EP3819994A1 - Spout providing module support - Google Patents

Abstract

The invention relates to a socket supply module carrier (1) for connecting a socket supply module (20) to a socket loading device (30), characterized in that the socket supply module carrier (1) - a receptacle (2) for releasably attaching a socket supply module (20) ) on the carrier (1), - a mechanical coupling (3) for releasably attaching the carrier (1) to a nozzle fitting device (30) and - at least one energy supply interface (4), preferably an electrical and / or pneumatic interface, and / or comprises at least one signal transmission interface (5) for connection to the nozzle fitting device (30).

Description

The invention relates to a nozzle preparation module carrier for connecting a nozzle preparation module to a nozzle loading device.

The EP1689049A1 discloses a grommet loading device for attaching grommets to electrical cables. The sleeve fitting device consists of a base module for carrying a sleeve module and a fitting module, the sleeve module providing the sleeves to be fitted to the fitting module and the fitting module fitting the cables with the sleeves. The nozzle module, which consists of the nozzle store and the conveyor device, can be attached to the base module in a pluggable manner.

In the case of a sleeve supply module (also called a sleeve module or seal loader) for the wire processing area, sleeves - also called (weather) seals - are stored in a container, then separated by a device and then brought into a process position via a conveyor system, from where these sleeves taken over and then applied or positioned on an electrical line. This serves to seal the contact connection of the cable against moisture and / or liquid.

All currently known nozzle supply modules are "closed" systems. I. E. each nozzle preparation module has its own pick & place solution as well as separation and conveying unit. The nozzle preparation module and the device for inserting the nozzle must therefore be precisely matched to one another, which in practice means that they have to be from the same manufacturer. However, this is for the customer disadvantageous and possibly also costly, since it is always tied to the same manufacturer.

The aim of the present invention is therefore to overcome at least some of the disadvantages resulting from the prior art and in particular to provide a socket supply module carrier which enables the use of different socket supply modules or modules from different manufacturers. It should be possible to use the functions of the nozzle preparation module, in particular the storage, conveyance and separation of nozzles, as before. This should increase flexibility and the required changeover times should be short.

• eine Aufnahme zum lösbaren Befestigen eines Tüllenbereitstellungsmoduls an dem Träger,
• eine mechanische Kupplung zum lösbaren Befestigen des Trägers an einer Tüllenbestückungsvorrichtung und
• zumindest eine Energieversorgungsschnittstelle, vorzugsweise eine elektrische und/oder pneumatische Schnittstelle, und/oder zumindest eine Signalübertragungsschnittstelle zum Anbinden an die Tüllenbestückungsvorrichtung

umfasst.This goal is achieved with a spout preparation module carrier mentioned at the outset in that the spout preparation module carrier

• a receptacle for releasably attaching a nozzle preparation module to the carrier,
• a mechanical coupling for releasably attaching the carrier to a nozzle fitting device and
• at least one energy supply interface, preferably an electrical and / or pneumatic interface, and / or at least one signal transmission interface for connection to the nozzle fitting device

includes.

With the spout supply module carrier according to the invention, an adapter is provided which, on the one hand, can receive and hold a spout supply module and, on the other hand, can be attached to a spout loading device. An additional module - namely an adapter module - created, which allows the coupling of different nozzle supply modules to the nozzle loading device. The receptacle for detachably attaching a nozzle preparation module to the carrier can be designed in such a way that attachment is possible regardless of the type and size of the nozzle preparation module. For example, the receptacle can comprise a simple, standardized mounting rail.

The mechanical coupling, which can preferably be operated by hand, enables the carrier to be coupled or uncoupled quickly to the nozzle fitting device. At the same time, a connection is created via which the components of the carrier can be supplied with electrical, pneumatic or hydraulic energy or controlled with control signals.

The socket supply module carrier has a base, in particular in the form of a platform, a frame, a base or a rack. The base carries the individual components (mechanical coupling, receptacle, interface (s), if necessary drive device, transfer device and / or positioning device) of the nozzle supply module carrier.

In this context, a grommet supply module is understood to mean a module which provides cable grommets - preferably individually - and which can include several functions, in particular the storage, conveyance and / or separation of cable grommets. The sleeve provision module could equally be referred to as a cable sleeve provision module. The spout preparation module will therefore generally comprise a spout store, a conveying device and a separating device.

A sleeve fitting device is understood to mean a device with which cable sleeves are applied to cables and, if necessary, also attached to the cable. A nozzle fitting device is therefore usually a handling device for the cable to be fitted, in particular in the form of a gripper or a guide, and a handling device, e.g. B. also in the form of a gripper for the grommet. Using a suitable drive, the cable sleeve is pushed over the cable or the cable is pushed into the cable sleeve.

A preferred embodiment is characterized in that the spout supply module carrier has at least one drive device for driving a conveying and / or separating device of the spout supply module, the drive device preferably comprising a motor and a drive wheel and / or being designed in the form of a drum drive. With this measure, the functionalities of the sleeve supply module can be operated directly via the carrier. In other words, the sleeve supply module carrier is not only an adapter module from a mechanical point of view, but also from a functional point of view. e.g. a drive wheel of the drive device rests against a rotatably mounted drum to be driven).

A preferred embodiment is characterized in that the socket supply module carrier has a positioning device, preferably in the form of a centering device, for positioning a nozzle feeding device, in particular a linear conveyor, of the nozzle supply module. The provision of a positioning device enables the correct and precise alignment of the spout feed device. As a result, different nozzle supply modules can be connected to the nozzle loading device even more precisely and reliably by means of the carrier.

A preferred embodiment is characterized in that the positioning device has a - preferably tapering, in particular conical, shaped - positioning element which can be moved from a rest position (e.g. in the vertical direction) into a positioning position - preferably by means of a lever mechanism. The positioning device preferably has a handle, in particular a handle, for manual actuation of the positioning element. In the positioning position, the positioning element interacts with the nozzle feed device or engages in a corresponding recess of the same, which enables precise alignment.

A preferred embodiment is characterized in that the spout supply module carrier has a transfer device for transferring a spout from a spout supply module to a spout loading device. The transfer device can be used to compensate for differences in the type and dimensioning of different grommet supply modules.

A preferred embodiment is characterized in that the transfer device has an actuator for removing a spout from a spout feed device, in particular in the form of a linear conveyor, of the spout supply module. The actuator can e.g. B. be designed such that it has one on the Tüllenzuführeinrichtung pushes moved cable grommet through a hole in the Tüllenzuführeinrichtung, whereby the grommet is removed from the Tüllenzuführeinrichtung.

The nozzle feed device of the nozzle supply module is preferably designed as a linear conveyor (in particular with a vibratory conveyor drive) or in the form of a guide track.

A preferred embodiment is characterized in that the transfer device has a transport device for moving a grommet, the transport device preferably having a linearly movable receptacle for a grommet, the receptacle preferably being arranged on a linearly guided slide. The nozzles conveyed by the nozzle feeding device are then transported onward with the carrier's transport device and thus get into the nozzle loading device. In other words, the carrier also represents an adapter with regard to the transport of the cable sleeves.

A preferred embodiment is characterized in that the transport device interacts with the actuator to pick up and move a spout removed by the actuator from a spout feed device of the spout supply module, a movement element of the actuator interacting with a spout preferably being arranged above the transport device. The actuator removes a single grommet from the grommet feed device of the grommet supply module and ensures that the grommet lands on the carrier's transport device.

A preferred embodiment is characterized in that the actuator can be moved together with the receptacle of the transport device. This maintains the relative position between the actuator and Recording always received, which guarantees a reliable handover.

A preferred embodiment is characterized in that at least one energy supply interface and / or signal transmission interface of the nozzle provision module carrier is connected to the drive device for driving a conveying and / or separating device of the nozzle provision module and / or that at least one energy supply interface and / or signal transmission interface of the nozzle provision module The carrier is connected to the actuator and / or the transport device.

A preferred embodiment is characterized in that at least one energy supply interface and at least one signal transmission interface are integrated in a multifunctional coupling, preferably in the form of a connector or a connector, with preferably at least one pneumatic interface and at least one electrical interface and at least one signaling interface in the Multifunctional clutch are integrated. The multifunctional coupling ensures a simple and error-free connection to the nozzle fitting device. The multifunctional coupling is preferably fixed as a plug or socket on the base of the carrier.

A preferred embodiment is characterized in that the mechanical coupling has a locking mechanism and a handle, in particular a handle, for manual actuation of the locking mechanism.

A preferred embodiment is characterized in that the receptacle for releasably attaching a nozzle preparation module to the nozzle preparation module carrier comprises a rail, preferably a rail with a T-shaped or dovetail-shaped cross section.

A preferred embodiment is characterized in that the spout transport direction of the transport device points in the same direction in which the at least one energy supply interface and / or the at least one signal transmission interface is also oriented.

A preferred embodiment is characterized in that the at least one energy supply interface is arranged on a first side of the nozzle supply module carrier and the handle of the mechanical coupling is arranged in the area of a second side of the nozzle supply module carrier opposite the first side.

• einer Tüllenbestückungsvorrichtung,
• einem erfindungsgemässen Tüllenbereitstellungsmodul-Träger und
• einem Tüllenbereitstellungsmodul,

dadurch gekennzeichnet, dass der Tüllenbereitstellungsmodul-Träger mittels der mechanischen Kupplung an der Tüllenbestückungsvorrichtung lösbar befestigt ist und über die zumindest eine Energieversorgungsschnittstelle und/oder die zumindest eine Signalübertragungsschnittstelle an die Tüllenbestückungsvorrichtung angebunden ist, und dass ein Tüllenbereitstellungsmodul über die Aufnahme lösbar an dem Tüllenbereitstellungsmodul-Träger befestigt ist.The goal is also achieved with a modular cable assembly device for equipping cables with grommets, formed from

• a nozzle fitting device,
• a spout supply module carrier according to the invention and
• a seal preparation module,

characterized in that the spout supply module carrier is releasably attached to the spout loading device by means of the mechanical coupling and is connected to the spout loading device via the at least one power supply interface and / or the at least one signal transmission interface, and that a Nozzle supply module is releasably attached to the nozzle supply module carrier via the receptacle.

A preferred embodiment is characterized in that the spout preparation module has a spout conveyor and / or spout separation device which can be driven by the drive device of the spout preparation module carrier.

A preferred embodiment is characterized in that the spout delivery module has a spout feed device, in particular in the form of a linear conveyor, and the transfer device of the spout delivery module carrier interacts with the spout feed device to remove a spout from the spout feed device

A preferred embodiment is characterized in that the spout preparation module has a spout feed device, in particular in the form of a linear conveyor, and the positioning device of the spout preparation module carrier interacts with the spout feed device.

The positioning device is preferably arranged below the nozzle feed device, particularly preferably below the actuator or the movement element of the actuator. Particularly preferably, in the positioning position, the positioning element is arranged below a hole (e.g. through-hole) formed in the nozzle feed device, through which the actuator presses the nozzle downwards.

A preferred embodiment is characterized in that the spout loading device has a control which is set up to use the at least one Power supply interface and / or the at least one signal transmission interface to control the spout supply module carrier, in particular the drive device for driving the conveying and / or separating device of the spout supply module and / or the actuator for removing a spout from the spout supply device and / or the transport device for moving a spout.

The grommet loading device preferably comprises a takeover device (for example a gripper) which takes over the grommets from the transport device and feeds them to the further process (i.e. the grommet loading of the cable).

A preferred embodiment is characterized in that the grommet preparation module has a grommet reservoir (for storing cable grommets).

Further advantages, features and details of the invention emerge from the following description, in which exemplary embodiments of the invention are described with reference to the drawings.

Like the technical content of the claims and figures, the list of reference symbols is part of the disclosure. The figures are described coherently and comprehensively. The same reference symbols denote the same components, reference symbols with different indices indicate functionally identical or similar components.

Fig. 1

eine Ausführungsform eines erfindungsgemässen Tüllenbereitstellungsmodul- Trägers,

Fig. 2

den Tüllenbereitstellungsmodul-Träger aus Fig. 1 von der anderen Seite,

Fig. 3

einen Tüllenbereitstellungsmodul-Träger mit daran montiertem Tüllenbereitstellungsmodul,

Fig. 4

die Übergabevorrichtung des Tüllenbereitstellungsmodul-Trägers in vergrösserter Ansicht,

Fig. 5

die Multifunktionskupplung des Tüllenbereitstellungsmodul-Trägers in vergrösserter Ansicht,

Fig. 6

eine modulartig aufgebaute Kabelkonfektioniervorrichtung in schematischer Darstellung.

It shows:

Fig. 1

an embodiment of a socket supply module carrier according to the invention,

Fig. 2

the sleeve supply module carrier Fig. 1 from the other side,

Fig. 3

a sleeve preparation module carrier with a sleeve preparation module mounted thereon,

Fig. 4

the transfer device of the nozzle supply module carrier in an enlarged view,

Fig. 5

the multi-function coupling of the nozzle supply module carrier in an enlarged view,

Fig. 6

a modular cable assembly device in a schematic representation.

Fig. 1 and 2 show - each from different sides - a sleeve supply module carrier 1 for connecting a sleeve supply module 20 to a sleeve loading device 30 (see also FIG Fig. 6 ). The nozzle supply module carrier 1 comprises a receptacle 2 for releasably attaching a nozzle provision module 10 to the carrier 1. The receptacle 2 can e.g. B. comprise a rail 2a, preferably a rail with a T-shaped or dovetail cross-section.

A mechanical coupling 3 is used to releasably attach the carrier 1 to a nozzle fitting device 30 ( Fig. 6 ). The mechanical coupling 3 can have a locking mechanism 3a and a handle 3b, in particular a handle, for manual actuation of the locking mechanism 3a.

The carrier 1 also comprises energy supply interfaces 4, preferably an electrical and / or pneumatic interface, and a signal transmission interface 5 for connection to the nozzle fitting device 30. These interfaces 4, 5 are in particular connected to a drive device 6 of the carrier 1 (for driving a conveying and / or separating device 21 of the spout provision module 20) and / or to a transfer device 13 of the carrier 1 (see actuator 15 or transport device 17). These interfaces 4, 5 can be integrated in a multifunctional coupling 18, preferably in the form of a connector or a connector - that is, in a common housing (see enlarged illustration from FIG Fig. 5 ). For example, at least one pneumatic interface and at least one electrical interface and at least one signaling interface can also be integrated in the multifunctional coupling 18.

In the embodiment shown, the spout supply module carrier 1 has at least one drive device 6 for driving a conveying and / or separating device 21 of the spout supply module 20. The drive device 6 can comprise a motor 7 and a drive wheel 8 and / or be designed in the form of a drum drive.

Fig. 3 shows the carrier 1 with the nozzle preparation module 20 attached to it. The nozzle preparation module 20 can be fastened to a mounting rail 2a of the carrier 1, preferably by means of a tensioning lever. In an assembled state, the nozzle supply module 20 or its nozzle feed device 22 can have play, so that subsequent positioning or fine adjustment is possible or necessary.

The nozzle supply module carrier 1 from the Figures 1 to 4 further comprises a positioning device 9, preferably in the form of a centering device, for positioning a Nozzle feed device 22 (here: a linear conveyor) of the nozzle delivery module 20. Such an adjustment or centering of the nozzle feed device 20 is used for correct alignment, in particular relative to the transfer device 13 described below.

The positioning device 9 has a positioning element 10 which tapers upwards (here: conically) and which can be moved by means of a lever mechanism 11 from a rest position into a positioning position (here from bottom to top). The positioning device 9 can be actuated by means of a handle 12, in particular a handle.

The positioning mechanism can be moved into a centering position. The positioning mechanism is pressed into the two end positions via a spring mechanism.

The positioning element 10 is pressed upwards by means of a lever mechanism into a hole (through-hole) in the nozzle feed device 22, as a result of which the nozzle feed device 22 is positioned. The lever can only be operated in the front position by a mechanical stop and is monitored by a light barrier. The hole or the through hole is used at the same time to position the nozzle feed device 22 and to push the nozzles 14 through. In the positioning position, the positioning element 10 and the movement element 16 of the actuator 15 are precisely aligned one above the other.

A transfer device 13 is used to transfer a cable grommet 14 from a grommet supply module 20 to a grommet loading device 30. The transfer device 13 of the embodiment shown comprises an actuator 15 for Removal of a spout 14 from the spout feed device 22 of the spout provision module 20. The transfer device also includes a transport device 17 for moving a spout 14. The transport device 17 can have a linearly movable receptacle 17a for a grommet 14, the receptacle 17a preferably on a linearly guided slide 17b is arranged.

The transport device 17 interacts with the actuator 15 in order to be able to pick up the nozzles 14 removed from the nozzle feed device 22 by the actuator 15 and to be able to move them further. A movement element 16 (e.g. in the form of a ram) of the actuator 15, which interacts with a grommet 14, is preferably arranged above the transport device 17 (see FIG Fig. 4 ). The ram-shaped movement element 16 presses a grommet 14 through a hole in the linear conveyor 22 directly onto the receptacle 17a. The latter is then moved along the arrow shown and thus brings the nozzle 14 to the nozzle assembly device 30 ( Fig. 6 ). The actuator 15 can be arranged in such a way that it can be moved together with the receptacle 17a of the transport device 17.

Fig. 6 Finally, shows a modular cable assembly device for equipping cables with grommets. This comprises a nozzle loading device 30 (which pushes the incoming nozzles via a cable or a cable into the respective incoming nozzle), a nozzle provision module carrier 1 and a nozzle provision module 20. As shown in FIG Fig. 6 As can be seen, the spout supply module carrier 1 is releasably attached to the spout loading device 30 by means of the mechanical coupling 3 and via the at least one power supply interface 4 and / or the at least one signal transmission interface 5 to the spout loading device 30 connected. The nozzle preparation module 20 is detachably fastened to the nozzle preparation module carrier 1 via the receptacle 2.

The nozzle preparation module 20 - as in FIG Fig. 3 shown - has a spout conveyor and / or spout separating device 21, which can be driven by the drive device 6 of the spout preparation module carrier 1. When the spout conveyor and / or spout separating device 21, it can be, for. B. a drum conveyor, which is formed from a drum and on the inner wall of the drum arranged drivers (z. B. blades) act. The spout conveyor device 21 conveys the spouts 14 from a spout reservoir 23 onto the feed device 22, whereby the spouts 14 are also separated at the same time. Alternatively, the spout conveyor and / or spout separating device 21 could also be designed in the form of a conveyor belt. Any other configurations would be possible here.

The nozzle feed device 22 (here a linear conveyor) interacts with the transfer device 13 of the nozzle supply module carrier 1 to remove the nozzle 14 from the nozzle feed device 22.

Fig. 3 shows that the positioning device 9 of the nozzle supply module carrier 1 is arranged below the nozzle feed device 22 and cooperates in the positioning position (ie when the positioning element 10 is pushed upwards).

Fig. 6 also shows that the nozzle fitting device 30 has a controller 31 which is set up to use the at least one energy supply interface 4 and / or the at least one Signal transmission interface 5 the spout supply module carrier 1, in particular the drive device 6 for driving the conveying and / or separating device 21 of the spout supply module 20 and / or the actuator 15 for removing a spout 14 from the spout feed device 22 and / or the transport device 17 for moving a spout 14 to be controlled.

When the spout 14 is moved by the transport device 17 in the direction of the spout loading device 30, a transfer device 32 ( Fig. 6 ), e.g. B. a gripper, take over the grommet from the receptacle 17a and feed it to the further process (ie, the grommet assembly of the cable).

The invention is not restricted to the described embodiments and the aspects highlighted therein. Rather, a large number of modifications are possible within the concept of the invention, which are within the scope of professional action. It is also possible to implement further design variants by combining the means and features mentioned without departing from the scope of the invention.

List of reference symbols

1

Grommet supply module carrier

2

admission

2a

rail

3

mechanical clutch

3a

Locking mechanism

3b

Handle

4th

Power supply interface

5

Signal transmission interface

6th

Drive device

7th

engine

8th

drive wheel

9

Positioning device

10

Positioning element

11

Lever mechanism

12th

Handle

13th

Transfer device

14th

grommet

15th

Actuator

16

Movement element

17th

Transport device

17a

admission

17b

Sledge

18th

Multifunctional coupling

19th

Base

20th

Nozzle provision module

21st

Conveyor and / or separating device

22nd

Spout feeding device

23

Spout reservoir

30th

Nozzle loading device

31

control

32

Takeover facility

Claims (15)

Socket supply module carrier (1) for connecting a socket supply module (20) to a socket loading device (30), characterized in that the socket supply module carrier (1) - A receptacle (2) for releasably attaching a nozzle preparation module (20) to the carrier (1), - A mechanical coupling (3) for releasably attaching the carrier (1) to a nozzle fitting device (30) and - At least one energy supply interface (4), preferably an electrical and / or pneumatic interface, and / or at least one signal transmission interface (5) for connection to the nozzle fitting device (30) includes. Socket supply module carrier according to Claim 1, characterized in that the socket supply module carrier (1) has at least one drive device (6) for driving a conveying and / or separating device (21) of the socket supply module (20), the drive device (6) preferably comprises a motor (7) and a drive wheel (8) and / or is designed in the form of a drum drive. Socket supply module carrier according to Claim 1 or 2, characterized in that the socket supply module carrier (1) has a positioning device (9), preferably in the form of a centering device, for positioning a Nozzle feed device (22), in particular a linear conveyor, of the nozzle supply module (20). Socket supply module carrier according to one of the preceding claims, characterized in that the positioning device (9) has a - preferably tapering, in particular conical, shaped - positioning element (10) which - preferably by means of a lever mechanism (11) - from a rest position to a positioning position is movable, the positioning device (9) preferably having a handle (12), in particular a handle, for manual actuation of the positioning element (9). Socket supply module carrier according to one of the preceding claims, characterized in that the socket supply module carrier (1) has a transfer device (13) for transferring a socket (14) from a socket supply module (20) to a socket loading device (30). Socket supply module carrier according to one of the preceding claims, characterized in that the transfer device (13) has an actuator (15) for removing a socket (14) from a socket supply device (22), in particular in the form of a linear conveyor, of the socket supply module (20). Socket supply module carrier according to one of the preceding claims, characterized in that the transfer device is a transport device (17) for Moving a spout (14), the transport device (17) preferably having a linearly movable receptacle (17a) for a spout (14), the receptacle (17a) preferably being arranged on a linearly guided slide (17b). Socket supply module carrier according to one of the preceding claims, characterized in that the transport device (17) cooperates with the actuator (15) to pick up and move a socket (15) removed by the actuator (15) from a socket feed device (22) of the socket supply module (20). 14), wherein a movement element (16) of the actuator (15) which cooperates with a grommet (14) is preferably arranged above the transport device (17). Socket supply module carrier according to one of the preceding claims, characterized in that the actuator (15) can be moved together with the receptacle (17a) of the transport device (17). Socket supply module carrier according to one of the preceding claims, characterized in that at least one energy supply interface (4) and / or signal transmission interface (5) of the socket supply module carrier (1) with the drive device (6) for driving a conveying and / or separating device (21 ) of the nozzle supply module (20) is connected and / or that at least one energy supply interface (4) and / or signal transmission interface (5) of the Spout supply module carrier (1) is connected to the actuator (15) and / or the transport device (17). Socket supply module carrier according to one of the preceding claims, characterized in that at least one energy supply interface (4) and at least one signal transmission interface (5) are integrated in a multifunctional coupling (18), preferably in the form of a connector or a connector, with preferably at least one pneumatic Interface and / or at least one electrical interface and / or at least one signaling interface are integrated in the multifunctional coupling (18). Socket supply module carrier according to one of the preceding claims, characterized in that the mechanical coupling (3) has a locking mechanism (3a) and a handle (3b), in particular a handle, for manual actuation of the locking mechanism (3a). Socket supply module carrier according to claim 8, characterized in that the receptacle (2) for releasably attaching a socket supply module (20) to the socket supply module carrier (1) comprises a rail (2a), preferably a rail with a T-shaped or dovetail-shaped cross-section . Modular cable assembly device for equipping cables with grommets, formed from - a nozzle fitting device (30), - A spout supply module carrier (1) according to one of the preceding claims and - a nozzle preparation module (20), characterized in that the socket supply module carrier (1) is releasably fastened to the socket loading device (30) by means of the mechanical coupling (3) and is connected to the socket loading device via the at least one power supply interface (4) and / or the at least one signal transmission interface (5). 30) is connected, and that the nozzle preparation module (20) is detachably attached to the nozzle preparation module carrier (1) via the receptacle (2). Cable assembly device according to claim 16, characterized in that the sleeve supply module (20) has a sleeve conveyor and / or sleeve isolation device (21) which can be driven by the drive device (6) of the sleeve provision module carrier (1), and / or that the sleeve provision module ( 20) has a nozzle feed device (22), in particular in the form of a linear conveyor, and the transfer device (13) of the nozzle supply module carrier (1) interacts with the nozzle feed device (22) for removing a nozzle (14) from the nozzle feed device (22) and / or that the nozzle preparation module (20) has a nozzle feed device (22), in particular in the form of a linear conveyor, and the positioning device (9) of the nozzle preparation module carrier (1) interacts with the nozzle feed device (22) and / or that the nozzle loading device (30) has a Has controller (31) which is set up to d ie at least one power supply interface (4) and / or the at least one signal transmission interface (5) the spout supply module carrier (1), in particular the drive device (6) for driving the conveying and / or separating device (21) of the spout supply module (20) and / or the actuator (15) for removing a spout ( 14) to control the nozzle feed device (22) and / or the transport device (17) for moving a nozzle (14),
and / or that the nozzle preparation module (20) has a nozzle reservoir (23).

Images