JP2017193107A - Nest for press molding, press molding method and press molding device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a nest for press molding, a press molding method and a press molding device capable of obtaining a plurality of press moldings with different sizes, as the same mold is used, without damaging the appearance thereof.SOLUTION: Provided is a nest 13 having elasticity and compressed in a mold closing direction by the mold closures of molds 11 and 12. Also provided is a molding method comprising: a step where the nest 13 and a material 40a are arranged in a space between the molds 11 and 12; and a step where the nest 13 and the material 40a are compressed in a space C1 formed by the first cavity face f1 of the mold 11, the second cavity face f2 of the mold 12 and the third cavity face f3 formed by the nest 13 by the mold closures of the molds 11 and 12. Also provided is a molding device 10 comprising the molds 11 and 12, and the nest 13.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a press molding insert, a press molding method, and a press molding apparatus.

  As a method and apparatus for press-molding a molding material between the first mold and the second mold, for example, a first mold and a second mold (upper mold and lower mold) are prepared, and the first mold and the second mold are prepared. There is a method and an apparatus for setting a molding material (sheet molding compound) between two molds and pressurizing and heating to obtain a press-molded product (unit bath wall panel) (for example, see Patent Document 1). ).

JP 2002-36378 A

  However, with the conventional press molding method and apparatus as described above, it has been difficult to mold a plurality of press molded products having different sizes using the same mold. In addition, when molding a molded product such as a unit bath panel that requires aesthetic appearance, if irregularities such as parting lines occur on the surface, the aesthetic appearance of the molded product may be impaired.

  An object of the present invention is to provide a press-molding insert, a press-molding method, and a press-molding apparatus that can obtain a plurality of press-molded products having different sizes without losing the appearance while using the same mold. It is to be.

The press-molding nest according to the present invention is disposed between a first cavity surface formed in a first mold and a second cavity surface formed in a second mold, and the first cavity surface and the second cavity surface are arranged. A press-molding insert having a third cavity surface that forms a cavity space together with the cavity surface, wherein the press-molding insert has elasticity and is clamped by clamping the first mold and the second mold. It is compressed in the tightening direction.
By using the press-molding insert according to the present invention, it is possible to obtain a plurality of press-formed products having different sizes without impairing the appearance while using the same mold.

In the press molding insert according to the present invention, the molding material can be a sheet material impregnated with a resin paste.
In this case, a press-formed product having a stable appearance can be obtained.

In the press-molding insert according to the present invention, the press-molding insert can be a rubber insert.
In this case, it is possible to easily and inexpensively provide a press-molding insert capable of obtaining a plurality of press-formed products having different sizes.

The press molding method according to the present invention includes a step of disposing a molding material between a first cavity surface formed on a first mold and a second cavity surface formed on a second mold, and the first mold Clamping direction by clamping the first mold and the second mold while having elasticity between the first cavity surface formed on the second mold and the second cavity surface formed on the second mold Placing the nest to be compressed and the molding material, bringing the first mold and the second mold relatively close together, and clamping the first mold and the second mold A cavity space is formed by the first cavity surface, the second cavity surface, and the third cavity surface formed in the nest, and in the cavity space, Having a step of compressing the nested and mold clamping direction the molding material.
According to the press molding method according to the present invention, it is possible to obtain a plurality of press molded products having different sizes without impairing the appearance while using the same mold.

In the press molding method according to the present invention, the molding material may be a sheet material impregnated with a resin paste.
In this case, a press-formed product having a stable appearance can be obtained.

In the press molding method according to the present invention, the insert may be a rubber insert.
In this case, a plurality of press-formed products having different sizes can be obtained easily and inexpensively.

In the press molding apparatus according to the present invention, the first mold having the first cavity surface, the second mold having the second cavity surface, and the first cavity surface and the second cavity surface are disposed. And a nest having a third cavity surface that forms a cavity space together with the first cavity surface and the second cavity surface, and the nest has elasticity and has the first mold and the second mold. The mold is compressed in the mold clamping direction.
According to the press molding apparatus according to the present invention, a plurality of press-molded products having different sizes can be obtained without impairing the appearance while using the same mold.

In the press molding apparatus according to the present invention, the molding material may be a sheet material impregnated with a resin paste.
In this case, a press-formed product having a stable appearance can be obtained.

In the press molding apparatus according to the present invention, the insert may be a rubber insert.
In this case, a plurality of press-formed products having different sizes can be obtained easily and inexpensively.

  According to the present invention, there are provided a press molding insert, a press molding method, and a press molding apparatus capable of obtaining a plurality of press molded products having different sizes without impairing the appearance while using the same mold. can do.

It is one form of the press molding apparatus which concerns on one Embodiment of this invention, Comprising: The state for which the insert for press molding which concerns on this embodiment, and the molding material are arrange | positioned between the 1st mold and the 2nd mold is shown. It is sectional drawing. In the press molding apparatus of the form of FIG. 1, it is sectional drawing which shows the state which clamped the 1st mold and the 2nd mold, and shape | molded the press molded product. (A)-(c) is principal part sectional drawing which shows the time-sequential effect | action when each press-molding using the press-molding apparatus of the form of FIG. FIG. 4 is a cross-sectional view showing another embodiment of the press molding apparatus of FIG. 1 and showing a state in which a molding material is disposed between a first mold and a second mold. FIG. 5 is a cross-sectional view showing a state where a press-molded product is formed by clamping the first mold and the second mold in the press-molding apparatus in the form of FIG. 4.

  Hereinafter, a press molding insert, a press molding method, and a press molding apparatus according to an embodiment of the present invention will be described with reference to the drawings.

  1 and 2, reference numeral 10 denotes a press molding apparatus according to an embodiment of the present invention. The press molding apparatus 10 can obtain a press molded product 30a having a small size and a press molded product 30b having a larger size than the press molded product 30a. In the present embodiment, the press-formed products 30a and 30b are rectangular unit bath wall panels having the same thickness T1.

  As shown in FIGS. 1 and 2, the press molding apparatus 10 includes a first mold 11 having a first cavity surface f1, a second mold 12 having a second cavity surface f2, and a first cavity surface. Nest (press-molding nest) 13 formed between the first cavity surface f2 and the third cavity surface f3 which is arranged between the first cavity surface f1 and the second cavity surface f2 to form the cavity space C1. And have.

  As shown in FIG. 1, in the present embodiment, the first mold 11 is an upper mold, and the second mold 12 is a lower mold. In the present embodiment, the first mold 11 is a female mold having a concave portion N that fits the second mold 12, and the second mold 12 is a male mold having a convex portion P that fits the first mold 11.

  In the present embodiment, the concave portion N of the first mold 11 includes a rectangular flat surface 11a and four side surfaces 11b formed so as to surround the flat surface 11a (for the two side surfaces 11b arranged on the front and back of the drawing, (Not shown). The convex part P of the second mold 12 has a rectangular plane 12a, four side surfaces 12b formed so as to surround the plane 12a (the two side surfaces 12b arranged on the front and back of the drawing are not shown), It is formed with.

  The flat surface 12 a of the convex portion P of the second mold 12 is similar to the flat surface 11 a of the concave portion N of the first mold 11. Therefore, when the first mold 11 and the second mold 12 are brought close to each other together with the concave portion N of the first mold 11 and the convex portion P of the second mold 12, the second mold is brought into the concave portion N of the first mold 11. Twelve convex portions P can be inserted.

  The nest 13 is a nest having a thickness T <b> 2 that has elasticity and is compressed by clamping the first mold 11 and the second mold 12. Various materials can be used for the insert 13 as long as it is formed of an elastic material that is compressed by clamping the first mold 11 and the second mold 12. In the present embodiment, the insert 13 is a rubber insert.

  In the press molding apparatus 10, the insert 13 is formed into a rectangular panel having a thickness T2. The insert 13 has two flat surfaces 13 a that can come into contact with the flat surface 11 a of the concave portion N of the first mold 11 or the flat surface 12 a of the convex portion P of the second mold 12. The two planes 13a are spaced apart by a dimension T2. Further, the insert 13 has four side surfaces 13b formed so as to surround the two flat surfaces 13a (the two side surfaces 13b arranged on the front and back of the drawing are not shown). The three side surfaces 13b of the four side surfaces 13b can contact the three side surfaces 11b of the four side surfaces 11b of the recess N of the first mold 11. As shown in FIGS. 1 and 2, one side surface 13 b of the four side surfaces 13 b faces the side surface 11 b of the concave portion N of the first mold 11 that does not contact the insert 13 at a horizontal interval. Is arranged.

  Therefore, if the insert 13 is disposed between the first mold 11 and the second mold 12 and the first mold 11 and the second mold 12 are clamped, as shown in FIG. A rectangular cavity space C1 having a thickness T1 surrounded by the flat surface 11a of the concave portion N and its three side surfaces 11b, the flat surface 12a of the convex portion P of the second mold 12, and one side surface 13b of the insert 13. Is formed.

  That is, in this embodiment, when the insert 13 is disposed between the first mold 11 and the second mold 12, the flat surface 11a of the recess N of the first mold 11 and the three side surfaces 11b thereof are the first cavity surface. f1 is formed, the flat surface 12a of the convex portion P of the second mold 12 forms a second cavity surface f2, and one side surface 13b of the nest 13 forms a third cavity f3.

  Moreover, in this embodiment, if the 1st mold 11 and the 2nd mold 12 are clamped without arrange | positioning the insert 13 between the 1st mold 11 and the 2nd mold 12, as shown in FIG. In addition, a rectangular cavity space C2 having a thickness T1 surrounded by the flat surface 11a of the concave portion N of the first mold 11 and its four side surfaces 11b and the flat surface 12a of the convex portion P of the second mold 12 is formed. The

  That is, in the press molding apparatus 10, when the insert 13 is not disposed between the first mold 11 and the second mold 12, the flat surface 11a of the recess N of the first mold 11 and its four side surfaces 11b The surface f1 is formed, and the flat surface 12a of the convex portion P of the second mold 12 forms the second cavity surface f2.

  In the present embodiment, the second mold 12 can be fixed to a fixed object such as a base of the press molding apparatus 10, and the first mold 11 can be moved closer to and away from the second mold 12. In the present embodiment, the first mold 11 and the second mold 12 may be clamped by moving at least one of the first mold 11 and the second mold 12 closer to and away from each other.

  The cavity space C2 in FIG. 5 forms a panel shape. Specifically, the flat surface 11a of the concave portion N of the first mold 11 and the flat surface 12a of the convex portion P of the second mold 12 each form the surface of the press-formed product 30b, and the four concave portions N of the first mold 11 are formed. The side surface 11b forms the outer edge of the press-formed product 30b. That is, the thickness T1 of the press-formed product 30b is determined by the distance between the flat surface 11a of the concave portion N of the first mold 11 and the flat surface 12a of the convex portion P of the second mold 12.

  On the other hand, the cavity space C1 of FIG. 2 forms a panel shape having a smaller size than the cavity space C2. Specifically, the flat surface 11a of the concave portion N of the first mold 11 and the flat surface 12a of the convex portion P of the second mold 12 each form the surface of the press-formed product 30a, and the three concave portions N of the first mold 11 are formed. The side surface 11b and one side surface 13b of the insert 13 form the outer edge of the press-formed product 30a. That is, the thickness T1 of the press-formed product 30a is also determined by the distance between the flat surface 11a of the concave portion N of the first mold 11 and the flat surface 12a of the convex portion P of the second mold 12.

  Therefore, even when the insert 13 is disposed between the first mold 11 and the second mold 12, the insert 13 is disposed more than the press-formed product 30a without changing the thickness T1 of the press-formed products 30a and 30b. The press-molded product 30b having a smaller size can be formed by that amount.

  The code | symbol 40a of FIG. 1 is a molding material used for shaping | molding of the press molded product 30a. The code | symbol 40b of FIG. 4 is a molding material used for shaping | molding of the press molded product 30b. In the present embodiment, the molding materials 40a and 40b are sheet materials obtained by impregnating reinforcing fibers with resin paste. Examples of such a sheet material include a sheet material made of fiber reinforced plastic (FRP). A specific example of FRP is a sheet molding compound (SMC). In SMC, a composition in which a thickener is mixed with a mixture obtained by kneading a base resin with a filler, a release agent, a curing catalyst, and the like is applied onto a polyethylene film, and fibers (for example, glass fibers) are laid on the polyethylene film. , Both are compression impregnated and rolled into a sheet or zigzag folded to make tack free. That is, the press molding according to the present invention includes SMC molding.

  In FIG. 1, when the molding material 40a is pressed between the first mold 11 and the second mold 12, the flat surface 11a formed in the recess N of the first mold 11 while maintaining the volume thereof, It deform | transforms so that it may spread in a horizontal direction along the plane 12a formed in the convex part P of 2 molds 12. FIG. Similarly, when the insert 13 is pressed between the first mold 11 and the second mold 12, the plane 11 a formed in the concave portion N of the first mold 11 and the second mold 12 are maintained while maintaining the volume. It deform | transforms so that it may spread in a horizontal direction along the plane 12a formed in the convex part P of this.

  That is, as shown in FIGS. 1 and 2, in the press molding in which the insert 13 is disposed between the first mold 11 and the second mold 12, the thickness of the molding material 40a and the thickness T2 of the insert 13 are the molding material. As long as the sum of the volume of 40a and the volume of the insert 13 does not exceed the volume of the cavity space C2, the design dimension of the thickness T1 of the press-formed product 30a, the first mold 11 (and the second mold 12) provided as a press-forming device. ) And the material of the insert 13 are set as appropriate.

  Further, as shown in FIGS. 4 and 5, in press molding in which the insert 13 is not disposed between the first mold 11 and the second mold 12, the thickness of the molding material 40b is such that the volume of the molding material 40b is equal to that of the cavity space C2. As long as the volume does not exceed the volume, the design dimension of the thickness T1 of the press-formed product 30b, the mold clamping force of the first mold 11 (and the second mold 12) given as a press-forming device, and the like are set as appropriate.

  Here, with reference to FIG. 1 to FIG. 5, different sizes of press forming can be performed using the press forming apparatus 10 according to an embodiment of the present invention, which is capable of performing the press forming method according to the embodiment of the present invention. A method for manufacturing the products 30a and 30b will be described.

  First, the case where the panel-shaped press-formed product 30a having a smaller surface area than the press-formed product 30b in FIG. 5 is formed will be described. In this case, the press molding method according to the embodiment of the present invention is executed using the press molding apparatus 10 having the form shown in FIGS.

  In the first step, as shown in FIG. 1, there is elasticity between the first cavity surface f1 formed on the first mold 11 and the second cavity surface f2 formed on the second mold 12. A nest 13 having a thickness T2 compressed by clamping the first mold 11 and the second mold 12 and a molding material 40a are disposed.

  In the present embodiment, the nesting 13 is first arranged in the first step. For example, the nest 13 can be disposed on the flat surface 12 a formed on the convex portion P of the second mold 12 by removing the first mold 11 from the second mold 12. Next, in the present embodiment, the molding material 40a is disposed in the first step. By forming the molding material 40a into a sheet shape as in the present embodiment, the projection of the second mold 12 is as much as the nest 13 is disposed on the flat surface 12a formed on the projection P of the second mold 12. It can be arranged in a folded state in a range narrower than the entire plane 12a of the part P.

  In the present embodiment, in the first step, it is preferable that the first mold 11 is sequentially executed while the first mold 11 is removed from the second mold 12. In the present embodiment, the insert 13 can be disposed after the molding material 40a is disposed between the first cavity surface f1 and the second cavity surface f2. That is, in the press molding method of the present invention, the order in which the insert 13 and the molding material 40a are arranged can be changed.

  Next, in the second step, as shown in FIG. 2, the first mold 11 and the second mold 12 are relatively brought close to each other, and the first mold 11 and the second mold 12 are clamped. A cavity space C1 is formed by the first cavity surface f1, the second cavity surface f2, and the third cavity surface f3 formed in the insert 13, and the insert 13 and the molding material 40a are compressed in the cavity space C1. The press-formed product 30a is obtained.

  In the present embodiment, in the second step, the molding material 40a is heated, and the first mold 11 is brought close to the second mold 12 according to the time series of FIGS. 3 (a), (b) and (c). Thus, the insert 13 and the molding material 40a are pressed by the first cavity surface f1 formed on the first mold 11 and the second cavity surface f2 formed on the second mold 12 to press the insert 13 and the molding material 30a. As shown in FIG. 2, compression is performed up to the compression amount Δt1.

  In detail, first, as shown to Fig.3 (a), the molding material 40a is compressed. At this time, the molding material 40a is kept horizontally along the flat surface 11a formed in the concave portion N of the first mold 11 and the flat surface 12a formed in the convex portion P of the second mold 12 while maintaining its volume. Deforms to spread in the direction.

  When pressing proceeds from the state of FIG. 3A, compression of the nesting 13 is started as shown in FIG. 3B. At this time, the molding material 40a is kept horizontally along the flat surface 11a formed in the concave portion N of the first mold 11 and the flat surface 12a formed in the convex portion P of the second mold 12 while maintaining its volume. Deforms to spread in the direction.

  When pressing further proceeds from the state of FIG. 3B, the insert 13 is compressed together with the molding material 40a. At this time, the nest 13 also keeps its volume, along the plane 11a formed in the concave portion N of the first mold 11 and the plane 12a formed in the convex portion P of the second mold 12, in the horizontal direction. Deforms to spread.

  When the state shown in FIG. 3C is reached, the first cavity surface f1 formed in the first mold 11, the second cavity surface f2 formed in the second mold 12, and the first cavity surface formed in the insert 13 are reached. A press-molded product 30a having a thickness T1 and a small surface area compared to the press-molded product 30b formed in the shape of the cavity space C1 partitioned by the three-cavity surface f3 can be obtained.

  Next, a case where a panel-shaped molded product 30b having a surface area larger than that of the press-molded product 30a is molded will be described. In this case, the press molding apparatus 10 having the form shown in FIGS. 4 and 5 without using the insert 13 is used.

  In the first step, as shown in FIG. 4, the molding material 40b is placed between the first cavity surface f1 formed on the first mold 11 and the second cavity surface f2 formed on the second mold 12. Deploy. In the present embodiment, the first mold 11 is removed from the second mold 12, and the sheet-shaped molding material 40 b is arranged in a folded state on the flat surface 12 a formed on the convex portion P of the second mold 12. .

  Next, in the second step, as shown in FIG. 5, the first mold 11 and the second mold 12 are moved relatively close to each other, and the first mold 11 and the second mold 12 are clamped. A cavity space C2 is formed by the first cavity surface f1 and the second cavity surface f2, and the molding material 40b is compressed in the cavity space C2. In this example, in the second step, the molding material 40 b is heated and the first mold 11 is brought close to the second mold 12, whereby the cavity surface f1 of the first mold 11 and the cavity surface of the second mold 12 are obtained. According to f2, the molding material 40b is pressed to compress the molding material 40b to obtain a press-molded product 30b.

  Specifically, the molding material 40b is compressed. At this time, while maintaining the volume of the molding material 40b, the molding material 40b is horizontally aligned along the flat surface 11a formed in the concave portion N of the first mold 11 and the flat surface 12a formed in the convex portion P of the second mold 12. Deforms to spread in the direction.

  As a result, as shown in FIG. 5, the shape of the cavity space C2 defined by the first cavity surface f1 formed in the first mold 11 and the second cavity surface f2 formed in the second mold 12 is obtained. A shaped press-formed product 30b having a large surface area and having a thickness T1 can be obtained.

  When obtaining press-molded products having different sizes such as the press-molded products 30a and 30b, it is disadvantageous in terms of cost and the like to prepare a plurality of molds according to the sizes.

  In addition, using a larger mold to obtain a larger press-molded product in advance, and cutting this press-formed product to a desired size wastes the cutting cost required for the cutting, and further cuts. If there is a surplus later, it becomes waste.

  On the other hand, a method of changing the size of the cavity space of the same mold by using a metal insert is also conceivable. However, when using a metal insert, it is necessary to secure the amount of mold movement required to press the molding material, for example, by forming a recess in the cavity surface and inserting the insert into the recess. A parting line may be formed along the gap formed between the insert and the recess in the press-formed product. In addition, the metal nesting may not be applicable to an existing mold because there is no degree of freedom in shape change. Further, in the replacement of the insert, if the setting property with respect to the mold is poor, it takes time to replace the insert.

  In addition, when using a metal insert, if the insert receives pressure from the mold and the mold clamping is limited, the molding pressure from the mold will not be applied properly to the molding material. There is a risk of defects. In particular, when the molding material is SMC, in order to stabilize the appearance shape of the molded product, for example, the first mold and the second mold are clamped so that some cut portions (burrs) are generated in the molded product. Sometimes, a gap having a wedge-shaped cross section is formed in a contour portion formed by a mating portion of the first mold and the second mold (shear edge structure). In this case, the molding material to which the molding pressure from the mold is appropriately applied flows through the gap having a wedge-shaped cross section, and the flow stops at the wedge-shaped tip portion, whereby a slight burr can be generated in the molded product. However, when the thickness of the nesting is reduced so that the molding pressure from the mold is appropriately applied to the molding material, there is a possibility that the flow of the molding material cannot be suppressed by using the nesting portion as a weir.

  In contrast, the insert 13 according to the present embodiment is disposed between the first cavity surface f1 formed in the first mold 11 and the second cavity surface f2 formed in the second mold 12, and the first A press-molding insert in which a third cavity surface f3 that forms a cavity space C1 together with the first cavity surface f1 and the second cavity surface f2 is formed, and is elastic and has elasticity between the first mold 11 and the second mold 12. It has a thickness T2 that is compressed by clamping.

  If the insert 13 according to the present embodiment is used, a plurality of press-formed products (30a, 30b) having different sizes can be obtained while using the same first mold 11 and second mold 12, so that the cost is reduced. Etc. are advantageous.

  Further, if the insert 13 according to the present embodiment is used, it is not necessary to form a large press-formed product in advance and cut the press-formed product according to a desired size. For this reason, the cutting allowance required for cutting is not wasted, and further, since no surplus portion is generated after cutting, no waste is generated, and as a result, the molding material can be greatly reduced.

  In addition, since the insert 13 according to the present embodiment has elasticity, for example, without forming a recess for positioning the insert 13 in the first cavity surface f1 or the second cavity surface f2, The gap between the insert 13 and the mold (11, 12) is sealed by the shape change when an external force is applied. For this reason, a parting line is not formed along the gap formed between the insert 13 and the mold (11, 12) in the resulting press-formed product 30a. Further, the insert 13 can be set simply by placing it on the first cavity surface f1 or the second cavity surface f2. For this reason, it is easy to apply to the existing press molding apparatus (mold) like the press molding apparatus of the fundamental structure only of the 1st mold 11 and the 2nd mold 12 illustrated in FIG. Furthermore, for example, an elastic material such as rubber can be applied to the insert 13. Since the elastic material is light compared to the metal material, the workability of the set is good, and it does not take time to replace the insert, and it is not necessary to use a machine such as a crane.

  Further, since the nesting 13 has elasticity, even if the thickness T2 of the nesting 13 is set so that the thickness T1 of the press-formed product 30a after the press molding becomes thinner than the thickness T2 of the nesting 13, the nesting 13 Since the compression Δt1 generated in the step 1 allows the movement of the first mold 11 and the second mold 12, the molding pressure from the first mold 11 and the molding pressure from the second mold 12 are appropriately applied to the molding material, and press molding is performed. Appearance defects are unlikely to occur in the product 30a. In particular, when the molding material 40a is SMC, even if the first mold 11 and the second mold 12 have a shear edge structure, the contact portion between the first mold 11 and the insert 13 is compressed and the second mold 13 is compressed. The contact portion between the mold 12 and the insert 13 is sealed. For this reason, the flow of the molding material 40a is suppressed by using the deformed portion of the insert 13 as a weir. As a result, the molding material 40a to which the molding pressure from the first mold 11 and the molding pressure from the second mold 12 are appropriately applied flows through the gap having a wedge-shaped section, and the flow of course flows at the tip of the wedge-shaped section. By stopping even the deformed portion of the insert 13, the appearance shape of the press-formed product 30a is stabilized, so that some cut portions (burrs) can be generated in the press-formed product 30a.

  Thus, according to the press molding method and press molding apparatus according to the present embodiment using the insert 13 according to the present embodiment, the same appearance is used while using the same first mold 11 and second mold 12. A plurality of press-formed products 30a and 30b having different sizes can be obtained without being damaged.

  Further, even when the molding material 40a is a sheet material impregnated with a resin paste, as in the press molding method and press molding apparatus according to the present embodiment using the insert 13 according to the present embodiment, it is stable. An external press-formed product 30a can be obtained.

  Moreover, in the press molding method and press molding apparatus according to this embodiment using the insert 13 according to this embodiment, the insert 13 is a rubber insert.

  Here, a method for manufacturing the rubber insert 13 will be described.

  In this embodiment, first, an unvulcanized rubber is used as a raw material, and a basic rubber product is vulcanized with a mold (11, 12) to be implemented. Here, the rubber insert is manufactured to be slightly thicker than the thickness T1 of the press-formed products 30a and 30b. The conditions for vulcanization molding are determined according to the molding conditions for rubber.

  Next, the vulcanized rubber product is cut at a portion to be nested, and the insert 13 according to the present embodiment is completed.

  Thus, if a rubber insert is used as the insert 13 according to this embodiment, a press forming insert for obtaining press-formed products 30a and 30b having different sizes can be provided simply and inexpensively. According to the press molding method and the press molding apparatus according to the present embodiment using the insert 13 according to the present embodiment, a plurality of press molded products 30a and 30b having different sizes can be obtained easily and inexpensively.

  The above is an example of the embodiment of the present invention, and various modifications can be made according to the description of the scope of claims. For example, the press-formed product is not limited to a unit bath wall panel, and the shape of the cavity spaces C1 and C2 is not limited to the panel shape, and can be various shapes. The molding material is not limited to a sheet material impregnated with a resin paste as long as it is used for press molding. Further, the shape of the nesting is not limited to the shape disclosed in the present specification, and can be appropriately changed by providing a step according to the shape of the first and second cavity surfaces. The materials of the first mold 11 and the second mold 12 can be appropriately selected according to the molding material and the like in addition to the metal such as iron, steel, or cast iron.

  The present invention can be used as a press molding insert, a press molding method, and a press molding apparatus for press molding a molding material.

  10; (according to an embodiment of the present invention), press molding apparatus, 11; first mold, 11a; plane of first mold recess (first cavity surface), 11b; side surface of first mold recess (first Cavity surface), 12; second mold, 12a; plane of convex part of second mold (second cavity surface), 12b; side surface of convex part of second mold, 13; nest (nesting for press molding), 13a; Nest plane, 13b; Nest side (third cavity surface), 30a; Press molded product (molded using a nest), 30b; Press molded product (molded without a nest), 40a; Molding material used for press molding used), 40b; Molding material used for press molding without nesting; C1; Cavity separated by nesting C1; cavity space (partitioned without using a nest), f1; first cavity surface, f2; second cavity surface, f3; third cavity surface, N: concave portion of the first mold, P; 2 Mold convex part, T1; thickness of press-molded product, T2; thickness of nesting, Δt1; amount of compression of nesting

Claims (9)

A third cavity is disposed between the first cavity surface formed in the first mold and the second cavity surface formed in the second mold, and forms a cavity space together with the first cavity surface and the second cavity surface. A press-molding insert with a cavity surface formed,
The press-molding nest is a press-molding nest that has elasticity and is compressed in a mold clamping direction by clamping of the first mold and the second mold.   The press molding insert according to claim 1, wherein the molding material is a sheet material impregnated with a resin paste.   The press-molding insert according to claim 1 or 2, wherein the press-molding insert is a rubber insert. Between the first cavity surface formed in the first mold and the second cavity surface formed in the second mold, there is elasticity, and the mold clamping direction is achieved by clamping the first mold and the second mold. Placing a nesting to be compressed in and a molding material;
By bringing the first mold and the second mold relatively close to each other and clamping the first mold and the second mold, the first cavity surface, the second cavity surface, Forming a cavity space with the third cavity surface formed in the nest, and compressing the nest and the molding material in the clamping direction in the cavity space;
A press molding method.   The press molding method according to claim 4, wherein the molding material is a sheet material impregnated with a resin paste.   The press molding method according to claim 4 or 5, wherein the nesting is a rubber nesting. A first mold formed with a first cavity surface;
A second mold having a second cavity surface formed thereon;
A nest formed between the first cavity surface and the second cavity surface, and a third cavity surface formed with the first cavity surface and the second cavity surface to form a cavity space;
The nest has elasticity and is compressed in a mold clamping direction by clamping of the first mold and the second mold.   The press molding apparatus according to claim 7, wherein the molding material is a sheet material impregnated with a resin paste.   The press molding apparatus according to claim 7 or 8, wherein the nesting is a rubber nesting.

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