CN217986174U - Anti-freezing and windproof heat-insulation structure for trees - Google Patents

Abstract

The utility model discloses a trees insulation construction that prevents frostbite and prevent wind relates to garden technology equipment technical field. The utility model discloses an outside wind-proof layer, middle heat preservation and inside moisturizing layer, the inside on outside wind-proof layer is provided with middle heat preservation, and the inside of middle heat preservation is provided with inside moisturizing layer, and outside wind-proof layer comprises the polylith plastic sheet, and the one end of plastic sheet is provided with first plastics lateral plate, and the other end of plastic sheet is provided with second plastics lateral plate. The utility model utilizes the moisture-keeping materials such as plastic film of the innermost layer to lock the moisture of the part of the tree rod, thus reducing the evaporation; the second layer of clothes is utilized to play a good role in keeping warm; the outermost plastic bottle has fixed, prevent wind, restrain and evaporate, keep warm, heat retaining effect, and simultaneously, the trunk wrapping material is whole to select for use the old and useless thing, does not need independent investment purchase, only needs to invest in the manpower and wraps up.

Description

Anti-freezing and windproof heat-insulation structure for trees

Technical Field

The utility model belongs to the technical field of garden technology equipment, especially, relate to a heat preservation structure is prevent wind by freezing to trees.

Background

In the prior art, various trunks are prevented from freezing, wind and drought, meadows, straw ropes, plastic films, specially developed materials and the like are mainly selected, and the trees are prevented from freezing, drought and are moisturized in a certain wrapping mode. Some thermal insulation materials with an inner layer, a middle layer and an outer layer are adopted to be made into cones with upper and lower outer diameters larger than that of the thermal-insulated trunk, and the outer sleeves are arranged outside the trunk to play the roles of cold prevention, freezing prevention and thermal insulation; another technique is to wind the trunk with straw rope, fix the bamboo board on the trunk with iron nails to play the role of cold-proof and moisture-keeping. In addition, the other technology is that the cold-proof and anti-freezing protective sleeve for the trees is made of a magic tape round surface, a rubber layer, a heat-insulating layer, geotechnical cloth, a fixed block, a hook, a square hole and a magic tape thorn surface, but the cold-proof and anti-freezing protective sleeve for the trees still has the following defects in actual use:

1. some protection measures adopted by the prior art belong to independent effects, and do not have comprehensive effects of wind prevention, heat preservation, moisture preservation and the like. Many of the techniques have cold-resistant, drought-resistant effects, but none or no significant wind-resistant effects. The technology of the windproof effect may not achieve ideal effects in the aspects of cold resistance and drought resistance; the winding technology of the windproof, heat-preservation and moisture-preservation packages needs to be operated by professional technicians or can be finished by other personnel after the training of the professional technicians. The materials wrapped in part of the technologies are special customized materials, so that non-professionals cannot realize operation or cannot meet the requirements of operation technical standards;

2. the materials selected by the existing cold-resistant, drought-resistant and wind-resistant methods for trees are all subjected to customized processing or the processed materials in the market are wrapped and wound according to certain technical requirements, so that the cold-resistant, drought-resistant and wind-resistant effects are achieved. The materials wrapped in the prior art generally need to be manufactured and purchased independently, certain capital needs to be invested, the using time of the wrapped materials is limited, and the materials need to be manually dismantled after weathering under the action of strong wind, rain, snow and the like in the later stage, so that the labor cost is increased.

Therefore, the existing anti-freezing, windproof and heat-insulating structure for trees cannot meet the requirements in practical use, so that an improved technology is urgently needed in the market to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a tree anti-freezing wind-proof heat preservation structure, which locks the moisture of the part of the tree stem by using the moisture preservation materials such as the plastic film of the innermost layer and the like, thereby reducing the evaporation; the second layer of clothes is utilized to play a good role in keeping warm; outermost plastic bottle has fixed, prevent wind, presses down to evaporate, keeps warm, heat retaining effect, and simultaneously, the trunk wrapping material is whole to select for use the old and useless thing, does not need independent investment purchase, only needs to invest in the manpower to wrap up, has solved among the prior art problem that the anti-freezing heat preservation structure of preventing wind of trees appears.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a heat preservation structure is prevent wind by freezing to trees, including outside windproof layer, middle heat preservation and inside moisturizing layer, the inside on outside windproof layer is provided with middle heat preservation, and the inside of middle heat preservation is provided with inside moisturizing layer, and outside windproof layer comprises the polylith plastic sheet, and the one end of plastic sheet is provided with first plastics lateral plate, and the other end of plastic sheet is provided with second plastics lateral plate.

Furthermore, the plastic sheets are connected with each other through the first plastic side sheet and the second plastic side sheet in an overlapped mode, and the plastic sheet of the upper stage is arranged through the first plastic side sheet of the side edge and the second plastic side sheet of the lower stage in an overlapped mode.

Further, middle heat preservation and inside moisturizing layer all are spiral structure setting, and the inside wall laminating of middle heat preservation is connected with the lateral wall laminating on inside moisturizing layer, and the lateral wall laminating of middle heat preservation is connected with the lateral wall laminating on outside windproof layer.

Further, the helical structure of middle heat preservation is forward spiral setting, and the helical structure on inside moisturizing layer is reverse spiral setting, and inside moisturizing layer is spiral winding on the outer wall of trees.

Further, the strip width of middle heat preservation layer is greater than the strip width of inside moisturizing layer, and the strip of middle heat preservation layer is provided with the multistage, and the joint department each other of a plurality of strips of middle heat preservation layer is mutual pressfitting and secondary winding structure setting.

Furthermore, the strips of the internal moisturizing layer are provided with multiple sections, and joints of the strips of the internal moisturizing layer are mutually pressed and arranged in a secondary winding structure.

The utility model discloses following beneficial effect has:

1. the utility model is provided with the external windproof layer and the internal moisture-preserving layer, when in use, moisture of the part of the tree trunk is locked by moisture-preserving materials such as plastic films and the like on the innermost layer, and evaporation is reduced; the clothes of the second layer have good warm-keeping effect; the plastic bottle at the outermost layer has the functions of fixing, wind proofing, steaming inhibition, heat preservation and heat preservation, solves the problems that some protective measures adopted by the prior art belong to independent effects and do not have comprehensive effects of wind proofing, heat preservation, moisture preservation and the like; many technologies have cold-resistant and drought-resistant effects, but have no or insignificant windproof effects; the technology of the windproof effect may not achieve ideal effects in the aspects of cold resistance and drought resistance; the wind-proof, heat-preservation and moisture-preservation wrapping and winding technology needs to be operated by professional technicians or can be finished by other personnel after the training of the professional technicians; the materials wrapped in part of the technologies are special customized materials, so that non-professionals cannot realize operation or meet the requirements of operation technical standards.

2. The utility model discloses a set up the outside layer of preventing wind, middle heat preservation and inside moisturizing layer, when using, the outside layer of preventing wind adopts the visible plastic bottle of everywhere to tailor and forms, and middle heat preservation adopts abandonment clothes cloth to tailor and forms, the inside moisturizing layer adopts the visible plastic film composition everywhere in the dustbin, the trunk parcel material is whole to select for use the old and useless thing, do not need independent investment purchase, only need to invest in the manpower to wrap up, it is all through customization processing or wrap up the winding to the material that is processed on the market according to certain technical requirement to solve present technical tree cold resistance, drought resistance, prevent wind effect; the materials wrapped in the prior art generally need to be manufactured and purchased independently, certain capital needs to be invested, the using time of the wrapped materials is limited, and the materials need to be manually dismantled after weathering under the action of strong wind, rain, snow and the like in the later stage, so that the labor cost is increased.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the description below are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of a tree anti-freezing, windproof and heat-insulating structure;

FIG. 2 is an exploded view of the anti-freezing, windproof and heat-insulating structure for trees;

fig. 3 is a structural sectional view of an outer wind-proof layer.

In the drawings, the components represented by the respective reference numerals are listed below:

1. an outer wind-proof layer; 101. a plastic sheet; 102. a first plastic side panel; 103. a second plastic side panel; 2. an intermediate insulating layer; 3. an inner moisture retaining layer.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

Please refer to fig. 1-3, the utility model relates to a heat preservation structure is prevent wind by freezing to trees, including outside windproof layer 1, middle heat preservation 2 and inside moisturizing layer 3, the inside of outside windproof layer 1 is provided with middle heat preservation 2, and the inside of middle heat preservation 2 is provided with inside moisturizing layer 3, and outside windproof layer 1 comprises polylith plastic sheet 101, and the one end of plastic sheet 101 is provided with first plastics lateral plate 102, and the other end of plastic sheet 101 is provided with second plastics lateral plate 103.

As shown in fig. 1-2, the intermediate insulating layer 2 and the internal moisture retention layer 3 are both arranged in a spiral structure, the inner side wall of the intermediate insulating layer 2 is attached to and connected with the outer side wall of the internal moisture retention layer 3, and the outer side wall of the intermediate insulating layer 2 is attached to and connected with the outer side wall of the external windproof layer 1; the spiral structure of the middle heat-insulating layer 2 is spirally arranged in a forward direction, the spiral structure of the internal moisturizing layer 3 is spirally arranged in a reverse direction, and the internal moisturizing layer 3 is spirally wound on the outer wall of the tree; the strip width of the middle heat-insulating layer 2 is larger than that of the inner moisture-preserving layer 3, the strip of the middle heat-insulating layer 2 is provided with a plurality of sections, and joints among a plurality of strips of the middle heat-insulating layer 2 are arranged in a structure of mutual pressing and secondary winding; the strips of the internal moisturizing layer 3 are provided with multiple sections, and the joints of the strips of the internal moisturizing layer 3 are pressed together and are wound twice.

As shown in fig. 1 and 3, the plastic sheets 101 are overlapped and connected with each other through the first plastic side sheet 102 and the second plastic side sheet 103, and the plastic sheet 101 of the upper stage is overlapped with the second plastic side sheet 103 of the lower stage through the first plastic side sheet 102 of the side edge;

wherein, the inner moisture-keeping layer 3 firstly adopts waste plastic bags, plastic mulching films, shed films and the like which are extensible and foldable materials with moisture-keeping effect to wind the tree trunk. Strip-shaped and block-shaped plastics are wound from the bottom of the tree, wrapped around the tree in a spiral winding manner in the anticlockwise direction or the clockwise direction, pressed by the other section after one section of the materials are wound, continuously wound until the crotch part or the part which is 1.5m away from the ground is wound, and finally bound by plastics.

The middle heat-insulating layer 2 is wound by cotton materials such as old clothes, old bed sheets, quilt covers and the like. Firstly, the materials are cut into strips with the width of about 3cm by scissors, the too wide materials are not beneficial to winding, and the too narrow materials are time-consuming and labor-consuming to wind. The cloth strip starts to be wound in a spiral shape opposite to the plastic winding direction from the uppermost end of the tree body to the crotch part and is 150cm away from the ground, after one section of the cloth strip is finished, the other section of the cloth strip presses the breakpoint along the breakpoint to continue winding, and the cloth strip are wound in a first circle 1/2 of the position to be pressed in a second circle, so that the temperature rise and the heat preservation are facilitated. Fixing the ground part by using redundant cloth strips until the ground part is wrapped, and preventing the cloth strips from loosening and falling;

the outer windproof layer 3 is made of plastic bottles with the capacity of 300-500 ml, the conical part is cut at the joint of the cylinder and the cone in the bottle body by a knife, and the bottom cover part is cut by a knife to only leave the cylindrical part of the plastic bottle body. The cylinder part is cut along the altitude of cylinder and is opened a mouthful, and cylinder part body can directly cut the gauze mask on trunk parcel thing along the cylinder like this, utilizes the elasticity of bottle shape itself, and natural fixing is on the trunk, according to the mode of bottle cover bottle, wraps up a bottle incision in another bottle inboard, reinforcing parcel nature and prevent that the bottle from droing. The beverage bottle starts from the trunk main body part, and the branch part is not wrapped until wrapping to the ground part.

The above is only the preferred embodiment of the present invention, and the present invention is not limited thereto, any technical solutions recorded in the foregoing embodiments are modified, and some technical features thereof are replaced with equivalent ones, and any modification, equivalent replacement, and improvement made thereby all belong to the protection scope of the present invention.

Claims (6)

1. The utility model provides a heat preservation structure of preventing wind is frozen to trees, includes outside windproof layer (1), middle heat preservation (2) and inside moisturizing layer (3), its characterized in that: the inside of outside wind-proof layer (1) is provided with middle heat preservation (2), just the inside of middle heat preservation (2) is provided with inside moisturizing layer (3), outside wind-proof layer (1) comprises polylith plastic sheet (101), the one end of plastic sheet (101) is provided with first plastics lateral plate (102), just the other end of plastic sheet (101) is provided with second plastics lateral plate (103).

2. The anti-freezing, windproof and heat-insulating structure for trees according to claim 1, wherein: the plastic sheets (101) are connected with each other through a first plastic side sheet (102) and a second plastic side sheet (103) in an overlapped mode, and the plastic sheet (101) at the upper stage is arranged with the second plastic side sheet (103) at the lower stage in an overlapped mode through the first plastic side sheet (102) at the side edge.

3. The anti-freezing, windproof and heat-insulating structure for trees according to claim 1, wherein: middle heat preservation (2) and inside moisturizing layer (3) all are spiral structure setting, just the inside wall of middle heat preservation (2) with the lateral wall laminating of inside moisturizing layer (3) is connected, the lateral wall of middle heat preservation (2) is connected with the lateral wall laminating of outside windproof layer (1).

4. The anti-freezing, windproof and heat-insulating structure for trees according to claim 3, wherein: the spiral structure of middle heat preservation (2) is forward spiral setting, the spiral structure of inside moisturizing layer (3) is reverse spiral setting, inside moisturizing layer (3) are spiral winding on the outer wall of trees.

5. The anti-freezing, windproof and heat-insulating structure for trees according to claim 1, wherein: the strip width of the middle heat-insulating layer (2) is larger than that of the inner moisture-preserving layer (3), multiple sections of strips of the middle heat-insulating layer (2) are arranged, and joints of the strips of the middle heat-insulating layer (2) are mutually pressed and are arranged in a secondary winding structure.

6. The anti-freezing, windproof and heat-insulating structure for trees according to claim 1, wherein: the strips of the internal moisturizing layer (3) are provided with multiple sections, and joints of the strips of the internal moisturizing layer (3) are pressed together and are wound for two times.

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