DE2205135B2 - PNEUMATIC CONVEYOR LINE WITH A ROTATING DRUM COOLER - Google Patents

Description

The main patent relates to a pneumatic conveyor line between a heated drying system for Granules with a low heat transfer coefficient, e.g. B. for scales or grains polyaniidischer Connections, and a further processing plant, e.g. B. a spinning and dyeing plant or a storage plant, in which the pneumatic conveying line conveying the granules while in suspension a cooling section with an enlarged cross section in the form of a rotary drum cooler is interrupted, wherein this has at its inlet and outlet each a conical connection end, each with an axial The supply line consists of one piece and the temporary and subsequent conveying route gradually expanded to the cross section of the cooling line to the extent that it is floating in the conveyor line The transported material fails in the cooling section and is mechanically conveyed in a slowed manner.

There are devices for heating material with a rotatable, penetrated by a hot air stream Drying drum known (DT-GM 19 31 190; DTPS 23 492), which on the inner wall with in the longitudinal direction extending straight or curved strips are provided, which a movement of the goods through the Drying drum should cause. There is also a rotary drum for dewatering gypsum double hydrate known (DT-GM 19 22 985). in which two concentric tubes are arranged, which form an annulus form to accommodate the Giits. There are lifting blades protruding into the annular space on the tubes intended. Apart from the fact that none of the documents mentioned have a rotary drum cooler or even a cooler for cooling through a transport gas supply promoted good revealed, it is ίο in the known rotary drums to those in the essentially are largely filled with the material to be heated, the strips promoting the material in the longitudinal direction of the drum or can cause a certain circulation of the material. With such rotary drums is not a very effective heat transfer between the goods penetrating the drum and the drum wall easily accessible.

The invention is based on the object of a rotary drum cooler for a pneumatic conveyor line according to the main patent in such a way that he cools goods conveyed by the transport gas flow particularly effectively.

The; is achieved according to the invention in that the rotary drum cooler consists of two concentrically arranged There is drum bodies that form an annular space that receives the goods to be cooled the inner wall of the outer Tromnielkörpers arranged slowly, curved in the direction of rotation blades are and that on the outer wall of the inner drum body also slow running. however contrary the drum rotation curved blades are arranged.

The arrangement of the blades according to the invention results in a noticeable increase in the cooling effect achieved, as the heat extraction from the crop is increased by touching the blades. It will namely the material detected by the blades arranged on the outside drum, which the material during hold a drum rotation of about 180 ° and cool, and after a certain rotation of the drum, the granular material falls onto those arranged on the inner drum Shoveling, whereby the material is intensively mixed and again by touching the inner shovels is cooled. Because this means that the material is vigorously mixed twice per rotation of the drum and then is intensely cooled by contact with the blades, the statistical probability becomes that each grain comes into contact with a cooling blade surface several times and it becomes one extremely effective cooling achieved.

Preferably, the drum body are connected to one another by pipes that are the outside of the outer Connect the drum body to the interior of the inner drum body. This creates coolant passages formed between the drum bodies.

The invention is explained in more detail below with reference to the drawing using an exemplary embodiment. In the drawing shows

F i g. 1 is a side view of a rotary drum cooler according to the invention,

F i g. 2 shows a partial representation of a longitudinal section through the rotary drum cooler according to FIG the line 7-7 in FIG. 3, and

F i g. 3 shows a cross section along line 8-8 in FIG. 2.

In Fig. I shows a rotary drum, the outer drum body 10 of which has roller bearings 11, 12, 15

a frame 13 is rotatably mounted. 17 is a drive motor, which drives the ring gear 16 attached to the outer drum body. The one shown Rotary drum cooler is switched into a pneumatic conveyor line, not shown. Through the rotary drum cooler the cross-section of the conveyor line is expanded so that it is floating in the conveyor line material transported in the rotary drum cooler fails.

The frame 13 is mounted on its foundation 18 in such a way that the desired inclination B with respect to the horizontal plane AA is achieved, which can be done with the aid of joint supports 19 and pedestals 20 with the aid of a threaded bolt 21, for example.

The outer surface of the outer drum body 10 is at least partially cooled, preferably by Sprinkling with water, for which connection nozzles 22 are provided. That on the top of the outer drum body 10 applied coolant can through the tubes 125, which the inner drum body 110 hold, penetrate into the interior of this inner drum body 110 and also this inner drum body cool, whereupon it in turn drains through the tubes 125 into a tub 24, from where it passes through a Opening 25 can be removed. The upper part of the outer drum body 10 can by a semi-cylindrical Jacket 26 be shielded.

The outer drum body 10 carries blades 30 on its inside which are curved in the direction of rotation D , while the inner drum body 110 carries blades 130 on its outside which are curved against the direction of rotation.

The head parts of the outer drum body 10 are preferably formed by conical parts 31 and 32. They contain connecting pieces ii and 34 for a pressure line for conveying 'les Guts, which is conveyed by a gas atmosphere in suspension.

Through the conical parts 31 and 32, the delivery line gradually expanded to the cross section of the rotary drum cooler so that that in the conveyor line Material transported floating in the rotary drum cooler fails.

The cooler works in the following way: The high speed pneumatically conveyed material passes through the inlet connection 33 into the annular space 112 between the outer drum body 10 and the inside; inner drum body 110. The flow speed is reduced by the conical part 136, whereby the conveyed material falls down by its own weight. As a result of the rotation of the drum body, the mass M of the granular material is distributed by the shovels 30 and distributed over the length of the drum body, raised and then trickled down again. As a result, the mass M is continuously mixed and divided, as a result of which - statistically speaking - each grain comes into contact with the inner surface of the outer drum body 10, which has a cold surface due to the continuous heat emission. After the blades 30 are attached to the drum body, they also serve to extract heat from the conveyed material. The same applies essentially to the inner drum body 110 with its blades 130.

The blades on the inner surface of the outer drum body 10 are L-shaped or spoon-like and curved in the direction of rotation B , while the inner drum body UO carries blades 130 of essentially the same shape, but which are curved against the direction of rotation D. Both blades are connected to the drum bodies with good thermal conductivity.

As shown in FIG. 3, the conveyed material is picked up in the lower part of the rotary drum cooler by the blades 30 and transported upwards, whereupon it falls at M from the blades 30 onto the inner drum body 110 and is picked up here by the blades 130, whereupon it at M " falls back onto the inner surface of the outer drum body 10. This means that essentially every grain comes into contact with a cooled surface several times, since the material scrapes twice from a shovel onto the drum body on the opposite side with each revolution.

1 sheet of drawings

Claims (2)

Patent claims: 1. Pneumatic conveyor line / between a heated drying system for granules with low heat transfer efficiency, /. B. for flakes or grains of polyamidic compounds, and a further processing plant. /. B. a spinning and dyeing plant, or a storage system, in which the granules in the suspended state promoting pneumatic conveyor line is interrupted by a cooling line with an enlarged cross-section in the form of a Drehtrommclkühlers, which has a conical connection end at its inlet and outlet, each consists of one piece with an axial feed line and the preceding and following conveyor section gradually expands on the cross-section of the cooling section to the extent that the material that is suspended in the conveyor section fails in the cooling section and is mechanically conveyed in it at a slower rate, according to patent 18 10 193, characterized in that the rotary drum cooler consists of two concentrically arranged drum bodies (10, 110) which form an annular space (112) receiving the material to be cooled, with blades curved longitudinally on the inner wall of the outer drum body (10) in the direction of rotation (D) (30) are arranged u nd that on the outer wall of the inner drum body (110) there are also blades (130) which run longitudinally but are curved against the rotation of the drum. 2. Pneumatic conveyor line with a drum cooler according to claim 1, characterized in that the drum bodies are connected to one another by pipes are connected that the outside of the outer drum body with the interior of the inner Drum body connects.