EP0403024A1

EP0403024A1 - Method and apparatus for welding together sheets of woody material

Info

Publication number: EP0403024A1
Application number: EP19900201527
Authority: EP
Inventors: Stephanus Petrus Van Sterkenburg
Original assignee: STERKENBURG STEPHANUS PETRUS V
Current assignee: STERKENBURG STEPHANUS PETRUS V
Priority date: 1989-06-14
Filing date: 1990-06-13
Publication date: 1990-12-19
Also published as: NL8901501A

Abstract

In the method according to the invention sheets of woody material (2) are welded together using an adhesive while applying heat and pressure. Curing the adhesive occurs in steps at several curing locations. The apparatus according to the invention comprises a number of curing means (12, 13) that are positioned at regular distances that correspond with the length of the sheets (2). In a preferred embodiment the apparatus comprises three curing means (9, 10, 11), for example pressure heads.

Description

The invention relates to a method for welding together sheets of woody material, comprising applying adhesive to said sheets, assembling said sheets and curing the adhesive while applying heat and pressure. Further the invention relates to an apparatus for carrying out said method.
Such sheets of woody material are manufactured in standard dimensions, for example 1,25 times 2.50 m. For several applications however it is required to provide sheets having larger dimensions. For obtaining this it is known to weld together the sheets having standard dimensions for providing long assembled sheets (which process is known as welding). The assembled sheets thus manufactured then can be used.
When welding together the sheets of woody material according to the known methods several aspects are important. As a first aspect may be mentioned the shape of the joint; among others a scarf joint, a right-angled or butt joint, a finger joint and a toothed and grooved joint are applied. Further the choice of the applied adhesive is important. Several types of adhesive are known, wherein the choice of the adhesive strongly depends on the way of bonding, which represents the third important aspect. As possibilities may be mentioned high frequency bonding, bonding by means of a heated press, cold bonding as well as melt bonding. With each of these bonding methods it is possible to apply pressure to the bonding seam.
The most conventional known welding method uses a scarf joint in which as adhesive phenolformaldehyde or urea/melamineformaldehyde is applied, that by means of a high frequency bonding is cured in a very short time. A disadvantage of this known method, and also of other known methods, is that most commonly complicated and thus expensive apparatuses are required, such as apparatuses for heigh frequency bonding and apparatuses for the manufacture of complicated joint shapes.
It is an object of the invention to provide a method of the type referred to above in which said disadvantages are eliminated in a simple, but nevertheless effective way.
Therefore the method according to the invention is characterised in that the adhesive is cured in several steps wherein each step occurs at a different curing location and wherein after completing of a curing step the respective welding seam is transferred to a next curing location. Because curing the adhesive occurs in several steps at different curing locations it is possible to increase the production speed obtained by the method. After a welding seam is partially cured at a first curing location this welding seam is conveyed to a next curing location, where a next phase of the curing proces occurs. Meanwhile at the first curing location a next welding seam can already be subjected to the first curing step. This process can be repeated again and again, such that the final production velocity is increased with respect to the case in which curing should occur entirely at one single curing location. Because of the obtained higher production velocity it is not longer necessary now to choose a complicated joint shape, however resulting in a strong joint. The same applies for the choice of the adhesive and the way of bonding. In contrast therewith it is possible now to choose a cheap joint shape, such as a right angled or butt joint, for more time is available now for curing the adhesive.
In a preferred embodiment of the method according to the invention the curing occurs in at least three curing steps. Substantially the application of three curing steps means that, when using the same temperature and pressure at the curing locations, the production velocity is increased by a factor three with respect to the case, in which only one curing location is supplied. It is possible now to ensure that each curing step lasts at most about 1 minute. Such a curing time at each curing location renders a profitable production.
As a preparation of the welding seam it is preferred that one of each pear of sheets to be welded together is covered with adhesive and the other is covered with hardener.
Further it is preferred, that the adhesive is a ureaformaldehyde adhesive. With the method according to the invention such an adhesive renders a good quality welding joint.
The apparatus for carrying out a method according to the invention is characterised by a conveyor for the sheets to be welded together and a number of curing means that, in the conveying direction, are positioned at regular distances that correspnd with the length of the sheets. The said curing means can simultaneously engage at joining welding seams, such that the respective curing steps may occur simultaneously.
In a preferred embodiment of the apparatus according to the invention the conveyor intermittently conveys the sheets over a distance that is equal to their length wherein the curing means are activatable when the conveyor is at a standstill. The intermittent motion of the conveyor has as result, that a welding seam to be cured is always precisely positioned below a curing means, whereafter this curing means is activated. After the completion of the curing step the curing means is disactivated and the conveyor again conveyes the sheets about the mentioned distance. Then a new curing step occurs. Like this each welding seam successively passes the successive curing means, such that curing occurs in the respective amount of steps.
It is advantageous if the curing means comprise heatable pressures heads. These pressure heads then can be engaged with the welding seams, if the conveyor is at a stand still.
Finally according to a preferred embodiment the apparatus according to the invention comprises three curing means.
Hereafter the invention will be elucidated by means of the only figure, in which an embodiment of the apparatus for carrying out the method according to the invention is represented schematically and in a side elevational view.
The apparatus for welding together sheets of woody material ilustrated in the figure comprises a conveyor 1 for conveying the sheets 2 to be welded together. The conveyor 1 conveyes the sheets in a figure from left to right. In the shown embodiment the conveyor 1 comprises an endless conveying belt; however all know types of conveyors are applicable.
The conveyor 1 is mounted in a frame 3 that supports all parts of the apparatus.
At the feeding side of the conveyor 1 a stock means 4 is provided for a pile of sheets 2. At the lower side of the stock means 4 an only schematically represented lifting apparatus 5 is provided, that guarantees that the upper most sheet 2 of the pile of sheets is always at the level of the conveyor 1. The stock means 4 further is provided with a transferring device 6 for transferring the upper most sheet 2 of the pile from the pile of sheets 2 of the stock means 4 to the conveyor 1. Thus the transferring device 6 engages with a pressure means 7 the end of the upper most sheet 2 directed away from the conveyor 1. Activation of the transferring device 6 then leads to shifting the upper most sheet 2 to the right, until it engages with its opposite end a previous sheet 2 already present on the conveyor 1.
Further the apparatus comprises means to cover the ends of each sheet 2 with an appropriate adhesive. For example it is possible that the pressure means 7 covers the respective end of the sheet 2 with adhesive, whereas an additional application means 8 applies a hardener on the opposite end. As a result when joining two successive sheets 2 the adhesive is contacted with the hardener.
Above the conveyor 1 three pressure heads 9, 10 and 11 are provided. The mutual distance between the pressure heads 9 and 10 as well as 10 and 11, respectively, corresponds with the length of the sheets 2 to be processed. The pressure heads 9, 10 and 11 are movable up and down by means of motion means such as cilinder-piston assemblies 12. The cilinder-piston assemblies 12 are mounted in the frame 3.
Below each pressure head 9, 10 and 11, at the opposite side of the conveyor 1, a counter pressure plate 13 is provided, that together with the respective pressure head creates the required pressure.
In a way not shown further the pressure heads 9, 10 and 11 are provided with a heating device.
The apparatus operates as follows: with the aid of the stock means 4 and the transferring device 6 the sheets 2 are transferred from the pile present in the stock means 4 towards the conveyor 1. The adhesive and hardener applied by means of the pressure means 7 and the application means 8 then constitute welding seams 14 and 17 between adjoining sheets 2.
The conveyor 1 is activated that long in each case until the welding seams are positioned below the pressure heads 9, 10 and 11. Next the conveyor 1 is stopped, whereafter the pressure heads all are activated and excert the required pressure upon the welding seams. As a result a partial curing process occurs at each welding seam. After curing has occurred during a preset curing time like this the pressure heads are removed from the welding seams and the conveyor 1 is activated again, until the totall assembly of adjoining sheets 2 is shifted to the right (as seen in the figure) over one sheet lenght. Next the pressure heads 9, 10 and 11 are activated again. This process is continually repeated.
The welding seam 16 illustrated in the figure that is located now at the pressure head 11 is subjected to the last curing step. During the two previous curing steps it is already partially cured by means of the pressure heads 9 and 10. Correspondingly the welding seam 15 now is subjected to the second curing step after this welding seam being subjected to the pressure head 9 during the previous curing step. Finally welding seam 14 is subjected now to the first curing step by the pressure head 9.
A welding seams which has passed all pressure heads has resulted in a complete joint between two adjoining sheets 2. See for example welding seam 17. The sheet assembly obtained like this then can be cut to the desired dimensions by means of an apparatus not shown further.
The total curing time for each welding seam equals the total of the separate curing times at the pressure heads 9, 10 and 11. Because these pressure heads operate simultaneously the velocity, with which the sheets 2 are conveyed by the conveyor 1 is substantially increased with a factor three compared to an apparatus, in which only one pressure head completes the complete curing.
Preferably the hardener applied on one of the ends of the sheets 2 is a ureaformaldehyde adhesive. The hardener used for example can be a fast hardener, as commercially available. As mentioned before the presses are heated, for example to a temperature of 200 °C. This heating can be electric. The curing time at each press preferably is about one minute.
The invention is not limited to the embodiment described before, that can be varied widely withing the scoop of the invention.

Claims

1. Method for welding together sheets of woody material, comprising applying adhesive to said sheets, assembling said sheets and curing the adhesive while applying heat and pressure, characterised in that the adhesive is cured in several steps wherein each step occurs at a different curing location and wherein after completing of a curing step the respective welding seam is transferred to a next curing location.

2. Method according to claim 1, characterised in that the curing occurs in at least three curing steps.

3. Method according to claim 1 or 2, characterised in that each curing step lasts at most about one minute.

4. Method according to any of claims 1-3, characterised in that one of each pair of sheets to be welded together is covered with adhesive and the other is covered with hardener.

5. Method according to claim 4, characterised in that the adhesive is a ureaformaldehyde adhesive.

6. Method according to claim 4 or 5, characterised in that the hardener is a fast hardener.

7. Apparatus for carrying out the method according to one of the previous claims, characterised by a conveyor ior the sheets to be welded together and a number of curing means that, in the conveying direction, are positioned at regular distances that correspond with the length of the sheets.

8. Apparatus according to claim 7, characterised in that the conveyor intermittently conveys the sheets over a distance that is equal to their length wherein the curing means are activatable when the conveyor is at a standstill.

9. Apparatus according to claim 7 or 8, characterised in that the curing means comprise heatable pressure heads.

10. Apparatus according to one of the claims 7-9, characterised in that it comprises three curing means.