CN112262696A - Garden vegetation low-temperature protection system - Google Patents

Abstract

The application relates to a low-temperature protection system for garden vegetation, which comprises a heat preservation device, a supporting device arranged on the heat preservation device and a snow collecting device arranged on the heat preservation device; the heat preservation device comprises at least three heat preservation plates, the adjacent heat preservation plates are detachably connected, the inner sides of the heat preservation plates are abutted to the nursery stocks, and the supporting device and the snow collecting device are arranged on the side faces of the heat preservation plates. The insulation board is wrapped on the trunk of the nursery stock, and when the temperature of the nursery stock trunk is temporarily lowered in winter, the insulation board can resist severe cold, so that the temperature of the nursery stock trunk cannot be lowered too fast, and the nursery stock trunk is protected from being frostbitten or frozen; in winter, the moisture of the tree trunks of the nursery stocks is reduced, the tree trunks become brittle, and the supporting devices arranged on the outer side surfaces of the heat preservation plates can provide support for the nursery stocks, so that the nursery stocks are prevented from being blown off by wind; when snowing, the snow collecting device can concentrate snowflakes on the roots of the seedlings, the snow can reduce the temperature change of soil at the roots of the seedlings, and the condition that the roots of the seedlings are frostbitten or frozen is reduced.

Description

Garden vegetation low-temperature protection system

Technical Field

The application relates to the field of plant low-temperature protection, in particular to a garden vegetation low-temperature protection system.

Background

Modern gardens are combined products of plants and modern buildings, and the rapid development of urban modern construction leads to the gradual deterioration of the ecological environment. People desire the desires of protecting the environment, improving the environment, being close and returning to the nature, and the garden industry is promoted to be rapidly developed. In gardens, a large number of young seedlings are usually provided, the lignification degree of trunks and branches of the seedlings is low, the cold resistance is weak, and the seedlings are easily frozen and even frozen to death when undergoing winter.

Disclosure of Invention

In order to reduce the nursery stock and be frostbitten or freeze, this application provides a gardens vegetation low temperature protection system.

The application provides a gardens vegetation low temperature protection system adopts following technical scheme:

a low-temperature protection system for garden vegetation comprises a heat preservation device, a supporting device arranged on the heat preservation device and a snow collecting device arranged on the heat preservation device;

the heat preservation device comprises at least three heat preservation plates, the adjacent heat preservation plates are detachably connected, the inner sides of the heat preservation plates are abutted to the nursery stocks, and the supporting device and the snow collecting device are arranged on the side faces of the heat preservation plates.

By adopting the technical scheme, the insulation board is wrapped on the trunk of the nursery stock, and when the temperature of the nursery stock trunk is temporarily lowered too fast in winter, the insulation board can resist severe cold, so that the nursery stock trunk is protected from being frostbitten or frozen; in winter, the moisture of the tree trunks of the nursery stocks is reduced, the tree trunks become brittle, and the supporting devices arranged on the outer side surfaces of the heat preservation plates can provide support for the nursery stocks, so that the nursery stocks are prevented from being blown off by wind; when snowing, the snow collecting device can concentrate snow near the nursery stock to the root of the nursery stock, and when cooling, because the specific heat capacity of water is great, the snow can reduce the temperature change of the nursery stock root soil, and the condition that the root of the nursery stock is frostbitten or freezes is reduced.

Optionally, the heat insulation board is an arc-shaped board, the heat insulation board jointly forms a circular pipe, and the heat insulation board comprises a windproof plate and a heat insulation layer bonded on the inner side of the windproof plate.

Through adopting above-mentioned technical scheme, curved heated board can laminate better with the nursery stock, and the heat preservation device of pipe shape accords with the shape of nursery stock trunk more, and the windbreak plate can resist winter cold wind, reduces the moisture that the nursery stock trunk was taken away from to cold wind, increases the toughness of nursery stock trunk, and when winter temperature reduced fast, the heat preservation can reduce the cooling rate of nursery stock trunk, and the condition that reduces the nursery stock trunk and be frostbitten or freeze takes place.

Optionally, the outside of preventing wind board is equipped with the horizontally connecting rod, the both ends of connecting rod are equipped with the engaging lug, and is adjacent prevent wind board passes through the engaging lug and connects.

Through adopting above-mentioned technical scheme, when the heated board butt was on the trunk of nursery stock, the staff will prevent that the connecting rod on the wind board uses the engaging lug even together just can fix the heated board on the trunk of nursery stock.

Optionally, the snow collecting device comprises a plurality of snow collecting plates, the snow collecting plates are fan-shaped curved plates, the number of the snow collecting plates is the same as that of the heat insulation plates, and inner rings of the snow collecting plates are fixed on the upper surface of the connecting rod.

Through adopting above-mentioned technical scheme, will collect the snowboard setting at the upper surface of connecting rod, the back is good with the connecting rod concatenation to the staff, and adjacent collection snowboard also can butt and form a collection snow dish together, and when snowing, the snow that collects the snowboard near can be concentrated the root at the nursery stock with nursery stock, and snow can slow down the cooling rate of nursery stock soil root.

Optionally, the outer ring of the snow collecting plate is inclined upwards.

Through adopting above-mentioned technical scheme, collection snow board tilt up, after snowfall stops, can accumulate certain snow on the collection snow board, the staff only need strike collection snow board, and snow can slide to collection snow board's intermediate position gradually under the vibration of collection snow board.

Optionally, a snow falling port is arranged on the connecting rod.

Through adopting above-mentioned technical scheme, when snow landing to the intermediate position of snow-collecting board, snow can fall the root of nursery stock from the snow mouth that falls on the connecting rod, has reduced staff's the intensity of labour of clearance snow.

Optionally, the supporting device comprises a plurality of supporting legs, the number of the supporting legs is the same as that of the heat-insulation plates, the tops of the supporting legs are hinged to the lower surface of the connecting rod, a horizontal fixing plate is arranged at the bottoms of the supporting legs, and the fixing plate is fixed on the ground.

Through adopting above-mentioned technical scheme, because air drying in winter, the moisture in the nursery stock trunk reduces, the nursery stock trunk becomes fragile, when scraping the wind, the nursery stock trunk is very easy because rock the rupture, it can provide the support for the nursery stock trunk to set up the supporting leg at the lateral surface of thermal insulation plate, can reduce the range of rocking of nursery stock trunk when scraping the wind, reduce the risk of nursery stock trunk rupture, when using, the staff can decide the angle of supporting leg according to the topography at nursery stock place, later with the fixed plate fixed subaerial can.

Optionally, a plurality of anchoring nails are arranged on the fixing plate, the anchoring nails are perpendicular to the fixing plate, and the anchoring nails are inserted into the ground.

Through adopting above-mentioned technical scheme, after the staff adjusted the angle of supporting leg, with the anchor nail into ground can.

Optionally, a heat preservation film is arranged on the supporting leg, the top of the heat preservation film is fixed to the bottom of the connecting rod, and the bottom of the heat preservation film is fixed to the upper portion of the fixing plate.

By adopting the technical scheme, the heat-insulating film has good light transmittance, sunlight can penetrate through the heat-insulating film, and meanwhile, the heat-insulating film has good heat-insulating property, so that the heat inside the heat-insulating film can be effectively reduced from radiating to the outside, a relatively warm environment is made at the root of the nursery stock, and the possibility of frostbite of the root of the nursery stock is reduced; in spring, the temperature of air is gradually increased, the nursery stock is gradually recovered from a dormant state, but the soil at the root of the nursery stock is still in a frozen state, the root system of the nursery stock cannot absorb water from the frozen soil, so that the nursery stock is frozen and drought, and in spring, the heat preservation film can accelerate the soil thawing at the root of the nursery stock and reduce the occurrence of freezing and drought.

Optionally, the supporting leg is an arc-shaped rod protruding outwards, and a horizontal support is arranged in the middle of the supporting leg.

By adopting the technical scheme, the arc-shaped supporting legs can increase the coverage area of the heat-insulating film and increase the protection area of the heat-insulating film.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the insulation board is wrapped on the trunk of the nursery stock, and when the temperature of the nursery stock trunk is temporarily lowered in winter, the insulation board can resist severe cold, so that the temperature of the nursery stock trunk cannot be lowered too fast, and the nursery stock trunk is protected from being frostbitten or frozen; in winter, the moisture of the tree trunks of the nursery stocks is reduced, the tree trunks become brittle, and the supporting devices arranged on the outer side surfaces of the heat preservation plates can provide support for the nursery stocks, so that the nursery stocks are prevented from being blown off by wind; when snowing, the snow collecting device can collect snow near the nursery stock to the root of the nursery stock, and when the temperature is reduced, the snow can reduce the temperature change of soil at the root of the nursery stock due to the larger specific heat capacity of water, so that the condition that the root of the nursery stock is frozen or frozen is reduced;

2. the arc-shaped heat insulation plate can be better attached to the nursery stock, the heat insulation device in the shape of the round pipe better conforms to the shape of the nursery stock trunk, the windproof plate can resist cold wind in winter, the water content of the nursery stock trunk taken away by the cold wind is reduced, the toughness of the nursery stock trunk is increased, when the temperature is rapidly reduced in winter, the heat insulation layer can reduce the cooling speed of the nursery stock trunk, and the condition that the nursery stock trunk is frozen or frozen dead is reduced;

3. the heat preservation film has good light transmission, sunlight can penetrate through the heat preservation film, and meanwhile the heat preservation film has good heat preservation performance, so that heat inside the heat preservation film can be effectively reduced from radiating to the outside, a relatively warm environment is manufactured at the root of the nursery stock, and the possibility of frostbite of the root of the nursery stock is reduced; in spring, the temperature of air is gradually increased, the nursery stock is gradually recovered from a dormant state, but the soil at the root of the nursery stock is still in a frozen state, the root system of the nursery stock cannot absorb water from the frozen soil, so that the nursery stock is frozen and drought, and in spring, the heat preservation film can accelerate the soil thawing at the root of the nursery stock and reduce the occurrence of freezing and drought.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present application.

FIG. 2 is a schematic structural diagram of a heat preservation device in an embodiment of the present application.

Fig. 3 is a schematic structural view of a heat preservation device and a snow collecting device in the embodiment of the application.

FIG. 4 is a schematic structural diagram of an insulation device and a support device in an embodiment of the present application.

Description of reference numerals: 1. a heat preservation device; 11. a thermal insulation board; 111. a windbreak panel; 112. a heat-insulating layer; 113. a connecting rod; 114. connecting lugs; 115. a snow outlet; 2. a snow collecting device; 21. a snow collecting plate; 3. a support device; 31. supporting legs; 32. a fixing plate; 33. anchoring nails; 34. a heat preservation film; 35. and (4) a bracket.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

In northern gardens, workers usually transplant some ornamental trees and some seedlings with small ages in the south, and the ornamental trees and the seedlings have weak cold resistance and are difficult to safely live through the winter. The northern winter climate is dry and cold, when wind is blown in winter, the moisture in the ornamental trees and the trunks of the nursery stocks is easily taken away by dry airflow, so that the ornamental trees and the nursery stocks are withered. When the winter season is started in late autumn in the north, the temperature of the soil is rapidly reduced, the root systems of the ornamental trees and the seedlings are not in a dormant state, the soil is changed into frozen soil, the root systems are frozen, and the ornamental trees and the seedlings die. In spring, the temperature gradually rises, the trees can recover from the dormant state, the rising speed of the air temperature is higher than that of the soil temperature, and when the trees recover, the soil is not unfrozen, the root systems of the trees cannot absorb water from the frozen soil, so that freeze drought occurs.

In order to enable ornamental plants and nursery stocks with small tree ages in gardens to safely overwinter, the embodiment of the application discloses a garden vegetation low-temperature protection system. Referring to fig. 1, a low-temperature protection system for garden vegetation comprises a heat preservation device 1 abutted to a tree trunk, a snow collecting device 2 welded on the outer side surface of the heat preservation device 1, and a supporting device 3 installed on the outer side surface of the heat preservation device 1.

The heat preservation device 1 is installed on the trunk of the tree, and when the temperature drops, the heat preservation device 1 can ensure that the temperature of the trunk of the tree slowly drops, so that the trunk of the tree smoothly enters a dormant state. When snowing in winter, tree root can be collected with the snowflake around the trees to snow collection device 2, and after snowing in winter, the temperature of soil can descend, and the snowflake has higher specific heat capacity when the cooling, can release the heat when the temperature of snowflake descends, avoids the temperature of tree root soil to descend fast. Snowflakes accumulated on the roots of the trees can protect the roots of the trees and reduce the frostbite or the freeze death of the roots of the trees.

In winter, the moisture content in the trunk of the tree decreases, the trunk of the tree becomes brittle, and the trunk of the tree is easily broken when the tree shakes in the wind. The supporting device 3 arranged on the outer side surface of the heat preservation device 1 can provide support for the trunk of the tree and prevent the tree from being blown off by wind.

Referring to fig. 2, the heat preservation device 1 includes at least three heat preservation boards 11, and this embodiment takes three as an example to specifically describe, and the heat preservation board 11 is the arc, and a pipe can be constituteed to three curved heat preservation boards 11, and the inboard of heat preservation board 11 and the trunk butt of trees. The insulation board 11 comprises a windproof board 111 and an insulation layer 112 bonded on the inner side of the windproof board 111, the windproof board 111 is an arc-shaped steel plate, and the insulation layer 112 is a layer of cotton felt. The outer side of the windproof plate 111 is horizontally welded with an arc-shaped connecting rod 113, two ends of the connecting rod 113 are welded with connecting lugs 114, each connecting lug 114 is provided with a threaded hole, and the connecting lug 114 at one end of the connecting rod 113 is connected with a bolt through threads. The adjacent insulation boards 11 are connected together through the connecting lugs 114 at the two ends of the connecting rod 113 and the bolts on the connecting lugs 114.

When installing, the staff will be with heated board 11 butt on the trunk of trees earlier to place the bottom of heated board 11 subaerial, later with the connecting rod 113 on the heated board 11 lateral surface connect can. The windbreak board 111 outside the insulation board 11 can resist the dry air current in winter, reduces the cold wind and takes away the moisture in the trunk, makes the trunk keep moist, and the heat preservation 112 that has the cotton felt to make can guarantee the decline that the temperature of trunk can be slow when temperature falls fast, reduces the risk that the trunk is frostbitten by the low temperature. Simultaneously, the windproof plate 111 made of the steel plate has higher structural strength, and the windproof plate 111 can support the trunk, so that the shaking amplitude of the trunk in wind is reduced.

Referring to fig. 3, the snow collecting device 2 includes a plurality of snow collecting plates 21, and the number of the snow collecting plates 21 is the same as that of the heat insulating plates 11. Snow collection plate 21 is fan-shaped curved plate, and three snow collection plate 21 can splice into a toper curved surface, and the inner fringe welding of snow collection plate 21 is on the upper surface of connecting rod 113, and the outward flange tilt up of snow collection plate 21, and the inner fringe of snow collection plate 21 is the same with the upper surface edge of connecting rod 113, and after heated board 11 installation was accomplished, the side edge butt of snow collection plate 21 was in the same place, and three snow collection plate 21 splices and constitutes a snow collection dish together.

When snow falls and stops, and a certain amount of accumulated snow is accumulated on the snow collecting plate 21, the worker knocks the snow collecting plate, and the accumulated snow slides towards the trunk. The connecting rod 113 is provided with a snow falling opening 115, and when snow slides to the middle position of the snow collecting plate 21, the snow falls onto the root soil of the tree from the snow falling opening 115. After snowing, the temperature of soil can reduce along with the temperature together, and when trees root snow temperature declined, snow can release the heat, and the heat of snow release can reduce the cooling rate of soil, makes the soil of trees root can not rapid cooling, has reduced the possibility that trees root system is frostbitten.

Referring to fig. 4, strutting arrangement 3 is including articulating the supporting leg 31 at connecting rod 113 lower surface intermediate position, the quantity of supporting leg 31 is the same with the quantity of heated board 11, the top of supporting leg 31 articulates the intermediate position at connecting rod 113 lower surface, the bottom of supporting leg 31 is equipped with the horizontally dead lever, insert the anchor nail 33 that is equipped with the perpendicular to dead lever on the dead lever, when the installation staff is according to the angle of the topography adjustment supporting leg of trees position, later with anchor nail 33 nail into ground can.

Three supporting legs anchor respectively around the trunk, and supporting leg 31 can provide not equidirectional upward holding power and pulling force for the trunk, and when the trunk rocked in the wind, three supporting leg 31 mutually supported, for the trunk provides the support jointly, prevents that the trunk from taking place the great rocking of range.

The shape of supporting leg 31 is the arc pole of outside uplift, and the welding has curved support 35 in the both sides of supporting leg 31 intermediate position, and a ring can be constituteed to support 35 on three supporting legs 31, has one deck heat preservation membrane 34 in the outside bonding of supporting leg 31, and the top of heat preservation membrane 34 bonds at the lower surface of connecting rod 113, and the bottom of heat preservation membrane 34 and the upper surface contact of dead lever.

The heat preservation film 34 is a white plastic film, the white plastic film has good light transmittance, the heat preservation film 34 can reduce the radiation of the heat inside the heat preservation film 34 to the external environment, and the heat preservation film 34 creates a small environment warmer than the external environment at the root of the tree. In winter, when the temperature is lower, the heat preservation film 34 can make the ambient temperature of the root of the tree higher, reduces the risk that the root system of the tree is frostbitten.

When the air temperature rises in spring, the trees recover from the dormant state, but the soil is not unfrozen, and the root systems of the trees can not absorb water in the frozen soil, so that the trees are frozen and drought. Along with the rise of the temperature, the heat preservation film 34 can accelerate the thawing speed of the frozen soil and can relieve the freezing and drought conditions of the trees to a certain extent. The arched supporting legs 31 can enlarge the protection range of the heat preservation film 34, and further relieve the freezing and drought conditions of trees.

The implementation principle of the embodiment of the application is as follows: the windproof plate 111 in the heat preservation device 1 can reduce the water loss in the trunk, so that the trunk is kept in a relatively wet state, and the heat preservation layer 112 can reduce the influence of the external environment on the trees by greatly reducing the temperature; the snow collecting device 2 can collect snow flakes around the tree on the root ground of the tree during snowing, and the snow flakes on the root of the tree can slow down the cooling speed of the soil nearby, so that the root of the tree is prevented from being frozen or frozen; the supporting legs 31 in the supporting device 3 can provide support for the trunk, the trunk has low moisture content in winter and is brittle, and the supporting legs 31 can reduce the possibility that the trunk is broken when the trunk shakes in wind; the heat preservation membrane 34 among strutting arrangement 3 can provide one for the root of trunk compare warm moist environment more with the external world, can prevent that the root system of trees from being frostbitten winter, can accelerate the unfreezing of trees root soil in spring, alleviates the freeze-drought condition of trees.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a gardens vegetation low temperature protection system which characterized in that: comprises a heat preservation device (1), a snow collecting device (2) arranged on the heat preservation device (1) and a supporting device (3) arranged on the heat preservation device (1);

the heat preservation device (1) comprises at least three heat preservation plates (11), the adjacent heat preservation plates (11) are detachably connected, the inner sides of the heat preservation plates (11) are abutted to the nursery stocks, and the snow collecting device (2) and the supporting device (3) are arranged on the side faces of the heat preservation plates (11).

2. The vegetation cryopreservation system for gardens of claim 1, wherein: the heat preservation board (11) is an arc-shaped board, the heat preservation board (11) jointly forms a circular pipe, and the heat preservation board (11) comprises a windproof plate (111) and a heat preservation layer (112) bonded on the inner side of the windproof plate (111).

3. The vegetation cryopreservation system for gardens of claim 2, wherein: the outside of wind-proof board (111) is equipped with horizontally connecting rod (113), the both ends of connecting rod (113) are equipped with engaging lug (114), and adjacent wind-proof board (111) are connected through engaging lug (114).

4. The vegetation cryopreservation system for gardens of claim 3, wherein: the snow collecting device (2) comprises a plurality of snow collecting plates (21), the snow collecting plates (21) are fan-shaped curved plates, the number of the snow collecting plates (21) is the same as that of the heat insulation plates (11), and inner rings of the snow collecting plates (21) are fixed on the upper surface of the connecting rod (113).

5. The vegetation cryopreservation system for gardens of claim 4, wherein: the outer ring of the snow collecting plate (21) is inclined upwards.

6. The vegetation cryopreservation system for gardens of claim 5, wherein: the connecting rod (113) is provided with a snow falling port (115).

7. The vegetation cryopreservation system for gardens of claim 3, wherein: support arrangement (3) include a plurality of supporting legs (31), the quantity of supporting leg (31) is the same with the quantity of heated board (11), the top of supporting leg (31) articulates the lower surface at connecting rod (113), the bottom of supporting leg (31) is equipped with horizontally fixed plate (32), fixed subaerial in fixed plate (32).

8. The vegetation cryopreservation system for gardens of claim 7, wherein: the fixing plate (32) is provided with a plurality of anchoring nails (33), the anchoring nails (33) are perpendicular to the fixing plate (32), and the anchoring nails (33) are inserted on the ground.

9. The vegetation cryopreservation system for gardens of claim 8, wherein: be equipped with heat preservation membrane (34) on supporting leg (31), the bottom at connecting rod (113) is fixed at the top of heat preservation membrane (34), the top at fixed plate (32) is fixed to the bottom of heat preservation membrane (34).

10. The vegetation cryopreservation system for gardens of claim 9, wherein: the supporting legs (31) are arc-shaped rods protruding outwards, and horizontal supports (35) are arranged in the middle of the supporting legs (31).

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