Konsolidiervorrichtung

专利摘要:
Consolidating device for consolidating thermoplastic semi-finished products (2), comprising a first plate (3) and a second plate (4), wherein the second plate (4) relative to the first plate (3) from a first position, suitable for introducing a semifinished product (2 ) between the first plate (3) and the second plate (4), in a second position, suitable for consolidating the semifinished product (2), movable, wherein a sealing device (5) having a gap (6) between the first plate (3) and the second plate (4) in the second position substantially airtight, and by a with the space (6) connected to the suction channel (7), which for generating a negative pressure in the space (6) with a suction device (8) is connectable.
公开号:AT517757A1
申请号:T645/2015
申请日:2015-10-05
公开日:2017-04-15
发明作者:Paul Zwicklhuber Msc
申请人:Engel Austria Gmbh；
IPC主号:

专利说明:

The present invention relates to a consolidation device for consolidating thermoplastic semi-finished products, in particular fiber-reinforced plastic semi-finished products, according to the features of the preamble of claim 1.
The use of thermoplastic composites is state of the art. Above all, tapes (unidirectional fiber plastic semi-finished products) and organic sheets (usually multilayer construction of fiber fabrics and a polymer matrix) are used. In the processing of the semi-finished products, these are usually heated to a temperature which is above the melting point of the polymer matrix and then converted into double-rigid tools and cooled.
Organic sheets and tapes are usually produced by means of a double belt press in the so-called film stacking process. The raw materials, the reinforcing fibers or the reinforcing fabrics and the plastic matrix are supplied in rolls. The rolls are unwound together in a unwinding station and heated in the double belt press to a temperature which is above the melting point of the thermoplastic. The molten thermoplastic is pressed under pressure into the reinforcing fibers and wets the reinforcing fibers. After wetting the reinforcing fibers, the semifinished product comes into the cooling section, where the semifinished product is cooled and thus converted into a dimensionally stable state.
From such tapes, a laminate can then be produced according to specific mechanical requirements. For this purpose, the tapes are cut and stored in the desired position. Subsequently, the individual layers are joined together again, so that a new semi-finished product is created. This pressing and consolidation of the individual layers can be done in a double belt press. For this purpose, the semi-finished product is placed in the double belt press and heated to a temperature above the melting point of the matrix material and then pressed and consolidated under light pressure between rollers. The pressing between roller pairs, has the additional advantage that the air which is between the individual layers, is pressed out of the laminate before the individual layers are joined together. Thus, it is possible to create semi-finished products which have very little up to no air pockets between the layers.
However, the use of double belt presses also has disadvantages. In particular, when relatively large semi-finished products have to be consolidated or when the semi-finished products have changes in the wall thickness, the construction of corresponding double-belt presses is complicated and complex.
In itself, there are also known consolidation devices having a first plate and a second plate, the second plate being movable relative to the first plate from a first position suitable for introducing a semifinished product between the first and second plates to a second position suitable for Consolidate the semi-finished are movable (DE 10 2014 016 365 A1).
The object of the invention is to provide a consolidating device for consolidating thermoplastic semi-finished products, which is simpler than in the prior art and at least does not introduce a significant deterioration with respect to air pockets.
This object is achieved by a consolidation device having the features of claim 1.
This is done by a sealing device, which closes a gap between the first plate and the second plate in the second position substantially airtight, and by a space connected to the suction channel, which is connectable for generating a negative pressure in the intermediate space with a suction device. To achieve a certain suppression faster, it is also conceivable that a vacuum vessel is connected upstream with a much larger volume of air than the volume of air in the press room.
Because a vacuum can be generated by means of a suction device in the space between the plates, air pockets between the layers of the semifinished product are reduced during consolidation and, if appropriate, compression of the semifinished product.
Compared to the double belt press can be achieved in the invention, the advantage that it is a very compact system, which is therefore also easier to integrate into a process chain. Furthermore, by heating under vacuum, the oxygen partial pressure in the press room can be reduced and thus the thermal oxidation of the polymer is reduced considerably.
The invention may include a heating system which transmits by means of heat conduction and heat energy in the semifinished product and this heated to a certain temperature under negative pressure.
Further advantageous embodiments of the invention are defined in the dependent claims.
To further assist in eliminating the air pockets, a walker may be provided for balancing air pockets in the semi-finished product.
This can be designed so that the semifinished product is exposed to an increased pressure in a flexing region (that is to say partially with respect to a surface of the semifinished product), wherein the flexing region moves relative to the semifinished product and / or changes in size.
In order to prevent a retention of air inclusions in a central region of the semifinished product, the wallowing device can be designed to move the flexing region from an edge of the semifinished product over the semifinished product and / or to enlarge the flexing region from one edge.
The walking device may have at least two punches, which are preferably independently controllable. In this case, the at least two punches can be controlled in such a way that the flexing area-ie the area of those punches which exert an increased pressure at a certain time-increases (the number of punches activated for increased pressure increases) or that the walking area shifts, by relieving the stamp in the flexing area as soon as a new stamp for increased pressure is activated.
The milling device can also have a roller that is movable parallel to a surface of the semifinished product. With the help of the roller air bubbles can be rolled out. The roll movement causes a line load with which the air inclusions are rolled out. Subsequently, a consolidation pressure can be exerted on the semifinished product by one or more punches.
In a preferred embodiment, the sealing device may include a dipping edge attached to the first plate and / or the second plate.
It may be particularly preferred that the sealing device has a cooperating with the dipping edge seal, which is preferably attached to that of the first plate or the second plate to which the dipping edge is not attached. This represents a particularly simple embodiment of a sealing device according to the invention.
It can be provided that the suction channel includes holes in the first plate and / or in the second plate.
The first plate and / or the second plate may be formed as a heating plate-such as by the insertion of heating cartridges. However, the first and / or the second plate can also be provided with a separate heating plate. Preferably, the heating plate can be attached to the first plate and / or the second plate so that it contacts the semifinished product during consolidation.
If a very high temperature homogeneity of the heating plates is required, it is also conceivable that the heating plates with a separate tempering device and e.g. Pressurized water or thermal oil to be heated.
It is envisaged that the first plate and / or the second plate are releasably connected to a support plate having a non-stick coating. The non-stick coating makes it easy to release the consolidated semi-finished product from a contact surface in the consolidating device. The releasable connection of the platen to the first plate and / or the second plate also allows for easy replacement thereof if the non-stick coating is worn.
It is also possible to provide a heating plate with a non-stick coating.
A heating plate or a support plate may be designed so that it is possible not to let the pressure act on the entire surface of the semi-finished product (but partially). This would be possible on the one hand, for example, with films with anti-adhesive properties (for example, PTFE film), membranes or even thin metal sheets, which can be elastically deformed under the partial pressure. In the non-stick coatings, various coatings known to those skilled in the art can be used, such as CVD or PVD or plasma coatings with non-stick properties.
It may also be provided that a detachment device for detaching the semifinished product from at least one surface, with which the semifinished product is in contact during consolidation, is provided. Such a detachment device is described for example in DE 10 2014 016 365 A1 of the applicant.
Protection is also sought for an arrangement of a consolidation device according to the invention and a shaping machine. Under shaping machines are to be understood injection molding machines, transfer molding, pressing and the like.
Further advantages and details of the invention will become apparent from the figures and the associated description of the figures. Show
Fig. 1 shows an embodiment of an inventive
Konsolidiervorrichtung,
Fig. 2 shows another embodiment of an inventive
Konsolidiervorrichtung,
Fig. 3 shows another embodiment of a consolidation device according to the invention and
Fig. 4 shows an inventive arrangement of a consolidating device and a molding machine.
FIG. 1 shows a consolidation device 1 according to the invention. It is designed as a vertical press. For this purpose, it has a first plate 3 and a vertically movable second plate 4. Not shown is a device for applying a consolidation pressure.
The first plate 3 and the second plate 4 are each designed as heating plates. For this they have recessed heating cartridges 20. It should be noted that not all heating cartridges 20 are provided with reference numerals, which serves for clarity. On the first plate 3 and the second plate 4 each have a support plate 18 is releasably attached. The support plates 18 each carry a non-stick coating to facilitate the detachment of the semifinished product 2 after consolidation.
In the intermediate space 6 between the first plate 3 and the second plate 4, the semifinished product 2 is arranged. In this case, a multilayer structure of the semifinished product 2 is indicated, which of course is to be understood purely by way of example. The layers can be made of organic sheets, tapes (fiber-reinforced plastic strips, matrix webs but also fiber layers, knitted and knitted). The sealing device 5 comprises a plunger edge 15 arranged on a blade 21 in cooperation with a seal 16 on the first plate 3. The blade 21 is connected to the second plate 4. To remove the semifinished product 2 after consolidation, the second plate 4 is moved upwards and to such an extent that the seal 16 no longer cooperates with the dipping edge 15 and that the semifinished product 2 is accessible for removal.
Thereafter, a new semi-consolidated or non-consolidated semi-finished product 2 can be inserted and the consolidation device 1 are closed again. At the
Close meets the dipping edge 15 back to the seal 16 and generates the seal according to the invention. To avoid excessive wear of the seal 16, the dipping edge 15 has a slight bevel at its leading end.
As soon as the dipping edge 15 cooperates with the seal 16, it is possible to begin to produce a negative pressure in the press room (gap 6). After some suppression has been achieved, a pressure is applied to the semi-finished product 2 with the two plates 3 and 4, this pressure typically being between a range of 0.01 N / mm 2 and 10 N / mm 2.
After consolidation, the consolidation device 1 opens and the semifinished product 2 can be removed. Subsequently, the semifinished product 2 can still be formed in a shaping system 10 or further functionalized.
FIG. 1 is a sectional view. It is understood that both the sword 21 with the dipping edge 15 and the seal 16 are circumferential, so that the gap 6 is completely sealed.
In addition, a suction channel 7 is provided which has a bore through the first plate 3. The suction channel 7 is also connected to a suction device 8. The suction device 8 may be, for example, a pump or the like. It should be noted that parts of the suction channel 7 and the suction device 8 are shown purely schematically.
The embodiments of FIGS. 2 and 3 essentially correspond to those of FIG. 1, the differences being described below.
The second plate 4 is segmented in the embodiment of Figure 2 in individual stamp 12, the stamp 12 are provided with heating cartridges 20. In this case, first a first punch (or group of punches - in this case, the leftmost punch 12 in the illustration) is controlled to first an increased pressure on the semifinished product. 2 exercise. As a result, air pockets are expelled from this area. By starting from the edge 11, part of the air inclusions are expelled directly into the intermediate space 6 and sucked out by the suction device 8. Another part of the air pockets is driven towards the area of the next punch 12. This is next driven to exert increased pressure. The air inclusions therefore migrate in this embodiment in the illustration to the right until they are also expelled on the other side of the semifinished product 2 in the intermediate space 6.
After balancing or stripping the air from the semifinished product 2, a uniform pressure over substantially the entire semifinished product 2 is set and the semifinished product 2 can be completely melted and consolidated.
The first heating plate 3 is not formed in this case as a heating plate, but provided with a heating plate 17, in which also cartridge heaters 20 are inserted for this purpose.
After consolidation, the second plate 4 is moved upward.
For detaching the semifinished product 2 from a surface with which the semifinished product 2 is in contact during consolidation, a detaching device 19 is provided in this exemplary embodiment. This has in this embodiment, a vertically movable frame in which wires are stretched. By lifting the frame, the semifinished product 2 is raised by means of the wires. For various embodiments of such detachment devices 19 reference is made to DE 10 2014 016 365 A1.
The embodiment according to FIG. 3 essentially corresponds to that of FIG. 2, wherein the milling device 9 is designed with a roller 14 movable over the semifinished product 2.
First, the support plate 18, which is attached to the second plate 4, placed on the semifinished product 2. This is rolled with the roller 14, wherein at the same time a pressure on the roller 14 is exerted on the semifinished product 2. (The apparatus for moving the roller 14 under pressure is not shown). As described in FIG. 2, the rolling movement of the roller 14 causes the expulsion of air inclusions from the semifinished product 2 from the edge 11. After this expulsion of trapped air, a consolidation pressure is exerted on the semifinished product 2 with a pressure stamp 22 embedded in the second plate 4 (represented by dashed lines). At the same time, the semifinished product 2 is heated by means of the heating cartridges 20 arranged in the pressure ram 22.
Both in Figure 2 and in Figure 3, the detachment device 19 is shown in a slightly raised state. In addition, the diameters of the wires of the detaching device 19 are exaggerated. During consolidation, the underside of the semifinished product 2, with its predominant surface portion, rests on the heating plate 17. The same naturally applies to the support plate 18 mounted in the second plate 4.
In this way, in a consolidation device 1 according to the invention a surface pressure can be exerted for consolidation, resulting in a more effective compared to the double belt press consolidation. Furthermore, wall thickness jumps in the consolidation device 1 according to the invention can be displayed in a simple manner. The wall thickness jumps must be displayed only in the support plate 18 as a positive and / or negative form.
Figure 4 shows an arrangement of a consolidation device 1 according to the invention and a shaping machine 10 - in this case an injection molding machine. Furthermore, a handling robot 23 is provided, which receives partially consolidated semi-finished products 2 in a receiving station 24 and initially transported to the consolidation device 1. After consolidation in the consolidation device 1, the handling robot 23 transports the consolidated semifinished product 2 to the forming machine 10. The handling robot 23 can also be used to remove the product produced in the forming machine 10 with the participation of the consolidated semifinished product 2 from the forming machine 10. Of course, it can also be provided to use more than one handling robot 23 for the various transports or to use other handling systems.
The present invention is not limited to the embodiments shown here. For example, instead of a vertical press arrangement, a horizontal arrangement could be used. Instead of a dipping edge 15, the sealing device 5 could also have a second seal 16, with the two seals 16 then interacting in the closed state of the consolidation device 1. For a better seal and a plurality of seals 16 with a dipping edge 15 and interaction can be used.
Innsbruck, September 30, 2015

权利要求:
Claims (15)
[1]
claims
A consolidation device for consolidating thermoplastic semi-finished products (2), comprising a first plate (3) and a second plate (4), the second plate (4) relative to the first plate (3) from a first position suitable for introducing a semifinished product (2) between the first plate (3) and the second plate (4), in a second position, suitable for consolidating the semifinished product (2), characterized by a sealing device (5) having a gap (6) between the first plate (3) and the second plate (4) in the second position substantially airtight, and by a with the space (6) connected to the suction channel (7), which for generating a negative pressure in the intermediate space (6) with a suction device (8) is connectable.
[2]
2. Consolidation device according to claim 1, characterized in that the intermediate space (6) in the open position for removal of the semifinished product (2) is accessible.
[3]
3. consolidation device according to claim 1 or 2, characterized in that a milling device (9) for balancing air inclusions in the semifinished product (2) is provided.
[4]
4. Consolidation device according to claim 3, characterized in that the wallowing device (9) is adapted to suspend the semifinished product (2) in a Walk range increased pressure, wherein the Walk range relative to the semifinished product (2) moves and / or in size changed.
[5]
5. consolidation device according to claim 4, characterized in that the Walk device (9) is adapted to move the Walk range of an edge (11) of the semifinished product (2) on the semifinished product (2) and / or the Walk range from the edge (11 ) to enlarge.
[6]
6. consolidation device according to one of claims 3 to 5, characterized in that the milling device (9) has at least two punches (12), which are preferably independently controllable.
[7]
7. consolidating device according to one of claims 3 to 5, characterized in that the milling device (9) has a parallel to a surface (13) of the semifinished product (2) movable roller (14).
[8]
8. consolidating device according to one of claims 1 to 7, characterized in that the sealing device (5) has a dipping edge (15) which is fixed to the first plate (3) and / or the second plate (4).
[9]
9. Consolidation device according to claim 8, characterized in that the sealing device (5) has a sealing edge (15) cooperating with the seal (16), which is preferably attached to that of the first plate (3) or the second plate (4), at which the dipping edge (15) is not attached.
[10]
10. consolidation device according to one of claims 1 to 9, characterized in that the suction channel (7) holes in the first plate (3) and / or in the second plate (4).
[11]
11. Consolidation device according to one of claims 1 to 10, characterized in that the first plate (3) and / or the second plate (4) are designed as a heating plate.
[12]
12. Consolidation device according to one of claims 1 to 11, characterized in that the first plate (3) and / or the second plate (4) is provided with a heating plate.
[13]
13. Consolidation device according to one of claims 1 to 12, characterized in that the first plate (3) and / or the second plate (4) with a non-stick coating bearing plate (18) are detachably connected.
[14]
14. Consolidation device according to one of claims 1 to 13, characterized in that a detaching device (19) for detaching the semifinished product (2) from at least one surface, with which the semifinished product (2) is in contact during consolidation, is provided.
[15]
15. Arrangement of a consolidation device (1) according to one of claims 1 to 14 and a shaping machine (10). Innsbruck, September 30, 2015

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同族专利:

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AT517757B1|2017-07-15|

引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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EP2639052A1|2012-03-16|2013-09-18|Audi AG|Vacuum-assisted pressing|

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AT514325B1|2013-12-27|2014-12-15|Engel Austria Gmbh|Apparatus and method for heating a semifinished product|AT520587B1|2017-11-14|2021-03-15|Engel Austria Gmbh|Method for arranging semi-finished products|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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ATA645/2015A|AT517757B1|2015-10-05|2015-10-05|Konsolidiervorrichtung|ATA645/2015A| AT517757B1|2015-10-05|2015-10-05|Konsolidiervorrichtung|

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DE102016011903.9A| DE102016011903A1|2015-10-05|2016-10-04|Konsolidiervorrichtung|