CS240244B1 - Five-element girders impact conveyor section - Google Patents

Abstract

The solution concerns a five-element garland for: impact sections of a belt conveyor and solves its flexible attachment to the frame, allowing the elimination of impact forces when large pieces of material fall. The garland is suspended flexibly on the frame by one of the pins of the outer rollers, while combinations of a tension spring with a damper are connected to the other pins of the outer rollers, with the tension springs being pre-tensioned by tension nuts to the conveyor frame.

Description

(54) Five-element garland of impact section of belt conveyor

The solution concerns a five-element garland for impact sections of a belt conveyor and solves its flexible attachment to the frame, allowing the elimination of impact forces when large pieces of material fall. The garland is suspended flexibly on the frame by one of the pins of the outer rollers, while the other pins of the outer rollers are connected to combinations of tension springs with shock absorbers, while the tension springs are pre-tensioned by tension nuts to the conveyor frame.

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The invention relates to a five-element garland for impact sections of a belt conveyor and solves its flexible attachment to the frame, enabling the elimination of impact forces when large pieces of material fall.

In belt conveyors, especially for long-distance belt transport, five-element garlands (hereinafter referred to as garlands) suspended in a swinging manner from the conveyor frame are used in the impact sections, i.e. usually at the points of transfer between conveyors.

These garlands are suspended from the frame either directly or by means of a flexible suspension, with all elements (rollers) covered with a flexible rubber coating. These measures aim to reduce the impact effects of large pieces of material when they hit the conveyor belt.

However, these known measures are insufficiently effective, and therefore the problem of low service life of garlands in impact sections of belt conveyors still persists. The reason for the ineffectiveness of known solutions is that the garland has a minimum potential energy of the configuration of the garland rollers, given that this configuration practically does not change with the impact, and that a significant mass participates in the impact, because in the case of direct suspension of the garland on the frame, the mass of the garland with the entire frame participates in the impact, next to the mass of the falling piece 1, or in the case of the known, flexible suspension of the garland, the mass of the garland. 4

Due to the usual ratios of colliding masses, the impact occurs with high efficiency, or rather with a high value of the loss energy of the impact, which is transformed into the tension energy of the supporting parts of the garland. Known arrangements have an impact efficiency in the range of values from 0.55 to 0.7. The change in momentum occurs with a force impulse lasting 10“ ⁴ to 10 ^-6 sec. Since the garland practically has no possibility of gaining speed in the direction of impact of the piece after a collision with a falling piece, or can only gain a very small one, the change in momentum occurs with the creation of very high forces that damage the garland, the hinges and the frame.

The above disadvantages are eliminated by the solution of a five-element garland of the impact section of the belt conveyor suspended by one of the pins of the outer rollers on the frame, the essence of which is that combinations of tension springs with a damper are connected to the other pins of the outer rollers, while the tension springs are pre-tensioned by tension nuts to the frame.

The advantage of this arrangement is that it allows the process of momentum change to be divided into two parts, with the impact taking place in the first part with low efficiency achieved by reducing the mass of the garland participating in the impact, and in the second part, in which the masses of the piece and the garland part move together, the momentum change is completed with a force impulse significantly longer than in previously known solutions.

An example of a five-element garland is schematically shown in the front view in the attached drawing.

The five-element garland containing two end rollers 6, two intermediate rollers 7 and one middle roller 8 is suspended on the frame 4 by means of elastic suspensions 1 and pivotably around the axis O by one of the pins of the end rollers B. To the other pins of the end rollers 6, respectively. between the end rollers 8 and the intermediate rollers 7, combinations of a tension spring with a damper 5, preferably one-sided, are connected. The tension springs 2 are pre-tensioned to the frame 4 by tensioning nuts. By this pre-tensioning, the garland is formed into a shape (indicated in the attached drawing by a solid line), in which the middle roller 8 is raised above its usual natural position (indicated in the attached drawing by a dashed line) by the amount of vertical displacement y, which depends on the amount of horizontal displacement X set by the tensioning nuts 3.

When a piece of material falls, the outer rollers 6 perform a swinging movement around the axis O, the intermediate rollers 7 perform a swinging movement around their center of gravity and a translational movement in the direction of the piece falling, and the middle roller 8 performs a translational movement. The first part of the impact thus takes place with only a part of the mass of the garland participating in it, which means that the impact takes place with low efficiency, i.e. with low energy loss. The second part of the impact takes place in such a way that the fallen piece moves together with the middle roller 8 at a speed that drops to zero on the path of vertical displacement y and thus the process of momentum change is completed. In this case, a force impulse of the order of 10“ ² sec can be achieved. Just as the garland dampens the impacts of pieces of material, it is also able to dampen the impacts of an interrupted or fluctuating flow of material.

Claims (1)

Subject A five-element garland of an impact section of a conveyor belt suspended elastically by one of the outer roll pins on the frame, characterized in that tension rollers (2) with a damper (5J) are attached to the other pins of the rollers (6), the tension springs (2) being pre-tensioned nuts (3j to the frame (4)).