DEVICE AND METHOD FOR TRANSPORTING AND HANDLING CONTAINERS

Abstract

The invention relates to a device and a method for transporting and handling containers, in particular containers made of a thermoplastic material. The, containers are transported from an inlet point (41) to an outlet point (30) in a transport direction by the transport device, The transport device has at least one handling device (26) which moves in the transport direction for handling one or more of the containers in a simultaneous manner in particular, and the handling device (26) is arranged in a movable manner relative to the transport device in order to move in a direction which deviates from the transport direction. The invention is characterized in that the transport device has at least one motor (32, 34, 37), by means of which the at least one handling device (26) can be moved in a motor-driven manner in the direction which deviates from the transport direction.

Claims

1. A transport device for transporting and handling containers, wherein the containers are transported by the transport device in a transport direction from an input point to an output point, wherein the transport device has at least one handling device, which is moving in the transport direction for simultaneous handling of one or more containers, wherein the handling device is arranged so that it is movable relative to the transport direction for a movement in a direction differing from the transport direction, wherein the transport device has at least one motor by means of which the at least one handling device can be driven by motor in the direction which differs from the transport direction.

2. The transport device according to claim 1 comprising a plurality of handling devices, wherein each of the plurality of handling devices is movable separately by using the motor, each handling device being connected to the motor, so that it can be moved separately by motor, wherein the handling devices are movable independently of one another and/or wherein the transport device has a separately assigned motor drive for each of the plurality of handling devices,

3. The transport device according to claim 1, wherein each of the handling devices is movable around at least one axis, and/or along at least one axis, wherein a motor drive is assigned to each axis.

4. The transport device according to claim 2, wherein each of the handling devices is controlled by means of a control device, and wherein each one of the handling devices is controlled by means of a separately assigned control device.

5. The transport device according to claim 1, wherein at least one sensor and/or one sensor array is provided for determining a position and/or a setting of the handling device.

6. The transport device according to claim 2, wherein the movement of at least a few of the handling devices relative to one another is synchronized by means of at least one central control device or by communication of a plurality of control devices with one another and/or with sensors.

7. The transport device according to claim 1, wherein the transport device is a rotating transfer wheel with transport arms as handling devices which are grippers or transport mandrels.

8. The transport device according to claim 1, wherein the handling device pivotable by the motor with respect to the transport device.

9. The transport device according to claim 1, wherein the handling device is designed for execution of at least one longitudinal movement and/or at least one rotational movement and/or at least one pivoting movement, and wherein at least one linear motor and/or at least one torque motor and/or at least one servo motor is/are provided as motion drives.

10. The transport device according to claim 1, wherein a treatment station for the containers is arranged between the input point and the output point.

11. A blow-molding machine having a transport device according to claim 1.

12. A method for transporting and handling containers in a container handling machine having a transport device, wherein the containers are transported in one transport direction by the transport device from an input point to an output point, wherein a plurality of containers are transported one after another, wherein the containers are handled by one or more handling means of the transport device for the purpose of the transport, wherein the handling means move in the direction of transport with the containers handled thereby, wherein during the transport the handling means are moved in a direction relative to the transport direction which is different from the transport direction, wherein the transport device is equipped with at least one motor for the drive of the handling means, wherein the handling means are connected to the motor, so that they can be driven by the motor, so that the handling means can be moved by the motor in the direction differing from the transport direction.

13. The method according to claim 12, wherein the transport device comprises a plurality of handling means, wherein each handling means is connected to the motor so that it can be moved separately by the motor, wherein the handling means (26) are designed to be movable separately from one another and/or wherein the transport device for each of the plurality of handling means is equipped with a separate motor drive assigned to each handling means.

14. The method according to claim 13, wherein each one of the handling means configured to be movable about at least one axis, and/or along at least one axis.

15. The method according to claim 13, wherein each one of the handling means is controlled by means of a control device.

16. The method according to claim 15, wherein a position and/or setting of each handling means is determined by at least one sensor and/or sensor array and is sent to the control device.

17. The method according to claim 16, wherein the movement of at least some handling means relative to one another takes place in synchronization by means of at least one control device and/or by communication of a plurality of control devices with one another and/or with sensors.

18. The method according to claim 12, wherein the handling means is pivoted by motor with respect to the transport device.

19. The method according to claim 12, wherein the handling means execute executes a longitudinal movement and/or at least one rotational movement and/or at least one pivoting movement, and wherein the movement is driven by at least one linear motor and/or at least one torque motor and/or at least one servo motor.

20. The transport device according to claim 10, wherein the treatment station is selected from the group consisting of a heating device, a blow-molding device, a filling device, a sterilization device, an inspection device, a cleaning device, a locking device and a labeling device.

Description

[0042] A preferred exemplary embodiment of the present invention is described in greater detail below on the basis of drawings, in which:

[0043] FIG. 1 shows a transport device according to the invention, namely in a blow-molding machine for thermoplastic containers, and

[0044] FIG. 2 shows a perspective diagram of a transfer station according to the invention having pivotable handling devices.

[0045] FIG. 1 shows a device 10 for blow molding of containers (not shown in detail here). The blow-molding machine 10 has various processing stations and/or processing modules, which fulfill various purposes. An elongated heating oven 11, which is shown in the left elongated region of the blow-molding machine 10 and provides a heating zone, serves the purpose of thermal conditioning of the parisons. The heating oven 11 has a revolving conveyor chain 12, which can accommodate a plurality of parisons and can transport them along heating devices 21.

[0046] Another processing station inside the blow-molding machine 10 forms the blow-molding wheel 14, which has a plurality of blow-molding stations 13. Within the blow-molding stations 13, the drawing and expansion of so-called parison take place by means of compressed air. The parisons are sent to the blow-molding station 13 after thermal conditioning in the heating oven 11 and then they leave the blow-molding station 13 as finished blow-molded containers.

[0047] For transfer of parisons and/or containers between the conveyor chain 12 of the heating oven 11 and the blow-molding wheel 14 as well as for transfer of parisons and/or blow-molding containers produced from them between different processing stations of the blow-molding machine 10 the so-called transfer wheels 15, 16, 17, 24, 27, 29 also serve to transfer the parisons. These transfer wheels receive containers at an input point and transfer the containers to an output point. The transfer wheel 17 receives the incoming parisons from the transfer wheel 16 at a transfer point and, after one revolution of approx. 180; it transfers the parisons to the conveyor chain 12 in the region of a first pulley 18 having two additional supporting wheels 19. On the opposite end of the oval movement path spanned by the conveyor chain 12, another deflecting roller 20 is set up to ensure a stable and appropriate revolution of the conveyor chain 12. Heating devices 21 are also provided in the region of the linear path of the conveyor chain 12. These serve to provide temperature regulation of the parisons conveyed past them. These heating devices 21 are usually designed as heating boxes, which are arranged together one after the other and form a heating zone 22. In the region of the heating zone 22, a fan 23 may also be provided, serving to provide correct temperature control of the containers in interaction with the heating devices.

[0048] As soon as the containers have been brought to the desired temperature and optionally have the desired temperature profile, an input wheel 24 as part of the transfer station 25 receives the containers with the help of carrying arms 26 and conveys the containers to the blow-molding wheel 14.

[0049] The blow-molding wheel 14 has blow-molding stations 13 each having blowing molds designed in multiple parts each, held by blow-molding carriers 28. A parison is inserted into each blow-molding station 13 and is expanded by means of compressed air to form finished containers. The blowing molds surround the parisons and the expansion takes place until the widening container comes in contact with the inside wall of the blowing mold.

[0050] By means of an output wheel 27 with additional carrying arms 26, the finished blow-molded containers are then taken from the blow-molding wheel 14 and sent to an output zone 30 via the transfer wheel 16 and the transfer wheel 29.

[0051] As can be seen in FIG. 1, the carrying arms 26 of the input wheel 24 as well as the carrying arms of the output wheel 27 are arranged so that they are pivotable with respect to the latter. Reference is made in this regard to FIG. 2, which shows a transfer station 25 in detail. The other transfer wheels may be designed in the same way.

[0052] The carrying arms 26 of the transfer wheel 25 have gripper-type handling elements in the form of holding clamps 31. These serve to grip one container each, for example, at the neck ring of a container.

[0053] The carrying arms 26 themselves are displaceable by means of a linear motor 32 essentially radially to the transfer station 25. Adjustability of the holding clamps 31 arranged on the ends of the carrying arms that are on the outside radially, so that they can be displaced in the tangential direction, is carried out by a torque motor 34 and a corresponding axis of rotation 35, which are arranged in parallel with the central axis of rotation 36 of the transfer station 25. For rotation of the transfer station 25 on the whole a servo motor 37 is provided in the region of the central axis of rotation 36. This servo motor 37 is located in the interior of the cylinder 38 as a housing of the transfer station 25 in the present exemplary embodiment. The carrying arms 26 revolve together with the transfer station 25, so that the holding clamps 31 execute a basic circular movement.

[0054] The carrying arms 26 of the transfer station 25 can be adjusted independently of one another about their respective axis of rotation 35 as well as along their respective linear drive 33 adjusted independently of one another. In addition to the rotation of the transfer station 25 about its axis of rotation 36, superimposed movements may thus be carried out, for example, to compensate for minor lack of synchronicity of the rotation of the transfer station 25, the blow-molding wheel 14 and the conveyor chain 12 of the heating oven 11.

[0055] To determine the current position of transport arms and/or optionally of the containers, sensors are required. These sensors are not shown in detail either in FIG. 1 or in FIG. 2. They serve to detect, for example, the current position of a container and to move the carrying arm assigned to it to the corresponding position by means of control devices that are also not shown.

[0056] In contrast with an approach by means of a simple cam control with rollers on an external cam path, with the approach according to the invention it is possible to respond in a flexible manner at any time to deviations from the ideal position. Emergency stops and similar interruptions in production are therefore necessary much less often. Moreover the individual transfer and processing steps within the blow-molding machine can be carried out with a greater precision because the positioning of the carrying arms 26, for example, and/or the holding clamps 31 attached to them can be controlled at any time.

[0057] If necessary, yet other axes may be added for motorized mobility. In particular, some of the transfer wheels can be replaced by suitable carrying arms or robot arms. This would then require a greater degree of robot intelligence to move the containers in a suitable manner between the individual processing stations of the blow-molding machine by means of transfer wheels, as explained on the example of the transfer station 25, for example.

[0058] The controllers that are not shown in the drawings here may be provided separately for each carrying arm 26. This is recommended because the control tasks are always identical. To achieve the greatest possible security in the interaction of the individual components, networking and/or communication of the individual control devices is/are regarded as advantageous. Alternatively, a central control device may also be provided, evaluating all the parameters and positions and controlling them accordingly.

[0059] The features that are suitable and described here, in particular the features of the carrying arms 26 that are movable by means of motors, can also be transferred to other comparable machines. The exemplary embodiment shown here shows merely for the sake of simplicity a specific type of machine. Other machines that work with transfer stations 25 can also be equipped with this technology.