CN111094171A - Device for filling containers - Google Patents

Abstract

The invention relates to a device (1) for filling containers with a filling product, preferably for filling containers in a beverage filling plant, comprising: a carrier bolt (2); a filling means (3) arranged on the carrier bolt (2), the filling means (3) having a filling valve (30) movable relative to the carrier bolt (2) along a longitudinal axis (32) of the filling means (3); and a container holder (4) rigidly fastened to the carrier bolt (2) below the filling valve (30), the container holder (4) being used for holding a container to be filled, wherein an attachment device (5) is provided, the attachment device (5) being used for height-adjustably attaching the carrier bolt (2) to a transport device of a filling device (100) in a beverage filling apparatus, preferably to a valve carrier (104).

Description

Device for filling containers

Technical Field

The present invention relates to a device for filling containers with a filling product, preferably for filling containers in a beverage filling system, and to a filling device for filling containers with a filling product.

Background

It is known to bring the container to be filled and the filling valve into sealing contact with each other when the beverage is to be filled. This is particularly required when filling carbonated beverages. Here, the sealing contact is achieved by pressing the container against the filling valve or by pressing the filling valve against the container.

In order to press the container against the filling valve, it is known to raise the container to be filled in the direction of the filling valve mounted at a fixed height. However, this has the disadvantage that the container to be filled can only be raised after the container holder of the filling device holding the container has been removed from the region of the container holder transferring the container to be filled to the inlet star of the filling device, since the container holder of the filling device is usually arranged below the container holder of the inlet star when transferring the container. Furthermore, the container holder of the filling device must first be lowered and then moved into the region of the outlet star clamp, to which the filled container is transferred.

The filling device, which accordingly raises the containers to be filled, accordingly has a reduced handling angle, which adversely affects the performance or possible throughput of such a filling device. However, in order to achieve high throughputs, such filling devices should be very large, which results in high production and operating costs. The lifting movement of the filling device and of the gripper element for lowering and lifting the containers is controlled by lifting cams which are predetermined by guide cams arranged on the fixed part of the filling device. However, the pressing cylinder of the clamping element of the filling device is arranged on the rotary part of the filling device.

During operation of the filling device, an expansion force load is thereby generated between the stationary part and the rotary part of the filling device. In order to be able to absorb these loads in a durable manner, such filling devices should be correspondingly heavy, which in turn increases the production and operating costs.

In order to overcome the above-mentioned disadvantages, it is known to lower a filling valve for filling a container, which is arranged on a rotating valve carrier, onto the container, while keeping the container itself at a fixed height. In the filling device designed in this way, the clamping element for holding the container is firmly connected to the valve carrier.

As the filling valve and the clamping element are attached to different positions on the valve carrier, an unfavorable force flow distribution and moment distribution occur when pressing. In particular, a pressing force is generated during pressing, which is transmitted as a bending moment to the valve carrier. The filling valve, the valve carrier and the container holder should therefore be correspondingly heavy to compensate for this.

Disclosure of Invention

Starting from the known prior art, it is an object of the present invention to provide an improved device for filling containers with a filling product, preferably for filling containers in a beverage filling plant.

This visual inspection is carried out by a device for filling containers with a filling product, preferably for filling containers in a beverage filling plant, having the features of claim 1. Advantageous developments emerge from the dependent claims.

Accordingly, an apparatus for filling a container with a filling product, preferably for filling a container in a beverage filling plant, is proposed, comprising: a carrier bolt; a filling mechanism disposed on the carrier bolt, the filling mechanism having a filling valve movable relative to the carrier bolt along a longitudinal axis of the filling mechanism; and a container holder rigidly fastened to the carrier bolt below the filling valve for holding a container to be filled. According to the invention, attachment means are provided for the highly adjustable attachment of the carrier bolt to a transport device of a filling device in a beverage filling plant, preferably to a valve carrier.

With this configuration of the device, the force flow generated during the pressing no longer flows through the valve carrier, but ends up in the device. The pressing force acting on the container accommodated in the container holder when the filling valve is pressed is directly introduced into the carrier bolt on both sides and absorbed by the carrier bolt. In other words, the force flow during pressing only flows between the filling valve, the filling mechanism, the container holder and the carrier screw. Since the filling mechanism and the container holder are directly attached to the carrier bolt, the lever arm formed by the introduction of the pressing force generated when the filling valve and the container holder are pressed onto the carrier bolt is also short. Consequently, the bending moment on the carrier bolt is also small, so that the tilting position of the container and the filling valve relative to each other is negligible. The transport device of the filling device is thus decoupled from the forces acting on the containers located in the container holders by pressing the filling valve and can accordingly be constructed without great weight.

Furthermore, since the attachment device for height-adjustably attaching the carrier bolt to the transport device is configured to be height-adjustable, the attachment device is configured to be height-adjustable. The height of the carrier bolt relative to the transport device of the filling device can thus be adjusted such that the height level of the container holder fastened to the carrier bolt corresponds to a predetermined height in the filling device. The height adjustment is made only by changing the height of the carrier bolt relative to the transport device. Thus, the spacing of the filling mechanism and the container holder always remains the same, both being fastened directly to the carrier bolt. In other words, when adjusting the attachment position or attachment height of the carrier bolt, which is predetermined by the height-adjustable attachment means, a parallel displacement of the filling mechanism and the container holder takes place, both of which are firmly fastened to the carrier bolt. The spacing of the filling valve and the container holder therefore also remains the same, so that all parameters relating to the control of the pressing and thus the filling behavior are independent of the height position. In this way, the device can be constructed particularly efficiently.

Furthermore, any existing height jump of the transport device, for example of the valve carrier, can be compensated for by the height adjustment by means of the attachment device. A particularly reliable construction of the filling device is thus possible, since possible height tolerances, which may have an influence on the receiving behavior of the container holder, can be compensated. In other words, all container holders can be arranged at exactly the same height, without the container carriers also having to be aligned particularly precisely.

Furthermore, the filling device can also be pre-mounted as a pre-mounted assembly and subsequently mounted in the form of this assembly by means of an attachment device onto a transport device, preferably onto a valve carrier. In this respect, it is possible to pre-install all the pneumatic and/or hydraulic switching functions and filling functions of the device and its lines and to check the function of the pre-installation device before it is installed in the filling device.

In order to be able to adjust the height of the carrier bolt relative to the transport device particularly simply and precisely, the attachment device according to a further preferred embodiment has at least one adjusting nut which engages with an adjusting thread provided on the carrier bolt. The carrier bolt is thus supported on the transport device from above in the direction of the gravitational acceleration by means of the adjusting nut. Rotating the adjusting nut on the adjusting thread causes a displacement of the adjusting nut in the longitudinal direction of the bolt. The carrier bolt is thus also displaced relative to the transport device in accordance with the displacement of the adjusting nut.

Preferably two adjusting nuts are provided, wherein a first adjusting nut acts from a first side of the attachment device and a second adjusting nut acts from a side of the attachment device opposite the first adjusting nut. The second adjusting nut serves here as a locking nut, so that the carrier bolt is tensioned on the transport device and the device can thereby be fixed in a fixed position relative to the transport device.

According to a further preferred embodiment, the attachment device has a clamping plate for rigid fastening to the transport device, wherein preferably a height adjustment of the carrier bolt relative to the clamping plate takes place. Thereby, a simple and safe mounting of the filling mechanism on the transport device is achieved. Furthermore, the filling mechanism including the height adjustment may be pre-installed. In particular, when height adjustment is provided by providing one adjustment nut or preferably two adjustment nuts, the adjustment nut on the clamping plate may effect height adjustment.

In order to be able to specifically determine the position of the filling means relative to the transport device transversely to the height direction, the attachment device according to a further preferred embodiment has alignment elements, preferably slot elements and/or spring elements and/or pins, for aligning the device on the transport device, viewed perpendicularly to the longitudinal axis.

In the case of a filling device according to a further preferred embodiment and a container holder which are arranged on the carrier screw in such a way that, when the filling valve is pressed against a container held in the container holder, the forces and/or torques resulting from said pressing are absorbed by the carrier screw, a particularly safe filling of the container to be filled can be achieved. The forces acting during pressing are then absorbed directly by the carrier screw. In other words, the filling means is firmly mounted on the carrier bolt in one region or side of the carrier bolt, and the container holder is firmly mounted on the carrier bolt in another region or side of the carrier bolt. The force acting on the container when the filling valve is pressed is then introduced directly into the carrier bolt by attaching the filling mechanism and also directly into the carrier bolt by attaching the container holder. As a result, the force flow ends up in the carrier bolt.

The above object is also achieved by a filling device for filling containers with a filling product having the features of claim 6. Advantageous developments emerge from the dependent claims as well as from the description and the drawings.

Accordingly, a filling device for filling a container with a filling product is proposed, which comprises a valve carrier rotatable about a central axis of rotation and at least one device for filling a container with a filling product according to any one of the preceding embodiments.

The advantages described for the device for filling containers with a filling product are likewise achieved by the filling device.

Drawings

Other preferred embodiments of the present invention will be described in more detail by the following description of the drawings. In the drawings:

fig. 1 schematically shows a side view of a filling device for filling a container with a filling product;

fig. 2 schematically shows a sectional view of the device for filling a container with a filling product of the filling device of fig. 1;

FIG. 3 schematically shows a cross-sectional view of an attachment device of the device of FIG. 2; and

fig. 4 schematically shows a detailed view of a valve carrier of a filling device according to another embodiment.

Detailed Description

Hereinafter, preferred embodiments are described with reference to the accompanying drawings. Here, the same, similar or equivalent elements in different drawings are attached with the same reference numerals, and repeated description of these elements is partially omitted to avoid redundancy.

Fig. 1 schematically shows a side view of a filling device 100 for filling a filling product into a container to be filled, which is not shown here. The filling device 100 can be used, for example, in a filler disk in a beverage filling plant for filling beverages into beverage containers.

The filling device 100 includes: a valve carrier 104 rotatable about a central axis of rotation 102, the valve carrier 104 may constitute a filler disk; and a plurality of devices 1 for filling the containers with the filling product. The device 1 is held on the valve carrier 104, for example around the circumference of the filler disk.

The devices 1 are each connected via a medium line 108 to a central medium rotary distributor 106, from which central medium rotary distributor 106 the devices 1 are each supplied with process medium and filling product. For this purpose, the medium lines 108 are each connected to a process connection piece of the process medium plate 34 of the device 1. By providing the process media sheet 34, all process connections may be arranged in one plane.

Fig. 2 schematically shows a sectional view of the device 1 for filling containers with a filling product of the filling device 100 of fig. 1.

The apparatus 1 comprises: a carrier bolt 2; a filling means 3 fastened to the carrier bolt 2, the filling means 3 having a filling valve 30 movable relative to the carrier bolt 2 along a longitudinal axis 32 of the filling means 3; and a container holder 4 rigidly fastened to the carrier bolt 2 below the filling valve 30, which container holder 4 serves to hold a container to be filled. The container holder 4 can be provided, for example, in the form of a passive clamp or an active clamp.

For filling the container to be filled, the container is held on a container holder 4 which is rigidly fastened to the carrier bolt 2, and the filling valve 30 is lowered relative to the carrier bolt 2 onto the container to be filled, so that filling can be carried out when the filling valve 30 is pressed.

The device 1 also has a height-adjustable attachment device 5, by means of which attachment device 5 the carrier bolt 2 is attached in a height-adjustable manner to the valve carrier 2 of the filling device 1.

The attachment device 5 has a clamping plate 52, which clamping plate 52 is rigidly fastened to the valve carrier 104. As will be described in detail below with reference to fig. 3, the carrier bolt 2 is guided through the bore 54 of the clamping plate 52 and by means of the two adjusting nuts 50, 50' in the direction of the bolt longitudinal axis 22 and is thus held in the first position at its height relative to the clamping plate 52 and thus its height relative to the valve carrier 104.

When the filling valve 30 presses the container located in the container holder 4, the pressing forces acting on the filling valve 30 and the container holder 4 are introduced directly into the carrier bolt 2 on both sides and are absorbed by the carrier bolt 2.

In other words, the force flow during pressing only flows between the filling valve 30 or the filling means 3, the container holder 4 and the carrier screw 2. Since the filling device 3 and the container holder 4 are mounted directly on the carrier screw 2, the lever arm formed between the longitudinal axis 32 and the screw longitudinal axis 22 is short, by means of which lever arm the pressing force generated when pressing the filling valve 30 and the container holder 4 is introduced onto the carrier screw 2. Thus, the bending moment on the carrier bolt 2 is also small. The valve carrier 104 is therefore decoupled from the forces acting on the container located in the container holder 4 by pressing the filling valve 30 and is accordingly not designed to be heavy.

In fig. 3 a cross-sectional view of the attachment means 5 of the device 1 of fig. 2 is schematically shown. The clamping plate 52 is pinned to the valve carrier 104 by means of alignment elements in the form of pins (not shown) and screwed by means of screws 56.

As already mentioned in connection with fig. 2, the attachment device 5 has two adjusting nuts 50, 50', which two adjusting nuts 50, 50' each engage with an adjusting thread 20, 20' provided on the carrier bolt 2. The first adjusting nut 50 acts on the clamping plate 52 of the attachment device 5 from a first side of the attachment device 5, and the second adjusting nut 50' acts on the clamping plate 52 from a side of the clamping plate 52 opposite the first adjusting nut 50.

The carrier bolt 2 is thus supported from above in the direction of the gravitational acceleration on the clamping plate 52 by means of the first adjusting nut 50. The second adjusting nut 50 serves as a locking nut, so that the carrier bolt 2 is tensioned against the clamping plate 52 and is thereby fixed in a fixed position.

The height adjustment of the carrier bolt 2 provided by the attachment means 5 is performed by rotating the first adjustment nut 50, wherein the second adjustment nut 50' has to be loosened beforehand in order to release the previously described tensioning state. Rotating the first adjustment nut 50 on the adjustment thread 20 causes a displacement of the adjustment nut 50 in the direction of the bolt longitudinal axis 22. The carrier bolt 2 is thus displaced in the direction of its bolt longitudinal axis 22 relative to the clamping plate 52, which displacement corresponds to the displacement of the adjusting nut 50.

By the aforementioned adjustment of the carrier bolts 2 in their height relative to the clamping plate 52, the height of the carrier bolts 2 can be adjusted relative to the valve carrier 104, so that the height level of the container holders 4 fastened to the carrier bolts 2 corresponds to the predetermined height of the container holders 4 in the filling device 100. The height adjustment is made merely by changing the height of the carrier bolt 2 relative to the clamping plate 52 or the valve carrier 104. The filling means 3 or the filling valve 30 and the container holder 4 are thus kept at the same distance from each other, since both are fastened directly to the carrier bolt 2. In other words, a parallel displacement of the filling valve 30 and the vessel holder 4 takes place upon adjustment of the attachment position or attachment height of the carrier bolt 2, which is predetermined by the height-adjustable attachment device 5.

Fig. 4 schematically shows a detailed view of a valve carrier 104 according to another embodiment. For attaching the device for filling a container with a filling product described with reference to fig. 2 and 3, an attachment piece 110 is provided on the valve carrier 104. The carrier bolt 2 can be pushed into the attachment piece 110 from the outside for attachment. The clamping plate can then be screwed by means of pins introduced into the fitting holes 114 of the valve carrier 104 and fastened by means of screws screwed into threaded holes 112 provided for this purpose of the valve carrier 104.

Where applicable, all individual features shown in the embodiments can be combined with each other and/or interchanged without departing from the scope of the invention.

Description of reference numerals:

1 apparatus

2 carrier bolt

20 adjusting screw

22 longitudinal axis of bolt

3 filling mechanism

30 filling valve

32 longitudinal axis

34 process medium connecting plate

4 Container holder

5 attachment device

50 adjusting nut

52 clamping plate

54 holes

56 screw

100 device

102 axis of rotation

104 valve carrier

106 medium rotary distributor

108 medium pipeline

110 attachment

112 threaded hole

114 mating holes

Claims (6)

1. An apparatus (1) for filling containers with a filling product, preferably for filling containers in a beverage filling plant, comprising: a carrier bolt (2); a filling means (3) arranged on the carrier bolt (2), the filling means (3) having a filling valve (30) movable relative to the carrier bolt (2) along a longitudinal axis (32) of the filling means (3); and a container holder (4) rigidly fastened on the carrier bolt (2) below the filling valve (30), the container holder (4) being used for holding a container to be filled, characterized by an attachment device (5), the attachment device (5) being used for height-adjustably attaching the carrier bolt (2) to a transport device of a filling device (100), preferably to a valve carrier (104).

2. Device (1) according to claim 1, characterized in that the attachment device (5) has at least one adjusting nut (50, 50') engaging with an adjusting thread (20) provided on the carrier bolt (2), wherein preferably two adjusting nuts (50, 50') are provided, wherein a first adjusting nut (50) acts from a first side of the attachment device (5) and a second adjusting nut (50') acts from a side of the attachment device (5) opposite to the first adjusting nut (50).

3. Device (1) according to claim 1 or 2, characterized in that the attachment device (5) has a clamping plate (52) for rigid fastening to the transport device, wherein preferably a height adjustment of the carrier bolt (2) relative to the clamping plate (52) is carried out.

4. Device (1) according to any one of the preceding claims, characterized in that the attachment means (5) have alignment elements, preferably slot elements and/or spring elements and/or pins, for aligning the device (1) on the transport means viewed perpendicularly to the longitudinal axis (32).

5. Device (1) according to one of the preceding claims, characterized in that the filling means (3) and the container holder (4) are arranged on the carrier bolt (2) such that, when the filling valve (30) is pressed against a container held in the container holder (4), the forces and/or torques generated by said pressing are absorbed by the carrier bolt (2).

6. Filling device (100) for filling a filling product into a container, comprising a valve carrier (104) rotatable about a central axis of rotation (102) and at least one device (1) for filling a container with a filling product according to any one of the preceding claims.

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