KR200211771Y1 - Energy conservative air and water heater for greenhouse - Google Patents

Abstract

The present invention relates to a hot water heater for energy-saving green house to meet the appropriate temperature conditions of crops grown in a greenhouse or glass greenhouse.

The hot water and hot air heater for energy-saving green house according to the present invention includes a combustion furnace 22 provided at a position adjacent to the bottom surface of the casing 21 of the rectangular enclosure, and one side of which is cylindrically wound on the upper portion of the combustion furnace 22. A hot water heat exchanger 23 fixedly installed in the form, a hot air heat exchanger 24 fixed to the upper portion of the casing 21 to form a moving passage of air heated in the combustion furnace 22, and the combustion furnace 22. And a hot water burner 25 and a warm air burner 26 installed on the outer circumferential surface of the casing 21 adjacent to these two members so as to be heated by the flame discharge into the hot water heat exchanger 23. There is a characteristic.

The hot water and hot air heater for the energy-saving green house of the present invention has the advantage of increasing the energy efficiency by controlling the operation time of each burner according to the usage time of hot water and hot air, and hot water branched on the underground heating pipe. The pipe is bent only once, so that the end is connected to each pipeline, so that each hot water pipe is connected in parallel to reduce the temperature difference between the branch points and increase the heating efficiency of the indoor floor.

In addition, the present invention can be used as an auxiliary auxiliary heat source when the temperature of the outside air is not significantly low because the hot air burner is broken can be responsible for about 20% of the maximum heating load in winter when the burner for hot water is broken.

Description

Energy Conservative Air and Water Heater for Greenhouse

The present invention relates to a hot water warmer for matching the temperature conditions of the greenhouse or glass greenhouse, more specifically, a hot water burner and a warm air burner are separately installed on one side of the heater consisting of a housing of the rectangular housing of the heating burner The present invention relates to an energy-saving green house hot water warm air heater that can control indoor temperature by distinguishing day and night by allowing separate underground heating by a heat source.

In general, the greenhouse or glass greenhouse of the winter season is adequately supplied with warm air through a predetermined heating device in order to meet the appropriate growth temperature of the crop.

At this time, the heating device is configured to supply hot water circulated to provide heating through the hot water pipe to the bottom of the vinyl house or glass greenhouse to satisfy the appropriate growth conditions of crop cultivation, and the warm air is supplied at appropriate time intervals. .

For example, the normal warm air use time of a vinyl house or glass greenhouse is concentrated at night time from sunset to sunrise, and the hot water use time circulating through the hot water pipe is operated for 24 hours to maintain a constant temperature in the room. have.

In particular, due to climatic conditions in Korea where the summer period is not relatively long, vinyl houses and glass greenhouses have emerged as a major source of income for winter farmers. Therefore, in terms of management efficiency, measures for maximizing heating efficiency and effectively reducing fuel costs have been taken. It is becoming.

Thus, looking at the brief structure of the conventional hot water heater for heating the greenhouse and glass greenhouse as follows.

First, Figure 1 is a front view showing a simplified structure of a conventional hot water heater, one burner (2) is installed outside the casing (1a) of the rectangular box as shown in the combustion chamber 3 of the hot water heater (1) By installing a hot water heat exchanger (6) to allow the heat exchange of the hot water through the hot water heat exchanger (6) by the heat source of the burner (2) when driving the hot air heater (1) and the hot water heat exchanged in the hot water heat exchanger (6) It is stored in a hot water tank (not shown) and consists of a structure to perform underground heating using hot water in the hot water tank.

The conventional hot water heater (1) having the structure as described above uses the burner (2) attached to the outside of the casing (1a) as one, so that the circulation air and the hot water heat exchanger (6) of the internal combustion chamber (3) of the casing (1a) are used. There was a problem in that a large-capacity burner 2 should be mounted in order to simultaneously heat the circulating hot water.

The conventional hot water heater (1) is heated by the outside air is sucked into the casing (1a) and passed through the hot air heat exchanger (4), and at the same time by the heated air and the heat source of the burner (2) Since the hot water is heated by heating, there is a problem that the capacity of the burner must be larger in order to match the proper hot air temperature.

In addition, in order to maintain the temperature of the hot water tank during the day, a separate hot water heater is installed inside the hot water tank, so expensive electric energy must be used, and a separate electric device is required. Becomes

Next, Figure 2 (a) and (b) is a schematic structural diagram of a hot water pipe connected to the conventional hot water heater, the hot water pipe 10 connected to the conventional hot water heater (1) as shown is a hot water inlet pipe Branched at (11) and bent several times in the form of a fan coil, the curved end of which is connected to the hot water discharge pipe (12).

Since the hot water pipe 10 has a relatively long distance between each end connected to the hot water inlet pipe 11 and the discharge pipe 12, the temperature of the water at each end of the hot water pipe 10 has a predetermined difference. At this time, the longer the length of the hot water pipe 10 has the disadvantage that the temperature difference gradually increases.

Therefore, the present invention was devised to solve the above-mentioned objects and disadvantages pointed out in the conventional hot water heater, and installed two burners on one outer side of the casing, respectively, and introduced into the hot water heat exchanger and heater in which hot water circulates. The combustion chamber where air resides is heated individually so that underground heating through hot water pipes and ground heating by hot air can be performed simultaneously so that the burner consisting of two burners on one side of the casing can be adjusted according to the appropriate temperature in the room. Therefore, the purpose of the present invention is to provide hot water and hot air heaters for energy-saving green house, which facilitates proper temperature control during the day and night as well as to increase energy efficiency.

1 is a front view showing a simplified structure of a conventional hot water heater.

Figure 2 (a) and (b) is a schematic structural diagram of a hot water pipe connected to a conventional hot water heater.

Figure 3 is a schematic view of the hot water warm air heater for energy-saving green house of the present invention.

Figure 4 is a side view of the hot water warm air heater of the present invention.

Figure 5 is a schematic structural diagram of the underground heating pipe installed in the hot water hot air heater of the present invention.

((Explanation of symbols for main parts of drawing))

20. Hot water heater 21. Casing

22. Combustion Furnace 23. Hot Water Heat Exchanger

24. Hot air heat exchanger 25. Burner for hot water

26. Warmer burner 27. Flame check window

30. Hot water tank 40. Underground heating pipe               51. Hot water discharge pipe 61. Hot water inflow pipe

CB. Control Box OT. Oil tank

The above object of the present invention is provided with a hot water heat exchanger in which hot water is circulated inside the casing of the blind box and a combustion furnace for heating the air sucked into the casing, and heating the hot water heat exchanger and the combustion furnace separately on one side of the casing. Hot water and hot air burners are achieved by a fixed installation.

The hot water and hot air heater for the energy-saving green house of the present invention is installed with two burners on one side of the casing outside the box, and can adjust the operation time of the two burners according to the outside temperature of the vinyl house or the glass greenhouse and the growing conditions of the crops grown. There are technical features together.

In addition, another technical feature of the hot water hot-air heater for the energy-saving green house of the present invention is that the overall shape of the hot water pipes buried underground for indoor geothermal heating is formed only once, and the ends of the hot water inlet and discharge pipes are respectively formed. By connecting the phases to minimize the temperature difference of the hot water circulated.

Matters concerning the operational effects, including the technical configuration for the above purpose of the energy-saving green house hot water hot air heater for the present invention will be clearly understood by the following detailed description with reference to the drawings showing a preferred embodiment of the present invention.

First, Figure 3 and Figure 4 is a view showing the hot water hot air heater for energy-saving green house of the present invention, Figure 3 is a schematic structural diagram of the hot water hot air heater, Figure 4 is a side view of the hot water hot air heater.

As shown, the hot water hot air heater for the energy-saving green house of the present invention is a hot water heater 20, which is provided with a combustion furnace 22 and a hot water heat exchanger 23, and a hot water heat exchanger of the hot water heater 20 ( 23 is composed of a hot water tank (30) for storing the hot water heat exchanged separately, and the geothermal heating pipe (40) for continuous heating of the hot water stored in the hot water tank (30).

The hot water warmer 20 of the present invention is fixed to the combustion furnace 22 provided at a position adjacent to the bottom surface of the casing 21 of the rectangular enclosure, and one side is wound in a cylindrical shape on the upper portion of the combustion furnace 22. The hot water heat exchanger 23 installed, the hot air heat exchanger 24 fixed to the upper portion of the casing 21 to form a moving passage of the air heated in the combustion furnace 22, and the combustion furnace 22 and hot water heat exchange It consists of a structure in which two burners 25 and 26, which are configured for hot water and warm air, are fixedly installed on the outer circumferential surface of the casing 21 at two member fixing positions so that the machine 23 is directly heated.

In addition, a flame inspection window 27 is formed between the hot water burner 25 and the warm air burner 26 installed on the outer circumferential surface of the casing 21 so that an operator can burn each burner 25 and 26 outside the casing 21. Control box (CB) that is configured to check the degree of flame, and is linked to each burner 25, 26 and a plurality of control parts on one side of the outer peripheral surface of the casing (21) Is provided.

In addition, the hot air heat exchanger 24 is formed by stacking a plurality of tubular tubes and serves to allow the heated hot air to be discharged into the greenhouse while the air introduced from the inside of the greenhouse passes through this portion, and at a right angle to one side The combustion gas discharge port 28 which discharges the combustion gas of the warm air burner 26 to the outdoors in the direction of is formed.

The hot water warmer 20 having the structure as described above is connected to the hot water tank 30 by the inlet pipe 50 and the discharge pipe 60 of the hot water extended from the hot water heat exchanger 23 and the hot water tank 30. The oil level gauge 31 is attached to the front to grasp the amount of hot water inside the hot water tank (30).

In addition, the hot water tank 30 has a structure in which the supplementary water inlet 32 is installed to supply hot water of a shortage to one side of the upper end.

On the other hand, one side of the hot water tank 30, that is, the hot water stored in the hot water tank 30 on the opposite side of the connection portion of the inlet pipe 50 and the discharge pipe 60 connecting the hot water heater 20 and the hot water tank 30 A separate hot water discharge pipe 51 and a hot water inlet pipe 61 are formed to be supplied to the ground and the underground hot water pipe 41 branched at a predetermined point is buried underground, and the hot water outlet pipe 51 The hot water in the hot water tank 30 along the) 61 is made of a continuous circulation structure.

Energy-saving green house hot water hot air heater of the present invention made of a structure as described above, the heating of the air by the hot air burner (26) inside the casing 21 of the rectangular box forming the hot water heater (20). The hot water heat exchanger 23 having the combustion furnace 22 and the heat exchanger of the circulating water by the heat source of the hot water burner 25 is fixed to the upper and lower parts to separate the room by each burner 25 and 26. There is a technical feature to enable hot air hot water heating.

Reference numeral OT in FIG. 3 denotes an oil tank supplying fuel to two burners 25 and 26, respectively, and 29 denotes a temperature controller.

Next, a detailed structure of the underground hot water pipe 41 will be described based on the drawings shown in FIG. 5. 5 is a schematic structural diagram of the underground heating pipe installed in the hot water hot air heater of the present invention, as shown in the underground heating pipe 40 installed in the hot water heater of the present invention, the hot water pipe branched from the hot water inlet pipe 61. (41) is bent in the opposite direction and its end is connected on the hot water discharge pipe (51) and a plurality of such hot water pipes (41) has a structure arranged in a line along the hot water flow pipe (51, 61) line. .

The underground heating pipe 40 allows the hot water branched along the hot water inlet pipe 61 to pass through the hot water pipe 41 having a relatively short length, so that the temperature difference between each branch point S and R is higher than that of the conventional hot water pipe. The structure is to reduce significantly.

As described above, the hot water and hot air heater for the energy-saving green house of the present invention includes a combustion furnace for heating air by a hot air burner in the casing of the rectangular box forming the hot water heater and a heat source of the hot water burner. The hot water heat exchanger is fixed to the upper and lower parts to exchange heat of the circulating water by the upper and lower parts so as to perform separate indoor hot air hot water heating by each burner so that the operation time of each burner can be adjusted according to the usage time of hot water hot air. There is an advantage to achieve an increase in energy efficiency.

In addition, the present invention can be used as an emergency auxiliary heat source when the temperature of the outside air is not significantly low because when the burner for hot air is broken, it can be responsible for about 20% of the maximum heating load in winter when the burner for hot water is operated.

In addition, the hot water hot air heater for the energy-saving green house according to the present invention has a hot water pipe branched on the ground-heated pipe connected from the hot water tank only once, so that its end is connected to each pipe and each hot water pipe is connected in parallel. There is an advantage to increase the heating efficiency of the indoor floor by reducing the temperature difference between each branch point.

Claims (2)

Casing 21 of the rectangular box, the hot water burner 25 and the warm air burner 26, which is installed up and down outside the casing 21 to discharge the flame into the casing 21, and the inside of the casing 21 The combustion furnace 22 and the hot water heat exchanger 23 installed on the flame discharge portion of the hot water burner 25 and the hot air burner 26 form a casing while forming a moving passage of air heated in the combustion furnace 22. (21) a warm water warmer (20) consisting of a warm air heat exchanger (24) installed on the upper side of the interior; The hot water heat exchanged through the hot water heat exchanger 23 of the hot water warmer 20 forms a circulation through the hot water pipe 50 and the discharge pipe 60 and is separately stored, and a hot water tank having a flow meter for measuring the flow in the front surface ( 30); Underground heating pipe 40 for continuously heating the hot water stored in the hot water tank 30 through the hot water inflow pipe 61 and the hot water discharge pipe 51 so that the floor surface of the room is heated; Hot water hot air heater for energy-saving green house, characterized in that consisting of. According to claim 1, wherein the underground heating pipe 40 is the hot water pipe 41 branched from the hot water inlet pipe 61 is bent in the opposite direction and the end is connected to the hot water discharge pipe 51 and the hot water pipe (41) A geothermal hot water warm air heater, characterized in that the plurality consisting of a structure connected in parallel along the hot water inflow pipe (51, 61) line.