CN114586588A - Winter protection bin system for overwintering of grape rootstocks and using method - Google Patents

Abstract

The invention belongs to the technical field of agricultural planting, and relates to a winter protection bin system for wintering grape rootstocks and a using method thereof. The cold-proof bin system comprises a detachable cold-proof bin and a foldable upright post; the vertical rod is transversely arranged along the folding point; the cold-proof bin is a strip-shaped groove with a downward opening, two ends of the cold-proof bin are sealed, and the cold-proof bin covers the grape roots and the upright rods; the cold-proof bin is formed by processing heat-insulating foam boards. This winter protection storehouse system can carry out good heat preservation moisturizing to the grape rhizome, and the installation is simple, continuous, effectively shortens the row spacing of adjacent grape plant, can guarantee the normal germination of grape vine in the coming year.

Description

Winter protection bin system for overwintering of grape rootstocks and using method

Technical Field

The invention belongs to the technical field of agricultural planting, and relates to a winter protection bin system for wintering grape rootstocks and a using method thereof.

Background

The grape has a plurality of effects of relieving hypoglycemia, preventing thrombus, reducing cholesterol of the human body, resisting aging and the like; people usually expand the eating scenes of grapes by brewing the grapes into wine besides eating fresh grapes daily. However, for the grape cultivation in the open field in the north, how to effectively prevent the grape rootstock from being frostbitten in the cold winter in the north is an important problem to be considered when the grapes enter the winter. The existing overwintering mode aiming at grape roots and stems is often buried in soil for cold prevention, the method is poor in cold prevention and wind prevention effect, meanwhile, soil with enough depth needs to be covered on the surfaces of the grape roots and stems for ensuring a certain cold prevention effect, and further, the channels are excessively occupied, and the mechanical equipment is not favorable for walking; in addition, a cold-proof blanket is laid, the cold-proof blanket also has the defects of poor cold-proof and wind-proof effects, poor air permeability and the like, meanwhile, when the frame rods are arranged at intervals in the grape planting ditch, the cold-proof blanket needs to be laid discontinuously, the whole process is very complicated, the continuity of the laying process is poor, and the efficiency is low.

Disclosure of Invention

The invention aims to provide a winter protection bin system for grape rootstock overwintering and a using method thereof, which can provide a heat-preservation and moisture-preservation environment for grape rootstock overwintering, and have the advantages of simple and rapid installation process and good heat-preservation and moisture-preservation effects.

The technical solution of the present invention to solve the above technical problems is as follows.

A winter protection storehouse system for wintering of grape rootstocks comprises a detachable winter protection storehouse and a foldable upright post; the vertical rods are transversely arranged along the folding points; the cold-proof bin is a strip-shaped groove with a downward opening, two ends of the cold-proof bin are sealed, and the cold-proof bin covers the grape roots and the upright rods; the cold-proof bin is formed by processing heat-insulating foam boards. According to the technical scheme, the cold-proof bin is arranged, so that the grape rootstocks can be covered and protected well temporarily in winter, meanwhile, the detachable cold-proof bin can be detached and stored in time after use, the occupied space is reduced, the grape rootstocks can be recycled in the next year, and the resource waste is reduced; by arranging the foldable upright posts, the upright posts are temporarily laid down in winter, so that the upright posts and grape roots can cover the cold-proof bin at the same time, and the cold-proof bin can be continuously installed without intervals; the cold-proof bin system can play a good role in heat preservation and moisture preservation on grape rootstocks during overwintering, and is simple, fast and efficient in installation process.

Furthermore, the grape rootstock overwintering cold-proof bin system comprises a single bin, a partition plate and an end plate; the single bin comprises a top cover and side plates arranged on two sides of the top cover; the number of the single bins is a plurality of single bins which are sequentially connected end to end, the adjacent single bins are connected through partition plates, and the end plates cover the end parts of the single bins positioned at the head end and the tail end; the plate surface of the clapboard is provided with a notch; the single bin is connected with the end plate and the partition plate in an inserting mode. According to the technical scheme, the cold-proof bin is assembled by arranging various plate-shaped parts, so that the parts are more convenient to process and transport and more space-saving to stack and store; utilize baffle and end plate, can peg graft fixedly with single storehouse, it is more convenient to install.

Furthermore, in the winter protection bin system for wintering grape rootstocks, the top cover of the single bin is connected with the side plates in a plugging mode; so that the connection of the single bin is firmer.

Furthermore, the winter protection bin system for wintering grape roots is characterized in that the section of the winter protection bin is isosceles trapezoid; the isosceles trapezoid is adopted, so that the outer contour shape of the grape root is better met when the grape root is protected, and the placement of the whole cold-proof bin is more stable.

Furthermore, the grape rootstock overwintering cold-proof bin system is characterized in that a horizontal boss is arranged at the bottom of the cold-proof bin; through setting up horizontal boss, further strengthen the stability of placing in winter protection storehouse.

Furthermore, in the winter protection bin system for wintering grape rhizomes, the outer contour of each partition plate is isosceles trapezoid, and isosceles trapezoid grooves are formed in the two sides of the plate surface along the outer edges of the partition plates; the single bin is fixed by inserting the single bin into the groove of the partition plate.

Furthermore, the grape rootstock overwintering cold-proof bin system comprises a rotary bin door; the top cover is provided with a through hole, and the rotary bin door is rotationally buckled in the through hole; through setting up rotatory door, can in time look over the inside condition in winter protection storehouse to can open rotatory door as required, guarantee that the winter protection storehouse is inside to be in suitable temperature.

Furthermore, the grape rootstock overwintering cold-proof bin system also comprises a thermometer hanging point; the thermometer hanging point is arranged on the inner wall of the rotary bin door; the thermometer hanging point is used for hanging the thermometer, so that the thermometer is more convenient, and meanwhile, the thermometer is hung in the air in a hanging mode, and temperature measurement is more accurate.

Furthermore, the winter protection storehouse system for wintering of grape rhizomes comprises a vertical rod, a folding rod, a sleeve and an inserting column; the bottom rod is inserted into soil, the folding rod is movably connected with the bottom rod through a hinge, and the sleeve is sleeved at the joint of the bottom rod and the folding rod and is fixed through the inserting column; the folding rod can be folded in a mode that the sleeve moves up and down, and the folding rod is simple in structure and convenient to operate.

A use method of a winter protection bin system for wintering of grape rhizomes comprises the following steps:

(1) before winter, the grape stems are laid down and part of the grape stems are pressed into soil, and then soil preparation and flattening and brick paving are carried out on the soil on the two sides of the grape plants;

(2) all the foldable upright posts are uniformly laid down along the folding points;

(3) the detachable cold-proof bin is sequentially laid above the grape roots and the upright rods in a manner of being placed above the bricks, so that the effects of overwintering, heat preservation and moisture preservation are achieved on the grape roots;

(4) and a thermometer is arranged in the cold-proof bin and used for monitoring the environmental temperature of the grape rootstocks.

Further, a use method of the winter protection bin system for wintering of grape rhizomes comprises the following steps:

(1) before winter, the grape stems are laid down and part of the grape stems are pressed into soil, and then soil preparation and flattening and brick paving are carried out on the soil on the two sides of the grape plants;

(2) uniformly putting all the foldable upright posts along the folding points; the concrete process is that the inserted column is pulled away, the sleeve is put down, and the folding rod is put flat along the hinge;

(3) the detachable cold-proof bin is sequentially laid above the grape rootstocks and the upright posts in a mode of being placed above the bricks, so that the grape rootstocks are subjected to overwintering heat preservation and moisture preservation; the cold-proof bin is installed by forming a single bin in a mode that the side plates are inserted into the top cover, forming a cold-proof bin main body in a mode that a plurality of single bins and the partition plates are sequentially inserted, and finally inserting the end plates into the single bins positioned at the head end and the tail end to seal the cold-proof bin;

(4) a thermometer is arranged on a thermometer hanging point in the cold-proof bin and used for monitoring the environmental temperature of grape roots;

(5) in the overwintering process, the ambient temperature of grape rootstocks in the cold-proof bin is recorded in a mode of regularly opening a rotary bin door and taking out a thermometer;

(6) in the temperature monitoring process, if the temperature in the cold-proof bin is too high, the interior of the cold-proof bin can be cooled by opening part of the rotary bin door, and the rotary bin door is closed after the temperature is proper.

The winter protection bin system for grape rootstock overwintering and the use method have the advantages that the detachable winter protection bin is arranged, heat preservation and moisture preservation effects can be achieved on the grape rootstock in winter, meanwhile, due to the detachable design, the detachable storage is more convenient, the occupied space is smaller, the grape rootstock can be recycled, and the resource waste is reduced; by arranging the foldable upright posts, the foldable upright posts can cover the cold-proof bin with grape roots at the same time, so that the cold-proof bin is continuously installed without intervals; the cold-proof bin system can monitor the ambient temperature inside the cold-proof bin in real time, and timely adjust the temperature inside the cold-proof bin by using the rotary bin door, so that the grape rootstocks can be better insulated and moisturized, and the installation process is simple, rapid, continuous and efficient; by arranging the cold-proof bin system, the rootstocks are kept warm through wintering without adopting a comprehensive earthing mode, a large amount of land area occupied by the overwintering earthing around the grape plants is reduced, the line spacing of adjacent grape plants can be further shortened from 3 meters to 2 meters, the planting density of the grape plants is effectively increased, and meanwhile, the operation of various machines among lines can be ensured; the cold-proof bin system can ensure the normal germination of the vines of the grapes in the next year.

Drawings

Fig. 1 to 3 are all three-dimensional structure diagrams of the cold-proof cabin of the invention;

FIG. 4 is a perspective view of the partition board of the cold-proof cabin of the present invention;

fig. 5 is a schematic structural view of the vertical rod of the present invention.

The codes in the figures are respectively: 1. a cold-proof bin; 1-1, single bin; 1-11, a top cover; 1-12, side plates; 1-2, a partition board; 1-3, end plates; 1-4, horizontal boss; 1-5, rotating a bin gate; 2. erecting a rod; 2-1, a bottom rod; 2-2, folding the rod; 2-3, a sleeve; 2-4, inserting the column.

Detailed Description

Example 1

As shown in fig. 1 and 5, a winter protection bin system for wintering grape rhizomes comprises a detachable winter protection bin 1 and a foldable upright rod 2; wherein, the cold-proof bin 1 is processed by heat preservation foam boards, preferably polystyrene foam boards, and the upright stanchion 2 can be transversely arranged along the folding point. The cold-proof bin 1 is covered above the grape rootstocks and the upright stanchions 2.

Example 2

The cold-proof bin 1 in the embodiment 1 is a strip-shaped groove with a downward opening, two ends of the cold-proof bin are arranged in a closed manner, meanwhile, the section of the cold-proof bin 1 is in an isosceles trapezoid shape, and a horizontal boss 1-4 is arranged at the bottom of the cold-proof bin, so that the whole cold-proof bin 1 can be stably placed on the ground; specifically, as shown in fig. 2 to 3, the cold-proof bin 1 comprises a single bin 1-1, a partition plate 1-2, an end plate 1-3, a rotary bin door 1-5 and a thermometer hanging point; the single bin 1-1 comprises a top cover 1-11 and side plates 1-12 arranged at two sides of the top cover 1-11; the number of the single bins 1-1 is a plurality, the single bins are sequentially connected end to end, the adjacent single bins 1-1 are connected through partition plates 1-2, and end plates 1-3 cover the end parts of the single bins 1-1 at the head end and the tail end; a through hole is formed in the top cover 1-11, the rotary bin door 1-5 is rotationally buckled in the through hole, and a thermometer hanging point is arranged on the inner wall of the rotary bin door 1-5; the plate surface of the clapboard 1-2 is provided with a gap for the grape rootstock and the upright stanchion 2 to pass through. The top cover 1-11 of the single bin 1-1 is connected with the side plates 1-12 in an inserting mode, namely, the bottom of the top cover 1-11 of the single bin 1-1 is provided with an inserting groove, an inserting block is arranged above the side plates 1-12 of the single bin 1-1, and the side plates 1-12 are connected with the top cover 1-11 in a mode that the inserting block is inserted into the inserting groove; the single bin 1-1 is connected with the end plate 1-3 and the partition plate 1-2 in an inserting mode, namely, the outer contour of the partition plate 1-2 is isosceles trapezoid, grooves (shown in figure 4) of the isosceles trapezoid are formed in two sides of the plate surface along the outer edge of the partition plate 1-2 and used for inserting the single bin 1-1, meanwhile, the outer contour of the end plate 1-3 is isosceles trapezoid, and grooves of the isosceles trapezoid are formed in one side of the plate surface along the outer edge of the end plate 1-3 and used for inserting the single bin 1-1. The cold-proof bin 1 is installed by forming a single bin 1-1 by respectively inserting side plates 1-12 at two sides of a top cover 1-11, after the single bin 1-1 is installed, forming a cold-proof bin 1 main body by sequentially inserting a plurality of single bins 1-1 and partition plates 1-2, and finally sealing the single bins 1-1 with end plates 1-3 inserted at the head and tail ends, wherein at the moment, a rotary bin door 1-5 is screwed in a through hole on the top cover 1-11.

Example 3

As shown in fig. 5, the vertical rod 2 in the embodiment 1 comprises a bottom rod 2-1, a folding rod 2-2, a sleeve 2-3 and an inserting column 2-4; the bottom rod 2-1 is inserted into soil, the folding rod 2-2 is movably connected with the bottom rod 2-1 through a hinge, and the sleeve 2-3 is sleeved at the joint of the bottom rod 2-1 and the folding rod 2-2 and is fixed through the inserting column 2-4. The upright rod 2 is used in a mode that a plurality of inserting columns 2-4 are sequentially inserted into a sleeve 2-3, a folding rod 2-2, a sleeve 2-3 and a bottom rod 2-1, so that the sleeve 2-3 is fixed at the joint of the bottom rod 2-1 and the folding rod 2-2, the folding rod 2-2 is erected and fixed, and the upright rod 2 plays a role of stretching an iron wire frame; when the folding rod 2-2 needs to be folded, the inserting column 2-4 is only needed to be pulled away, the sleeve 2-3 is placed downwards, and then the folding rod 2-2 can be placed down along the hinge, so that part of the vertical rod 2 is folded.

Example 4

A use method of a winter protection bin system for wintering of grape rhizomes comprises the following steps:

(1) before winter, laying down grape stems, pressing part of the grape stems into soil, performing soil preparation and flattening on the soil on two sides of grape plants, and paving bricks;

(2) uniformly laying all the foldable upright stanchions 2 along the folding points; the specific process is that the inserting column 2-4 is pulled away, the sleeve 2-3 is put down, and then the folding rod 2-2 is put flat along the hinge;

(3) the detachable cold-proof bin 1 is sequentially laid above the grape roots and the upright stanchions 2 in a mode of being placed above the bricks, so that the effects of overwintering, heat preservation and moisture preservation are achieved on the grape roots;

(4) a thermometer is arranged on a thermometer hanging point in the cold-proof bin 1 and used for monitoring the environmental temperature of grape roots;

(5) in the overwintering process, the ambient temperature of grape rootstocks in the cold-proof bin 1 is recorded in a mode of regularly opening the rotary bin doors 1-5 and taking out the thermometer;

(6) in the process of temperature monitoring, if the temperature in the cold-proof bin 1 is too high, the interior of the cold-proof bin can be cooled by opening part of the rotary bin doors 1-5, and the rotary bin doors 1-5 are closed after the temperature is proper.

Example 5

When the winter protection bin systems of examples 1 to 3 and the using method of example 4 are used for overwintering grape rootstocks, the data of the temperature and the humidity inside and outside the winter protection bin in different months are shown in the following table, meanwhile, the adopted winter protection bin is made of polystyrene, the wall thickness is 3.5cm, and the density is 17kg/m³。

TABLE 1. temperature and humidity data inside and outside cold-proof cabin in different months

Compared with the low temperature and low humidity of the external environment, the temperature in the cold-proof bin is 6.5 to 16.2 ℃ higher than the external environment, the humidity is 21.4 to 54.4 percent higher than the external environment, and the humidity is always kept at 100 percent; therefore, the cold-proof bin system can play a good role in heat preservation and moisture preservation, so that grape roots are still in a proper temperature and humidity range in winter, and the grape roots can successfully live through the winter.

Example 6

When the winter protection warehouse system of embodiments 1 to 3 and the existing winter protection mode are adopted to perform overwintering operation on grape rootstocks, the germination rate data of the grapes are shown in table 2, wherein the calculation process of the germination rate is as follows: the germination rate is 100% of the germination number/total bud eye number; in addition, the cold-proof cabin is made of polystyrene, the wall thickness is 3.5cm, and the density is 17kg/m³。

TABLE 2 comparison of germination rates of grapes under different coverage modes

Numbering	Covering mode	Germination percentage (%)
			1	Cold-proof storehouse	88.2
2	10cm of blanket isolation and soil covering	80.6
			3	Granule-soaking blanket	62.3

It can be seen from the above table that, when the winter protection storehouse of this application is adopted to deal with the overwintering problem of grape rhizome, compare in the current blanket of bubble grain and blanket and earthing combination's coverage mode, the influence of the winter protection mode of this application to germination rate is littleer, can guarantee that the germination rate of grape reaches 88.2%, exceeds traditional overwintering measure by 7.6% ~ 25.9%, further explain the winter protection storehouse of this application can play good heat preservation moisturizing effect to the grape rhizome in winter.

Claims (10)

1. A winter protection storehouse system for wintering of grape rootstocks is characterized by comprising a detachable winter protection storehouse (1) and a foldable upright stanchion (2);

the upright rod (2) is transversely arranged along the folding point;

the cold-proof bin (1) is a strip-shaped groove with a downward opening, and two ends of the cold-proof bin are arranged in a closed manner; the cold-proof bin (1) is formed by processing heat-preservation foam boards;

the cold-proof bin (1) is covered above the grape rootstocks and the upright stanchions (2).

2. The grape rhizome wintering cold-proof bin system according to claim 1, characterized in that the cold-proof bin (1) includes a single bin (1-1), a partition plate (1-2), and an end plate (1-3); the single bin (1-1) comprises a top cover (1-11) and side plates (1-12) arranged on two sides of the top cover (1-11); the number of the single bins (1-1) is a plurality, the single bins are sequentially connected end to end, adjacent single bins (1-1) are connected through partition plates (1-2), and the end plates (1-3) cover the end parts of the single bins (1-1) at the head end and the tail end; the plate surface of the clapboard (1-2) is provided with a notch;

the single bin (1-1) is connected with the end plate (1-3) and the partition plate (1-2) in an inserting mode.

3. Winter proofing house system for grape rootstocks wintering according to claim 2, characterized in that the top cover (1-11) of the single house (1-1) is connected with the side panels (1-12) by means of plugging.

4. A winter protection storehouse system for grape rootstocks wintering according to claim 1 or 2, characterized in that the section of the winter protection storehouse (1) is isosceles trapezoid.

5. The grape rhizome wintering cold-proof bin system according to claim 4, wherein horizontal bosses (1-4) are arranged at the bottom of the cold-proof bin (1).

6. A winter protection storehouse system for wintering of grape rhizomes as claimed in claim 3, characterized in that said winter protection storehouse (1) further comprises a revolving door (1-5); the top cover (1-11) is provided with a through hole, and the rotary bin door (1-5) is rotatably buckled in the through hole.

7. The grape rootstock overwintering cold-proof bin system as claimed in claim 6, wherein the cold-proof bin (1) further comprises a thermometer hanging point; the thermometer hanging point is arranged on the inner wall of the rotary bin door (1-5).

8. The winter protection storehouse system for grape rootstock overwintering as claimed in claim 7, characterized in that the vertical pole (2) comprises a bottom pole (2-1), a folding pole (2-2), a sleeve (2-3) and an inserting pole (2-4); the bottom rod (2-1) is inserted into soil, the folding rod (2-2) is movably connected with the bottom rod (2-1) through a hinge, and the sleeve (2-3) is sleeved at the joint of the bottom rod (2-1) and the folding rod (2-2) and is fixed through an inserting column (2-4).

9. The use method of the grape rootstock overwintering cold-proof bin system as claimed in claim 1, is characterized by comprising the following steps:

(1) before winter, the grape stems are laid down and part of the grape stems are pressed into soil, and then soil preparation and flattening and brick paving are carried out on the soil on the two sides of the grape plants;

(2) uniformly putting all the foldable upright posts along the folding points;

(3) the detachable cold-proof bin is sequentially laid above the grape rootstocks and the upright posts in a mode of being placed above the bricks, so that the grape rootstocks are subjected to overwintering heat preservation and moisture preservation;

(4) and a thermometer is arranged in the cold-proof bin and used for monitoring the environmental temperature of the grape rootstocks.

10. The use method of the grape rootstock overwintering cold-proof bin system as claimed in claim 8, is characterized by comprising the following steps:

(1) before winter, the grape stems are laid down and part of the grape stems are pressed into soil, and then soil preparation and flattening and brick paving are carried out on the soil on the two sides of the grape plants;

(2) uniformly putting all the foldable upright posts along the folding points; the concrete process is that the inserted column is pulled away, the sleeve is put down, and the folding rod is put flat along the hinge;

(3) the detachable cold-proof bin is sequentially laid above the grape roots and the upright rods in a manner of being placed above the bricks, so that the effects of overwintering, heat preservation and moisture preservation are achieved on the grape roots; the cold-proof bin is installed by forming a single bin by inserting the side plates into the top cover, forming a cold-proof bin main body by sequentially inserting a plurality of single bins and the partition plates, and finally inserting the end plates into the single bins positioned at the head end and the tail end to seal the single bins;

(4) a thermometer is arranged on a thermometer hanging point in the cold-proof bin and used for monitoring the environmental temperature of grape roots;

(5) in the overwintering process, the ambient temperature of grape rootstocks in the cold-proof bin is recorded in a mode of regularly opening a rotary bin door and taking out a thermometer;

(6) in the process of temperature monitoring, if the temperature in the cold-proof bin is too high, the interior of the cold-proof bin can be cooled by opening part of the rotary bin door, and the rotary bin door is closed after the temperature is proper.

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