RU48632U1 - DUST SAMPLING DEVICE FROM DUST AND GAS FLOW - Google Patents

Abstract

The utility model relates to measurement techniques, namely, devices for sampling dust from a dust and gas stream and can be used in the construction materials industry, mining, metallurgy, coal industry and other sectors of the economy where dust samples are taken from dusty gas flow. To improve the representativeness of the dust sample from the dust and gas stream, a device is proposed that includes a suction pipe made in the form of a hollow body, a cylindrical tip with a suction channel, rigidly detachably connected to a suction pipe, the end of which is connected by a hollow connecting device with a filter, rotameter and blower in series. In this case, the intake pipe is made of two parts of the upper and lower connected to each other with the possibility of changing the position of the upper part relative to the lower. The upper part of the tube is equipped with a stabilizer made of flexible material, fixedly mounted on its back side, and the cavities of the intake channel of the cylindrical tip, the upper and lower parts of the intake pipe are communicated with hollow elastic devices, forming a dust extraction path.

Description

The utility model relates to measurement techniques, namely, devices for sampling dust from a dust and gas stream and can be used in the construction materials industry, mining, metallurgy, coal industry and other sectors of the economy, where dust samples are taken from dusty gas flow.

Known for special traps containing a housing, filter, ejector. Gas with dust is sucked through the traps and, based on the difference in the mass of the trap filter, the dust content of the gas is established before and after dusting (see M.Ya. Yudashkin Dust collection and purification of gas in the iron and steel industry. - M .: Metallurgy, 1984, p. 82) - analogue. The disadvantage of this device is that the traps are functional only at gas speeds of more than 4 m / s and gas dust content of at least 50 mg / m ³ , this narrows the scope of the latter.

The closest in technical essence and the achieved result to the proposed device is a device for determining gas dust - a device for sampling dust from a dust and gas stream, including a sampling pipe made in the form of a hollow body, a cylindrical tip with a sampling channel, rigidly detachably connected to the sampling pipe , the end of which is communicated by a connecting device with a filter, rotameter and blower installed in series (see M.Ya. Yudashkin "Gas purification in metallurgy", M., Metallurgy, 1976, p.99-103) - prototype.

The known device does not provide the actual representativeness (actual quantity and dispersion) of the dust sample taken, since there are no orientation elements of the axis of the intake channel of the cylindrical tip in the direction of the gas flow, and when the inlet is deflected

(intake channel) from the axis of the flow, the dust content will be underestimated, and the deposited dust will be fine (R.K. Velitsky et al. "Measurement of parameters of dust flows in the iron and steel industry. - M., Metallurgy, 1979, p. 53).

The objective of the utility model is to improve the representativeness of the dust sample by increasing the accuracy of the installation of the axis of the intake channel of the cylindrical tip in the direction of the axis of the gas stream.

To achieve the task, a device for sampling dust from a dust and gas stream, including a sampling pipe made in the form of a hollow body, a cylindrical tip with a sampling channel, is rigidly detachably connected to a sampling pipe, the end face of which is connected by a hollow connecting device with a filter, rotameter and blower according to the proposed solution, the intake pipe is made of two parts - the upper and lower, movably connected to each other to ensure changes in the floor In this case, the upper part of the tube is equipped with a stabilizer made of flexible material and fixedly mounted on its back side, and the cavities of the intake channel of the cylindrical tip, the upper and lower parts of the intake pipe are communicated with hollow elastic devices, forming a dust sampling path.

A device for sampling dust from a dust and gas stream is shown in the figure. In FIG. shows a General view of the device, figure 2 shows a view a of figure 1.

The device consists of the upper part 1 of the intake tube, a cylindrical tip 2 with the intake channel 3, rigidly detachable, for example, a thread connected to the upper part 1 of the intake tube, a stabilizer 4 made of flexible material, for example, rubber in the form, for example, of two mutually perpendicular triangular-shaped plates with a narrow end fixed, for example a screw, fixed on the back of the upper part 1 of the intake pipe, lower part 5

intake pipe. The upper part 1 of the intake tube is movably connected to the lower 5 to ensure a change in the position of the upper part relative to the lower. This condition is carried out, for example, by suspension 6, made, for example, in the form of spherical supports (see N.I. Artobolevsky "Mechanisms in modern technology" T.1, M. Nauka, 1979, pp. 23-24, 37-41) connecting the upper 1 and lower 5 parts of the intake pipe. The lower part 5 of the intake pipe is communicated with a hollow connecting device, for example a rubber hose, with a filter 7, a rotameter 8 and a blower 9 installed in series. The cavities of the intake channel 3 of the cylindrical tip 2, the upper 1 and lower 5 parts of the intake pipe are communicated with hollow elastic devices 10 and 11, for example, two PVC pipes so that the top 10 of them with its sharp edge 12 enters the bottom, and the communicated cavities form a dust sampling path.

The device operates as follows. Through the hole in the pipe, the dust intake pipe is introduced into the gas duct (not shown in the figure), while the stabilizer 4, bending in its narrow part, attached to the rear side of the upper part 1 of the intake pipe, passes into the gas duct opening, without requiring an increase in the opening. The gas flow, acting on the stabilizer 4, turns the upper part 1 of the intake pipe relative to the lower part 5 in the suspension 6 so that the intake channel 3 of the tip 2 is perpendicular to the incoming gas flow. The gas sucked out by the blower 9, with dust particles enters the intake channel 3 of the tip 2, passes through both parts of the intake pipe 1 and 5 (through the elastic tubes 10 and 11, respectively) and enters the filter 7, on which dust particles settle, and clean air passes through a flowmeter 8, measuring the flow.

The application of the proposed device allows you to perform self-orientation of the tip of the intake pipe with a previously unknown direction of gas flow, which will automatically

perpendicularity of the plane of the intake channel to the flow lines of the gas stream, as well as the correspondence of the axis of the intake channel to the velocity vector in case the vector changes its position in space and time, which is present in some technological processes and devices.

Compared with the prototype, the proposed device allows to increase the representativeness of the dust sample by increasing the accuracy of the installation of the intake pipe in the direction of gas flow, and also provides the ability to take measurements in flows that change the direction of movement in space.

Claims (1)

A device for sampling dust from a dust and gas stream, including a suction pipe made in the form of a hollow body, a cylindrical tip with a suction channel, rigidly detachably connected to a suction pipe, the end of which is connected by a hollow connecting device with a filter, rotameter and blower installed in series, characterized in that that the intake tube is made of two parts - the upper and lower, movably connected to each other to ensure a change in the position of the upper part relative to the lower, when the upper part of the tube is equipped with a stabilizer made of flexible material and fixedly mounted on its back side, and the cavities of the intake channel of the cylindrical tip, the upper and lower parts of the intake pipe are communicated with hollow elastic devices, forming a dust sampling path.