WO2009068162A1

WO2009068162A1 - Device for treating bottles or similar containers, particularly bottling machine

Info

Publication number: WO2009068162A1
Application number: PCT/EP2008/009392
Authority: WO
Inventors: Olaf Muszinski
Original assignee: Khs Ag
Priority date: 2007-11-30
Filing date: 2008-11-07
Publication date: 2009-06-04
Also published as: DE102007058046A1; EP2227432A1

Abstract

A device for treating bottles or similar containers (2), particularly a bottling machine with a rotor (4) that is rotatably supported on a machine frame (3) about a machine axis (VA) and comprises at least one container carrier (7). The invention further comprises a bearing arrangement (13, 13a) for the rotatable support of the rotor (4) on the machine frame (3) about the machine axis (VA), wherein the bearing arrangement (13, 13a) is formed by a central bearing axis (14, 14a) arranged on the identical axis as the machine axis (VA) on the rotor (4) or on the machine frame (3), by at least one bearing element (15, 15a) surrounding the bearing axis (14, 14a) on the machine frame (3) or rotor (4), and by at least two bearing sections, which are spaced from each other in the direction of the machine axis (VA) and have at least one bearing (16-19, 22) between the bearing axis (14, 14a) and the at least one bearing element (15, 15a).

Description

Apparatus for treating bottles or similar containers, in particular filling machine

[0001] The invention relates to a device according to the preamble of patent claim 1.

Devices, in particular also such circulating design for treating bottles or similar containers, even in their training as a filling machine for filling the container with a liquid product are known in various designs. Especially in a filling machine, the rotatable about a vertical axis of the machine rotatable rotor on a high weight, and only by the filled during operation with the liquid product and with the filling elements of the filling machine in connection Füllgutbehälter or boiler, for example, as a ring boiler is executed.

To achieve a sufficiently high performance, it is also necessary, especially in filling machines, to form the rotor with a large diameter and with a plurality of filling stations on the circumference, i. with a diameter that is definitely greater than 400 cm. In order to achieve the required stability on a large diameter despite the high rotor weight, it is customary, in particular in the case of fillers or filling machines, to carry out the bearing arrangement between the rotor and the machine frame as a ball turning connection with a large diameter. Such ball slewing but are extremely expensive and available on the market only with significant delivery times.

[0004] The object of the invention is to provide a device or machine of circumferential design for treating bottles or similar containers, in particular in their design as filling machine, which, even with a large rotor diameter and high rotor weight, without limiting the stability with a simplified bearing arrangement between the rotor and the machine frame is realized. To solve this problem, a device according to the patent claim 1 is formed.

The invention is based on the finding that despite a large rotor diameter, for example, a rotor diameter of at least 400 cm, and despite a high rotor weight, especially when designed as a filling device, the storage can be done only on an axis or bearing axis, what so far from the Experts in such devices, ie was considered in devices with large rotor diameter and high rotor weight as not feasible.

The device according to the invention is preferably designed such that the bearing arrangement has at least two bearings or bearing sections, which are spaced apart in the direction of the machine axis and whose distance is at least 15 to 25% of the maximum rotor diameter or when forming a ring vessel on the rotor at least about 15 to 25% of the maximum diameter of the ring bowl.

Further developments, advantages and applications of the invention will become apparent from the following description of exemplary embodiments and from the figures. In this case, all described and / or illustrated features alone or in any combination are fundamentally the subject of the invention, regardless of their summary in the claims or their dependency. Also, the content of the claims is made an integral part of the description.

The invention will be explained in more detail below with reference to the figures of embodiments. Show it:

Fig. 1 in a simplified representation and in partial section designed as a rotary treatment machine for bottles or similar containers, in the form of a filling machine;

Fig. 2 in an enlarged partial view a section through the central Lageran- order in a further embodiment of the invention.

In the figures, 1 is a device of rotating design in the form of a filling machine for filling containers or bottles 2 with a liquid product. The device 1 consists essentially of a machine frame 3 and a rotatably mounted on this machine frame 3 about a vertical machine axis VA rotor 4, which is driven by a in Figure 1 schematically indicated by 5 drive around the vertical machine axis VA circumferentially.

At the periphery of the rotor 4 more filling stations are formed, each consisting of a filling element 6 and arranged under each filling element 6 container carrier or bottle plate 7 with lifting device 8 for raising and lowering the upright with their bottom on the bottle plates 7 arranged bottles 2 against the associated filling element 6 or of this filling element, as is known to those skilled in the art.

Further provided on the rotor 4 and rotating with this functional elements are in particular a ring boiler 9 for providing the bottled liquid in the bottle 2 liquid, control means for controlling the individual filling elements 6 and also a control drive 10 for raising and lowering a lower, the bottle plate 7 having a lifting device 8 having rotor part 4.2 relative to a filling elements 6 and the ring bowl 9 having upper rotor part 4.1, which is mounted on the machine frame or -gesteil 3, in the direction of the machine axis VA for adaptation to different bottle sizes, etc. Shown in the figure 1 also one of several columns 11 for a stationary, ie with the rotor 4 non-rotating control cam 12, with which the filling elements 6 interact via control rollers.

For storage of the rotor 4 on the machine frame 3 is a central bearing assembly 13, the u.a. has a coaxially arranged with the machine axis VA bearing shaft or shaft 14 which is rotatably mounted in a bearing tube 15. The bearing shaft 14 is secured to the upper rotor portion 4.1 thereof projecting downwardly and extends axially over a relatively long length, i. in the illustrated embodiment over a length which is about 15 to 25% of the diameter which the rotor has at its periphery provided with the filling elements 6 or the ring vessel at its radially outer side. With its in the figure 1 lower end, the bearing shaft 14 is supported via a trained example as a rolling bearing (ball bearings) axial support bearing on a reaching into the interior of the bearing tube 15 15.1 collar. Furthermore, the bearing axis 14 in the region of its upper and its lower end in the bearing tube 15 by bearings designed as a rolling bearing (eg ball bearings) and acting as a radial bearing 17 - 19 supported, in the illustrated embodiment at the upper end immediately below the rotor part 4.1 by the two axially staggered bearings 17 and 18 and in the region of the lower end by the bearing 19. The bearings 17 and 18 form an upper bearing portion and the bearings 16 and 19 a lower bearing portion.

The length of the bearing axis 14 and thus also of the bearing tube 15 are selected such that the bearing arrangement 13, starting from the upper rotor part 4.1, passes through the rotor part 4.2 which is ring-shaped in the illustrated embodiment and surrounds the machine axis VA concentrically Underside of the supported with feet 3.1 machine frame 3 and extends over this machine frame also still projecting downwards, so that a relatively low design of the device 1 is achieved with a relatively long design of the bearing axis 14.

The two bearings 17 and 18 have from the lower radial bearings 19 also has a large axial distance which is approximately equal to the length of the bearing axis 14 and accordingly also about 15 to 25% of the maximum diameter of the rotor 4 and the annular boiler. 9 is. Furthermore, the bearing shaft 14 is designed with a relatively large diameter, which is about 3 to 4% of the maximum diameter of the rotor 4 and the annular boiler 9.

With 20 and 21 are schematically indicated in Figure 1 connections, via the bearing assembly 13 and in particular the space enclosed by the bearing tube 15 space periodically flushed with a suitable medium or fluid, for example with a sliding fluid or permanently flowed through with the sliding fluid ,

Due to the described design of the central bearing assembly 13, the rotor 4 despite the avoidance of a complex ball slewing connection, a large diameter and a high, in particular due to the contents in the ring bowl 9 weight weight high stability.

2 shows a simplified partial representation of a bearing assembly 13a, which initially differs from the bearing assembly 13 in that instead of the two upper bearings 17 and 18 at the upper end of the bearing axis 14 corresponding bearing axis 14a, a bearing 22 is provided which acts as a radial and thrust bearing between the bearing axis 14a or a bearing axis provided on this, the machine axis VA concentrically enclosing annular portion 23 and the upper end of the bearing tube 15a. The upper bearing 22 has a cross section which is many times larger than the cross section of the lower bearing 19. The bearing 22 may also be designed as a ball-and-socket connection.

Another special feature is that the bearing axis 14a is designed as a rotary distributor, with at least one extending in the bearing axis 14a in the direction of the machine axis VA channel 24 formed with a on the circumference of the bearing axis 14.1, the machine axis VA concentric with closing annular groove 25 is in communication, as well as with a bearing axis 14a in the region of this open annular groove 25 enclosing and not rotating with the bearing axis 14a annular distributor element 26. This is provided with at least one outer terminal 27, which with a with the annular groove 25 congruently arranged opening (for example, control port) of the distributor element 26 is in communication. The rotary distributor formed by the bearing shaft 14a and the distributor element 26 serves for supplying and / or discharging operating media into the rotor 4 or from the rotor 4, for example for supplying pressurized fluid, eg compressed air, for supplying and discharging lubricating fluids etc.

Although the upper bearing 22 has a larger diameter than the lower bearing 19, the diameter of the bearing 22 is preferably at most equal to 100 cm, so that it can be made relatively inexpensive in forming the bearing 22 as a ball guide this.

The invention has been described above by embodiments. It is understood that numerous changes and modifications are possible without thereby departing from the inventive concept underlying the invention.

For example, it is possible to design the bearing arrangement 13 or 13a for an adjustment of the inclination of the rotor 4 or a rotor axis relative to the vertical, for example by appropriate adjustment of the inclination of the bearing tube 15 or 15a on the machine frame 3.

LIST OF REFERENCE NUMBERS

1 device or machine revolving design

2 bottle

3 machine frame

3.1 Stand

4 rotor

4.1, 4.2 rotor part

5 drive

6 filling element

7 bottle plates

8 lifting device

9 ring bowls

10 control drive

11 column

12 control curve

13, 13 a central bearing arrangement

14, 14a bearing axis

15, 15a bearing tube

16, 17, 18, 19 bearings

20, 21 connection

22 bearings

23 section

24 channel

25 ring groove

26 distribution element

27 connection

VA vertical machine axis

Claims

claims

1. A device for treating bottles or similar containers (2), in particular a filling machine with a on a machine frame (3) about a machine axis (VA) rotatably mounted and at least container carrier (7) having rotor (4), and with a bearing assembly (13 , 13a) for the rotatable mounting of the rotor (4) on the machine frame (3) about the machine axis (VA) _1, characterized in that the bearing arrangement (13, 13a) of a coaxial with the machine axis (VA) arranged central bearing axis (14, 14a ) on the rotor (4) or on the machine frame (3), of at least one, the bearing axis (14, 14a) enclosing bearing element (15, 15a) on the machine frame (3) or rotor (4) and at least two in the direction of the machine axis ( VA) spaced apart bearing sections, each with at least one bearing (16 - 19, 22) between the bearing axis (14, 14a) and the at least one bearing element (15, 15a) is formed.

2. Apparatus according to claim 1, characterized in that on the rotor (4) is provided a ring vessel (9) for receiving a filling material.

3. A device according to claim 2, characterized in that the ring bowl (9) surrounds the bearing assembly (13, 13 a) at a distance.

4. Device according to one of the preceding claims, characterized in that the bearing axis (14, 14 a) and / or all bearings (16 - 19, 22) have a diameter which is substantially smaller than the outer diameter of the rotor (4) and / or the boiler (9).

5. Device according to one of the preceding claims, characterized in that the axial distance, the at least two bearing sections or at least two bearings (16 - 19, 22) of the bearing assembly (13, 13 a) in the direction of the machine axis (VA) have greater than 10% of the maximum diameter of the rotor (4) and / or the boiler (9), preferably greater than 15% of the maximum diameter of the rotor (4) and / or the boiler (9).

6. Device according to one of the preceding claims, characterized in that the bearing sections or bearings (16 - 19, 22) act as axial support and / or radial bearings.

7. Device according to one of the preceding claims, characterized in that the upper bearing portion of the bearing assembly (13, 13 a) of at least two bearings (17, 18) and / or at least one bearing (22) with a relative to the bearings (16, 19) of the lower bearing portion enlarged diameter is formed.

8. Device according to one of the preceding claims, characterized in that the bearings (16 - 19, 22) rolling or ball bearings.

9. Device according to one of the preceding claims, characterized in that the lower bearing portion or a portion forming this bearing (16) is formed as an axial support bearing.

10. Device according to one of the preceding claims, characterized in that at least one bearing (22) of the upper bearing portion is formed as an axial support bearing.

11. Device according to one of the preceding claims, characterized in that all bearings (16 - 19, 22) of the bearing assembly (13, 13 a) have an outer diameter smaller than 100 cm.

12. Device according to one of the preceding claims, characterized in that the machine frame (3) is formed by a standing with feet (3.1) on a substrate frame assembly, and that the bearing assembly (13, 13 a) through the frame assembly in the between between the Stand feet (3) formed space extends.

13. Device according to one of the preceding claims, characterized in that the bearing arrangement (13a) is designed as a rotary distributor.

14. The apparatus according to claim 13, characterized in that in the bearing axis (14a) at least one extending in the axial direction of the bearing axis channel (24) is provided, which via an opening (25) with an outer distributor element (26) of the rotary distributor in combination stands.

15. The apparatus of claim 13 or 14, characterized in that the bearing axis (14a) is designed as a hollow bearing axis.

16. Device according to one of the preceding claims, characterized by means (20, 21) for rinsing and / or for permanent flow through at least one La gerabschnitts or at least one bearing (16 - 19, 22) of the bearing assembly (13, 13 a) with a fluid, for example with a sliding fluid.

17. Device according to one of the preceding claims, characterized in that between the rotor (4) and connected to the rotor (4) and rotating with this part of the bearing assembly, a supporting and adjusting element is provided, with which the inclination of the rotor ( 4) relative to the machine axis (VA) is adjustable or changeable.

18. Device according to one of the preceding claims, characterized in that the bearing arrangement (13, 13a) is designed for an adjustment of the inclination of the rotor (4) or a rotor axis relative to the vertical.

19. Device according to one of the preceding claims, characterized in that the bearing axis (14, 14 a) on the rotor (4), preferably provided with at least a partial length on the underside of the rotor above.

20. Device according to one of the preceding claims, characterized in that in an at least two-part design of the rotor (4) with an upper, the ring bowl (9) having rotor part (4.1), the bearing axis (14, 14 a) is provided on this upper rotor part ,

21. Device according to one of the preceding claims, characterized by a bearing axis (14, 14 a) over its entire length or substantially over its entire length enclosing tubular bearing element (15).