NO863499L - DEVICE FOR PLASTIC CONTAINERS, e.g. BOTTLES. - Google Patents

Description

Apparatus for destroying plastic containers, e.g. bottles.

The present invention relates to an apparatus for destroying plastic containers, e.g. bottles containing drinks etc., the container being provided with a neck for locating a cover, while the neck is formed with a collar.

The introduction of plastic bottles for drinks, e.g. carbonated drinks, faced resistance from the market due to the relatively large burden on the environment. After all, the bottles are thrown away after use, thus causing a waste problem. One solution to this is the return of used bottles to the manufacturer, who can use them as raw material for new bottles. However, the bottles have a voluminous shape, which results in high transport costs.

The purpose of the invention is an apparatus which serves to reduce the volume of the bottles to a significant extent, by functional destruction of the bottles, which means that the bottles are made smaller.

The apparatus according to the invention is characterized by a frame with a pair of rollers rotatably supported therein, each roller having a recess in the outer shell, the recesses together forming an opening to accommodate the neck and the adjacent portion of a container, at the same time in which detection means are arranged which protrude into the opening for sensing the presence of the neck, and for triggering the rollers.

With the help of the rotating movement of the rollers, the plastic bottles will be compressed, whereby their volume will be reduced. However, because the detector means are also present for determining the presence of a bottleneck, the apparatus can only be operated when a bottle is offered between the rollers. The idea according to the invention is i.a. based on the presence of standard bottle necks for different types of plastic bottles, which makes it possible to exclude bottles of other materials from being processed, so that no deterioration of the raw material takes place.

In a preferred embodiment, the apparatus stands out in that each roller is rotatably supported on a shaft which can rotate in the frame, each detecting means being formed by at least one arm which is attached to a shaft and is led through a radial opening. Thus, the device will be particularly compact, because the detector means are incorporated into the rollers.

It is preferred to place a detection arm in each of the rollers, each arm being given a profiled tip, so that the tip of one arm detects the open end edge of the neck, and that the other arm detects the collar on the neck. Both arms must therefore be moved a short distance before the rollers can come into operation.

Preferably, each roll has a shell that has been roughened, e.g. by means of axially aligned teeth or ribs. With the help of these organs, the bottle material is repeatedly stretched locally, whereby the bottles will retain their compressed shape after treatment.

According to the invention, each of the rollers can be provided with a cutting device, as the cutting devices for the two rollers work together, which means that a so-called flying cutting device is achieved. This cutting device cuts each bottle in half or separates the usable parts from the unusable.

These and other features of the invention will be further explained in the description together with the drawings.

The drawings:

Fig. 1 shows an axial section through a pair of rollers equipped with detector means. Fig. 2 shows a radial cross-section through the rollers in fig. 1, taken along the line II-II.

In the drawings, 1 indicates the frame that is drawn here

simply as two parallel plates which are of course connected by means of cross members, plates, etc. which are not shown.

Each plate has a bearing bushing 2, in which a shaft 3 is rotatably mounted. The two shafts 3 are arranged in parallel in relation to each other, and each of the shafts serves as a storage for a roller 5 which is rotatably mounted in relation to the axle by means of bearing bushings 4. Near each roller and arranged coaxially in relation to these, there is arranged a gear wheel which can also rotate around the axle 3, the gear wheels 6 for the respective axles 3 meshing with each other. One of the gears 6 also meshes with a gear 7 on a drive shaft 8, which is stored in one of the frame plates 1 by means of a bearing 9. The drive shaft 8 is turned via a coupling gear or transmission 10, via an input shaft 11 ( not shown).

As can be seen from fig. 2, each roller has a recess 13 in its shell surface, the recess consisting of two parts, namely a cylindrical part which is located perpendicular to the axial direction of the shaft 3 and a part which is extended in relation to said part. The two recesses 13 together form a space to accommodate a plastic bottle F in fig. 2.

The roller 5 actually consists of two discs arranged next to each other, of which the central bore that serves to accommodate the bearing bushing 4 is widened by one flat surface, as the widened bores for the two discs, which are arranged against each other, accommodate a detector arm 14. Each detector arm 14 has a profiled tip, or 15 and 16, which project into the space 13. The arm 14 is to a certain extent rotatable in relation to the roller 5, at the expense of a channel 17 which leads from the extended bore in the roller 5 to the recess 13 in the roller's shell, and which is further than the thickness of the arm 14.

The shell surface of the rollers 5 is provided with ribs or teeth 18 which run parallel to the shafts 3. At a certain circumferential distance from the outlets 13 or the detector arms 14, there are also arranged in the shell cutting means, respectively. 19 and 20, which provide a flying cutting means.

Both axles 3 are extended past the frame 1 on the left in fig. 1, and each is provided with an arm 21, the arms pointing towards each other in the neutral position of the apparatus. The free end of each arm 21 is located in the sensing area of a proximity switch 22, which serves to control the operation of the shaft 11.

This control mechanism, however, falls outside the scope of

the present invention, and will therefore not be discussed further. This rule of thumb can of course be satisfied in any known way.

Finally, a pre-tensioned spring 23 in the form of a coil spring is active between each axle 3 and the respective roller 5, being arranged so that the detector arm 14 is pre-stressed in the direction of the extended part of the recess 13.

The device mentioned above works as follows:

A plastic bottle F, which is shown schematically in fig. 2, usually has a standard neck construction, i.e. a cylindrical portion with a screw thread and collar. The distance between the open edge of the neck and the collar always constitutes a fixed dimension.

When the bottle F is introduced into the space formed by the recess 13 in the shell surface of the rollers 5 (see arrow P1), the front edge of the neck will push the upper detector arm 14 in fig. 2 in a clockwise direction, while the neck collar turns the lower arm 14 in an anti-clockwise direction. With this turning action, each axle 3, as well as the arm 21 attached thereto, will be subjected to a turning movement. The free end parts of these arms 21 move out of the area of the proximity switches 22, so that drive movement for the shaft 11 is made possible. The shaft 11 is turned and, as a result, the shaft 8, which brings the gear 7 into turning motion. Because said gears engage with both gears 6, these last-mentioned gears 6 will rotate the rollers 5 about the shafts 3. Even if the shell surfaces of the two rollers are not in an engaged state, the two rollers 5 will rotate synchronously in the direction of the arrows, respectively P2 and P3, whereby the plastic bottle F is pulled between the rollers in the direction of the arrow Pl, and is simultaneously compressed. The ribs 18 on the roller shell will greatly deform and stretch the material in the bottle, which ultimately gives the bottle its compressed shape. Finally, the cutting means 19 and 20 will cut away the bottom part 24 of the bottle, as this bottom part is usually not suitable for recirculation.

As soon as the rollers have turned once and the bottle has disappeared in the pinch area between the rollers, the springs 23 ensure that the detector arms 14 are returned to their starting position in relation to the rollers, so that the detector arms are again ready for detection. The entire cycle is terminated as soon as the free ends of the arms 21 reach the proximity switches 22, whereby the operation is stopped. The device is then ready for a repetition of the cycle.

Of course, the invention is not limited to the embodiment mentioned above. Thus, the drive can be completely different from the gear drive shown. The detection means do not need to be mounted centrally inside the rollers,

but can also be carried out in other ways, e.g. electronically.

Claims (6)

1. Apparatus for destroying plastic containers, e.g. bottles etc, the container being provided with a neck for locating a cover, and the neck being formed with a collar, characterized by a frame with a pair of rollers rotatably supported in the frame, each roller being formed with a recess in the exterior shell, at the same time that the recesses together form an opening to accommodate the neck and the adjacent part of the container, detection means being arranged which project into the opening for sensing the neck and for triggering the rollers. 2. Apparatus as stated in claim 1, characterized in that each roller is rotatably supported on a shaft which can rotate in the frame, the detection means being designed as at least one arm which is securely connected to a shaft and is guided through a radial opening. 3. Apparatus as stated in claims 1 and 2, characterized in that each roller comprises a detection arm, the two arms being provided with profiled tips at their free ends, so that one arm senses the end edge of the neck and the other arm detects the collar. 4. Apparatus as specified in claims 1-3, characterized in that a cutting member is adapted to a position on a line that coincides with the circumference of the roll's shell. 5. Apparatus as specified in claims 1-4, characterized in that the shell is roughened, e.g. using ribs or teeth. 6. Apparatus as stated in claims 1-5, characterized in that the diameter of the rollers is the same, that the recesses have the same shape, and that each axle carries a gear wheel, as the gears mesh with each other.