The invention relates to a device for implementing a socket on an end of crosscut plastic pipes having a framework, having a transverse conveyor for the plastic pipes, having at least two units, which are situated along the transverse conveyor in the framework, on the one hand, for heating the pipe ends, and on the other hand, for widening the heated pipe ends to form a socket, the units having jaw tools which externally enclose the pipe ends, and which can be fed transversely to the conveyance direction with the aid of actuators mounted in the framework, and having at least one tool which is axially insertable into the pipe end for at least one of the units.
In order to provide thermoplastic pipes with a socket on one end, the pipe ends to be expanded into a socket are firstly heated and then widened, external jaw tools being required for shaping and tools insertable into the pipe ends being required for widening and/or upsetting the heated pipe ends. The heating of the pipe ends to the processing temperature can be performed in one step, but is preferably performed in two steps, and preferably by heating from the inside and from the outside, which requires external heating jaws and heating cartridges for insertion into the pipe end. For mass production, it is necessary to supply the individual plastic pipes one after another to the units for the heating and the widening, which requires a transverse conveyor associated with these units for the plastic pipes, the plastic pipes being conveyed transversely to their longitudinal axis into the particular units with the jaw tools opened, before the actuators for these jaw tools, whether they are tools for heating or shaping, are applied and the tools for the processing of the pipe ends from the interior are inserted in the axial direction into the pipe ends. The plastic pipes are thus heated and widened to form sockets step-by-step. These known devices for socket implementation have the disadvantage, however, of the comparatively large amount of effort for refitting to different pipe and socket dimensions. To increase the throughput, upon the changeover from a large pipe diameter to a small pipe diameter, the available space can be used for the purpose of providing double tools for two pipes having a small diameter instead of the tools for one large pipe diameter, so that twice the number of small-caliber pipes having terminal sockets may be manufactured in approximately equal cycle times, but the refitting to be performed by hand remains costly.
The invention is thus based on the object of implementing a device of the type described at the beginning for implementing a socket on an end of crosscut plastic pipes so that rapid refitting to different pipe and socket dimensions can be performed, without having to dispense with plural manufacturing at smaller pipe dimensions.
The invention achieves the stated object in that the units form interchangeable modules which are mounted so they are displaceable in the axial direction in the framework, and which comprise mounts for the jaw tools, which are detachable from their actuators, and, with the exception of the actuators for the jaw tools, comprise all of the particular tools and drives associated with these units.
By providing interchangeable modules, which are mounted so they are displaceable in the framework in the axial direction, the refitting of the device to different pipe and/or socket dimensions can be performed easily and rapidly, without having to accept excess construction effort. Specifically, if the jaw tools are detachably connected to their radial actuators, these actuators may remain in the framework. It must only be ensured that the jaw tools detached from their actuators are appropriately received in a mount associated with the individual modules, in order to be able to ensure the desired refitting with the change of the modules. The individual modules may follow the framework partition predetermined by the largest pipe and/or socket diameter, and may have plural tools within this predetermined partition. Nothing changes in the socket production in the scope of the particular production method used, which requires specific toolsets.
Although the individual preinstalled modules may each be placed on carriages guided in the framework, particularly advantageous design conditions result if the modules themselves are implemented as carriages which are movable in the framework, because in this case the carriages are solely to be removed from their guides and replaced with alternative carriages.
In order to provide advantageous design conditions for the mount of the jaw tools in the individual modules, the mount for the jaw tools can have carriers which are mounted so they are displaceable parallel to the pipe axes and engage in receptacle recesses of the jaw tools. As these carriers are advanced toward the jaw tools, which are retained with the aid of their actuators in a predetermined transfer position, the carriers engage in the receptacle recesses in the jaw tools, which are thus detached from their particular actuators and may subsequently be moved with the particular module out of the framework. In order that the available space can be used well, it suggests itself that the mutual spacing of the carriers measured in the direction of the feed of the jaw tools be selected as equal to the corresponding spacing of the receptacle recesses of the closed jaw tools, so that the space required for the jaw tools in the area of the individual modules corresponds to that for the closed jaw tools.
Because the individual interchangeable modules contain all tools and their drives for the pipe processing, with the exception of the actuators for the jaw tools, these tools and drives must also be correspondingly activated and supplied with energy. In order to provide simple connection conditions in this context, the modules may each have a coupling part, which works together with a coupling part associated with the framework, of a plug coupling for the control and supply lines of the tools and their drives of the particular unit. With the aid of these plug couplings, the required connections in the area of the control and supply lines may be performed automatically. The individual modules are to be locked in their usage position within the framework. This locking can advantageously be performed via the plug couplings, namely if the coupling parts of the plug couplings which are associated with the framework are mounted so they are adjustable transversely to the displacement guide of the modules and are provided with locking bolts, which engage in detent recesses in the coupling parts of the modules. With the closing of the plug couplings, the modules are thus also locked in relation to the framework, so that separate measures for fixing the modules in the framework are superfluous.
An adaptation of the transverse conveyor, with the aid of which the pipes are supplied one after another to the individual units, also becomes necessary with the refitting of the units for the heating and widening of the pipe ends for pipes and/or sockets of a different size. The adaptation of this transverse conveyor to different pipe dimensions can be made easier if the transverse conveyor comprises the carriages, which are associated with the individual units and are movable along a transverse guide, and which carry jaw tappets which can be fed to the pipes transversely to the transverse guiding, and if the modules have a mount for the jaw tappets, which are detachable from their actuators. In this case, the jaw tappets to be adapted to the different pipe diameters may be interchanged together with the particular unit via the module formed by this unit. Although separate mounts may be provided in the individual modules for the jaw tappets of the transverse conveyor, particularly simple design conditions result if the carriers penetrate the jaw tools in the receptacle recesses and engage in receptacle recesses of the jaw tappets. Because of this measure, the carriers already provided for the jaw tools of the individual units may also be used for receiving the jaw tappets of the transverse conveyor without having to substantially change the design of the mount with the aid of the carrier.
The subject matter of the invention is shown for exemplary purposes in the drawing. In the figures:
In the device, which is only shown in the area of a module 1 for the widening of the heated pipe ends 2, which are indicated by dot-dash lines in
In addition to the tools 7, 8, which are adjustable in the axial direction, jaw tools 16, 17 are associated with the module 1, which form the individual tool jaws and can be applied with the aid of actuators 18 provided in the framework 4. For this purpose, guides 19 for clamping plates 20, which are radially opposite to one another in relation to the pipe ends 2, are provided in the framework 4, on which the actuators 18 engage and which detachably receive the jaw tools 16, 17. For this purpose, the jaw tools 16, 17, which are assembled into a handling unit, are provided with bolt attachments 21, which engage in detent recesses 22 of the clamping plates 20 and may be locked within these detent recesses 22. The locking drives are designated by 23.
In order that the jaw tools 16, 17 may be removed from the framework 4 with the module 1, the module 1 is equipped with a mount 24 for the jaw tools 16, 17 detached from the clamping plates 20. This mount 24 comprises two bar-type carriers 25, which are mounted so they are displaceable in carriages 6 parallel to the displacement guide 5 and may be applied in pairs with the aid of actuating cylinders 26. The carriers 25, which penetrate the carrier plates 9 and 10 so they are displaceable, engage with their ends protruding toward to the jaw tools 16, 17 in corresponding receptacle recesses of the jaw tools 16, 17, so that the jaw tools 16, 17 received by the carriers 25 may be extended with the carriage 6 out of the device.
The individual plastic pipes 3 are supplied one after another to the individual units, which are arrayed adjacent to one another and each form a module 1, for heating the pipe ends 2 and for widening the heated pipe ends 2 to form sockets, with the aid of a transverse conveyor 27, which is constructed from carriages 28 associated with the individual modules 1, which may be moved along a transverse guide 29 and have jaw tappets 30 for the individual plastic pipes 3. These jaw tappets 30, which are provided with individual tappet jaws 23 for the plastic pipes 3, are detachably connected to a lift drive 31, which comprises a guide 32 for a coupling unit 33 and an actuator 34, so that the jaw tappets 30 connected via the coupling unit 33 to the actuator 34 may be radially fed toward the plastic pipes 2 transversely to the transverse guide 29. The coupling of the jaw tappets 30 to the coupling unit 33 is performed in a similar way as the coupling of the jaw tools 16, 17 to the clamping plates 20 with the aid of bolt attachments 35. Because the plastic pipes 3 rest on a table 36 according to
The carriers 25 for the jaw tools 17 on the side of the pipe ends 2 facing away from the table 36 have a stroke which allows the carrier ends to advance through the jaw tools 17 up into corresponding receptacle recesses in the jaw tappets 30. It is thus possible to also receive the jaw tappets 30 detached from the actuator 31 by the mount 24 and to move them with the carriage 1 out of the framework 4.
A starting position of the module 1 for the placement of a new processing unit in the framework 4 is shown in
To change the modules 1 arrayed adjacent to one another in the framework 4, only one of which for socket production is shown, because the other modules 1 used for heating the pipe ends, for example, have a fundamentally comparable construction, in reverse sequence, firstly the jaw tappets 30 and the jaw tools 16, 17 must be displaced into a predetermined transition position, which is preferably formed by the closed position of the jaw tools 16, 17, before the jaw tools 16, 17 and the jaw tappets 30 may be accepted by an application of the cylinder 26, in order to be able to extend the carriage 6 out of the framework 4 after opening of the plug coupling 40.
Number | Date | Country | Kind |
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A 1731/2007 | Oct 2007 | AT | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/AT2008/000383 | 10/22/2008 | WO | 00 | 3/3/2010 |