JPH03127915A - Greenhouse having activating function - Google Patents

Abstract

PURPOSE:To grow animals and plants to a more preferable state by simple mechanism by activating stored animals and plants by irradiating action of far infrared rays radiating from far infrared radiation layer formed at a main part. CONSTITUTION:A greenhouse which is equipped with a far infrared radiation layer at a main part and activates animals and plants stored in the greenhouse by irradiating action of far infrared rays radiating from the far infrared radiation layer. In the greenhouse, temperature in the greenhouse is raised than temperature in the open air by sunlight, warm air, etc. Since heat is absorbed and increasingly radiated in the far infrared radiation layer and far infrared rays are always radiated 1a the greenhouse, stored materials in the greenhouse are provided with characteristic far infrared rays by far infrared radiation and the stored materials are activated. Especially hydrous plants germinate in an early stage and extremely grow. Water in plants and cell tissue are activated. The greenhouse is also suitable for greenhouse culture of edible plants.

Description

DETAILED DESCRIPTION OF THE INVENTION "Industrial Application Field" The present invention forms a far-infrared radiating layer in the main part of a fixed greenhouse or a mobile greenhouse, etc., which houses animals and FM objects.

Therefore, the above-mentioned animals and plants can be activated, and the nurturing, growth, and health of these things can be maintained.1. The present invention relates to a pouch having active rt and functions that can provide usefulness such as maintaining freshness, preventing spoilage, and promoting ripening.

"Purpose of the Invention" Conventional greenhouses are fixed greenhouses that contain warm air from the sun to support the early growth of plants, such as edible plants and lizards. It has been used as a greenhouse for early germination and early growth. These greenhouses include greenhouses for agricultural use made of vinyl chloride sheets and frames that support them, and greenhouses for ornamental plants made of glass and wood frames, but due to the blockage of these greenhouses, No greenhouse has been developed that has the function of actively activating the plants and animals housed therein.

On the other hand, among infrared light and heat, far infrared rays, which belong to long wavelength ranges, tend to penetrate deep into the cell tissues of living organisms such as organic matter, animals and plants, and activate +C molecules, as well as being a component of these animals and plants. Activates A-cells to maintain the nurturing, growth, and health of animals and plants.

For fresh foods such as vegetables, fruits, fresh flowers, and seafood,
It is extremely useful for maintaining its freshness and even for animals, humans, etc., and a greenhouse with an activation function focused on these points has not yet appeared.

The present invention has been created in view of the above.

The purpose of the present invention is to provide a greenhouse that has an activating function that allows plants and animals housed in the greenhouse to move to a more desirable state using a simple mechanism that consists of a greenhouse that emits far infrared rays. be.

The above-mentioned problems are solved by providing a greenhouse having an activation function, which is characterized by forming a far-infrared radiation layer in the main part of the fixed or mobile greenhouse.

If we briefly explain the far-infrared irradiation characteristics, there are many far-infrared emitting substances.

For example, there are ceramic materials, metal acid abrasive materials, carbon materials, and natural stone materials such as Oya stone and Maihan stone. In addition to this, there is also a far-infrared emitting substance that has been artificially produced.

Normally, the wavelength of far infrared rays emitted by far infrared rays emitted by sunlight or warm air is the amount.

Although the radiation wavelength varies depending on the radiation area, amount of heat, etc., far-infrared rays of about 3 to 14 microns are emitted at room temperature.

These far-infrared emitting substances emit far-infrared rays from themselves in the silent world, but sunlight, warm air,
Far-infrared rays can be efficiently radiated by adding appropriate heating means, heat ray reflectors, etc.

On the other hand, among infrared rays, far-infrared rays, which belong to the long wavelength range, activate (heat) water molecules.

It is being confirmed that it easily penetrates into the cell tissues of living organisms, and that it is extremely useful for activating organic substances in the body, such as water molecules and proteins.

In particular, far-infrared rays are active and compatible with organisms such as water molecules and proteins, so they can be used to treat water itself or other organisms.

By irradiating the long-ray heat absorber with far-infrared light, organic substances such as water molecules and proteins are quickly activated, making it extremely useful for purifying water molecules and removing harmful organic substances. [There is an effect depending on the reason for approval.]

Incidentally, after irradiating the water with far infrared rays.

The results of a water quality test of activated water using the Eiji reagent include the disappearance of chlorine and ammonia in a short period of time, inhibition of the formation of harmful organic substances, inhibition of the generation of mold and fungi, increase in oxygen content, and reduction of the water molecule population. The existence of the usefulness of is being clarified.

"Example" Next, an embodiment of the present invention will be described with reference to the drawings.

The drawings are a partially exploded perspective view of a greenhouse showing an embodiment of the present invention;
This greenhouse is m-density, has 2 roofs, 3° walls, and 4. The main frames such as the pillars, the pond frame 5, and the floor 6 are made of aluminum-based materials. The see-through window 7 is made of glass.

As part 9, a far-infrared radiation layer 8 is formed on the transparent window 7.

Far infrared radiation layer 8 on the top surface of floor 6! ! ! It is formed into a glue-like form.

A far-infrared radiation layer 8 is formed in the form of a paint on the inner surface of the M wall 3.

A far-infrared radiation layer 8 may be formed on the roof W2, inside the door 4, etc.

The far-infrared emitting layer 8 is appropriately selected from the above-mentioned far-infrared emitting substances, and a radiator having excellent radiation efficiency is formed in the form of a paint or an adhesive. Also.

The far-infrared radiation layer 8 may be formed by attaching a sheet-like far-infrared radiator having a far-infrared radiation layer formed thereon to a synthetic 81 oil sheet, waterproof paper sheet, cloth, or the like.

As mentioned above, the main parts forming the greenhouse are made of aluminum, stainless steel, or tin.
! L. In a greenhouse made of a material that is difficult to transmit, when the far-infrared emitting layer naturally absorbs and radiates heat, it is reflected by the base material, and the far-infrared rays are amplified and emitted.

The radiation efficiency will be destroyed.

In addition to the 81 examples, if the greenhouse is made of wood or synthetic resin, far-infrared rays will be emitted.
(Efficiency will decrease somewhat. Also, if the material is wood 1
When the far-infrared radiation layer 8 is made of a synthetic resin or a material that is transparent to heat rays and transparent, the far-infrared radiation layer 8 is formed by means such as a separate coating, an adhesive, a containing agent, an attached needle, etc. be done.

The far-infrared radiation layer 8 may be formed on the entirety of each main part or on a part of each main part as necessary depending on the sunny location.

Furthermore, if the floor of the greenhouse is soil, sand, concrete, etc., a desired amount of artificial natural stone-based materials such as granules, blocks, etc., can be diffused onto the floor surface. The far-infrared radiation layer 8 may be formed, or, of course, the far-infrared radiation layer 8 may be formed on the floor surface of the bed.

The embodiment of the present invention is constructed as described above.

"Function and Effect" In the indoor room of the embodiment of the present invention, the indoor temperature exceeds the outside temperature due to sunlight, warm air, etc.

Far infrared rays number 4 (silently absorbed by the layer, heat is increased and radiated, and far infrared rays are constantly radiated into the room, so far infrared rays are radiated to give active action of far infrared rays to items stored in the room) The contents will be activated as shown above.

In particular, it is suitable for greenhouse cultivation of 6 edible plants, which germinate early, exhibit remarkable growth, and activate water content and cell tissue in the plant body.

Collected plants such as edible vegetables, fresh flowers, bottles, etc.
Storing canned foods and drinks allows them to maintain freshness, maintain palatability, and preserve for a long period of time.

It also has usefulness in its pond, anti-mold, antiseptic effects, etc. Animals also improve their physical condition and maintain their health, and far-infrared baths are also used in humans, which are useful for improving their constitution.

As described above, the present invention has a simple function and is highly effective, so it can be widely used in portable home greenhouses, fixed industrial greenhouses, commercial greenhouses such as hydroponic cultivation, etc. I
This is B's which has a field for I.

[Brief explanation of the drawing]

The drawing shows a partially exploded perspective view of a greenhouse according to an embodiment of the present invention. l... Greenhouse 2... Roof 3... Waist part 4... Door 5... Frame 6... Floor 7... Transparent window 8... Far infrared radiation layer

Claims (1)

[Scope of Claims] 1. A far-infrared radiation layer is formed in the main part of the greenhouse, and the plants and animals housed in the greenhouse are activated by the irradiation action of far-infrared radiation emitted from the far-infrared radiation layer. A greenhouse with an activation function. 2. A greenhouse with an activation function according to claim 1, wherein a far-infrared radiation layer is formed on a see-through window of the greenhouse. 3. A greenhouse having an activation function according to claim 1, characterized in that a far-infrared radiation layer is formed on the waist wall of the greenhouse. 4. A greenhouse with an activation function according to claim 1, characterized in that a far-infrared radiation layer is formed on the bottom wall of the greenhouse. 5. A greenhouse having an activation function as set forth in claims 1, 2, 3, and 4, characterized in that a far-infrared radiator is attached to a main part of the greenhouse.