KR101894374B1 - A device for heating of vinyl house using oil indirect heating mode - Google Patents

Abstract

The present invention relates to a heating machine for a vinyl greenhouse using an indirect oil heating system. More specifically, the heating machine comprises: an oil heating device for heating oil at a specific temperature through a plurality of heating lines; a heating oil pipe forming a plurality of ground exposure sections exposed to the ground; an oil circulating part including a motor and a circulation pump; a hot air blowing part blowing air into a vinyl greenhouse; and an operation control part controlling the operation of the oil heating device, the oil circulating part, and the hot air blowing part. According to the heating machine for a vinyl greenhouse, suggested in the present invention, the entire area of a vinyl greenhouse is able to be evenly heated and a constant temperature is able to be maintained.

Description

TECHNICAL FIELD [0001] The present invention relates to a heating device for a greenhouse using oil indirect heating,

The present invention relates to a heating apparatus for a greenhouse using an oil indirect heating system, more specifically, to circulate oil heated by a high temperature to a heating oil pipe, wherein a part of the heating oil pipe is buried in the ground, A part of the heating oil pipe is exposed to the ground so that the air heated through the hot air unit is blown into the inside of the greenhouse so that the entire interior of the greenhouse can be evenly heated. will be.

In general, greenhouses are greenhouses created to grow vegetables, horticulture, fruits and other crops regardless of season. These greenhouses allow the interior of the greenhouse to be maintained at a constant temperature necessary for the growth of the crop, thereby allowing the crops to be grown regardless of season. In particular, the cultivation of crops using vinyl houses has been suggested as a way to overcome vulnerable natural environments such as the convenience of temperature control and protection from outside pests and diseases. There is a tendency. It is also well known that the cultivation of greenhouses is more effective for producing various fruits and crops regardless of the season.

Recently, as the hydroponic cultivation method which excludes the use of pesticides has been spreading, the above-mentioned greenhouse cultivation has various functions including seed germination and growth through the non-pollution method, which is a simple cultivation using the agricultural land.

The vinyl house is a type of heating for maintaining the proper temperature for cultivation of crops, and generally uses an electric heater or a heating boiler using fossil fuel inside the greenhouse. In the case of an electric heater in such a conventional heating boiler, an economic burden due to an increase in electric charges due to electric power consumption is increasing. As a countermeasure against this, briquetting boiler devices or fossil fuel boiler devices using fossil fuels with low prices are widely used, but in the case of heating boiler devices using fossil fuels, there is a great risk of fire, There is an uncomfortable problem that is required. It is necessary to secure a separate space for oil storage as well as the problem that the vinyl house fuel cost is overpaid by more than 1 million won per month and the environmental pollution due to fine dust becomes serious in the conventional briquet boiler and the harmony boiler .

The present invention has been proposed in order to solve the above-mentioned problems of the previously proposed methods. The present invention is a heating oil pipe repeatedly provided with an underground buried section pipe buried in a vinyl house and a ground exposed section pipe exposed to the ground, In the heating oil piping in which the oil heated by the high temperature is circulated, the geothermal heat is generated through the underground buried section pipe, and through the ground exposure section pipe, An object of the present invention is to provide a heating apparatus for a greenhouse using an indirect oil heating system in which air warmed through a warm air unit is blown into the inside of a greenhouse so that the entire interior of the greenhouse can be evenly heated and maintained at a constant temperature. do.

In addition, the present invention is configured so that the oil heated to a high temperature through the heating oil pipe can be circulated, thereby minimizing the use of electricity required for heating through the use of oil that is not easily cooled once heated, The present invention provides a heating system for a greenhouse using an indirect oil heating system that can reduce the cost and more effectively maintain the entirety of the greenhouse at a uniform temperature by using a dual heating system using geothermal heat and air blowing For another purpose.

In addition, the present invention can be used semi-permanently due to its strong durability due to the use of stainless steel of heating oil piping, and the annual electricity cost reduction effect by shortening the time required for raising to a constant temperature is improved, It is another object of the present invention to provide a heating apparatus for a greenhouse using an indirect oil heating system, which can effectively reduce maintenance costs.

According to an aspect of the present invention, there is provided a heating system for a greenhouse using an oil indirect heating system,

As a heating apparatus for a greenhouse using an oil indirect heating system,

An oil heater unit having a plurality of heating hot lines and heating the stored high temperature oil to a specific temperature through the plurality of heating hot lines;

A plurality of ground-level exposures formed in the ground at a portion of the circulation path, wherein the circulation path is filled with the oil heated by the oil heating unit, the circulation path being embedded in the ground of the vinyl house so that the geothermal heat can be generated inside the greenhouse, Heating oil piping to form a section;

An oil circulation unit including a motor and a circulation pump for forcibly circulating the oil heated by the oil heating unit through the heating oil pipe;

A hot air unit installed in each of the plurality of ground exposed sections of the heating oil pipe for blowing the cold air flowing in the greenhouse through the exposed heating oil pipe to the inside of the greenhouse; And

And an operation control unit for controlling the operation of the oil heater unit, the oil circulation unit, and the hot air unit.

Preferably, the oil heating unit includes:

An oil storage tank having an oil inlet formed on an upper side thereof and a vapor discharge portion formed on an upper center thereof;

An oil heating unit in which three heating heat lines for heating the high temperature oil injected into the oil storage tank to a specific temperature are disposed; And

And a supply and circulation pipe disposed at a lower portion of the oil storage tank so that the heated oil can be supplied and circulated through the heating oil pipe.

More preferably, the oil heating unit includes:

And a heating heat line for heating the high temperature oil injected and stored in the oil storage tank, wherein at least one heating heat line is used for a preliminary heating, and one heating heat line Two heating heat lines are used to heat the high temperature oil and after heating to a specific temperature only one heating line of the two heating heat lines used for the first heating heating is used to heat the oil, It is possible to operate such that a spare heating line can be used at the time of failure of any one of the two heating lines.

Preferably, the heating oil pipe includes:

A ground buried section pipe which is buried in the ground of the greenhouse and forms a circulation path through which the oil heated by the oil heater unit is circulated and the ground exposed section pipe which is exposed on the ground of the greenhouse, The heating of the greenhouse can be constantly performed by the geothermal heat in the greenhouse and the warm air.

More preferably, the hot air unit includes:

A box type hot air apparatus main body for containing the ground exposed section pipe in the heating oil pipe;

A blowing fan for sucking the air in the plastic house into the inside of the hot air apparatus main body and blowing the heated air through the ground exposed section pipe; And

And a plurality of blowing pipes installed in the upper part of the hot air apparatus main body so that air heated inside the hot air apparatus body is blown into the green house by a blowing fan.

Still more preferably, the plurality of ventilation pipes are provided with a plurality of air-

And the air blowing direction is adjusted by a pipe which is disposed at the upper part of the main body of the hot air apparatus and which is bent at an angle of 90 degrees.

Still more preferably, the operation control section includes:

And a pressure gauge for detecting leakage of the oil circulating through the heating oil pipe installed in the greenhouse.

Even more preferably,

And a temperature sensor for sensing the temperature of the oil circulating through the heating oil pipe installed in the greenhouse, wherein the temperature sensor may be constituted by at least one or more of the temperature sensors.

According to the heating system for a greenhouse using the oil indirect heating system proposed in the present invention, a heating oil pipe repeatedly installed in an underground buried section pipe buried in a vinyl house and a ground exposed section pipe exposed to the ground, In the heating oil piping in which the oil heated by the high temperature is circulated, the geothermal heat is generated through the underground buried section pipe, and the hot air is circulated through the ground exposed section pipe, Air warmed through the device unit can be blown into the vinyl house so that the entire interior of the vinyl house can be heated evenly and a certain temperature can be maintained.

According to the present invention, since the oil heated to a high temperature can be circulated through the heating oil pipe, the use of electricity required for heating through the use of oil that has not been easily cooled once heated is minimized, Can be reduced, and in particular, the double-heating method using the geothermal heat and the blowing air can more effectively keep the whole of the greenhouse constant at the same temperature.

In addition, the present invention can be used semi-permanently due to its strong durability due to the use of stainless steel of heating oil piping, and the annual electricity cost reduction effect by shortening the time required for raising to a constant temperature is improved, The maintenance cost can be effectively reduced.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a functional block diagram of a heating system for a greenhouse using an oil indirect heating system according to an embodiment of the present invention; FIG.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heating apparatus for a greenhouse using oil indirect heating.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an oil heating apparatus for heating a greenhouse using an oil indirect heating system according to an embodiment of the present invention.
FIG. 4 is a functional block diagram illustrating a configuration of an oil circulation unit applied to a heating system for a greenhouse using an oil indirect heating system according to an embodiment of the present invention; FIG.
FIG. 5 is a view showing a configuration of a hot air unit applied to a heating unit for a greenhouse using an oil indirect heating system according to an embodiment of the present invention; FIG.
6 is a view showing a configuration of an operation control unit of a heating apparatus for a greenhouse using an oil indirect heating system according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order that those skilled in the art can easily carry out the present invention. In the following detailed description of the preferred embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In the drawings, like reference numerals are used throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . Also, to "include" an element means that it may include other elements, rather than excluding other elements, unless specifically stated otherwise.

FIG. 1 is a functional block diagram of a heating system for a greenhouse using an oil indirect heating system according to an embodiment of the present invention. FIG. 3 is a view showing a configuration of an oil heating apparatus applied to a heating system for a greenhouse using an oil indirect heating system according to an embodiment of the present invention And FIG. 4 is a functional block diagram illustrating a configuration of an oil circulation unit applied to a heating system for a greenhouse using an oil indirect heating system according to an embodiment of the present invention. FIG. 6 is a view showing a configuration of a warm air unit applied to a heating system for a greenhouse using an oil indirect heating system, and FIG. 6 is a cross- A diagram showing a configuration of an operation control unit of the apparatus for heating greenhouses using the heating method. 1 to 6, a heating apparatus 100 for a greenhouse using an oil indirect heating system according to an embodiment of the present invention includes an oil heater unit 110, a heating oil pipe 120, An oil circulation unit 130, a hot air unit 140, and an operation control unit 150.

The oil heater unit 110 includes a plurality of heating heat lines 111 and is configured to heat the heated high temperature oil to a specific temperature through a plurality of heating heat lines 111. 3, the oil heating apparatus 110 includes an oil inlet 112 formed at an upper side thereof and an oil reservoir tank 113 formed at an upper center thereof to form a vapor discharge unit 113 An oil heating unit 115 in which three heating heat lines 111 for heating the high temperature oil injected into the oil storage tank 113 to a specific temperature are disposed; And a supply and circulation pipe 116 connecting the heated oil pipe 120 to be heated, which will be described later, so that the heated oil can be supplied and circulated. Here, the high-temperature oil may be a heater transfer oil that can be heated up to 360 ° C or a general heat medium flow path that does not easily cool after heating. That is, in the oil heater unit 110, it can be understood that the high-temperature oil is heated to 200 to 250 ° C and circulated through the heating oil pipe 120 to be described later.

The oil heating unit 115 of the oil heating apparatus unit 110 includes three heating heat lines 111 for heating the stored high temperature oil injected into the oil storage tank 114, 111 are used for a preliminary heating. During heating for the first time, two heating heat lines 111 are used to heat the high temperature oil. After heating to a specific temperature, only one heating heat line 111 is used to heat the oil And can be operated under the control of the operation control unit 150, which will be described later, so that the heating heat line 111 for the spare can be used when the specific heating heat line 111 fails.

The heating oil piping 120 is embedded in the ground of the greenhouse so that geothermal heat can be generated in the inside of the greenhouse, and forms a circulation path through which the oil heated by the oil heating unit 110 is circulated. And a plurality of ground-exposed sections that are exposed to the ground. 1 and 2, the heating oil pipe 120 forms a circulation path through which the oil heated by the oil heater unit 110 is circulated, The interval piping 121 and the ground exposed section pipe 122 exposed on the ground of the plastic house so that the heating of the plastic house can be kept constant by the geothermal heat and the warm air in the plastic house. Here, the heating oil pipe 120 may be made of a stainless steel pipe having excellent thermal conductivity and durability. For example, when the size of the greenhouse is 6 m and the length is 80 m, the heating oil pipe 120 may be installed so that the heating oil pipe 120 is buried 10 cm below the rim of 30 cm of the greenhouse. At this time, since the heating oil pipe 120 is installed at a position of 30 cm along the rim of the greenhouse, it is possible to further prevent moisture and cold air in the greenhouse.

The oil circulation unit 130 includes a motor 131 and a circulation pump 132 for forcibly circulating the oil heated in the oil heater unit 110 through the heating oil pipe 120. 4, the oil circulating unit 130 includes a motor 131 and a circulating pump 132. The oil circulating unit 130 circulates the oil heated at 200 to 250 DEG C in the oil heater unit 110 to a heating oil pipe (120). Here, the configurations of the motor 131 and the circulation pump 132 of the oil circulation unit 130 are the same as those of the general configuration, so that unnecessary detail will be omitted.

The hot air supply unit 140 is installed in each of the plurality of ground exposed sections of the heating oil pipe 120 so that the cold air flowing into the greenhouse is introduced into the greenhouse through the exposed heating oil pipe 120, It is the constitution of the hot air device blowing. 5, the hot air unit 140 includes a box-shaped hot air unit main body 141 for receiving the ground exposed section pipe 122 of the heating oil pipe 120, A blowing fan 142 for sucking the air in the greenhouse into the inside of the hot air supply device main body 141 and blowing air heated through the ground exposed section pipe 122, 141) for blowing air heated by the air blowing fan (142) to the inside of the plastic greenhouse. As shown in FIG. 2, when the size of the greenhouse is 6 m long and 80 m long, the hot air unit 140 is heated at a position of 30 cm of the vinyl house at a position of 10 cm under the heating oil May be installed in eight ground exposed section pipes 122 exposed to the ground in the greenhouse of the pipe 120, respectively. At this time, it is understood that the installation of the warm air unit 140 is not limited to eight, and it is understood that it is installed in the number corresponding to the ground exposed section pipe 122 of the heating oil pipe 120.

The plurality of blowing pipes 143 of the hot air unit 140 may be disposed on the upper portion of the hot air unit main body 141 and may be configured to have a blowing direction adjusted by a pipe bent at an angle of 90 degrees. The plurality of blowing pipes 143 are formed in the upper part of the hot air unit main body 141 in an elbow shape so that heated air can be blown into the inside of the plastic house to raise the ambient air temperature. Each of the hot air units 140 may be intermittently driven under the control of the operation control unit 150, which will be described later. That is, it is understood that the hot air devices 140 are driven intermittently according to a predetermined condition in a state where the air of the hot air device main body 141 of the hot air device unit 140 is heated, . For example, it can be intermittently driven by a timer condition preset by the operation control unit 150 or a temperature condition detected from a temperature sensor provided therein.

The operation control unit 150 is configured to control the driving of the oil heater unit 110, the oil circulation unit 130, and the hot air unit 140. The operation control unit 150 may be configured as an operation panel in which the user can drive and control the heating system 100 for the green house as a whole. 6, the operation control unit 150 may further include a pressure gauge 151 for detecting leakage of oil circulating through the heating oil pipe 120 installed in the plastic house. The operation control unit 150 further includes a temperature sensor 152 for sensing the temperature of the oil circulating through the heating oil pipe 120 installed in the plastic house, . Here, the temperature sensors 152 are configured to maintain the driving state of the heating apparatus 100 for the greenhouse. The temperature sensors 152 sense the heating temperature of the oil in the oil heating unit 110, May be configured to detect the temperature of the circulation pipe 116 and the temperature of the circulating oil in the heating oil pipe 120.

As described above, the heating system for a greenhouse using the oil indirect heating system according to an embodiment of the present invention is characterized in that heating oil repeatedly provided in an underground buried section pipe buried in a greenhouse and a ground exposed section pipe exposed to the ground In the heating oil piping in which the oil heated by the high temperature is circulated, the geothermal heat is generated through the underground buried section pipe, and the ground exposure Through the piping, the air heated by the hot air unit is blown into the vinyl house, so that the entire interior of the vinyl house can be evenly heated and maintained at a constant temperature. Further, since the oil heated to a high temperature can be circulated through the heating oil pipe, it is possible to minimize the use of electricity required for heating through the use of the oil that is not easily cooled once heated, thereby reducing the cost of the monthly electricity cost In particular, it is possible to more effectively maintain the entirety of the greenhouse at the same temperature by the double heating method using the geothermal heat and the blowing air. The use of stainless steel for heating oil piping makes it possible to use semi-permanently because of its durability. Also, the annual electricity cost savings due to shortening the time required to raise to a certain temperature is improved, and the semi-permanent life span effectively reduces boiler replacement and maintenance cost. And the like.

The present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics and scope of the invention.

100: a heating system for a greenhouse according to an embodiment of the present invention
110: Oil heater unit
111: Heating heat line
112: Oil inlet
113: Vapor outlet
114: Oil storage tank
115: Oil heating unit
116: Supply and circulation piping
120: Heating oil piping
121: Underground buried section piping
122: Ground exposure section piping
130: Oil circulation part
131: Motor
132: circulation pump
140:
141:
142: blowing fan
143: plural ventilation pipes
150: Operation control unit
151: Manometer
152: Temperature sensor

Claims (8)

A heating system (100) for a greenhouse using an oil indirect heating system,
An oil heater unit 110 having a plurality of heating heat lines 111 and heating the heated and stored high temperature oil to a specific temperature through the plurality of heating heat lines 111;
A circulation path is formed in which the oil heated by the oil heating device unit 110 is buried in the ground of the greenhouse so that geothermal heat can be generated inside the greenhouse, A heating oil pipe 120 forming a ground exposed section of the heating oil pipe 120;
An oil circulation unit 130 having a motor 131 and a circulation pump 132 for forcibly circulating the oil heated in the oil heating unit 110 through the heating oil pipe 120;
A hot air unit (not shown) installed in each of the plurality of ground exposed sections of the heating oil pipe 120 for blowing the cold air flowing into the greenhouse through the exposed heating oil pipe 120 to the inside of the greenhouse 140); And
And an operation control unit 150 for controlling the operation of the oil heater unit 110, the oil circulation unit 130, and the hot air unit 140,
The oil heater unit 110 includes:
Shaped oil storage tank 114 in which an oil injection port 112 is formed on an upper side and a vapor discharge port 113 is formed in an upper center of the oil storage tank 114, An oil heating unit 115 disposed at a lower portion of the oil storage tank 114 to supply oil heated through the heating oil pipe 120, And a circulation pipe (116) for circulating the feed and circulation pipe (116)
The oil heating unit 115,
And three heating heat lines 111 for heating the high temperature oil injected and stored in the oil storage tank 114. At least one heating heat line 111 is used for spare, The remaining two heating heat lines 111 except the one heating heat line 111 used are used to heat the high temperature oil and after heating to a specific temperature, one of the two heating heat lines 111 used for the first heating heating Only the heating heat line 111 of the heating heat line 111 is used to heat the oil and when the heating heat line 111 of any one of the two heating heat lines 111 used for the first heating heating is broken, To be used,
The heating oil pipe (120)
An underground buried section pipe 121 which forms a circulation path through which the oil heated by the oil heater unit 110 is circulated and is buried in the ground of the vinyl house; And the piping (122) is repeated so that the heating of the greenhouse is made constant by the geothermal heat and the warm air in the greenhouse.
delete delete delete [3] The air conditioner according to claim 1,
A box type hot air apparatus main body 141 for receiving the ground exposed section pipe 122 of the heating oil pipe 120;
A blowing fan 142 for sucking the air in the plastic house into the interior of the hot air apparatus main body 141 and blowing the heated air through the ground exposed section pipe 122; And
And a plurality of blowing pipes 143 installed at the upper part of the hot air apparatus main body 141 to blow the air heated inside the hot air apparatus main body 141 to the interior of the green house by the blowing fan 142 Wherein the oil is heated by the heating means.
The air conditioner according to claim 5, wherein the plurality of ventilation pipes (143)
The heating system for a greenhouse according to any one of claims 1 to 7, wherein the heating means is disposed at an upper portion of the main body (141), and the direction of blowing is adjusted by a pipe bent at an angle of 90 degrees.
6. The apparatus according to claim 5, wherein the operation control unit (150)
Further comprising a pressure gauge (151) for detecting leakage of oil circulating through the heating oil pipe (120) installed in the greenhouse.
The apparatus according to claim 7, wherein the operation control unit (150)
Further comprising a temperature sensor (152) for sensing the temperature of the oil circulating through the heating oil pipe (120) installed in the greenhouse, wherein the temperature sensor (152) Heating system for greenhouse using oil indirect heating system.

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