SU1516884A1 - Apparatus for continuous checking of structural and mechanical properties of viscoplastic materials on moving surface - Google Patents

Abstract

The invention can be used to continuously measure and control the structural and mechanical properties of a flexible material on a moving surface. The purpose of the invention is to provide authenticity at various thicknesses of the controlled material. The device comprises an element sliding over the surface of the moving material and an indenter, which is under the action of gravity in a state pressed into the layer of material. In this case, the indenter lead and the transducer are mounted on the element so that the starting point of the amount of indentation of the indenter into the material is the surface of the material. The element is located in front of the indenter as the material moves. When the structural-mechanical properties and / or thickness of the material change, the indenter and the element rise or fall and, by means of lever rods, act on transducer sensors that produce signals proportional to the displacements of the indenter and element. 1 il.

Description

and a transducer transducer 8, which is acted upon by lever lever ha 5, is used to measure and control the movements of element 1. Spanner 2 with a leash in the form of a lever 9 is articulated with element 1 via node 10. Counterweight P serves to balance the indenter 2, and the transducer 12, which is acted upon by lever lever 9, is used to measure and control displacements of the indenter 2,

The device is suspended above the visco-plastic material 13 located on the moving surface 14.

The device works as follows.

When the surface 14 moves, the sensing element hits a layer in the plastic material 13 and slides along its surface. In this case, the unbalanced mass of the sensing element 1 ensures its reliable contact with the surface of the material 13, preventing the material layer from compacting. By lever lever 5, when it is rotated by angle d, element 1 is raised to the stem of converter transducer 8, which produces a signal proportional to the angle c / or, which is the same thickness of the material layer h. Following the sensing element 1, the indenter 2 rolls over the layer of material 13, immersed in the material to a depth LL, depending on the size of the unbalanced mass of the indenter and the structural and mechanical properties of the coplastic material of a given thickness. With lever lever 9 when it is turned through an angle of / 5, the indenter 2 acts on the value L of the stroke of the sensor transducer 12, which produces a signal proportional to the depth L of the indenter to be immersed in the material.

When the thickness of the layer hj is changed, in the plastic material 13, the element 1 sliding on its surface and the indentor 2 either descend or rise. Moreover, if the structural and mechanical properties of the plastic material do not change, the magnitude of L / L (remains constant. Moving element 1 leads to a change in the angle of inclination w of lever link 5 acting on the transducer 8 transducer. to a change in the angle of inclination / 9 of the leash in the form of lever rod 9, acting on the 4 stroke of the sensor transducer 12, which produces a signal proportional to the depth of the 4h indenter

2 to material 13.

When the structural and mechanical properties of the material 13 change and the thickness of its layer remains unchanged, the depth of indentation of the indenter 2 changes.

material 13, respectively, changes the angle of inclination ft of the lever rod 9 and its effect on the value L of the stroke of the sensor transducer transducer 12. The position of the rod of the sensor transducer 8 of the element and the angle of inclination of the lever rod 5 remain unchanged.

The proposed device provides continuous measurements in control.

structural and mechanical properties of visco-plastic material of variable thickness on a moving surface; in particular, this device can control the operation of belt filters when dehydrating various materials. The device can be used in an adaptive control system for the operation of belt filters and provide optimal conditions

their work.

Claims (1)

Invention Formula Device for continuous control of structural and mechanical properties, in plastic materials on a moving surface, including an indenter with a leader connected to a counterweight and associated with a displacement sensor, characterized by the fact that, in order to ensure reliability at different thickness of the controlled material, it is additionally equipped with an element installed with the possibility of its sliding on the surface of the controlled material before the indenter and the connected second leash with the second displacement sensor and the second counterweight, with the end of the leash of the indenter with 55 a counterweight and a displacement sensor mounted on the slide element.