RU152407U1 - SORT-SEPARATOR - Google Patents

Abstract

A sorting-separating device of a stone-harvesting machine, comprising a reflective shield mounted on the frame, longitudinal parallel separating shafts with staggered polyhedral disks forming a gutter, and a clamping device placed above the disks of the upper gutter shafts, characterized in that the clamping device is made in the form of parallel driven axes with elastic elements fixed to each axis in a checkerboard pattern, while the elastic elements of the drive axes are pressed Many devices are located with a gap to the surface of the polyhedral disks of the upper shafts of the gutter.

Description

The utility model relates to mechanical engineering, in particular to separators for separating stones from soil and plant debris on a stone harvesting machine. The device can also be used in other industries for the separation of bulk materials clogged with fiber inclusions.

Known sorting and separating device, made in the form of a chute formed by inclined parallel axes with polyhedral disks (SU 1313364, CL. A01B 43/00, 1982).

The main disadvantage of this device is the low intensity of the allocation of plant residues from the rock mass, since combing out the vegetation is based only on overcoming the last slope of the gutter. If the plant residues are clogged with soil, then they will roll off the side surface of the gutter along with the stones, moving along them along the axes, and then unload together with the stones from the separator.

The closest technical solution is a sorting-separating device made in the form of a trough of longitudinal parallel separating shafts with polyhedral disks placed on them in a checkerboard pattern. At the same time, clamping elements are made over the disks of the upper shafts of the trough, made in the form of elastic arcuate rubber bands, the ends of which are fixed to the frame, and the pressing elements are staggered. A reflective shield is mounted above the lower shaft. (SU 1759256, Cl. A01B 43/00, Bull. No. 33, 1992).

The main disadvantage of this device is the insufficient intensity of combing vegetation from the rocky mass. This circumstance is due to the passivity of the clamping elements, the operation of which is based on their deformation due to the movement of vegetation along the side of the gutter, which, in turn, is in reliable engagement with the disks, and comes under the clamping elements. In the case of insufficient engagement, the plant residues do not deform the arcuate elements, accumulating in front of them, and then roll together with stones from the steeply inclined surface of the gutter. This creates the conditions for the movement of vegetation along with stones along the gutter with their subsequent unloading. This situation leads to the need for further cleaning of the vegetation of stones in case of their use, for example, as a filler for cement-concrete or asphalt-concrete mixtures. In addition, insufficient separation of the stony mixture leads to a significant removal of soil and plant debris from the fields along with stones. The result of these negative phenomena is a decrease in the efficiency of separation of the components of the mixture and the performance of the separation process.

The objective of the utility model is the intensification (acceleration) of the process of combing vegetation from a rocky mass from the trough-like surface of a sorting-separating device.

The technical result of the utility model is to increase the productivity and quality of separation of plant residues from stones on a sorting-separating device.

The task and the technical result are achieved by the fact that in a sorting and separating device containing a reflective shield mounted on the frame, longitudinal parallel separating shafts with staggered polyhedral disks forming a trough and a clamping device placed above the disks of the upper trough shafts, according to a utility model, the clamping device is made in the form of drive parallel axes with elastic elements fixed on each axis in a checkerboard pattern and, while the elastic elements of the drive axes of the clamping device are located with a gap to the surface of the polyhedral disks of the upper shafts of the gutter.

This embodiment of the clamping devices provides intensive capture of vegetation by the elastic elements of the rotating axes to meet the rotation of the gutter disks. As a result, the elastic elements capture the vegetation, which prevents it from rolling, and together with the disks push it along the increasing side of the trough towards discharge from the upper shaft. This, in turn, leads to an accelerated movement of vegetation along the working surface of the polyhedral disks of the upper trough shafts, since elastic elements not only push the vegetation, but also press it to the surface of the rotating disks, increasing the adhesion of the latter to the vegetation.

The elasticity of the elements at the same time avoids the capture along with the vegetation of stone materials, which, under their own weight, roll off the trough, bending the elastic elements.

The staggered arrangement of rows of elastic elements on the drive axles provides the most dense zone of influence on the plant mass.

The location of the elastic elements with a gap to the end surface of the rotating polyhedral disks prevents premature wear of the elastic elements.

The utility model is illustrated by drawings, where in FIG. 1 shows a sorting and separating device, side view; in FIG. 2 is a section AA in FIG. one.

The sorting and separating device consists of a frame 1, on which longitudinally inclined parallel shafts 2 are installed with polyhedral disks 3 forming the side of the trough with increasing steepness. Shafts 2 are inclined relative to the horizon at an angle p. A reflective shield 4 is mounted above the lower shaft 2 of the chute, the lower part of which is made in the form of a comb, which is included in the gaps between the disks 3. Above the upper shafts 2 of the chute, clamping devices are installed in the form of drive axles 5 with elastic elements 6. Elastic elements 6 (pile) are fixed on the axes 5 in rows in a checkerboard pattern with overlapping relative to the elements 6 of the adjacent axes 5. Axes 5 are mounted with a gap of elastic elements 6 to the end surface of the polyhedral disks 3 of the shafts 2. Above the upper ends of the lower shafts 2 of the groove 7 become the loading tray.

Sorting-separating device, for example, a stone-harvesting machine, operates as follows.

The rocky mass from the tray 7 enters the inclined parallel shafts 2 with polyhedral disks 3, the surface of which forms the side of the groove with increasing steepness. When the rocky mass moves along the shafts, the rotating disks 3 pick up plant debris and move them in the direction of rotation of the shafts 2. As soon as the vegetation, having risen along the side of the gutter, falls into the range of pressure devices, the latter capture it with their elastic elements 6, while pressing it against the surface of the disks 3, and together with them reliably transport vegetation up to the discharge zone from the upper shaft 2 of the gutter-shaped surface. In this case, the elastic elements 6 push the plant residues in the direction of rotation of the disks 3 and prevent the plant mass from rolling down along the side of the gutter. After that, plant debris entered the upper shaft 2 of the gutter; they are discharged by disks 3 from the sorting-separating device to the field surface. Stones and lumps of soil, moving along the shafts 2, simultaneously rise along the side of the gutter to its upper shafts 2, above which drive axles 5 with elastic elements 6 are installed and begin to slide down, since the steepness of the gutter in this place exceeds their critical (maximum) angle of elevation which in the range of the pressure devices is more than 35 °. Rolling stones and soil lumps at the bottom of the gutter hit the reflective shield 4, which leads to additional impact on the soil lumps due to the impact interaction of the lump with the shield 4, and due to the impact of sliding stones on the soil lumps pressed to the shield 4. After that small particles of soil are sifted between the disks 3. At the same time, in the case of the interaction of a stone or soil lump on the upper shafts 2 of the trough with elastic elements 6, the latter will bend around these inclusions, practically without affecting the beginning of otsessa their rolling down the trough, because the rigidity of the elastic elements (nap) 6 smaller tilting force (rolling) of stones and clods of soil due to the increase in steepness of the chute.

So, the rocky mass, moving along the shafts 2 of the gutter, is constantly freed from soil lumps, which, being crushed under the influence of the disks 3, the reflective shield 4 and stones, are sifted between the disks 3, as well as from plant debris, which, having overcome the steepness of the gutter using rotating towards the disks 3 of the elastic elements 4 are dumped by the upper shaft 2 to the surface of the field. At the same time, clean stones roll down from the rotating disks of the lower shafts at the end of the gutter into the hopper of a stone picking machine or into a vehicle.

The implementation of the clamping devices located above the upper shafts of the gutter, in the form of drive axles disks rotating towards the rotation with rows of elastic elements fixed on them arranged in staggered axes with overlapping, can significantly increase the intensity (speed) of plant residues from the rock mass and beyond due to this, increase the performance of the sorting and separating device.

Claims (1)

A sorting-separating device of a stone-harvesting machine, comprising a reflective shield mounted on the frame, longitudinal parallel separating shafts with staggered polyhedral disks forming a gutter, and a clamping device placed above the disks of the upper gutter shafts, characterized in that the clamping device is made in the form of parallel driven axes with elastic elements fixed on each axis in a checkerboard pattern, while the elastic elements of the drive axes are pressed Many devices are located with a gap to the surface of the polyhedral disks of the upper shafts of the gutter.