Title of Invention	"METHOD FOR THE MANUFACTURE OF A REINFORCED PLASTIC PRODUCT"
Abstract	"METHOD FOR THE MANUFACTURE OF A REINFORCED PLASTIC PRODUCT" A method for the manufacture of a reinforced plastic product, comprising providing a molding wall (1), placing a reinforcement package (2) against the molding wall, installing a supply (5) for liquid plastic material and an extraction (8) for creating a reduced pressure, arranging over the supply, the extraction and a surface of the reinforcement package remote from the molding wall an air-tight covering (3) with provisions to enable the creation, by local deformation of the air-tight covering, of channels between the air-tight covering and the reinforcement package on the side thereof remote from the molding wall, adjusting the pressure in a space between the molding wall and the air-tight covering to a first value, lower than that of the ambient pressure, for creating a reduced pressure in the reinforcement package, adjusting the pressure in a space between the provisions and the air-tight covering (3) to a second value, lower than the first value, for creating the channels outside the circumference of the air-tightly covered reinforcement package, supplying the liquid plastic material via the supply (5) and the channels for soaking and thereby filling up ht reinforcement package with the plastic material, adjusting the pressure in the space between the provisions and the air-tight covering to a third value, higher than or equal to the first value, for pushing away the plastic material-filled channels created outside the air-tightly covered reinforcement package, allowing the plastic material to cure, removing the air-tight covering (3) and the provisions; and taking the molded plastic product from the molding wall, wherein the provisions are designed at least one branched or unbranched gutter- side surface that is less than half of the surface of the reinforcement package.

Title of Invention

"METHOD FOR THE MANUFACTURE OF A REINFORCED PLASTIC PRODUCT"

Abstract

"METHOD FOR THE MANUFACTURE OF A REINFORCED PLASTIC PRODUCT" A method for the manufacture of a reinforced plastic product, comprising providing a molding wall (1), placing a reinforcement package (2) against the molding wall, installing a supply (5) for liquid plastic material and an extraction (8) for creating a reduced pressure, arranging over the supply, the extraction and a surface of the reinforcement package remote from the molding wall an air-tight covering (3) with provisions to enable the creation, by local deformation of the air-tight covering, of channels between the air-tight covering and the reinforcement package on the side thereof remote from the molding wall, adjusting the pressure in a space between the molding wall and the air-tight covering to a first value, lower than that of the ambient pressure, for creating a reduced pressure in the reinforcement package, adjusting the pressure in a space between the provisions and the air-tight covering (3) to a second value, lower than the first value, for creating the channels outside the circumference of the air-tightly covered reinforcement package, supplying the liquid plastic material via the supply (5) and the channels for soaking and thereby filling up ht reinforcement package with the plastic material, adjusting the pressure in the space between the provisions and the air-tight covering to a third value, higher than or equal to the first value, for pushing away the plastic material-filled channels created outside the air-tightly covered reinforcement package, allowing the plastic material to cure, removing the air-tight covering (3) and the provisions; and taking the molded plastic product from the molding wall, wherein the provisions are designed at least one branched or unbranched gutter- side surface that is less than half of the surface of the reinforcement package.

Full Text	The present invention relates to a method for the manufacture of a reinforced plastic product. Field of the invention The invention relates to a method for the manufacture of a reinforced plastic product. More particularly, the invention concerns the manner of distribution of liquid plastic material over and into a reinforcement package during the laanufactturing process. Still more particularly, the invention concerns the manufacture of products utflizing a process referred to as Vacuum Assisted Besan Injection (VABI), briefly referred to as resta injection. This method comprises the following steps: placing a reiforcement package of, for instance, glass or carbon fiber web against a molding wall, for instance an inner or outer mold; installing a supply for liquid plastic material, for instance syntibetic resin; covering the reizalbrcement package, inclusive of the installed stqpply, substantially gas- or air-tightly, lor instance by p.lastic foil; adjustiag the pressure in the space between the molding wall and the air-tight covering to a first value dl ("evacuation"), which pressure is so much lower than the pressure outside that space that tine liquid plastic material flows through the reiaifojccement package-filled space between the covering and the molding wall. Owing to the difference between the ambient pressure (dO) and the low pressxire dl in the reinforcement package, the liqmd plastic material is sucked or "injedred" into the reinfo.rcement package. Background of the invention For 9. proper spread of the liquid plastic material over a dry fiber package during iniection, runner channels are necessary. It is known to form these chaxmels, for instance, by placing metal or plastic spirab or plastic profiles between the reinforcement package and the air-tight covering. When a vacuum is applied between air-tight covering and molding wall, in other words, upon evacuation of the reinforcement package, the spirals will create an open space. Through this space, the liquid plastic material can simply be spread over the reinforcement package over large distances. Because the distance that the liquid plastic material can travel through a reinforcement package is limited, the runner pattern is often complex in the case of large composite products, such as yachts. Large parts of yachts, etc., can be "visible" parts which should absolutely not exhibit any defects. For these parts, a Class A surface is required. One of the major drawbacks of the known runner channels is their delineation on the outside (on the other side than where the runner channel is provided) of the composite product after it is cleared from the mold. One of the causes of this is the local resin-rich spot directly next to the runner channel and the depression of the runner channel into the reinforcement package. Further, providing such runner channels (not being reusable owing to their nature) requires extra material and labor. United States patent application 2002/0155186 discloses a method for the manufacture of a reinforced plastic product according to the preamble of claim 1, in which between the air-tight covering and the reinforcement package a relatively stiff sheetlike part is placed, which on the side of the reinforcement package is provided with a large ntunber of closely spaced mutually parallel grooves, connected to a supply for plastic materia), forming channel parts and having a relatively small cross section relative to conventional runner channels. After placing and covering the sheetlike part with a fm-ther foil layer, the pressure in the space between the molding wall and the air-tight covering is adjusted to a first value d1, which is lower than the ambient pressitre, after which the pressure within the channel parts is adjusted to a second value 62, which is lower than the first value dl. This has as a result that the air-tight covering is sucked into the channel parts, so that regularly over the entire surface of the reinforcement package. temporaxy channels are formed for soaking the reinforcement package with liquid plastic material unifxrmly over the entire surface. After the reinforcement package has been soaked by the liquid plastic material to a sufficient extent, the pressure in the small channels is adjusted to a third value d3, which is equal to or greater than the first value d1, so that the air-tight covering within the channel parts is pushed back in the direction of the reinforcement package again and hence the temporaxy chanells disappear again. After curing, first the extra foil layer and the sheotlike part are removed, after which the air-tight covering is removed. This known method is intended for manufacturing not unduly large plastic products of a simple shape, that is, in view of the stiff sheetlike part used, substantially straight wall surfaces. The method is hardly if at all suitable for manufacturing large products of a more complex shape, such as hulls of yachts, etc. In the case of that kind of products, no use can be made of the "Fastrac"® channel parts mentioned in the known method, which axe temporarily placed over the air-tight covering to obtain temporary runner channels. Moreover, in the case of such large products, applying the air-tight covering - typically a flexible foil - in the traditional manner takes much time and the covering material can only be used a single time, which entails rather a lot of waste. Object of the invention One object of the invention is to provide a method with which relatively large plastic products, such as hulls of yachts, on which stringent quality requirements as regards strengdi and appearance are imposed, can be manufactiued in a relatively simple manner. Another object of the invention is to realize this with the least possible labor and material, more particularly with mold means to be used more than once- Summary of the invention This is achieved, according to the invention, in a method as referred to above, in that the provisions are designed as at least one branched or unbranched gutter-shaped channel part, which, with an open gutter side facing the air-tight covering, is non-detachably fixed thereto, the arramgement being preferably such that upon adjusting the pressture to the second value, at least one runner channel is formed with a total open gutter-side surface that is smaller than half of the surface of the reinforcement package, or, that the surface of the reinforcement package that is not to be covered directly by the at least one runner channel is at least twice as large as the surface of the reinforcement package that is to be covered directly by the at least one runner channel. Through these features, a pattern of runner channels can be created, having, compared with the known small channels, a lesser number as well as a greater cross section and more robust shape, with which in a relatively short time a relatively large surface can be covered and soaked, while those runner channels, after soaking the reinforcement package to a sufficient extent, can be pushed away subst-antially without leaving a trace, thus resulting in an optimum appearance. What is more, owing to the non-detachable connection of the channel parts to the air-tight covering, an additional covering foil can be onutted and the air-tight covering with channel parts can be reused. Also, by this manner of working, it is possible to realize a variety of curved surfaces without any problems. Compared with the lonown method, which involves a large number of fine channels distributed over the entire surface, the present method involves a lesser number of runner channels, though more robust. This provides the further advantage that these runner channels can, if desired. be steered independently of each other during injection, so that the process can be controlled and adjusted dependiag on the course of the process- The invention further relates to an air-tight covering to be used with a method described in the finregoing. In order to avoid creasing during vacuum suction, the air-tight covering is preferably premodeled in conformity with the shape of the molding wall - of the inner or outer mold of the product (for instance yacht hull) • and the channel parts are then non-detachably connected with that premodeled covering. Such a premodeled covering, including channel parts, is moreover smtable to be reused several times lor the production of similar products, few instance a series of identical or substantially identical yucht hulls. The manufacture of such a preformed and reusable covering with channel parts can be successfully realized in a relatively simple manner if a layer of more of less liquid starting matexial, which after curing forms an elastic material, is applied to the molding wall and, before, during, or after curing of that layer of starting material, the at least one channel part is connected therewith, after which the cured layer of starting material, together with the at least one channel part non-detachably connected therewith, is cleared from the molding wall to be eubsequentiy used as an elastic, premodeled air-tight covering of the reinforcement package. Brief description of the drawings Referring to an embodiment represented in the drawings, though exclusively by way of non-limiting example, the method according to the invention will presently be fiurther elucidated. Figs, la-d show different stages of the method according to the invention. Fig. 2 shows schematically an overview of a system in which the method can be carried out. Detailed description of the drawings Figs, la-d show a part of a molding wall 1 of an outer or inner mold in which the respective product is made. Against the molding wall 1, a reinforcement package 2, for instance a glass fiber or carbon fiber web, has been placed, which is subsequently covered with an air-tight covering 3, which should be gas- or air-tjght to the extent that the reinforcement package 2, and the space between the air-tight covering 3 and the molding wall 1, respectively, can be evacuated to a relatively low pressure dl by means of a pximp system 11, connected to an opening 4. Via a supply 5, liquid plastic material 6, for instance a mixture of polyester resin and hardener - hereinafter also called synthetic resin - is ii^jected in that the pressure dl in the space between the molding wall 1 and the air-tight covering 3 is so low that the pressure dO - for instance normal ambient pressure or a higher pressure - forces the liquid plastic material 6 into the reinforcement package-filled space between the air-tight covering 3 and the molding wall 1. Against the outside of the air-tight covering 3, a half-open channel part 7 is arranged, for instance through gluing of ^ue sm-faces 10 against that air-tight covering 3. Via an opening 8, comiected to pressure control means, in this case the pump system 11, the pressiwe within the channel part 7 can be adjusted to a value d2, which is lower than the pressure dl in the space of the reinforcement package 2. As a result, the air-tight covering 3 will be sucked into the channel part 7, as can be s^^n in Fig. lb and Fig. Ic. Thus, also the so created space 9 is filled with the liquid synthetic regin still being supplied, and it fulfils the fimction of runner chajanel improving the throughflow of the Hquid resin. After the Uquid resin has filled the space 2 between the covering and the molding wall, including the reinforcement package filHng that space, then, as illustrated by Fig. Id, the pump connected to the channel part 7 via the opening 8 adjusts the pressure in the channel part 7 to a value d3, greater than d2, so that the air-tight covering 3 within the channel part 7 is pressed against the fiber package 2 again, so that the temporary runner channel, formed by the resin that flowed through the channel part, has thus been eliminated again. The air-tight covering 3, as illustrated by Figs, lb and Ic, preferably has such elastic properties that it can be sucked into the channel part 7 by extracting the air firom the chaimel part 7 until the low pressure d2 prevails in it. Fig. 2 shows an exemplary embodiment of a method according to the invention. Schematically shown is an outer mold for, for instance, a boat hull. Against the molding wall 1 of the mold, a reinforcement package in the form of a glass fiber package 2 is laid, which is covered by a preformed air-tight covering 3 of elastic material, provided with channel parts 7 non-detachably fixed thereon. The pressure in the space 2 in which the glass fiber package 2 is situated and within the channel parts 7, respctively, can be contrxolled by the pump system 11 connected to those spaces. The preformed air-tight covering 3 can be manufactured in the following manner. A starting material, for instance a mixture of liquid polyurethane resin with hardener, is applied - that is, before the glass fiber package 2 is inserted - against the inside (provided with a detaching agent) of the molding wall 1, for instance by spraying. The polyurethane resin and the hardener enter into a chemical bond, resulting in a molded piece of elastic material which is modeled according to the shape of the molding wall 1 to serve subsequently as air-tight covering 3 of the glass fiber package 2 which - after manufacture of that air-tight covering inclusive of channel parts - is placed against the molding wall 1. During or after the application of the liquid polytxrethane layer against the molding wall 1, at those points where such is deemed necessary, channel parts 7 are provided, which are manvifactured from sufficiently flexible material and glued onto the preformed air-tight covering 3. The different subchannel parts are tnutually glued together air-tightly. Gluing those channel parts can be carried out, for instance, by pressing those channel parts 7 by their glue surfeices 10 (see Fig. 1) against or into the as yet uncured polyurethane resin and, if desired, additionally covering the channel parts with a (thin) layer of polyurethane resin. Accordingly, what is obtained as a result of all this is a prexaodeled air-tight covering 3, inclusive of channel parte 7 connected (or integrated) therewith, which can subsequently serve for the actual manufacture of the product, for instance a boat hull (Fig. 2). After the reinforcement package 2 and the preformed air-tight covering 3, inclusive of the channel parts 7, have been laid in the mold (Fig. 2), the course of the process is as has been set out hereinabove with reference to Figs. la-d. It is noted that especially in the manufacture of larger products, it may be desirable to be able to steer the resin flows in the different runner channels individually or per group, by providing control or shutoff valves in different (main) runner channels. What can thereby be prevented, for instance, is that flow seams are formed at points where such is unwanted. Through mutual adjustment of the flows (volume, velocity) in the different runner channels, such flow seams and other inhomogeneities and the like can be controlled better. Finally, it is noted that in practice it is preferred not to install the resin supply opening 5 on the side of the molding wall 1, so that the throughflow of the hquid resin is impeded to some extent by the reinforcement package 2. It is better to supply the starting material (the resin) 6 via one or more supply lines terminating between the air-tight covering 3 and the reinforcement package 2, at places that axe bridged by a channel part 7. The respective channel part 7 will then fill up directly - especially after the channel part has been evacuated (d2), so that the air-tight covering 3 has been sucked into the channel part - in the longitudinal direction thereof and after this {and partly concurrently) fill the underlying reinforcement package 2. It will be evident that within the framework of the invention as laid down in the appended claxme, many more modifications and variants are possible. Thus, separately controllable runner channels have been mentioned. It is naturally also possible, instead, or in combination therewith, to provide several supplies, which also holds for the extraction. Also, with a premodeled air-tight covering, it is possible by virtue of the elasticity thereof to permit deviating configurations, such as rims, ribs, small chdAuels. sti£Eenii^s, and the like. WE CLAIM: 1. A method for the manufacture of a reinforced plastic product, comprising: - providing a molding wall (1); - placing a reinforcement package (2) against the molding wall; - installing a supply (5) for liquid plastic material and an extraction (8) for creating a reduced pressure; - arranging over the supply, the extraction and a surface of the reinforcement package remote from the molding wall an air-tight covering (3) with provisions to enable the creation, by local deformation of the air-tight covering, of channels between the airtight covering and the reinforcement package on the side thereof remote from the molding wall; - adjusting the pressure in a space between the molding wall and the air-tight covering to a first value, lower than that of the ambient pressure, for creating a reduced pressure in the reinforcement package; - adjusting the pressure in a space between the provisions and the air-tight covering (3) to a second value, lower than the first value, for creating the channels outside the circumference of the air-tightly covered reinforcement package; - supplying the liquid plastic material via the supply (5) and the channels for soaking and thereby filling up ht reinforcement package with the plastic material; - adjusting the pressure in the space between the provisions and the air-tight covering to a third value, higher than or equal to the first value, for pushing away the plastic material-filled channels created outside the air-tightly covered reinforcement package; - allowing the plastic material to cure; - removing the air-tight covering (3) and the provisions; and - taking the molded plastic product from the molding wall, characterised in that the provisions are designed as at least one branched or unbranched gutter-shaped channel part (7), which, with an open gutter side facing the air-tight covering, is non-detachably fixed thereto. 2. A method as claimed in claim 1, wherein by adjusting the pressure to the second value, at least one runner channel is formed with a total open gutter-side surface that is less than half of the surface of the reinforcement package. 3. A method as claimed in claim 1 or 2, wherein the surface of the reinforcement package (2) not to be directly covered by the at least one runner channel (7) is at least twice as great as the surface of the reinforcement package to be covered directly by the at least one runner channel. 4. A method as claimed in any one of the preceding claims, wherein at least two runner channels (7) are present, which, as regards the supply of the plastic material, are separately controllable. 5. A method as claimed in any one of the preceding claims, wherein after the curing of the plastic material, the air-tight covering (3), together with the at least one channel part attached to it, is removed in one piece from the plastic product. 6. A method as claimed in any one of the preceding claims, wherein the air-tight covering (3) inclusive of the at least one branched or unbranched channel part non-detachable fitted thereto is premodeled according to the shape of the molding wall. 7. A method as claimed in claim 6, wherein a layer of more or less liquid starting material, which after curing forms an elastic material, is applied to the molding wall, and before, during or after curing of that layer of starting material, the at least one channel part is connected therewith, after which the cured layer of starting material, together with the at least one channel part non-detachably connected therewith, is taken off the molding wall to be subsequently used as an elastic, premodeled, air-tight covering of the reinforcement package. 8. An air-tight covering (3) for use in a method as claimed in any one of the preceding claims, which is manufactured form a layer os elastic material, which permits reuse of the air-tight covering, and on which, non-detachably connected therewith, at least one gutter-shaped channel (7) part, with an open gutter side facing the layer, is non-detachably fixed, the at least one channel part being manufactured from a material having a higher stiffness than the material of the layer. 9. An air-tight covering as claimed in claim 8, wherein the layer and the at least one channel part non-detachably connected therewith are preformed according to a wall surface of the plastic product to be molded.

Full Text

The present invention relates to a method for the manufacture of a reinforced plastic product.
Field of the invention
The invention relates to a method for the manufacture of a reinforced plastic product. More particularly, the invention concerns the manner of distribution of liquid plastic material over and into a reinforcement package during the laanufactturing process. Still more particularly, the invention concerns the manufacture of products utflizing a process referred to as Vacuum Assisted Besan Injection (VABI), briefly referred to as resta injection. This method comprises the following steps:
placing a reiforcement package of, for instance, glass or carbon fiber web against a molding wall, for instance an inner or outer mold; installing a supply for liquid plastic material, for instance syntibetic resin;
covering the reizalbrcement package, inclusive of the installed stqpply, substantially gas- or air-tightly, lor instance by p.lastic foil; adjustiag the pressure in the space between the molding wall and the air-tight covering to a first value dl ("evacuation"), which pressure is so much lower than the pressure outside that space that tine liquid plastic material flows through the reiaifojccement package-filled space between the covering and the molding wall. Owing to the difference between the ambient pressure (dO) and the low pressxire dl in the reinforcement package, the liqmd plastic material is sucked or "injedred" into the reinfo.rcement package.
Background of the invention
For 9. proper spread of the liquid plastic material over a dry fiber package during iniection, runner channels are necessary. It is known to form these chaxmels, for instance, by placing metal or plastic spirab or plastic profiles between the reinforcement package and the air-tight

covering. When a vacuum is applied between air-tight covering and molding wall, in other words, upon evacuation of the reinforcement package, the spirals will create an open space. Through this space, the liquid plastic material can simply be spread over the reinforcement package over large distances. Because the distance that the liquid plastic material can travel through a reinforcement package is limited, the runner pattern is often complex in the case of large composite products, such as yachts. Large parts of yachts, etc., can be "visible" parts which should absolutely not exhibit any defects. For these parts, a Class A surface is required.
One of the major drawbacks of the known runner channels is their delineation on the outside (on the other side than where the runner channel is provided) of the composite product after it is cleared from the mold. One of the causes of this is the local resin-rich spot directly next to the runner channel and the depression of the runner channel into the reinforcement package. Further, providing such runner channels (not being reusable owing to their nature) requires extra material and labor.
United States patent application 2002/0155186 discloses a method for the manufacture of a reinforced plastic product according to the preamble of claim 1, in which between the air-tight covering and the reinforcement package a relatively stiff sheetlike part is placed, which on the side of the reinforcement package is provided with a large ntunber of closely spaced mutually parallel grooves, connected to a supply for plastic materia), forming channel parts and having a relatively small cross section relative to conventional runner channels. After placing and covering the sheetlike part with a fm-ther foil layer, the pressure in the space between the molding wall and the air-tight covering is adjusted to a first value d1, which is lower than the ambient pressitre, after which the pressure within the channel parts is adjusted to a second value 62, which is lower than the first value dl. This has as a result that the air-tight covering is sucked into the channel parts, so that regularly over the entire surface of the reinforcement package.

temporaxy channels are formed for soaking the reinforcement package with liquid plastic material unifxrmly over the entire surface. After the reinforcement package has been soaked by the liquid plastic material to a sufficient extent, the pressure in the small channels is adjusted to a third value d3, which is equal to or greater than the first value d1, so that the air-tight covering within the channel parts is pushed back in the direction of the reinforcement package again and hence the temporaxy chanells disappear again. After curing, first the extra foil layer and the sheotlike part are removed, after which the air-tight covering is removed.
This known method is intended for manufacturing not unduly large plastic products of a simple shape, that is, in view of the stiff sheetlike part used, substantially straight wall surfaces. The method is hardly if at all suitable for manufacturing large products of a more complex shape, such as hulls of yachts, etc. In the case of that kind of products, no use can be made of the "Fastrac"® channel parts mentioned in the known method, which axe temporarily placed over the air-tight covering to obtain temporary runner channels. Moreover, in the case of such large products, applying the air-tight covering - typically a flexible foil - in the traditional manner takes much time and the covering material can only be used a single time, which entails rather a lot of waste.
Object of the invention
One object of the invention is to provide a method with which relatively large plastic products, such as hulls of yachts, on which stringent quality requirements as regards strengdi and appearance are imposed, can be manufactiued in a relatively simple manner.
Another object of the invention is to realize this with the least possible labor and material, more particularly with mold means to be used more than once-

Summary of the invention
This is achieved, according to the invention, in a method as referred to above, in that the provisions are designed as at least one branched or unbranched gutter-shaped channel part, which, with an open gutter side facing the air-tight covering, is non-detachably fixed thereto, the arramgement being preferably such that upon adjusting the pressture to the second value, at least one runner channel is formed with a total open gutter-side surface that is smaller than half of the surface of the reinforcement package, or, that the surface of the reinforcement package that is not to be covered directly by the at least one runner channel is at least twice as large as the surface of the reinforcement package that is to be covered directly by the at least one runner channel. Through these features, a pattern of runner channels can be created, having, compared with the known small channels, a lesser number as well as a greater cross section and more robust shape, with which in a relatively short time a relatively large surface can be covered and soaked, while those runner channels, after soaking the reinforcement package to a sufficient extent, can be pushed away subst-antially without leaving a trace, thus resulting in an optimum appearance.
What is more, owing to the non-detachable connection of the channel parts to the air-tight covering, an additional covering foil can be onutted and the air-tight covering with channel parts can be reused. Also, by this manner of working, it is possible to realize a variety of curved surfaces without any problems.
Compared with the lonown method, which involves a large number of fine channels distributed over the entire surface, the present method involves a lesser number of runner channels, though more robust. This provides the further advantage that these runner channels can, if desired.

be steered independently of each other during injection, so that the process can be controlled and adjusted dependiag on the course of the process-
The invention further relates to an air-tight covering to be used with a method described in the finregoing.
In order to avoid creasing during vacuum suction, the air-tight covering is preferably premodeled in conformity with the shape of the molding wall - of the inner or outer mold of the product (for instance yacht hull) • and the channel parts are then non-detachably connected with that premodeled covering. Such a premodeled covering, including channel parts, is moreover smtable to be reused several times lor the production of similar products, few instance a series of identical or substantially identical yucht hulls.
The manufacture of such a preformed and reusable covering with channel parts can be successfully realized in a relatively simple manner if a layer of more of less liquid starting matexial, which after curing forms an elastic material, is applied to the molding wall and, before, during, or after curing of that layer of starting material, the at least one channel part is connected therewith, after which the cured layer of starting material, together with the at least one channel part non-detachably connected therewith, is cleared from the molding wall to be eubsequentiy used as an elastic, premodeled air-tight covering of the reinforcement package.
Brief description of the drawings
Referring to an embodiment represented in the drawings, though exclusively by way of non-limiting example, the method according to the invention will presently be fiurther elucidated.
Figs, la-d show different stages of the method according to the invention.
Fig. 2 shows schematically an overview of a system in which the method can be carried out.

Detailed description of the drawings
Figs, la-d show a part of a molding wall 1 of an outer or inner mold in which the respective product is made. Against the molding wall 1, a reinforcement package 2, for instance a glass fiber or carbon fiber web, has been placed, which is subsequently covered with an air-tight covering 3, which should be gas- or air-tjght to the extent that the reinforcement package 2, and the space between the air-tight covering 3 and the molding wall 1, respectively, can be evacuated to a relatively low pressure dl by means of a pximp system 11, connected to an opening 4. Via a supply 5, liquid plastic material 6, for instance a mixture of polyester resin and hardener - hereinafter also called synthetic resin - is ii^jected in that the pressure dl in the space between the molding wall 1 and the air-tight covering 3 is so low that the pressure dO - for instance normal ambient pressure or a higher pressure - forces the liquid plastic material 6 into the reinforcement package-filled space between the air-tight covering 3 and the molding wall 1.
Against the outside of the air-tight covering 3, a half-open channel part 7 is arranged, for instance through gluing of ^ue sm-faces 10 against that air-tight covering 3. Via an opening 8, comiected to pressure control means, in this case the pump system 11, the pressiwe within the channel part 7 can be adjusted to a value d2, which is lower than the pressure dl in the space of the reinforcement package 2. As a result, the air-tight covering 3 will be sucked into the channel part 7, as can be s^^n in Fig. lb and Fig. Ic. Thus, also the so created space 9 is filled with the liquid synthetic regin still being supplied, and it fulfils the fimction of runner chajanel improving the throughflow of the Hquid resin.
After the Uquid resin has filled the space 2 between the covering and the molding wall, including the reinforcement package filHng that space, then, as illustrated by Fig. Id, the pump connected to the channel part 7 via

the opening 8 adjusts the pressure in the channel part 7 to a value d3, greater than d2, so that the air-tight covering 3 within the channel part 7 is pressed against the fiber package 2 again, so that the temporary runner channel, formed by the resin that flowed through the channel part, has thus been eliminated again.
The air-tight covering 3, as illustrated by Figs, lb and Ic, preferably has such elastic properties that it can be sucked into the channel part 7 by extracting the air firom the chaimel part 7 until the low pressure d2 prevails in it.
Fig. 2 shows an exemplary embodiment of a method according to the invention. Schematically shown is an outer mold for, for instance, a boat hull. Against the molding wall 1 of the mold, a reinforcement package in the form of a glass fiber package 2 is laid, which is covered by a preformed air-tight covering 3 of elastic material, provided with channel parts 7 non-detachably fixed thereon. The pressure in the space 2 in which the glass fiber package 2 is situated and within the channel parts 7, respctively, can be contrxolled by the pump system 11 connected to those spaces.
The preformed air-tight covering 3 can be manufactured in the following manner. A starting material, for instance a mixture of liquid polyurethane resin with hardener, is applied - that is, before the glass fiber package 2 is inserted - against the inside (provided with a detaching agent) of the molding wall 1, for instance by spraying. The polyurethane resin and the hardener enter into a chemical bond, resulting in a molded piece of elastic material which is modeled according to the shape of the molding wall 1 to serve subsequently as air-tight covering 3 of the glass fiber package 2 which - after manufacture of that air-tight covering inclusive of channel parts - is placed against the molding wall 1.
During or after the application of the liquid polytxrethane layer against the molding wall 1, at those points where such is deemed necessary, channel parts 7 are provided, which are manvifactured from sufficiently flexible

material and glued onto the preformed air-tight covering 3. The different subchannel parts are tnutually glued together air-tightly. Gluing those channel parts can be carried out, for instance, by pressing those channel parts 7 by their glue surfeices 10 (see Fig. 1) against or into the as yet uncured polyurethane resin and, if desired, additionally covering the channel parts with a (thin) layer of polyurethane resin. Accordingly, what is obtained as a result of all this is a prexaodeled air-tight covering 3, inclusive of channel parte 7 connected (or integrated) therewith, which can subsequently serve for the actual manufacture of the product, for instance a boat hull (Fig. 2). After the reinforcement package 2 and the preformed air-tight covering 3, inclusive of the channel parts 7, have been laid in the mold (Fig. 2), the course of the process is as has been set out hereinabove with reference to Figs. la-d.
It is noted that especially in the manufacture of larger products, it may be desirable to be able to steer the resin flows in the different runner channels individually or per group, by providing control or shutoff valves in different (main) runner channels. What can thereby be prevented, for instance, is that flow seams are formed at points where such is unwanted. Through mutual adjustment of the flows (volume, velocity) in the different runner channels, such flow seams and other inhomogeneities and the like can be controlled better.
Finally, it is noted that in practice it is preferred not to install the resin supply opening 5 on the side of the molding wall 1, so that the throughflow of the hquid resin is impeded to some extent by the reinforcement package 2. It is better to supply the starting material (the resin) 6 via one or more supply lines terminating between the air-tight covering 3 and the reinforcement package 2, at places that axe bridged by a channel part 7. The respective channel part 7 will then fill up directly - especially after the channel part has been evacuated (d2), so that the air-tight covering 3 has been sucked into the channel part - in the longitudinal direction thereof and

after this {and partly concurrently) fill the underlying reinforcement package 2.
It will be evident that within the framework of the invention as laid down in the appended claxme, many more modifications and variants are possible. Thus, separately controllable runner channels have been mentioned. It is naturally also possible, instead, or in combination therewith, to provide several supplies, which also holds for the extraction. Also, with a premodeled air-tight covering, it is possible by virtue of the elasticity thereof to permit deviating configurations, such as rims, ribs, small chdAuels. sti£Eenii^s, and the like.

WE CLAIM:
1. A method for the manufacture of a reinforced plastic product, comprising:
- providing a molding wall (1);
- placing a reinforcement package (2) against the molding wall;
- installing a supply (5) for liquid plastic material and an
extraction (8) for creating a reduced pressure;
- arranging over the supply, the extraction and a surface of the reinforcement package remote from the molding wall an air-tight covering (3) with provisions to enable the creation, by local deformation of the air-tight covering, of channels between the airtight covering and the reinforcement package on the side thereof remote from the molding wall;
- adjusting the pressure in a space between the molding wall and the air-tight covering to a first value, lower than that of the ambient pressure, for creating a reduced pressure in the reinforcement package;
- adjusting the pressure in a space between the provisions and the air-tight covering (3) to a second value, lower than the first value, for creating the channels outside the circumference of the air-tightly covered reinforcement package;
- supplying the liquid plastic material via the supply (5) and the channels for soaking and thereby filling up ht reinforcement package with the plastic material;
- adjusting the pressure in the space between the provisions and the air-tight covering to a third value, higher than or equal to the first value, for pushing away the plastic material-filled channels created outside the air-tightly covered reinforcement package;

- allowing the plastic material to cure;
- removing the air-tight covering (3) and the provisions; and
- taking the molded plastic product from the molding wall,
characterised in that the provisions are designed as at least one branched or unbranched gutter-shaped channel part (7), which, with an open gutter side facing the air-tight covering, is non-detachably fixed thereto.
2. A method as claimed in claim 1, wherein by adjusting the pressure to the second value, at least one runner channel is formed with a total open gutter-side surface that is less than half of the surface of the reinforcement package.
3. A method as claimed in claim 1 or 2, wherein the surface of the reinforcement package (2) not to be directly covered by the at least one runner channel (7) is at least twice as great as the surface of the reinforcement package to be covered directly by the at least one runner channel.
4. A method as claimed in any one of the preceding claims, wherein at least two runner channels (7) are present, which, as regards the supply of the plastic material, are separately controllable.
5. A method as claimed in any one of the preceding claims, wherein after the curing of the plastic material, the air-tight covering (3), together with the at least one channel part attached to it, is removed in one piece from the plastic product.
6. A method as claimed in any one of the preceding claims, wherein the air-tight covering (3) inclusive of the at least one branched or unbranched channel part non-detachable fitted thereto is premodeled according to the shape of the molding wall.

7. A method as claimed in claim 6, wherein a layer of more or less liquid starting material, which after curing forms an elastic material, is applied to the molding wall, and before, during or after curing of that layer of starting material, the at least one channel part is connected therewith, after which the cured layer of starting material, together with the at least one channel part non-detachably connected therewith, is taken off the molding wall to be subsequently used as an elastic, premodeled, air-tight covering of the reinforcement package.
8. An air-tight covering (3) for use in a method as claimed in any one of the preceding claims, which is manufactured form a layer os elastic material, which permits reuse of the air-tight covering, and on which, non-detachably connected therewith, at least one gutter-shaped channel (7) part, with an open gutter side facing the layer, is non-detachably fixed, the at least one channel part being manufactured from a material having a higher stiffness than the material of the layer.
9. An air-tight covering as claimed in claim 8, wherein the layer and the at least one channel part non-detachably connected therewith are preformed according to a wall surface of the plastic product to be molded.

Documents:

5319-DELNP-2005-Abstract-(12-01-2009).pdf

5319-delnp-2005-abstract.pdf

5319-DELNP-2005-Assignment-(19-06-2008).pdf

5319-DELNP-2005-Assignment.pdf

5319-DELNP-2005-Claims-(12-01-2009).pdf

5319-delnp-2005-claims.pdf

5319-DELNP-2005-Correspondence-Others-(12-01-2009).pdf

5319-DELNP-2005-Correspondence-Others-(19-06-2008).pdf

5319-delnp-2005-correspondence-others.pdf

5319-DELNP-2005-Description (Complete)-(12-01-2009).pdf

5319-delnp-2005-description (complete).pdf

5319-DELNP-2005-Drawings-(12-01-2009).pdf

5319-delnp-2005-drawings.pdf

5319-DELNP-2005-Form-1-(19-06-2008).pdf

5319-delnp-2005-form-1.pdf

5319-delnp-2005-form-18.pdf

5319-DELNP-2005-Form-2-(12-01-2009).pdf

5319-delnp-2005-form-2.pdf

5319-DELNP-2005-Form-3-(12-01-2009).pdf

5319-delnp-2005-form-3.pdf

5319-delnp-2005-form-5.pdf

5319-delnp-2005-form-6.pdf

5319-DELNP-2005-GPA-(12-01-2009).pdf

5319-DELNP-2005-GPA-(19-06-2008).pdf

5319-delnp-2005-gpa.pdf

5319-DELNP-2005-Others-Document-(12-01-2009).pdf

5319-delnp-2005-pct-101.pdf

5319-delnp-2005-pct-210.pdf

5319-delnp-2005-pct-304.pdf

5319-DELNP-2005-Petition-137-(12-01-2009).pdf

5319-DELNP-2005-Petition-138-(12-01-2009).pdf

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Patent Number

235354

Indian Patent Application Number

5319/DELNP/2005

PG Journal Number

31/2009

Publication Date

31-Jul-2009

Grant Date

30-Jun-2009

Date of Filing

21-Nov-2005

Name of Patentee

LIGHTWEIGHT STRUCTURES B.V.

Applicant Address

ROTERDAMSEWEG 380 2629 HG DELFT, THE NETHERLANDS

Inventors:

#	Inventor's Name	Inventor's Address
1	EDWIN CORNELUS FELIX CAROLUS VAN HERPT	HOOGWAL 88, 5053 AT GOIRLE, THE NETHERLANDS.

PCT International Classification Number

B29C 70/54

PCT International Application Number

PCT/NL2004/000334

PCT International Filing date

2004-05-14

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	1023425	2003-05-14	Netherlands