SU894422A1 - Automatic sampler of powder materials - Google Patents

Description

(54) AUTOMATIC SAMPLE FOR POWDERED MATERIALS

I

The invention relates to the automation of processes for the control of physicochemical, particle size and other properties of powdered materials during the production or mass use of cement, raw meal, etc.

A device for automatic sampling of bulk powder materials transported by pneumatic transport and gravity feed 1 is known.

The disadvantage of the device is the low representativeness of the sample.

A sampler is known that contains sampling channels, intake heads, purge nozzles, ejectors, solenoid valves, a transport line and a precipitator.

In this device, when sampling, for example, on the first channel on other channels, the intake heads and transport lines are blown with compressed air. Purging is necessary to prevent material from other channels from entering the precipitator when sampling on one of the channels. This is explained by the fact that when sampling on one of the channels

in the paths of other channels due to ejection, a vacuum is created at the junctions of transport highways with a common channel, under which material from other channels passes through the intake heads and transport highways to the input of the precipitator, which reduces the representativeness of the sample 2.

However, when purging the intake heads, a significant consumption of compressed air is required, which reduces the economic efficiency of the device.

ten

In addition, the frequent switching on of pneumocommutation apparatus on channels where no sample is taken, idle consumes the working life of the apparatus, thus reducing the durability of the probe 5 of the sampler as a whole.

The purpose of the invention is to increase the reliability of the device.

The goal is achieved by the fact that in a sampler containing sampling channels, intake heads, purge nozzles, solenoid valves, ejectors, transport line and precipitator, each channel is provided with an additional transport line, and the sampler is equipped with a depressurizing coupling connecting additional transport lines to precipitator, and an additional ejector located at the outlet of the precipitator.

The drawing shows an automatic sampler for powdered materials from a free-falling stream.

The sampler contains a transport line 1, intake heads 2, purge nozzles 3, ejectors 4, solenoid valves 5, 6 and 7, additional transport lines 8, a precipitator 9 with an additional ejector 10 and a depressurization coupling 11.

The device works as follows.

At the command of sampling, for example, in the first channel, the supply voltage is supplied to the solenoid valves 6 of the first channel and valve 7. At the same time, the ejector 4 of the first channel creates a vacuum in the path of the intake head 2, under which the material is sucked and transported through line 8 to the precipitator 9. At the end of the sampling time, the solenoid valve 5 of the first channel is activated, and the compressed air, entering through the purge nozzle 3, blows the intake head and the transport line.

The work of the additional ejector 10 contributes to the creation in the inlet pipe of the precipitator of the necessary speeds of the air flow, which picks up the material coming from the transport main of the first channel.

At the end of the sampling time, the purge of the intake head and the first line transport solenoid valves 5, 6 and 7 are turned off.

Sampling on other channels is similar.

As a result of using the device, an increase in the service life of the sampler is achieved, the economic efficiency of its operation is increased due to a reduction in the consumption of compressed air.

Technical and economic efficiency is determined by the fact that with the specified design of the sampler and sampling on one of the channels in the other channels there is no discharge, therefore there is no material, which removes the need to blow the channels with compressed air.

Claims (2)

1. Author's certificate of the USSR 264765, cl. G 01 N 1/20, 1965. 2. Authors certificate of the USSR 645052, cl. G 01 N 1/20, 1976.