SU750322A1 - Device for sampling loose material samples from a flow - Google Patents

Description

The invention relates to devices for sampling from a stream of bulk material. A device for sampling bulk material is known, in particular from a stream, comprising a cylindrical body and a sampling body disposed therein, made in the form of a container with an aperture connected to its movement relative to the body p. . In this device, inside the container, the sampling unit is installed with the possibility of relative movement of the rod with two pistons for transporting the sample to the collection sample. Closest to the proposed one, there is a device for sampling a bulk material from a stream, containing a cylindrical tank and a sampling body placed in it, made in the form of a container with an opening connected to a pneumatic actuator of its movement relative to the housing 2. The sampled bulk material in this device is removed from the container to the collection using compressed air. A disadvantage of the known devices is that as a result of the sampling of the bulk material without isolating the most stable and characteristic fraction, the reliability of the research of the test material is reduced due to the distortion of the results by random errors. The aim of the invention is to increase the reliability of sampling by extracting representative samples from a stream of bulk material. This goal is achieved by the fact that the device is equipped with a sampling device, made in the form of two rows arranged one above the other parallel rods, and a plate, with one end of each of the rods attached to the plate and the other on a cylindrical housing made with windows and connected to pneumatic actuator. In addition, the device is equipped with a sample accumulator located above the sampler and made in the form of one profile and two flat partitions, while the flat partitions are installed coaxially with each other.

to a friend and interconnected by means of an annular spring, and one of them is connected to a pneumatic actuator.

FIG. 1 shows the proposed device; general form; in fig. 2 device, a section in the position corresponding to the filling of the sample accumulator with bulk material; in fig. At the same time, in the position corresponding to the supply of bulk material from the accumulator to the sampler; in FIG. 4, in the position corresponding to the flow of the sample of loose material into the body of the sampling body; in fig. 5 shows a section A in FIG. four; in fig. b - the same, in the position of transportation of the sampled bulk material to the collection sample.

The device consists of a cylindrical body 1 with windows 2, connected through a lever 3 with a pneumatic actuator 4 (pneumatic actuators shown in Fig. -2-6 conventionally) of its rotation, installed in the housing 1 with the possibility of relative movement of the sampling element, made in the form of a container 5 with a hole 6 connected to a pneumatic actuator, an extractor of samples made in the form of two rows 8 and 9 arranged parallel to each other 10 rods 10, one end of each of which is fixed on the plate 11 and the other on the case 1, and the storage device b, located above the sampler and made in the form of one profile 12 and two flat 13 and 14 partitions, with flat partitions 13 and 14 fixed on the axes 15 and 16 respectively coaxially to each other and interconnected by means of an annular spring 17 fixed on the axis 15 of the flat partition 13 and abutting against the plate 18, mounted on the axis 16 of the other flat partition 14, and plrs the partition 13 by means fixed on its axis. 15 lever 19 is connected with the pneumatic actuator 20 of its rotation.

The device has a vibrator 21 to improve the conditions for pouring material from the sample accumulator and the pneumatic line 22 for transporting the sampled sample to the sample collection, and for controlling the pneumatic actuators 4, 7 and 20, the vibrator 21 and the pneumatic line 22 from the control unit 23, electropneumatic valves 24-28 a also the pipeline 29.

The operation of the device is as follows. The device is installed in the material line 29. Before each sampling of the bulk material, the device is cleared of the remnants of the previous sample. At the same time, according to the signal from the electropneumatic valve., 24 pneumatic actuator 4 through

the lever 3 connected to the cylindrical body 1 lifts the fraction extractor to the upper position, and the signal from valve 25 causes the actuator 7 to take the sampling valve - container 5 from the loading zone in the material line 29. The pneumatic actuator 20 sends a signal from valve 26 through lever 19 connected to axis 15 of the flat partition 13, acts on the axis 16 of the other flat partition 14 through the annular spring 17 and the plate 18. As a result, the partition 14 is pressed against the wall of the material pipeline 29 and prevents the flow of bulk material wire 29 in the sample storage device.

Through cKBOBHbfe of window 2 in housing 1, residues of material that are trapped in the plane of the sample accumulator and in the sample separator are poured into the conduit 29, i.e. back into the material flow, without being delayed inside the housing 1.

Then, by a signal from the valve 24, the pneumatic actuator 4 rotates the sample extractor to its original position, while the sample separator plate 11 is pressed against the wall of the material line 2. The valve 28 supplies compressed air to the pneumatic line 22, thereby moving the container 5 through the pneumatic line 22 to the loading zone.

On a signal from the valve 26, the pneumatic actuator 20 rotates the axis 15 of the flat-septum 13 of the sample accumulator through the lever 19, which at the same time presses its lower edge to the lower edge of the profile partition 12. Together with the axis 15, the annular spring 17 rotates and rests with its lower end on the plate 18, mounted on the axis of the flat partition 14, as a result, the partition 14 rises, and the flow of material passing through the material guide 29 fills the cavity of the sample accumulator.

Further on, a signal from the valve 26 transfers material from the accumulator

in the sample extractor, while the pneumatic actuator 20 draws the flat partition 13 down, and the valve 27 turns on the vibrator 21, the large fraction of the material remains on the upper row of 8 rods 10, the median in the sample selector, on the lower row of 9 rods 10, and the small one returns in the pipe 29.

The discharge of the separator is unloaded according to the signal from the valve 24. At this, the pneumatic actuator 4 rotates the sampler around its axis to the upper position and the material of the specified fractional composition separated on it through the windows 2 of the housing 1 is poured into the container 5.

The upper row of 8 rods 10 is freed from a large fraction of the material, which when rotating the sample allocator,

as well as, the fines material returns to the material line 2.

Then, on a signal from the valve 24, the pneumatic actuator 4 returns the sampler to its original position, and the valve 27 stops the operation of the vibrator 21.

The pneumatic actuator 7, by the signal of the valve 25, moves the container 5 with the sampled material to the pneumatic line 22, in which it moves to the sample collector under the action of compressed air supplied by the valve 28.

After unloading the container 5 from the sampled cycle, testing of the flow of bulk material is repeated.

Claims (2)

Claim 1. Sampling device from a stream of bulk material, comprising a cylindrical body and a sampling body disposed therein, made in the form of a container with an opening, connected to a pneumatic actuator, moving relative to the body, in order to increase the reliability of sampling due to extracting from the flow of bulk material a representative sample of a given fraction, it is equipped with a sample separator, made in the form of two rows of parallel rods arranged one above the other and plate, with one end of each of the rods attached to the plate, and the other fixed to the cylindrical body, made with windows and connected to 0 pneumatic actuator. 2. The device according to claim 1, which is supplied with a sample accumulator located above the sample extractor and made in the form of one profile and two flat partitions, wherein the flat partitions are installed coaxially with each other and interconnected by ring spring ,, 0 and one of them is connected to a pneumatic actuator. Sources of information taken into account in the examination 1. USSR author's certificate 5 No. 134910, cl. Q 01 N 1/20, I960. 2. US Patent 1,355,910, cl. 73-422, published. 1969 (prototype) / // / J sixteen W