JPH0513802B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a method for producing a hydraulic extrusion molded article having a surface decoration having semi-permanent durability and suitable for interior/exterior wall materials, etc.

[Conventional technology]

Conventionally, for example, the surface decoration of cement-based extruded molded products, which are used as building materials, has been carried out by painting methods, attaching tiles or stones with adhesives, molding or processing the base surface into dovetail groove shapes, etc. There are two methods: a method of attaching tiles, stones, etc. to this, a method of applying glaze directly, and a method of attaching tiles, stones, etc. using hardware.

However, in the above method, the coating is not durable, there is a risk of peeling of the surface material, it is difficult to obtain dimensional accuracy of the inset part, and the glaze used is low due to the low firing temperature. In addition, the strength of the base material is significantly reduced by firing, and strength cannot be completely restored even with rehydration. In this case, metal objects will appear on the surface and spoil the aesthetic appearance.

There was a problem.

[Problem to be solved by the invention]

The present invention aims to solve the problems of the prior art and provide a method for easily manufacturing a hydraulic extrusion molded body in which a decorative board having sufficient durability is reliably adhered to the surface with high dimensional accuracy. It is.

[Means to solve the problem]

In order to solve the above problems, the present invention uses the top surface of the tail end of a steel conveyor as a bottom plate, and an upper part consisting of an upper formwork and an end formwork fixed to the end of the upper formwork in the extrusion direction of the hydraulic base material. Using a formwork including a member and a side formwork, move the upper member and side formwork outward to expand the formwork internal space, and create a decorative board with a convex part and/or a concave part on the back side. Place the decorative board on the steel conveyor outside the formwork with the back facing up, then reverse the steel conveyor to supply the decorative board to the formwork position, and use the decorative board as the bottom frame to remove the open top member and side formwork. Move inward to assemble a formwork, extrude and fill the formwork with a hydraulic base material using an extruder, integrate the base material with the decorative laminate to form an integral molded body, and use this integral molded body as an unformed body. The present invention provides a method for cutting from the base material, then opening the upper member and side formwork to separate it from the integral molding, and forwarding and curing the integral molding from the mold position by rotating a steel conveyor in the normal direction.

[Effect]

According to the present invention, since a reversible steel conveyor is used as the bottom plate of the extrusion mold, the upper part of the mold and the side molds are moved outward to slightly expand the inner space of the mold, and the steel conveyor is moved outward. By reversing, the decorative board can be easily inserted into the mold from the product discharge side of the mold. Therefore, without removing the extruder or disassembling the formwork, it is possible to mount a large decorative board that completely covers the bottom surface of the molded object in a predetermined position within the formwork and integrate it with the base material. can.

Hereinafter, the present invention will be explained in detail along with its operation using the drawings.

FIG. 1 is a schematic vertical cross-sectional view showing a state in which the upper member and the side formwork are assembled after the decorative laminate has been supplied in a preferred apparatus used in the present invention, and FIG. - A schematic diagram in the direction of arrow A, FIG. 3 is a schematic diagram in the direction of the B-B arrow in FIG. 1, and FIG. 4 is an explanatory diagram showing the operation of the cutter. Spreader 2 is connected to the machine and approximates the cross-sectional outer circumferential shape of the substrate to the cross-sectional outer circumferential shape of the product.
and: A base 5 connected to the spreader and having a preforming frame 3 for preforming the cross-sectional outer circumferential shape of the substrate into the cross-sectional outer circumferential shape of the product; A reversible steel conveyor 6 that rotates in the opposite direction to insert the decorative laminate into the body and rotates in the normal direction to deliver the integral molded body of the decorative laminate and the substrate; Side formworks 8a and 8b are provided and slidably abut on the upper surface of the tail end of the steel conveyor in a direction perpendicular to the extrusion direction, and form both sides of the integral molded body.
and: an upper formwork 9 disposed with a gap in the extrusion direction of the upper part of the preform, and abuts on the upper surface of the side formwork to form the back side of the integrally formed body; From the extrusion direction end of the side formwork provided at the direction end and the end formwork 11 which abuts the upper surface of the steel conveyor, forms the extrusion direction end of the integrally molded body, and has a degassing hole 10. and an upper member 12 that is movable up and down;
Upper cutter 13 for cutting the base material and the integral molded body
and: Provided so that it can enter and leave the gap from the side,
Side cutter 14 for cutting the base material and the integral molded body
a, 14b: A mount having a support plate 15 that slides and supports the steel conveyor from below, and a blocking plate 16 that abuts the end of the upper member in the extrusion direction and prevents the upper member from moving in the extrusion direction. 17 and: A space 18 into which the steel conveyor enters is provided between an end in the extrusion direction of the bottom of the preform frame and an end in the extruder direction of the support plate.

The method of the present invention can be carried out using the above-mentioned apparatus according to the following procedure.

First, the upper member 12 is pulled upward and the side formworks 8a and 8b are slid toward the outside of the formwork on the top surface of the tail end of the steel conveyor 6, thereby expanding the space within the formwork and forming the decorative board 20. can be inserted into the formwork. The decorative board 20 having a convex portion and/or a concave portion on the back side is placed with the back side facing upward in a position where the steel conveyor 6 extends outside the formwork in the normal rotation direction (in the direction of the arrow in the figure). The conveyor is reversed to supply the decorative board 20 to the position where the formwork is assembled. Thereby, the decorative board 20 can be easily supplied to a desired position within the formwork. Therefore,
Large-sized decorative boards, such as 4m long and 1.8m wide, are also available.
No need to worry about formwork and its drive equipment, etc.
Can be easily inserted into the formwork at a precise location.

The side forms 8a and 8b are slid inward on the upper surface of the tail end of the steel conveyor 6 so as to come into contact with the side of the decorative board 20, the upper member 12 is pushed down, and the lower surface of the upper form 9 is moved inward. The formwork is assembled by bringing the bottom surface of the end formwork 11 into contact with the top surface of the steel conveyor 6 on the top surface of the formworks 8a and 8b, respectively, and the formwork is brought into the state shown in FIGS. 1 to 3.

When the hydraulic base material is extruded from the screw type extruder 1, the base material extruded into a cylindrical shape is transferred to the spretzer 2.
The cross-sectional outer circumferential shape of the substrate is made to approximate the cross-sectional outer circumferential shape of the product.Then, the cross-sectional outer circumferential shape of the substrate is preformed by a die 5 having a preforming frame 3 that preforms the cross-sectional outer circumferential shape of the substrate into the cross-sectional outer circumferential shape of the product. be done. If the integral molded body 19 has a hollow part, a cap 5 with a core 4 attached thereto is used.

The preformed base material is a decorative board 20 and a side formwork 8
a, 8b and the upper member 12 to fill this space, and when the space is completely filled with the base material and the integrally molded body 19 of the base material and the decorative board 20 is formed, extrusion is performed. Stop operation of machine 1.

Upper cutter 13 and side cutters 14a, 14b
into the interval 7 from the top and side, respectively,
The base material and the integrally molded body 19 are cut, and after cutting, the cutter is released and returned to its original position.

Pull up the upper member 12 and remove the side formwork 8.
a and 8b are slid outward on the steel conveyor 6 to be separated from the integral molded body 19 and removed from the mold. Thereby, the uncured extrusion molded body integrated with the decorative board can be demolded without being deformed.

The steel conveyor 6 is rotated in the normal direction, and the integral molded body 19 is
is sent out from the formwork position. The integral molded body is also separated from the core 4 and sent out. Next, it is cured.

After sending out the integrally molded body 19, the above operation is repeated to assemble the decorative board 20, side forms 8a, 8b, and upper member 12 at predetermined positions, and the base material is extruded from the mouthpiece 5 to produce the next integrally molded body. do.

Sliding and fixing of side forms 8a and 8b, upper member 1
The vertical movement and fixation of the cutter 2 and the entry and removal of the upper cutter 13 and the side cutters 14a and 14b are performed by an appropriate drive device such as a cylinder/piston or pinion rack.

Since the decorative board is integrally molded with the base material extruded by the convex portions and/or concave portions provided on the back side, there is no risk of peeling, and there is no need for separate installation, and the molded product can be easily molded. Since it is molded within a frame, the dimensional accuracy is high, and when the above-mentioned apparatus is used, a hollow molded product can be obtained.

The convex portions and concave portions provided on the back side of the decorative board can be provided individually or both, and the shape of the convex portions and concave portions is dovetail-shaped to ensure integration with the base material. Preferably, dovetail-shaped protrusions and grooves are provided in the same direction as the extrusion direction of the base material, which makes filling with the base material easier, and is particularly preferred.

As the decorative board, durable and beautiful decorative boards such as ceramics such as tiles, stone, metal, plastic, etc. can be used.

As the hydraulic matrix, hydraulic substances such as cement, a mixture of silicic acid wet raw material and calcareous raw material, semi-hydrous or molded anhydrite, and reinforcing fibers such as asbestos, pulp, and organic synthetic fibers, and thickeners are used as required. The curing method used is natural curing, steam curing, or autoclave curing.

〔Effect of the invention〕

According to the method of the present invention, a highly durable and beautiful decorative laminate can be easily inserted into a formwork at a precise position, and this decorative laminate can be completely attached to the surface of a hydraulic extrusion with the base material. An integrated molded body can be easily manufactured. Such a decorative board has no danger of peeling or the like, and therefore, the present invention can provide an extremely excellent integrally molded body as an interior/exterior wall material, particularly as an exterior wall material of a high-rise building.

[Brief explanation of the drawing]

FIG. 1 is a schematic vertical cross-sectional view showing a state in which the upper member and the side formwork are assembled after the decorative laminate has been supplied in a preferred apparatus used in the present invention, and FIG. - A schematic view of the arrow, Figure 3 is the 1st
FIG. 4 is an explanatory diagram showing the cutter operation. 1... Extruder, 2... Spreader, 3... Preform frame, 4... Core, 5... Mouthpiece, 6... Steel conveyor, 7... Gap, 8a, 8b... Side formwork, 9... Upper formwork, 10... Deaeration hole, 11...
End formwork, 12... Upper member, 13... Upper cutter, 14a, 14b... Side cutter, 15... Support plate, 16... Blocking plate, 17... Frame, 18...
Space portion, 19... Integral molded body, 20... Decorative board.

Claims (1)

[Claims] 1 The upper surface of the tail end of the steel conveyor is used as the bottom plate,
Using a formwork comprising an upper member and a side formwork consisting of an upper formwork and an end formwork fixed to the end of the upper formwork in the extrusion direction of the hydraulic base material, the upper member and the side formwork are The decorative board moves outward to expand the internal space of the formwork and has a convex and/or concave part on the back side.
Place the decorative board on the steel conveyor with the back side facing up in a position where the steel conveyor extends outside the formwork in the normal rotation direction, and then reverse the steel conveyor to place the decorative board in the position of the formwork. supply, move the upper member and the side formwork inward using the decorative board as a lower frame to assemble the formwork, extrude and fill the hydraulic base material into the assembled formwork using an extruder,
integrating the base material with the decorative laminate to form an integral molded body; cutting the integral molded body from the unformed base material;
The molded body is characterized in that the upper member and the side formwork are moved outward to separate them from the integral molded body, and the steel conveyor is rotated in the normal direction to deliver the integral molded body from the mold position. Production method.