JPS59164105A - Method and device for carrying extrusion shape consisting ofcement group composition - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method and apparatus for conveying extruded products made from cement-based compositions, and more particularly to a method and apparatus for extrusion conveying extruded corner pieces, large corner pieces, etc. having a V-shaped cross section. It is something.

In general, a cement composition is composed of cement as a main material, and auxiliary materials such as silica sand, asbestos, and shirasu balloons are appropriately mixed therein. The conventional manufacturing method for this type of molded product is to add water to the composition, knead it, run it in an extruder to make a flat molded product of a predetermined length, and then bond the two molded products after curing and hardening. Join them at right angles using adhesive. Alternatively, a method of molding one piece using a mold like a casting mold is used. When using the former method, the adhesive surface may be contaminated.
This greatly affects the adhesive strength, and also causes the adhesive to ooze out at the joint, making the product unsightly. Furthermore, when using the latter method, a long period of water use reaction and curing are required before the product can be released from the mold, and a large number of molds are required for mass production, resulting in extremely low productivity.

The invention was made in view of the above-mentioned drawbacks of the conventional method, and it is possible to reliably shape a molded product with a shaped cross section extruded from a die of an extruder and a shaped product cut into a predetermined length without deforming it. Extrusion molding made of a cementitious composition is transported in a state where it is held, and then the extrusion molded product made of a cementitious composition in a fixed shape is continuously and purposefully formed to improve the molding speed. Our goal is to provide methods and equipment for transporting goods.

Hereinafter, the present invention will be described in detail with reference to the drawings.

FIG. 1 schematically shows a conveying device for extruded molded products according to the invention, in which a cement-based composition to which water has been added is supplied from E, -E2 provided at the top of an extruder 1, and Sufu IJ provided inside the extruder 1.

- (not shown) to continuously extrude the molded article A (FIG. 2) from a die 3 having a V-shaped hole.

An extrusion speed detection roller 4 for the extrusion molded product A is disposed in front of the extruder 1 (to the right in FIG. 1) and in contact with the extruder IKid. The speed detection roller 4 is, for example, a cone (Fig. 3), or a cone (Fig. 4) is formed by slidingly overlapping a plurality of disks with different diameters, and the cones are mutually connected. A fifth roller may be arranged facing each other or arranged so that the circumferential surfaces of the plurality of rollers are orthogonal to each other so that their upper surfaces constitute a guide surface with a trapezoidal cross section.
(Fig. 6A to 60), or a belt having a guide surface with a trapezoidal cross section on the upper surface shown in Figs. 6A to 60 is wound around a pair of pulleys so that the belt can rotate freely. When it contacts and rotates the molded product A continuously extruded from the die 3, the rotation of the roller or belt is electrically detected by a generator or rotary encoder, etc. to detect the moving speed of the molded product A. This is how it was done. Among the above rollers, the roller shown in FIG. 4 is superior to the roller shown in FIG. 3 in that there is less slip between the roller and the molded product A.

A first belt conveyor 5 is provided in front of the speed detection roller 4. The first belt conveyor 5 is equipped with a belt 5C wound around a motor pulley 5A and a plurality of pulleys 5B, and the transfer speed is the same as the extrusion speed of the molded product A according to the speed signal emitted from the speed detection roller 4. It is controlled so that Note that the cross section of the belt 5C is formed similarly to any of the belts shown in FIGS. 6A to 60. A cleaning device 6 driven by a motor (not shown) is disposed below the first belt conveyor 5 and cleans the surface of the first belt conveyor 5 by rotating a brush.

A cutting device 7 is provided above the first belt conveyor 5, and the belt conveyor 5 is cut by the operation of an air cylinder or the like.
Cuts are made at predetermined intervals on the molded product A being transferred. For this reason, the cutting device 7 reciprocates back and forth in the direction of the arrow 7A. As shown in FIG. 7, the cutter 7B of the cutting device 7 has a protruding blade portion in the shape of a mountain, and moves vertically onto the molded product A placed on the guide surface of the trapezoidal cross section of the belt conveyor 5 to make a cut. Add.

A group of free rollers 8 arranged in series is provided in front of the first belt conveyor 5. The free rollers on each side of this free roller group are formed similarly to any of the rollers shown in FIGS. 3-5.

A second belt conveyor 9 is provided in front of the free roller group 8. This second belt conveyor 9 is also the first belt conveyor 5.
It has a similar structure and is also equipped with the cleaning device 10, but the extrusion speed is almost the same as the extrusion speed of the molded product,
The only difference from the first belt conveyor 5 is that it is transferred at a higher speed. The reason why the speed of the second belt conveyor 9 is variable as described above is that depending on the length between the cuts in the extrusion molded product, the front and rear ends of a single uncured molded product may be placed across the first and second belt conveyors. In this case, both belt conveyors must be at the same speed, and if the cut is above the free roller group 8, the front molded product must be fed faster than the rear molded product. This is because it is necessary to increase the speed of the two-belt conveyor 9.

A sheet feeding device 11 is disposed below between the free roller group 8 and the second belt conveyor 9. Sheet feeding device 1
Reference numeral 1 supplies a sheet 12 for applying the lower surface of a molded product made of hard PVC or the like onto the second belt conveyor 9 before transferring the molded product A onto the second belt conveyor 9. The sheet 12 is pre-creased in a V-shape just before being fed, or
Alternatively, creases may be formed naturally depending on the weight of the molded product A transferred onto the sheet 12, or the sheet 12 may be folded in two.
can also be fed onto the second belt conveyor 9 while being returned. A sheet cutting device 13 is provided near the rear end of the second belt conveyor 9 to cut the sheet 12 to a length slightly longer than the cut interval of the molded product A.

A pallet transfer device 14 is disposed in front of the second belt conveyor 9. The pallet transfer device 4 has a plurality of idle rails 15 provided laterally with respect to the moving direction of the second belt conveyor 9, and pallets 16 that move intermittently in the lateral direction on the guide rails 1-5. A plurality of rows of free roller groups 17 are arranged on the pallet 16 in parallel to the moving direction of the second belt conveyor 9. This free roller group 17 can have a similar structure to the free roller group 8.

Also, what are the die holes of the extruder mentioned above and the top surface of each transfer device of the speed detection roller 4, the first belt conveyor 5, the free roller 5Jl-8, the second belt conveyor 9, and the free roller group 17 of the pallet transfer device 14? Place them on the same level.

Further, it is preferable that the cross-sectional shape of the lower surface of the molded product A and the cross-sectional shape (8) of the guide surface of each transfer device are the same.

Next, the operation of the present invention will be explained.

(1) When the cement composition is extruded through the hole of the extrusion-like die 3, a molded article A having the same cross-sectional shape as the die hole is extruded.

(2) The extrusion speed is detected when this passes over the speed detection roller 4 in the form of a free roller.

(3) Send a speed signal to the motor pulley 5A of the first belt conveyor 5 to move the first belt conveyor 5 at the same speed as the extrusion speed. This is done because the molded product A on the first belt conveyor 5 is still in a soft state, so the molded product A that is being extruded from the rear is moved at the same speed as the extrusion speed of the extruder 1 to prevent its deformation. It's for a reason.

(4) The cutting device 7 moves forward at the same speed as the first belt conveyor 5 and cuts the molded product A from the sender on the conveyor.

(5) The cut molded product A may be cut and separated at the cut, but may be extruded onto the free roller group 8 at the same speed as the extrusion speed without being completely separated.

(6) Before the molded product A is conveyed to the second belt conveyor 9, the sheet 12 for applying the lower surface of the molded product is fed onto the second belt conveyor 9 by a sheet feeding device. sheet 1
2 is slightly wider than the width of the molded product. Further, the molded product is cut by the cutting device 13 to a length slightly longer than the length of the molded product. If the sheet is made of a material that does not easily bend, such as hard PVC, and has creases that match the bottom shape of the molded product A, then the uncured molded product A is completely rolled from below on the free roller group 17 in the next step. Because it supports y uniformly, no deformation occurs. This sheet is used to cover the bottom surface during pre-curing and is removed from the molded product before autoclaving the molded product A. A sheet with good releasability is selected.

The second belt conveyor 9 is designed to be able to move at a constant speed or higher speed than the first belt conveyor 5, and the molded product A is simply separated or pulled at the cut portion due to the speed difference between the two. Separate it.

(7) As described above, each molded product A with the sheet 12 attached to the shore surface is placed in the first row of free rollers on the pallet 16.
When the transfer is completed, the gret 16 is sent horizontally by one pitch, and the next sent molded product A is transferred to the second row of free rollers @. When the transfer of molded products to one pallet is completed, a new pallet is supplied in preparation for the next transfer.

The present invention is configured as described above, and the molded product extruded from the die of the extruder is supported and guided by a guide surface having the same cross-sectional shape as the bottom surface shape of the molded product during transportation, and is in an uncured state. Since the bottom surface is supported by a sheet that does not easily bend when left on the gullet for a long time, it is possible to prevent the deformation that easily occurs to the molded product whether it is moving or stationary during molding of the extrusion molded product. Furthermore, the extrusion molded product can be continuously and automatically molded, and the molding speed and yield of the molded product can be improved.

[Brief explanation of the drawing]

FIG. 1 is a front view schematically showing an embodiment of the present invention, FIG. 2 is a perspective view showing an extruded product, and FIGS. 3 to 5 are front views showing modified versions of the free roller. 6A to 6C are front views showing modified versions of the belt conveyor, FIG. 7 is a front view showing the operation of the molded product cutting device, and FIG. 8 is a plan view of the molded product transfer device. DESCRIPTION OF SYMBOLS 1... Extruder, 3... Dice, 5... First belt conveyor, 7... Cutting device, 8... Free roller group, 9... Second belt conveyor, 11... C) Presentation! , 12... Sheet, 13... Sheet cutting device, 14... Molded product transfer device, 15... Guide rail, 16... Pallet, 17... Free roller group in multiple rows, A. ...Extrusion molded product.

Claims (1)

[Claims] 1. A method in which an uncured cement composition is continuously extruded through a shaped die hole of an extruder to form a molded article with a shaped cross section, which is then cut into a predetermined length and transported in the extrusion direction. The molded product extruded from the die is transferred at a speed substantially equal to the extrusion speed and is transferred to a first belt conveyor having a guide surface with a trapezoidal cross section on the upper surface, and the molded product being conveyed is transferred to the first belt conveyor having a guide surface with a trapezoidal cross section on the upper surface. Cuts are made at predetermined intervals on a belt conveyor, and the cut molded product is transferred to a group of free rollers that form a guide surface with a trapezoidal cross section on the upper surface, and placed next to the group of free rollers. Before transferring the molded product to the second belt conveyor, which can be transferred at a higher speed than the extrusion speed and has a guide surface with a trapezoidal cross section on the upper surface, a notebook for applying the bottom surface of the molded product is placed on the second belt conveyor. is fed one sheet at a speed almost equal to the extrusion speed until the cut reaches the free roller, and then transferred via the sheet to a second belt conveyor that moves at a high speed when the cut reaches the free roller. By doing this, each molded product is spaced apart, and each molded product with a sheet attached to the bottom surface is placed on one row of a group of free rollers that form a guide surface with a trapezoidal cross section on the top surface arranged on a pallet. Cement obtained by transferring the individual molded products one after another to the rows of adjacent free roller groups by intermittently moving the 9lets in the transverse direction with respect to the transfer direction of the second belt conveyor. A method for transporting an extrusion molded product made of a composition based on the composition. 2. An apparatus for continuously extruding an uncured cement-based composition through a shaped die hole of an extruder to form a molded product with a shaped cross section, cutting it into a predetermined length and conveying it in the extrusion direction, an extruder having holes; a first belt conveyor that moves at an extrusion rate almost equal to the extrusion speed of the extruder and has a guide surface with a trapezoidal cross section on its upper surface; A cutting device that makes cuts at predetermined intervals on the molded product, a group of free rollers that form a guide surface with a trapezoidal cross section on the upper surface, and an extrusion speed that is constant or higher than that of the extruder. and a second belt conveyor having a guide surface with a trapezoidal cross section on the upper surface, and a second belt conveyor having a trapezoidal cross section on the upper surface, and a sheet for applying a lower surface of the molded product is continuously placed on the second belt conveyor. the extruder, the first belt conveyor, the free roller group, and the hefilE2t belt conveyor; are arranged in series in close proximity to each other, and a molded product transfer device is provided adjacent to the second belt conveyor, and the transfer device includes a plurality of guide rails and a molded product transfer device that moves on the guide rails. A pallet that moves intermittently in the transverse direction with respect to the moving direction of the second belt conveyor, and a plurality of rows of free rollers forming a guide surface with a trapezoidal cross section on the upper surface on the pallet in the moving direction of the second belt conveyor. A conveying device for extruded products made of cement-based compositions arranged in parallel to each other.