EP0232400A1

EP0232400A1 - Method and means for shaping bent laminated products

Info

Publication number: EP0232400A1
Application number: EP86905297A
Authority: EP
Inventors: Tuomo Tervo
Original assignee: ARTLOG Oy
Current assignee: ARTLOG Oy
Priority date: 1985-08-14
Filing date: 1986-08-13
Publication date: 1987-08-19
Also published as: FI853109A0; AU6285086A; WO1987001072A1; FI74239B; FI853109L; FI74239C

Abstract

Procédé de production de feuilles stratifiées courbes par collage et par application d'une pression, qui est simple sur le plan technique et convient à la production par exemple de surfaces stratifiées courbes dont une partie est parallèle à la direction d'application de la force de pression. Le procédé de collage comporte deux phases bien distinctes, chacune impliquant l'utilisation d'éléments structuraux séparés dans le dispositif de moulage et adaptés au processus concerné. La première phase, notamment le pliage des couches (8), est réalisée en pressant les couches, accompagnées d'une demi-coquille (7) mobile, contre la feuille perforée (12) qui fait partie de la deuxième demi-coquille (13). La deuxième phase, notamment le collage proprement dit, consiste à appliquer un liquide ou un gaz sous pression à la demi-coquille fixe (13), ce qui provoque le déplacement de la membrane mince (11) sur la feuille perforée contre les couches (8) à coller, et à les presser contre la demi-coquille mobile (7) selon la nature de la pièce à réaliser.A method of producing curved laminate sheets by gluing and applying pressure, which is technically simple and suitable for the production, for example, of curved laminate surfaces, a part of which is parallel to the direction of application of the force. pressure. The bonding process has two very distinct phases, each involving the use of separate structural elements in the molding device and adapted to the process concerned. The first phase, in particular the folding of the layers (8), is carried out by pressing the layers, accompanied by a movable half-shell (7), against the perforated sheet (12) which is part of the second half-shell (13 ). The second phase, notably the actual bonding, consists in applying a liquid or a gas under pressure to the fixed half-shell (13), which causes the thin membrane (11) to move on the perforated sheet against the layers ( 8) to stick, and press them against the movable half-shell (7) depending on the nature of the part to be produced.

Description

Method and means for shaping bent laminated products

The object of the invention is a method which enables one to glue bent laminated plates in a new way. The bent laminated plates are herein defined as plates glued to a new bent or curved shape from originally straight layers. These plates are for example seat plates of chairs glued from veneers and shaped according to the human body.

Previously known and generally used methods to produce bent laminated plates have been to press and glue plates to the desired shape between two rigid mold halves using the normal system of hydraulic cylinders to produce a pressing force. Between mold halves an intermediate sheet made from some elastic material, normally rubber, lias, been used to eliminate the influence of minor shape errors and to make glueing pressure even. Previously known glueing procedures have several disadvantages. Most harmful is the fact that they cannot be used in production of such kinds of bent plates which have some part of the profile parallel to the pressing direction. One of the other disadvantages when using older methods in glueing is that only the average glueing pressure is known. The real pressure distribution on surface to be glued id unknown and normally surfaces perpendicular to the direction of the pressing force are exposed to greater pressure than surface parts diagonal to the direction of the pressing force. This has an unfavourable effect on the quality of the product and it causes extra loading to the primary structure of the tooling system. The glueing force must be chosen according to that part of surface which is exposed to the smallest amount of pressure. Further disadvantages have been difficulties in adjustment of the glueing pressure. Because the pressure distribution is not known and difficulties in heat transmission through the elastic sheet to the surface to be glued when the use of such heat is necessary. Another disadvantage is increasing the spot, forces needed to achieve a required glueing pressure when glueing large surfaces) this leads to the increased cost of the hydraulic components needed for the tooling system.

All of the disadvantages of the present methods mentioned above can be eliminated by the invention described in this application using the new and simple technics.

Characteristic to this invention is the fact that in the glueing method you can find two clearly separate phases, both of them having separate structural parts in the mold system used in this method. The bending of the layers to be glued close to the desired shape and the actual glueing is performed separately using separate structural parts and separate sources of force.

The most important advantage offered by this invention is that when using the new method you can produce such kinds of laminated sheets which have some part or parts of sheet parallel to the direction of the pressing force.

Furthermore the price of the tools needed in the glueing process will be lower, than the price of the present tools because the use of high pressure hydraulics is not necessary. Furthermore, automation of the glueing process required in case of mass production is easy when the new method is used because the same liquid can be used for pressurizing and for heating as well. The control of the liquid pressure and temperature in automation is known to be simple.

The new method enables the use of a constant accurately controlled glueing pressure and temperature which indisputably improves the consistent quality of the product. The main characteristics of the invention are described in claim 1. The method mentioned in this application is demonstrated in the enclosed drawings by a mold system using the method. Also one commonly used 'old' method is included in the drawings in order to make clear the main differences. Figure 1 shows a cross section of the commonly used mold system where straight, with glue treated layers 2 are to be pressed to completed product 1 using mold halves 3 and 5 actuated by spot forces F. Intermediate elastic sheet 4 evens the pressure. Using this method the angle A can not be smaller than 4...5 degrees. The smaller the angle A is the worse the sides are "exposed to pressure".

Figure 2 presents.as a cross section an example of one tooling system using the method mentioned in this application, especially the first phase of the glueing process. Figure 3 presents a cross section of the same type of mold when the bending phase has been completed.

Figure 4 is a cross section of the same mold when the glueing pressure has been "switched on". Figure 5 shows as a side view an example of one supporting frame type and mold attitude when straight sheets to be glued have been put to their places.

Figure 6 shows as a side view the same frame when the bending phase has been completed and the glueing pressure can be or has been "switched on".

The working principle of the glueing mentioned in this application and the main structure og one tooling system are demonstrated by figures 2-6 as follows.

Glue treated straight sheets 8 have been put on the stationary mold half 13 to glueing position in order to make product 6. The structure of stationary mold half consists of perforated sheet 12, glueing membrane 11, gaskets 10 and gasket tighteners 9. Hole diameters D of perforated sheet 12 do not need to be constant along the width of perforated sheet. By variation of diameters D you can adjust the sequence of pressure influence as desired. Both mold halves are filled with liquid. Liquid of upper movable mold half is used to heat the mold and liquid of cower stationary mold half to heat and pressurize the mold. Steel is the most convenient material to make mold halves 7 and 13 and perforated sheet 12 too. Membrane 11 can be for instance a thin brass sheet or some other suitable metal membrane provided that the width of membrane between gaskets 10 is the same one in both working phases described in figures 3 and 4. This situation can be achieved by choosing correct shape to perforated shhet 12 compared with mold half 7. If some elastic membrane material is used, above mentioned shapes do not need to be dimensionally very accurate. First phase of the method bending, of layers is in this case performed by pushing the upper mold half 7 using for instance link mechanism 15 activated by threaded rod 16, against the lower mold half so that desired mutual position of mold has been reached and so that arms of mechanism 15 are "locked" as shown in the figure 6.. The force G needed in this bending phase is only a part of force H caused by glueing pressure. During testing of mold system the ratio of forces G and H was measured to be about 1/20. Testing was made by glueing three veneers together to curved shape.

Thickness of ready laminate was 3 mm . The fact that, force G is small compared With force H enables the use of simple and cheap mechanism to perform the bending phase.

The other phase of method, glueing sheets 8 together is to be performed in this example by pressurizing the liquid in the stationary mold half 13 to desired pressure P₁ for instance using low pressure hydraulic pump. If heat is needed in glueing procedure, pressurizing liquid can be heated to desired temperature electrically. The additional force H is in this example carried by link mechanism 15 and frame structure 14.

The two phase glueing method can be used to several purposes, especially when the plate to be produced has some parts of surface parallel to pressing force H. From several possibilities to use the method following ones should be mentioned: production of curved plywood sheets, production of bent plates by glueing resin-based sheets together and manufacturing of curved resin-wood laminates.

Claims

1. Method for shaping curved laminated sheets ( 6) by glueing, c h a r a c t e r i z e d by two separate glueing phases: the first phase, bending of straight layers (8) to be glued is performed using a movable mold half (7) by pressing layers against perforated sheet (12) which is a part of a stationary mold half (13) and the second phase, the actual glueing is made by pressurizing liquid or gas in said stationary mold half (13) to desired pressure which makes the thin, on all sides sealed glueing membrane (11) on the perforated sheet (12) to move against layers to be glued and with continuous pressure layers (8) are pressed against the said movable mold half (7), shaped according to the piece to be produced.

2. Method according to claim 1, c h a r a c t e r i z e d in that the stationary mold half (13) is shaped according to the piece to be produced and the perforated sheet (12) and the pressurizing membrane (11) are parts of said movable mold half.

3. Tooling system for methods according to claims 1 or 2, c h a r a c t e r i z e d in that either one of said mold halves (7 or 13) includes as structural parts said bending carrying sheet (12) and said thin membrane (11) as necessary to obtain glueing pressure.

4. Tooling system for methods according to claims 1 or 2, c h a r a c t e r i z e d in that construction principle according to claim 3 has been used in some part of said mold halves.