JP2002200680A - Board of corrugated fiberboard structure made of resin of which end part is sealed, and method for manufacturing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a board of a corrugated fiberboard structure made of a resin which is free of penetration of water, dust or the like into a space partitioned by a liner and a rib and which is excellent in outward appearance, sanitary properties, recycling properties, etc. SOLUTION: In the board of the corrugated fiberboard structure made of a resin which is constituted of two parallel liners made of a resin and a plurality of ribs made of a resin that connect the two liners and are parallel longitudinally, at least the end part intersecting the longitudinal direction of the ribs is sealed up.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a line pallet,
The present invention relates to a resin corrugated board that can be suitably used for a curing material, a top and bottom curing material, a float, a heat insulating plate, a concrete placing panel, a sheet pile, a shelf board, and the like, and a method of manufacturing the same.

[0002]

2. Description of the Related Art Conventionally, a corrugated cardboard structure plate made of two parallel resin liners and a plurality of resin ribs connecting the two liners and having a parallel longitudinal direction has conventionally been known as a line pallet, a curing material, and a top and bottom. It is used as a curing material, a float, a heat insulating board, a panel for placing concrete, a sheet pile, a shelf board, etc., and its use is increasing due to its excellent light weight and recyclability.

[0003]

However, in the conventional resin-made corrugated cardboard plate, since water, dust, and the like enter the space defined by the liner and the rib, there are problems with appearance, hygiene, recyclability, and the like. .

[0004]

Means for Solving the Problems The present inventors diligently studied to solve the above problems and completed the invention having the following items.

(1) It comprises two parallel resinous liners and a plurality of resinous ribs which connect the two liners and whose longitudinal directions are parallel to each other. The ends of the ribs which intersect with the longitudinal direction are sealed. A corrugated resin board made of resin.

(2) The resin-made corrugated cardboard plate according to item (1), wherein an end parallel to the longitudinal direction of the rib is sealed.

(3) The resin-made corrugated cardboard plate according to item (1) or (2), wherein the end is sealed with a sealing material.

(4) The resin-made corrugated cardboard plate according to item (3), wherein the sealing material is integrated with the liner, the rib, or the liner and the rib.

(5) The resin-made corrugated cardboard plate according to item (2), wherein the end portion is sealed over the entire circumference with a sealing material, and the sealing material is continuous.

(6) The resin-made corrugated cardboard plate according to any one of items (1) to (5), wherein the thickness is 6 mm or more and 30 mm or less.

(7) The resin corrugated board according to item (6), wherein the ratio of the weight of the liner to the weight of the rib is 0.3 or more and 8 or less.

(8) The sealing material has a thickness of 0.5 mm or more and 3 m.
m, wherein the resin tape is welded to the liner or the rib, or the liner and the rib, wherein the resin tape is welded to the liner or the rib or the liner and the rib. Corrugated board made of resin.

(9) The ratio T2 / T1 of the width of the resin tape to the distance T1 between the outer surfaces of both liners is 0.9 or more;
Item (8), wherein the resin tape is less than 1.0 and the resin tape does not protrude from the outer surfaces of both liners in the thickness direction of the cardboard structure plate.

(10) Two parallel resin liners,
A step of welding a resin tape to an end of the resin corrugated cardboard structure plate, which is composed of a plurality of resin ribs having a plurality of resin ribs parallel to each other in longitudinal direction and intersecting with the longitudinal direction, to seal the end; A method for producing a resin-made corrugated cardboard structure plate, comprising:

(11) Two parallel resin liners,
A step of welding a resin tape to the ends of the ribs of the resin corrugated cardboard structure plate, which is composed of a plurality of resin ribs which are connected to each other and whose longitudinal directions are parallel to each other, and which seals the ends The method according to item (10), further comprising:

(12) The method according to the item (1), further comprising the step of welding adjacent ends of adjacent resin tapes at corners of the corrugated cardboard structure plate.
The method according to 1).

(13) A resin tape is fused to each of a pair of opposing ends of the resin-made corrugated cardboard structure plate, and thereafter, the remaining pair of opposing ends are cut without cutting these resin tapes. Welding the resin tape to each of the above, then cutting these resin tapes at the corners of the corrugated cardboard structure plate, and then welding both resin tapes at the corners of the resin corrugated cardboard structure plate The method according to item (12), which is characterized in that:

(14) After fusing a resin tape to each of a pair of opposite ends of the resin-made corrugated cardboard structure plate, the corrugated-cardboard structure plate is rotated by 90 degrees, and then the remaining pair of opposed end portions is formed. (13). The method according to item (13), wherein the resin tape is welded to each of the above.

(15) While continuously supplying the resin tape, the tape and the resin corrugated board are fed at the same speed, and the welding element is moved while moving the welding element in synchronization with these movements. Items (10) to (14), wherein a tape made of resin is welded to an end of the resin cardboard.
The method according to any one of the preceding claims.

(16) While continuously supplying the resin tape, the tape and the corrugated board are fed at the same speed, and when the tape is fed by a predetermined length, the supply of the resin tape and the tape are started. The method according to any one of items (10) to (14), wherein the feeding of the corrugated board is stopped, and then the tape is welded to an end of the corrugated board by a welding element.

(17) The method according to any one of items (10) to (16), wherein, prior to the step of welding the resin tape, the end of the liner of the resin-made corrugated cardboard board is C-cut. Method.

(18) Item (1) wherein the welding of the resin tape is performed by vibration welding or ultrasonic welding.
0) The method according to any one of (17).

(19) A tape having a horn-shaped groove having a width corresponding to the width of the resin tape is positioned in the groove by inserting the tape into the groove and positioning the tape and the end of the corrugated board. Items characterized by welding (10)-
The method according to any one of (17).

[0024]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A main portion of a resin-made corrugated cardboard structure plate (hereinafter, simply referred to as a corrugated-cardboard structure plate) of the present invention, except for an end portion, has two parallel resin-made liners and a longitudinal line connecting both liners. And a plurality of resin ribs whose directions are parallel to each other. For example, as the cardboard structure plate of the present invention, one having a structure schematically shown in FIG. However, in FIG. 1, the sealed end is not drawn. In the corrugated cardboard structure plate 1 shown in FIGS. 1A, 1B, and 1C, sheet-like liners 2.2 are arranged so as to face each other so that their surfaces are parallel to each other.
Specifically, as shown in FIG. 1A, the rib 3 has a structure in which the ribs 3 arranged in parallel in one direction are provided in an upright direction with respect to the liner 2.
As shown in FIG. 1B, a rib having a structure in which a space between the liners 2 is separated by a plate-like rib 3 having a corrugated curved cross section, or as shown in FIG. Having various structures, such as a structure in which are arranged at a certain angle with respect to the liner 2. The ribs may be connected to each other by a resin plate having a thickness similar to that of the corrugated cardboard structure plate so as to have a so-called honeycomb structure inside.

The resin constituting the liner and the rib of the corrugated board of the present invention includes, for example, low-density polyethylene, high-density polyethylene, ultra-high-density polyethylene, propylene polymer (polypropylene), propylene copolymer, vinyl chloride ( (Co) polymer, styrene (co) polymer,
Methyl methacrylate (co) polymer, ethylene / acetate ester copolymer, acrylic / butadiene / styrene copolymer, polyamide, polycarbonate, polyethylene terephthalate, polyphenylene oxide, polyethersulfone, polyarylate, polyetheretherketone, polymethyl One or two or more kinds selected from various thermoplastic resins such as pentene; one or two kinds selected from various thermosetting resins such as epoxy resin, unsaturated polyester resin, phenolic resin and melamine resin Examples thereof include the above mixtures.

Among the resins exemplified above, resins having integral moldability are preferable. Among the resins having integral moldability, for example, a resin containing propylene as a monomer unit, such as polypropylene or a propylene copolymer, that is, a propylene-based resin is preferably used, and polypropylene is particularly preferably used. This is because propylene-based resin (especially, polypropylene) has, for example, (semi) transparency, heat-fusibility, heat resistance,
This is because they are excellent in various performances such as water resistance, oil resistance, and chemical resistance.

The resin constituting the liner and / or the rib may be, if necessary, an inorganic filler such as silica, mica, or talc; a reinforcing material such as glass fiber, carbon fiber, aramid fiber, or ultra-high molecular weight polyethylene fiber; Various additives such as a stabilizer and a colorant may be contained. Examples of the heat stabilizer include Sumilizer BP10, which is a phenol heat stabilizer.
1 (trade name, manufactured by Sumitomo Chemical Co., Ltd.), Ultranox 626 (trade name, manufactured by Sumitomo Chemical Co., Ltd.), which is a phosphorus-based heat stabilizer, and the like. Examples of the coloring agent include various organic or inorganic pigments.

Since the corrugated board of the present invention contains an ultraviolet absorber or an ultraviolet stabilizer, the mechanical properties are not impaired even under the conditions of exposure to ultraviolet light, and the surface gloss is long. It can be maintained over a period of time. Examples of the ultraviolet absorber include Sumisorb S577 (trade name, manufactured by Sumitomo Chemical Co., Ltd.), which is a benzoic acid-based ultraviolet absorber. Examples of the ultraviolet stabilizer include HALS-based ultraviolet stabilizer SANOL LS-770 (trade name, manufactured by Sankyo).

Since the cardboard structure plate of the present invention is hardly stained, it is preferable that the cardboard structure plate is provided with an antistatic property. The provision of the antistatic performance to the corrugated board of the present invention can be achieved by using an antistatic agent.

Examples of the antistatic agent applicable to the present invention include amine compounds such as stearylethanolamine, stearyldiethanolamine, laurylamine and lauryldiethanolamine, amide compounds, stearyldiethanol monostearate and glycerin fatty acid esters. An ester compound, a quaternary ammonium compound, a pyridine derivative, a carboxylic acid derivative and the like can be mentioned. The antistatic agent may be a single compound or a mixture of two or more compounds. Mixtures of stearyl diethanol monostearate and glycerin fatty acid esters are preferred. In addition, not only the low-molecular-weight antistatic agent exemplified above, but also, for example, a polymer-type antistatic agent such as a polyether-based resin and a polyamide-based resin can be used. Among the polymer type antistatic agents, the following general formula: HO-[(OC-R ¹ -NH) _x- (OC- (R ² O) _z- ) _y ] _n-
H (wherein, n, x, y and z are each independently an integer, and R ¹ and R ² are each independently an alkyl group,
(Which is a cycloaliphatic group or an aromatic group).

When the corrugated board of the present invention becomes dirty, the stain may be wiped off or washed away. Since the low-molecular type antistatic agents exemplified above have excellent affinity with water, when washed with water, these antistatic agents flow with water, and as a result, the antistatic performance of the corrugated cardboard structure plate is reduced. Will be lost. This problem can be solved by using the polymer type antistatic agent as an antistatic agent.

Examples of the form of imparting the antistatic property to the corrugated board include a form in which an antistatic agent is kneaded into a liner or a resin for a rib, a form in which an antistatic agent is applied to the liner surface,
And a mode in which a previously prepared film having antistatic performance is attached to the surface of the liner.

When the liner is composed of a resin into which the antistatic agent is kneaded, the antistatic agent may be incorporated into the entire liner. It is preferable that the liner has a multilayer structure and an antistatic agent is blended only in the outermost layer. Such a multilayered liner can be produced, for example, by a coextrusion molding method. When the polymer-type antistatic agent is applied to kneading into a resin, the compounding amount is preferably 5% by weight or more of the resin, more preferably 10% by weight or more and 20% by weight or less. If it is less than 5% by weight, it is difficult to exhibit sufficient antistatic properties.

The kneading type antistatic agent is easier to handle and has a longer antistatic effect than the coating type antistatic agent. On the other hand, unless a large amount of the antistatic agent is used, the antistatic effect may not be exhibited, or the mechanical performance of the corrugated board may be reduced. In addition, it may take a relatively long time to achieve the effect.

On the other hand, with respect to the coating type antistatic agent and the lamination type antistatic agent, the antistatic effect is exhibited by a relatively small amount of the antistatic agent. On the other hand, there is a disadvantage in that a pretreatment such as surface purification is required, and inconveniences such as uneven coating and stickiness may occur. In addition,
The antistatic performance may be given to only one of the liners, or may be given to both of the liners. Furthermore, the composition of the liner material and the composition of the rib material may be the same or different.

The corrugated cardboard structure plate of the present invention is characterized in that the ends of the ribs intersecting with the longitudinal direction are sealed.
The end that intersects the longitudinal direction of the rib is most typically
An end portion extending in a direction perpendicular to the longitudinal direction of the rib, but is not limited to this. In the corrugated cardboard structure plate of the present invention, since the ends of the ribs that intersect with the longitudinal direction are sealed, foreign substances can be prevented from entering the space defined by both the liners and the ribs.

Further, in the corrugated cardboard structure plate of the present invention, it is preferable that the ends of the ribs parallel to the longitudinal direction are further sealed. With this configuration, it is possible to more reliably prevent foreign matter from entering the space defined by the two liners and the ribs.

In the corrugated board structure plate of the present invention, the sealing of the end portion is performed by melting and shaping the liner or rib or the liner and the rib of the unsealed corrugated board plate. Although there is a stop, sealing using a dedicated sealing material is preferable. In order to effectively prevent the sealing material from falling off when the corrugated board is used, the sealing material is preferably integrated with the liner or the rib, or the liner and the rib. As a method of integrating the sealing material with the liner or the like, welding is preferable. In the rectangular corrugated cardboard structure plate, it is preferable that four sides, that is, all ends are sealed with a sealing material, and the sealing material is continuous. With such a configuration of the corrugated board, it is possible to reliably prevent foreign matter from entering the inside of the corrugated board.

The thickness of the corrugated board of the present invention, that is, the distance between the outer surfaces of both liners is not particularly limited, but is 6 m.
It is preferably not less than m and not more than 30 mm. The corrugated board having such a thickness is excellent in rigidity, and is easy to manufacture since the end portion is easily sealed. Also,
From the viewpoint of the balance between weight and rigidity, the ratio of the weight of the liner to the weight of the rib (hereinafter, referred to as the liner / rib ratio) is preferably 0.3 or more and 8 or less. Further, the cardboard structure plate of the present invention has a thickness of 6 mm or more,
0 mm or less and the liner / rib ratio is more preferably 0.3 or more and 8 or less, the thickness is 8 mm or more and 20 mm or less, and the liner / rib ratio is 0.1 mm or less.
It is particularly preferable that the number is 5 or more and 5 or less.

The shape of the corner portion of the corrugated cardboard structure plate of the present invention is not particularly limited, and examples thereof include a right angle shape, an R shape, and a C shape.

As a sealing material used for sealing the end of the corrugated cardboard structure plate of the present invention, a resin tape is preferable, and a resin tape having a thickness of 0.5 mm or more and 3 mm or less is preferable. The resin tape having such a thickness is easy to handle because it has appropriate rigidity, and is hard to be damaged during the sealing process, so that it is a corrugated board having a good end sealing state. Resin tape thicker than 3mm
Although it can be suitably used for sealing a linear end portion,
Normally, the rigidity is high, so it is difficult to machine at the corners.
It is preferable that the resin tape is welded to the liner or the rib, or to the liner and the rib. The material of the resin tape is not particularly limited, but is preferably a liner or a rib, or a material that can be welded to the liner and the rib, and a resin of the same type as the resin constituting the liner or the rib is particularly preferable.

The thickness of the corrugated board of the present invention, that is, the ratio of the distance T1 between the outer surfaces of both liners to the width T2 of the resin tape as the sealing material (hereinafter referred to as T2 / T1 ratio) is as follows.
It is preferably 0.9 or more and less than 1.0, and it is preferable that the resin tape does not protrude from the outer surfaces of both liners in the thickness direction of the corrugated board. When the T2 / T1 ratio is 0.9 or more, welding of the liner of the corrugated board with the resin tape is easy. When the T2 / T1 ratio is less than 1.0, for example, when using such a corrugated cardboard structure as a shelf, when loading luggage on the shelf or when removing luggage from the shelf. In addition, breakage of the luggage due to the luggage being caught on the edge of the shelf is effectively prevented.

The resin-made corrugated cardboard structure plate of the present invention comprises two parallel resin-made liners and a plurality of ribs which connect the two liners and are parallel in the longitudinal direction, and whose ends are not sealed. It can be manufactured by sealing the end of the rib of the resin corrugated cardboard structure that intersects the longitudinal direction with an appropriate method.

As the above-mentioned resin-made corrugated cardboard structure plate having an unsealed end portion used for producing the resin-made corrugated cardboard structure plate of the present invention, for example, a known cardboard structure plate can be used, and the production method is not particularly limited. . For example, a method in which a liner and a rib are integrally molded by a general molding method such as extrusion molding, injection molding, etc. A plate made of the same resin is bonded between two parallel resin plates by an adhesive or heat fusion. Although an appropriate method such as a method of combining can be applied, a method of integrally molding is particularly preferable.

For example, in the corrugated cardboard structure plate according to the present invention, characterized in that the ends of the ribs intersecting with the longitudinal direction are sealed, two parallel resin-made liners are connected to each other, Consists of a plurality of ribs whose longitudinal direction is parallel,
It can be manufactured by a method including a step of welding a sealing material, for example, a resin tape to an end portion intersecting the longitudinal direction of the rib of the corrugated cardboard structure plate whose end portion is not sealed and sealing the end portion. it can.

In a corrugated cardboard structure plate in which the ends parallel to the longitudinal direction of the ribs are further sealed, a sealing material, for example, a resin tape is welded to the ends parallel to the longitudinal direction of the ribs. It can be manufactured by a method further including a step of sealing the portion. When manufacturing a corrugated cardboard structure plate in which both ends intersecting the longitudinal direction of the ribs and ends perpendicular to the longitudinal direction of the ribs are sealed, a sealing material is attached to the end intersecting the longitudinal direction of the ribs. And the step of welding the sealing face to the end parallel to the longitudinal direction of the rib to seal the end face may be performed first. The steps may be performed in parallel.

Further, when manufacturing a corrugated cardboard structure plate in which both the ends intersecting with the longitudinal direction of the rib and the ends perpendicular to the longitudinal direction of the rib are manufactured, at the corner of the corrugated cardboard structure plate, By further performing the step of welding the adjacent ends of the adjacent resin tapes, it is possible to manufacture a corrugated board having a high sealing property.

When manufacturing a rectangular corrugated cardboard structure plate whose ends are sealed over the entire circumference, a resin tape is fused to each of a pair of opposed ends of the resin corrugated cardboard plate, and thereafter, The resin tape is welded to each of the remaining pair of opposing ends without cutting these resin tapes, and thereafter, these resin tapes are cut at the corners of the corrugated cardboard structure plate, and then To
By welding both resin tapes at the corners of the resin-made corrugated board, the desired corrugated board can be efficiently manufactured.

In the above method, a resin tape is fused to each of a pair of opposing ends of the resin-made corrugated cardboard structure plate, and then the corrugated-cardboard structure plate is rotated by 90 degrees. By welding the resin tape to each of the end portions, a target corrugated board plate can be manufactured more efficiently.

In each of the above methods, while continuously supplying the resin tape, the tape and the resin corrugated board are fed at the same speed, and the welding element is moved in synchronization with the movement. By welding the resin tape to the end of the resin cardboard, the end sealing can be automatically achieved at a certain distance.

Alternatively, in each of the above methods, while continuously feeding the resin tape, the tape and the corrugated board are fed at the same speed. Stopping the feeding and feeding of the tape and the corrugated board, and then welding the tape to the end of the corrugated board by a welding element, thereby automatically sealing the end at a fixed distance. Can be achieved.

Further, prior to the step of welding the resin tape, it is preferable to make a C-cut at the end of the liner of the resin corrugated board. This makes it possible to easily and strongly weld the resin tape to the liner in a short time.

The sealing material can be welded by various methods, for example, hot plate welding, vibration welding, ultrasonic welding, high frequency welding and the like. Among these methods, vibration welding and ultrasonic welding can be cited as a method that can achieve high welding power with little deterioration of the material to be welded. According to these techniques, a portion to be welded can be locally heated to melt the resin in that portion, and welding can be achieved with high precision.

As a specific method of welding the resin tape to the cardboard structure plate, a method of discontinuously welding using a horn having a predetermined length is preferable. Opposite sides of the cardboard structure plate are simultaneously welded. The treatment method is preferable in terms of equipment and efficiency. In this case, the method of cutting the sealing resin tape at the corners of the corrugated board and then welding the adjacent ends of the adjacent resin tapes at the corners is extremely efficient. Cost can be reduced.

In order to increase the welding efficiency, it is preferable to supply a sealing resin tape continuously while unwinding the roll of the tape, and to continuously weld the tape. When welding the resin tape, it is possible to use a member having a horn-shaped groove having a width corresponding to the width of the tape, and to continuously weld the resin tape in a state where the resin tape is fitted in the groove. preferable. Thereby, the positional relationship between the resin tape and the cardboard structure can be fixed, and the resin tape can be reliably welded to a predetermined position at the end of the cardboard structure plate without displacement.

The corrugated board of the present invention can be suitably used as a line pallet, a curing material, a top and bottom curing material, a float, a heat insulating plate, a concrete placing panel, a sheet pile, a shelf board and the like.

[0057]

The present invention will be described in more detail with reference to the following examples, but the present invention is not limited to these examples. (Example 1) Polypropylene (density: 0.9 g / c)
m ³ , MI (melt index: homopolymer of 2.0) was plasticized at 220 ° C. by using a kneading extruder, and then passed through a shaping die to obtain a total thickness of 12 mm and a rib thickness of 1.2 mm. Thus, a resin corrugated board having a basis weight of 4500 g / m ² was obtained. This resin-made corrugated board was cut into a square of 1 m square. On the other hand, a roll of polypropylene tape having a thickness of 1 mm and a width of 11.8 mm was prepared as a resin tape for sealing. While unwinding the roll, the polypropylene tape was supplied to a welding device schematically shown in a partially enlarged view in FIG. 2, and was welded to an end of the resin-made corrugated cardboard structure plate.
The welding conditions were as follows. Welding length per operation: 300 mm Ultrasonic wave transmission time: 0.2 seconds Moving tact time: 5 seconds Under these conditions, four sides of the resin-made corrugated cardboard structure are sealed, and then each corner portion is hand-superposed. Sealing was completed by welding with a sonic welding machine. The end-sealing resin-made corrugated cardboard structure plate thus produced was immersed in water to examine the sealing properties. As a result, no permeation of water into the cardboard structure plate was observed. Further, the corrugated board was supported at its four corners and a load of 100 kg was applied to the center, but no peeling of the welded portion was observed. Next, a load of 50 kg was applied to the center while being supported in the same manner, and 10 cycles of vibration with an amplitude of 10 mm were applied for 24 hours, but no peeling of the welded portion was observed.

[0058]

According to the present invention, the resin-made corrugated cardboard plate having the sealed end portion does not allow water, dust, etc. to enter the inside from the end portion. Therefore, the resin-made corrugated cardboard structure plate of the present invention can be suitably used as a line pallet, a curing material, a top and bottom curing material, a float, a heat insulating plate, a concrete placing panel, a sheet pile, a shelf board, and the like. Further, according to the method of the present invention, the resin-made corrugated cardboard structure plate of the present invention having the above advantages can be efficiently produced.

[Brief description of the drawings]

FIG. 1 is a schematic perspective view of a resin-made corrugated cardboard structure plate of the present invention.

FIG. 2 is a schematic partial enlarged view of a welding apparatus used for manufacturing the resin-made corrugated cardboard structure plate of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Resin cardboard structure board 2 Liner part 3 Rib 4 Resin tape 5 Welding device

Continued on the front page (72) Inventor Takeshi Minaba 2-10-1 Tsukahara, Takatsuki-shi, Osaka F-term in Sumika Plastics Co., Ltd. (Reference) 3E075 BA87 CA01 DD13 DD16 DD44 DE18 GA04 4F100 AK01A AK01B AK01C AK07 BA03 BA06 BA10A BA10C DB15 DB16 DD12 DD18 GB07 4F211 AA11 AD05 AD08 AG06 AG23 AG28 TA01 TC08 TC22 TH02 TH06 TN20 TN22

Claims (19)

[Claims] The present invention comprises two parallel resin liners and a plurality of resin ribs connecting the two liners and having a longitudinal direction parallel to each other, and the ends of the ribs intersecting the longitudinal direction are sealed. A cardboard board made of resin. 2. The resin corrugated board according to claim 1, wherein an end of the rib parallel to the longitudinal direction is sealed. 3. The resin-made corrugated cardboard structure plate according to claim 1, wherein an end portion is sealed with a sealing material. 4. The resin-made corrugated board plate according to claim 3, wherein the sealing material is integrated with the liner, the rib, or the liner and the rib. 5. The resin-made corrugated cardboard plate according to claim 2, wherein the end is sealed with a sealing material over the entire circumference, and the sealing material is continuous. 6. The resin-made corrugated cardboard plate according to claim 1, having a thickness of 6 mm or more and 30 mm or less. 7. The resin-made corrugated board plate according to claim 6, wherein the ratio of the weight of the liner to the weight of the rib is 0.3 or more and 8 or less. 8. The sealing material is a resin tape having a thickness of 0.5 mm or more and 3 mm or less, wherein the resin tape is welded to the liner or the rib, or the liner and the rib. The resin-made corrugated cardboard structure plate according to any one of claims 3 to 5. 9. The ratio T2 / T1 of the width of the resin tape to the distance T1 between the outer surfaces of both liners is 0.9 or more and less than 1.0, and the thickness direction of the corrugated board from the outer surfaces of both liners. The resin-made corrugated cardboard plate according to claim 8, wherein the resin tape does not protrude. 10. An end portion of a resin corrugated cardboard structure plate comprising two parallel resinous liners and a plurality of resinous ribs connecting the two liners and having a longitudinal direction parallel to each other. A method for producing a resin-made corrugated cardboard structure, comprising a step of welding a resin-made tape to seal the end portion. 11. A resin-made corrugated cardboard structure plate comprising two parallel resin-made liners and a plurality of resin-made ribs connecting the two liners and having a longitudinal direction parallel to each other. The method according to claim 10, further comprising a step of welding a resin tape to seal the end. 12. The method according to claim 11, further comprising the step of welding adjacent ends of adjacent resin tapes at corners of the resin-made corrugated board. 13. A resin tape is fused to each of a pair of opposed ends of a resin-made corrugated cardboard structure plate, and thereafter, the remaining pair of opposed ends are cut without cutting these resin tapes. Each of the resin tapes is welded, and thereafter, these resin tapes are cut at the corners of the corrugated cardboard structure plate, and then, both resin tapes are welded at the corners of the resin corrugated cardboard structure plate. 13. The method of claim 12, wherein the method comprises: 14. A resin tape is fused to each of a pair of opposing ends of a resin-made corrugated cardboard structure plate, and then said corrugated-cardboard structure plate is rotated by 90 degrees. 14. The method according to claim 13, wherein the resin tape is welded to each. 15. While continuously supplying the resin tape, the tape and the resin corrugated board are fed at the same speed, and the welding element is moved in synchronism with the movement of the tape. The method according to any one of claims 10 to 14, wherein a tape is welded to an end of the resin cardboard. 16. While continuously supplying the resin tape, the tape and the corrugated board are fed at the same speed,
The feeding of the resin tape and the feeding of the tape and the corrugated board are stopped at a point in time when the tape is fed by a predetermined length, and then the tape is welded to the end of the corrugated board by a welding element. Item 15. The method according to any one of Items 10 to 14. 17. The method according to claim 10, wherein, prior to the step of welding the resin tape, the end of the liner of the resin-made corrugated board is C-cut. 18. The method according to claim 10, wherein the welding of the resin tape is performed by vibration welding or ultrasonic welding.
The method according to any one of the preceding claims. 19. A tape having a horn-shaped groove having a width corresponding to the width of the resin tape, wherein the tape is welded to an end of the corrugated board while positioning the tape in the groove. The method according to any one of claims 10 to 17, wherein the method comprises: