DE1452325B2 - Device for drawing off the strand coming out of an extruder - Google Patents

Description

gen 7, T of the sprockets 6, 6 '. The chain links band 2 under a relatively small win are through bolts SO, which through the bushings and kela the roller 3 α. As a result, a certain rei- force through the ends of the adjacent chain links is exerted on the bearings of the roller 3 a. These small, articulated. The bolts are also in forces acting on a locking of the belt 2, the ends of the shafts 30 screwed. On each 5 of the roller 3 a and the chain 4, so that the roller 3 α shaft 30, ball bearings 51, 51 a are attached. It tries to move the tape parallel to the chain, rolling 3, 3 ', 3 α and 3'α etc. rotate freely on the tend to move. The same applies to the role 3'a. sen ball bearings. However, since the sum of the wraparound or space between the sprockets 6, 6 'is position angle of the belt on the rollers 3 a, 3'a smaller than the rollers 70, 70' supported by rails, so io than the support angle is on the tension roller 10, exerts a stronger effect through the rail 13 on the upper roller path and the tension roller 10 than the roller through the rail 13 'on the lower roller path len 3 a and 3'a together. As a result, the chain was endless. These rails are attached to the overall gently an increase in the tape tension from dropping alternate D attached. the belt speed F ₂ below the chain speed

The belt 2 runs endlessly over the rollers of the top position F ₃ .

ren and lower roller path of the chain and over It is now assumed that the belt 2 without two tension rollers 10 and 10 ', which support the ends of the change in the above conditions with an upper roller path. The tension rollers 10 press strand is loaded. The extruded strand arrives with and 10 'rotate freely around the shafts 11 and 11', which in comparison to the chain _{speed F 3} clothes are in turn stored in bearings 110, 110 '. The speed F ₂ in the direction of the arrow bearing 110 'is rigidly attached to the frame D , select Z ₁ on the belt. If the friction between the end bearing 110 can slide in a recess 15 of the overall squeezed material and the tape sufficiently large stells D. A screw 15 a is in a with, there is no slipping between the Strangmate thread provided bore of a part of the gear and the tape. The material then has the order D presses against the bearing 110 and allows the 25 striving to give the belt its own speed F ₁ adjustment of the distance between the shaft 11 of the tensioning device. The speed F _{2 of} the unloaded roller 10 with respect to the shaft 11 'so that the band 2 of the band which is slightly smaller than or even equal to F ₃ can be stretched as desired. In other words, as was the case in FIG _{the value F 1} to drop on the rollers 3 α, 3'a, which is significantly smaller than the lower roller path, so that the tape direction is F ₂ and consequently also as F ₃ .
Angle α or 0! form. This can only be possible if the above mentioned passive resistances did not seek to explain the operation of the device, and the cases are; that the tape 2 once no load the tape tension is sufficient. If the passive manure carries and the other time is loaded, one after the other resistances remain below a limit value and the other explains. In both cases, the chain of 35 tape tension is above another limit value, the motor 60 is driven at a speed F ₃ in Rieh- the tape is actually driven at the speed F ₁ direction of the arrow / ₃ . Follow the speed of the pressing strand and automatically adjust all speed ₃ , for example, about 10% higher than the changes in pressing speed. Da-pressing speed set. the limit values mentioned depend on the friction. If the belt is not loaded, it rests under its own weight on the rollers 3, 3 '... ways and belt under its exercise coefficient between the pressed material. When passing through this limit, the roller bearings also have normal friction values, the belt speed approaches the chain resistance and if the belt is only weakly speed F ₃ , as if the belt 2 is not tensioned, one observes that the belt 2 is loaded in the direction . _{The arrow / 2} withdrawn from the tape is driven at a speed F ₂ and the material lying on it has the inclination on which it is lower than or equal to F ₃ . _{The speed F 2} hanging between the die F and the belt depends on the size of the passive part of the extruded strand, exerting a tensile force across the entire assembly (ie from tearing the extruded strand in this area. Frictional forces in the bearings and the rigidity des It is not easy to tape on the passive resistors) and on the tension of the tape. The 50 act; However, it is in contrast very passive resistances in the bearings of the fold, the tension of the tape 2 driven by the tension chain rollers contribute to that roller 10 and the adjusting screw 15 a to control. The tape 2 in the direction of the arrow / ₂ entrained tension of the belt 2 is adjusted so that it is. The tension of the belt 2 acts in entgegen- for permanent match between band seeded sense, that is, when the voltage increases, 55 speed and discharge speed F ₁ a is lowered, the speed of the strip under the overall value achieved (under the above-mentioned limit), the speed of the chains. This is understandable if it is sufficiently close to the stated value so that one thinks about what is happening on the tensioning roller 10 and the roller of the pressed strand in the section between the die 3'a. The tape wraps around the tensioning roller 10 under the and the tape only with a slight tension without excessive angle β.

the tensioning pulley 10, which is the one on the bearing of the tensioning The control of the tensile force makes it possible to im-

roll corresponds to 10 acting force is quite large. Maintain a straight strand axis.

The from the tension pulley 10 on the movement of the If made of a plastic hardenable material

The resistance exerted by tape 2 is so high that 65 pieces of great length are pressed, that is very much

Tape is braked. In contrast, this is important.

1 sheet of drawings

Claims (2)

1 2 lends good uniformity of the patent claims on the strand material: the tensile force acting allows this tensile force to be changed within wider limits. 1. Device for removing the from a To solve this problem is used according to the Erfin extruder expiring strand material, in the case of 5 manure a device for pulling the from a the material on the upper run of an endless extrusion press running out extruded material, in which the The driven chain rests on the upper run at an endless drive speed when the outflowing product lies on a chain that runs at greater speed _ away, with supports on the chain for what moves as the outgoing good, with the Well provided, of which each freely rotating chain supports are provided for the goods, bare rollers and a revolving endless one of which each freely rotatable roller and one of these Having belt, characterized in that it has a revolving endless belt, the front that the belt (2) the rollers (3, 3 ') of the endless direction is characterized in that the belt Chain (4) and at least one more, outside the rollers of the endless chain and at least one the chain (4) arranged tensioning pulley (10, 10 ') 15 further tensioning pulley arranged outside the chain runs around the outside. runs around the outside. 2. Device according to claim 1, characterized in the device according to the invention, that the tension roller (10) loops as a support for the strand material At the end of the load strand, the pulley is arranged. The entire chain is formed from the freely rotatable RoI is. 20 len and an additional tension pulley. This has to Consequence, that the force acting on the Strand material responsible for the frictional forces of the roll. ,. ! end bearing friction of the freely rotating rollers in their addition and averaging to a single one Rope-shaped goods, which have a certain total force exerted by the belt, the output speed exiting from the die of a rope - of any differences in the friction coefficients of the press, often only has a limited strength - individual roles are largely independent and as a speed, so that the transport of the goods allowed whole in the simplest way by means of the tension roller in sigen tensile or compressive forces that can be changed by the nature of the wide limits. Depending on the extruded material, certain limits are not 3 °. Devices for pulling the load strand arranged deflection pulley formed. In of continuously cast these requirements must corresponds this position, the tension roller remain the friction talk and, furthermore, be able, forces, by the automatically aii below the upper band segment ^Hesich: constricting any fluctuations of the waste roles to contribute to the total force, reproducing speed of the ropes from the machine, essentially independent of the belt tension, to adjust the machine. however, desirably depending on the In a known device for pulling off the upper belt strand resting weight of the von Stranggut (German Patent 875 036) is in Stranges, so that even at higher belt tensions Considering the requirements mentioned, an endless influence in the sense of keeping the inflated constant Chain with freely rotatable support links 40 lying weight is retained, intended. The strand material runs on the freely rotating The invention is described below with reference to an in bearable support links of the upper run of this chain. the embodiment shown in the drawing The conveyor speed of the chain is explained in greater detail. It shows selects F i g as the discharge speed of the strand material. 1 a side ( from the press, and 'the speed difference 45 view of a device for removing and between the strand material and the chain is shown in FIG. 2 shows a section through the puller Rotation of the freely rotatable support members balanced, along the line H-II in F i g. 1. whereby the forces acting on the strand material in FIG. 1 and 2 continues the device essentially by the bearing friction of the freely rotating essentially consisting of one of rollers 3 and one able support members are determined. In the known 5 ° chain 4 existing puller 1 and one outside The device can combine the individual links of the belt 2 leading around the rollers. The puller 1 is controlled by a motor 60, for example as rollers, revolving belts or the like. Drives, which is shown schematically as a block. That be trained. Band 2 takes up the extruded strand 12, runs continuously With the known device there is a setting 55 on the rollers 3, 3 '... and is only driven by these or a change in the rollers acting on the strand material. The chain 4 is only imprecisely over two pairs of the forces and only in a ratio- chain wheels 6, 6 a and 6 ', 6'a, which are mounted in the moderately narrow area by changing the drive shafts 8, 8' , from the motor 60 driven speed of the chain possible. You can also. The shafts 8, 8 'are stored in the bearings 52, 52 a of the NEN difficulties, for example local expansion 60 frame D , of which only the main parts of the extruded material appear due to the fact that the bar is. Since the links of the chain 4 and the normally slightly different coefficients of friction of the related parts on both sides of the individual freely rotatable support links are directly the same as a device, it is sufficient to only show the local changes corresponding to the one shown in FIG Page to describe. Effect of tensile force acting on the strand. 65 Chain 4 consists of two parallel partial chains The invention is based on the object of a 40 and 40 'which is spaced apart by sockets 5, 5' for pulling the will hold from an extruder. Rollers 70, 70 'are rotatable on the outgoing To create extruded material that is attached to possible sockets and grips into the recess