CS245933B1 - Bottle transfer equipment - Google Patents

Abstract

The bottle transfer device comprises a conveying and conveying belt in a straight line, the gap of which is spaced by a pair of shaped belts guided by the wheels, the shaped belts being supported by guides in their supporting branch in the direction of gravity and outlying areas.

Description

(54)

Bottle transfer equipment

The bottle transfer device comprises a supply line and a conveyor belt in a single line, the gap of which is spanned by a pair of shaped belts guided by the wheels, the shaped belts being supported in their load-bearing branch in the load direction and on remote surfaces by guides.

245 933

245 933

The invention relates to a device for transferring bottles in a single-row flow on a conveyor belt, in particular to a device for checking the cleanliness of bottled bottles in bottling lines.

Device carriers must ensure that the light beam is completely free to pass between the light source, the bottom and the interior of the cylinder to the lens. The principle is that the bottles are pushed under the neck into the recesses in the star wheel by means of a spring. All bottles are usually spring-locked again in the body space to recesses in the next star wheel to avoid centrifugal forces on the bottles due to the rotation of the star wheels. In all cases, this principle is carried out in such a way that the cylinders are led from a single-row straight conveyor to a branch where the star wheels are and are guided back from the branch to the original conveyor. For bottles, this method entails the introduction of substantial changes in the direction of movement of the bottles, with which the increasing flow rate of the bottles is associated with dynamic effects on the bottles and their oscillations, thereby increasing the noise level. The second principle is the mechanical bottle-necking system on the link or chain support element, requiring a constant distance between the necks of consecutive bottles. This constant distance is provided either by the constant flooding of the single-row flow through the bottles or by another mechanical device, for example a separation screw. The mechanical attachment of the bottle neck at a certain location and the release at another location is quite complex and mechanically demanding, which is associated with failure rates with maintenance requirements and a limit on the speed of movement. The main drawback is that the spacing of transmission systems remains constant.

The above-mentioned drawbacks are solved by the bottle transfer device according to the invention, consisting of a frame, an endless conveyor belt and an endless conveyor belt, between which there is a gap above which a beam with driving and free wheels connected by a shaped belt is arranged. at the lower edge of the shaped neck of the cylinder of which:

245 933

The essence is that the shaped belt is doubled and symmetrically arranged along a common axis of the inlet and outlet conveyor belt and the distance between the outer sides of the belts on their facing portions corresponds to the diameter of the bottle transition portion, the shaped belts being between the drive wheel and the free wheel and on their inner side provided with a guide fixed to the beam. The beam is attached to a height-adjustable tube fixed to the frame.

By using a shaped belt, the passage of the bottles is independent of their pitch when entering the bottle transfer device. For different bottle heights, the same type of throat adjustment can be done by simply adjusting the height of the objective tube to which the beam and accessories are fixed, and there is no need to change the lens-throat distance. The belts of the shaped belts from the direction of the inlet of the bottles with their radius wedge smoothly guide all the bottles through the necks, eventually laterally deflected from the ideal direction. Conveyor belt rosettes, with their radius, ensure a smooth wedge change and cylinder haunches for certain height disproportions within cylinder height tolerances.

1 is a front view, FIG. 2 is a plan view, and FIG. 3 is a partial cross-section. V-belts are drawn as shaped belts in the following.

the bottles 1 are stacked in a row on an endless supply conveyor belt 8 extending through the rosette 6. Endless odvádějíoí conveyor belt 2 ⁸ rosette 2 is disposed £ nip separately from that brings conveyor belt 2 on the tube 6 lens uohyoen beam 2 »on which its shaft mounted idler wheels 8 and hnaoí wheels J2 · free wheel 8 and hnaoí wheel 2 belted The two shaped belts 11 are supported on their loadbearing branches by a guide 10 in the direction of gravity a.

The function of the device is as follows: the bottle 1 fed by the feeding conveyor belt 2 is guided by the free-form belts 11 guided by the free wheels 8 between the free-form belts 11 which grip the bottle 1 underneath the neck between its adjacent surfaces.

245 933 leaves the rosette space 6, following the height tolerance of the bottle 1 and its weight can drop in height until the upper edges of the shaped belts 11 reach the lower edge of the shaped neck of the bottle 1, which has a larger diameter upwards. In order to prevent the bottles 1 from dropping due to their weight and deflection of the shaped belts 11, including the drop of the bottles 1 between the shaped belts 11, the position of the shaped belts in the support strand is ensured by guides 10.

Claims (2)

SCREEN V Ϊ Hi l Β ΖΠ 1. A device for transporting bottles, comprising a frame, an endless conveyor belt and an endless conveyor belt, between which there is a gap above which a beam with driving and free wheels connected by a shaped belt is arranged, the upper edge of which is located at the lower level bottle neck, characterized in that the profile belt (11) is doubled and symmetrically disposed along a common axis of the supply and exhaust conveyor belt (2,3) and the spacing of the outer sides of the belts (11) at their facing portions corresponds to the diameter of the transition portion The belts (11) are provided with a guide (10) mounted on the support (7) between the drive wheel (8) and the free wheel (9) in the direction of gravity and on the inside thereof. Bottle transfer device according to claim 1, characterized in that the support (7) is attached to a height-adjustable tube (6) attached to the frame (12).