SU1368697A1 - Apparatus for automatic sampling and analysing of pulp samples - Google Patents

Abstract

The invention relates to the design of pulp sampling plants, can be used in the mining industry at concentrating mills, in automatic and automated systems for controlling the quality of products of the concentrating technology and improves the efficiency and accuracy of analysis by separating the solid phase of constant volume and humidity. pulp - as well as ensure the representativeness of the selected pulp. The device includes a command unit, a sampler, a pneumatic actuator, valves, a housing and a vacuum line connected to it, a former located in front of the sampler a conical net glass. The glass is rigidly mounted on the bottom of the case. Wash nozzles are directed at an acute angle to the surface of the mesh cup. The sampler is installed in the lower part of the body and is provided with an elastic seal with a hinge. 2 hp f-ly, 3 il ... with (L

Description

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The invention relates to the design of sampling plants, pulp and can be used in the mining industry at the processing plants in automatic and aBTojya automated systems for the quality control of products of the beneficiation technology.

A gap in the elastic seal 4 is formed by rotating the hinge 3 (figure 2) along the lower half of the elastic seal 4, which is rigidly connected to the sampler 1. Through this slot and the hard part of the pulp that filled the mesh cup 9, atmospheric air is sucked through

The aim of the invention is to increase the dehydration of the sample and the uniqueness of the efficiency and accuracy of the analysis due to the removal of the solid phase of constant volume and moisture from the pulp, as well as to ensure the representativeness of the sample taken.

FIG. 1 shows the device, a general view; in fig. 2 - elastic seal; in fig. 3 - the same, in the open position.

The device consists of a sampling - 20 SPIRIT on a pneumatic actuator 5, while

Nick 1, installed in the lower part of the housing 2 and connected to it “by means of a hinge 3 with an elastic seal 4, a pneumatic actuator 5 with 6 t 6, a measuring cup 7 with a radioisotope sensor placed in it. 8, a conical-shaped mesh cup 9, made in the form of a lattice of vertical rods 10, covered with a finely meshed net, and rigidly installed with a seal on the bottom of the housing 2, washing nozzles 11, valves 12-14, a former 15, made in the form of a tank, equipped with a pipe 16 with a tangential pulp feed, command device 17, sealing gaskets 18 - 20.

The device works as follows.

From the command device 17 receives a signal to open the valve 12, which includes a vacuum. The pulp through the sampler 1 of the former 15 is drawn into the mesh cup 9, while the liquid part of the pulp passes freely through the mesh of the mesh cup 9, and the solid particles are retained and gradually fill the entire cavity inside the mesh cup 9. After it is filled with the solid phase of the pulp, the command device 17 provides a signal to the valve 13, and that to the pneumatic actuator 5, which by means of the cable 6 deflects the sampler 1 connected to the housing 2, the hinge 3, and in the elastic seal 4 a gap is formed.

the liquid part of the pulp is temporarily removed into the cavity of the net glass 9 from the former 15. The sample is ready for measurement. After measuring 15 samples with a radioisotope sensor 8 placed in the measuring cup 7, the command device 17 sends a signal to close the valve 12 of the vacuum line and the supply valve 13 to return the sampler 1 to its original position (elastic seal 4). signal is given

25 and to the valve 14 for supplying water to the flushing of the device as a whole. The solid part of the pulp, which is located in the mesh 9, is liquefied by the pressure of water created in the housing 2 through

30, the sampler 1 is discharged into the former 15, after which the cycle is repeated.

The complete filling of the retention bed of the cana 9 with the solid phase of the pulp is provided as follows. After the signal from the command device 17 arrives at the opening of the valve 12, which includes a vacuum, the pulp through the sample 40, the intake 11 from the former 15 is drawn inside the mesh cup 9, while the liquid part of the pulp passes freely through the mesh of the mesh cup 9, and the solid particles are drawn

45 live inside the mesh cup 9 and gradually fill its entire internal cavity. The time of the open state of the valve 12 is chosen so as to guarantee 50 filling of the internal cavity of the mesh cup 9 with a solid pulp phase. The liquid phase of the pulp through the wall of the net glass 9, the pipe located in the lower part of the body

552, and the valve 12 is sucked into the vacuum line, where it is captured by corresponding known devices, such as, for example, a trap and hydraulic lock.

The sample is dehydrated when a slit is formed in the elastic seal 4. After the entire inner cavity of the mesh cup 9 is filled with solid pulp phase, the command device 17 sends a signal to the valve 13 and that to the pneumatic actuator 5, which by means of the pull 6 deflects the sampler 1, while in the elastic seal 4 a gap is formed. The pulp, which is located in the sampler 1, is discharged into the former 15, and through the formed in the elastic

Compaction 4 slit and sample, located - 15 sampling and analysis of the solid phase Pulp

increase the efficiency and accuracy of the analysis by separating the solid phase of constant volume and moisture from the pulp, eliminate the crystallization of 20 samples in the sampler, and ensure the representativeness of the sample taken.

In the mesh beaker 9, which represents the solid phase of the pulp, is removed from the atmosphere, since the valve 12 connecting the inside of the housing 2 to the vacuum main is still open and, consequently, vacuum remains inside the housing 2. The presence of a discharge is due to the fact that the solid phase of the pulp, which is located in the cavity of the mesh cup 9, creates a certain resistance to the passage of atmospheric air through the gap in the elastic seal 4 and the solid phase of the pulp in the cup 9. The sucked air cannot produce mixing of the sample, located in the net glass 9, since the entire inner cavity of the glass 9 is filled with solid particles tightly adjacent to one another.

The use of a complex mechanism to overlap the bottom of the housing 2 is due to the fact that it is necessary to form a gap in the elastic seal 4. This gap is needed for two purposes: to stop the pulp, or rather its liquid phase, from entering the cavity of the mesh 9 after it has been filled with solid particles; to ensure that atmospheric air is drawn through the sample in order to dehydrate it to a certain humidity.

Sealing gaskets 18 serve to seal the cavity formed by the mesh cup 9 from the rest of the volume of the housing 2. In addition, the gaskets 18, like the gasket 20, serve to seal the housing 2 from the external environment. Feed pipe 16, pulp in the formula of the invention

25 1, A device for automatic sampling and analysis of pulp samples, including a command unit, a sampler, a pneumatic actuator, valves, a housing, and a vacuum magic connected to it

30 is characterized in that, in order to increase the efficiency and accuracy of the analysis due to the separation of the solid phase of constant volume and humidity from the pulp, as well as

35 of the representativeness of the sampled sample, the body is equipped with a mesh cup rigidly mounted on its bottom and a measuring vessel with a sensor placed in the upper part of the mesh cup, and a sampler is installed in the lower part of the body, provided with an elastic seal with a hinge and a throttle connecting the sampler with the pneumatic actuator .

45

2. The device according to claim 1, characterized in that the mesh cup is made conical, provided with flushing nozzles placed

50 at an angle of 70-75 ° to the generatrix of the mesh glass.

3. A device according to Claim 1, characterized in that it additionally contains a driver 55 with a tangential pipe for introducing a sample.

368697

 The body 15 is installed in such a way that a circular pulp movement is created in the shaper 15, which contributes to its better mixing after the fractional dissipation in the pipeline, the shaper design provides high representativeness of the sample taken.

10 The application of the invention allows to expand the use of the radioisotope analyzer of potassium in enrichment products, to ensure the possibility

Invention Formula

1, Device for automatic sampling and analysis of pulp samples, including a command unit, a sampler, a pneumatic actuator, valves, a housing, and a vacuum magic connected to it

A rake, characterized in that, in order to increase the efficiency and accuracy of the analysis due to the separation of the solid phase of a constant volume and humidity from the pulp, as well as

The representativeness of the selected sample, the body is equipped with a mesh cup rigidly mounted on its bottom and a measuring vessel with a sensor placed in the upper part of the mesh cup, and a sampler is installed in the lower part of the body, equipped with an elastic seal with a hinge and a connecting piece with an air-driven sampler.

2. The device according to claim 1, characterized in that the mesh cup is made conical, equipped with ryamochnye nozzles placed

at an angle of 70-75 ° to the generator of the mesh cup.

3. The device according to Claim 1, in that it additionally contains a sample former with a tangential inlet.

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 FIG

FIG. 2

Claims (3)

SUMMARY OF THE INVENTION ²⁵ 1. Device for automatic sampling and analysis of pulp samples, including a command unit, a sampling device, a pneumatic actuator, valves, a housing and a vacuum magel connected to it, characterized in that, in order to increase the efficiency and accuracy of the analysis by isolating the solid phase constant volume and humidity from the pulp, as well as providing representativeness of the selected sample, the casing is equipped with a mesh cup rigidly installed at its bottom and a measuring cup placed in the upper part of the mesh cup su40 house the sensor, and probozabornik mounted in the lower housing portion is provided with an elastic seal and with the hinge rod connecting sampler pneumatically. 2. The device according to claim 1, characterized in that the mesh cup is made conical, equipped with flushing nozzles placed 50 at an angle of 70-75 ° to the generatrix of the mesh cup. 3. The device according to claim 1, characterized in that it further comprises a shaper pro 55 would be with a tangential test port. '1368697 Fig.Z