DE3120792A1 - Granule drier - Google Patents

Abstract

The present invention relates to a device for dewatering plastic granules. It consists of a rotor which is enlarged upwards in a conical or step-shaped manner and a screen basket which surrounds said rotor in a step-shaped manner.

Description

Granulate dryer

The present invention relates to a device for dewatering of small particles, preferably plastic granulate. Devices 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 pass through a laterally arranged product inlet at the same time in the area of action of the blades. These move the particles to be dried essentially vertically from bottom to top, with the particles repeatedly against the sieve can be spun.

The disadvantage here is that the kinetic energy goes from bottom to top because of the loss of fluid continuously decreases, which inevitably increases an extension of the rotor and the basket leads as the particles because of the loss of mass, experience an always small impulse on the sieve.

The object of the present invention is therefore, despite the reduced size Construction to achieve at least equal drying of the particles.

The device consists of a housing with a water drain arranged rotor with vanes attached to this and one also in the housing arranged, the rotor and the blades surrounding screen body, as well as product in and outlet.

The invention consists in that the rotor (1) is conical towards the top or step-shaped and the screen body (2) is step-shaped as a screen basket, the upper steps having a larger diameter than the lower, that the bottom (3) of the sieve body is also designed as a sieve and the product inlet (4) in this base and the product outlet (5) in the top cover of the sieve basket forming cover are arranged. This ensures that the to be drained Particles increasing upwards through those further away from the axis Wings experience ever stronger acceleration, which in turn on impact increasingly stronger impulses act on the particles on the sieve. That on the surface Adhering water can be thrown off against the sieve with just a few knocks.

In addition to the effect that a more compact design is maintained can be, it is also obvious that any abrasion is low, because with Reliable drainage can be carried out with comparatively few impacts.

The one located centrally under the rotor is also advantageous Product inlet, the immediate distribution of the goods over the entire perimeter of the rotor causes.

The wings are preferably arranged so that they are stepped are distributed over the rotor, protruding into the steps of the screen basket. In addition, the upper level of the rotor also has wings, which once the discharge of the good. On the other hand, they are connected to an air inlet, whereby dry outside air is supplied to the particles for residual drying.

The vanes form an angle with the rotor axis, causing the particles be accelerated upwards. Depending on the setting angle of the wing, in particular if the rotor is conical, there is also an intentional partial return of the product arise when the particles hit the rotor wall and so thrown back downwards will. In this way - by setting angle and rotor speed - can adjust the residence time of the particles very precisely. Especially with stepped Formation of the rotor can have a shaft on which it is attached from the lower - the smallest part protrude and even form the deepest step of the rotor, whereby then wings are also attached to it.

The upper part of the shaft protrudes from the housing cover, on this Part of the drive motor is flanged.

The configuration of the air inlet as between the engine is advantageous and cover arranged air duct, e.g.

Air filter, which also serves to cool the engine. To this In this way, heated air can be supplied to the upper rotor blades, which has the effect of drying increases.

Motor, shaft and rotor are advantageously connected to one another in such a way that that they can be removed together upwards from the strainer basket. The cleaning the sieve is very simple. The upward widening arrangement of screen basket and rotor also simplifies assembly and disassembly and protects the The wings as well as the sieve basket are included.

The also serves to facilitate assembly and disassembly Weight of removable parts balancing device. This can in principle consist of a gallows, pulley and a cable run over them, but it can also be a gas pressure cylinder, which is better adapted to the compact design. 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 via a line with a funnel located outside the housing communicates. The upper edge of the funnel advantageously serves as an overflow thus preventing excessive supply of product, thus avoiding clogging will. The funnel can of course also be used to adapt to different goods Be designed to be adjustable in height.

The invention is explained in more detail with the aid of the accompanying figures.

Fig. 1 shows the dewatering device in section; Fig. 2 shows the invention in plan view; Fig. 3 shows the different versions of the Rotor.

The most essential functional parts of the device are one-time the rotor 1 with the blades 13 attached to it and the step-shaped Sieve 2. The rotor is suspended on a shaft 7, shown here as a hollow shaft stored which in turn is driven by the motor 8. The rotor itself is stepped here formed from two cylindrical parts, which also results in a two-stage Formation of the sieve results, which in turn has three floors and three walls.

A majority of soils can be indicated for particularly problematic goods According to the results available, the two-stage embodiment is sufficient in practice. Centrally in the lower bottom 3 of the material inlet 4 is arranged from the housing wall 10 is led out by means of a bend and extension 11 and hopper 12.

The material leaves the device via the material outlet 5.

Essential in the present invention are the wings on the upper cylinder part of the rotor. These are with an air inlet screen body 14 in Link. This is advantageously attached between the motor 8 and the housing cover 6. So it is easily possible to the air inlet sieve 14 from the engine 8 preheated air feed, 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 holder 15 is attached to it, which it with one here as a gas pressure cylinder 9 connects the lifting device shown, which is supported on the bottom of the housing 10.

In the bottom 17, the water drainage 18 is attached.

The top view of Fig. 2 shows the cover 6 with product outlet 5, Lifting device 9 and its attachment 15.

The motor 8 is arranged centrally. For easy lifting of the rotor from the sieve, which is force-free by means of the balancing hydraulics, serves the handle 19.

The funnel 12 is located opposite the lifting device 9.

3 shows the two rotor variants according to the invention in a stepped manner A and conical B. C shows the top view.

It is important that even with a conical design of the rotor inclined wings form steps which in turn protrude into the steps of the basket 2.

The stepped design is also shown in plan view. Included the upper wings and their inclination can be seen.

The particles to be dried pass through the funnel 12 and the Pipeline 11, 10 and 4 in the lower area of the screen basket 2. Already happens here the main drainage, so that in the following stages only the adhering water needs to be removed. By facing the axis 7 inclined arranged wing 13, the particles are obliquely upwards against the Sieve basket spun. A part of the particles gets into the second stage Part falls back and becomes only in the next step, through the following wing raised.

The processes are repeated on the next floor, but will here the momentum on the particles at constant rotor speed due to the larger one The radius of the rotor and its wings is also larger and thus the drainage effect increased.

Likewise on the third and possibly further levels.

Adhering residual moisture is removed by means of the upper wing generated air flow, which can be preheated by the engine, reliably removed. the upper wings are also inclined and cause the product to be ejected.

Claims (11)

Claims device. for dewatering small particles, preferably of plastic granulate, consisting of one arranged in a housing with a water drain Rotor with vanes attached to it and one also arranged in the housing, the rotor and the blades surrounding screen body, as well as product inlet and outlet, thereby characterized in that the rotor (1) is conical or step-shaped and upwards the screen body (2) are stepped as a screen basket, the upper Steps have a larger diameter than the lower ones, so that the bottom (3) of the screen body is also designed as a screen and the product inlet (4) in this bottom and the product outlet (5) in the upper cover of the strainer basket Lids are arranged. 2. Apparatus according to claim 1, characterized in that the rotor The wings (13) are distributed in steps over the circumference, one above the other the sieve basket protrude and that the upper level of the rotor is also wing which are in communication with an air inlet in the housing. 3. Apparatus according to claim 1, characterized in that wing Form an angle with the axis of the rotor to convey the product upwards. 4. Apparatus according to claim 1-3, characterized in that the Shaft (7) of the rotor protrudes into the lower part of the basket and on this part wings are also arranged, with the protruding from the lid upper part of the Motor (8) is flanged. 5. The method according to claim 1-4, characterized in that between Motor 'and housing cover an air inlet screen (14) is arranged. 6. Apparatus according to claim 1-5, characterized in that the product inlet is below the shaft in the lower sieve basket bottom (3). 7. Apparatus according to claim 1-6, characterized in that the motor (8), shaft (7) and rotor (1) connected to each other and together out of the strainer basket are designed to be removable upwards. 8. Apparatus according to claim 1-7, characterized in that the Cover (6) with the weight of the motor (8), cover (6), rotor (1) and product outlet (5) balancing device (9) is connected. 9. Apparatus according to claim 8, characterized in that the weight compensation device (9) is a gas pressure cylinder, with the help of which the can be removed from the basket Parts can be lifted and swiveled. 10. Apparatus according to claim 1-9, characterized in that the Product inlet from the bottom of the strainer basket through the vertical housing wall (10) is led to the outside and has a connection (11) with filling funnel (12). 11. The device according to claim 1-10, characterized in that the Funnel (12) is designed to be adjustable in height.