third hot water supply pipe 501. Supplied to the gas 500 and the heat exchange is performed in the indoor heat exchanger 500, and the hot water passed through the indoor heat exchanger 500 is heated through the third hot water discharge pipe 502 and the first hot water discharge pipe 212. It is introduced into the boiler 200 and circulated again.

The radiator 310 and the outdoor side heat exchanger 600 may be controlled to be opened at the same time or only one of them by operating the valve A 401 by the controller 400, and supplied through the fourth hot water supply pipe 601. The hot water is heat-exchanged in the outdoor side heat exchanger 600 and then introduced into the hot water boiler 200 through the fourth hot water discharge pipe 602 and the first hot water discharge pipe 212 and circulated again.

In the indoor heat exchanger 500 and the outdoor heat exchanger 600, for example, ground water or reservoir water is stored in a water tank, and heat-exchanged as necessary, and the indoor and external heat exchangers 500, The hot water generated by 600 may be used for watering and the like.

The radiator 310 may have a structure in which a plurality of heat dissipation tubes 303 are connected in parallel between the supply pipe 301 and the discharge pipe 302 as shown in FIG. 2, and may have various other forms. For example, the radiator 310 may be installed on the ceiling of the boiler room 110 and may have a form suitable for being used for raining.

As described above, the present invention maintains the room temperature appropriately, and releases heat to the atmosphere using a heat radiator while stopping the supply of hot water to the indoor side, or recovers heat to a heat exchanger, thereby preventing overheating of the hot water boiler and the pipe. There is an advantage that can be, and accordingly there is an advantage that can automatically adjust the room temperature stable. Furthermore, the present invention has the effect of economically increasing profits by making it possible to use a hot water boiler having firewood, lump coal, briquettes, etc. as a heat source for heating of various industrial heating facilities, such as a house for growing crops.

While the embodiments of the present invention have been described so far, the present invention is not limited thereto, and various embodiments which can be modified and changed within the true spirit and scope of the principles described and claimed are within the protection scope of the present invention. You will have to understand.

Claims (6)

A hot water boiler 200 for heating the indoor 100 of the industrial facility; A heat dissipation device 300 installed to be exposed to the outside of the interior 100 in the air and connected to the hot water boiler 200 to dissipate heat of the hot water boiler 200; The hot water pressure of the hot water boiler, characterized in that the control unit 400 is configured to control the heat dissipation by circulating the hot water of the hot water boiler 200 to the heat radiating device 300 when the supply temperature of the hot water rises above the set value. Automatic control device. The hot water pressure of the hot water boiler, characterized in that configured to be closed during the operation of the heat dissipation device 300 by installing an automatic control opening and closing valve 406 in the air control port of the hot water boiler 200. Device. According to claim 1, wherein the heat dissipation device 300 is installed on top of the hot water boiler 200, the hot water pressure automatic of the hot water boiler, characterized in that the radiator 310 is connected to the hot water boiler 200 and the hot water circulation pipe. Regulator. The apparatus of claim 1, wherein a blower (320) for forced air cooling the radiator (310) is installed at a lower portion of the radiator (310). The method of claim 1, wherein the indoor heat exchanger 500 and the outdoor heat exchanger 600 for circulating the hot water of the hot water boiler 200 to heat cold water, such as groundwater, inside and outside of the indoor 100; Hot water pressure automatic control device of the hot water boiler, characterized in that installed. According to claim 1, wherein the radiator 310 is the hot water pressure automatic control device of the hot water boiler, characterized in that is used for the raining of the hot water boiler (200).