JP4862975B2 - Honeycomb structure, honeycomb cell and method for manufacturing honeycomb structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a honeycomb cell structure material, a honeycomb cell, and a method for manufacturing the honeycomb structure material, and particularly relates to a honeycomb cell provided with a support for the honeycomb cell and a cell wall material using a prepreg.
[0002]
[Prior art]
Conventionally, structural materials composed of honeycomb cells have been widely used in the construction field, aircraft field, and the like as lightweight and highly rigid structural materials. Further, a specific form of utilization is generally a so-called sandwich structure in which a plate-shaped honeycomb cell structure material is sandwiched between plate materials or the like.
[0003]
[Problems to be solved by the invention]
By the way, the honeycomb cell structure material is manufactured by a method as described below. FIG. 8 is an explanatory diagram showing an outline of a method for manufacturing a honeycomb structure according to the conventional technique. That is, as shown in FIG. 11A, first, thin plate-like wall members 12 bent at a constant interval are stacked and bonded to each other so as to project in a zigzag manner. At this time, an adhesive 14 is provided in advance in a portion in contact with the adjacent wall material 12. The adhesive application width 92 is set to be substantially the same as the zigzag top width 90.
[0004]
When the adhesive 14 is sufficiently cured and the bonding process is completed, the uppermost wall member 12 and the lowermost wall member 12 are mechanically pulled in the directions of arrows A and B, respectively. Then, as shown in FIGS. 11B and 11C, the wall material 12 laminated and integrated is deformed, and the honeycomb cell 16 is shaped. The honeycomb cell structure material 50 is completed through the above steps. FIG. 11C is a plan view of the honeycomb cell structural material shown in FIG.
[0005]
Further, when the honeycomb cell structure material having an arbitrary shape is formed, the honeycomb cell structure material 51 having a predetermined shape is obtained by cutting the flat honeycomb cell structure material 50 shown in FIG.
[0006]
However, as described above, in the method of mechanically pulling and deforming the wall material 12, the length 94 of the honeycomb structure shown in FIG. 11 (C) is long, for example, several meters. It can be said that it is difficult from a physical point of view. This is because a considerable traction force is required to form such a long honeycomb structure, and the length of the wall material itself is several meters, which makes the traction machine much larger than the conventional one. There is a need. Even if the above traction machine is used, the end of the honeycomb cell is destroyed and the honeycomb cell cannot be manufactured. In addition, when a honeycomb structure having an arbitrary shape is formed by cutting, a large cost is required.
[0007]
Therefore, in order to eliminate the above-mentioned drawbacks of the prior art, the present invention provides a honeycomb structure material, a honeycomb cell, and a honeycomb structure material that can be formed at a considerably lower cost than a conventional honeycomb structure material. The object is to provide a manufacturing method. It is another object of the present invention to provide a method for manufacturing a honeycomb structure capable of forming a honeycomb structure having an arbitrary shape at low cost.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, the present invention has a configuration in which a honeycomb structure includes a holding member that is provided inside the honeycomb cell and holds the shape of the honeycomb cell.
In addition, it is preferable that the holding | maintenance thing is a structure which has a hollow part from a viewpoint of reducing a honeycomb structure weight.
[0009]
Further, in the above honeycomb structure, the holding material is configured such that a gas is filled and sealed in a cylindrical body formed so that the end portion can be sealed.
In the above honeycomb structure, the holding material is hermetically sealed in a state in which a hard foam material is filled in a cylindrical body.
In the above honeycomb structure, the holding material is made of a hard foam material.
[0010]
In the above honeycomb structure, the cell wall of the honeycomb cell includes at least a paper material or a fiber material.
In the honeycomb structure, the paper material or the fiber material is impregnated and cured with a thermosetting resin.
In addition, the cell wall of the honeycomb cell is configured by impregnating and curing a thermosetting resin to a fiber material.
[0011]
On the other hand, in the honeycomb cell, the cell wall material of the honeycomb cell is laminated, and a bonding portion is provided in parallel with a certain interval between the adjacent cell wall materials, and formed by the adjacent cell wall material and the bonding portion. In this configuration, a cylindrical body capable of enclosing a fluid is disposed in the space.
[0012]
Further, the cell wall material has a structure in which a fiber material is impregnated with a thermosetting resin.
In addition, an intermediate member is installed between the adjacent cell wall members in the bonding portion, and a fixture for fixing the adjacent cell wall member to the intermediate member is installed.
Moreover, the said cylindrical body was set as the structure formed by folding a side edge part inside.
[0013]
And, in the method for manufacturing a honeycomb structure, a first step of forming a cylindrical body inside the honeycomb cell while forming the honeycomb cell, and press-fitting a gas heated to a predetermined temperature inside the cylindrical body, A state in which the tubular body is expanded to shape the honeycomb cells, and the thermosetting resin impregnated with the honeycomb cells is cured, and the end portion of the tubular body is pressed into the gas. And a third step of sealing at least.
[0014]
Further, in the method for manufacturing a honeycomb structured body, a first step of forming a tubular body inside the honeycomb cell while forming the honeycomb cell, and press-fitting a gas into the tubular body, It has a configuration including at least a second step of expanding and shaping the honeycomb cell, and a third step of heating the honeycomb cell and curing the thermosetting resin impregnated in the honeycomb cell.
[0015]
Further, in the method for manufacturing a honeycomb structure, a first step of forming a tubular body inside the honeycomb cell while forming the honeycomb cell, and disposing the honeycomb cell provided with the tubular body in a mold A second step, a third step of injecting gas into the tubular body, expanding the tubular body to shape the honeycomb cells along the mold, and heating the honeycomb cells. And a fourth step of curing the thermosetting resin impregnated in the honeycomb cell.
[0016]
In the method for manufacturing the honeycomb structure, when the honeycomb cell is heated to cure the thermosetting resin impregnated in the honeycomb cell, the reinforcing means disposed outside the honeycomb cell is simultaneously heated. Thus, the thermosetting resin impregnated in the reinforcing means is cured.
[0017]
Further, in the above honeycomb structure manufacturing method, in the first step, the cell walls of the honeycomb cells and the cylindrical bodies arranged in parallel at a predetermined interval are alternately stacked, and the Adjacent cell wall materials were adhered to each other in parallel with the cylindrical body at a predetermined interval to form a honeycomb cell.
[0018]
  Moreover, the manufacturing method of the honeycomb structure of the present invention includes a first step of alternately laminating a cell wall material in which a thermosetting resin is immersed in a fiber material and a cylindrical body arranged in parallel at a predetermined interval; A second step of forming a hexagonal honeycomb cell by adhering the cell wall materials adjacent to each other through the cylindrical body in parallel to the cylindrical body at a predetermined interval; and A third step of disposing the provided honeycomb cells in a mold, and injecting a gas into the cylindrical body to expand the cylindrical body, thereby shaping the honeycomb cells along the mold A fourth step and a fifth step of curing the thermosetting resin impregnated in the cell wall material while maintaining the internal pressure of the cylindrical body.
  In the fourth step, the cylindrical body is expanded by press-fitting gas from an air inlet provided at one end of the cylindrical body.
  In the second step, the cell wall members are mechanically bonded to each other using a U-shaped fixture.
  Further, in the previous step of the third step, reinforcing means impregnated with a thermosetting resin is attached to the inner surface of the mold, and in the fifth step, the honeycomb cell and the reinforcing means are heated simultaneously. It was set as the structure to do.
  In addition, the honeycomb structure of the present invention has a configuration including a plurality of honeycomb cells made of hexagonal columnar fiber material manufactured by the above manufacturing method.
[Action]
  As described above, the present invention has a holding structure that is provided inside the honeycomb cell as the honeycomb structure and holds the shape of the honeycomb cell. Prevent cell deformation. Therefore, it is possible to easily form a considerably long honeycomb structure.
[0019]
In addition, since the holding material is formed by filling and sealing a gas inside the cylindrical body formed so that the end portion can be sealed, the weight of the holding material can be reduced, and the inside of the honeycomb cell can be reduced. Even if the support is provided, the total weight of the honeycomb structure is not increased so much. Further, if the honeycomb cells are shaped when filling the inside of the cylindrical body with a gas, a traction machine becomes unnecessary.
[0020]
In addition, since the holding object is hermetically sealed in a state where the inside of the cylindrical body is filled with a hard foam material, the holding object is not required to be strictly sealed, and the cost of the holding object is reduced. Can be easily achieved.
In addition, since the holding material is made of a hard foam material, when the strength is not supplied to the honeycomb structure, it is easy to reduce the cost of the honeycomb structure by adopting this configuration.
[0021]
Further, since the cell wall of the honeycomb cell includes at least a paper material or a fiber material, the honeycomb structure can be easily reduced in weight and cost.
In addition, since the paper material or the fiber material is impregnated and cured with a thermosetting resin, the cell wall material impregnated with the thermosetting resin is deformed into a predetermined shape, and then the thermosetting resin is cured. Then, the honeycomb structure can be easily formed. Moreover, the strength of the cell wall material can be dramatically increased by impregnating and hardening the thermosetting resin to the cell wall material.
[0022]
On the other hand, in a honeycomb cell, a cell wall material is laminated, a bonding portion is provided in parallel between the adjacent cell wall materials at a predetermined interval, and a space formed by the adjacent cell wall material and the bonding portion. Since a cylindrical body capable of enclosing a fluid is disposed in the honeycomb body, a considerably long honeycomb cell can be shaped at low cost by enclosing the fluid in the cylindrical body.
[0023]
In addition, since the cell wall material has a structure in which a carbon fiber material is impregnated with a thermosetting resin, a high-strength honeycomb can be obtained by heating the shaped honeycomb cell to cure the thermosetting resin. Cells can be shaped.
Moreover, since an intermediate material is installed in the bonding portion and a fixture for fixing the cell wall material to the intermediate material is installed, the bonding portion does not peel even if a fluid is sealed in the cylindrical body. The honeycomb cell can be shaped.
Further, since the tubular body is formed by folding the side edge portion inward, the central portion of the tubular body is greatly expanded when the fluid is sealed, and the honeycomb cell can be easily shaped.
[0024]
Furthermore, in the method for manufacturing a honeycomb structure, a first step of providing a tubular body inside the honeycomb cell while forming the honeycomb cell, and press-fitting a gas heated to a predetermined temperature inside the tubular body, A state in which the tubular body is expanded to shape the honeycomb cells, and the thermosetting resin impregnated with the honeycomb cells is cured, and the end portion of the tubular body is pressed into the gas. At least the third step of sealing with, so that the honeycomb cell can be very easily shaped into a predetermined shape.
[0025]
Further, in the method for manufacturing a honeycomb structured body, a first step of forming a tubular body inside the honeycomb cell while forming the honeycomb cell, and press-fitting a gas into the tubular body, The cylinder includes at least a second step of expanding and shaping the honeycomb cell, and a third step of heating the honeycomb cell and curing the thermosetting resin impregnated in the honeycomb cell. The honeycomb cell can be easily shaped by expanding the shaped body, and a high-strength honeycomb structure can be formed by curing the thermosetting resin.
[0026]
Further, in the method for manufacturing a honeycomb structure, a first step of forming a tubular body inside the honeycomb cell while forming the honeycomb cell, and disposing the honeycomb cell provided with the tubular body in a mold A second step, a third step of injecting gas into the tubular body, expanding the tubular body to shape the honeycomb cells along the mold, and heating the honeycomb cells. And at least a fourth step of curing the thermosetting resin impregnated in the honeycomb cell. By expanding the tubular body in the mold, a honeycomb structure having an arbitrary shape can be obtained at low cost. Can be formed.
[0027]
In the method for manufacturing the honeycomb structure, when the honeycomb cell is heated to cure the thermosetting resin impregnated in the honeycomb cell, the reinforcing means disposed outside the honeycomb cell is simultaneously heated. In addition, since the thermosetting resin impregnated in the reinforcing means is cured, there is no need to add a separate heat treatment process, and a separate adhesive is applied for the thermosetting resin to bond the honeycomb cell and the reinforcing means. Therefore, a high-strength honeycomb structure can be formed at low cost.
[0028]
Further, in the first step, the cell wall material of the honeycomb cell and the cylindrical body arranged in parallel at a predetermined interval are alternately laminated, and the cell wall members adjacent to each other through the cylindrical body are spaced at a predetermined interval. Since the honeycomb cells are formed by bonding in parallel with the cylindrical body, it is very easy to provide the cylindrical body inside the honeycomb cells.
[0029]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, specific embodiments of a honeycomb cell structural material and a manufacturing method thereof according to the present invention will be described in detail with reference to the drawings. In addition, the description is simplified about the part which becomes the same structure as the above-mentioned prior art.
[0030]
FIG. 1 is an explanatory diagram showing an outline of a method for manufacturing a honeycomb structured body according to the first embodiment of the present invention. FIG. 2 is a cross-sectional view showing a column structure using the honeycomb structure according to the first embodiment of the present invention. FIG. 3 is a cross-sectional view taken along the line CC of FIG. 1 of the honeycomb structure according to the first embodiment of the present invention. FIG. 4 is an explanatory view showing a method for shaping a honeycomb cell and a method for curing a thermosetting resin impregnated in the wall material of the honeycomb cell. FIG. 5 is a cross-sectional view showing a modification of the column structure using the honeycomb structure according to the first embodiment of the present invention. Moreover, FIG. 6 is sectional drawing which shows the sealing structure of an air bag. Furthermore, FIG. 7 is a cross-sectional view showing a state in which a joint material is connected to the end of the honeycomb cell.
[0031]
The honeycomb structure according to the first embodiment of the present invention uses a traction machine by providing each honeycomb cell with a holding material that prevents deformation of the honeycomb cell and expanding and deforming the holding material. It is possible to shape the honeycomb cell without any problems.
[0032]
Below, the manufacturing method of the honeycomb structure which concerns on embodiment of this invention is demonstrated. As shown in FIG. 1A, in the honeycomb structure 50 according to the embodiment of the present invention, a cylindrical air bag 20 is first provided in each honeycomb cell internal space 10 in advance. Note that, as shown in FIG. 3, the air bag 20 is slightly longer than the wall material 12 so that air can be easily injected into the inside thereof, and both end portions thereof are in a state of exiting from the honeycomb cell internal space. . The wall material 12 is made of paper such as cardboard when the honeycomb structure 50 is low-cost, and carbon fiber material or glass fiber material is used when strength against stress is required. A so-called prepreg obtained by impregnating a thermosetting resin into a mainly composed fiber material is used. Furthermore, the air bag 20 is assumed to have the same or slightly smaller volume as the honeycomb cell internal space 10 in a state where the air bag 20 is expanded to the maximum. Furthermore, when the air bag 20 is inflated in the honeycomb cell internal space 10, the size of the wall material 12 provided with the adhesive 14 is set so as not to be damaged. In addition, the air bag 20 is formed from a synthetic fiber material impregnated and cured with a resin so as to have a sealing property.
[0033]
The air bag 20 may be alternately laminated with the wall material 12 in the process of sequentially laminating the wall material 12 and bonding them together, or the wall material 12 is assembled in the state shown in FIG. Then, it may be provided by being inserted through the honeycomb cell internal space 10 with a rod or the like. Further, in the state shown in FIG. 1A, the air bag 20 is kept in a deflated state. Furthermore, the shape of the wall material 12 and the bonding between the wall materials 12 are the same as in the case of the prior art. Further, as will be described later, when the foamed urethane is provided directly in the honeycomb cell internal space 10, the wall material 12 is preferably formed of aluminum (Al) in order to improve the airtightness to the external space. In addition, even when a fiber material is impregnated with a thermosetting resin, if the strength is insufficient, a steel plate or the like having higher strength may be used.
[0034]
Next, air is press-fitted into the air bag 20 to inflate the air bag 20 as indicated by an arrow 20. A method for press-fitting air into the air bag 20 and a method for sealing the end of the air bag 20 will be described later. When the air bag 20 expands, the wall material 12 is pushed and deformed by the air bag 20, and the honeycomb cells 16 are shaped as shown in FIGS. 1 (B) and 1 (C). When the shaping of the honeycomb cell 16 is completed, the end portion of the air bag 20 is sealed so that the inside is filled with air. When a so-called prepreg in which a fiber material is impregnated with a thermosetting resin is used as the wall member 12, air having a temperature at which the impregnated thermosetting resin is cured is injected. The internal pressure of the sealed air bag 20 is preferably about 50 to 100 MPa. Moreover, after press-fitting normal-temperature air, the thermosetting resin may be cured by heating in a heating furnace or the like to shape the honeycomb cell.
[0035]
In order to increase the strength of the wall member 12, reinforcing means such as affixing a reinforcing fiber material such as carbon fiber or spraying a glass fiber material may be provided in advance. Further, the reinforcing means may be provided only on the outer peripheral surface of the honeycomb structure 50 after the honeycomb structure 50 is molded. Further, when the honeycomb structure 50 is not required to have a high strength, the wall material 12 is made of paper, and a hard foam material such as urethane foam is directly used without providing the air bag 20 in the honeycomb cell internal space 10. It may be blown and solidified in the honeycomb cell internal space 10. In this way, it is possible to provide a very inexpensive honeycomb structure 50.
[0036]
According to the above configuration, since the honeycomb cell 16 can be shaped simply by press-fitting air into the air bag 20, a machine for pulling the wall material 12 is unnecessary. Further, the length 94 of the honeycomb structure shown in FIG. 1 (C) is not limited as long as the air bag 20 corresponding to this length can be formed. It becomes possible to manufacture a long honeycomb structure 50. In addition, since the air bag 20 filled with air in a compressed state is provided in the honeycomb cell internal space 10, the honeycomb cell 16 is prevented from being deformed by external stress. As a result, the rigidity of the whole honeycomb structure 50 is increased, and the reliability as a structural material is increased.
[0037]
Further, a method for press-fitting air into the air bag 20 will be described. As shown in FIG. 4, air circulation paths 40 a and 40 b are connected to both ends of the air bag 20. An air heating / circulation device 42 is provided between the air circulation paths 40a and 40b. The air heating / circulation device 42 circulates the air in the air circulation path 40a to the air circulation path 40b. Further, the internal pressures of the air circulation paths 40a and 40b and the air bag 20 can be set in a range of about 50 to 100 MPa. Furthermore, it is possible to cure the thermosetting resin (not shown) impregnated in the wall material 12 by heating the circulating air. In the above configuration, when the air heating / circulation device 42 is operated, the air circulation paths 40a and 40b and the inside of the air bag 20 can be circulated as shown by arrows D, E, F, and G. Moreover, the circulating air can be heated as needed.
It is not always necessary to circulate air as described above, and a sealing plug may be provided at one end of the air bag 20 and air may be press-fitted from the other end.
[0038]
In addition, as described above, when air is pressed into the air bag 20, both ends of the air bag 20 are sealed. First, the sealing structure of the air bag 20 will be described. As shown in FIG. 6, a sealing plug 24 having a through hole in the center is inserted into both ends of the air bag 20 from the end of the air bag 20 to the back of about 20 mm. 24 is fixed with an adhesive 38. Further, a check valve 28 provided with an air inlet 26 is fitted in the through hole of the sealing plug 24. The check valve 28 circulates air only in the directions indicated by arrows E and F in FIG. The material of the air inlet 26 is a resin such as polyethylene.
[0039]
Next, a method for sealing the air bag 20 will be described. When the internal pressure of the air bag 20 reaches a predetermined pressure, the air inlet 26 is sandwiched between heating elements, and the air inlet 26 is crushed. Further, following the sealing of the air bag 20, as shown in FIG. 7, an insertion portion 36 arranged in a joint material 34 for allowing the honeycomb structure 50 to be incorporated in and attached to another structural material. Push into each honeycomb cell. At this time, the inside of the end of the air inlet 26 is pushed in. Further, since the adhesive is applied to the fitting portion 36, the fitting portion 36 is bonded to the sealing plug 24 and the wall material 12.
The air bag 20 can be sealed by the above steps. Further, since the fitting portions 36 of the joint material 34 are fitted at both ends of the honeycomb cell and double-sealed, even if the air bag 20 or the check valve 28 is damaged, air leaks to the outside. I do not put out.
[0040]
In addition, as a material of the joint material 34, iron or aluminum can be preferably used, and when the strength is not so required, an organic material such as engineering plastic can also be preferably used. Moreover, the material of the insertion part 36 may be the same material as the joint material 34, and may differ. For example, the fitting portion 36 may be attached to the iron joint material 34 as an aluminum casting. Further, in order to facilitate attachment to another structural material, a bolt hole or the like may be provided in the joint material 34.
[0041]
Further, FIG. 2 shows an example in which the honeycomb structure 50 shown in FIG. 1 is applied to a building pillar. The building pillar 100 is provided with an exterior material 30 around the honeycomb structure 50. Moreover, in order to raise the intensity | strength of the pillar 100 for construction, the cell which does not provide the air bag 20 is filled with the mortar 32. FIG. Although not shown in FIG. 2, the joint material described above is provided at both ends of the building pillar 100 to enable incorporation and attachment to other structural materials.
[0042]
According to the above configuration, unlike the honeycomb structure according to the prior art, since the long honeycomb structure 50 extending over several mails is used, it can be used for an architectural pillar that has not been conventionally used. Furthermore, it is possible to provide a very lightweight building pillar while having the same strength as a conventional reinforced concrete pillar.
[0043]
In addition, you may utilize the thing of the structure shown in FIG. 2 as structural materials, such as a beam and a girder, an outer wall material, etc. other than a building pillar. Furthermore, it may be used for large structures such as bridges and tunnel segments, and offshore structures such as mega floats. In particular, in the offshore structure, it is necessary to provide a structure that gives buoyancy to the structure, and the honeycomb structure 50 filled with air in the air bag 20 can be used very preferably. Furthermore, the present invention may be used for machinery such as large machine tools, transportation devices such as ships and airplanes.
[0044]
As shown in FIG. 5, the honeycomb cells 54 in the peripheral part of the building pillar 100 are pressed against the exterior material 30 and deformed by being pressed by the expansion force of the air bag of the honeycomb cell 52 near the center. In order to prevent this, the urethane foam 22 may be filled in the air bag 20 of the peripheral honeycomb cell 54. By filling the urethane foam 22, the strength of the peripheral honeycomb cells 54 can be increased. The air bag 20 of the peripheral honeycomb cell 54 may be filled with a hard foam material other than foamed urethane.
[0045]
A honeycomb structure according to a second embodiment of the present invention is a honeycomb structure in which a honeycomb cell base material is formed by using a so-called prepreg in which a fiber material is impregnated with a thermosetting resin as a cell wall material, and the tubular body disposed therein The honeycomb cell is shaped by expanding and deforming, and the thermosetting resin is cured by heating the honeycomb cell to form a honeycomb structure. FIG. 8 is an explanatory view of an adhesion portion in a laminated body of cell wall materials, and FIG. FIG. 10 is an explanatory view of a method for shaping the honeycomb cells in the mold. In addition, the description is abbreviate | omitted about the part which becomes the same structure as above-mentioned prior art or 1st Embodiment.
[0046]
First, the configuration of the honeycomb cell base material will be described. The honeycomb cell base material of the second embodiment is formed by stacking cell wall materials 12, providing adhesive portions 13 with a certain interval between adjacent cell wall materials 12, and forming the adjacent cell wall materials and adhesive portions. The air bag 20b as a cylindrical body is disposed in the space to be formed.
[0047]
For the wall material 12 of the honeycomb cell, a so-called prepreg in which a fiber material is impregnated with a thermosetting resin is used. A carbon fiber material or a glass fiber material is used as the fiber material, and a woven fabric knitted in an orthogonal direction is formed. By forming a honeycomb structure using such a woven fabric, it is possible to ensure tensile strength and bending rigidity in each direction of the honeycomb structure. Further, unsaturated polyester or epoxy is used as the thermosetting resin, and the woven fabric of the fiber material is impregnated.
[0048]
When the above cell wall materials are stacked, an adhering portion that is parallel to each other is provided between adjacent cell wall materials. FIG. 8 is an explanatory view of the bonding portion in the cell wall laminate. The figure (1) is a component drawing, and the figure (2) is an assembly drawing. When the cell wall materials are bonded to each other, an intermediate material (filler) 17 formed of a material such as vinyl chloride is sandwiched between the adjacent cell wall materials 12a and 12b, and the cell wall material is interposed between the cell wall materials and the intermediate material. Apply adhesive and bond. However, since the thermosetting resin before curing exists on the surface of the prepreg, when the air bag is inflated as described later, there is a possibility that peeling occurs in the bonding portion 13. Therefore, in order to fix the cell wall members 12a and 12b to the intermediate member 17, a plurality of U-shaped needles 18 are inserted into the end portions of the adhesive portion 13 as fixtures, and the end portions of the needles are bent and bonded on the opposite side. Reinforce the part. Thereby, in addition to chemical adhesion by an adhesive, mechanical adhesion by the U-shaped needle 18 is performed, and peeling at the adhesion portion 13 can be prevented.
[0049]
An air bag as a cylindrical body is disposed in a space formed by the adjacent cell wall material and the bonding portion. FIG. 9 shows an explanatory diagram of the air bag. FIG. 1 (1) is a perspective view, FIG. 2 (2) is a cross-sectional view taken along the line DD, and FIG. 3 (3) is a cross-sectional view showing a state in which air bags are arranged in a honeycomb cell. As shown in FIGS. 9 (1) and (2), the air bag 20b is formed with the side edge portion 21 folded inward over the entire length. Thereby, when air is press-fitted, the central portion of the air bag is greatly expanded, and the honeycomb cell can be easily shaped. On the other hand, the lateral width of the air bag 20b before air filling becomes narrow. Therefore, when the cell wall material 12 and the air bag 20b are sequentially laminated, the air bag is not accidentally sandwiched between the adhesive portions 13, and the adhesive portion is not peeled when the air bag is inflated. Further, even when the bonding portion 13 is reinforced with the U-shaped needle 18 described above, the air bag 20b is not damaged by the U-shaped needle 18 and air leakage does not occur. After the formation as shown in FIG. 9 (2), the opening ends on both sides are sealed, and the air inlet 26b is installed on one of them. Then, as shown in FIG. 9 (3), the air bag 20b is disposed inside the honeycomb cell. In order to prevent the cell wall material 12 and the air bag 20b from being bonded by heating, it is preferable to dispose the air bag in the honeycomb cell with a release agent interposed.
[0050]
A honeycomb structure is formed from the honeycomb cell configured as described above as follows. First, air is press-fitted into each air bag, and each air bag is inflated to shape a honeycomb cell. In addition, although hot air may be press-fitted similarly to 1st Embodiment, in 2nd Embodiment, since the heating process is provided separately, it is sufficient to press-fit normal temperature air. Next, the air pressure in the air bag 20b is maintained in a heating furnace or the like, and the honeycomb cell is heated to cure the thermosetting resin impregnated in the honeycomb cell. Furthermore, if the cured honeycomb cell base material is taken out from the mold 60, the air in each air bag 20b is taken out and taken out from each honeycomb cell, a honeycomb structure using the prepreg as the cell wall material can be formed.
[0051]
A honeycomb structure having an arbitrary shape can be formed by shaping the honeycomb cell configured as described above in a mold. FIG. 10 shows an explanatory diagram of a method for shaping the honeycomb cells in the mold. First, the mold 60 corresponding to the product shape to be formed with the honeycomb structure is created. Next, as shown in FIG. 10 (1), the honeycomb cell base material 15 in which air bags are arranged inside each honeycomb cell is arranged in the mold 60. In addition, it arrange | positions in a formwork in the state which stuck the film on the outer surface of the honeycomb cell base material so that a prepreg and the formwork 60 may not be adhere | attached with a thermosetting resin. Next, as shown in FIG. 10 (2), air is press-fitted into each air bag 20 b, each air bag is expanded, and the honeycomb cells are shaped along the mold 60. Next, in a state where the air pressure in the air bag 20b is maintained, the mold 60 is placed in a heating furnace (not shown) or the like, the honeycomb cell is heated, and the thermosetting resin impregnated in the honeycomb cell is cured. Further, as shown in FIG. 10 (3), if the cured honeycomb cell base material is taken out from the mold 60, the air in each air bag 20b is extracted and taken out from each honeycomb cell, a honeycomb structure having an arbitrary shape can be formed. it can.
[0052]
Further, when a reinforcing means using a prepreg is disposed outside to form a high-strength honeycomb structure, the following procedure is performed. First, as shown in FIG. 10A, the reinforcing means 62 is attached to the inner surface of the mold. In addition, it affixes on the inner surface of a formwork in the state which stuck the film on the mold side surface of the reinforcement means so that the reinforcement means 62 and the formwork 60 may not be adhere | attached with a thermosetting resin. Next, the honeycomb cell base material 15 is placed in the mold 60. The film on the outer surface of the honeycomb cell base material 15 is placed in the mold 60 in a removed state. Next, as shown in FIG. 10 (2), the air bag is expanded to shape the honeycomb cells along the mold 60. Next, the mold 60 is put in a heating furnace (not shown), and the honeycomb cells and the reinforcing means 62 are simultaneously heated to cure the impregnated thermosetting resin. Furthermore, if it is taken out from the mold 60 as shown in FIG. 10 (3), the high-strength honeycomb structure 64 with the reinforcing means 62 can be formed.
[0053]
Note that the reinforcing means 62 may be placed on the outer surface of the honeycomb cell base material 15 and placed in the formwork simultaneously with the honeycomb cell base material, without being affixed to the inner peripheral surface of the formwork 60 in advance. Even without shaping in the mold, the reinforcing means is placed on the outer surface of the honeycomb cell base material to expand the air bag, and the honeycomb cell and the reinforcing means are heated at the same time to cure the thermosetting resin. May be. Thereby, a high intensity | strength honeycomb flat plate and a honeycomb pillar can be formed.
[0054]
In addition, you may fill with hard foam material in each honeycomb cell internal space after taking out each air bag. In that case, after forming the honeycomb structure as described above, both ends of each honeycomb cell are sealed. Unlike the case of sealing high-pressure air, the rigid foam material does not require strict sealing, so that the sealing can be performed using only the joint material 34 in the first embodiment. The joint material 34 is previously formed with a filling hole and an air vent hole for the hard foam material. Next, a hard foam material such as polystyrene foam is filled from the filling hole. The hard foam material foams in the honeycomb cell internal space, and overflows from the air vent hole when foamed more than necessary. Thereby, it can be made to foam by a uniform pressure in each honeycomb cell. By filling the honeycomb cell interior space with the hard foam material as described above, a honeycomb structure material that is strong against concentrated load and has high buckling strength can be obtained.
[0055]
As described above, in the second embodiment, since the prepreg is used for the cell wall material 12, the honeycomb cell can be easily shaped by its flexibility before the thermosetting resin is cured, and after the curing, A honeycomb structure having high strength can be provided. Conventionally, since the honeycomb structure is made of an aluminum foil material or the like, even if the honeycomb cell can be easily shaped, the formed honeycomb structure alone has low strength. Therefore, it is necessary to provide reinforcing means using prepreg or the like outside the honeycomb structure, and a heat treatment step for curing the thermosetting resin is necessary. Therefore, there is a problem that the cost is high and the system can be used only for high-functional materials such as aircraft parts.
[0056]
However, since the prepreg is used for the cell wall material 12 in the second embodiment, the honeycomb cell can be easily shaped by its flexibility, like the aluminum foil material, before the thermosetting resin is cured. In particular, if the air bag disposed in the honeycomb cell is inflated and deformed, even a honeycomb cell having a long length can be uniformly shaped without requiring a traction machine as in the prior art. On the other hand, if the shaped honeycomb cell is heat-treated to cure the thermosetting resin, the cured resin and the fiber material can be combined to significantly increase the strength as compared with the prior art. Therefore, it can be used alone without adding reinforcing means as in the prior art, and the cost can be reduced. Further, unlike the first embodiment, it is not necessary to ensure the strength of the honeycomb structure by filling the air bag with compressed air, so it is not necessary to ensure the strength of the air bag itself, and the cost of the air bag is reduced. be able to. In addition, by using a prepreg for the cell wall member 12, a honeycomb structure that is light in weight and does not corrode can be provided.
[0057]
Thus, the honeycomb structure of the second embodiment can be used for a marine structure such as a mega float that has been floating on the sea for a long period of time because of its high strength, light weight, and corrosion resistance. . In addition, the honeycomb structure of the second embodiment can also be used as a structural material such as a bridge girder and a column, and a wall surface material of a building.
[0058]
In the second embodiment, since the honeycomb cells using prepreg as the cell wall material are shaped in the mold, a honeycomb structure having an arbitrary shape can be formed at low cost. Conventionally, a honeycomb structure having a predetermined shape has been formed by cutting a honeycomb structure formed in a flat plate shape. For this reason, there is a problem that a great cost is required. However, in the second embodiment, since the air bag is disposed in the honeycomb cell and is expanded and deformed in the mold, the honeycomb cell is shaped along the mold to provide a honeycomb structure having an arbitrary shape. it can. In addition, since prepreg is used for the cell wall material, if the thermoset resin is cured by heating the shaped honeycomb cell, the shape of the shaped honeycomb cell can be obtained even after taking out the air from the air bag. Can be maintained. Therefore, unlike the prior art, a cutting process is not required, and an arbitrarily shaped honeycomb structure can be formed at low cost.
[0059]
Since a honeycomb structure having an arbitrary shape can be formed as described above, the honeycomb structure of the second embodiment can be used as a structural material for products that require various shapes such as a wind turbine propeller and an aircraft wing.
[0060]
Further, in the second embodiment, even when reinforcing means by prepreg is added, it is not necessary to increase the heat treatment process, and the strength can be increased at low cost. Conventionally, there has been a problem that a heat treatment step for curing the thermosetting resin of the reinforcing means is necessary, and therefore a great cost is required. However, in the second embodiment, after the reinforcing means is arranged outside the honeycomb cell base material, the honeycomb cell is shaped, and then the honeycomb cell and the reinforcing means are heated at the same time to cure the impregnated thermosetting resin. Let Therefore, it is not necessary to add a heat treatment step separately, and since the honeycomb cell and the reinforcing means are fixed by the thermosetting resin, it is not necessary to separately apply an adhesive. Accordingly, a high-strength honeycomb structure can be formed at low cost.
[0061]
【The invention's effect】
As described above, according to the present invention, the honeycomb cell structure having a considerable length is provided inside the honeycomb cell and has a holding member for holding the shape of the honeycomb cell. Can be easily formed.
Therefore, it is possible to employ a honeycomb structure in a field where it has been difficult to use a conventional honeycomb structure, such as a building column, and it is possible to significantly reduce the weight and cost of a building structural material.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing an outline of a method for manufacturing a honeycomb structure according to an embodiment of the present invention.
Fig. 2 is a cross-sectional view showing a column structure using a honeycomb structure according to an embodiment of the present invention.
Fig. 3 is a cross-sectional view taken along the line BB of the honeycomb structure according to the embodiment of the present invention.
Fig. 4 is an explanatory diagram showing a method for shaping a honeycomb cell and a method for curing a thermosetting resin impregnated in a wall material of the honeycomb cell.
Fig. 5 is a cross-sectional view showing a modified example of a column structure using the honeycomb structure according to the embodiment of the present invention.
FIG. 6 is a cross-sectional view showing a sealing structure of an air bag.
Fig. 7 is a cross-sectional view showing a state in which a joint material is connected to the end of a honeycomb cell.
FIGS. 8A and 8B are explanatory diagrams of an adhesion portion in a laminated body of cell wall materials, in which FIG. 8A is a component diagram and FIG. 8B is an assembly diagram;
FIG. 9 is an explanatory view of an air bag, (1) is a perspective view, (2) is a cross-sectional view taken along the line DD, and (3) is a cross section in a state where the air bag is arranged in a honeycomb cell. FIG.
FIG. 10 is an explanatory diagram of a method for shaping a honeycomb cell in a mold.
FIG. 11 is an explanatory diagram showing an outline of a method for manufacturing a honeycomb structure according to a conventional technique.
FIG. 12 is an explanatory diagram relating to a method for manufacturing a honeycomb structure having an arbitrary shape according to the prior art.
[Explanation of symbols]
10 ...... Honeycomb cell internal space, 12 ...... Cell wall material, 13 ...... Adhesion part,
14 ......... Adhesive, 15 ......... Honeycomb cell base material, 16 ......... Honeycomb cell,
17 ......... Intermediate material, 18 ......... U-shaped needle, 20, 20b ......... Air bag,
21 ......... Side edges, 22 ......... Urethane foam, 24 ......... Sealing plugs,
26 ......... Air inlet, 28 ......... Check valve, 30 ......... Exterior material,
32 ......... Mortar, 34 ......... Joint material, 36 ......... Fitting part,
38 ......... Adhesive, 40a ......... Air circuit, 40b ...... Air circuit,
42 ... Air heating / circulation device, 50 ... Honeycomb structure,
51... Honeycomb structure, 52...
54... Peripheral honeycomb cell, 60 ... Formwork, 62 ... Reinforcing means,
64 ......... Honeycomb structure, 90 ......... Zigzag top width,
92 ......... Adhesive application width, 94 ......... Honeycomb structure length,
100 ……… Columns for architecture

Claims (5)

A first step of alternately laminating a cell wall material in which a thermosetting resin is immersed in a fiber material and a cylindrical body arranged in parallel at a predetermined interval;
A second step of forming hexagonal honeycomb cells by adhering the cell wall materials adjacent to each other through the tubular body in parallel to the tubular body at a predetermined interval;
A third step of disposing the honeycomb cell in which the cylindrical body is provided in a mold,
A fourth step of pressurizing gas into the tubular body to expand the tubular body, and shaping the honeycomb cells along the mold;
A fifth step of curing the thermosetting resin impregnated in the cell wall material while maintaining the internal pressure of the cylindrical body;
A method for manufacturing a honeycomb structure, comprising: The honeycomb structure according to claim 1, wherein in the fourth step, the tubular body is expanded by press-fitting a gas from an air inlet provided at one end of the tubular body. Production method. The method for manufacturing a honeycomb structure according to claim 1 or 2, wherein, in the second step, the cell wall members are mechanically bonded to each other using a U-shaped fixture. In the previous step of the third step, reinforcing means impregnated with a thermosetting resin is attached to the inner surface of the mold, and in the fifth step, the honeycomb cells and the reinforcing means are simultaneously heated. The method for manufacturing a honeycomb structured body according to any one of claims 1 to 3, wherein: A honeycomb structure comprising a plurality of honeycomb cells made of hexagonal columnar fiber material, manufactured by the method according to any one of claims 1 to 4.

Images