RU2085393C1 - Automated plant for manufacture of honeycomb filler - Google Patents

Abstract

FIELD: sealing of joints. SUBSTANCE: plant includes units for attachment, unreeling, application and drying of adhesive stripe on one and the other sides, of laying material in stacks installed in sequence as well as devices to reduce bending force of material of honeycomb filler emerging with its extension mounted in front of unit for application of adhesive strips or combined with them or positioned after them. Devices reducing bending force are manufactured in the form of heads for thermal reduction of bending force or in the form of shafts. One of shafts is fitted with rings having protrusions or perforators placed along adhesive strips. Thickness of rings or correspondingly diameter: of perforators are equal to 0.02-0.6 width of adhesive strip and height of protrusions of rings amounts to 0.1-0.8 thickness of material. EFFECT: increased output and quality of honeycomb filler. 2 cl, 10 dwg

Description

 The invention relates to equipment for producing a honeycomb core from roll materials: paper, fiberglass, metal foil, fabrics and other materials where adhesive strips are required.

 In particular, an automated installation is intended for the manufacture of a honeycomb core by stretching from paper or aluminum foil.

 A known machine for the manufacture of packages of honeycomb fillers, containing two nodes of the unwinding of the material, applying adhesive strips and drying them, winding materials on a square frame and drying the package. Then the glued bag is placed on the blanks, which are stretched into a honeycomb block.

 The installation for applying adhesive strips is made in the form of printing sections of letterpress equipped with printing plates and protruding belts located one from another at a distance of the pitch of the adhesive strips, the belts of the second printing form being offset 1/2 of the belts of the first (see the book by V. Bersudsky . and others. "The technology of manufacturing cellular aviation structures" ed. Engineering, Moscow, 1975, pp. 100-120).

This machine does not allow to make a honeycomb core with cells less than ≅10 mm from paper having a low density due to its distance along the material (for example, bag grade M-70, M-78, wrapping grade A, B), as well as from aluminum foil with a thickness δ _f ≥0.04 mm with cells less than 5.0 mm due to delamination of the adhesive. Moreover, this machine does not allow to implement a method of manufacturing a honeycomb core according to A.S. N 1755502 C. B 31 D 03/00.

 Known production line (US patent N 3220906, B 31 D 3/02, 1965), containing two devices for securing and unwinding rolls of material, two devices for applying adhesive strips on both sides of one of the rolls, a device for connecting the fabric with adhesive strips and canvas without adhesive strips, cutting connected web, folding bags, cutting packages into blanks, stretching, blasting and drying blocks.

 The disadvantages of this production line is that it does not allow to obtain small cells due to the delamination of the paper when the blanks are stretched into a honeycomb block, and when manufacturing the honeycomb filler from foil, delamination along the adhesive layer is observed. Also, the line does not allow to implement the patent N 1755502 class. B 31 D 03/00.

The aim of this invention is to expand the technological capabilities of obtaining a honeycomb filler from low-density paper with a smaller cell size of a мм10 mm and foil with a thickness of δ _f ≥ 0.04 mm on currently used adhesives.

 This goal is achieved by the fact that the automated installation for applying adhesive strips and assembling packages is additionally equipped with devices for reducing the bending force of the honeycomb core material when it is stretched, installed in front of the devices for applying adhesive strips or combined with devices for applying adhesive strips or located after the devices for applying adhesive strips, Strength reduction device is made in the form of shafts, one of which is equipped with disks or perforators installed along adhesive strips, and their thickness should be equal to 0.02-0.6 the width of the adhesive strip, with a mechanical decrease in the bending force, or in the form of heads for thermal reduction of the bending force of the material.

The proposed installation allows the manufacture of honeycomb core from aluminum foil with a thickness of δ _f 0.05 + 0.09 mm with a tensile strength σ _of ≥ 220 MPa. So, for example, in the manufacture of honeycomb core from AMg-2N foil with a 2.5 mm cell, a tensile force σ _{races of} 1.44 kN / m is required, which is the tensile strength of BK-25 glue, with the manufacture of honeycomb core on the proposed installation, the tensile strength is reduced by 38-40% and amounts to σ _races 0.90-0.92 kN / m. If perforation is done near the adhesive strips, then the tensile force is reduced by 10-20%. The percentage of reduction in tensile force with perforation depends on the distance between the holes and the diameter. If some perforations make the adhesive strip with a pitch of 3-4 mm and a diameter of 0.5 mm, the groove will make the tensile force σ _races 1.1-1.15 kN / m, for a block height of 50 mm. In the manufacture of honeycomb core with a cell of 3.0-8.0 mm from packing paper of grade B-I or B-II with a density of g _δ 400 g / cm ² and tensile strength s _times 1400 N / m without perforation, the paper itself delaminates when forces σ _races 0.3-0.5 kN / m, and the adhesive bond does not delaminate. In order to make such a honeycomb core from packaging bag, polymer paper, it is necessary to perforate with a pitch of t 3.0 mm and a hole diameter d _of 0.5 mm or more. In this case, the delamination force will be σ _races 0.18-0.2 kN / m.

 In FIG. 1 shows a production line for the manufacture of honeycomb blocks, FIG. 2 is a general view of a honeycomb aggregate manufacturing installation; in FIG. 3 device for reducing the bending force of the material; in isometry in FIG. 4 is a plan view of the grooves on the foil sheet; in FIG. 5 section of a foil sheet with grooves; in FIG. 6 section of the assembled honeycomb bag with grooves; in FIG. 7 is a plan view of a sheet of paper with perforation; in FIG. 8 - section of a sheet of paper with perforation; in FIG. 9 sectional view of a perforated honeycomb bag; figure 10 is a plan view of a stretched cell block.

 The production line for the production of honeycomb blocks, which uses an automated installation for the production of honeycomb aggregate 1, further includes a multi-story heating press 2, a paper cutter or a band saw 3, an installation for cutting grooves 4 and a machine for stretching the aggregate 5. Structurally, installation 1 consists of a welded bed 6, on which the roll holders 7, 8 are mounted movably, on which paper or metal rolls 9, 10 of the printed material 11, 12 are fixed. rial (foil, paper or other material) on the frame 6 mounted two devices 13, 14 to reduce the bending force of the honeycomb core material under tension, made in the form of shafts 15, 16, and one of the shafts 16 is rubberized (when weakening the material due to perforation) or covered with fluoroplastic during the formation of grooves, and on the second shaft 15, rings 17, 18, 19 are fixed. Moreover, the rings 17 have a width equal to the width of the adhesive strip of the honeycomb core being manufactured. On the lateral sides of the rings 17, perforation rings 18 are installed, which have a width equal to 0.02-0.6 of the width of the adhesive strips 19, 20, and a height of the protrusions 21 equal to 0.1-0.8 of the thickness of the material (foil) during the formation of grooves 22, 23. When perforation holes 25 are formed instead of grooves (on papers of various grades), the rings 18 have perforators 24, the diameter of which is 0.02-0.6 the width of the adhesive strips 19, 20, and the height equal to the thickness of the material 11, 12.

 The rings 19 have a width equal to the pitch of the adhesive strips of the honeycomb Device 13, 14, connected by a chain 25 and a drive 26. The pulling force from the applicator mechanism 27 and driven by the adhesive transfer roller 28 is transmitted in turn through the chain transmission 29 and the adhesive transfer shaft 29 from the applicator node 30. The application device 30 simultaneously applies adhesive strips to the other side of the material and connects the fabric of the material 11 without adhesive strips with the material of the canvas 12, on which adhesive strips are already applied on the mechanism 27. The applicator 30 of the chain drive 31 through the gear 32 is connected to the driving electric motor 33. In this case, the connected web of material enters the winding drum 34. The winding drum 34 of the chain gear 37 is connected by an asterisk 38 to the gear 39 and the electric motor 40.

 An automated installation for manufacturing a honeycomb core works as follows.

 At the beginning of work in rolls 9, 10 are installed roll holders 7, 8, which are fixed on the frame 6 of the installation. The material 11, 12 is passed through the device 13, 14 to reduce the bending force of the material, the applicators 27, 30 and is fixed on the hexagonal drum 34. After refueling the material 11, 12, glue is poured into the containers formed by the adhesive transfer rollers 28 and 29. Then, a gap is established in the shafts 15, 16 of the device for reducing the bending force of the material and a gap on the thickness of the adhesive strip in the applicator assemblies 27, 30. The rotations of the electric motors 33, 40 are turned on, with the rotational force through the friction clutch 36 using the gearbox 39, sprocket 38, chain 37 and the chain 35 is transmitted to the winding drum 34, where the material 11, 12 is fixed. At the same time, the electric motor 33 through the gearbox 32, the chain 31 transmits the torque to the applicator assembly 30, where the adhesive strips 20 are applied and are simultaneously connected olotno material 11 without the adhesive strips 12 to the material to which pre-applied adhesive strip 19 on the applicator mechanism 27 and driven in rotation by a chain transmission. By means of the chain 26, the torque from the applicator mechanism 27 is transmitted to the device 13, 14 to reduce the bending force of the material 11, 12. The material passing between the shafts 15, 16 is pierced by punchers 24, forming holes 22 (on paper) or grooves 22 (on foil), if instead of perforators 24 there are rings 18 with a sharp edge. In this case, the overhang of the ring for groove formation should not protrude above the shaft surface not more than 0.02-0.6 material thickness. With an equal speed of applying adhesive strips and winding the connected material onto the drum, the installation will work stably. After the set number of sheets has been set on the faces of the drum, the rotation of the drum is turned off, the web is cut off, the drum is removed and a new one is installed in its place, on which the web is fixed again. Then the rotation of the drum is turned on again and the process is repeated. The honeycomb package removed from the drum according to the technological process for the glue used when applying adhesive strips is glued on a multi-position press 2, cut into blanks on a paper-cutting machine 3. On the blanks, grooves are cut out for the volatiles to exit (if necessary) on a special installation 4, and then blanks are stretched on a special machine 5 or manually.

 Using the described automated installation for manufacturing a honeycomb core will make it possible to produce honeycomb core from various materials of almost any cell size, and also when holes are formed, refuse to cut grooves on the workpieces, since the holes will allow volatiles to come out when gluing the skin with honeycomb core.

Claims (2)

 1. Automated installation for the manufacture of honeycomb core from roll material, containing sequentially installed during the technological process devices for fastening and unwinding the roll, applying and drying adhesive strips on one or the other side and laying the web of material in the foot, characterized in that it is additionally equipped with devices reducing the bending force of the honeycomb core material when it is stretched, installed in front of the adhesive strips application devices, or combined with them, or aspolozhennymi after them.  2. Installation according to claim 1, characterized in that the devices for reducing the bending force are made in the form of heads for thermal reduction of the bending service or in the form of shafts, one of which is equipped with rings having protrusions installed along adhesive strips or perforators, the thickness of the rings or accordingly, the diameter of the perforators is 0.02 0.6 the width of the adhesive strip, and the height of the protrusions of the rings is 0.1 0.8 the thickness of the material.

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