CN114145161A - Chain type seedling raising bobbin volume and manufacturing method thereof - Google Patents

Abstract

The invention discloses a chain type seedling raising tube book and a manufacturing method thereof.A single seedling raising tube is formed by sticking two layers of materials on two sides, a linking piece is formed by folding, sticking and hiding one or more continuous strip-shaped strip materials, and a linking joint is formed by stacking two material sheets and sticking the two material sheets on two sides. And adhering the seedling raising cylinders to form a seedling raising cylinder book which can be unfolded into a regular hexagonal honeycomb-shaped seedling raising cylinder combination. The invention provides three chain type seedling raising cylinder folding and rolling methods, and relates to a chain type seedling raising cylinder rolling manufacturing method.

Description

Chain type seedling raising bobbin volume and manufacturing method thereof

Technical Field

The invention belongs to the field of agriculture, relates to a container for crop seedling culture, and particularly relates to a chain type seedling culture barrel book and a manufacturing method thereof.

Background

At present, the existing chain seedling raising container at home and abroad generally has a difficult problem that the manufacturing difficulty and the manufacturing cost of the chain seedling raising container are multiplied along with the increase of the transplanting plant distance. Therefore, the transplanting row spacing of the chain type seedling raising container manufactured by the prior art is not large, the chain type seedling raising and transplanting container is only suitable for being applied to development of the chain type seedling raising and transplanting technology for small row spacing planting crops, and the crops needing large row spacing planting such as corn, beet and the like cannot be applied to development of the chain type seedling raising and transplanting technology because of lack of a proper chain type seedling raising tool, the single-row seedling raising and transplanting can be carried out only by using the seedling raising container with a single-cylinder structure, the corresponding transplanting mechanical structure is complex, the labor consumption is large, and large-area popularization and application of the crop seedling raising and transplanting technology are restricted.

Disclosure of Invention

In view of the above problems, an object 1 of the present invention is to provide a chain type seedling growing container, which is characterized in that:

the chain type seedling raising cylinder book consists of a seedling raising cylinder, a chain sheet, a chain joint, an expansion pull ring and the like. The seedling raising cylinder is of a seedling raising cylinder structure with a hollow middle formed by sticking two layers of materials at two sides; the linking pieces are formed by one or more continuous strip materials between the seedling raising cylinders, and the continuous strip materials are hidden at the two sides of the seedling raising cylinders after being folded and pasted by using a water-soluble adhesive; the linking joints are adhered to the head end and the tail end of the chain structure of the seedling raising cylinder; after a chain type structure of the seedling raising cylinder consisting of the seedling raising cylinder, the chain pieces and the chain joints is folded and pasted, a chain type seedling raising cylinder book which can be unfolded to form a hexagonal prism honeycomb seedling raising cylinder combination is generated; the unfolding pull rings are adhered to two sides of the chain type seedling cylinder book.

In order to achieve the purpose 1, the invention provides a technical scheme 1, and provides a chain type seedling growing cylinder volume, which is characterized in that:

the single seedling raising cylinder forming the chain type seedling raising cylinder volume is formed into a seedling raising cylinder structure by sticking two layers of materials at two sides. One layer of material is composed of a long material sheet with the same height as the seedling growing cylinder, the two sides of the same surface of the long material sheet are respectively coated with a water-insoluble adhesive coating with a certain width, the width of the coating is less than 0.5 time of the edge length of the hexagonal prism of the seedling growing cylinder, and the width of a blank part between two adjacent water-insoluble adhesive coatings is equal to 3 times of the edge length of the hexagonal prism of the seedling growing cylinder; the other layer of the material for forming the seedling-raising cylinder is a composite material layer and consists of a continuous strip-shaped narrow strip material and a short material slice with the same width as the long material slice; according to the height condition of the seedling raising cylinder, when the height dimension of the seedling raising cylinder is smaller, the composite material layer is formed by 2 short material sheets and 1 continuous strip-shaped narrow strip material; when the height of the seedling raising cylinder is larger, the composite material layer is formed by 3 short material sheets and 2 continuous strip-shaped narrow strip materials; laying short material slices and continuous strip-shaped materials in a single-layer mode, wherein the short material slices are positioned at the outer side, 1 continuous strip-shaped material is clamped between 2 short material slices to jointly form a composite material layer with the height equal to that of a seedling growing cylinder, and a certain gap is reserved between the materials; adhering two layers of materials forming the seedling growing cylinder together at two sides by a non-water-soluble adhesive coating in a proper mode to form a seedling growing cylinder structure with a middle hollow cavity and two sides adhered; two adjacent seedling raising cylinders are linked by a linking piece made of continuous strip material to form a chain structure of the seedling raising cylinders; folding the continuous strip material between the seedling raising cylinders according to a certain rule, sticking the strip material by using a water-soluble adhesive, and hiding the strip material at the two sides of the seedling raising cylinders to form a new chain structure of the seedling raising cylinders; the chain-type seedling-raising cylinder book which can be unfolded into a hexagonal honeycomb-shaped seedling-raising cylinder combination is produced by sticking the chain-type joints at the head end and the tail end of the chain-type structure of the new seedling-raising cylinder, folding and sticking again, and sticking the unfolding pull rings at the two sides.

Along with the increase of the length of the continuous strip-shaped material between the two seedling raising cylinders, after the continuous strip-shaped material is folded and pasted, the condition of multilayer stacking can occur, so that the chain-type seedling raising cylinder volume becomes thicker at the folding position of the continuous strip-shaped material than other parts, and the chain-type seedling raising cylinder volume fails to be pasted at a local position due to the larger thickness difference, so that when the chain-type seedling raising cylinder volume is unfolded, part of the seedling raising cylinders cannot be successfully unfolded due to the fact that the chain-type seedling raising cylinder volume is not firmly pasted.

In order to solve the problem of failure in adhering the chain-type seedling-raising cylinder volume caused by the difference of the folding thickness, the invention provides a technical scheme 2, and the chain-type seedling-raising cylinder volume is mainly used for a continuous seedling-raising cylinder structure with large plant spacing and is characterized in that:

the single seedling raising cylinder forming the chain type seedling raising cylinder volume is formed into a seedling raising cylinder structure by sticking two layers of materials at two sides. One layer of material is composed of a long material sheet with the same height as the seedling growing cylinder, the two sides of the same surface of the long material sheet are respectively coated with a water-insoluble adhesive coating with a certain width, the width of the coating is less than 0.5 time of the edge length of the hexagonal prism of the seedling growing cylinder, and the width of a blank part between two adjacent water-insoluble adhesive coatings is equal to 3 times of the edge length of the hexagonal prism of the seedling growing cylinder; the other layer of the material forming the seedling cylinder is a composite material layer and consists of a continuous strip material and a short material slice with the same width as the long material slice, the middle positions of the upper side and the lower side of the short material slice are respectively provided with a tongue-shaped protruding slice with the width being slightly less than 1 time of the hexagonal edge length of the seedling cylinder, and the tongue-shaped protruding slice is coated with a layer of water-insoluble adhesive; according to the height condition of the seedling raising cylinder, when the height dimension of the seedling raising cylinder is smaller, the composite material layer is formed by 2 continuous strip-shaped narrow strip materials and 1 short material slice; when the height of the seedling raising cylinder is larger, the composite material layer consists of 3 continuous strip-shaped narrow strip materials and 2 short material sheets; laying continuous strip materials and short material sheets in a single-layer mode, wherein the continuous strip materials are positioned at the outer side, 1 short material sheet is clamped between 2 continuous strip materials, the tongue-shaped protruding sheet part of the short material sheet and the continuous strip materials are adhered together through a water-insoluble adhesive coating to jointly form a composite material layer with the height equal to that of a seedling growing cylinder, and a certain gap is reserved between the materials; two layers of materials forming the seedling raising cylinder are adhered together by water-insoluble adhesive coatings at two sides in a proper mode to form a seedling raising cylinder structure with a hollow middle and two adhered sides; two adjacent seedling raising cylinders are linked by a linking piece made of continuous strip material to form a chain structure of the seedling raising cylinders; folding the continuous strip material between the seedling raising cylinders according to a certain rule, sticking the strip material by using a water-soluble adhesive, and hiding the strip material at the two sides of the seedling raising cylinders to form a new chain structure of the seedling raising cylinders; the chain-type seedling-raising cylinder book which can be unfolded into a hexagonal honeycomb-shaped seedling-raising cylinder combination is produced by sticking the chain-type joints at the head end and the tail end of the chain-type structure of the new seedling-raising cylinder, folding and sticking again, and sticking the unfolding pull rings at the two sides.

The invention aims to provide a chained seedling growing cylinder book linking joint, which is characterized in that:

chain seedling section of thick bamboo book link joint constitute by two material thin slices stack and paste the back in both sides, two material thin slices that stack paste together through water-insoluble adhesive in both sides position, form the joint design of cavity in the middle of both sides are pasted, cut two U-shaped mouths in the inboard of linking joint both sides pasting part, link joint passes through water-insoluble adhesive and pastes the linking piece of chain seedling section of thick bamboo, form the link joint of chain seedling section of thick bamboo book. When the foldable seedling-raising tube book is used, one of the linking joints is folded to reduce the width, penetrates into the cavity of the other linking joint and is pulled out, the folding part of the linking joint is unfolded, and the two linking joints are meshed together through the U-shaped notches on the linking joint to complete the linking function of the two chain type seedling-raising tube books.

The invention aims at 3, and provides a method for manufacturing a chain type seedling-raising bobbin booklet linking joint, which is characterized by comprising the following steps:

step 1: stacking the multilayer seedling tube manufacturing materials, and sticking the materials by using a water-insoluble adhesive to form a new thicker material;

step 2: coating strip-shaped water-insoluble adhesive coatings with certain width on the material generated in the step (1) according to certain interval distance, wherein the width of a blank part between two adjacent water-insoluble adhesive coatings is slightly larger than that of a continuous strip-shaped material between two adjacent seedling cylinders;

and step 3: stacking the material produced in step 1 on top of the material produced in step 2, and adhering the two materials together at the location of the coating of water-insoluble adhesive using a suitable method;

and 4, step 4: cutting straight notches at two sides of each water-insoluble adhesive coating according to a certain interval distance; cutting by taking the middle line of the water-insoluble adhesive coating as a transverse cutting position and the middle point of the straight notch as a longitudinal cutting position to generate chain type seedling growing cylinder book linking joint components with symmetrical two sides;

and 5: and (4) sticking the joint component of the chain type seedling raising cylinder generated in the step (4) to a continuous strip material between the seedling raising cylinders through a water-insoluble adhesive, and cutting the joint component into two parts, so that a chain joint is generated on each of the front chain type seedling raising cylinder and the rear chain type seedling raising cylinder.

The invention aims at 4, and provides a chain type seedling cylinder volume unfolding pull ring, which is characterized in that:

chain seedling section of thick bamboo book expansion pull ring constitute by seedling section of thick bamboo book strip of paper used for sealing and banded material after pasting, seedling section of thick bamboo book strip of paper used for sealing pastes in chain seedling section of thick bamboo book both sides, the width of banded material equals 1 times of seedling section of thick bamboo hexagonal prism length of side, according to the high condition of seedling section of thick bamboo, two upper and lower positions in the strip material, perhaps upper, middle, lower three positions scribble water-soluble paste agent coating square respectively, paste it on seedling section of thick bamboo book strip of paper used for sealing to align with the intermediate position of each seedling section of thick bamboo in the outside, form both sides paste, middle hollow pull ring structure.

The invention aims to 5, and provides a method for folding and hiding a chain sheet of a chain type seedling growing cylinder book, which is characterized by comprising the following steps:

the chain sheet of the chain type seedling cylinder book is composed of a folded continuous strip material, under normal conditions, the continuous strip material is uniformly distributed and hidden at two sides of two adjacent seedling cylinders in a single folding mode, the distance between the two adjacent seedling cylinders is equal to 4 times of the side length of the hexagonal prism of the seedling cylinder, and the distance between the two adjacent seedling cylinders is slightly larger than 5 times of the side length of the hexagonal prism of the seedling cylinder at the position needing to be folded; when the length of the folded continuous strip material exceeds that of the last folded continuous strip material, the excess part is overlapped on the last folded continuous strip material, and a double-layer overlapping effect is formed at the position when the linking pieces between the seedling raising cylinders are long.

Object 6 of the present invention is to provide a first chain type seedling cultivation tube folding and stitching method, which is used for a chain type structure of seedling cultivation tubes, wherein the distance between adjacent seedling cultivation tubes is less than 5 times of the edge length of a hexagonal prism of the seedling cultivation tube, and the method is characterized by comprising the following steps:

step 1: according to the width requirement of the chain type seedling raising cylinder volume after being unfolded, a certain number of seedling raising cylinders are taken as a unit, continuous strip-shaped strip materials between the front seedling raising cylinders in the unit are folded according to a certain rule, are pasted by using a water-soluble adhesive and are hidden at the two sides of the seedling raising cylinders, the distance between the front seedling raising cylinders is equal to 4 times of the side length of the hexagonal prism of the seedling raising cylinders, and the continuous strip-shaped strip materials between the last two adjacent seedling raising cylinders in the unit are not folded;

step 2: repeating the action of the step 1 to form a new seedling raising cylinder chain structure;

and step 3: and folding the chain type structure of the new seedling raising cylinder by taking a certain position of the front or rear seedling raising cylinder of the continuous strip material which is not subjected to folding treatment as a folding point, so that a triangular stacking effect is formed between three adjacent folded seedling raising cylinder structures, and the three adjacent folded seedling raising cylinder structures are adhered by using a water-soluble adhesive to form a chain type seedling raising cylinder book which can be unfolded to form a hexagonal honeycomb seedling raising cylinder combination.

Object 7 of the present invention is to provide a second chain type seedling-raising tube folding and stitching method, for a chain type structure of seedling-raising tubes, in which the distance between adjacent seedling-raising tubes is less than 5 times of the edge length of a hexagonal prism of the seedling-raising tube, characterized by comprising the steps of:

step 1: according to the width requirement of the chain type seedling raising cylinder volume after being unfolded, a certain number of seedling raising cylinders are taken as a unit, the length of the continuous strip material between the seedling raising cylinders in the front of the unit is set according to the normal requirement, and the continuous strip material between the last two seedling raising cylinders in the unit is lengthened, so that the distance between the two seedling raising cylinders at the two ends of the lengthened continuous strip material is slightly larger than 5 times of the side length of the hexagonal prism of the seedling raising cylinders;

step 2: folding the continuous strip material with normal length between the seedling raising cylinders according to a certain rule, sticking the folded continuous strip material by using a water-soluble adhesive, and hiding the folded continuous strip material at the two sides of the seedling raising cylinders, so that the distance between two adjacent seedling raising cylinders is equal to 4 times of the edge length of the hexagonal prism of the seedling raising cylinders, and the lengthened continuous strip material is not subjected to folding treatment;

and step 3: repeating the actions of the steps 1 and 2 to form a new seedling raising cylinder chain structure;

and 5: the front end or the rear end of the lengthened continuous strip material is used as a folding point, a new seedling raising cylinder chain structure is folded, a delta-shaped stacking effect is formed between three adjacent folded seedling raising cylinder structures, and the three folded seedling raising cylinder structures are bonded by using a water-soluble adhesive, so that a chain seedling raising cylinder book which can be unfolded to form a hexagonal honeycomb seedling raising cylinder combination is generated.

The invention aims at 8 to provide a third chain type seedling cultivation cylinder folding and stitching method, which is used for a chain type structure of the seedling cultivation cylinder, wherein the distance between adjacent seedling cultivation cylinders is greater than 5 times of the edge length of a hexagonal prism of the seedling cultivation cylinder, and the method is characterized by comprising the following steps:

step 1: according to the width requirement of the chain type seedling raising cylinder volume after being unfolded, a certain number of seedling raising cylinders are taken as a unit, continuous strip-shaped strip materials between the seedling raising cylinders in the unit are folded according to a certain rule, are pasted by using a water-soluble adhesive and are hidden at two sides of the seedling raising cylinders, the distance between the seedling raising cylinders in front of the unit is equal to 4 times of the side length of the hexagonal prism of the seedling raising cylinders, and the distance between the last two adjacent seedling raising cylinders in the unit is slightly larger than 5 times of the side length of the hexagonal prism of the seedling raising cylinders;

step 2: repeating the action of the step 1 to form a new seedling raising cylinder chain structure;

and step 3: the front end or the rear end of a linking piece between two seedling cylinders with the adjacent distance slightly larger than 5 times of the hexagonal edge length of the seedling cylinders is used as a turning point, a new seedling cylinder chain structure is folded, a delta-shaped stacking effect is formed between the three adjacent folded seedling cylinder structures, and the three folded seedling cylinder structures are pasted by using a water-soluble adhesive, so that a chain type seedling cylinder book which can be unfolded to form a hexagonal honeycomb seedling cylinder combination is generated.

Object 9 of the present invention is to provide a method for manufacturing a chain type seedling growing cylinder booklet, which is characterized by comprising the following steps:

step 1: generating a seedling tube long material slice material layer;

drawing a seedling raising cylinder manufacturing material from a material roll, unfolding, coating a strip-shaped water-insoluble adhesive coating with a certain width on the surface of the material according to a certain interval distance, wherein the width of a blank part between two water-insoluble adhesive coatings is equal to 3 times of the edge length of a hexagonal prism of the seedling raising cylinder, the width of the water-insoluble adhesive coating is equal to 2 times of the width of a single-side pasting part of the seedling raising cylinder but not more than 1 time of the edge length of the hexagonal prism of the seedling raising cylinder, and selecting an optimal value under the premise that the finally generated seedling raising cylinder has enough strength;

step 2: producing a continuous strip material;

taking out the seedling cylinder manufacturing material from the material roll, unfolding the seedling cylinder manufacturing material, and cutting the seedling cylinder manufacturing material into continuous strip-shaped narrow strip materials with certain width by using a blade group along the material moving direction;

and step 3: generating a seedling cylinder short material slice;

when the technical scheme 1 is adopted, the seedling tube manufacturing material is drawn out from the material roll and unfolded, and the seedling tube manufacturing material is cut into continuous strip-shaped materials with certain width along the material moving direction;

when the technical scheme 2 is adopted, the seedling tube manufacturing material is drawn out from the material roll and is unfolded, a strip-shaped water-insoluble adhesive coating with a certain width is coated on the surface of the material along the material moving direction according to a certain interval distance, the width of the water-insoluble adhesive coating is equal to the height of the tongue-shaped protruding sheet in the technical scheme 2, the width of a blank part between every two adjacent water-insoluble adhesive coatings is equal to the side length of a short material sheet; cutting the seedling growing cylinder manufacturing material at the position of each water-insoluble adhesive coating, wherein the cutting result is as follows: the two sides of each continuous strip-shaped material generate a plurality of tongue-shaped protruding sheets at a specific interval distance, and the tongue-shaped protruding sheets of two adjacent continuous strip-shaped materials are generated in a staggered mode to jointly occupy the water-insoluble adhesive coating between the two continuous strip-shaped materials;

and 4, step 4: generating a seedling growing cylinder structure;

flatly laying and stacking the seedling raising cylinder short material slices generated in the step (3) on the material generated in the step (1) according to a certain interval distance, and contacting one side coated with the water-insoluble adhesive coating; for the technical scheme 2, the tongue-shaped protruding sheet is required to be exposed at the side coated with the water-insoluble adhesive coating, and is positioned in the middle of the blank part between the water-insoluble adhesive coatings of the material generated in the step 1; adhering the two layers of material together at the coated position of the water-insoluble adhesive of the material produced in step 1 using a suitable method; cutting by taking the central line of the adhering part of the water-insoluble adhesive coating as a cutting position to generate a strip-shaped material with the structural characteristics of the seedling growing cylinder;

and 5: generating a chain type seedling growing cylinder book linking joint component;

according to the manufacturing method of the chain type seedling growing cylinder book linking joint, which is disclosed by the invention object 3, a chain type seedling growing cylinder book linking joint component is generated;

step 6: generating a chain structure of the seedling cylinder;

flatly laying the continuous strip-shaped narrow strip materials generated in the step (2) at certain intervals, enabling the continuous strip-shaped narrow strip materials to move forwards, placing the strip-shaped seedling cultivation cylinder structure generated in the step (4) at proper time intervals, enabling the single-layer part of the strip-shaped seedling cultivation cylinder structure generated in the step (4) to be combined with the continuous strip-shaped narrow strip materials generated in the step (2), and enabling the two layers of materials to be adhered together by using a proper method to form a seedling cultivation cylinder chain structure with certain intervals; after the number of the seedling raising cylinders reaches a certain number of requirements, sticking a chain type seedling raising cylinder linking joint at the middle position of a continuous strip material between the seedling raising cylinders by using a water-insoluble adhesive;

and 7: generating a chain type seedling growing cylinder structure;

selecting a proper seedling raising cylinder folding and binding method, and folding and sticking the chain type structure of the seedling raising cylinder generated in the step 6 to form a chain type seedling raising cylinder combination which can be unfolded into a hexagonal honeycomb shape; cutting a chain type seedling growing cylindrical book linking joint component into two parts, folding a continuous strip material between the chain type seedling growing cylindrical book linking joint and a seedling growing cylinder according to a certain rule, sticking the strip material by using a water-soluble adhesive, and hiding the strip material at one side of the seedling growing cylinder to expose the chain type seedling growing cylindrical book linking joint outside; sticking seedling raising cylinder materials with the same size as the seedling raising cylinder book wrappage on two sides of the chain type seedling raising cylinder combination by using a water-soluble adhesive, and then sticking belt-shaped materials to form a chain type seedling raising cylinder book unfolding pull ring;

and 8: generating a seedling cylinder single body;

according to the requirements of the technical schemes 1 and 2, cutting the chain type seedling growing cylindrical book structure generated in the step 7 at a proper position to form a final chain type seedling growing cylindrical book finished product.

The invention has the beneficial effects that:

according to the chained seedling raising cylinder book provided by the invention, one or more continuous strip-shaped strip materials are used for replacing the high integral sheet materials such as the seedling raising cylinder in the prior art, so that the linking work of the seedling raising cylinder is completed, the material consumption for linking the seedling raising cylinder is reduced exponentially, and the manufacturing cost of the seedling raising cylinder book is reduced;

the chained seedling-raising cylinder book linking joint provided by the invention has small manufacturing difficulty and reliable connection;

according to the chain sheet folding and hiding method for the chain type seedling cultivation tube volume, which is provided by the invention, the chain sheets with different lengths are folded in a single folding mode, the folding times are less, the adaptability is strong, and the manufacturing complexity of the chain type seedling cultivation tube is effectively reduced;

the first chain type seedling raising cylinder folding and rolling method provided by the invention at aim 6 adopts a method of folding inside a seedling raising cylinder, and realizes the purpose of folding and rolling the seedling raising cylinder with small plant spacing on the premise of keeping the transplanting plant spacing of the seedling raising cylinder consistent at the cost of sacrificing a part of the volume of the seedling raising cylinder;

the second chain type seedling raising cylinder folding and stitching method provided by the invention at the aim 7 adopts a method of lengthening the length of the link material between partial seedling raising cylinders to realize the purpose of folding and stitching the seedling raising cylinders with small plant spacing;

the chain type seedling growing cylinder volume manufacturing method provided by the invention 9 optimizes the whole manufacturing process of the chain type seedling growing cylinder volume by a proper process flow, improves the material utilization rate, can meet the industrial continuous production of seedling growing cylinder volume products with various specifications by one set of equipment, has strong industrial practicability, and is suitable for large-scale industrial production and manufacturing.

Drawings

Fig. 1 is a schematic structural view of a seedling raising cylinder of the chain type seedling raising cylinder book according to technical scheme 1 of the present invention.

Fig. 2 is a schematic structural view of a seedling raising cylinder of the chain type seedling raising cylinder book according to technical scheme 2 of the present invention.

Fig. 3 is a schematic view of a chain type seedling-raising booklet linking joint structure according to the object 2 of the present invention.

FIG. 4 is a schematic view of the structure of a chain type seedling-growing booklet spreading tab according to object 4 of the present invention.

FIG. 5 is a schematic view of the method for folding and hiding the chain sheets of the chain-type seedling-raising tubes of the present invention, object 5.

Fig. 6 is a schematic view of a chain structure of a seedling raising cylinder of the chain type seedling raising cylinder book according to technical scheme 1 of the present invention.

Fig. 7 is a schematic view of another chain structure of a chain type seedling raising tube of the chain type seedling raising tube book according to claim 1 of the present invention.

Fig. 8 is a schematic view of a chain structure of a seedling raising cylinder of the chain type seedling raising cylinder book according to technical scheme 2 of the present invention.

Fig. 9 is a schematic view of another chain structure of a chain type seedling raising tube of the chain type seedling raising tube book according to claim 2 of the present invention.

FIG. 10 is a schematic view of the first method for folding and binding the chain type seedling-raising tubes according to object 6 of the present invention.

FIG. 11 is a schematic view of a second chain type seedling-raising tube folding and loading method according to object 7 of the present invention.

FIG. 12 is a schematic view of the third method for folding and binding the chain type seedling-raising tubes according to object 8 of the present invention.

FIG. 13 is a schematic structural view of a chain type seedling growing cylinder book according to the embodiment of object 1 of the present invention.

FIG. 14 is a schematic view of a method for manufacturing a chain type seedling-growing bobbin book linking joint according to object 3 of the present invention.

FIG. 15 is a schematic view of the method of using the chain type seedling-raising bobbin book linking joint according to the object 3 of the present invention.

FIG. 16 is a schematic view of a method for manufacturing a chain type seedling growing booklet according to object 9 of the present invention.

In the figure: 101 long material sheet, 102 water insoluble adhesive A, 103 short material sheet A, 104 continuous strip material, 201 short material sheet B, 202 tongue protruding sheet, 203 water insoluble adhesive B, 301 water insoluble adhesive C, 302 linking tab material sheet, 303 water insoluble adhesive D, 401 nursery book cover, 402 water soluble adhesive block, 403 strip material.

Detailed Description

The following detailed description of the embodiments of the present invention refers to the accompanying drawings.

Fig. 1 shows a chain type seedling raising tube book of object 1 of the present invention, wherein when the distance between two adjacent seedling raising tubes is small, the seedling raising tube book is generated by the technical scheme 1. The single seedling raising cylinder is formed by sticking two layers of materials; one layer of material is a long material sheet 101, both sides of the same surface of the long material sheet 101 are respectively coated with a water-insoluble adhesive A102 with a certain width, the width of the water-insoluble adhesive A102 is less than 0.5 time of the edge length of the hexagonal prism of the seedling growing cylinder, and the width of a blank part between two adjacent water-insoluble adhesives A102 is equal to 3 times of the edge length of the hexagonal prism of the seedling growing cylinder; the other layer is a composite material layer and is formed by clamping 1 strip of continuous strip-shaped strip material 104 between 2 short material sheets A103; a composite material layer composed of a short material sheet A103 and a continuous strip material 104 is adhered to a long material sheet 101 through a water-insoluble adhesive A102 to form a seedling raising cylinder structure with a hollow middle part and two adhered sides.

Fig. 2 shows a schematic structural diagram of a chain type seedling raising tube book according to object 1 of the present invention, wherein when the distance between two adjacent seedling raising tubes is large, the seedling raising tubes generated by technical scheme 2 are adopted. The single seedling raising cylinder is formed by sticking two layers of materials; one layer of material is a long material sheet 101, both sides of the same surface of the long material sheet 101 are respectively coated with a water-insoluble adhesive A102 with a certain width, the width of the water-insoluble adhesive A102 is less than 0.5 time of the edge length of the hexagonal prism of the seedling growing cylinder, and the width of a blank part between two adjacent water-insoluble adhesives A102 is equal to 3 times of the edge length of the hexagonal prism of the seedling growing cylinder; the other layer of material is a composite material layer and is formed by clamping 1 short material sheet B201 between 2 continuous strip materials 104, two tongue-shaped protruding sheets 202 are arranged at the middle positions of the upper side and the lower side of the short material sheet B201, and the tongue-shaped protruding sheets 202 and the continuous strip materials 104 are adhered together through a water-insoluble adhesive B203; a composite material layer composed of a continuous strip material 104 and a short material sheet B201 is adhered to the long material sheet 101 through a water-insoluble adhesive A102 to form a seedling raising cylinder structure with a hollow middle part and two adhered sides.

Fig. 3 shows a schematic view of a joint structure of a chain type seedling cylinder book of object 2 of the present invention. 2 pieces of the chain joint material sheets 302 are adhered together at two sides by two water-insoluble adhesives D303, two U-shaped notches are cut to form a chain joint member with a hollow middle, and the chain joint member is adhered with the continuous strip material 104 by a water-insoluble adhesive C301 to form a chain joint of the chain seedling raising cylinder.

FIG. 4 shows the structure of the unfolding tab of the chain type seedling booklet according to object 4 of the present invention. The unfolding pull ring of the seedling growing cylinder book comprises a seedling growing cylinder book cover 401, water-soluble adhesive blocks 402 and strip-shaped materials 403, wherein the seedling growing cylinder book cover 401 is adhered to two sides of a chain type seedling growing cylinder book, the width of the strip-shaped materials 403 is equal to 1 time of the side length of a hexagonal prism of a seedling growing cylinder, the water-soluble adhesive blocks 402 are respectively coated at the upper position and the lower position of the strip-shaped materials 403 or the upper position, the middle position and the lower position according to the height condition of the seedling growing cylinder, the water-soluble adhesive blocks are adhered to the seedling growing cylinder book cover 401 and are aligned with the middle position of each seedling growing cylinder at the outermost side, and a pull ring structure with two sides adhered and a hollow middle is formed.

FIG. 5 shows the method for folding and hiding the seedling-raising tube chain sheet of the chain-type seedling-raising tube book of the present invention, object 5. The figure shows the folding and hiding effect of the linking pieces of the seedling raising cylinders with 3 different lengths. Under normal conditions, the continuous strip-shaped strip material between the two seedling cylinders is uniformly distributed and hidden at the two sides of the two adjacent seedling cylinders in a single folding mode, so that the distance between the two adjacent seedling cylinders is equal to 4 times of the edge length of the hexagonal prism of the seedling cylinders, and the distance between the two adjacent seedling cylinders is slightly larger than 5 times of the edge length of the hexagonal prism of the seedling cylinders at the position needing to be folded; when the length of the folded continuous strip material exceeds that of the last folded continuous strip material, the excess part is overlapped on the last folded continuous strip material, and a double-layer overlapping effect is formed at the position when the linking pieces between the seedling raising cylinders are long.

Fig. 6 shows a schematic view of a chain structure of seedling raising tubes, wherein 1 continuous strip-shaped narrow strip material is used for linking seedling raising tubes with smaller height values when the chain type seedling raising tube book of object 1 of the present invention adopts technical scheme 1.

Fig. 7 shows a schematic view of a chain structure of seedling raising tubes, wherein 2 continuous strip-shaped narrow strip materials are used for linking seedling raising tubes with larger height values when the chain type seedling raising tube book of object 1 of the invention adopts technical scheme 1.

Fig. 8 shows a schematic view of a chain structure of seedling raising tubes, wherein 2 continuous strip-shaped narrow strip materials are used for linking seedling raising tubes with smaller height values when the chain type seedling raising tube book of object 1 of the invention adopts technical scheme 2.

Fig. 9 shows a schematic view of a chain structure of seedling raising tubes, wherein 3 continuous strip-shaped narrow strip materials are used for linking seedling raising tubes with larger height values when the chain type seedling raising tube book of object 1 of the invention adopts technical scheme 2.

Fig. 10 shows a first method for folding and rolling the chain type seedling raising tubes according to the object 6 of the invention, which comprises the following steps:

step 1: according to the width requirement of the chain type seedling raising cylinder volume after being unfolded, a certain number of seedling raising cylinders are taken as a unit, continuous strip-shaped strip materials between the front seedling raising cylinders in the unit are folded according to a certain rule, are pasted by using a water-soluble adhesive and are hidden at the two sides of the seedling raising cylinders, the distance between the front seedling raising cylinders is equal to 4 times of the side length of the hexagonal prism of the seedling raising cylinders, and the continuous strip-shaped strip materials between the last two adjacent seedling raising cylinders in the unit are not folded;

step 2: repeating the action of the step 1 to form a new seedling raising cylinder chain structure;

and step 3: and folding the chain type structure of the new seedling raising cylinder by taking a certain position of the front or rear seedling raising cylinder of the continuous strip material which is not subjected to folding treatment as a folding point, so that a triangular stacking effect is formed between three adjacent folded seedling raising cylinder structures, and the three adjacent folded seedling raising cylinder structures are adhered by using a water-soluble adhesive to form a chain type seedling raising cylinder book which can be unfolded to form a hexagonal honeycomb seedling raising cylinder combination.

FIG. 11 shows a second chain type seedling-raising tube folding/binding method according to object 7 of the present invention, comprising the steps of:

step 1: according to the width requirement of the chain type seedling raising cylinder volume after being unfolded, a certain number of seedling raising cylinders are taken as a unit, the length of the continuous strip material between the seedling raising cylinders in the front of the unit is set according to the normal requirement, and the continuous strip material between the last two seedling raising cylinders in the unit is lengthened, so that the distance between the two seedling raising cylinders at the two ends of the lengthened continuous strip material is slightly larger than 5 times of the side length of the hexagonal prism of the seedling raising cylinders;

step 2: folding the continuous strip material with normal length between the seedling raising cylinders according to a certain rule, sticking the folded continuous strip material by using a water-soluble adhesive, and hiding the folded continuous strip material at the two sides of the seedling raising cylinders, so that the distance between two adjacent seedling raising cylinders is equal to 4 times of the edge length of the hexagonal prism of the seedling raising cylinders, and the lengthened continuous strip material is not subjected to folding treatment;

and step 3: repeating the actions of the steps 1 and 2 to form a new seedling raising cylinder chain structure;

and 5: the front end or the rear end of the lengthened continuous strip material is used as a folding point, a new seedling raising cylinder chain structure is folded, a delta-shaped stacking effect is formed between three adjacent folded seedling raising cylinder structures, and the three folded seedling raising cylinder structures are bonded by using a water-soluble adhesive, so that a chain seedling raising cylinder book which can be unfolded to form a hexagonal honeycomb seedling raising cylinder combination is generated.

FIG. 12 shows a third method for folding and binding chain type seedlings in object 8 of the present invention, comprising the following steps:

step 1: according to the width requirement of the chain type seedling raising cylinder volume after being unfolded, a certain number of seedling raising cylinders are taken as a unit, continuous strip-shaped strip materials between the seedling raising cylinders in the unit are folded according to a certain rule, are pasted by using a water-soluble adhesive and are hidden at two sides of the seedling raising cylinders, the distance between the seedling raising cylinders in front of the unit is equal to 4 times of the side length of the hexagonal prism of the seedling raising cylinders, and the distance between the last two adjacent seedling raising cylinders in the unit is slightly larger than 5 times of the side length of the hexagonal prism of the seedling raising cylinders;

step 2: repeating the action of the step 1 to form a new seedling raising cylinder chain structure;

and step 3: the front end or the rear end of a linking piece between two seedling cylinders with the adjacent distance slightly larger than 5 times of the hexagonal edge length of the seedling cylinders is used as a turning point, a new seedling cylinder chain structure is folded, a delta-shaped stacking effect is formed between the three adjacent folded seedling cylinder structures, and the three folded seedling cylinder structures are pasted by using a water-soluble adhesive, so that a chain type seedling cylinder book which can be unfolded to form a hexagonal honeycomb seedling cylinder combination is generated.

FIG. 13 is a schematic view showing a structure of a chain type seedling growing container according to object 1 of the present invention.

Fig. 14 shows a method for manufacturing a chain type seedling-raising bobbin book linking joint according to object 2 of the present invention, comprising the steps of:

step 1: stacking a plurality of layers of seedling tube manufacturing materials, and sticking the materials by using a water-insoluble adhesive to form a linking joint material sheet 302;

step 2: coating strip-shaped water-insoluble adhesives D303 with certain width on the link joint material sheet 302 generated in the step 1 according to certain interval distance, wherein the width of a blank part between two adjacent water-insoluble adhesives D303 is slightly larger than that of the continuous strip-shaped strip material 104 between two adjacent seedling cylinders;

and step 3: stacking the sheet 302 of the link joint material produced in step 1 on top of the material produced in step 2, using a suitable method to adhere the two layers together at the location of the water insoluble adhesive D303;

and 4, step 4: cutting straight notches at two sides of each water-insoluble adhesive D303 according to a certain interval distance; cutting by taking the central line of the water-insoluble adhesive D303 as a transverse cutting position and taking the middle point of the straight notch as a longitudinal cutting position to generate chain type seedling growing cylinder book linking joint components with symmetrical two sides;

and 5: the chain-type seedling-raising bobbin joint member produced in the step 4 is adhered to the continuous strip-shaped material 104 between the seedling-raising bobbins by the water-insoluble adhesive C301, and cut into two parts, so that one chain joint is produced for each of the front and rear chain-type seedling-raising bobbins.

Fig. 15 shows a method for using the chain-type seedling-raising booklet linking joint according to object 2 of the present invention, which comprises the following steps: one of the linking joints is folded to reduce the width dimension, the linking joint penetrates into the hollow of the other linking joint and is pulled out, the folding part of the linking joint is unfolded, and the two linking joints are meshed together through the U-shaped notches on the linking joint to complete the linking function of the two chain type seedling growing cylinder books.

FIG. 16 shows a method for manufacturing a chain type seedling growing booklet of object 9 of the present invention, comprising the steps of:

step 1: generating a seedling tube long material sheet 101 material layer;

drawing a seedling raising cylinder manufacturing material from a material roll, unfolding, coating a strip-shaped water-insoluble adhesive A102 with a certain width on the surface of the material according to a certain interval distance, wherein the width of a blank part between two strips of the water-insoluble adhesive A102 is equal to 3 times of the edge length of a hexagonal prism of the seedling raising cylinder, the width of the water-insoluble adhesive A102 is equal to 2 times of the width of a single-side pasting part of the seedling raising cylinder but not more than 1 time of the edge length of the hexagonal prism of the seedling raising cylinder, and selecting an optimal value under the premise that the finally generated seedling raising cylinder has enough strength;

step 2: creating a continuous strip of material 104;

taking out the seedling raising cylinder manufacturing material from the material roll, unfolding, cutting the seedling raising cylinder manufacturing material into a continuous strip-shaped material 104 with a certain width by using a blade set along the material moving direction, and selecting an optimal value on the premise that the width of the continuous strip-shaped material 104 meets the requirement that the finally generated chain-type seedling raising cylinder has enough tensile strength;

and step 3: generating a seedling cylinder short material slice;

when the technical scheme 1 is adopted, the seedling tube manufacturing material is drawn out from the material roll and unfolded, and the seedling tube manufacturing material is cut into continuous strip-shaped materials with certain width along the material moving direction;

when the technical scheme 2 is adopted, the seedling tube manufacturing material is drawn out from the material roll and is unfolded, a strip-shaped water-insoluble adhesive coating with a certain width is coated on the surface of the material along the material moving direction according to a certain interval distance, the width of the water-insoluble adhesive coating is equal to the height of the tongue-shaped protruding sheet 202 in the technical scheme 2, and the width of a blank part between two adjacent water-insoluble adhesive coatings is equal to the side length of the short material sheet B201; cutting the seedling growing cylinder manufacturing material at the position of each water-insoluble adhesive coating, wherein the cutting result is as follows: the two sides of each continuous strip-shaped material generate a plurality of tongue-shaped protruding sheets 202 at a specific interval distance, and the tongue-shaped protruding sheets 202 of two adjacent continuous strip-shaped materials are generated in a staggered mode to jointly occupy the water-insoluble adhesive coating between the two continuous strip-shaped materials;

and 4, step 4: generating a seedling growing cylinder structure;

flatly laying and stacking the seedling raising barrel short material slices generated in the step 3 on the material generated in the step 1 according to a certain interval distance, and contacting one side coated with the water-insoluble adhesive A102; for the technical scheme 2, the side of the tongue-shaped protruding sheet 202 coated with the water-insoluble adhesive B203 is required to be exposed outside, and the tongue-shaped protruding sheet 202 is positioned in the middle of the blank part between the two water-insoluble adhesives A102; adhering the two layers of material together at the location of the water-insoluble adhesive A102 using a suitable method; cutting by taking the central line of the water-insoluble adhesive A102 as a cutting position to generate a strip-shaped material with the structural characteristics of the seedling growing cylinder;

and 5: generating a chain type seedling growing cylinder book linking joint component;

according to the manufacturing method of the chain type seedling growing cylinder book linking joint, which is disclosed by the invention object 3, a chain type seedling growing cylinder book linking joint component is generated;

step 6: generating a chain structure of the seedling cylinder;

flatly laying the continuous strip-shaped narrow strip materials 104 generated in the step 2 at certain intervals, enabling the continuous strip-shaped narrow strip materials to move forwards, placing the strip-shaped seedling cultivation cylinder structures generated in the step 4 at proper time intervals, enabling the single-layer parts of the strip-shaped seedling cultivation cylinder structures generated in the step 4 to be combined with the continuous strip-shaped narrow strip materials 104 generated in the step 2, and enabling the two layers of materials to be adhered together by using a proper method to form seedling cultivation cylinder chain structures with certain intervals; after the number of the seedling cylinders reaches a certain number, a chain type seedling cylinder linking joint is pasted at the middle position of the continuous strip material 104 by using a water-insoluble adhesive C301;

and 7: generating a chain type seedling growing cylinder structure;

selecting a proper seedling raising cylinder folding and binding method, and folding and sticking the chain type structure of the seedling raising cylinder generated in the step 6 to form a chain type seedling raising cylinder combination which can be unfolded into a hexagonal honeycomb shape; cutting a chain type seedling growing cylindrical book linking joint component into two parts, folding a continuous strip material 104 between the chain type seedling growing cylindrical book linking joint and a seedling growing cylinder according to a certain rule, sticking the strip material by using a water-soluble adhesive, and hiding the strip material at one side of the seedling growing cylinder to expose the chain type seedling growing cylindrical book linking joint outside; adhering seedling cylinder book covers 401 to two sides of the chain type seedling cylinder combination by using a water-soluble adhesive, and adhering a strip-shaped material 403 to the seedling cylinder book covers 401 through a water-soluble adhesive block 402 to form a chain type seedling cylinder book unfolding pull ring;

and 8: generating a seedling cylinder single body;

according to the requirements of the technical schemes 1 and 2, cutting the chain type seedling growing cylindrical book structure generated in the step 7 at a proper position to form a final chain type seedling growing cylindrical book finished product.

Claims (10)

1. The utility model provides a chain seedling growing section of thick bamboo volume which characterized in that: the chain type seedling raising cylinder book comprises a seedling raising cylinder, a chain sheet, a chain joint, an expansion pull ring and the like; the seedling raising cylinder is of a seedling raising cylinder structure with a hollow middle formed by sticking two layers of materials at two sides; the linking pieces are formed by one or more continuous strip materials between the seedling raising cylinders, and the continuous strip materials are hidden at the two sides of the seedling raising cylinders after being folded and pasted by using a water-soluble adhesive; the linking joints are adhered to the head end and the tail end of the chain structure of the seedling raising cylinder; after a chain type structure of the seedling raising cylinder consisting of the seedling raising cylinder, the chain pieces and the chain joints is folded and pasted, a chain type seedling raising cylinder book which can be unfolded to form a hexagonal prism honeycomb seedling raising cylinder combination is generated; the unfolding pull rings are adhered to two sides of the chain type seedling cylinder book.

2. A seedling growing cylinder book according to claim 1, characterized in that: the seedling raising cylinder is formed by sticking two layers of materials; one layer of material is a long material sheet 101, both sides of the same surface of the long material sheet 101 are respectively coated with a water-insoluble adhesive A102 with a certain width, the width of the water-insoluble adhesive A102 is less than 0.5 time of the edge length of the hexagonal prism of the seedling growing cylinder, and the width of a blank part between two adjacent water-insoluble adhesives A102 is equal to 3 times of the edge length of the hexagonal prism of the seedling growing cylinder; the other layer is a composite material layer and is formed by clamping 1 strip of continuous strip-shaped strip material 104 between 2 short material sheets A103; a composite material layer composed of a short material sheet A103 and a continuous strip material 104 is adhered to a long material sheet 101 through a water-insoluble adhesive A102 to form a seedling raising cylinder structure with a hollow middle part and two adhered sides.

3. A seedling growing cylinder book according to claim 1, characterized in that: the seedling raising cylinder is formed by sticking two layers of materials; one layer of material is a long material sheet 101, both sides of the same surface of the long material sheet 101 are respectively coated with a water-insoluble adhesive A102 with a certain width, the width of the water-insoluble adhesive A102 is less than 0.5 time of the edge length of the hexagonal prism of the seedling growing cylinder, and the width of a blank part between two adjacent water-insoluble adhesives A102 is equal to 3 times of the edge length of the hexagonal prism of the seedling growing cylinder; the other layer of material is a composite material layer and is formed by clamping 1 short material sheet B201 between 2 continuous strip materials 104, two tongue-shaped protruding sheets 202 are arranged at the middle positions of the upper side and the lower side of the short material sheet B201, and the tongue-shaped protruding sheets 202 and the continuous strip materials 104 are adhered together through a water-insoluble adhesive B203; a composite material layer composed of a continuous strip material 104 and a short material sheet B201 is adhered to the long material sheet 101 through a water-insoluble adhesive A102 to form a seedling raising cylinder structure with a hollow middle part and two adhered sides.

4. The utility model provides a chain seedling growing section of thick bamboo volume connects, its characterized in that: 2 pieces of linked joint material sheets 302 are adhered together at two sides through two water-insoluble adhesives D303, two U-shaped notches are cut to form a linked joint member with a hollow middle, and the linked joint member is adhered together with the continuous strip material 104 through a water-insoluble adhesive C301 to form a linked joint of a chained seedling growing cylinder; when the foldable seedling-raising tube book is used, one of the linking joints is folded to reduce the width, penetrates into the cavity of the other linking joint and is pulled out, the folding part of the linking joint is unfolded, and the two linking joints are meshed together through the U-shaped notches on the linking joint to complete the linking function of the two chain type seedling-raising tube books.

5. The utility model provides a chain seedling section of thick bamboo volume expansion pull ring which characterized in that: the unfolding pull ring of the seedling cylinder book is composed of a seedling cylinder book cover 401, water-soluble adhesive blocks 402 and strip-shaped materials 403, wherein the seedling cylinder book cover 401 is adhered to two sides of a chain-type seedling cylinder book, the width of the strip-shaped materials 403 is equal to 1 time of the edge length of a hexagonal prism of a seedling cylinder, the water-soluble adhesive blocks 402 are respectively coated at the upper position and the lower position, or the upper position, the middle position and the lower position, of the strip-shaped materials 403 according to the height condition of the seedling cylinder, and are adhered to the seedling cylinder book cover 401 and aligned with the middle position of each seedling cylinder at the outermost side.

6. A method for manufacturing a chain type seedling-raising bobbin book linking joint is characterized by comprising the following steps:

step 1: stacking a plurality of layers of seedling tube manufacturing materials, and sticking the materials by using a water-insoluble adhesive to form a linking joint material sheet 302;

step 2: coating strip-shaped water-insoluble adhesives D303 with certain width on the link joint material sheet 302 generated in the step 1 according to certain interval distance, wherein the width of a blank part between two adjacent water-insoluble adhesives D303 is slightly larger than that of the continuous strip-shaped strip material 104 between two adjacent seedling cylinders;

and step 3: stacking the sheet 302 of the link joint material produced in step 1 on top of the material produced in step 2, using a suitable method to adhere the two layers together at the location of the water insoluble adhesive D303;

and 4, step 4: cutting straight notches at two sides of each water-insoluble adhesive D303 according to a certain interval distance; cutting by taking the central line of the water-insoluble adhesive D303 as a transverse cutting position and taking the middle point of the straight notch as a longitudinal cutting position to generate chain type seedling growing cylinder book linking joint components with symmetrical two sides;

and 5: the chain-type joint member of the seedling raising cylinder generated in the step 4 is adhered to the continuous strip-shaped material 104 between the seedling raising cylinders by the water-insoluble adhesive C301, and is cut into two parts to form a head-tail two-chain joint.

7. A chain type seedling raising drum volume seedling raising drum link sheet folding and hiding method is characterized by comprising the following steps: under normal conditions, the continuous strip-shaped strip material between the two seedling cylinders is uniformly distributed and hidden at the two sides of the two adjacent seedling cylinders in a single folding mode, so that the distance between the two adjacent seedling cylinders is equal to 4 times of the edge length of the hexagonal prism of the seedling cylinders, and the distance between the two adjacent seedling cylinders is slightly larger than 5 times of the edge length of the hexagonal prism of the seedling cylinders at the position needing to be folded; when the length of the folded continuous strip material exceeds that of the last folded continuous strip material, the excess part is overlapped on the last folded continuous strip material, and a double-layer overlapping effect is formed at the position when the linking pieces between the seedling raising cylinders are long.

8. A chain type seedling raising cylinder folding and binding method is characterized by comprising the following steps:

step 1: according to the width requirement of the chain type seedling raising cylinder volume after being unfolded, a certain number of seedling raising cylinders are taken as a unit, continuous strip-shaped strip materials between the front seedling raising cylinders in the unit are folded according to a certain rule, are pasted by using a water-soluble adhesive and are hidden at the two sides of the seedling raising cylinders, the distance between the front seedling raising cylinders is equal to 4 times of the side length of the hexagonal prism of the seedling raising cylinders, and the continuous strip-shaped strip materials between the last two adjacent seedling raising cylinders in the unit are not folded;

step 2: repeating the action of the step 1 to form a new seedling raising cylinder chain structure;

and step 3: and folding the chain type structure of the new seedling raising cylinder by taking a certain position of the front or rear seedling raising cylinder of the continuous strip material which is not subjected to folding treatment as a folding point, so that a triangular stacking effect is formed between three adjacent folded seedling raising cylinder structures, and the three adjacent folded seedling raising cylinder structures are adhered by using a water-soluble adhesive to form a chain type seedling raising cylinder book which can be unfolded to form a hexagonal honeycomb seedling raising cylinder combination.

9. A chain type seedling raising cylinder folding and binding method is characterized by comprising the following steps:

step 1: according to the width requirement of the chain type seedling raising cylinder volume after being unfolded, a certain number of seedling raising cylinders are taken as a unit, the length of the continuous strip material between the seedling raising cylinders in the front of the unit is set according to the normal requirement, and the continuous strip material between the last two seedling raising cylinders in the unit is lengthened, so that the distance between the two seedling raising cylinders at the two ends of the lengthened continuous strip material is slightly larger than 5 times of the side length of the hexagonal prism of the seedling raising cylinders;

step 2: folding the continuous strip material with normal length between the seedling raising cylinders according to a certain rule, sticking the folded continuous strip material by using a water-soluble adhesive, and hiding the folded continuous strip material at the two sides of the seedling raising cylinders, so that the distance between two adjacent seedling raising cylinders is equal to 4 times of the edge length of the hexagonal prism of the seedling raising cylinders, and the lengthened continuous strip material is not subjected to folding treatment;

and step 3: repeating the actions of the steps 1 and 2 to form a new seedling raising cylinder chain structure;

and 5: the front end or the rear end of the lengthened continuous strip material is used as a folding point, a new seedling raising cylinder chain structure is folded, a delta-shaped stacking effect is formed between three adjacent folded seedling raising cylinder structures, and the three folded seedling raising cylinder structures are bonded by using a water-soluble adhesive, so that a chain seedling raising cylinder book which can be unfolded to form a hexagonal honeycomb seedling raising cylinder combination is generated.

10. A method for manufacturing chain-type seedling growing drums is characterized by comprising the following steps:

step 1: generating a seedling tube long material sheet 101 material layer;

drawing a seedling raising cylinder manufacturing material from a material roll, unfolding, coating a strip-shaped water-insoluble adhesive A102 with a certain width on the surface of the material according to a certain interval distance, wherein the width of a blank part between two strips of the water-insoluble adhesive A102 is equal to 3 times of the edge length of a hexagonal prism of the seedling raising cylinder, the width of the water-insoluble adhesive A102 is equal to 2 times of the width of a single-side pasting part of the seedling raising cylinder but not more than 1 time of the edge length of the hexagonal prism of the seedling raising cylinder, and selecting an optimal value under the premise that the finally generated seedling raising cylinder has enough strength;

step 2: creating a continuous strip of material 104;

taking out the seedling raising cylinder manufacturing material from the material roll, unfolding, cutting the seedling raising cylinder manufacturing material into a continuous strip-shaped material 104 with a certain width by using a blade set along the material moving direction, and selecting an optimal value on the premise that the width of the continuous strip-shaped material 104 meets the requirement that the finally generated chain-type seedling raising cylinder has enough tensile strength;

and step 3: generating a seedling cylinder short material slice;

when the technical scheme 1 is adopted, the seedling tube manufacturing material is drawn out from the material roll and unfolded, and the seedling tube manufacturing material is cut into continuous strip-shaped materials with certain width along the material moving direction;

when the technical scheme 2 is adopted, the seedling tube manufacturing material is drawn out from the material roll and is unfolded, a strip-shaped water-insoluble adhesive coating with a certain width is coated on the surface of the material along the material moving direction according to a certain interval distance, the width of the water-insoluble adhesive coating is equal to the height of the tongue-shaped protruding sheet 202 in the technical scheme 2, and the width of a blank part between two adjacent water-insoluble adhesive coatings is equal to the side length of the short material sheet B201; cutting the seedling growing cylinder manufacturing material at the position of each water-insoluble adhesive coating, wherein the cutting result is as follows: the two sides of each continuous strip-shaped material generate a plurality of tongue-shaped protruding sheets 202 at a specific interval distance, and the tongue-shaped protruding sheets 202 of two adjacent continuous strip-shaped materials are generated in a staggered mode to jointly occupy the water-insoluble adhesive coating between the two continuous strip-shaped materials;

and 4, step 4: generating a seedling growing cylinder structure;

flatly laying and stacking the seedling raising barrel short material slices generated in the step 3 on the material generated in the step 1 according to a certain interval distance, and contacting one side coated with the water-insoluble adhesive A102; for the technical scheme 2, the side of the tongue-shaped protruding sheet 202 coated with the water-insoluble adhesive B203 is required to be exposed outside, and the tongue-shaped protruding sheet 202 is positioned in the middle of the blank part between the two water-insoluble adhesives A102; adhering the two layers of material together at the location of the water-insoluble adhesive A102 using a suitable method; cutting by taking the central line of the water-insoluble adhesive A102 as a cutting position to generate a strip-shaped material with the structural characteristics of the seedling growing cylinder;

and 5: generating a chain type seedling growing cylinder book linking joint component;

step 6: generating a chain structure of the seedling cylinder;

flatly laying the continuous strip-shaped narrow strip materials 104 generated in the step 2 at certain intervals, enabling the continuous strip-shaped narrow strip materials to move forwards, placing the strip-shaped seedling cultivation cylinder structures generated in the step 4 at proper time intervals, enabling the single-layer parts of the strip-shaped seedling cultivation cylinder structures generated in the step 4 to be combined with the continuous strip-shaped narrow strip materials 104 generated in the step 2, and enabling the two layers of materials to be adhered together by using a proper method to form seedling cultivation cylinder chain structures with certain intervals; after the number of the seedling cylinders reaches a certain number, a chain type seedling cylinder linking joint is pasted at the middle position of the continuous strip material 104 by using a water-insoluble adhesive C301;

and 7: generating a chain type seedling growing cylinder structure;

selecting a proper seedling raising cylinder folding and binding method, and folding and sticking the chain type structure of the seedling raising cylinder generated in the step 6 to form a chain type seedling raising cylinder combination which can be unfolded into a hexagonal honeycomb shape; cutting a chain type seedling growing cylindrical book linking joint component into two parts, folding a continuous strip material 104 between the chain type seedling growing cylindrical book linking joint and a seedling growing cylinder according to a certain rule, sticking the strip material by using a water-soluble adhesive, and hiding the strip material at one side of the seedling growing cylinder to expose the chain type seedling growing cylindrical book linking joint outside; adhering seedling cylinder book covers 401 to two sides of the chain type seedling cylinder combination by using a water-soluble adhesive, and adhering a strip-shaped material 403 to the seedling cylinder book covers 401 through a water-soluble adhesive block 402 to form a chain type seedling cylinder book unfolding pull ring;

and 8: generating a seedling cylinder single body;

according to the requirements of the technical schemes 1 and 2, cutting the chain type seedling growing cylindrical book structure generated in the step 7 at a proper position to form a final chain type seedling growing cylindrical book finished product.

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