KR20110092086A - Apparatus for arranging foam board - Google Patents

Abstract

PURPOSE: An aligner of a formboard is provided to smoothly exhaust a formboard by connecting a plurality of rollers through a plurality of belts and preventing the drooping of the formboard. CONSTITUTION: An aligner of formboard comprises a transfer device(20), an aligner(30), and a discharging device(60). The transfer device consecutively transfers the formboard to the state standing in line the singe-side of the formboard(10). The aligner drops the formboard to down space and four sides of the formboard are aligned. The discharging device discharges the stacked formboard in an aligned state at a time.

Description

Apparatus for arranging foam board

The present invention relates to an alignment apparatus for a foam board, and more particularly, to an alignment apparatus for a foam board, which is loaded in a uniform unit by a predetermined unit and sent to a subsequent process by foam molding.

Generally, XPS (Expand Polystyrene) and XPE (Expand Polyethylene) have independent bubbles in them to provide excellent heat and noise and moisture barrier properties and good impact resistance. It is widely used as insulation material, insulation material, insulation material, packing material, flotation material, etc. in the field of construction and gardening, and its range is gradually increasing. do.

For example, according to Korean Patent Laid-Open Publication No. 2005-0106616, "Polystyrene foam board manufacturing apparatus and manufacturing method" according to "the lamination means 20 to be fused through the heat-resistant remaining sheet 1 by the foaming process; Secondary foaming means (30) for heating the sheet (1) laminated through the laminating means (20) to a predetermined temperature for a secondary foaming is made; Finishing means (40) for leveling the sheet (1) on which secondary foaming has been made, making its thickness even, and cutting the side edge (1a); It proposes a technique consisting of a cutting means 50 for cutting the finished sheet 1 to an arbitrary length to complete a polystyrene foam board (a) of a certain standard.

This is said to improve the productivity of the polystyrene foam board can significantly shorten the time required for the process, but it has a disadvantage that it is difficult to vibrate because the process of cutting and loading in a certain size unit to rely on manual labor.

As another example, according to "A method for producing recycled YB and reclaimed foam and apparatus therefor" of Korean Patent Laid-Open Publication No. 2004-0042417, "In the method for manufacturing recycled foam of YBT and P, (omitted), heated YV A compression molding step of transferring the A and the P into a mold and maintaining the temperature at 150 to 170 ° C. to compress and mold the Y and P into a regeneration foam of the A and P; And a slicing step of cutting the compression molded block regeneration foam 1 into slice regeneration foams 2a, 2b, 2c, and 2d having the correct thickness according to the application.

This also refers to the process of cutting the slice regeneration foam of the desired size and thickness through the slicing step, but there is room for improvement in terms of productivity since the process of loading after cutting to the set size is dependent on manual labor.

“Polystyrene Foam Board Manufacturing Apparatus and Manufacturing Method” of Korean Unexamined Patent Publication No. 2005-0106616 Korean Patent Laid-Open Publication No. 2004-0042417 "Manufacturing Method and Apparatus for Recycling YB and Recycled Foam of PA"

Accordingly, the present invention is to fundamentally solve the above-mentioned conventional problems, the foam board is arranged in a state in which the form board to be transported to the standardized product through foam molding in a predetermined state by a predetermined unit to align the foam board alignment apparatus to send to the subsequent process To provide.

In order to achieve the above object, the present invention provides an alignment device for neatly stacking the foam board in a multi-layer: a feeder for continuous transfer in the state aligned one surface of the foam board; An aligner that matches four sides while dropping the foam board into a space below; And an ejector for temporarily discharging the foam board loaded in the aligned state.

In addition, according to the present invention is characterized in that the feeder is provided with a conveying roller and a belt inclined with respect to the conveying direction.

In addition, according to the present invention, the aligner includes a cylinder for turning the bottom plate, a side cylinder for moving forward and backward the side plate, a front cylinder for rotating the front plate, and a rear cylinder for moving back and forth the back plate. It is done.

At this time, according to the present invention, the lower cylinder and the rear cylinder of one side of the aligner are installed on the fixed frame, the side cylinder, the front cylinder, the rear cylinder of the other side are installed on the moving frame, and the moving frame is on the fixed frame. It is characterized in that it is mounted to vary the position.

At this time, according to the present invention is characterized in that the bottom plate of the aligner is installed via a guide and an adjustment handle to vary the width supporting the foam board.

On the other hand, the terms or words used in the present specification and claims are not to be construed as limiting the ordinary or dictionary meanings, the inventors should use the concept of the term in order to explain the invention in the best way. It should be interpreted as meanings and concepts corresponding to the technical idea of the present invention based on the principle that it can be properly defined. Therefore, the embodiments described in the present specification and the configuration shown in the drawings are only the most preferred embodiments of the present invention, and do not represent all of the technical ideas of the present invention, and various alternatives may be substituted at the time of the present application. It should be understood that there may be equivalents and variations.

According to the present invention as described above, since the foam board to be transported to the standardized product through the foam molding in a uniform state by each unit to be sent to the subsequent process, there is an effect of improving the productivity by reducing the airborne.

1 and 2 are respectively a front view and a plan view of the alignment apparatus according to the present invention, respectively;
3 is a configuration diagram showing the feeder of the alignment device according to the present invention on three sides;
4 is a configuration diagram showing the main part of the alignment device according to the invention in front and plane;
5 is a configuration diagram showing the main part of the alignment device according to the present invention in a side view,
6 is a block diagram showing a drop operation of the alignment device according to the present invention,
Figure 7 is a block diagram showing the discharge operation of the alignment device according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are respectively a front view and a plan view showing the alignment device according to the invention as a whole, Figure 3 is a configuration diagram showing the feeder of the alignment device according to the invention in three sides, Figure 4 is an alignment device according to the invention Fig. 5 is a configuration diagram showing the main parts in front and plane, Fig. 5 is a configuration diagram showing the main parts of the alignment device according to the present invention in a side view, Fig. 6 is a configuration diagram showing a dropping operation of the alignment device according to the present invention. The configuration diagram showing the discharge operation of the alignment device according to.

The present invention relates to an alignment device for neatly stacking the foam board 10 in multiple layers. The foam board 10, which has undergone the foam molding process, is cut into a width and length of a set standard and is loaded in an aligned state in a predetermined space and then transferred to a subsequent process. The foam board 10 is generally rectangular in shape and is named as the front side portion 11 and the rear side portion 12 based on the conveying direction, and the front portion 13 based on the discharge direction after being loaded in a predetermined quantity unit. ) And back 14.

According to the present invention is provided with a feeder 20 for continuously conveying in a state in which one surface of the foam board 10 is aligned. The feeder 20 maintains a contact state on one side of the conveying path while continuously conveying the molded foam board 10. This is for printing a predetermined door or pattern on one side of the foam board 10, but it is advantageous to keep the plurality of foam boards 10 in an aligned state. For convenience of understanding, the surface on which the printing is performed in an aligned state is called the rear portion 14.

At this time, the feeder 20 is provided with a feed roller 22 and the belt 25 inclined with respect to the feed direction. Typically, the conveying roller 22 is installed at right angles to the conveying path, but in the case of the present invention, it is installed at a slightly inclined state. The belt 25 is also inclined to drive the plurality of feed rollers 22, and a motor 28 for driving is connected to one end of the belt 25 via the belt roller 26. The back portion 14 of the foam board 10 is conveyed in close contact with the inclined feed roller 22.

In addition, according to the present invention, the aligner 30 performs an operation of matching the four surfaces while dropping the foam board 10 into the lower space. The foam board 10 which is continuously transported is dropped into the set space of the transport roller 32 so that the alignment is disturbed, and thus the alignment board 30 is operated and loaded in multiple layers. The aligner 30 exactly matches the front side portion 11, the rear side portion 12, the front portion 13, and the rear portion 14 of the foam board 10.

In this case, the aligner 30 includes a lower cylinder 52 for rotating the bottom plate 42, a side cylinder 54 for advancing and reversing the side plate 44, and a front cylinder for rotating the front plate 46. 56 and a back cylinder 58 for advancing back and forth the back plate 48 is provided. The drop cylinder 52, the side cylinder 54, and the back cylinder 58 all refer to a cylinder operated by hydraulic or pneumatic pressure. The falling cylinder 52 is installed at a diagonal position of the fixing frame 33 as shown in FIG. 4, and rotates the bottom plate 42 connected to the bottom as shown in FIGS. 5 and 6 to drop the foam board 10. The side cylinder 54 aligns the front side portion 11 and the rear side portion 12 of the foam board 10 in a linear forward and backward movement of the back plate 48. The rear cylinder 58 advances the rear plate 48 back and forth to align the rear portion 14 of the foam board 10, and the front cylinder 56 rotates the front plate 46 to front the foam board 10. The part 13 is discharged in the aligned state.

At this time, the lower cylinder 52 and the rear cylinder 58 of one side of the aligner 30 are installed on the fixed frame 33, the side cylinder 54, the front cylinder 56, the rear cylinder of the other side ( 58 is installed on the movable frame 34, the movable frame 34 is mounted on the fixed frame 33 to vary the position. The moving frame 34 is installed to be movable on the fixed frame 33 and is adjusted to correspond to the length of the foam board 10. The falling cylinder 52 is installed on the fixed frame 33, and the side cylinder 54 and the front cylinder 56 are installed on the moving frame 34. The rear cylinder 58 is installed on one side of the fixed frame 33, the other side is distributed to the moving frame 34. The side plate 44 connected to the side cylinder 54 and the back plate 48 connected to the back cylinder 58 are flat, while the front plate 46 connected to the front cylinder 56 is a letter “A”. It can be formed into a cross section. In such a configuration, when the position of the movable frame 34 is adjusted according to the size of the foam board 10, the side cylinder 54, the front cylinder 56, and the rear cylinder 58 are formed of the foam board 10. Quickly align the faces.

Of course, one side cylinder 54, which contacts one side of the foam board 10 and is aligned with the other side, may be provided with one but two may be installed to contact the front side portion 11 and the rear side portion 12, respectively. It may be.

On the other hand, the bottom plate 42 of the aligner 30 is installed via the guide 36 and the adjustment handle 35 to vary the width supporting the foam board (10). The bottom plate 42 spans the entirety of the fixing frame 33 to support the foam board 10 entering the aligner 30 by the feed roller 32 and the motor 38 via the feeder 20. It is a structure installed rotatably in the state facing the “a” cross section angle of length. When the specification of the foam board 10 to be put into mass production is changed, the adjustment handle 35 is rotated so that the interval of the bottom plate 42 on the guide 36 is varied. The falling cylinder 52 is installed at a fixed position of the fixed frame 33, but may perform a drop operation regardless of the length of the foam board 10.

In addition, according to the present invention, the ejector 60 performs an operation of temporarily discharging the foam board 10 loaded in the alignment state. The ejector 60 is installed at the lower portion of the space in which the foam board 10 is loaded in the fixed frame 33. Of course, even if the position of the moving frame 34 is changed, the ejector 60 is located in the entire area of the fixed frame 33 to enable the smooth discharge of the foam board (10).

At this time, the ejector 60 is provided with a roller 62 and a belt 65 are divided into a plurality of interlocking. Since a plurality of rollers 62 are installed via the shaft 61 and are connected by a plurality of belts 65, the foam board 10 may be smoothly discharged in order to prevent sagging. On the shaft 61 of the ejector 60 a motor 68 is connected.

In operation, the foam board 10 is conveyed in close contact with one side of the feeder 20 and printing is performed on the rear portion 14, and the foam board 10 entering the aligner 30 is opposite. It is seated on the bottom plate 42, the lower cylinder 42 is operated when the bottom plate 42 is rotated, the foam board 10 is free-falling, the side cylinder 54 and the back cylinder 58 is operated Perform the alignment of the four sides of the foam board 10, when a certain amount of foam board 10 is loaded, the front cylinder 56 is operated and the front plate 46 is rotated to open the discharge path, ejector The foam board 10 stacked in multiple layers by the roller 62 and the belt 65 of 60 is discharged.

It is apparent to those skilled in the art that the present invention is not limited to the described embodiments, and that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or variations will have to belong to the claims of the present invention.

10: foam board 20: conveyor
22, 32: feed roller 25, 65: belt
28, 38: Motor 30: Aligner
33: fixed frame 34: moving frame
35: Adjustment handle 36: Guide
42: bottom plate 44: side plate
46: front panel 48: back panel
52: cylinder cylinder 54: side cylinder
56: front cylinder 58: rear cylinder
60: ejector 62: roller

Claims (5)

In the alignment device for stacking the foam board 10 in multiple layers:
A feeder 20 for continuously transporting one surface of the foam board 10 in an aligned state;
Aligner 30 to match the four sides while dropping the foam board 10 to the space below; And
And a discharger (60) for discharging the foam board (10) loaded in the aligned state at one time. The method of claim 1,
The conveyor 20 is a formboard alignment device, characterized in that it comprises a conveying roller 22 and the belt 25 installed inclined with respect to the conveying direction. The method of claim 1,
The aligner 30 includes a lower cylinder 52 for rotating the bottom plate 42, a side cylinder 54 for advancing and reversing the side plate 44, and a front cylinder 56 for rotating the front plate 46. And a rear cylinder (58) for advancing back and forth the rear plate (48). The method of claim 3,
The lower cylinder 52 and the rear cylinder 58 on one side of the aligner 30 are installed on the fixed frame 33, and the side cylinder 54, the front cylinder 56, and the rear cylinder 58 on the other side are provided. Is installed on the moving frame 34, the moving frame 34 is arranged on the fixed frame 33, characterized in that the alignment device of the foam board, characterized in that mounted. The method of claim 3,
The bottom plate (42) of the aligner (30) is aligned with the foam board, characterized in that installed through the guide 36 and the adjusting handle 35 to vary the width supporting the foam board (10).

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