DE3120792C2 - Granulate dryer - Google Patents

Abstract

The present invention relates to a device for dewatering plastic granulate. It consists of a conical or stepped rotor widening upwards and a screen basket surrounding this stepped.

Description

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The invention relates to a device for dewatering small particles, preferably plastic granulate according to the preamble of patent claim 1.

Devices of this type are known, consisting of a cylindrical rotor with blades distributed over its circumference, which in turn surrounds a screen basket (DE-OS 28 50 584).

The particles reach the area of action of the product via a laterally arranged product inlet Shovels. These move the particles to be dried essentially vertically from bottom to top, whereby the particles are thrown against the sieve repeatedly.

The disadvantage here is that the kinetic energy from bottom to top because of the loss of fluid continuously decreases, which necessarily leads to an elongation of the rotor and the basket, since the Particles experience less and less momentum on the sieve due to the loss of mass.

From DE-PS 1 13 618 a device for drying plastic granules is also known. It consists of a screw sieve centrifuge with a rotating sieve basket. In this case, only the centrifugal force is dewatered by utilizing, also the wet granulate is introduced at the top of the centrifuge and thus entrained water in the direction of gravity.

With this device , the greatest possible dewatering is not intended, rather a destruction of the goods to be dried (abrasion, thread pulling) is to be avoided.

The object of the invention is therefore to achieve better drying of the particles with a smaller construction reach.

The invention consists in that the rotor is conical or stepped upwards and the screen body are stepped as a sieve basket, the upper steps have a larger diameter, than the lower, that the bottom of the sieve body ^ as well is designed as a sieve and the product inlet is arranged in this base below the rotor shaft.

This ensures that the particles to be dewatered increase upwards through the further from The wings located away from the axis experience ever stronger acceleration, which in turn causes the Increasingly stronger impulses act on the particles when they hit the sieve. That sticking to the surface In this way, water can be hurled against the sieve with just a few hits.

In addition to the effect that a more compact design can be maintained, is also on the Hand that any abrasion is low, since a reliable drainage with comparatively little impact can be made.

The centrally arranged product inlet located under the rotor is also advantageous, the one causes immediate distribution of the material over the entire circumference of the rotor.

The blades are preferably arranged in such a way that they are distributed in steps over the rotor, with they protrude into the steps of the strainer basket. In addition, the upper level of the rotor also has wings, which once cause the goods to be discharged. On the other hand, they are connected to an air inlet, whereby dry outside air is supplied to the particles for residual drying.

The blades form an angle with the rotor axis, which accelerates the particles upwards. Depending on the setting angle of the vanes, especially if the rotor is conical, a

intentional partial product return occurs when the particles collide against the rotor wall and are thrown back downwards. In this way - By setting angle and rotor speed - the residence time of the particles can be very precisely to adjust. Especially with step-shaped training of the rotor, a shaft on which it is attached can protrude from the lower - smallest - part and itself form the deepest step of the rotor, in which case wings are also attached to it.

The upper veil of the shaft protrudes from the housing cover out, the drive motor is flanged to this part.

The design of the air inlet as an air duct arranged between the motor and cover is advantageous, z. B. Air filter, which also serves to cool the engine. In this way, heated air can reach the top Rotor blades are fed, which increases the drying effect.

The motor, shaft and rotor are advantageously connected to one another in such a way that they move upwards together can be removed from the strainer basket. The cleaning of the sieve is very easy simple. The arrangement of the screen basket and rotor, which widens towards the top, also simplifies assembly and dismantling and protects the wings as well as the strainer basket.

The weight of the removable one also serves to facilitate assembly and disassembly Parts compensating device. In principle, this can consist of the gallows, pulley and over them There are guided cable pull, but it can also be a gas pressure cylinder of the compact design is better adapted. The parts mentioned can be easily lifted and swiveled with it.

In the bottom of the sieve basket, the product inlet is arranged in the middle, which is connected to an outside via a line of the housing located funnel is in connection. The upper edge of the funnel serves advantageously as a Overflow, preventing excessive supply of product, avoiding clogging. To adapt to different goods, the funnel can of course also be designed to be height-adjustable be.

Exemplary embodiments of the invention are explained in more detail with the aid of the figures.

F i g. 1 shows the dewatering device in section;

F i g. Fig. 2 shows the device in plan view;

F i g. 3 shows the different designs of the rotor.

The main functional parts of the device are the rotor 1 with the blades 13 attached to it and the stepped screen 2. The rotor is suspended on a shaft 7, shown here as a hollow shaft, which in turn is from Motor 8 is driven. The rotor itself is made up of two cylindrical parts in a stepped manner formed, which also results in a two-stage formation of the screen, which in turn has three floors and has three walls. A majority of soils can be indicated for particularly problematic goods for In practice, according to the results available, the two-stage embodiment is sufficient. Central in the lower Bottom 3, the material inlet 4 is arranged from the housing wall 10 by means of bends and extensions 11 and hopper 12 is brought out

The material leaves the device via the material outlet 5.
The blades on the upper cylinder part of the rotor are essential to the subject matter of the invention. These are in communication with an air inlet screen body 14. This is advantageously attached between the motor 8 and the housing cover 6.

to supply heated air, which then causes the residual drying of the product. The housing cover 6 carries the Motor 8, the shaft 7 and the rotor attached to it. In addition, a bracket 15 is attached to it him with a lifting device shown here as a gas pressure cylinder 9 connects to the bottom of the Housing 10 is supported.

In the bottom 17, the water drain 18 is attached. The plan view of Figure 2 shows the cover 6 with

Product outlet 5, lifting device 9 and their fastening.

The motor 8 is arranged centrally for easy lifting of the rotor from the sieve, which means handle 19 is used for the compensating hydraulics to be force-free.

The funnel 12 is located opposite the lifting device 9.

F i g. 3 shows the two rotor variants step-shaped A and conical B. C shows the top view.
It is important that also with conical training

of the rotor, the inclined wing steps form, which in turn protrude into the steps of the screen basket 2.

The step-shaped design is also shown in plan view. There are the upper wings and theirs too Inclination recognizable.

The particles to be dried pass through the funnel 12 and the pipeline 11, 10 and 4 into the lower area of the screen basket 2. The main drainage takes place here, so that in the following Steps only the adhering water needs to be removed. Due to the opposite axis 7 Inclined blades 13, the particles are thrown obliquely upwards against the screen basket. A Some of the particles get into the second stage, some fall back and only become in the next step, through the following wing raised.

The processes are repeated on the next floor, but here the momentum on the particles at constant rotor speed is also greater due to the larger radius of the rotor and its blades, thus increasing the drainage effect.
Likewise on the third and possibly further levels.
Adhering residual moisture is reliably removed by an air flow generated by the upper blades, which can be preheated by the engine. The upper wings are also inclined and cause the product to be ejected.

For this purpose 3 sheets of drawings

Claims (10)

Patent claims: 1. Device for dewatering small particles, preferably plastic granulate, consisting of a rotor arranged in a housing with a water drain with vanes and attached thereto a screen body also arranged in the housing, surrounding the rotor and the vanes, as well as Product inlet in the bottom and product outlet in the cover of the device, characterized in that the rotor (1) extends upwards widening conically or in steps and the screen body {2) is designed as a screen basket in steps are, the upper steps have a larger diameter than the lower that the The bottom (3) of the sieve body (2) is also designed as a sieve and the product inlet (4) in this The bottom is arranged below the rotor shaft (7) 2. Apparatus according to claim 1, characterized in that the rotor (1) over the circumference Stepped wings (13) are distributed one above the other, which protrude into the steps of the strainer basket and that the upper level of the rotor (1) also has blades (13), which with an air inlet in the housing in Connected. 3. Apparatus according to claim 1, characterized in that the wings (13) with the axis of the rotor (1) form an angle to the product conveyance upwards. 4. Apparatus according to claim! -3, characterized in that the shaft (7) of the rotor (1) in the lower part of the basket protrudes and wings (13) are also arranged on this part, the motor (8) being flanged to the upper part protruding from the cover. 5. The method according to claim 1-4, characterized in that an air inlet screen (14) is arranged between the motor (8) and housing cover (6) . 6. Apparatus according to claim 1-5, characterized in that the motor (8), shaft (7) and rotor (1) are connected to one another and are designed to be removable upwards together from the screen basket. 7. Apparatus according to claim! -6, characterized in that the cover (6) with a the Weight of motor (8), cover (6), rotor (1) and product outlet (5) compensating device (9) connected is. 8. Apparatus according to claim 7, characterized in that the weight compensation device (9) is a gas pressure cylinder, with the help of which the parts that can be removed from the basket are lifted and can be swiveled. 9. Apparatus according to claim 1-8, characterized in that the product inlet (4) from the lower bottom of the strainer basket is guided to the outside through the vertical housing wall (10) and has a connection (11) with a hopper (12). 10. Apparatus according to claim 1-9, characterized in that the funnel (12) is adjustable in height is trained.