SU753667A2 - Worm-screw machine for processing rubber mixer - Google Patents

Description

The invention relates to the development of refining equipment.

Known worm machine for processing rubber compounds according to the main author, St. No. 507452, according to which the worm machine for processing rubber compounds contains a cylindrical body with a loading nozzle and an unloading hole with a profiling head installed in the housing, and a two-way worm connected to the drive θ house of revolution, moreover, one turn of the worm is made variable depth along the length, decreasing towards the profiling head, and a height at the beginning of the cut, equal, for example, to half- ₍₅ not the height of the turn.

This worm machine is the closest to the invention in terms of technical nature and the achieved result.

The disadvantage of the machine is its low jo performance.

The chain of the invention is to increase the productivity of the machine by increasing the efficiency of homogenization.

This goal is achieved by the fact that the screw channels of the worm are made with inversely changing along the length of the worm and in mutually opposite directions relative to each other with cross-sectional areas.

. In FIG. 1 shows the proposed _ device; FIG. 2 is a section AA of FIG. 1..

The worm machine comprises a cylindrical body 1 with a loading nozzle 2 and a profiling head 3, connected to the rotary drive, a two-way worm 4 with a cylindrical turn 5. and a conical turn 6, made with a length along the length decreasing towards the forming head 3 and the height at the beginning of the cutting, equal, for example, to half the height of the turn.

The helical channels 7 and 8, delimited by a conical turn .6, are filled with cross-sectional areas that are inversely proportional to the length of the worm in cross sections in mutually opposite directions relative to each other. A change in the area of 3 753 667 steps of the cross section of the channels is achieved by changing their depth. At channel 7, the depth decreases towards the profile head 3 from the maximum value of H _? at the beginning of the cut to a minimum ₅ value of h ₇ at the end of the cut, equal, for example, to half the value of Ηγ. On channel B, on the contrary, the depth increases towards the profile head from the value of h _a “to the value of Hg ^β Η γ. The magnitude of the change in the cross-sectional area of the screw channels is established when designing the worm based on the specific purpose of the machine AND the properties of the rubber compound. The areas of 15 Cross sections, that is, the volumes of the screw channels, can vary from zero to a maximum and, accordingly, ^ from a maximum to zero.

The worm machine operates as follows 20.

The rubber mixture in the form of a strip or granules is fed into the loading pipe 2, where due to the presence of a conical turn 6 And the conical gap formed by it with 25, the inner surface of the body is captured by the worm 4 and is uniformly fed into the working part of the body 1, since the coil is a kind of blade that prevents slipping mixture and its pushing back into the loading nozzle.

A significant difference in the volumes of the screw channels 7 and 8, due to the significant difference in the areas of their transverse 35 sections, which may be, for example, 50%, provides enhanced interaction between the rubber flows in them. In the process of movement, a part of the rubber mixture equal to the difference in the volume of the channels flows from channel 7 to channel 8, undergoing shear deformations. Since the viscosity of the rubber compound and the conical gap between the conical turn 6 and the inner surface of the housing 1 are reduced in the direction of the profile head, the flow of the rubber mixture from channel 7 to channel 8 is carried out at almost constant shear stresses.

All this ensures good plasticization and homogenization of the rubber mixture before it is fed into the profiling head 3, which allows to increase the rotational speed of the worm and, accordingly, the productivity of the machine while ensuring high quality products.

Claims (1)

37 of the cross section of the channels is achieved by changing their depth. At the canal; :( and 7 the depth decreases towards the front effector head 3 from the maximum value at the beginning of the cutting to the minimum value of L7 at the end of the cutting equal to, for example, twice the value of Hj-. At the fecal head, on the contrary, the depth increases in the profiling head from Welsh: Type H up to UQ H7 The amount of change in the cross-sectional areas of the screw channels is established when designing a screw based on the specific purpose of the machine AND rubber compound properties. Cross-sectional areas, i.e., the volumes of the screw channels, can varyfrom zero to maximum and, respectively, from maximum to zero. The screwdriver machine works as follows. The rubber mixture in the form of a strip or granules is fed to the loading nozzle 2, where, due to the presence of a tapered 6 And the tapered gap formed by it, screw 4, and is evenly fed into the working part of housing 1, since coil 6 is a kind of blade that switches the mixture on and off and bounces it back into the loading pipe. There is a significant difference in screw channel volumes 7 and 8, caused considerably difference of their cross-sections 674, which may be, for example, 50%, provides enhanced interaction between the rubber composition flows into them together. In the process, a part of the rubber mixture, equal to the difference in the volumes of the channels, flows from channel 7 to channel 8, and is subjected to shear deformations. Since the viscosity of the rubber compound and the tapered gap between the conical coil 6 and the inner surface of the housing 1 decrease in the direction of the profiling 1X), the rubber mixture flows from channel 7 to the channel in almost at constant shear stresses. All this ensures good plasticization and homogenization of the rubber mixture before it is fed to the main head 3, which allows to increase the frequency of rotation of the screw and, accordingly, the productivity of the machine, ensuring high product quality. The invention of the Scarlet for the processing of rubber compounds according to ed. 507452, characterized in that, in order to increase machine productivity by increasing homogenization efficiency, the screw channels of the screw are made inversely proportional to the length of the screw and in opposite directions relative to each other cross-sectional areas. / 7 /// / X У /. ////////// // y //////// j / / // /// 71 / / / // 7 /  / /one/ / / / /////. S K, V at / / 7 /// l