CS199075B1 - Towing control device - Google Patents

Abstract

The invention solves the constant and precise rogulation of the branch from the main flow of material, e.g. from the granule production circuit of granulated fertilizers. Accurate and smooth material removal is ensured by an overflow chamber with a transport element in its pre-space with a partition between the walls with a width equal to the width of the overflow chamber. A typical use with the transport screw element is shown in Figure 1.

Description

The invention solves constant and precise regulation of the branch from the main material flow e.g. from the granulaen circuit of granular fertilizer production. Accurate and continuous material removal is ensured by an overflow chamber with a conveying element in its aperture with a partition between walls with a width less than the width of the overflow chamber.

Typical applications with a screw conveyor element in Figure 1.

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The invention relates to an exhaust control device.

In granulation process e.g. The production of solid granular fertilizers is one of the basic conditions of the correct regime of accurate and regulated control the production fraction from the granulation circuit. Common solutions used are flaps positioned in the flow gravity stream of the production fraction material, or by separating a layer of material distributed on the conveyor belt by a reflective from a variable position. These principles are not always applicable, e.g. because of the disposition reasons, the method of regulation by them is not very sensitive and does not suit especially for large-volume units with large material circulation.

A dispensing device using a screw conveyor in a hopper according to British Patent 1,106,906 is known. However, this design, by its design, does not allow the desired function of constant accurate and controlled off-take of the main material flow, which is the subject of the invention.

These drawbacks, aggravated by tackiness and often corrosive swelling of the controlled material, are eliminated by the main flow control device according to the invention, which is based on the fact that below the conveying element in the space of the overflow chamber there is a partition width of overflow chamber.

The attached drawing shows an example of an embodiment of the exhaust regulator according to the invention with a screw, except in FIG. 1 shows a longitudinal section and FIG. 3 shows section BB of FIG. 2. The screw conveyor 1 is located in the overflow chamber 3 and is controlled by the power regulator 2. The free cross-section of the overflow chamber 2 formed by the circumferential walls 10. In this part, the bulkhead is part of the casing of the screw conveyor element 1 like cylindrical elevation. 1/3 of the circumference of the screw 2 'The flow of input material directed by the hopper 2 falls into the casing of the screw conveyor 1. The required amount is controllable by the screw conveyor 2 across the overflow chamber 2 into the hopper of the screw A. The excess material overflows through the edge of the partition 2 of the screw conveyor housing part 6 into the overflow chamber 2 of the hopper 8. In FIG. 2 is a cross-sectional view of the overflow chamber 2 showing the position of the partition 2; ^FIG. 2 is a plan view of the exhaust control device.

The device according to the invention makes it possible to continuously regulate the collection of material from the main stream with the possibility of remote control, without affecting its stickiness and corrosivity. The device has the possibility of a universal device into the granulation line even in the case of non-gravity flow of material and allows the use of other conveying elements, e.g. conveyor belts, vibrating conveyors, redler conveyors and the like.

In FIG. h is a longitudinal section and FIG. 5 shows section AA of FIG. An exhaust duct control according to the invention is provided, wherein the conveyor element 21 is located in the overflow chamber 2 controlled by the power regulator 2. The free cross-section of the overflow chamber 2 is formed by the peripheral walls 10. of the redler conveyor element 2 · ^{The flow of} incoming material directed by the hopper 2 falls into the redler trough 6. Required amount It is adjustable by the redler 2 »transverse oez prepado3

199 075 in the χ hopper of the redler conveyor hopper h.,

The excess material overflows through the partition 6 as part of the redler chute 6 of the redler conveying element 1 into the overflow chamber 8 of the hopper 8. In FIG. 5 is a cross-sectional view of the overflow chamber 8 showing the partition 6 as part of the redler channel 6.

Claims (1)

OBJECT OF THE INVENTION Extraction control device consisting of a hopper under which an overflow chamber is provided, provided with a conveying element, at one end of which a power regulator is located and on the other a hopper, characterized in that under the conveying element / 1 / over the overflow chamber / 3 / between the walls (10) there is a partition (9) of less width than the width of the overflow chamber (3).