JP2012041061A - Packing body for prepreg roll - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a packing body for a prepreg roll which stops using of a pressing frame material, removes a possibility of generating a problem of a resin film for sealing when the pressing frame material is used, and can attain a desirable packing configuration for storing and transportation even for the prepreg roll of a large weight.SOLUTION: The packing body 1 for the prepreg roll includes: the resin film 5 for sealing which covers the whole prepreg roll 2 winding a prepreg on a winding core; a box body 8 with a rectangular cross-sectional shape for storing inside the prepreg roll sealed with the resin film in an attitude in which the axial direction of the winding core 4 is in the vertical direction; and a holding member 9 arranged so as to extend in the vertical direction between the inner side face of the box body and the outer peripheral side face of the prepreg roll sealed with the resin film, and holds the prepreg roll at the central part in the box body. The packing body of the prepreg roll does not generate pin holes with long diameters of not less than 0.5 mm in the resin film.

Description

  The present invention relates to a packing body for packing a prepreg roll in which a prepreg impregnated with an uncured resin is impregnated in a reinforcing fiber material. Regarding the package.

  When storing and transporting prepregs (so-called B-stage prepregs) impregnated with uncured resin in reinforcing fiber materials in a relatively long state, increase the efficiency of storage and transport, or as needed during use In order to be able to easily supply only a predetermined amount, a prepreg roll in which a prepreg is wound on a winding core for a predetermined length is often employed. And the roll of the prepreg in which the reinforcing fiber material is impregnated with the uncured resin particularly dislikes moisture absorption in order to keep it in a stable state. Therefore, it is usually in a package form sealed with a non-moisture permeable resin film. Packing for storage and transportation is done. In that case, in order to prevent moisture absorption from the core side, the core side may also be shielded by a non-moisture permeable resin film (for example, Patent Document 1).

  Further, as the posture of the prepreg roll at the time of packing for storage or transportation, the prepreg roll may be supported by the core while keeping the core in a horizontal state (for example, Patent Document 2). In order to support at both ends, it is usually necessary to form a protruding portion on the winding core with respect to the winding body of the prepreg. However, if the core has a protruding portion, it is difficult to control the position of the prepreg in the width direction when unwinding the prepreg and using it, especially when laminating prepreg sheets with an automatic laminator (ATL). There is a problem of becoming. In addition, when the prepreg is wound on the core for a long time, the diameter of the prepreg roll becomes large. Therefore, the prepreg roll is positioned in a vertical direction rather than keeping the core in a horizontal state as described above. The orientation of the direction is often easier to stabilize as a packaging form for transportation, etc., but in this orientation, the protruding portion of the core as described above is an obstacle to take the desired posture. Is likely to be. Therefore, in the case of a prepreg roll in which a relatively long prepreg is wound on the core, there is no protruding portion on the core, and as a packing form for transportation or the like, the axial direction of the core is the vertical direction. In many cases, it is preferable to adopt a posture to perform.

  In order to employ such a packing form, a conventional prepreg roll package is configured, for example, as shown in FIG. In FIG. 4, reference numeral 101 denotes the entire package. In this package 101, first, a prepreg roll 103 in which a prepreg of a predetermined length is wound on a core 102 made of a paper tube or the like is a non-moisture permeable resin. Sealed with film 104. The prepreg roll 103 sealed with the resin film 104 is accommodated in the lower box 106 of the box 105, and in this state, a holding frame member 108 having an insertion portion 107 into the core 102 is set, and the state Thus, the upper box 109 of the box 105 is put on the lower box 106, and the box 105 is closed. The prepreg roll 103 is fixed and held at a predetermined position in the box 105 by abutting the outer edge of the presser frame member 108 with the inner surface of the box 105, and the prepreg roll 103 is displaced or vibrated during transportation. It is designed to be suppressed. Although illustration is omitted, padding such as cushioning material may be provided at various locations in the box 105 in order to more reliably prevent the prepreg roll 103 from being displaced or vibrated.

JP 2002-46897 A JP 2001-19073 A

  However, the conventional packaging form as shown in FIG. 4 has the following problems.

  (1) The holding frame member 108 has an insertion portion 107 that bends and extends from the main body, and the resin film 104 is also bent sharply between the bent portion and the bent portion at the leading edge of the core 102. Then, since it is held in the bent state, stress is repeatedly applied to the bent portion of the resin film 104 when vibration is repeatedly received during transportation or the like. When such repeated stress acts, the bent portion of the resin film 104 may be damaged due to fatigue or wear, and in the worst case, a hole may be formed. When such a state is reached, the resin film 104 cannot exhibit the targeted moisture-proof effect. In particular, when stored at a low temperature below normal temperature, preferably below freezing point, more preferably at -10 ° C or lower, even if a desiccant, a dehumidifying agent, or the like is used inside the resin film sealed by heat sealing or the like, In the process of cooling, low-temperature storage, and thawing, the prepreg roll 103 may absorb moisture or come into contact with condensed water droplets, which may cause quality degradation.

  (2) When the amount of prepreg winding is increased and the prepreg roll 103 has a relatively large diameter, the weight (mass) of the prepreg roll 103 becomes considerably large. For example, in the unidirectional prepreg and fabric prepreg used for ATL, the weight may reach 10 to 150 kg. In such a case, in the conventional packing form as shown in FIG. 4, the holding frame material 108 in which the position of the prepreg roll 103 housed in the box body 105 is basically set at the upper end thereof is used as the box body 105. It is difficult to fix the heavy prepreg roll 103 only at the upper end portion with the holding frame material 108, because it is fixed to the lower surface. When acceleration or inertial force due to vibration or the like is generated with respect to the center of gravity of the prepreg roll 103 to be moved, the prepreg roll 103 may repeatedly move in the box 105. A similar presser frame material may be set on the lower end portion of the prepreg roll 103. However, when both presser frame materials are set, it is difficult to store the presser frame material in the box body 105, and both presser frame materials are both just a box body. Since it is difficult to make contact with the inner surface of 105, when only one of the holding frame members is in contact with the inner surface of the box 105, there is still a problem of repeated movement of the prepreg roll 103 in the box 105. It will remain. In particular, since the prepreg roll is made of a reinforcing fiber impregnated with a so-called B-stage resin, it is generally kept at a low temperature during storage and transportation. The flexibility of the resin film 104 at a low temperature, Since flexibility is reduced, there is a risk of promoting fatigue and wear at the bent portion of the resin film 104 described above.

  Therefore, the object of the present invention is to pay attention to the problems in the conventional packaging form as described above, and by stopping the use of the conventional presser frame material, the sealing resin film by the bent insertion portion to the core of the presser frame material Of prepreg rolls that can prevent the movement of prepreg rolls in the box easily and easily even for heavy prepreg rolls, without the need for holding frame materials. To provide a package.

  In order to solve the above problems, a prepreg roll package according to the present invention is a prepreg roll package in which a prepreg obtained by impregnating a reinforcing fiber material with an uncured resin is wound, and at least the entire prepreg roll is A resin film that covers and seals from the outside, and a prepreg roll that is sealed with the resin film is housed inside in a posture in which the axial direction of the roll is the vertical direction, and a box having a rectangular shape that can be opened and closed, A holding member that is interposed between the inner side surface of the box body and the outer peripheral surface side of the prepreg roll sealed with the resin film, and that holds the prepreg roll at a central portion inside the box body. Prepreg roll package, JIS-Z-0232 (2004) (Packaging Cargo-Vibration Test Method) Test Method-7.1.1 (Random Vibration Test) Analogously, in the vibration test measurement conditions below, consisting of those wherein the major axis pin hole of at least 0.5mm is not generated in the resin film.

Representative examples of the reinforcing fiber constituting the reinforcing fiber material include carbon fiber, glass fiber, and the like, and a hybrid configuration of two or more kinds of reinforcing fibers is also possible. In this case, metal fibers may be used. is there. Examples of the use form of these reinforcing fibers include a unidirectional material, a unidirectional fabric material, a bidirectional fabric material, a bias cloth, a nonwoven fabric, and a mat. Examples of the uncured resin include a thermosetting resin such as an epoxy resin, an unsaturated polyester resin, a phenol resin, and a vinyl ester resin. The resin is cured to form FRP (fiber reinforced plastic). In this case, it becomes a matrix resin for FRP. Moreover, the width | variety of the prepreg used when laminating | stacking a prepreg sheet | seat by ATL is 50-700 mm, Preferably it is 75-350 mm. Furthermore, the weight per unit area of the prepreg is generally about 100 to 500 g / m ² , and the mass of the prepreg roll is preferably 10 to 150 kg, more preferably 20 to 100 kg. Such a prepreg roll is usually rolled up with a release paper as a carrier, and a resin film may be provided for protecting the surface of the prepreg. However, a prepreg particularly suitable for ATL may be provided without a protective film. preferable.

  In the prepreg roll packaging body according to the present invention as described above, the prepreg roll sealed with the resin film is in a posture in which the axial direction of the core is in the vertical direction, as in the conventional packaging form shown in FIG. In order to hold the stored prepreg roll in the box, a conventional holding frame material is not used, and the inner surface of the box and the prepreg roll sealed with a resin film are not used. The holding member interposed between the outer peripheral surface and the outer peripheral surface holds the central portion inside the box. Since the conventional presser frame material is not used, the rapid bending of the sealing resin film, which caused a problem between the bent insertion portion of the presser frame material into the core and the bent portion at the leading edge of the core, The problem of fatigue and wear at the bent portion of the resin film and the occurrence of perforation are eliminated together with the cause of the occurrence. Therefore, the desired moisture-proof effect by the sealing resin film is maintained well, and the quality of the prepreg roll is maintained well. Moreover, since the holding member extended in an up-down direction is used between the inner surface of a box, and the outer peripheral surface side of the prepreg roll sealed with the resin film, the resin film is used for holding the prepreg roll in the central portion of the box. The prepreg roll sealed with is supported and fixed to the inner surface of the box over a wide range in the core axis direction of the prepreg roll, preferably over substantially the entire length in the core axis direction. . Accordingly, the prepreg roll can be held at a predetermined position more stably as compared with the case where the prepreg roll is held only by the upper end portion or the lower end portion thereof or only by the both end portions thereof by the conventional pressing frame material. Even in the case of a prepreg roll having a relatively large diameter and a large weight, the prepreg roll can be supported and fixed over a wide range from the side surface, so even if it is subject to vibration during transportation, the prepreg roll box It will be possible to properly prevent unwanted movement in the body. By preventing this movement, the quality of the prepreg roll is more reliably and satisfactorily maintained.

  Furthermore, the prepreg roll package according to the present invention is characterized by having a high packaging strength that does not generate a pinhole having a major axis of 0.5 mm or more in the sealing resin film as a result of a vibration test under the following measurement conditions. More preferably, in the same test, the occurrence of pinholes is not completely observed, and the resin film has a feature of completely preventing whitening due to fatigue or wear of the resin film.

   The measurement conditions of the vibration test described here are described below.

(1) Temperature conditions The package sample loaded on the pallet is stored at −18 ° C. for 2 days, then is transported to the test site (test environment temperature 5 to 35 ° C.), and the test is started within 30 minutes after the transport.

(2) Vibration conditions A vibration test is performed according to JIS-Z-0232 (2004) (Packaging cargo-Vibration test method)-7.1.1 (Random vibration test). As for the test time and the acceleration power spectral density of the shaking table, as shown in Table 1 and FIG. 5, Appendix A (reference) acceleration power spectral density (PSD) of JIS-Z-0232 (2004) is cited.

In the random vibration test, the PSD data shown in FIG. 5 was reproduced as a one-minute random vibration waveform, and this was repeated 30 times to give a total of 30 minutes of vibration. In Appendix A of JIS-Z-0232 (2004) (Packaging Cargo-Vibration Test Method), a test time of at least 30 minutes is recommended for a frequency of 3 to 200 Hz and an acceleration effective value of 5.8 m / s ^2. However, when the test time of 30 minutes is calculated from the calculation described in the MIL-STD810 standard, it is a value assuming 30 minutes × 100 = 3000 minutes, that is, 50 hours of continuous running.

  In the prepreg roll packaging body according to the present invention, the box is composed of a lower box that houses the prepreg roll sealed with the resin film, and an upper box that covers the lower box and closes the lower box it can. The height of the lower box may be lower than the height of the prepreg roll (that is, the width of the prepreg), but the height of the upper box is such that the side wall of the upper box covered by the lower box is substantially the bottom of the lower box. It is preferable that it is set to extend to the position of the wall. With such a configuration, even when additional packaging such as tape winding is performed after the upper box is covered, additional packaging can be appropriately performed while maintaining the strength of the entire box high.

  Moreover, the said holding member can be comprised from the triangular member which is arrange | positioned at the corner | angular part (especially 4 corners) of the said box, and can change the magnitude | size of a cross-sectional direction according to the winding amount of the prepreg in a prepreg roll. With such a configuration, according to the winding amount of the prepreg, in particular, depending on the diameter of the prepreg roll according to the winding amount, between the inner surface of the box body and the prepreg roll sealed with the resin film, and the box body By changing the size of the triangular holding member that extends in the vertical direction at the corners, the gap between the prepreg roll and the holding member can be easily adjusted to the optimum width for holding, thereby making the box The retention of the prepreg roll in the body becomes more appropriate and reliable. At this time, in order to appropriately prevent undesirable movement of the prepreg roll in the box, the clearance between the holding member and the outer surface of the prepreg roll is preferably 0.5 to 30 mm, more preferably 1 to 20 mm.

  The height of the holding member in the box is preferably higher than the height of the prepreg roll housed in the box. In this way, by making the height of the holding member slightly higher than the height of the prepreg roll, it is possible to make the prepreg as a product in the prepreg roll, especially the end face in the width direction, even after transportation is completed and during transportation. , It becomes possible to maintain a state in which no load is applied, which can contribute to product quality maintenance. The triangular holding member is preferably made of a corrugated cardboard material having a corrugated core, and in this case, when the corrugated step extending direction is parallel to the axial direction of the prepreg roll, the vertical direction This is preferable because the holding member can bear this load.

  Also, in the case of a small diameter roll whose prepreg roll diameter is smaller than the specified length product, in order to fill the gap between the roll and the box, when changing the size of the triangular holding member, the size change is not wide and the size change is not efficient Is arranged between the prepreg roll and the triangular holding member and the inner side surface of the box, and by holding the prepreg roll, the gap between the prepreg roll and the triangular holding member is reduced. Can be easily adjusted. If necessary, a plurality of plate members can be used. In this case, the height of the plate-like member is made higher than the height of the prepreg roll housed in the box, and further, it is made of a corrugated cardboard material having a corrugated core, and the core direction of the prepreg roll is parallel to the step. If it arrange | positions so that a plate-shaped member can bear the load of an up-down direction, it is preferable. The height of the plate-like member is preferably the same as the height of the triangular holding member, thereby improving the structural strength. In this case, since the plate-shaped member bears the load in the vertical direction, it is also possible to adopt a configuration in which the extending direction of the corrugated step of the triangular holding member is arranged perpendicular to the axial direction of the prepreg roll. It is more preferable because the member can be appropriately prevented from moving in the box without being crushed by the prepreg roll. Further, when the plate-like member is composed of an L-shaped plate-like member extending along two sides of the rectangular cross section of the box, the arrangement posture of the plate-like member itself is stable, and the lamination of the plate-like members is performed. Since the number of sheets can be changed easily, the prepreg roll can be held more appropriately and reliably. At this time, it is preferable that the length of the L-shaped piece is at least equal to or larger than the radius of the prepreg roll because the prepreg roll can be properly gripped. The plate member is preferably composed of a U-shaped plate member extending along three sides of the rectangular cross section of the box. At this time, in order to appropriately prevent undesirable movement of the prepreg roll in the box, the clearance between the triangular holding member and the outer surface of the prepreg roll is preferably 0.5 to 30 mm, more preferably 1 to 20 mm. .

  Moreover, it is preferable that a gap of 3 to 50 mm is provided between the upper surface of the prepreg roll housed in the box and the ceiling surface of the box. If configured in this manner, as described above, it becomes possible to maintain a state in which no load is applied to the prepreg as a product, and a foam sheet or cardboard as a protective material or cushioning material described later is also interposed during this time. It becomes easy to wear.

  In addition, a bottom plate member that can support the prepreg roll and reinforce the box can be disposed on the bottom surface of the box. In particular, when storing a heavy prepreg roll, such reinforcement of the box itself is effective in ensuring stable handling and transportation. The thickness of the bottom plate member is preferably about 3 to 10 mm so as not to greatly reduce the storage space and to obtain sufficient box reinforcement. Further, the box and the bottom plate member can be made of a corrugated cardboard material having a corrugated core, and in this case, the corrugated core direction of the corrugated cardboard material constituting the bottom wall of the box and It is preferable that the corrugation of the corrugated core of the corrugated board material constituting the bottom plate member is orthogonal to each other. Thus, by making the corrugated step directions of the core perpendicular to each other, the bottom wall of the box and the bottom plate member can form a higher-strength wall, and even in a heavy prepreg roll, Deformation is suppressed and it can be supported well in a stable state.

  In the prepreg roll package according to the present invention, it is also possible to interpose a foam sheet between the inner surface of the box and the prepreg roll sealed with the resin film. Although this foam sheet is lightweight, it can function as a protective material or cushioning material for the prepreg roll, or as a filler that fills excess gaps. It becomes possible to hold it in the box appropriately.

  As the interposition position of the foam sheet, for example, the foam sheet can be interposed at least between the bottom or top surface of the box and the prepreg roll sealed with the resin film. In particular, the foam sheet may be interposed between a bottom plate member disposed on the bottom surface of the box and a prepreg roll sealed with the resin film. Furthermore, a form in which the foam sheet is covered on a prepreg roll or a side surface sealed with the resin film housed in the box body can also be adopted. What is necessary is just to set an intervention position as needed. The thickness of the foam sheet is suitably about 1 to 10 mm. Further, the foam form of the foam sheet is preferably an open-cell form (a form in which internal bubbles due to foaming communicate with each other and the outside). In addition, it becomes possible to cope with the change in the volume of the bubble accompanying the change in temperature without any problem.

  As a sealing form of the prepreg roll by the resin film, for example, a form in which the inside is sealed by heat sealing can be adopted. In this case, the sealing resin film only needs to be a heat-sealable resin film.

  As a resin film for sealing a prepreg roll, metal such as polyethylene film, polypropylene film, polyamide film, polystyrene film, polyester film or aluminum is vapor-deposited from the viewpoint of easy handling and availability, and further considering the heat seal. A polyethylene film is preferred because it is inexpensive and has good workability. The material of the polyethylene film is preferably high-density polyethylene with high rigidity, low-density polyethylene with high puncture strength, linear low-density polyethylene with high cold resistance, a kind of metallocene polyethylene, or a combination thereof. Furthermore, in addition to using the above-mentioned resin film alone, a laminate film in which a low-density polyethylene film is laminated on both sides of a high-density polyethylene film, a laminate film in which a polyethylene film is laminated on both sides of a polyamide film, and a linear low-density film If polyethylene or metallocene polyethylene is used, it becomes more preferable because the film has excellent puncture strength while having rigidity. Also preferred are polyamide films such as polyamide 6, polyamide 6,6, polyamide 12, and modified polyamide. Moreover, it is preferable that the thickness of these resin films is 50-200 micrometers. If it is thicker than 200 μm, the bending fatigue property may be lowered, and if it is thinner than 50 μm, the piercing strength and the sealing property may be lowered.

The glass transition point (Tg) of the resin film is preferably 10 ° C. or lower, more preferably −50 ° C. or lower, under normal moisture absorption conditions, for example, relative humidity 50%. In order to effectively prevent moisture absorption of the prepreg roll, the moisture permeability of the resin film (measured by the moisture permeability test method of moisture-proof packaging material of JIS-Z-208 (1976)) is 8 g · m ² / day. Or less, more preferably 5 g · m ² / day or less. It is preferable to enclose a desiccant in the sealed resin film as necessary. The core is not particularly limited, but it is preferable to use a paper tube from the viewpoint of lightness, strength, price, and the like. In that case, a commercially available paper tube that is easily available can be used.

  In consideration of the efficiency of storage and transportation, the box is preferably configured to be stacked in multiple stages. In this case, in order to ensure the convenience of handling by a forklift or the like, the present invention employs a box having a rectangular cross section (including a square) as described above.

  Furthermore, the prepreg roll in the present invention is a prepreg containing an uncured resin, usually wound on a core together with a separator such as a release paper, in order to prevent moisture absorption and prevent the resin from curing. It is preferable that the prepreg roll stored in the box is stored at a temperature below freezing or can be transported at a temperature below freezing (for example, maintained at -10 ° C. or lower) so that the package is configured. That is, it is preferable that the entire package is made of a material that does not cause a problem even under such a low temperature condition.

  According to the package of the prepreg roll according to the present invention, it is possible to completely eliminate the possibility of malfunction of the resin film for sealing a prepreg roll due to the use of a conventional pressing frame material, and it is simple and heavy without a pressing frame material. It is possible to easily prevent the prepreg roll from moving inside the box and easily maintain the prepreg at a desired quality for storage and transportation.

It is a schematic longitudinal cross-sectional view of the package body of the prepreg roll which concerns on one embodiment of this invention, and is A-A 'sectional drawing of FIG. FIG. 2 is a schematic plan view of the prepreg roll package of FIG. 1 with the upper box removed. FIG. 2 is an enlarged partial cross-sectional view showing an example of the structure of a corrugated cardboard material when the corrugated cardboard material is used in the prepreg roll package of FIG. It is a schematic longitudinal cross-sectional view which shows an example of the package body of the conventional prepreg roll. It is a related figure of the acceleration power spectral density (PSD) and vibration frequency in a vibration test. It is a schematic plan view of the state which remove | excluded the upper box of the package body of the prepreg roll concerning another embodiment of this invention.

  Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

  1 and 2 show a schematic longitudinal section of a prepreg roll packaging body according to an embodiment of the present invention. Reference numeral 1 denotes an entire prepreg roll packaging body. 2 shows a prepreg roll in which a sheet-like prepreg 3 in which a reinforcing fiber material made of carbon fiber or the like is impregnated with a thermosetting resin made of uncured epoxy resin or the like is wound on a core 4 made of a paper tube. Yes. The prepreg roll 2 is sealed by heat-sealing the resin film 5 with a resin film 5 such as a polyethylene film covering the whole from the outside in a state where excess air is deaerated. The prepreg roll 2 sealed with the resin film 5 has a posture in which the axial direction of the core 4 is the vertical direction, and can be opened and closed with a lower box 6 and an upper box 7 covered so as to close the lower box 6 from above. The surface shape is housed inside the rectangular box 8. Between the inner surface of the box 8 (in this embodiment, the inner surface of the lower box 6) and the outer peripheral surface of the prepreg roll 2 sealed with the resin film 5, the holding member 9 extends in the vertical direction. The prepreg roll 2 is held by the holding member 9 at the central portion inside the box body 8. In this embodiment, as shown in FIG. 2, the holding member 9 includes triangular holding members 9 arranged at four corners of a box 8 having a rectangular cross section. The size of the triangular holding member constituting the holding member 9 in the cross-sectional direction is the diameter of the prepreg roll 2 (that is, the winding amount of the prepreg 3), the outer peripheral surface of the prepreg roll 2 sealed with the resin film 5, and the box. What is necessary is just to adjust suitably according to the clearance gap between 8 inner surfaces.

In this embodiment, on the bottom surface of the box 8 (lower box 6), a flat plate with a thickness of 3 to 10 mm that can support the prepreg roll 2 sealed with the resin film 5 and can reinforce the box 8 is provided. The bottom plate member 10 is disposed, and the triangular holding member 9 is disposed thereon. As shown in FIG. 1, the height of the holding member 9 is set higher than the height of the prepreg roll 2 housed in the box 8, and the position in the height direction is regulated by the upper end of the holding member 9. A gap of 3 to 50 mm is provided between the ceiling surface of the upper box 7 (box body 8) and the upper surface of the prepreg roll 2 housed in the box body 8. Therefore, the upper surface of the prepreg roll 2 sealed with the resin film 5 is not directly pressed by the inner surface of the upper box 7. The bottom plate member 10 and the box body 8 are made of a corrugated cardboard material 12 having a corrugated core 11 as shown in FIG. 3, and the inside of the corrugated cardboard material 12 constituting the bottom wall of the lower box 6 of the box body 8. The corrugated extending direction of the core 11 and the corrugated extending direction of the core 11 of the corrugated cardboard material 12 constituting the bottom plate member 10 are set in directions orthogonal to each other.

  Further, in the present embodiment, a foam sheet that can function as a protective material, a buffer material, and a gap filler is interposed between the inner surface of the box 8 and the prepreg roll 2 sealed with the resin film 5. Has been. In particular, in this embodiment, the foam sheet 13 is interposed between the bottom surface of the box 8 (in this embodiment, the upper surface of the bottom plate member 10) and the prepreg roll 2 sealed with the resin film 5. The foam sheet 14 is covered on the prepreg roll 2 sealed with the resin film 5 accommodated in the box 8. The interposition position of the foam sheet can be appropriately set as required in addition to the illustrated example. The thickness of the foam sheets 13 and 14 is suitably about 1 to 10 mm as described above. Moreover, it is preferable that the bubble form of the foam sheets 13 and 14 is an open-cell form in consideration of the bubble volume change accompanying a temperature change.

  In consideration of efficiency in storage and transportation, the box 8 is configured to be stacked in multiple stages. Moreover, the material which comprises the package 1 of the prepreg roll 2 including the box 8 is comprised by the raw material which can be frozen storage and frozen transport, for example, below -10 degreeC, Preferably below -10 degreeC.

  In the prepreg roll package 1 configured as described above, since the use of the conventional press frame material is not required, the resin film 5 for sealing the prepreg roll due to the use of the press frame material is free from fatigue, wear, and further perforation. The occurrence of defects that occur is eliminated. Instead of the holding frame material, the prepreg roll 2 sealed with the resin film 5 can be held from the outer peripheral surface side by the holding member 9 at the central portion in the box 8 and fixed in a state where movement is prevented at an appropriate position. Therefore, it is possible to store and transport in a desired form without causing the above-mentioned problems, and in particular, it is possible to maintain the moisture-proof effect by the targeted sealing with respect to the prepreg roll 2, so that the prepreg 3 has a desired quality. Will be able to keep.

  In addition, a configuration that can arbitrarily set the size change of the cross-sectional shape of the triangular holding member, a configuration that can arbitrarily set the number of stacked plate members, the optimal setting of the holding member height, the arrangement of the bottom plate member, foaming More stable storage and transportation are possible by installing body sheets and optimally setting the corrugation direction of the core when using corrugated cardboard.

  The package according to the present invention exhibits excellent performance during transportation / storage, in particular, transportation / storage under refrigeration. The package of the present invention exhibits excellent characteristics in vibration tests.

  In the vibration test, the specimen A (Nos. 1 to 6) of the prepreg packaging body using the conventional holding frame material and the specimen B of the prepreg packaging body according to the present invention shown in FIGS. No. 1 to 6), prepreg packaging using a stack of 4 packages in total, 4 vertically and horizontally on a pallet (12 in total), and using a conventional presser frame material For the specimen A (No. 7 to 12) of the body and the specimen C (No. 1 to 6) of the prepreg package according to the present invention shown in FIG. Vibration test was performed under the measurement conditions described in the text on 2 pallets (total of 24) in a state where a total of 4 packages were stacked in a three-tier stack (total of 12). The packaging strength of was evaluated. The environmental temperature during the test was 8.6 ° C., and the humidity was 27.0%. Moreover, the summary of the sample A (No. 1-12) as a conventional product, the sample B (No. 1-6) as a product of the present invention, and the sample C (No. 1-6) is shown. 2 (in Table 2, L is the length of the box, W is the width of the box, H is the height of the box, and “mass” is the mass of the entire package including the stored prepreg rolls. A (No. 1 to 3), A (No. 4 to 6), A (No. 7 to 9), A (No. 10 to 12), B (No. 1 to 3) , B (No. 4 to 6), C (No. 1 to 3), and C (No. 4 to 6) are stacked in three stages.) Also, a metallocene polyethylene film is used as the sealing resin film. used.

  Table 3 below shows the main specifications of the used vibration testing machine (electrohydraulic vibration testing machine: manufactured by Kakinomiya Seisakusho Co., Ltd.).

  As a result of visual confirmation after the test, none of the specimens A, B and C were confirmed to be abnormal in appearance, such as breakage, damage or rubbing in the appearance of the box. In addition, the specimens B and C, which are the products of the present invention, showed no signs of rubbing or opening holes in the film bag covering the prepreg. However, in the sample A, which is a conventional product, a pinhole having a major axis of about 0.5 to 2 mm was found in the film bag, particularly at the position of the film bag corresponding to the bent portion of the holding frame material. In addition, deformations due to wrinkles and whitening of the film bags developed by vibrations were observed around the same part, and many plastic deformations of the film bags were confirmed. These did not lead to perforation, but they could be perforated with slight vibration.

  The prepreg roll package according to the present invention is particularly suitable for packaging of prepreg rolls for ATL, which require a prepreg roll having a large diameter and a large weight.

DESCRIPTION OF SYMBOLS 1 Prepreg roll package 2 Prepreg roll 3 Prepreg 4 Core 5 Resin film 6 Lower box 7 Upper box 8 Box 9 Triangular holding member 10 Bottom plate member 11 Corrugated inner core 12 Corrugated cardboard material 13, 14 Foam sheet 15, 15a, 15b Plate-shaped holder

Claims (14)

A prepreg roll package in which a prepreg having a reinforcing fiber material impregnated with an uncured resin is wound, and at least the entire prepreg roll is covered from the outside, and the inside is sealed, and the resin film is sealed A box body having an openable and closable cross-sectional shape that houses the prepreg roll in an orientation in which the roll axial direction is the vertical direction, and an outer periphery of the prepreg roll sealed with the inner surface of the box body and the resin film A prepreg roll package having a holding member which is interposed between the surface side and extends in the vertical direction and holds the prepreg roll at the center of the box body, JIS-Z-0232 (2004) ) (Packaging cargo-Vibration test method) Test method-In accordance with 7.1.1 (Random vibration test), in the vibration test under the measurement conditions described in the specification, the resin Package of the prepreg roll diameter in Irumu characterized in that the pin hole of at least 0.5mm is not generated. 2. The prepreg roll package according to claim 1, wherein the box includes a lower box that houses a prepreg roll sealed with the resin film, and an upper box that covers the lower box and closes the lower box. The package body of the prepreg roll according to claim 1 or 2, wherein the holding member is a triangular holding member disposed at a corner of a rectangular cross section of the box. The package body of the prepreg roll in any one of Claims 1-3 whose height of the said holding member in the said box is higher than the height of the prepreg roll accommodated in this box. The package body of the prepreg roll in any one of Claims 1-4 which has a holding member which consists of a plate-shaped member which can be laminated | stacked according to the winding amount of a prepreg roll on the inner surface of the said box. The prepreg roll package according to claim 5, wherein the plate-like member has an L-shape extending along two sides of the rectangular cross section of the box. The package body of the prepreg roll in any one of Claims 1-6 in which the clearance gap of 3-50 mm is provided between the upper surface of the prepreg roll accommodated in the said box, and the ceiling surface of this box. The package body of the prepreg roll in any one of Claims 1-7 by which the baseplate member which can support the said prepreg roll and can reinforce a box is arrange | positioned on the bottom face of the said box. The packaging body of the prepreg roll of Claim 8 whose thickness of the said baseplate member is 3-10 mm. The box body and the bottom plate member are made of corrugated cardboard material having a corrugated core, and the corrugated extension direction of the core of the cardboard material constituting the bottom wall of the box body and the corrugated cardboard material constituting the bottom plate member The package of prepreg rolls according to claim 8 or 9, wherein the corrugated extending direction of the core is orthogonal to each other. A foam sheet having a thickness of 1 to 10 mm is interposed between any one or more of the bottom, side, top, and bottom plate members of the box and the prepreg roll sealed with the resin film. Item 11. A prepreg roll package according to any one of Items 1 to 10. The package of a prepreg roll according to any one of claims 1 to 11, wherein the resin film is sealed inside by heat sealing, and a desiccant is enclosed in the sealed inside. The package of a prepreg roll according to any one of claims 1 to 12, wherein the resin film is made of a polyethylene film, a polypropylene film, a polyamide film, or a laminate film bonded in combination of two or more thereof. The prepreg roll package according to claim 13, wherein the polyethylene is one or a combination of low-density polyethylene, high-density polyethylene, linear low-density polyethylene, and metallocene polyethylene.

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