KR20240016143A - Renewable power generation module for indoor temperature control - Google Patents

Abstract

The present invention relates to a renewable power generation module for controlling indoor temperature. More specifically, the present invention relates to a renewable power generation module for controlling indoor temperature, in order to reduce damage from cold damage, heat-related diseases, etc. in farming operations in heat waves or extreme cold conditions that occur indoors in a greenhouse. The purpose is to provide control of indoor temperature by installing pipes buried underground and an underground temperature protection wall using generated electricity.
In general, temperature changes inside warehouses and greenhouses due to heat waves and extreme cold caused by climate change cause serious damage to farming operations.
As a countermeasure to this, the indoor temperature is controlled by circulating air through indoor heating devices or pipes buried in the groundwater section, but environmental problems are emerging due to the increase in carbon emissions when existing electricity is not supplied to this.
As an invention to solve the problems described above,
The underground 50 where the indoor space 68 for the warehouse and greenhouse 65 is built, the solar power generation device 77 built on scrap land 70 in the ground, and the solar power generation device 77 In the solar and wind power generation device equipped with a pump 56 and a supply pipe 84 in the heat exchange device 72,
The heat exchanger 72 is a supply pipe 84 that supplies air heat-exchanged with the power generated by the solar power generation device 77, and a heat exchange pipe 66 buried in the ground 50 is connected to the ground 50. This is an invention that purifies the air in the room (68) during heat waves or cold seasons by regulating the temperature through a pipe block (100) assembled to discharge into the room (68).

Description

Renewable power generation module for indoor temperature control {Omitted}

The present invention relates to a renewable power generation module for controlling indoor temperature. More specifically, the present invention relates to a renewable power generation module for controlling indoor temperature, to reduce damage from cold damage, heat-related diseases, etc. in farming operations in heat waves or extreme cold conditions that occur indoors in a greenhouse. The purpose is to provide control of indoor temperature by installing pipes buried underground and an underground temperature protection wall using generated electricity.

In general, temperature changes inside warehouses and greenhouses due to heat waves and extreme cold caused by climate change cause serious damage to farming operations.

As a countermeasure to this, the indoor temperature is controlled by circulating air through indoor heating devices or pipes buried in the groundwater section, but environmental problems are emerging due to the increase in carbon emissions when existing electricity is not supplied to this.

The indoor temperature of warehouses and greenhouses built on farmland in the field causes cold damage, heat-related illnesses, and pest damage due to changes in indoor temperature formed by the change of the four seasons, so necessary air conditioning and heating devices are installed depending on the season.

The present invention requires an insulating wall for power and geothermal heat to provide circulating air to pipes buried in the ground to utilize the underground temperature formed in the interior of the greenhouse in extreme cold or heat wave temperature conditions that appear due to climate change. to do it,

This is to the extent that damage occurs in agricultural work on vegetables and horticulture due to changes in indoor temperature in greenhouses, which mostly occur due to seasonal changes. This is because indoors wrapped and sealed with plastic are more prone to thermal damage due to cold and heat waves. will be.

In addition, in order to prepare for carbon materials, the construction of power generation facilities for solar and wind power generation mostly uses sloping mountainous areas connected to farmland, but in these sloping mountainous areas, there is damage to agricultural fields or forest areas used to create forests. This happens in parallel.

In addition, in the case of greenhouses, in order to lower the indoor temperature during hot weather, a separate cooler is operated or a device formed by cooling pipes buried underground is used. However, the power for this is high cost, which reduces economic feasibility.

Additionally, a protection device against geothermal heat moving in the ground is needed.

This is especially true in remote areas of the mountains or in agricultural fields formed in large fields, where installation of power for water development requires high local costs, so an eco-friendly power supply device is required by providing power generation with naturally occurring wind or solar energy. .

Therefore, it was provided by No. 10-1111301, etc., respectively provided by the person's prior registration as above.

The purpose of the present invention is to provide air supply for indoor air conditioning to a renewable power generation device that generates power at the time when solar or wind power blows depending on the season or region.

This is the installation of a solar power generation device in a space equipped with a wind power generation device, and the power generation of solar and wind power is combined to provide complementary power generation. This provides energy through new and renewable power generation, which is effective even in seasonal dry areas or drought periods. This invention is intended to supply the conditioned air needed for farming during drought or dry periods to pipes buried underground, regardless of climate change. Additionally, in order to keep indoor air warm, it is necessary to install a thermal insulation wall that blocks cold air transmitted to ground temperature.

Here, the provision of the insulating wall is provided by providing a sheet (d) in which flexibility and elasticity reinforcement is formed in an extruder (f) and a caterpillar-type molding device (e) as an insulating wall using the waste vinyl body generated as a by-product in the insulating work. will be. Therefore, the insulating wall is a by-product of agricultural products, and is mostly generated as waste mixed with foreign substances during the farming process. Therefore, incineration in most incinerators generates toxic combustion gas, so in the present invention, an insulating wall for insulating geothermal heat for indoor use is used. The provision is an invention for providing effects with carbon materials.

Therefore, especially in the cold season, the indoor temperature appears to be extremely cold due to the effects of freezing and bursting due to freezing of the ground. However, as a precaution against this, it is necessary to provide a protective wall that is buried in the ground and exposed as a wall to serve as a fence that forms the indoor space. By overlapping a plurality of curved walls with grooves and protrusions, a protective wall integrated with an insulating space and a joint is installed to protect the temperature of the ground forming the interior and prevent the invasion of wild animals such as moles. It is an invention for the sake of others.

In addition, in the present invention, a farming complex built in a large field or covered with plastic for mulching is used to grow food materials such as vegetables and flower crops, and indoors for a warehouse, and new and renewable power is generated by solar power and wind power in the leftover land of the farming complex. This is to enhance the efficiency of the greenhouse by supplying insulation air supplied to the module.

In addition, it provides a system for controlling the temperature of indoor air by providing a power control device installed in a renewable power generation module that generates power from solar and wind power, as well as a refrigerator and a heater to condition the air supplied to pipes buried underground. It is for this purpose.

Therefore, the power generated by wind blowing during the cold weather supplies heated air to pipes buried underground during the frozen winter.

It is an invention to supply slowly cooled underground air indoors by supplying electricity generated from sunlight during hot weather and drought to underground pipes.

Here, a storage tank is provided to discharge condensate that condenses as the air passes through the pipe, that is, to reinforce all-weather indoor air temperature control.

The underground 50 where the indoor space 68 for the warehouse and greenhouse 65 is built, the solar power generation device 77 built on scrap land 70 in the ground, and the solar power generation device 77 In the solar and wind power generation device equipped with a pump 56 and a supply pipe 84 in the heat exchange device 72,

A wall 79 installed at the edge of constructing the room 68, a groove 91 and a protrusion 92 formed on the wall 79, and the plurality of walls 79 are overlapped. An insulating wall (88) integrated with an integrated insulating space (78) and a tie portion (87),

The heat exchange device 72 is a supply pipe 84 that supplies air heat-exchanged with the power generated by the solar power generation device 77, and a heat exchange pipe 66 buried in the ground 50 is used in the ground 50. This is an invention that purifies the air in the room (68) during heat waves or cold weather by regulating the temperature through a pipe block (100) assembled to discharge into the room (68).

In addition, an insulating wall (90) in which an air movement space (95) is formed between the insulating walls (88) with a fusion zone (94),

A flexible heat exchanger buried in the ground (50) connected to the heat exchange device (72) operated with power generated by a renewable power generation module (75) connected to the wind power generation device (80) and the solar power generation device (77). Provided through pipe 76,

This invention is provided to enhance durability in the ground (68) by wrapping the flexible pipe (76) with non-woven fabric (62).

In addition, the prevention band 90 fixes the plurality of beams 89 installed in the ground,

It is equipped with a plurality of solar and wind power generation devices to connect the indoor (68) warming air to the suction pump (56) buried in the ground (50) using power generated alternately from solar and wind power,

The lower end (b) of the curved pipe 69 buried in the ground 50 is connected to the condensate collection tank 73 assembled in sections connected to each other, and the curved pipe 69' is symmetrically curved,

A separate curved second curved pipe (169) is inserted into the spaced section (a) between the symmetrically assembled curved pipes (69) and (69') to control the temperature of the air in the room (68). This invention is provided.

The present invention provides the effect of controlling the indoor temperature of greenhouses where heat-related illnesses or cold damage occur due to seasonal changes by supplying air temperature-controlled by renewable energy through the ground. .

This is an invention that utilizes new and renewable energy and provides an effect as a carbon material in the era of climate change, and also provides usefulness for farming management in rural areas through recycling of waste vinyl, a by-product of farming materials.

This is an invention that effectively prevents damage to agricultural land due to flooding due to heavy rain due to climate change.

Figure 1 is a schematic diagram of an indoor warming device, which is the main part of the present invention.
Figure 2 is a partial state diagram of one embodiment of the main part in Figure 1
Figure 3 is a partial perspective view of the main part in Figure 2
Figure 4 is a partially enlarged state diagram of the main part in Figure 3
Figure 5 is a partial state diagram of another embodiment of the use state in Figure 3
Figure 6 is a partially enlarged perspective view of the main part in Figure 1
Figure 7 is an enlarged state of use of the main parts of the present invention.
Figure 8 is a manufacturing state diagram of the main parts of the present invention

An embodiment of the main part of the present invention described above for field implementation will be described in detail with the accompanying drawings. Figure 1 is a schematic diagram of an indoor warming device, which is the main part of the present invention, and Figure 2 is a main part in Figure 1. It is a partial state diagram for one embodiment, Figure 3 is a partial perspective view of the main part in Figure 2, Figure 4 is a partially enlarged state diagram of the main part in Figure 3, and Figure 5 is another implementation of the use state in Figure 3. This is a partial state diagram of an example.

In addition, Figure 6 is a partially enlarged perspective view of the main part in Figure 1, Figure 7 is an enlarged use state diagram of the main part of the present invention, and Figure 8 is a manufacturing state diagram of the main part of the present invention.

Therefore, the purpose of the present invention is to provide air supply for indoor air conditioning to a renewable power generation device that generates power at the time when solar or wind power blows depending on the season or region.

Additionally, in order to keep indoor air warm, it is necessary to install a thermal insulation wall that blocks cold air transmitted to ground temperature.

Therefore, especially in the cold season, the indoor temperature appears to be extremely cold due to the effects of freezing and rupture due to freezing of the ground. However, as a precaution against this, a protective wall buried in the ground and exposed as a wall is provided to serve as a fence that forms the indoor space. As an invention, as shown in the attached Figures 1 and 2,

The underground 50 where the indoor space 68 for the warehouse and greenhouse 65 is built, the solar power generation device 77 built on scrap land 70 in the ground, and the solar power generation device 77 In solar and wind power generation devices equipped with a pump (56) and a supply pipe (84) in the heat exchange device (72), solar energy provides the effect of carbon material in the era of climate change by adjusting the temperature of the room (68) for farming. The air for controlling the indoor temperature supplied to the control device 56 equipped with a cooling device, a heating device, etc. connected to the heat exchange device 72 operated with the power generated from the power generation device 77 is sent to the ground 50 in the room 68. It is connected to a buried pipe (84).

In addition, the description of the insulating wall 88, which provides protection from the freezing temperature of the ground 50 connected to the surroundings to form the room 68, especially in the cold season, is shown in the attached Figures 1 and 2. As shown,

In preparation for the indoor temperature becoming extremely cold due to the effects of freezing and bursting due to freezing of the ground during the cold season, it is buried in the ground to set up land for indoor space and is formed with grooves and protrusions to provide a protective wall that is exposed as a wall. This invention provides a protective wall integrated with an insulating space and a binding portion by integrally fixing a sheet (d) and the plurality of sheets (d) with a joint.

Therefore, the protective wall is an invention to protect the temperature of the ground forming the indoor space and prevent the invasion of wild animals such as moles.

Therefore, the wall 79 installed at the edge of the interior 68 and the grooves 91 and protrusions 92 formed on the wall 79 are overlapped into a plurality of walls 79. An insulating wall (88) integrated with an insulating space (78) and a binding portion (87) formed as one piece,

In the heat exchange device 72, the indoor temperature is harmonized through a supply pipe 84 that supplies air heat exchanged with the power generated by the solar power generation device 77, and a heat exchange pipe 66 buried in the room 68. , This is an invention that provides a pipe block (100) provided to control the indoor (68) temperature, thereby purifying the air in the indoor (68) during heat waves (a) or cold weather.

In addition, the indoor (68) space for the greenhouse (65) built in a field or outdoor underground (62) is exposed to rainwater such as heavy water or rainy season flowing down, causing erosion of the ground for the greenhouse, which is an agricultural complex, or stagnation of rainwater. A description of one embodiment of the protective wall 88 for providing the effect of flooding in 68) is as shown in the attached Figures 2, 6 and 7,

Therefore, the purpose of the protective wall (88) is a prevention device (90) that blocks soil and sand flooding damage to crops due to the inflow of rainwater into the room due to rainwater overflow or flooding of exposed fields or rice fields, and the prevention device ( 90) is an invention in which a buffer space 95 is formed between both sides of the wall 79 with a fusion zone 94 formed by the wall portion 91 and the protrusion 92,

This is an invention that prevents sedimentation of soil and sand in the valley section (a) where rainwater flows intensively in the greenhouse (68) or in the exposed rice paddy or field (93), thereby preventing flood damage to crops due to rainwater during the rainy season or large amounts of water. .

Therefore, in order to provide a barrier 90 built for a fence at the edge of the indoor 68 or outdoor exposed field, the wall portion 91 and the protrusion 92 formed on the wall 79 are It is an invention that provides a prevention band 90 in which a buffer space 95 is formed by a fusion zone 94 formed of protrusions 92 to symmetrically integrate with each other to fix the beam 89.

Therefore, the prevention belt 90 provides the effect of preventing the intrusion of wild animals as a fence 99 for a field built on a particularly sloping terrain, and also prevents damage caused by flooding of rainwater flowing intensively in the valley. It is an invention that prevents.

In addition, the description of one embodiment of the supply pipe 84 is as shown in the attached Figures 3 to 5,

A flexible heat exchanger buried in the ground (50) connected to the heat exchange device (72) operated with power generated by a renewable power generation module (75) connected to the wind power generation device (80) and the solar power generation device (77). Provided through pipe 76,

This invention is provided to enhance durability in the ground (68) by wrapping the flexible pipe (76) with non-woven fabric (62).

In addition, it is an invention for reinforcing the air temperature for warming or cooling indoors for greenhouses. Since the generation of solar and wind power occurs alternately depending on temperature changes, for mutually compatible development,

A plurality of solar and wind power generation devices are provided to connect the indoor (68) warming air to the suction pump (56) buried in the ground (50) using power generated alternately from solar and wind power,

The lower end (b) of the curved pipe 69 buried in the ground 50 is connected to the condensate collection tank 73 assembled in sections connected to each other, and the curved pipe 69' is symmetrically curved,

By inserting a separate curved second curved pipe (169) into the spaced section (a) between the symmetrically assembled curved pipes (69) and (69'), the temperature of the air in the room (68) is adjusted according to the air temperature. This invention is provided to further control heating and cooling.

As described above, the structure and operation of the present invention have been described by way of an example, but the present invention is not limited thereto, and changes and modifications within the scope of the present invention will also fall within the scope of the present invention.

50: underground 56: suction pump 60: outlet 62: non-woven fabric
65: greenhouse 66: flexible pipe 67: T connector
68: indoor 69: curved tube 70; Leftover land 72: Zigzag pipe
73: Condensate collection container 74: Condensate discharge pipe 75: Renewable power generation module
76: Flexible pipe 77: Solar power generation device 78: Insulated space 79: Wall
80: Wind power generation device 82: Cooling pipe 84: Supply pipe 85: Discharge pipe
87: Binding part 88: Protective wall 90: Insulating wall 91: Wall part
92: Protrusion 95: Movement space 98: Connection 100: Pipe block
169: Second curved pipe a: Separated section b: Lower end

Claims (3)

The underground 50 where the indoor space 68 for the warehouse and greenhouse 65 is built, the solar power generation device 77 built on scrap land 70 in the ground, and the solar power generation device 77 In the solar and wind power generation device equipped with a pump 56 and a supply pipe 84 in the heat exchange device 72,
A wall 79 installed at the edge of constructing the room 68, a groove 91 and a protrusion 92 formed on the wall 79, and the plurality of walls 79 are overlapped. An insulating wall (88) integrated with an integrated insulating space (78) and a tie portion (87),
The heat exchange device 72 is a supply pipe 84 that supplies air heat-exchanged with the power generated by the solar power generation device 77, and a heat exchange pipe 66 buried in the ground 50 is used in the ground 50. A new and renewable power generation module for indoor temperature control that regulates the temperature by providing a pipe block (100) assembled to discharge into the room (68) to purify the air in the room (68) during heat waves (a) or cold weather. According to paragraph 1,
The insulating wall 88 is formed with a prevention zone 90, and the prevention zone 90 includes a fusion zone 94 formed of a wall portion 91 and a protrusion 92 between both sides of the wall 79. Forms a buffer space (95),
A flexible heat exchanger buried in the ground (50) connected to the heat exchange device (72) operated with power generated by a renewable power generation module (75) connected to the wind power generation device (80) and the solar power generation device (77). Provided through pipe 76,
A renewable power generation module for indoor temperature control that is provided to reinforce durability in the ground (68) by wrapping the flexible pipe (76) with non-woven fabric (62). According to claim 1 or 2,
The prevention band 90 fixes the plurality of beams 89 installed in the ground,
It is equipped with a plurality of solar and wind power generation devices to connect the indoor (68) warming air to the suction pump (56) buried in the ground (50) using power generated alternately from solar and wind power,
The lower end (b) of the curved curved pipe 69 buried in the ground 50 is connected to a condensate collection container 73 assembled in a section connected to each other, and a symmetrically curved curved pipe 69';
A separate curved second curved pipe (169) is inserted into the spaced section (a) between the symmetrically assembled curved pipes (69) and (69') to control the temperature of the air in the room (68). Renewable power generation module for indoor temperature control provided.