JP2011078362A - Soil temperature regulating system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a soil temperature regulating system regulating the temperature of soil of plants planted in the open air, such as lawn at less installation cost and operating cost. <P>SOLUTION: This soil temperature regulating system 1 regulating the temperature of soil 3 on which a plant 2 is planted includes an underground water supplying buried pipe 11 buried in the soil 3, an underground water supplying device 20 for pouring underground water into the underground water supplying buried pipe 11, and an underground water storage tank 30 buried in the soil 3 and storing underground water discharged from the underground water supplying buried pipe 11. Furthermore, the system includes an underground water returning device 50 buried in the soil 3 and returning underground water, discharged from the underground water supplying buried pipe 11, to the underground, and the underground water returning device 50 buried in the soil 3 and returning underground water from the underground water storage tank 30 to the underground. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a soil temperature control system that adjusts the temperature of soil in which plants are planted.

  For example, in a horticultural facility, a heat pump that has both cooling and heating functions is used to control the room temperature. This heat pump selectively cools or warms the heat exchanger by switching between the cooling cycle and the heating cycle. It is designed to adjust the room temperature of the gardening facility by selectively releasing wind.

  Conventional heat pumps have the problem of relatively high equipment and operating costs, so it is possible to adjust the room temperature throughout the year with less equipment and operating costs than when using heat pumps. A room temperature control device for a horticultural facility has been proposed.

JP 2001-211763 A

  Thus, in a horticultural facility that cultivates the required plants in a house covered with glass, etc., to maintain the horticultural facility at a predetermined room temperature and use it throughout the year, the room temperature is lowered in the summer and the room temperature is raised in the winter. However, the soil temperature could not be adjusted in summer and winter, for example, in lawns planted in outdoor parks other than horticultural facilities.

  This invention is made in view of the said situation, Comprising: The soil temperature control system which can adjust the temperature of the soil of plants, such as the lawn planted outdoors, can be adjusted with few installation costs and operating expenses. For the purpose.

  In order to solve the above-described problems and achieve the object, the present invention is configured as follows.

Invention of Claim 1 is a soil temperature control system which adjusts the temperature of the soil which planted the plant,
A groundwater supply buried pipe buried in the soil;
A groundwater supply device for flowing groundwater into the underground water supply buried pipe;
A groundwater storage tank for storing groundwater buried in the soil and discharged from the groundwater supply buried pipe;
A soil temperature control system comprising:

Invention of Claim 2 is a soil temperature control system which adjusts the temperature of the soil which planted the plant,
A groundwater supply buried pipe buried in the soil;
A groundwater supply device for flowing groundwater into the underground water supply buried pipe;
A groundwater return device that returns underground water buried in the soil and discharged from the underground water supply buried pipe to the ground;
A soil temperature control system comprising:

Invention of Claim 3 is a soil temperature control system which adjusts the temperature of the soil which planted the plant,
A groundwater supply buried pipe buried in the soil;
A groundwater supply device for flowing groundwater into the underground water supply buried pipe;
A groundwater storage tank for storing groundwater buried in the soil and discharged from the groundwater supply buried pipe;
A groundwater return device that is buried in the soil and returns groundwater from the groundwater storage tank to the ground,
A soil temperature control system comprising:

  A fourth aspect of the present invention is the soil temperature control system according to the first aspect, further comprising a watering device that sprays the groundwater stored in the groundwater storage tank to the plant.

  The invention according to claim 5 is characterized in that the groundwater supply buried pipe has a supply hole for supplying groundwater into the soil in which a plant is planted. Is a soil temperature control system.

  The invention according to claim 6 is the soil according to any one of claims 1 to 3, wherein the underground water supply buried pipe has temperature adjusting means for adjusting the temperature of the supplied groundwater. It is a temperature control system.

  With the above configuration, the present invention has the following effects.

  In the invention according to claim 1, by flowing groundwater into a groundwater supply buried pipe buried in the soil, the temperature of the soil where the plant is planted using the heat of the groundwater is lowered in the summer, Can be adjusted with less equipment and operating costs. Moreover, the groundwater discharged from the underground water supply buried pipe can be stored in the groundwater storage tank, and the groundwater can be prevented from being discharged in large quantities.

  In the invention according to claim 2, the temperature of the soil in which plants are planted using the heat of the groundwater is lowered by flowing groundwater into the underground water supply buried pipe buried in the soil. Can be adjusted with less equipment and operating costs. Moreover, by returning the groundwater discharged from the underground water supply buried pipe to the underground, the groundwater can be circulated and used.

In the invention according to claim 3, by flowing groundwater into a groundwater supply buried pipe buried in the soil, the temperature of the soil where the plant is planted using the heat of the groundwater is lowered in the summer, Can be adjusted with less equipment and operating costs. Further, by storing the groundwater discharged from the underground water supply buried pipe in the groundwater storage tank and returning it to the ground from the groundwater storage tank, the flow of the groundwater can be adjusted and circulated.

  In invention of Claim 4, water can be sprinkled with respect to a plant using the groundwater stored in the groundwater storage tank effectively.

  In invention of Claim 5, while supplying groundwater to the soil which planted the plant from the supply hole of the underground water supply underground pipe | tube, the temperature of soil can be adjusted efficiently and water is given to a plant be able to.

  In the invention described in claim 6, the temperature of the supplied groundwater can be adjusted by the temperature adjusting means of the underground water supply buried pipe.

It is a schematic block diagram of the soil temperature control system of 1st Embodiment. It is sectional drawing of the buried part of a groundwater supply buried pipe. It is a top view which shows the arrangement | positioning state of a groundwater supply buried pipe. It is a schematic block diagram of the soil temperature control system of 2nd Embodiment. It is a schematic block diagram of the soil temperature control system of 3rd Embodiment. It is an enlarged view of a part of underground water supply buried pipe. It is a top view which shows the arrangement | positioning state of a groundwater supply buried pipe. It is an enlarged view of a part of underground water supply buried pipe.

  Hereinafter, embodiments of a soil temperature control system according to the present invention will be described in detail with reference to the drawings. The embodiment of the present invention shows the most preferable mode of the present invention, and the present invention is not limited to this.

[First Embodiment]
This embodiment will be described with reference to FIGS. FIG. 1 is a schematic configuration diagram of a soil temperature control system, FIG. 2 is a cross-sectional view of a buried portion of a groundwater supply buried pipe, and FIG. 3 is a plan view showing an arrangement state of the groundwater supply buried pipe.

  The soil temperature control system 1 of this embodiment is a system that adjusts the temperature of the soil 3 in which the plant 2 is planted outdoors. The plant 2 is preferably a lawn such as a Korean turf, a flower, a vegetable, or the like. The soil temperature control system 1 includes a groundwater supply buried pipe 10, a groundwater supply device 20, a groundwater storage tank 30, and a watering device 40.

  The underground water supply buried pipe 10 is buried in the soil 2 and is formed of, for example, a metal pipe having good thermal conductivity or a synthetic resin pipe, and the plant 2 has a root as shown in FIG. Buried in the depth of. Further, as shown in FIG. 3, the underground water supply buried pipe 10 is buried in a predetermined rectangular region so as to be parallel at a predetermined interval.

  The groundwater supply device 20 includes a supply pump 21 and a pumping pipe 22, and the lower end of the pumping pipe 22 is in the groundwater of the well 4. When the supply pump 21 is driven, groundwater is pumped from the well 4 by the pumping pipe 22 and supplied to the underground water supply buried pipe 10.

  The groundwater storage tank 30 is entirely buried in the soil 3, but may be partly buried or may be simply placed in place, and groundwater discharged from the groundwater supply buried pipe 10. To store. When the groundwater storage tank 30 is embedded in the soil 3, the temperature of the stored groundwater can be adjusted by the temperature of the soil 3. When embedding the groundwater storage tank 30 in the soil 3, it is preferable to form the groundwater storage tank 30 with a metal plate having good thermal conductivity.

  The watering device 40 includes a watering column 41, a watering device 42, and the like. The watering column 41 sprays the groundwater stored in the groundwater storage tank 30 to the plant by driving the watering device 42.

  Thus, by flowing groundwater into the underground water supply buried pipe 10 embedded in the soil 3, the temperature of the soil 3 where the plant 2 is planted using the heat of the groundwater is lowered in the summer and raised in the winter. It can be adjusted with less equipment and operating costs. Further, the groundwater stored in the groundwater storage tank 30 can be effectively used to spray the plant 2.

[Second Embodiment]
This embodiment will be described with reference to FIG. FIG. 4 is a schematic configuration diagram of the soil temperature control system. In the soil temperature control system 1 of this embodiment, the same components as those in FIGS.

  The soil temperature control system 1 of this embodiment includes a groundwater return device 50 instead of the watering device 40. The groundwater return device 50 has a groundwater return pipe 51, one end of the groundwater return pipe 51 is connected to the groundwater supply buried pipe 10, the other end of the groundwater return pipe 51 is connected to the well 4, and the groundwater return pipe 51 The groundwater is returned to the well 4 through The groundwater return device 50 returns the groundwater discharged from the underground water supply buried pipe 10 to the ground, circulates the groundwater and passes the underground water supply buried pipe 10, and the temperature of the groundwater rises in the summer. The temperature of groundwater decreases in winter, but the temperature of this groundwater can be increased.

[Third Embodiment]
This embodiment will be described with reference to FIG. FIG. 5 is a schematic configuration diagram of the soil temperature control system. In the soil temperature control system 1 of this embodiment, the same components as those in FIGS.

  The soil temperature control system 1 of this embodiment includes a groundwater return device 50 instead of the watering device 40. The groundwater return device 50 has a groundwater return pipe 51, one end of the groundwater return pipe 51 is connected to the groundwater storage tank 30, the other end of the groundwater return pipe 51 is connected to the well 4, and the groundwater return pipe 51 is connected to the groundwater return pipe 51. The groundwater is returned to the well 4 through. By returning the groundwater stored in the groundwater storage tank 30 to the ground by this groundwater return device 50 and circulating the groundwater, the amount of groundwater returned from the groundwater storage tank 30 to the ground is adjusted. Although the temperature of the groundwater can be lowered, the temperature of the groundwater can be lowered in winter, but the temperature of the groundwater can be raised.

[Configuration of underground water supply buried pipe]
Next, the structure of the underground water supply buried pipe will be described with reference to FIGS. FIG. 6 is an enlarged view of a part of the underground water supply buried pipe. In the embodiment of FIG. 6 (a), the underground water supply buried pipe 10 is a circular pipe, and the supply holes 10a are formed at predetermined intervals along the pipe axial direction. In the embodiment of FIG. A supply hole 10a is formed, and groundwater is supplied into the soil 3 in which the plant 2 is planted by the supply hole 10a. Thus, by supplying groundwater to the soil 3 in which the plant 2 is planted from the supply hole 10a of the underground water supply buried pipe 10, the temperature of the soil 3 can be adjusted efficiently, and water is supplied to the plant 2. Can be given.

  FIG. 7 is a plan view showing an arrangement state of underground water supply buried pipes. In this embodiment, two underground water supply buried pipes 10 are used. One underground water supply buried pipe 10 is arranged in the same manner as in the embodiment of FIG. 3, and one other underground water supply buried pipe is provided. 10 is arrange | positioned so that it may orthogonally cross at predetermined intervals with respect to the underground water supply buried pipe 10 of embodiment of FIG. 3, and the temperature of the soil 3 can be adjusted efficiently.

  FIG. 8 is an enlarged view of a part of the underground water supply buried pipe. A temperature adjusting means 60 is provided in the underground water supply buried pipe 10 of this embodiment. The temperature adjusting means 60 includes a heating sheet 61 having a heating coil and a power source 62 for supplying a current to the heating sheet 61. The temperature of the groundwater supplied by heating the underground water supply buried pipe 10 with the heating sheet 61. Adjust. The power supply 62 is turned on and off, for example, by detecting the temperature of the soil 2 and turned on when the temperature is lower than a predetermined temperature, turned off when the temperature is higher than the predetermined temperature, and supplied by heating the underground water supply buried pipe 11. The temperature of groundwater can be adjusted.

  The present invention can be applied to a soil temperature control system that adjusts the temperature of soil in which plants are planted, and the temperature of soil in plants such as lawns planted outdoors can be adjusted with low equipment and operating costs. It is.

DESCRIPTION OF SYMBOLS 1 Soil temperature control system 2 Plant 3 Soil 4 Well 10 Groundwater supply buried pipe 10a Supply hole 20 Groundwater supply apparatus 21 Supply pump 22 Pumping pipe 30 Groundwater storage tank 40 Watering apparatus
41 Sprinkling column 42 Sprinkler 50 Groundwater return device 51 Groundwater return pipe 60 Temperature control means 61 Heating sheet 62 Power supply

Claims (6)

It is a soil temperature regulation system that regulates the temperature of the soil where the plant is planted,
A groundwater supply buried pipe buried in the soil;
A groundwater supply device for flowing groundwater into the underground water supply buried pipe;
A groundwater storage tank for storing groundwater buried in the soil and discharged from the groundwater supply buried pipe;
A soil temperature control system comprising: It is a soil temperature regulation system that regulates the temperature of the soil where the plant is planted,
A groundwater supply buried pipe buried in the soil;
A groundwater supply device for flowing groundwater into the underground water supply buried pipe;
A groundwater return device that returns underground water buried in the soil and discharged from the underground water supply buried pipe to the ground;
A soil temperature control system comprising: It is a soil temperature regulation system that regulates the temperature of the soil where the plant is planted,
A groundwater supply buried pipe buried in the soil;
A groundwater supply device for flowing groundwater into the underground water supply buried pipe;
A groundwater storage tank for storing groundwater buried in the soil and discharged from the groundwater supply buried pipe;
A groundwater return device that is buried in the soil and returns groundwater from the groundwater storage tank to the ground,
A soil temperature control system comprising:   The soil temperature control system according to claim 1, further comprising a watering device that sprays groundwater stored in the groundwater storage tank to the plant.   The soil temperature control system according to any one of claims 1 to 3, wherein the groundwater supply buried pipe has a supply hole for supplying groundwater into soil in which a plant is planted. The soil temperature control system according to any one of claims 1 to 3, wherein the groundwater supply buried pipe has temperature control means for adjusting a temperature of the supplied groundwater.