DE4447421C1 - Polymer reactor rotor core is perforated hollow cylinder on stub shafts - Google Patents

Abstract

A reactor assembly for flowing media pref. molten polymers has a housing(1 ) enclosing a rotor resting on horizontal shaft stumps (3) and passing through the housing (1) end-walls. The novelty is that the rotor (2) assembly core is a hollow cylinder (4) with holes (5) in the faces. Ring-shaped elements (6, 7) arranged on the core, move the molten materials. The hollow cylinder is supported by a supporting face and locking assembly (13 to 18) , which is functionally separate from the stub-shaft supports within the reactor housing (1) .

Description

The invention relates to a reactor device for Media in a flowable state, preferably for Melt polymerization or polycondensation of film and thread-forming polymers according to the Oberbe handle the main claim.

Reactor housings are known, one by one Reactor housing have guided continuous shaft, on the annular elements for mixing and for Moving and conveying the medium are arranged. A such a wave is a deflection due to its Dead weight and the attacking mixing forces as well a change in length due to that in the reactor exposed to the prevailing temperature. This change and angular deviations from the theoretical Center axis must be from storage and sealing of the wave. That means that Sealing must be suspended flexibly so that the  Storage can absorb the deflection. It is for such storage elaborate seals, such as' double te, blocked mechanical seals, because of the small circumferential speeds and the to be recorded Thermal stresses are extreme special constructions, or Stuffing boxes with metal compensators that also are susceptible to sealing against vacuum atmospheric pressure, and elaborate rolling bearings necessary dig, such as self-aligning ball or roller bearings.

A complex storage and sealing increases the cost Reactor device and makes it prone to failure and was intensive.

In the prior art, reactor designs are knows, in which the rotor is arranged vertically is (GB-PS 1 066 397, DE-OS 19 40 722, AT-PS 368 910). The GB-PS provides a cylindrical rotor that is along the reactor housing and at both ends extends through the housing.

DE-OS 19 40 722 discloses a rotor with a central tubular body and a plurality of rotor blades tern, which are distributed on the circumference of the tubular body. The rotor is rigidly connected to stub shafts and stored in the reactor housing.

The reactor disclosed in the AT-PS consists of one vertically arranged cylindrical housing and a Rotor. This rotor is marked with La at both ends happy to provide.

A horizontal rotor construction with a continuous Medium wave is described in DE-OS 29 01 385 ben. A rotor is on within a housing drum  ordered, which has a central shaft, the ends of which extend through glands that are centered in the End walls of the housing drum are arranged. The zen central shaft is with a framework of end plates, clamping rods, discs and cup baskets for transport and provided for mixing of the mix.

US 3,630,688 also shows a rotor of a polymer reactor with a framework of rods and disks for Mixing of the polymer by a continuous Is marked. This rotor is on his both ends by a stub shaft in the reactor housing stored.

The invention is therefore based on the object Reactor device with a simple, safe and inexpensive storage and sealing arrangement of the To create rotor shaft.

This object is inventively characterized by resolved characteristics of the main claim. As a result of that the rotor over the end walls of the reactor housing sweeping stub shafts is stored and one with Breakthroughs provided hollow cylinder, the This support arrangement is functionally separate from the position tion of the stub shafts within the reactor housing is arranged, which is already very low Deflection of the hollow cylinder compared to the shaft and the thermal expansion from the support device taken and not to the outside on the storage of the stum transfer melwave arrangement. This in turn can storage and sealing are simplified.  

By the measure specified in the subclaims Men are advantageous further training and improvements possible. The edition preferably settles device consisting of several on the end face Lich arranged slide shoes and from guide or Driver elements together, so on the order catch surface of a connected to the stub shaft Drum are arranged that between each because the two sliding elements of the sliding shoe sit. Due to the possibility of axial displacement of the Sliding shoes can be relative to the driver elements thermal expansion can be recorded. Since also ra dial a game between sliding shoes and circumferential surface surface of the drum is provided Hollow cylinder when rotating only on some the gravity points at predetermined points, reducing the impact the very low deflection of the hollow cylinder Stub waves is avoided. The arrangement mentioned is also in the Location, manufacturing tolerances of the housing and Ro tors itself to catch, so that no ver cause bending forces on the housing and the position tion / sealing are transferred.

By providing a fixed ver with the stub shaft tied fastening star with elastic stripes shaped elements that face the Hohlzy linder connected, this support arrangement of the rotor due to the elastic stripes axially give way and can absorb a torque.

The storage of the stub shaft arrangement on both sides can thereby of two radial bearings, one of them sufficiently rigid bearing arrangement result, are formed, d. H. a floating bearing and on the other hand a fixed bearing with a corresponding bearing stood, whereby a simple radial sealing ring  Sealing can be integrated. The seal against the Reactor space is improved in that a pressure Relieved seal near the heated reactor housing against the reactor room, d. H. against the molten warm phase, seals and that another seal from atmospheric pressure to the reaction vacuum is arranged in the cold area, whereby ko cost-effective seals, such as B. radial sealing rings, can be used even at low rotation pay an excellent sealing effect in the long term Show vacuum operation if provided for a lubricating film is taken care of the z. B. generated by a barrier medium becomes.

Embodiments of the invention are in the drawing tion and are described in the following section spelling explained in more detail. Show it:

Fig. 1 a partial section through the reac gate device according to the invention, with the bearing assembly,

Fig. 2 is a perspective view of the mounting of the star Hohlzylin DERS according to the invention,

Fig. 3 is a partial perspective view of the support device of the hollow cylinder according to the present invention, and

Fig. 4 shows a section through the Lagervor direction of the stub shaft arrangement.

The reactor apparatus shown in Fig. 1 comprises a reactor housing 1 and a rotor 2 which is received in the reactor shell 1 and, via a resi melwellenanordnung 3 stored. The rotor 2 be consists of a hollow cylinder 4 with openings 5 , on the washers 6 and spoke-shaped elements 7 are attached. The stub shaft arrangement 3 in each case comprises a stub shaft 8 which is firmly connected to the hollow cylinder 4 and which is firmly connected to an extension shaft 9 . For this purpose, the extension shaft 9 is provided with a blind hole 10 into which the shaft engages bluntly, and the extension shaft 9 and shaft len 8 are connected to each other by a screw 11 lying in the longitudinal axis of the extension shaft 9 and accessible from the outside.

One end of the hollow cylinder 4 (in the drawing, the left end) is slidably mounted on the peripheral surface of a drum 12 firmly connected to the stub shaft 8 . This storage is shown in more detail in Fig. 3. The hollow cylinder 4 is firmly connected on the end face with a continuous ring 13 , on which L-shaped sliding shoes 14 are fastened over the circumference at a distance from one another. The slide shoes 14 are assigned 12 rectangular driver blocks 15 attached to the surface of the drum 12 , each slide shoe 14 being located between two drivers 15 . Both between the peripheral surface of the drum 12 and the short leg of the Gleitschu hes 14 and between the drivers 15 and the slide shoe 14, there is a game, so that the hollow cylinder 4 can move axially and radially. As a result, changes in length due to thermal expansion can be absorbed and manufacturing tolerances can be compensated.

The other end of the rotor 2 and the hollow cylinder 4 is connected to the stub shaft 8 via a star 16 shown in FIG. 2. The BEFE stigungsstern sits firmly on the stub shaft 8 and has from the stub shaft 8 to the outside he stretching elastic, metallic strips 17 which are arranged in a star shape and which have mounting holes 18 at their tips for attachment to a circumferential ring 19 on the front side of the Have hollow cylinder 4 . By the elastic stripes 17 , the torque is transmitted to the hollow cylinder 4 , and in addition the stripes 17 can compensate for angular deviations of the reactor housing axis.

The mounting of the stub shaft arrangement 3 is shown in more detail in FIG. 4. As can be seen, the extension shaft 9 is supported by two relatively rigid arranged radial bearings 20, 21 in a support housing 22, wherein the radial bearing 20 is a movable bearing and the radial bearing 21 is a fixed bearing. Since a deflection of the hollow cylinder 4 is not transmitted to the outside, such a simple radial bearing or roller bearing can be selected with storage at two points. As already mentioned above, the extension shaft 9 has the blind hole 10 into which the fastening screw 11 protrudes, as shown in FIG. 4.

A high vacuum of up to 0.1 mbar prevails in the reactor space and the reaction temperature is, for example, 290 ° C. In order to seal the penetration in the end wall 23 of the support housing ( 22 ) well, a pressure-relieved seal 24 is arranged between the extension shaft 9 and the end wall 23 , ie there is the same pressure in front of and behind the seal 24 , so that there is no pressure difference. This pressure relief is achieved by a vacuum chamber 25 , which is brought to the same pressure as the reaction space by connections, not shown, to the vacuum generator. The seal 24 does not have to be a pressure seal, but can only withstand high temperatures, and it is designed as a spring-loaded continuous roof-shaped seal with an upstream labyrinth made of a metal ring arrangement. Due to its position in the heated cover of the housing, this pressure-relieved seal is kept at a high temperature, which is above the melting temperature of the medium.

At the level of the vacuum chamber 25 there is an abrupt cooling, which he aims over cooling chambers 26 , in which coolant flows. In addition, cooling channels, not shown, are also provided in the extension shaft 9 .

Behind the vacuum chamber 25 towards the cold area seals 27 are provided for the vacuum seal, whereby radial sealing rings can be used due to the already low temperature of about 60 ° C. and no mechanical seals are necessary. Due to the low temperature, these seals 27 reliably seal against vacuum even at low speeds. Between two groups of seals 27 , an annular space 28 is easily seen, the sealing liquid from the outside can be supplied for lubrication, the blocking liquid simultaneously serving to signal the sealing action of the seals 27 .

At the end of the extension shaft 9 further processing groups 29 are provided, which will not be dealt with in detail, however, since they are not essential to the invention.

Due to the storage of the rotor according to the invention in addition to the advantages already mentioned, maintenance friendliness and a modular design.

Claims (9)

1. Reactor device for media in a flowable state, preferably for melt polymerization or polycondensation of film- and thread-forming polymers with a rotating rotor in a reactor housing, the stub shaft arrangement ( 3 ) extending through a bearing device by means of the end walls of the reactor housing ( 1 ) reaching horizontally is characterized by
that the rotor ( 2 ) with a perforations ( 5 ) hens HEN hollow cylinder ( 4 ) on the annular elements ( 6 , 7 ) for moving and conveying the medium are arranged, and that the hollow cylinder on a location and fastening device ( 13 to 18 ) is supported abge, which is arranged functionally separate from the storage of the stub shafts within the reactor housing ( 1 ). 2. Reactor device according to claim 1, characterized in that the support and fastening device for the hollow cylinder ( 4 ) at least on one side of the same several with the end face of the hollow cylinder ( 4 ) connected sliding shoes ( 14 ) and on the peripheral surface of one firmly connected to the stub shaft ( 8 ) drum ( 12 ) arranged driver elements ( 15 ), the slide shoes ( 14 ) between two driver elements ( 15 ) are arranged such that an axial and a radial play between slide shoes ( 14 ) and driver elements ( 15 ) is possible. 3. Reactor device according to claim 2, characterized in that the driver elements ( 15 ) as longitudinal blocks and the sliding shoes ( 14 ) are L-shaped. 4. Reactor device according to one of claims 1 to 3, characterized in that the support and fastening device for the hollow cylinder ( 4 ) at least on one side thereof a fixed to the stub shaft ( 8 ) BEFE stigungsstern ( 16 ) with elastic, streifenför shaped elements ( 17 ), which are connected at the end to the hollow cylinder ( 4 ). 5. Reactor device according to one of claims 1 to 4, characterized in that the stub shaft bearing has at least one as a floating bearing ( 20 ) and a fixed bearing ( 21 ) designed as a relatively rigid radial bearing, the radial bearings being arranged at a distance from one another. 6. Reactor device according to one of claims 1 to 5, characterized in that the stub shaft arrangement ( 3 ) by means of a pressure-relieved seal ( 24 ) is sealed against the molten, up to 300 ° C warm medium and that the pressure-relieved seal to the cold area down one, preferably as a rubber-elastic radial sealing rings ( 27 ), vacuum seal is connected downstream from the atmosphere. 7. Reactor device according to claim 6, characterized in that between the pressure-relieved seal ( 24 ) and vacuum seal ( 27 ) a ge-cooled vacuum chamber ( 25 ) is provided. 8. Reactor device according to claim 6 or claim 7, characterized in that the pressure release constant seal as spring-loaded roof-shaped Plastic seal with upstream metalli schematic labyrinth is formed. 9. Reactor device according to one of claims 1 to 8, characterized in that the stub shaft arrangement has an extension shaft ( 9 ) and a stub shaft ( 8 ), the United extension shaft ( 9 ) with a rotor ( 2 ) facing blind hole ( 10 ) is provided, in which the stub shaft ( 8 ) of the rotor ( 2 ) is received and the extension shaft ( 9 ) and stub shaft ( 8 ) are connected to each other via a longitudinal screw ( 11 ).