Plastic article or earthenware shaping or treating: apparatus – Distinct means to feed – support or manipulate preform stock... – Opposed registering coacting female molds
Reexamination Certificate
2000-04-24
2003-02-11
Heitbrink, Tim (Department: 1722)
Plastic article or earthenware shaping or treating: apparatus
Distinct means to feed, support or manipulate preform stock...
Opposed registering coacting female molds
C264S251000, C264S254000, C264S255000, C425S127000, C425S130000, C425S572000
Reexamination Certificate
active
06517334
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to a molding tool for producing a plurality of assembled, injection molded components with several mold cavities, and to a method for simultaneously producing a plurality of assembled injection molded components with a single molding tool.
The production of assembled injection molded components is known and described, for example, in German patent no. DE 33 40 122, column 2, starting at line 15. By appropriately configuring the individual mold parts of the mold tool, different mold geometries can be produced, which permit the stepwise injection molding of individual parts of the component, which are to be produced by assembly injection molding. The previously produced parts always form a part of the new geometry of the mold. The individual parts of the assembly injection molded components are connected with one another in this way. By appropriate choice of materials, especially synthetic resins, it is also possible to extrude parts, which do not adhere to one another, i.e., parts which are movable relative to each other. However, materials, which adhere to one another, can also be used, for example for producing sealing edges.
European patent no. EP 482 272 B1 discloses a method for producing assembly injection molded switching dampers. For this purpose the switching damper and the shaft of the switching damper are assembly injection molded in one piece in the associated damper frame (see figure 5). For producing the damper frame, core inserts 3, 4, must be provided in the mold for the switching damper and fill up the volume of the damper shaft. For producing the switching damper shaft component, these core inserts must be removed from the injection mold. For this purpose, a handling space for the core inserts 3, 4 must be provided around the mold.
European patent no. EP 747 587 A1 teaches providing the assembly injection molded components with additional insertion parts, which are placed in the injection mold (see figure 4, component 22). These insertion parts can improve the functional properties of the assembly injection molded, cast parts, such as ensuring the satisfactory mounting of movable parts and compensating for shrinkage process of the injection molded parts.
However, the complexity of the assembly injection molded components is limited since the geometries which can be realized with the molded parts of the molding tool, must be taken into consideration in their design. If a component becomes too complex to be produced in one molding tool, several mold cavities, which have different geometries, can also be provided in the molding tool. However, this means a higher handling expenditure, as a result of which the advantages of the assembly injection molding are partially cancelled. In addition, cutbacks must be made in the tolerances of the component that is to be manufactured.
A different possibility is to assemble several assembly injection molded components of lesser complexity into one subassembly, which fulfills the complexity requirements. However, this would represent only a partial transformation of the idea associated with assembly injection molding of saving assembly costs by producing finished parts from the very start. With that, the economic efficiency of such subassemblies would once again be limited.
SUMMARY OF THE INVENTION
It is therefore an object of the invention to provide a molding tool with which it is possible to produce complex assembly injection molded component structures.
A further object of the invention is to provide a molding method which makes use of the apparatus of the invention.
These and other objects of the invention are achieved by the invention as described and claimed hereinafter.
Pursuant to the invention, a molding tool is proposed, which has several mold cavities for producing assembly injection molded components. This tool is characterized by the fact that in order to realize at least one mold geometry defined by mold cavities, seats are created, into which an insertion part can be inserted which connects the components to be produced. In a subsequent step of the assembly injection molding process, this insertion part is encapsulated. As a result, a fixed assembly of assembly injection molded components results. This assembly comes out of the molding tool as a unit and can be used without costs for assembling the individual components. The economic efficiency of the assembly injection molded assembly is increased by these means. At the same time, the assembly can have a complex structure, which could not be achieved if a mold cavity were used in the molding tool.
In this regard, it is immaterial whether the assembly injection molded parts of the components can be moved relative to one another (for example, a switching element) or whether they are firmly connected to one another (for example, a gated seal). The seat for the insertion part can be formed from various mold parts of the mold cavities or also by component parts already assembly injection molded. The previously molded component parts and the mold parts can together produce the mold geometry necessary for producing new component parts.
In accordance with one preferred embodiment of the invention, the seats for the insertion parts are constructed in such a manner that they lie on a common axis. The insertion part can then be inserted into the seats along this axis. In accordance with a preferred variant of this embodiment, the insertion part may consist of a rod-shaped part. This may be, for example, an actuating shaft for switching parts of the individual components. The seats then comprise holes into which the rod-shaped insertion part is pushed. This has the advantage that the seats can be produced by removing simple pin-shaped mold parts in the appropriate manufacturing step of the assembly injection molding process.
A far higher flexibility in the geometric arrangement of the component assemblage can be achieved if the individual mold cavities are disposed rotatably in the molding tool. This has the advantage that, before the insertion part is introduced, the mold cavities can be brought into the respectively most advantageous position corresponding to an advantageous accessibility for feeding in the injection molding material as well as for the relative movement, which is to be produced between the molded parts.
In one advantageous embodiment of the inventive molding tool, several subassemblies can be produced simultaneously. The molding tool may, for example, be constructed in carousel fashion, in which case the mold cavities belonging to a subassembly, rotate below the handling machines of the respective manufacturing steps. In this way, a clocked production course can be produced, the handling machines of all manufacturing steps being used in each cycle. The result is an optimum utilization of the manufacturing potential of the equipment as a whole.
In a particularly preferred embodiment of the invention, the molding tool has molding cavities for producing assembly injection molded switching dampers. These can be designed, for example, as proposed in the EP 482 272 B1. A shaft, connecting the switching dampers, is then used as insertion part and is suitable for actuating all switching dampers simultaneously. The seats for the shaft are formed by core inserts, which are inserted laterally into the mold cavities and must be removed before casting in the shaft. For this purpose, a certain free handling space for the core inserts is necessary in the axial direction relative to the shaft. In the event that this is not available because of the distance that is required between the switching dampers, rotatable mold cavities can be used. It is then possible to manufacture the damper frame in one position of the mold cavities, in which the holes in the damper frames are aligned at an angle of 90° to the common damper shaft. In this position, the pin-shaped mold parts can be removed from the associated seats without great effort and, because of the identical lifting-out motion at all mold cavities, the pin removal can
Crowell & Moring LLP
Filterwerk Mann & Hummel GmbH
Heitbrink Tim
LandOfFree
Molding tool for producing a plurality of assembled... does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Molding tool for producing a plurality of assembled..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Molding tool for producing a plurality of assembled... will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-3135599