SU805131A1 - Pulp concentration pickup - Google Patents

Description

The invention relates to devices for measuring the concentration of a fiber suspension and can be used in the proliferation of building materials and pulp and paper industry. A device for measuring the concentration of fibrous suspension in pressure pipelines is known, consisting of a movable sensing element, a hinged sealing assembly with a housing and an electrical measuring system, and it further contains a thermal element compensation circuit, with a hinge-sealing assembly has a hole in which a thermoelement is located, the output of which is connected to the housing of the hinge-sealing unit, and the other outlet through the bushing is connected to Thermally arranged thermal scheme The closest to the invention in its technical essence is a device for measuring the concentration of a fibrous suspension containing a dissector, a receiving element in the form of a plate, a transfer system and a measuring device, in which the plate is made with transverse slits 2. measurements caused by the influence of turbulence in the flow of the suspension, as well as the sticking of fibers in the gap between the reflector and the plate. The purpose of the invention is the improvement of measurement accuracy. The goal is achieved by the fact that in a device containing a sensing element, a divider, a transfer system and a measuring device, the sensing element is a horizontal and vertical plate intersecting at a right angle in the middle line, the last of which has a shank made in the form of a hinged a spring-loaded two-arm lever, one shoulder of which forms a protrusion, and the other is connected via a mechanical flexible coupling with a measuring device, with the forehead va sensing element portion is shielded splitter made in the form kolenoobraz th segment tube.

1 shows a diagram of the sensor in figure 2 a section aa in figure 1; on fig.Z - perceiving element in isometric, general view.

The pulp concentration sensor contains a measuring device 1 mounted with the help of a flange 2 on the pipe 3 and a sensing element 4 placed in a stream of crushed pulp slurry and loose waste paper. The sensing element 4 is connected to the measuring device 1 by means of a lever 5, pivotally mounted inside the flange 2.

The perceived element 4 is made in the form of vertical and x-horizontal plates 6 intersecting along the centerline and arranged perpendicularly relative to each other. At the end of the vertical plate 6, a shank is installed, made in the form of a two-arm lever 7, one of the arms of which forms a protrusion of the vertical plate 6 creating a negative compensation moment, and a drive cable 8 connected to the measuring device and passing through a channel in the plate 6 and a lever 5 of the dispensing device 1. The lobic part of the receiving element 4 is enclosed in a knee-shaped tube 9 attached to the conduit 3 and serves to prevent the fibrous material from sticking to the part and the prevention of flow shock. .

The sensor works in the following way. .

With the passage of the flow of fibrous mass through the pipeline, 3 as a result of the three mass particles on the side surface of the sensing element 4, the sensing element 4 slightly displaces relative to the axis of the pipe 3. The magnitude of this displacement is directly proportional to the concentration of the fibrous mass. At the same time, the sensing element 4 acts by means of the hardness loop 5 on from || the numerical device 1, giving the output signal corresponding to the value of the concentration of the fibrous suspension. The presence of a horizontal plate b in the sensing element 4 is caused by the need to increase the useful area of contact of the fibrous mass with the sensing element 4. In addition, the horizontal plate b makes it possible to stabilize the operation of the element itself by reducing its mechanical self-oscillations caused by intermittent operation of the mass pumps and turbulence of the flow of fibrous mass in the pressure pipe.

For different speed ranges of the pulp flow, the shank 7 is set at a certain angle by loosening or tensioning the mechanical link 8, because the departure of the shank affects the green force of the friction mass about the susceptible element 4. At large speeds of mass movement, the departure of the shank increases, this increases the resultant component, which is determined by the increase in friction of the mass of the tail and the directional view,

As a result, the perceptual element returns to the zone of optimum control range. The clumps of pulp that adhere to the protruding shoulder of the two shoulders lever 7, with a stream of suspension when it is lowered into a horizontal position.

Claims (2)

1. Author's certificate of the USSR 607867, cl. D 21 F1 / 08, 1976. 2. USSR author's certificate number 360559, cl. About 21 F 1/08 (prototype). / /. five one Phil/ Phie.g Fig.)