FR3024387A1 - MOLD FOR THE MANUFACTURE OF A PLASTIC PART WITH AN OPTIMIZED COMPRESSION SYSTEM - Google Patents

Abstract

- Mold (1) of compression for the manufacture of plastic part (MP), comprising a first element (2) and a second element (3), the two elements (2, 3) forming a molding chamber (4) in the closed position of the mold, characterized in that at least one of the elements (2, 3) is equipped with at least one compression system (5) of the plastic material (MP), said compression system (5) comprising at least one movable compression block (6) able to move towards the molding chamber (4) to compress the plastic material (MP) therein.

Description

The present invention relates to the technical field of manufacturing plastic parts, especially automotive body parts, by a compression molding process. To manufacture plastic parts, it is known to use a compression molding process. Such a method uses a molding equipment comprising: a mold provided with a movable element and a fixed element, the two elements, typically made of steel, forming a molding chamber in the closed position of the mold; A press, for moving the movable member to the fixed member. Generally, at least one plastic sheet is placed in the compression mold, typically a "SMC" ("sheet molding compound") composite material consisting of thermosetting resin, reinforcing fibers, and often fillers and / or catalyst (hardener). Then the movable member is moved to the fixed member by means of the press until the mold is closed. Finally, a molding pressure is applied to the plastics material. In order to manufacture large pieces, for example parts having a projected area greater than 0.5 m 2, it is necessary to use a powerful press, that is to say a large-volume press. For example, to manufacture a tailgate liner it is customary to use a press having a maximum closing force of the order of 2000 tons. The press applies a given force which, depending on the projected surface of the part, is felt in pressure in the compressed material. Such a press is then used as a means of compressing the plastic material, since the latter requires a high pressure (greater than 30 bars) to cause the material to flow into the molding cavity, to polymerize the material, etc. smaller parts, such as a door reinforcement for example, the pressure in the molding chamber must be much lower. Typically, for these small parts the required pressure is less than 30 bar. However, such a low pressure can not be finely controlled, or even can not be guaranteed or obtained, with a large tonnage press. Indeed, it is difficult to precisely slave compression cylinders of the press on values much lower than the maximum tonnage. For example, with a press having a maximum closing force of 2500T, it is still possible to operate 35 to 500T, but there is then significant force variations around the nominal point at 500T, especially at the beginning of the molding cycle . As a result, variations (in particular peaks) of high pressures occur within the plastic at the beginning of the compression, during the rise in pressure. These can deteriorate the quality of the room. These pressure peaks do not guarantee a homogeneous pressure during molding. It is therefore not possible to use a heavy-weight press in combination with a small-piece mold. It is therefore necessary to associate the mold of the small room, a low power press (low tonnage) to control this low pressure. However, such a solution is not feasible industrially because of the price and size for the installation of one or more new smaller presses. In addition, the pressure required to mold the material in the molding chamber, may also depend on the type of material used, not just the size of the piece. Thus, it is possible to mold a large piece in a so-called "low pressure" material or a small piece with a hard-to-mold material requiring high pressure. It is therefore necessary to associate with the workpiece, depending on the material and its surface, a suitable power press for stably controlling the pressure required for molding. Again, such a solution is not feasible industrially because of the price and 20 congestion for the installation of one or more new presses less powerful. The object of the invention is to remedy these drawbacks and to allow the use of the same press to manufacture plastic parts of all sizes, in particular for producing small parts on an "oversized" press 25 because initially provided For this purpose, the invention particularly relates to a compression mold for the manufacture of plastic part, comprising a first element (fixed) and a second element (movable), the two elements. forming a mold chamber in the closed position of the mold. At least one of the elements is equipped with at least one compression system of the plastic material, the compression system comprising at least one movable compression block capable of moving towards the molding chamber to compress the plastic material therein. The compression system within one of the elements (fixed or movable) of the mold makes it possible to apply a molding pressure on a surface greater than that of the material placed in the mold before compression, so as not to start compress the material during the closure of the mold, and to prevent the implementation parameters degrade the final properties of the material of the piece produced. This lower power system than the press also allows to guarantee a more constant molding pressure, especially without peak overload. It is thus no longer necessary to use the power of the press to transmit the transformation pressure to the plastic material. Thus, for small parts, depending on the desired pressure, it is possible to use only the compression system integrated in one of the elements. The power of the press is only used to open / close the mold and ensure its sealing plating in the closed position. Advantageously, the mobile compression block is movably mounted in a wall of at least one of the elements with a piston-type movement, and the mobile compression block has a surface adapted to constitute a molding surface with the plastic material, when the block mobile compression is pushed into the molding chamber of the mold. According to one embodiment, the mold comprises at least a first compression system implanted in the first element and at least a second compression system implanted in the second element. According to this embodiment, the two blocks of the two compression systems can be vis-à-vis, and able to apply the same pressure on the plastic, when pushed into the molding chamber. The two blocks of the two compression systems can be facing each other, and able to simultaneously apply a pressure on the plastic material, so as to balance forces on either side of the plastic material in the chamber. molding. The two blocks may be controlled by at least one moving means, such as a hydraulic cylinder or an electric worm motor. According to one embodiment, at least one of the elements (2, 3) is adapted to compress the plastic material (MP) in the molding chamber (4). The invention also relates to a compression molding process in which a mold according to the invention is used. The invention will be better understood on reading the appended figures, which are provided by way of example and are in no way limiting, in which: FIG. 1 schematically shows a mold according to a first embodiment of the invention, in the open position (top), closed (in the middle) and then in the compression phase (bottom), this mold being adapted to a compression molding process. FIG. 2 schematically shows a mold according to one embodiment of the invention, comprising a single compression system on the side of the fixed element. FIG. 3 schematically shows a mold according to one embodiment of the invention, comprising two compression systems. Figure 4 illustrates a mold and an implementation for overmolding an insert. FIG. 5 illustrates a particular embodiment of the mold according to the invention, in which the mold comprises two compression systems which are not facing each other and which do not have molding surfaces of the same dimensions. FIG. 6 illustrates a particular embodiment of the mold according to the invention, in which the mold comprises two compression systems facing each other but which do not have molding surfaces of the same size. Referring now to FIG. 1, which shows an example of mold (1) according to the invention, for the manufacture of a plastic part (MP) by means of compression molding, this mold being in open position. The mold (1) comprises a first element (2), fixed, and a second element (3), movable and movable in a direction of closure of the mold. The two elements (2, 3) form a molding chamber (4) when the mold is closed. The molding chamber (4) is equipped with at least one compression system (5) of the plastics material (MP). At least one of the elements (2, 3) is equipped with at least one compression system (5) of the plastics material (MP). This compression system (5) comprises at least one mobile compression block (6) able to move towards the molding chamber (4) to compress the plastic material (MP). This moving block (6) thus makes it possible to apply the required pressure to the plastics material present in the molding chamber (4). Thus, it is the displacement of the mobile compression pad (6) which causes compression of the plastic material (MP), when the mold is in the closed position. The movable compression pad (6) is movably mounted in the thickness of one or the other of the elements (2, 3) with a piston-like movement. According to the example of FIG. 1, the mobile compression block (6) moves (see arrow) in the direction of closure of the mold (1). The mobile compression block (6) has a surface (7) adapted to constitute a molding surface with the plastic material (MP), when the mobile compression pad (6) is in contact with the plastic material, that is to say say when the keypad is in the compression position. The compression system (5) has moving means (8) for moving the compression paver (6). It can be a mechanical means, such as a hydraulic cylinder connected to the mobile compression pad (6) by a rod, or an electric worm motor. Such a compression system makes it possible to finely manage the pressure applied to the plastic material. Indeed the local management at the mold of the movement of the block is more accurate than the overall level of the press (item 3 according to the example of Figure 1). According to one embodiment (Figure 2), the mold is adapted to apply a pressure on either side of the plastic material (on the side of the movable element and the side of the fixed element). Thus, as illustrated in Figure 2, the movable element (3) of the mold can also be used to compress the plastic material (MP) in the molding chamber (4), on the side of the element (3) movable . The other side of the plastic material (MP) being pressed by the compression system (5). This configuration offers the advantage of providing a more homogeneous pressure in the plastics material (MP), whether the molding is large or small. Indeed, the pressure experienced by the plastic material on its lower and upper surfaces is directly transmitted to them, unlike a conventional mold, in which the pressure received by the surface opposite the movable member undergoes a pressure transmitted through the plastic material. from its opposite surface. This results in a loss of pressure, creating a differential between the top and the bottom of the room.

According to another embodiment (FIG. 3), the mold (1) comprises two compression systems (5). Thus, the molding chamber (4) is equipped with at least one first compression system (5) implanted in the first element (1) and at least one second compression system (5) implanted in the second element ( 2). The two compression systems (5) may have substantially the same molding surfaces, as illustrated in Figures 3 and 4. But as illustrated in Figures 5 and 6, the molding surfaces may have different dimensions. The two compression systems (5) can be positioned vis-a-vis (FIGS. 3, 4 and 6) or offset relative to one another (FIG. 5). The two compression systems (5) are controlled by at least one moving means (8), such as hydraulic cylinders or an electric worm motor. In order to ensure identical movement of the moving blocks (6), it is important to integrate a position control by motor or jack. The moving blocks (6) represent the major part of the finished surface of the piece 35 (high and low) resulting from the molding. This area is calculated according to the loading plan and the recovery rate of the latter. According to one embodiment, the two movable blocks (6) of the two compression systems (5) are facing each other, and they are able to apply the same pressure to the plastics material (MP), when they are pushed into the molding chamber (4). Preferably, the two blocks (6) of the two compression systems (5) are facing each other, and able to simultaneously apply a pressure on the plastics material (MP), so as to balance forces on the part and other of the plastic material (4). Such a compression system allows to finely manage the pressure applied to the plastic material, and to apply an identical pressure on both sides of the plastic material (MP). It is noted that the mold according to the invention can be used for the manufacture of composite parts comprising an insert, by allowing the molding of an insert (9) as illustrated in FIG. 4. To produce a plastic part comprising a insert (9), it is known to overmold plastic material (MP) around the insert (9). Generally, the insert (9) is placed in a compression mold between two sheets of plastics material, typically a composite material called "SMC". Then we close the mold. Then, the press is used to transmit a molding pressure to the plastic material above the insert (on the press side). Then the insert (9) transmits the pressure to the plastic material located under the insert (the opposite side to the insert).

As a result, it is difficult to control the pressure actually applied on either side of the insert (9), since it is difficult to predict the pressure effectively transmitted by the insert (9). It is therefore not possible with this type of process, to achieve a balancing of the compression forces on both sides (generally at the top and bottom) of the insert.

It is therefore impossible to guarantee the same thickness of plastic material around the insert (9). Such a defect involves, for the finished part, material shortages, poor mechanical characteristics and dispersions of thickness of material overmolded around the insert. With the mold (1) according to the invention, it is possible to finely manage the pressure applied in the material to be molded around the insert (9). For this type of application, the mold (1) preferably comprises two compression systems vis-à-vis (Figure 4). These make it possible to apply a simultaneous and balanced pressure on the two vertical faces of the insert to guarantee a thickness chosen for the finished part.

The mold (1) preferably comprises a system for holding the insert (5) in the mold (1). Advantageously, the holding system is a system also ensuring the sealing of the molding chamber (4), preventing the plastic material (MP) from flowing out of the molding chamber (4) of the insert (9). The invention also relates to a compression molding method using a mold (1) according to the invention. According to an example, wherein the mold (1) comprises two compression systems (5) vis-à-vis, the method may comprise at least the following steps: The plastic material (MP) is cut and weighed; The plastic material (MP) is positioned on the punch (2); The press (3) closes the mold (1) and is positioned in position 0 (thickness of the finished part); The two displacement means (8) of the compression systems (5) are controlled simultaneously and the blocks (6) apply a pressure to flow the plastic material (MP); The mold (1) being at a temperature between 145 ° C and 160 ° C, the plastic (MP) polymerizes and baked according to its technical characteristics; Both moving means (8) are recalled; The press (3) rises and the piece is released from the mold (1) .20

Claims (8)

REVENDICATIONS1. Compression mold (1) for the manufacture of plastic part (PM), comprising a first element (2) and a second element (3), the two elements (2, 3) forming a molding chamber (4) in closed position of the mold, characterized in that at least one of the elements (2, 3) is equipped with at least one compression system (5) of the plastic material (MP), said compression system (5) comprising at least one less a movable compression block (6) able to move towards the molding chamber (4) to compress the plastic material (MP). 2. Mold (1) according to claim 1, wherein the movable compression pad (6) is movably mounted in a wall of at least one of the elements (1, 2) with a piston-like movement, and the movable pad of compression (6) comprises a surface (7) adapted to constitute a molding surface with the plastic material (MP), when the movable compression pad (6) is pushed into the molding chamber (4) of the mold (1) . 3. Mold (1) according to one of the preceding claims, comprising at least a first compression system (5) implanted in the first element (1) and at least a second compression system (5) implanted in the second element ( 2). 4. Mold (1) according to claim 3, wherein the two blocks (6) of the two compression systems (5) are vis-à-vis, and able to apply the same pressure on the plastic material (MP), when pushed into the molding chamber (4). 5. Mold (1) according to one of claims 3 and 4, wherein the two blocks (6) of the two compression systems (5) are vis-à-vis, and able to simultaneously apply pressure on the material plastic (MP), so as to balance forces on either side of the plastic material (MP) in the molding chamber (4). 6. Mold (1) according to one of claims 3 to 5, wherein the two blocks (6) are controlled by at least one displacement means (8), such as a hydraulic cylinder or an electric screw motor without end. 7. Mold (1) according to one of the preceding claims, wherein at least one of the elements (2, 3) is adapted to compress the plastic material (MP) in the molding chamber (4). 8. A method of compression molding, characterized in that one uses a mold according to one of claims 1 to 7.