TWM624100U - Planting root zone temperature isolation and accommodation structure - Google Patents

Abstract

The present invention provides a temperature-isolating and accommodating structure for the root zone of a plant. The main body is provided with a top cover at the top and a base at the bottom, a temperature isolation space is formed inside the body, and a predetermined position of the top cover is provided with a communication The through hole of the temperature isolation space; wherein the root zone temperature isolation accommodation structure is made of a temperature isolation material, whereby the temperature isolation space is filled with the cultivation soil, so that the cultivation soil can be planted with plants and planted. After the stems and leaves of the plant grow, they can extend upward through the through holes of the body, and at the same time, the root zone of the plant is rooted downward relative to the cultivation soil. The temperature of the cultivating soil is insulated by the material properties of the accommodating structure itself, so that the temperature of the root zone of a specific plant can be protected by the accommodating structure, and the growth of plants will not be affected by the seasonal changes in atmospheric temperature. ; And when the cultivation is carried out, the cover of the temperature insulating and accommodating structure can prevent the soil temperature from rising due to direct sunlight, water evaporation and weed growth.

Description

Planting root zone temperature isolation and accommodation structure

This creation is to provide a temperature-isolating and accommodating structure for the root zone of a plant. The main purpose is to provide a structural design that maintains a stable temperature in the root zone of the plant by virtue of the body itself having the characteristics of temperature isolation.

Soil is the foundation of planting and is inseparable from the growth and development of plants. In addition to holding the plant upright, the soil also provides the water, nutrients and oxygen required for plant growth. The absorption of water, nutrients and oxygen in the soil by plants depends on the highly active root system, and the highly active root system is affected by the root zone. Critical influence of temperature. Generally speaking, each plant has its most suitable temperature range for root growth, and this range is usually narrower than the adaptation temperature of above-ground stems and leaves. However, the root zone temperature of container-grown (or off-the-ground cultivation) plants is easily affected by sunlight or seasonal changes, so that the soil temperature deviates from the optimum temperature range for root growth, which is very unfavorable for root activity, and at the same time, it is harmful to the above-ground stems of the plant. , leaf growth will also cause adverse effects. Therefore, how to maintain the stability of the optimum temperature in the root zone of plants is very important.

The present invention provides a temperature isolation and accommodating structure for the root zone of planting, which includes a body, a top cover is provided at the top, and a base is provided at the bottom, a temperature isolation space is formed inside the body, and a predetermined position of the top cover is provided with a connection to the temperature The through hole of the insulating space is characterized in that the system is made of a temperature insulating material; thus, the present invention provides the cultivation soil through the temperature insulating space of the temperature insulating accommodating structure, so that the cultivation soil can be planted. Planting plants, the stems and leaves of plants can pass through the through holes of the body after growth Extend upward, and at the same time, the root zone of the plant is rooted downward relative to the cultivation soil. The cultivation soil isolates the material characteristics by the temperature of the accommodating structure itself, so that the temperature of the root zone of a specific plant can be protected by the accommodating structure. It does not affect the growth of plants due to seasonal changes in atmospheric temperature, and the temperature isolation and housing structure can prevent the soil from rising in temperature due to direct sunlight, evaporation of water and impurities during farming. grass grows.

10: Root zone temperature isolation and accommodation structure

11: Base

12: Fitting part

13: Ontology

14: Temperature isolation space

15: Connecting inlays

16: Embedded group

17: upper cover

18: Chimeric edge

19: Through hole

20: Cultivate the soil

30: Plants

31: root domain

101: Drainage holes

40: Plants

Figure 1: The three-dimensional view of this creation "The Temperature Insulation and Containment Structure of the Root Zone of Planting".

Figure 2: The three-dimensional exploded view of this creation "The Temperature Insulation and Containment Structure of the Root Zone of Planting".

Figure 3: The cross-sectional view of the "root zone temperature isolation and accommodation structure of planting" in this work.

Figure 4: A three-dimensional view of another embodiment of the "root zone temperature isolation and accommodating structure for planting" in this creation.

Figure 5: An exploded perspective view of another embodiment of the "root zone temperature isolation and accommodation structure for planting" in this creation.

Figure 6: A cross-sectional view of another embodiment of the "root zone temperature isolation and accommodating structure for planting" in this creation.

Please refer to Figures 1 to 3, which are the preferred embodiments of the root zone temperature isolation and containment structure of the planting of the present creation and match the drawings. The structure of the present creation includes: a zone temperature isolation containment structure 10 includes a The main body 13 has an upper cover 17 at the top and a base 11 at the bottom. A temperature isolation space 14 is formed inside the main body 13 , and a through hole 19 connected to the temperature isolation space 14 is provided at a predetermined position of the upper cover 17 ; It is made of a temperature insulating material; and the temperature insulating material of the main body 13 can be made of polyethylene (PE), polyethylene furanone (PEF) foamed material.

Preferably, the top periphery of the main body 13 is formed with a concave and convex inlaid part 16 arranged therein. The inlaid part 16 can be arranged in a continuous square concavo-convex shape, and the upper cover 17 is provided with a relatively matching inlaid part corresponding to the inlaid part 16 . The assembling edge 18 is assembled. The assembling edge 18 can be arranged in a continuous square concave-convex shape to match the assembling portion 16 . 17 can be assembled to the inlaid part 16 of the main body 13 by the inlaid edge 18, the inlaid edge 18 and the inlaid part 16 are fitted and then coated with a sealant (not shown in the figure) to block air circulation. ); In addition, the periphery of the bottom of the main body 13 also forms an embedded part 16 in which the concavities and convexities are alternately arranged, and the base 11 is provided with a relatively matching embedded part 12 corresponding to the embedded part 16, so that the base 11 can be By assembling the inserting portion to the inserting portion 16 of the main body 13, a predetermined position of the main body 13 is also provided with a connecting inserting portion 15 which is longitudinally and concave-convex alternately arranged, and bends itself by the characteristics of the flexible material. Curved into a cylindrical shape, the inserting edge 18 is fitted with the inserting portion 16 and then a sealant (not shown) for blocking air circulation is applied at intervals. By virtue of the respective inlaid portions 16 of the main body 13 and the inlaid edges 18 of the upper cover 17 and the inlaid portions 12 of the base 11 , the volume of the root zone temperature isolation and containment structure 10 of the present invention can be easily reduced. Dismantling storage and packaging to reduce the space occupied. The bottom of the main body 13 is provided with a drainage hole 101 , and the drainage hole 101 can release the water of the cultivation soil 20 to avoid water accumulation.

As shown in FIG. 3 , after the temperature isolation space 14 of the main body is provided to fill the culture soil 20 , a plant 30 is planted in the culture soil 20 , and the stem and leaves of the plant 30 grow through the main body 13 The through-hole 19 is elongated upward, and the root zone 31 of the plant 30 is rooted downward relative to the cultivation soil 20. The cultivation soil 20 makes a specific plant 30 due to the characteristics of its own temperature-isolating material. The root zone 31 of the plant can be protected by temperature without affecting the plant grower due to seasonal changes in atmospheric temperature overheating or undercooling.

As shown in Figures 4 to 5, which is another embodiment of the present invention, the root zone temperature isolation and accommodating structure 10 of the present invention can be changed in a square shape, and the present invention is not limited to any shape and appearance, and in this embodiment For example, the through holes 19 may be plural, and the present invention is not limited to the number of the through holes 19 .

As shown in FIG. 6 , which is another embodiment of the present invention, the upper cover 17 of the root zone temperature isolation and accommodating structure 10 of the present invention may be the soil covering the bottom of the plant 40 for planting tree species, so that the The cultivation soil 20 produces temperature isolation, so that the root zone of the tree-like plants 40 can be protected by temperature, and the growers of the plants are not affected by seasonal changes in atmospheric temperature.

It should be added that the plant 30 in the present creation can be mushrooms.

10: Root zone temperature isolation and accommodation structure

11: Base

13: Ontology

14: Temperature isolation space

15: Connecting inlays

17: upper cover

19: Through hole

101: Drainage holes

Claims (3)

A temperature isolation and accommodating structure for the root zone of a planting plant, comprising: a body, a top cover is provided on the top, a base is provided at the bottom, a temperature isolation space is formed inside the body, and a predetermined position of the top cover is provided with a connection to the temperature isolation space The through hole is provided with a drainage hole at the bottom of the main body; it is characterized in that the main body is made of a temperature insulating material. The temperature isolation and accommodating structure for the root zone of planting as claimed in claim 1, wherein the top periphery of the main body forms an embedded part in which the concavities and convexities are arranged alternately, and the upper cover is provided with a relatively matching embedded part corresponding to the embedded part. an inserting edge, so that the upper cover can be assembled to the inserting part of the main body by the inserting edge; in addition, the bottom periphery of the main body also forms an inserting part with concave and convex arrangement therein, and the base corresponds to the inserting part There is a fitting part that is relatively matched with the fitting part, so that the base can be assembled to the fitting part of the main body through the fitting part, and the fitting edge is fitted with the fitting part and then coated with a Sealant that blocks air circulation. According to the temperature insulating and accommodating structure of the root zone of planting according to claim 1, the temperature insulating material of the body can be made of polyethylene (PE) or polyethylene furanone (PEF) foamed material.

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