KR200396493Y1 - Heating and cooling system using subsurface air - Google Patents

Abstract

The present invention relates to a cooling and heating system using an underground air layer to realize the heating and cooling of a house and a house by using the underground air layer appearing in geological characteristics, and to drastically reduce the initial investment cost and operation cost.

To this end, the present invention perforates and embeds the volcanic ash terrain to extend to the underground space, but a suction pipe having a plurality of through-holes perforated therein so as to suck underground air from the porous rock layer, and dirt or rainwater as the suction pipe. A manhole is formed from the ground to prevent the inflow and the suction pipe is installed through the bottom of the ground, and the manhole opening is hermetically coupled to the suction and blowing of underground air through the suction pipe installed through the manhole, and a blower inside the One side lengthwise direction to realize air-conditioning and heating by spraying the inner part of the blower with the heater, the induction pipe for guiding the underground air blown from the blower in the blower, into the facility A plurality of supply pipes having a plurality of injection holes and one end thereof communicating with an induction pipe; In addition, an exhaust pipe is provided for exhausting the expansion air in the facility due to the inflow of underground air to the outside.

According to the above technical features, it is possible to realize the heating and cooling of the house and house by using the underground air layer that appears due to the geological characteristics, while significantly reducing the initial investment cost and operating costs. In addition, by heating the underground air sucked and blown by the blower by the heater during the winter heating by the heater, it is possible to heat the proper temperature in the facility at a low operating cost, and it is possible to reduce the initial facility cost because no separate heating equipment is required. . And by installing the manhole, it is possible to fundamentally solve the groundwater contamination problem that may be caused by the inflow of dirt or rainwater into the underground space through the suction pipe, and the suction pipe and the blower pipe are intimately communicated through the manhole. It is possible to improve the suction and blowing power of the blower.

As a result, the present invention provides a very excellent effect that can use more than 95% of the ground heat during heating and cooling.

Description

HEAT AND COOLING SYSTEM USING SUBSURFACE AIR}

The present invention relates to an air conditioning system using an underground air layer, and more particularly, to an air conditioning system using an underground air layer to realize heating and cooling of a house and a house using an underground air layer appearing in geological characteristics.

In general, the sun has a high center temperature of tens of thousands of degrees and the surface temperature is about 6,000 ° C.

The sun's energy is radiated and penetrates the Earth's atmosphere to reach the earth's surface as heat or light energy.

In agricultural production facilities such as greenhouses and greenhouses, the energy emitted from the sun during the day is used directly by crops for photosynthesis, or in the ground or other heat-retaining substances.

This energy is slowly released at night, warming the air inside the facility, causing a partial increase in temperature.

When sunlight penetrates the surface of the facility, it maintains a wavelength of about 290 to 3,000 nm, but in heat storage materials such as the ground, it is converted into thermal energy, which is 3,000 to 5,000 nm, and heat is accumulated by raising the temperature inside the facility.

The conventional method of using underground heat is to raise groundwater and spray it on a plastic house to prevent ground loss along with the heating effect (cooling effect in summer) by the heat energy (average temperature of 15 ℃) of water. It is used by most farms in Japan since it was introduced in Japan in 1984.

Currently, the water film system currently used in Korea is a non-circulating method in which once used groundwater flows through a drainage channel, so the recycling of groundwater is very low.In particular, Korea is one of the water shortage countries classified by the OECD. The problem will be a big social problem.

In addition, in the conventional method of using underground heat, most of the underground pipes are used by embedding pipes and using heat pumps (collecting tanks) and heat collecting tanks.

The present invention was devised to solve the above-mentioned problems, and it is possible to realize the heating and cooling of houses and houses by using the underground air layer, which appears due to the geological characteristics, and to reduce the initial investment cost and the operating cost. To provide facilities.

In order to achieve the above technical problem, the present invention perforates and embeds the volcanic ash topography to extend to the underground space, but a suction pipe having a plurality of through holes perforated therein so as to suck underground air from the porous rock layer, Manhole openings are formed to protrude from the ground to prevent the inflow of dirt or rainwater to the suction pipe, and the suction hole is penetrated to the bottom of the suction pipe, and a manhole opening for sucking and blowing underground air through the suction pipe installed through the manhole. The air-tight pipe is airtightly coupled to the inside of the facility, the induction pipe for guiding the underground air blown from the blower inherent to the facility, and the underground air guided through the induction pipe is sprayed evenly in the facility to realize air conditioning A plurality of injection holes are drilled in one side length direction so that one end communicates with the guide pipe. A plurality of supply pipes, and the expansion the air in the facility is characterized in that an exhaust duct is provided for discharging to the outside atmosphere.

In addition, when the temperature of the underground air sucked and blown by the blower during heating is lower than the set temperature, it is characterized in that the heater is built in the blower side blower tube of the blower to heat the underground air.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the air conditioning equipment using the underground air layer according to the present invention.

1 is a perspective view of a cooling and heating facility using the underground air layer according to the present invention, Figure 2 is a detailed view showing the air conditioning and heating structure of the heating and cooling facility using the underground air layer according to the present invention, Figure 3 using the underground air layer according to the present invention This is a cross-sectional view showing the manhole structure of air conditioning and heating equipment.

First, prior to the description of the technical configuration of the present invention will be described for the specific geological characteristics to which the present invention is applied.

The geological composition of volcanic ash found in Korea is black to dark gray dense basic volcanic rock with basalt. It has many porosities and is distributed in Baekdusan, Jeju Island, Yeoncheon, Gyeonggi-do, and Ulleungdo.

This geological feature is the young volcanic soil, which formed most of the surface lipids by the volcanic activity of the 4th Neo-episode period. The main rock is mainly composed of basalt rocks, and is distributed as red cluster (Scoria).

In addition, the permeable geological structure is a geological structure and geological medium with a very high inflow of precipitation, Lava Cave, hidden bone (where a common or hot pole is exposed to the surface, where the precipitation is infinite) Gravel, rises, rivers, and seaweed-like sedimentary layers are formed, and an air layer of about 15 ° C exists in the underground space.

The present invention is proposed by focusing on the air layer of about 15 ℃ average annually present on such a geological structure.

First, Figure 1 is a perspective view of a heating and cooling facility using an underground air layer according to the present invention, as shown in the figure is a structure for sucking air from the basement floor and blowing it to the ground and the object of the house or house, such as air conditioning and heating, And a structure for guiding suctioned and blown underground air into the facility.

In more detail, it is a structure for sucking air from the basement layer and blowing it to the ground to perforate and embed the volcanic clay terrain to extend the underground space (4), but can suck underground air from the porous rock layer (3). The suction pipe 10 has a plurality of through-holes 11 formed therein so as to protrude from the ground to prevent the inflow of dirt or rainwater into the suction pipe 10, and the suction pipe 10 is formed at the bottom thereof. The manhole 20 to be installed through and the suction hole 10 through which the manhole 20 is installed through the manhole 20 so that the air can be sucked and blown airtightly coupled and the blower 30 is embedded therein A blowing pipe (part from the manhole 20 to the induction pipe 50) is provided.

In addition, the induction pipe 50 for guiding the underground air blown from the blower 30 embedded in the blower pipe into the facility as a structure for guiding the suctioned underground air into the facility, and guided through the induction pipe 50 A plurality of supply pipes 60 in which a plurality of injection holes 61 are drilled in one side lengthwise direction and one end is in communication with the induction pipe 50 so as to spray the underground air evenly in the facility 1 to realize cooling and heating; An exhaust pipe 70 is provided for discharging the expansion air in the facility 1 due to the supply of underground air to the outside.

According to the above technical configuration, as the blower 30 is driven, underground air of about 15 ° C. per year in the underground layer is sucked through the end and the through hole 11 of the suction pipe 10, and thus the manhole 20 and the induction pipe. Blowing is induced into facility 1 via 50.

Blown-induced underground air communicates with the induction pipe (50), but is transported to each area within the facility through a plurality of small supply pipes (60) and sprayed through the respective injection holes (61) so that the inside of the facility (1) It is air-conditioned.

In other words, the cooling function is performed by supplying underground air of about 15 ° C. lower than the outside air to the entire area of the facility during the summer, and the heating function is performed by supplying underground air of about 15 ° C. higher than the outside air to the entire area of the winter facility. do.

Reference numeral 51 is an elbow tube for connecting the vertically buried suction pipe 10 and the induction pipe 50 in a horizontal state, and the reference numeral 21 is between the elbow tube 51 and the opening of the manhole 20 which are part of the blower tube. Packing or sealing material for improving airtightness. In addition, reference numeral 40 will be described later with reference to FIG. 2 as a heater.

Next, Figure 2 is a detailed view showing the blowing and heating structure of the cooling and heating equipment using the underground air layer according to the present invention, the blower and the underground air for suction blowing the underground air in the blower pipe supported by the cradle as shown in FIG. A heater for heating the is provided.

The blower 30 suppresses turbulence caused by suction and is provided with a net body 32 as a support of the blower fan 31, and the heater 40 is provided with a heating wire 41 on the blower side of the blower 30.

According to the above technical configuration, it is possible to maintain a proper temperature in the facility (1) without a separate cooling means during the cooling in the summer, and during the heating in winter it is preferable that the temperature inside the facility (1) is usually maintained above 20 ℃. By heating the underground air sucked and blown by the blower 30 by the heater 40, it is possible to maintain a proper temperature in the facility 1 at a low operating cost. In addition, since no additional heating equipment is required, initial facility costs can be reduced.

Next, Figure 3 is a cross-sectional view showing the manhole structure of the air conditioning and heating equipment using the underground air layer according to the present invention, as shown in the figure may be generated by inflow into the underground space through the suction pipe 10 perforated dirt or rain water. In order to prevent contamination of the groundwater, there is provided a manhole 20 that is placed about 2 meters into the ground while protruding to the ground, and prevents the intake of outdoor air when the underground air is sucked by the blower 30. The suction pipe 10 penetrates and is airtightly installed on the bottom of the manhole 20 so that the air blower is hermetically bound to the upper opening of the manhole 20 by packing or sealing material.

Accordingly, it is possible to fundamentally solve the problem of groundwater contamination that may be caused by dirt or rainwater flowing into the underground space through the suction pipe 10, and the suction pipe 10 and the blower pipe are hermetically communicated through the manhole 20. By blocking the intake of the outside air at the source it is possible to improve the suction and blowing power of the blower.

As described in detail above, according to the present invention, it is possible to realize the heating and cooling of houses and houses by using the underground air layer, which appears due to the geological characteristics, and to drastically reduce the initial investment and operating costs.

In addition, by heating the underground air sucked and blown by the blower during the winter heating by the heater, it is possible to heat the inside of the facility at a reasonable operating cost with low operating costs, and it is possible to reduce the initial facility cost because no separate heating facilities are required. It works.

And by installing the manhole, it is possible to fundamentally solve the groundwater contamination problem that may be caused by the inflow of dirt or rainwater into the underground space through the suction pipe, and the suction pipe and the blower pipe are intimately communicated through the manhole. Therefore, there is an effect that it is possible to improve the suction and blowing power of the blower.

As a result, the present invention provides a very excellent effect that can use more than 95% of the ground heat during heating and cooling.

1 is a perspective view of a heating and cooling facility using an underground air layer according to the present invention,

Figure 2 is a detailed view showing the blowing and heating structure of the heating and cooling equipment using the underground air layer according to the present invention,

Figure 3 is a cross-sectional view showing a manhole structure of the heating and cooling equipment using the underground air layer according to the present invention.

* Description of the symbols for the main parts of the drawings *

1: Facility

3: porous rock layer

4: underground space

10: suction pipe

11: through hole

20: manhole

30: blower

50: guide tube

60: supply pipe

61: injection hole

70: exhaust pipe

Claims (2)

In the air-conditioning facility using the underground air layer, A suction pipe having a plurality of through holes perforated to form underground volcanic soils and extend to underground spaces to suck underground air from the porous rock layers; A manhole protruding from the ground to prevent the inflow of dirt or rainwater into the suction pipe and having the suction pipe penetrated through the suction pipe; A blower tube which is airtightly coupled to the manhole opening so as to suck and blow underground air through a suction pipe installed through the manhole, and having a blower embedded therein; An induction pipe for guiding underground air blown from the blower embedded in the blower into the facility; A plurality of supply pipes are drilled in one side lengthwise direction and one side end is in communication with the induction pipe so that underground air guided through the induction pipe is uniformly sprayed in the facility to realize cooling and heating. Cooling and heating equipment using an underground air layer, characterized in that the exhaust pipe is provided for exhausting the expansion air in the facility to the outside. The method of claim 1, An air-conditioning and heating system using an underground air layer, characterized in that a heater is built in the air blower side of the blower so as to heat the underground air when the temperature of the underground air sucked and blown by the blower is lower than a set temperature during heating.