DE326433C - Self-acting cooling bed - Google Patents

Description

Self-acting cooling bed. The invention relates to a Self-acting cooling bed, in which the goods to be cooled are fixed in place Rake cooperating, up and down rake step by step over the cooling bed is moved towards, and aims to create a cooling bed in which the goods to be cooled (Fine iron and the like) of unlimited length can be treated, while the power consumption is reduced to a minimum.

In the case of the cooling bed according to the present invention, the feed takes place in groups ,. in such a way that one group goes up, while the next one is lowered. For this purpose, the swivel shafts are for the movable group rakes arranged in the direction of the feed and -the group rake on it by means of one-armed Lever connected offset by their rake length.

When the goods to be cooled slide down on the tooth flank of the fixed grate, the weight of the goods acts on the descending rake constantly one and in this way contributes to the lifting of the on the same pivot shaft connected offset rake @. When the rake is lifted, the refrigerated goods lie down on the opposite tooth flank of the fixed grate and is on it pushed up and forward. The force to be used. mainly serves to overcome the upward and downward sliding of the refrigerated goods on the tooth flanks of the grate developed friction, while with the previously known cooling bed arrangements the total weight of the refrigerated goods must be overcome when the rake goes up had to. The pivot shafts extending in the direction of advance can can be provided in any number, so that the cooling bed for goods to be cooled any length can be used. The effective length can also be at any time adapted to the respective needs by switching swivel shafts on or off will. The shafts are driven by one by means of two double levers 'Parallelogram connected tie rod pair, in which as a result only Tensile forces occur.

An exemplary embodiment is shown in the drawing.

"Fig. I shows the cooling bed in a plan view or in a section through the pair of tie rods and the feed chute.

Fig. A shows the cooling bed in plan, with the rake and the. Grates are indicated by lines.

FIG. 3 is a cross-sectional view taken along line 3-3 of FIG. 2.

The cooling bed is made up of the movable rake h and i and the stationary toothed grids d that interact with them. In the selected embodiment, the tooth flanks of the grids d fixedly mounted on the blocks k are made of unequal length, while the tooth flanks of the movable rake are of the same leg length. However, the arrangement can also be made the other way round. The movable rakes h, i are arranged with one-armed levers a, b on a common shaft g offset from one another by the rake length. In the exemplary embodiment, two computing groups are offset from one another. However, several arithmetic groups offset in this way can also be used, whereby it is advisable to always arrange a group number divisible by two in order to carry out the mutual balancing completely, or the length of the arithmetic units operating in different groups is chosen so that the entire arithmetic length is one side of one and the same grate is equal to the total rake length on the * associated other side. The drive of the swivel shafts g takes place by means of the swivel arm, which are articulated to tie rods f which are joined together by means of the double lever c to form a parallelogram. As a result of the parallelogram arrangement, these tie rods are essentially only subjected to train. The tie rod parallelogram gets its drive by means of a. Push rod m from a suitable power source.

The operation of the cooling bed is as follows: Due to the back and forth movement of the tie rods f connected to form a parallelogram, the pivot shafts g receive limited pivoting movements, during which the one-armed levers a and b are pivoted alternately up and down. By offsetting the rake h and i by the amount of their length it is achieved that the material to be cooled is lifted on half of the cooling bed, while it is lowered on the other at the same time. When lifting. The material slides upwards on the steep tooth flank of the stationary grids d and downwards on the flat tooth flank when it is lowered.

While one group is being lowered, the goods to be cooled glide along the flat tooth flank of the grids and acts with its weight still on the descending rake, thus contributing to the lifting of the ascending rake Groups at. The weight of the goods to be cooled is largely due to the stationary ones Rusting added, which achieves a considerable saving in energy and the possibility a lighter execution of the. moving parts of the bed is given.

Claims (1)

PATENT CLAIM: i. Self-acting cooling bed, in which "the goods to be cooled are advanced step by step by rakes that work together with stationary grates, characterized in that the feed takes place in groups and of two successive groups one goes up and the other goes down at the same time. a. Cooling bed according to claim 1, characterized by pivoting shafts (g) which are arranged in the direction of the feed and to which the group rakes (1a, i) are connected by means of one-armed levers (a, b) offset by their rake length according to claims 1 and a, characterized in that the pivot shafts (g) are driven by a pair of tie rods (f, f.) joined together by means of double levers (c) to form a parallelogram.