JPS58216808A - Pivoted bucket conveyor - Google Patents

Abstract

PURPOSE:To prevent flanges of buckets from interfering with each other, by providing a guide rail having a guide surface connectable with guide rollers on both ends of the lower part of the bucket on a rotary part for a horizontal movement and a descent, in a conveying path of the bucket. CONSTITUTION:A bucket 4 is hinged to a hinge shaft between chains 1, flanges 5 and 6 are provided on both ends of its upper part and guide rollers 7 and 8 are provided on both ends of its lower part respectively. In the above matter, a circular arc shaped guide surface 10 connectable with the guide roller 8 and a guide rail 9 having an entrance side guide surface 11 continuing from the guide surface 10 are provided on the inside of an intermeshing circle between chain 1 in a horizontal movement and a descent part of the bucket 4 and a sprocket 2. Then, the fron part flange 5 of the following bucket 4 is prevented by inclining the preceding bucket 4 toward the front along the guide rail 9 from touching the rear part flange 6 of the bucket 4.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a bilateral packet conveyor.

In this conveyor, normally, 7 lunges are provided at both (or one) adjacent ends of adjacent packets, and 7 lunges are arranged so that the transported material can be continuously input into each packet without spilling in the horizontal packet moving section. Or the end of the packet and the 7 lunges) are overlapped at the packet horizontal movement section, so that the packet progresses upwards - horizontally - downwards, or depending on the conveyor model, it moves downwards - horizontally - downwards. Therefore, it is necessary to prevent the flanges of adjacent packets from interfering with each other. However, a simple flange interference prevention mechanism that can be used in any of the above cases has not been developed.

The present invention was devised to solve the above conventional problems, and can be used in any of the above cases to smoothly and reliably dodge the flange of the next packet without tilting the packet unnecessarily. It is an object of the present invention to provide a pivoted packet conveyor equipped with a simple flange interference prevention mechanism that allows for easy flange interference prevention.

The present invention will be explained below with reference to embodiments shown in FIGS. 1 to 4.

In the figure, reference numeral 1 designates two endless drive chains rotatably provided by a plurality of sprockets (only sprocket 2 is shown), which are interconnected by a common pivot 3. Reference numeral 4 denotes a packet pivotally supported on the pivot between the chains 1, and 7 langes 5 and 6 are provided at both ends of the core packet, respectively. A guide roller 7.8 is provided which is shifted in position on opposite sides. 9 is a conveyor like this (
7) A Kerato horizontal movement - A guide rail provided along the core inside the engagement circle of the chain 1 and sprocket 2 in the descending section. An arc-shaped guide surface 10 that can be held by the guide roller 8 on the rear side in the direction, and an entry side guide surface 11 that is continuous with the guide surface 10 are provided.

When this conveyor is driven, the packet rises first in the horizontal movement part, and the rear side 7 of the packet 4 in the packet traveling direction rises first.
The front flange 5 in the packet traveling direction of the next packet 4 that has risen subsequently wraps under the lunge 6, and in this state, both packets 4 move horizontally to the guide rail 9 position fff, and then sequentially move to the guide rail. 9.

When the rear guide roller 8 of the packet 4 engages with the arcuate guide surface 10 through the entry guide surface 11 of the guide rail 9, the packet 4 passes through the rear guide row 28 and engages with the guide surface 1.
As the packet moves forward with the chain 1, it rotates around the sprocket 2 and gradually tilts forward while descending. The rear guide row 58 is the guide rail 9
When the packet 4 comes off, it rotates counterclockwise around the common axis 3 of the chain 1 to a position where the packet 4 is balanced by its own weight and returns to its original position.

If we look at the above packet operation for the two adjacent packets 4, the previous a packet 4 tilts forward more than the subsequent b packet 4, and then returns to its original state 114 faster than the b packet 4. , b The front 7 langes 5 of the packet 4 can be reliably and smoothly dodged outside the engagement circle of the chain 1 and sprocket 2.

Next, the present invention will be explained with reference to a second embodiment shown in FIGS. Since the packet 4 extends beyond the position of The point where it rises from the next packet 4 (2nd place ft shown in Figure 5)
), it is necessary to prevent flange interference there. As a countermeasure against this, as shown in FIG. A guide rail 16 having a guide surface 15 is provided, and a packet 4 is tilted backward and then f
f[Ij7 Ij7 flange 6 is configured to always be kept at the lower stage of the front flange 5 of the next b packet 4'J? Although the method of preventing interference between flanges is different from the first embodiment,
The mechanism and effect of preventing flange interference are essentially the same as those of the first embodiment.

Note that the guide provided at the lower side of the packet 4 is rotatable with respect to the packet body using guide rollers 7.8, but it may also be a protrusion or the like that is integrally fixed to the packet body.

Therefore, according to the present invention, the packet is tilted to the necessary limit by a simple mechanism to reliably and smoothly prevent flange interference outside the engagement circle of the chain and sprocket at the turning point of the horizontal movement and descent of the packet.1. It also has practical effects such as being easily applicable to existing equipment.

[Brief explanation of the drawing]

Figures 1 and 2 are a plan view, a front view, and a third diagram showing the packet mounting structure of a pivoted packet conveyor, respectively.
4 are front views showing different application examples of the flange interference prevention mechanism of the @i embodiment of the present invention. FIG. 5 is a front view showing the other side of the packet mounting structure, and FIG. 6 is a front view showing the flange interference prevention mechanism of the second embodiment of the present invention. 1 9 chain, 2 @ 11 sprocket, 3...axis, 4...packet, 5.6...flange, 7,8...guide roller, 9...
Guide rail, 10...Guide surface, 11...Inlet guide surface, 12...Link, 13...Extending end, 14...Guide surface, 15...Inlet guide surface, 16...Guide rail. Figure 1 m2 Figure 5

Claims (1)

[Claims] A pivoted packet conveyor having a series of packets pivotably supported between two endless drive chains and provided with seven lunges at the ends of the packets, with a guide provided at the lower side of the cokerato, A guide rail having a guide surface that rests on a core portion that can be held in the guide is provided inside the engagement circle of the chain and sprocket at the turning point of the horizontal movement and descent of the packet, and the packet is tilted by the guide rail. A pivoted packet conveyor characterized in that the seven rear flange in the packet traveling direction is configured to avoid the front flange in the packet traveling direction of the next packet on the outside of the meshing circle.