JP2014015031A - Plant molded body and method of manufacturing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method of manufacturing a plant molded body in which a long-shaped plant molded body can be manufactured.SOLUTION: The manufacturing method of a plant molded body includes: a process of processing a plant-based material by medicine; a process of inputting the plant-based material processed by the medicine into a molding machine, and letting the material flow into a molding die having narrower width than the width of a material input portion while heating and pressurizing the material in the molding machine; and a process of, in the molding die, extruding the plant-based material toward an outlet provided for the molding die and solidifying the plant-based material by compressing the plant-based material while varying the temperature in the molding die, and then extruding the plant-based material from the outlet.

Description

  The present invention relates to a plant molded product obtained by applying temperature and pressure to a plant-based material, and a method for producing the same.

  Wood has long been used as a building material. In order to improve the availability of wood and further expand its applications, techniques for performing various processing on wood have been developed. For example, bending has been developed as a technique for shaping wood. In addition, reinforced wood that uses compression processing and chemical impregnation as a strength performance improvement technology has been researched and developed.

  However, with such a conventional processing technique, there is a problem that only a good quality wood material having no nodes or branches is processed, resulting in poor yield and high cost. Moreover, in order to give a three-dimensional shape, there are many places which depend on cutting, and there existed a problem that productivity became low by this.

  Under such circumstances, wood-plastic composite (WPC) extruded after mixing a finely powdered woody material with a thermoplastic resin such as polyethylene or polypropylene is environmentally friendly. It is becoming popular as a wood material for both outdoor and indoor applications. At the time of manufacturing such a composite material, the thermoplastic resin blended so as to have a weight ratio of about 50% imparts appropriate fluidity to the mixture during the heating process during extrusion, and is deformed into an arbitrary shape. . Further, in the manufacturing process of the composite material, the shape is fixed in the subsequent cooling process.

  In this composite material, the size of the fine powder of the wood material and the degree of mixing with the resin greatly affect the physical and mechanical properties of the obtained extruded material. Therefore, grinding and classification to a finer size are required, and the use of a surfactant that enhances adhesion to the resin is unavoidable. In addition, the performance of the composite material itself greatly depends on the thermoplastic resin, and the wooden material functions only as an extender for reducing the use of the resin.

  Patent Documents 1 and 2 disclose fluid molding techniques for plant materials developed by the present inventors. This technique is a shaping technique that greatly deforms plant-based materials by changing the position between plant cells. By using this technique, it is possible to increase the strength and to stabilize the dimensions simultaneously with shaping by adding a binder (binder) to the plant-based material. Therefore, this technique is a technique that can be expected to have higher productivity than the above-described conventional wood processing technique.

Japanese Patent No. 4502848 JP 4849609 A

  By the way, when using the plant-based material processed as described above as a building material, it is required to have a size or shape that matches the size of the building in which the building material is used. Under such circumstances, in order to obtain a long shaped object or a plant molded body having a complicated cross section, the plant material should be more easily softened and fluidized, and the fluidization and hardening of the plant material should be controlled. It becomes a subject to perform more strictly. However, if a plant material impregnated with a thermosetting resin having a high water content is formed in order to achieve easy softening and fluidization of the plant material, it is difficult to control the curing and the molding becomes impossible. The problem occurs.

  This invention is made | formed in view of said problem, and it aims at providing the manufacturing method of the plant molded object which can manufacture the plant molded object of a longer shape.

  In order to solve the above problems, a method for producing a plant molded body of the present invention includes a step of treating a plant material with a drug, and the plant material treated with the drug is charged into a molding machine. A step of pouring into a mold having an inlet having a width smaller than the width of the material charging part while heating and pressurizing in the machine, and the plant-based material in the mold toward the outlet provided in the mold Extruding and extruding the plant material from the outlet after solidifying the plant material by compressing the plant material while changing the temperature in the mold, and obtaining a plant molded body; It is characterized by including.

  In the method for producing a plant molded body of the present invention, a plant-based material treated with a drug is charged into a material charging unit in a molding machine, and the plant-based material is heated and pressurized in the material charging unit. Fluidize. And in the state which heated and pressurized the plant-type material, it pours into the shaping | molding die which has an inlet_port | entrance narrower than the width | variety of a material injection | throwing-in part. Thereafter, in the mold, the plant material was solidified by extruding the plant material toward the outlet provided in the mold and compressing the plant material while changing the temperature in the mold. Later, the plant material is extruded from the outlet of the mold.

  According to the method for producing a plant molded body of the present invention, a plant molded body solidified into a predetermined shape is obtained from the outlet of the mold by the series of steps described above. The plant material can be continuously extruded by continuously applying the plant material to the material input unit, and the plant material can be continuously extruded. It becomes possible to obtain a scaled plant molded body.

In the manufacturing method of the plant molded object of this invention, it is preferable that the temperature of the said shaping | molding die is set based on the temperature dependence of the physical property of the plant-type material processed with the said chemical | medical agent.
The temperature dependence of the physical properties of plant-based materials treated with chemicals is an index of how the viscosity of the plant-based materials changes with temperature. For example, by thermomechanical measurement and measurement methods equivalent thereto Can be sought.

  According to the above method, for example, the softening temperature and the curing temperature of the plant material are obtained based on the temperature dependence of the physical properties of the plant material obtained by, for example, thermomechanical measurement, and the temperature of the mold is set thereby be able to. Therefore, the temperature of a shaping | molding die can be set appropriately and the property of the obtained plant molded object can be made more favorable.

  Further, the plant molded body of the present invention is a plant molded body molded after fluidizing the plant material by applying pressure and temperature to the plant material impregnated with the drug, The ratio of the length in the longitudinal direction of the plant molded body to the maximum diameter of the cross section of the molded body is a long shape of 10 or more.

  The plant molded body of the present invention is a long-shaped plant molded body formed by solidifying the plant-based material once fluidized by applying pressure and temperature to the plant-based material impregnated with the drug. is there.

  And the plant molded object of this invention has a long shape whose ratio of the length of the longitudinal direction of this plant molded object with respect to the maximum diameter of the cross section of this plant molded object is 10 or more. Here, the ratio of the length in the longitudinal direction of the plant molded body to the maximum diameter of the cross section of the plant molded body (cross section intersecting with the longitudinal direction of the plant molded body) is referred to as an aspect ratio. That is, the aspect ratio of the plant molded body of the present invention (cross section of the plant molded body: length in the longitudinal direction of the plant molded body) is 1:10 or more.

  The plant molded object of this invention can be utilized suitably as building materials, such as a frame material, by having the above elongate shapes. In addition, the plant molded object of this invention can be manufactured with the manufacturing method of the plant molded object of the above-mentioned this invention, for example.

  In the plant molded body of the present invention, the cells constituting the plant-based material are compressed in the width direction intersecting the longitudinal direction of the plant molded body, and the compressed cells are arranged along the longitudinal direction. It may have a cell structure.

  By having the above-described cell structure, the plant molded body of the present invention can have properties such as high strength in the longitudinal direction and relatively low linear expansion coefficient.

(A) is a side view which shows the manufacturing apparatus used for the manufacturing method of the plant molded object of one Embodiment of this invention. (B) is a top view which shows the metal mold | die with which the manufacturing apparatus shown to (a) was equipped. (C) is the side view which looked at the metal mold | die with which the manufacturing apparatus shown to (a) was equipped from the exit side. It is a perspective view which shows the metal mold | die with which the manufacturing apparatus shown to (a) of FIG. 1 was equipped. (A)-(b) is a schematic diagram which shows the process of the manufacturing method of the plant molded object of one Embodiment of this invention. (C) is a schematic diagram which shows the plant-type material impregnated with the chemical | medical solution obtained by the process of (a)-(b). (A)-(c) is a schematic diagram which shows the process of the manufacturing method of the plant molded object of one Embodiment of this invention. It is a graph which shows the relationship between the temperature of the plant-type material which impregnated the chemical | medical solution, and the storage elastic modulus. It is a perspective view which shows the plant molded object manufactured with the manufacturing apparatus shown to (a) of FIG. In the manufacturing method of the plant molded object of one Embodiment of this invention, it is a schematic diagram which shows the change of the cell structure inside plant-type material.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
(1) About the manufacturing apparatus of a plant molded object Fig.1 (a) shows the structure of the manufacturing apparatus (molding machine) 1 for enforcing the manufacturing method of the plant molded object of this invention. A manufacturing apparatus 1 shown in FIG. 1A includes a punch 11, a material charging unit 12, a heater installation unit 13, and a mold 14 as main components.

  The punch 11 is a pressurizing tool for applying pressure to the plant material introduced into the manufacturing apparatus 1. The material input part 12 is a part into which plant material is input. In the manufacturing apparatus 1, the punch 11 and the material input part 12 have a structure corresponding to a piston and a cylinder.

The heater installation unit 13 is provided with a plurality of heaters 15 for heating the plant material in each manufacturing process of the plant molded body.
The mold 14 is a mold having a recess for molding the plant-based material input from the material input unit 12 into a predetermined shape. FIG. 1B is a plan view of the mold 14. FIG. 1C is a side view of the outlet portion. FIG. 2 is a perspective view of the mold 14. As shown in FIG. 1B, in the present embodiment, the planar shape of the concave portion provided in the mold 14 has a shape like an insulator. However, this is an example of the present invention, and the present invention is not limited to this.

  As shown in FIG. 1A, a heater installation portion 13 is provided on the mold 14. With this configuration, in the manufacturing process in which the plant-based material input from the material input unit 12 flows through the mold 14 while being pressed by the punch 11, each part of the mold 14 is heated to a predetermined temperature. be able to.

  Next, each part of the mold 14 will be described with reference to FIGS. 1 (a) to 1 (c). As shown in FIGS. 1A and 1B, the mold 14 is divided into a material supply unit 14a, a throttle unit 14b, and a shape fixing unit 14c. The shape fixing portion 14c has an inlet 14d and an outlet 14e. As shown in FIG. 1C, the shape fixing portion 14c is provided with a protruding portion 14f in which the bottom surface of the recessed portion is partially protruded.

(2) About the manufacturing method of a plant molded object Then, the manufacturing method of the plant molded object implemented using the manufacturing apparatus 1 mentioned above is demonstrated. In addition, the manufacturing method of the plant molded object demonstrated here is an example of this invention, and the manufacturing method of the plant molded object of this invention is not limited to what is implemented using the manufacturing apparatus 1. FIG. 3 (a) to 3 (c) and FIG. 4 (a) to 4 (c) show the respective steps of an embodiment of the method for producing a plant molded body of the present invention. .

  First, as shown in FIG. 3 (a), the plant material 21 is immersed in a solution 22 in which a thermosetting resin is dissolved at a weight ratio of 0.1 to 50%, and the pressure is reduced and pressurized in the liquid. A thermosetting resin (drug) and a solvent are injected into the plant material. The thermosetting resin used here is a phenol resin, a melamine resin, a urea resin, an epoxy resin, an unsaturated polyester resin, a silicon resin, a polyurethane resin, or the like. The solvents used are water, methyl alcohol, ethyl alcohol, isopropyl alcohol, normal butyl alcohol, ethylene glycol, xylene, benzene, toluene, acetone, methyl ethyl ketone, diethyl ketone, methyl isobutyl ketone, acetate ester, normal hexane, ether, Tetrahydrofuran, dioxane, DMF, DMSO and the like.

  Next, as shown in FIG. 3B, the plant-based material impregnated with the chemical solution (also referred to as chemical-impregnated wood) is taken out from the solution, blown and dried at a temperature sufficiently lower than the curing temperature of the resin, and the solvent is removed. Remove. After confirming the constant weight at that temperature, it is cured under a predetermined humidity condition, and moisture is given to the drug-impregnated wood under a gas phase condition. By applying a solvent component such as water to the drug-impregnated wood under a gas phase condition, the solvent component can be uniformly distributed in the wood as compared with a case where the solvent component is supplied in a liquid state.

  3A to FIG. 3B is a pretreatment process for plant-based material before the plant-based material is introduced into the manufacturing apparatus 1. The plant-based material used in this pretreatment step is a plate-like veneer (single plate) obtained by the same method as that for manufacturing plywood and the like. The types of plants that serve as raw materials for plant-based materials include, for example, trees such as conifers and broad-leaved trees, and plants such as bamboo (bamboo), drill (paulownia), and grass. Moreover, as a site | part of the tree used, site | parts, such as a branch and a node other than a trunk, are also possible.

  FIG. 3C shows the plant material 21 after the pretreatment process. In the present embodiment, as shown in FIG. 3C, the plant material is a plate-like circular member having a thickness of about 3 to 5 mm. However, in the present invention, the shape of the plant-based material is not limited to this, and it may be cut into a size that can be put into the production apparatus 1.

  In addition, about the method of pre-processing of plant-type material, you may carry out with reference to said patent document 1 and 2 and Unexamined-Japanese-Patent No. 2010-52426, Unexamined-Japanese-Patent No. 2010-155393, and Unexamined-Japanese-Patent No. 2010-155394.

  Then, fluidization and shaping (shape grant and shape fixation) of plant system material 21 which performed pretreatment using manufacturing device 1 are performed. In the method for producing a plant molded body of the present invention, the softening temperature in the fluidization step of the plant material, the curing temperature in the plant material shaping (shape imparting and shape fixing) step, and the pressure applied to the plant material, And the dimension of each part of the metal mold | die used for shaping | molding is adjusted suitably. Thereby, the property of the plant molded object obtained can be stabilized or intensity | strength can be improved. In addition, by changing the shape of the mold (especially the cross-sectional shape of the outlet) and controlling the viscosity of the plant-based material (the balance between softening and hardening), the fiber orientation in the plant molded body is controlled, and thus obtained. It is also possible to change the strength of the plant molded product. The surface state of the plant molded body can be improved by forming a coating layer after molding.

  When fluidizing and forming the plant-based material 21, the softening temperature and the curing temperature of the drug-impregnated wood are obtained in advance by thermomechanical measurement. FIG. 5 shows the relationship between the temperature and the storage elastic modulus obtained as a result of this thermomechanical measurement. The graph shown in FIG. 5 is a result of thermomechanical measurement of drug-impregnated wood when phenol resin is used as a drug.

  When wood is impregnated with a chemical, the thermal properties of the chemical may change due to various interactions. In particular, it is difficult to judge the softening / fluidization behavior (temperature range for softening / fluidization) of wood, which is important in molding, by measuring the chemical alone. According to FIG. 5, it can be seen that the storage elastic modulus (MPa) sharply decreases from around 50 ° C. in the first temperature raising process (before curing in FIG. 5), and shows a minimum value around 120 ° C. This indicates that the wood is softened in this temperature range (50 ° C. to 120 ° C.). When the temperature becomes higher (specifically, 130 ° C. or higher), the storage elastic modulus (MPa) increases rapidly, indicating that the thermosetting resin has been cured. In addition, once the temperature is raised to 130 ° C. or higher and the wood is cured, the storage elastic modulus of the wood does not change greatly even after the temperature is changed (after curing in FIG. 5).

  Based on the result of the thermomechanical measurement, the temperature condition in the molding process of the plant material 21 using the manufacturing apparatus 1 is set. In one example, a softening temperature (Ts) and a curing temperature (Th) as shown in FIG. 5 can be set. The softening temperature (Ts) and the curing temperature (Th) are reflected as the set temperature of each heater 15 in the heater installation portion 13 of the manufacturing apparatus 1.

  In the present embodiment, the softening temperature and the curing temperature of the drug-impregnated wood are grasped in advance by the thermomechanical measurement as described above, and the temperature setting of the manufacturing apparatus 1 is performed. There is no limitation. When setting the temperature of the manufacturing apparatus 1, the softening temperature and the curing temperature are calculated based on the temperature dependence of the physical properties of the drug-impregnated wood, and the obtained results are reflected in the temperature setting of the manufacturing apparatus 1. .

By the way, in the manufacturing apparatus 1 of the present embodiment, as shown in FIG. 1A, the mold 14 includes the material supply part 14a, the narrowing part 14b, and the shape fixing part 14c. ing. In the material supply unit 14a, the plant material 21 is softened by heating and pressing the supplied plant material 21 (drug-impregnated wood) (see FIG. 4A). Throttle unit 14b, the plant-based material 21 that is softened by the material supply unit 14a is fluidized, a portion still flowing to the downstream side of the form-locking part 14c, the width of the mold 14 (W) from W ₁ to W ₂ (See FIG. 4B).

  The shape fixing part 14c has an inlet 14d and an outlet 14e. As shown in FIG. 1 (c), the cross-sectional shape of the outlet 14e portion has a shape having a depression on one side of the rectangle, thereby making the cross-sectional shape of the obtained plant molded body the same shape. Can do.

  As described above, the shape fixing portion 14c has a structure in which the outlet 14e penetrates from the inlet 14d. And in the extrusion direction of the plant-based material 21 heading from the narrowed portion 14b to the outlet 14e of the shape fixing portion 14c, a narrowed structure that reduces the cross-sectional area of the concave portion provided in the mold 14 (extrusion angle, extruded length, And a cross-section reduction rate corresponding to them) is set. The inlet 14d of the shape fixing portion 14c is adjusted to the softening temperature (Ts) of the drug-impregnated wood obtained from, for example, the graph of FIG. 5, and the outlet 14e of the shape fixing portion 14c is obtained from, for example, the graph of FIG. It is adjusted to the curing temperature (Th) of the chemical-impregnated wood.

  In the molding process of the present embodiment, the plant material 21 is supplied from the material input unit 12 to the material supply unit 14a of the mold 14 and is pressed by the punch 11 (see FIG. 4A). For example, when a chemical containing a phenol resin is used, the fluidization of the plant-based material 21 starts when the load pressure by the punch 11 becomes 15 MPa or more. After fluidization is started, the punch 11 changes its position downward while an appropriate pressure (pressure corresponding to the shape of the mold 14) is applied to the plant material 21. By adjusting the speed of this position change, the amount of the plant material 21 supplied to the narrowed portion 14b of the mold 14 is controlled.

  The fluidized plant-based material 21 is deformed at the narrowed portion 14b by the position change of the punch 11 at a constant speed (see FIG. 4B). After the plant-based material 21 passes through the narrowed portion 14b, the plant-based material 21 is pushed out to the outlet 14e side while the shape is fixed by curing of a chemical such as an impregnated phenol resin in the shape fixing portion 14c. (See (c) in FIG. 4). Finally, the plant material 21 is extruded from the outlet 14a to the outside of the apparatus, and the plant molded body 30 having a cross section corresponding to the shape of the cross section of the mold 14 is manufactured. In FIG. 6, an example of the plant molded object 30 manufactured by said manufacturing method is shown. In addition, the part A enclosed with the broken line in FIG. 6 is the plant-type material 21 which remained in the material supply part 14a and the narrowing part 14b.

  In the method for producing a plant molded body of the present invention, the temperature in each part of the production apparatus 1, the pressure applied by the punch 11 to the plant material 21, and the dimensions of each part of the mold 14 are appropriately adjusted. Thus, the properties of the obtained plant molded product can be adjusted.

  In the manufacturing apparatus 1 of the present embodiment, for each part of the mold 14, for example, the temperature of the material supply unit 14 a is about 50 to 80 ° C., the temperature of the throttle unit 14 b is about 80 to 100 ° C., and the shape fixing unit 14 c. Each heater 15 has a temperature at the inlet 14d (corresponding to the softening temperature Ts) of about 100 to 120 ° C. and a temperature of the outlet 14e at the shape fixing portion 14c (corresponding to the curing temperature Th) of about 130 to 150 ° C. Set the temperature. However, each temperature mentioned above is one Example of this invention, and this invention is not limited to this. As another example of the temperature setting, for example, the temperature from the material supply unit 14a to the inlet 14d of the shape fixing unit 14c is set to a temperature within a range of 50 to 120 ° C. (corresponding to the softening temperature Th), and the shape fixing unit 14c One example is setting the temperature (corresponding to the curing temperature Th) to about 130 to 150 ° C. and setting the temperature in two steps.

After setting the temperature as described above, the lowering speed of the punch 11 is adjusted so that a fixed amount of the plant molded body is extruded from the outlet 14e of the mold 14.
Further, at this time, the dimensions of the respective parts of the mold 14 (see FIGS. 1B and 1C) are W ₁ = 52 mm, W ₂ = 20 mm, W ₃ = 10 mm, H ₁ = 10 mm, H ₂ = 5 mm and the length of the shape fixing portion 14c in the longitudinal direction = 85 mm. However, this dimension is one embodiment of the present invention, and the present invention is not limited to this.

At this time, the ratio between the maximum value of the cross-sectional area of the mold in the material supply unit 14a and the cross-sectional area of the mold at the inlet 14d of the shape fixing unit 14c (this is called the drawing ratio) is W ₁ H ₁ / ( the _{W 2 H 1 -W 3 H 2} ) = 520/150 = 3.47. However, this aperture ratio value is an example of the present invention, and the present invention is not limited to this. In the present invention, the cross-sectional area of the inlet 14d of the shape fixing portion 14c only needs to be smaller than the cross-sectional area of the material supply portion 14a.

  In addition, in the manufacturing method of the plant molded object of this Embodiment, if the plant-type material 21 decreases in the material injection | throwing-in part 12, by supplying the additional plant-type material (chemical | medical agent impregnation wood) 21 at any time, Plant material can be supplied to the narrowed portion 14b. Thereby, the continuous extrusion process of the plant-type material 21 is made | formed. Therefore, it is possible to obtain a long plant molded body 30.

  Moreover, the smoothing process, such as mirror finishing, may be given to the apparatus surface of the location which touches plant-type material in the manufacturing apparatus 1. FIG. Thereby, the surface of the obtained plant molded object can be smoothed. Furthermore, by setting the amount of water adjusted under the gas phase conditions in the drug-impregnated wood to about several percent, the surface properties of the obtained plant molded body can be improved to a level comparable to the finished state of the apparatus surface.

  According to the method for producing a plant molded body of the present invention, the cell structure of the obtained plant molded body is derived from the structure of each cell constituting the plant-based material that is a raw material by addition, pressurization, and heating of the drug. It has changed. In other words, the cell structure of the obtained plant molded body is deviated from the cell structure of a natural tree or the like as a material, and the position of the cell structure is changed. Due to such a change in cell structure, a unique pattern can be created on the surface of the obtained plant molded body.

  Moreover, in the obtained plant molded object, a cell can be arranged along the extrusion direction of the plant-type material in an extrusion process. In the obtained plant molded body, individual cells constituting the molded body are not divided, and the cell structure as a whole is not destroyed. The plant molded body obtained by the production method of the present invention has such a cell structure that it has properties such as high strength in the longitudinal direction and relatively low linear expansion coefficient.

(3) About the plant molded object of this invention Then, the plant molded object of this invention is demonstrated. As an example of the plant molded body of the present invention, a plant molded body obtained using the above-described production apparatus 1 can be mentioned.

  The plant molded body of the present invention is a long plant molded body molded after fluidizing the plant material once by applying pressure and temperature to the plant material impregnated with the drug. In the plant molded body of the present invention, the cells constituting the plant material are compressed in the width direction intersecting the longitudinal direction, and the longitudinal direction of the compressed cells is in the longitudinal direction of the plant molded body. Are arranged along. Here, the elongated shape means the ratio of the length of the plant molded body in the longitudinal direction to the maximum diameter of the cross section of the plant molded body (cross section intersecting the longitudinal direction of the plant molded body) (this is the aspect ratio). Is called 10 or more, preferably 20 or more. Moreover, the length of the longitudinal direction of the plant molded object of this invention can be 7 m or less, for example, Preferably it can be 5 m or less. For example, as an example of the dimension of the plant molded product having an aspect ratio of 10 or more, a plant molded product having a maximum cross-sectional diameter of 20 mm and a length in the longitudinal direction of 300 mm can be cited.

  The plant molded body of the present invention can be obtained by fluidizing and molding the above-described drug-impregnated wood using the production apparatus 1 described above. By this production method, the plant material passes through the narrowed portion 14b provided in the mold 14 of the production apparatus 1 so that the cell structure in the plant material changes, and the obtained plant molded body has an elongated shape. Cells have a cell structure in which cells are arranged along the longitudinal direction of the plant molded body and the cells are compressed in the width direction intersecting the longitudinal direction.

  FIG. 7 shows how the cell structure inside the plant-based material changes in the method for producing a plant molded body described in (2) above. In FIG. 7, cells generated in the plant-based material (drug-impregnated wood) subjected to the chemical treatment shown in (a) to (b) of FIG. 3 through the fluidization and molding processes in the manufacturing apparatus 1. Shows structural changes.

  First, as shown in FIG. 4A, the plant-based material 21 charged into the material charging unit 12 of the manufacturing apparatus 1 is pushed in by the punch 11, and pressure P is applied from both sides of the upper surface and the lower surface (FIG. 7 (1)). Thereby, in the cell 24 in the plant-based material 21, the cell wall softens and buckles, and the intracellular pore is closed (see (2) in FIG. 7).

  Next, when the punch 11 is further pushed downward in the manufacturing apparatus 1, the plant-based material 21 moves from the material supply unit 14a toward the throttle unit 14b as shown in FIG. 4B. As a result, the cell wall itself in the plant-based material 21 is compressed, and slipping occurs between the cells constituting the plant-based material 21, causing a change in the position of the cell structure. Thereby, the plant-type material 21 fluidizes (refer (3) of FIG. 7). In the above process, the cells in the plant material 21 are compressed in the direction in which pressure is applied, and become elongated in the direction in which the plant material 21 flows.

  Thereafter, the fluidized plant-based material 21 is extruded from the narrowed portion 14a toward the shape fixing portion 14c as shown in FIG. 4C, and the shape fixing and shape fixing are performed in the shape fixing portion 14c. The plant-based material 21 whose shape has been fixed finally becomes a plant molded body 30 and is pushed out of the apparatus from the outlet 14e of the shape fixing portion 14c. In this step, the cells in the plant material 21 are elongated in the longitudinal direction, and the longitudinal direction of each cell is arranged along the longitudinal direction of the plant material 21 (see (4) in FIG. 7).

  In the plant molded body 30 obtained as described above, the cells themselves are not broken, but the orientation (tissue) of the cells is changed from the cell structure of the original plant. That is, in the plant molded body 30, the positional relationship between cells is different from the original plant.

  Moreover, in the manufacturing method of a plant molded object, the plant molded object 30 obtained by throwing in plant material continuously is made into the said aspect ratio (the length of the longitudinal direction of a plant molded object / the cross section of a plant molded object). The longest diameter is 10 or more. In such a long plant shaped product 30, the longitudinal direction of each cell constituting the woody or plant tissue is arranged along the longitudinal direction of the plant shaped product 30 so that the fiber orientation of the woody or plant tissue is long. It is lined up uniformly along the direction. By having such a fiber orientation, a plant molded product having properties of high strength in the longitudinal direction and relatively low linear expansion coefficient can be obtained.

(4) Application example of the plant molded body of the present invention The plant molded body of the present invention can be formed into a long shape as described above, and the cross-sectional shape thereof can be changed depending on the shape of the mold to be used. It can be changed as appropriate. Therefore, the plant molded object of this invention can be utilized suitably for building materials.

  Furthermore, the plant molded body of the present invention is a composite building material using a resin and an aluminum alloy, such as a wooden building material for heat insulation (for example, a frame material) that is currently being promoted for the purpose of improving the energy saving performance of houses. Application to is expected. In existing composite building materials, the frame (member to be a skeleton) is made of an aluminum alloy to maintain the strength while improving the heat insulation performance including the heat transmissibility of the indoor components. For the purpose, a resinous frame material having an irregular cross section is attached to the surface of an aluminum alloy casing.

  By using the plant molded body of the present invention in the part of the resinous frame material having an irregular cross section, it is possible to provide a composite building material that can feel the wood texture in appearance after improving the heat insulation performance. it can. Moreover, the plant molded body of the present invention can be carbonized to cover an aluminum alloy and prevent further fire spread. For this reason, it is possible to improve the flame retardancy which is a problem in the composite building material using the existing resin member.

  The embodiment of the present invention has been described above. However, the present invention is not limited to the embodiments described above, and can be implemented in various modes without departing from the gist of the present invention.

  DESCRIPTION OF SYMBOLS 1 ... Manufacturing apparatus (molding machine), 11 ... Punch, 12 ... Material input part, 13 ... Heater installation part, 14 ... Mold, 15 ... Heater, 21 ... Plant material, 24 ... Cell, 30 ... Plant molded object, 14a ... (mold) material supply section, 14b ... (mold) throttle section, 14c ... (mold) shape fixing section (molding die), 14d ... (shape fixing section) inlet, 14e ... (shape) Outlet of fixed part, 14f ... projection of mold

Claims (4)

A process of treating plant-based material with a drug;
Pouring the plant-based material treated with the chemical into a molding machine, pouring into a molding die having an inlet having a width narrower than the width of the material charging part, while heating and pressing in the molding machine;
In the mold, the plant material is solidified by extruding the plant material toward the outlet provided in the mold and compressing the plant material while changing the temperature in the mold. After extruding the plant-based material from the outlet, to obtain a plant molded body,
The manufacturing method of the plant molded object containing this.   The temperature of the said shaping | molding die is a manufacturing method of the plant molded object of Claim 1 set based on the temperature dependence of the physical property of the plant-type material processed with the said chemical | medical agent. A plant molded body formed after fluidizing the plant material by applying pressure and temperature to the plant material impregnated with the drug,
A plant molded body having an elongated shape in which a ratio of a length in a longitudinal direction of the plant molded body to a maximum diameter of a cross section of the plant molded body is 10 or more.   The cell which comprises this plant-type material is compressed in the width direction which cross | intersects the longitudinal direction of this plant molded object, The said compressed cell is arranged along the said longitudinal direction. Plant moldings.

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