RU180404U1 - Stand for determining the properties of bulk materials (options) - Google Patents

Abstract

The utility model relates to measuring and testing equipment, can be used to determine the properties of bulk materials under the influence of various external conditions in the agricultural, chemical and other industries. The stand contains a housing, a loading hopper, a guide plate, a test chamber, a purge chamber, a fan, sensors, and a control panel. The technical result consists in the possibility of studying the influence of the method of supplying bulk material into the test chamber, depending on its physical and mechanical properties, the behavior of the bulk material in the test chamber in the free state of its layer, as well as the aerodynamic resistance of the layer of bulk material. 2 ill.

Description

The utility model relates to measuring and testing equipment, can be used to determine the properties of bulk materials under the influence of various external conditions in the agricultural, chemical and other industries.

A device for determining the angle of repose of powder materials is known, containing a funnel, bases, and a rack (patent RU 2528564, B22F 1/00, G01B 5/24).

The disadvantage of this setup is the inability to determine the angles of repose in motion and under the influence of external factors.

Known Mering-Baranov device for determining the dynamic angle of repose, containing the spatial angle, cylindrical channel, funnel, hopper, goniometer, tripod (Kouzov, P.A. Methods for determining the physicochemical properties of industrial dusts / P.A. Kouzov, L. Y. Skryabin - L .: Chemistry, 1983. -143 s: ill., S.79-80).

The disadvantage of this device is the limited functionality, the inability to consider the influence of external factors.

A device for studying the aerodynamic drag of a layer depending on its state, comprising a rectangular casing, a fan connected to the casing by means of an air duct, a sensor for measuring air flow and a static voltage sensor (patent RU 65629, F26B 9/06).

The disadvantage of this device is the impossibility of considering the research process when the layer is at an angle to the horizontal and in motion.

A device for determining the resistance of fibrous materials to air flow, containing a fan, measuring instruments, as well as a vessel for laying samples made perforated on all sides and enclosed in a casing covering its sides (A.S. USSR 202562, B28B 1/52, G01N 3/02).

The disadvantage of this device is the limited functionality when conducting research

A device for studying the aerodynamic drag of plant materials, comprising a rectangular casing, a movable cassette for sampling the test material, a fan connected to the casing by means of an air duct, a sensor for measuring air flow and a static pressure sensor (patent SU 1190163, F26B 9/06 , F26B 21/04).

The disadvantage of this device is the limited functionality during research, which allows to determine the aerodynamic resistance of the material layer without taking into account its properties: density, porosity, as well as the change in these properties under the influence of air flow.

The closest in essence and the achieved result to the claimed stand is a device for studying the aerodynamic resistance of a layer depending on its state, containing a rectangular casing, a fan connected to the casing by means of an air duct, a sensor for measuring air flow and a static voltage sensor (RU patent 65629, F26B 9/06).

The objective of the utility model is to provide studies on the effect of the method of supplying bulk material into the test chamber, depending on its physical and mechanical properties, the behavior of the bulk material in the test chamber in the free state of its layer, as well as the aerodynamic resistance of the layer of bulk material.

There are two options for solving these problems with a useful model.

According to the first embodiment, the stand (Fig. 1), consisting of a frame with a housing 1, contains a storage hopper 2 with an outlet in the lower part 3 closed by a valve 4 and a guide plate 5 of length N. The bottom of the loading hopper 6 is located at an angle α to a horizontal plane, equal to the maximum angle of repose of bulk material. In the housing 1 there is a technological hole 7, for output of air passing through the test chamber 8, equipped with an anemometer 9 and a gas analyzer 10. The test chamber 8 is formed by one replaceable perforated plate 11, with a connected sensor-protractor 12, with the ability to independently change the angle of inclination to the horizontal plane replacement with a plate of another material or with a different perforation. Above the perforated plate 11, air pressure sensors 13 and speed cameras 14 are installed to determine the degree of heterogeneity, fractional composition and clogging of foreign particles of bulk material. The test chamber 8 is also equipped with an adjustable discharge opening 15 which is covered by an adjustable slide gate 16. Under the perforated plate 11, a purge chamber 17 is sealed to guide the air flow under the perforated plate 11. The fan 18 is installed in connection with the purge chamber 17 in the lower part, through a hermetically connected diffuser 19 equipped with an air pressure sensor 13. A control panel 20 is installed on the housing 1 of the stand.

The stand for determining the properties of bulk materials, according to the first embodiment, works as follows. After filling the storage hopper 2 with bulk material, turn on the fan 18. Air is supplied under the perforated plate 11 through the purge chamber 17, after passing through the test chamber 8, air enters the atmosphere through the process hole 7 in the housing 1, at this time the anemometer 9, pressure sensors air 13 and gas analyzer 10, take the indicators of the exhaust air and transmit the results to the control panel 20. When the air reaches the required parameters in the test chamber 8, open the valve 4 of the exhaust outlet 3 of the storage hopper 2. Bulk material along the guide plate 5 enters the test chamber 8, closed by an adjustable slide gate 16. Under the perforated plate 11 through the purge chamber 17 air continues to be supplied by the fan 18, after passing through the test chamber 8 and the layer of bulk material, air enters the atmosphere through the technological hole 7 in the housing 1, data continues to be output to the control panel 20, speed cameras 14 begin to work. After the bulk material fills the volume of the test chamber 8, the study is carried out for 2-5 minutes, then the slide gate 16 is opened, while moving the bulk material through the discharge opening 15, the reading continues until the storage hopper 2 and the test tank are completely empty chamber 8. After this, the studied material is changed, which is again filled in the storage hopper, while the perforated plate changes to a plate with a different perforation, the installation angle to the mountains is changed Isontal or change the fan operation parameters, clean the lenses of high-speed cameras.

According to the second option, the stand (Fig. 2) consisting of a frame with a housing 1 contains a storage hopper 2 with an outlet in the lower part 3 closed by a valve 4. The bottom of the loading hopper 6 is located at an angle α to a horizontal plane equal to the maximum angle of repose of the bulk material as well as an adjustable plate 21, of length L, which changes the movement of the flow of bulk material is fixed. In the housing 1 there is a technological hole 7, for output of air passing through the test chamber 8, equipped with an anemometer 9 and a gas analyzer 10. The test chamber 8 is formed by one replaceable perforated plate 11, with a connected sensor-protractor 12, with the ability to independently change the angle of inclination to the horizontal plane replacement with a plate of another material or with a different perforation. Above the perforated plate 11, air pressure sensors 13 and speed cameras 14 are installed to determine the degree of heterogeneity, fractional composition and clogging of foreign particles of bulk material. The test chamber 8 is also equipped with an adjustable discharge opening 15 which is covered by an adjustable slide gate 16. Under the perforated plate 11, a purge chamber 17 is sealed to guide the air flow under the perforated plate 11. The fan 18 is installed in connection with the purge chamber 17 in the lower part, through a hermetically connected diffuser 19 equipped with an air pressure sensor 13. A control panel 20 is installed on the housing 1 of the stand.

The stand for determining the properties of bulk materials, according to the second option, works as follows. In the initial period, before filling the storage hopper 2 with bulk material, adjust the length L with an adjustable plate 21 to change the flow movement of the bulk material and fill the loading hopper with bulk material, turn on the fan 18. Air is supplied under the perforated plate 11 through the purge chamber 17, after passing through the test chamber 8, the air enters the atmosphere through the technological hole 7 in the housing 1, at this time the anemometer 9, the air pressure sensors 13 and the gas analyzer 10, take the indicators of the exhaust about air and transmit the results to the control panel 20. When the air reaches the required parameters in the test chamber 8, open the valve 4 of the outlet 3 of the storage hopper 2. Bulk material through the adjustable plate 21 enters the test chamber 8, closed by an adjustable slide gate 16. Under the perforated the plate 11 through the purge chamber 17 continues to be supplied with air by the fan 18, after passing through the test chamber 8 and a layer of bulk material, the air enters the atmosphere through the process hole 7 in the housing 1, data continues to be output to the control panel, speed cameras 14 begin to work. After the bulk material fills the volume of the test chamber, a study is carried out for 2-5 minutes, then the slide gate 16 is opened, while moving the bulk material through the discharge opening 15, the reading continues until the storage hopper 2 and the test chamber are completely empty 8. After this, the adjustable plate is set up, the material under investigation is replaced, which is again filled in the storage hopper, while the perforated plate is changed to the plate from another perforation They change the installation angle to the horizontal or change the fan operation parameters, clean the lenses of high-speed cameras.

The listed features of the options of the utility model provide a solution to the problem of the utility model, eliminates all the disadvantages indicated in relation to the prototype.

Claims (2)

1. A stand for determining the properties of bulk materials, comprising a frame with a housing, a storage hopper, a test chamber, a purge chamber, a fan, sensors and a control panel, characterized in that, in order to conduct studies of the influence of the method of supplying bulk material into the test chamber in depending on its physical and mechanical properties, the behavior of the bulk material in the test chamber in the free state of its layer, as well as the aerodynamic resistance of the layer of bulk material, it is equipped with a guide rail a length H and a test chamber formed by one replaceable perforated plate having the ability to independently change the angle of inclination to a horizontal plane, replaced by a plate of another material or with another perforation, and an adjustable discharge opening closed by a slide gate. 2. The stand according to claim 1, characterized in that, in order to study the properties of bulk materials, according to the distribution of the fractional composition under the influence of external factors and to limit the height of the layer of bulk material, it is equipped with a high-speed camera.

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