SU1173235A1 - Device for taking proportioned pulp powder samples - Google Patents

Abstract

1. A DEVICE FOR RECEIVING A DOSED PORSPIRED PULSE TEST, containing a glass with a removable bottom, a filter with a base, a heater, pipes for blowing air into the sample and evacuating the vapor, and a distributor with channels for supplying compressed air, characterized in that, in order to increase the sample representativeness , expanding the functionality of the device and automation of the process, it is equipped with a distribution socket passing through the center of the removable bottom of the glass, installed at the top of the socket with a valve ruzhinennym rod and disposed coaxially with the socket for receiving the sample cuvette, the vibrator and the vibrator feeder cell and to the distribution funnel, the vibrator is movably secured to the mechanism of feeding, and the cuvette is mounted on a vibrator to displace it horizontally. 2. The device according to p. I, about t l and so that the upper end of the socket is attached to the base of the filter, and the lower part of the socket is provided with a pipe for drainage. samples. 3. The device according to PP.1 and 2, that is, the valve stem is equipped with a pneumatic actuator fixed in the upper part of the cup, connected to the valve and equipped with a shank located in the upper part of the stem. 4. The device according to claims 1 to 3, characterized in that, in order to increase the representativeness of the 00 sample by means of the device's lead, it is equipped with a valve for supplying washing fluid, a funnel for its removal and a pneumatic actuator for moving the funnel connected to the distributor divider .

Description

The invention relates to devices for obtaining powder samples from the pulp and can be used in the mining and chemical industries, at the beneficiation plants, cement, hydrometallurgical plants, etc. The purpose of the invention is to expand the functionality and automate the process and improve sample performance. . The drawing shows a device longitudinal section. The device consists of a hermetically sealed cup 1 with a removable bottom, stem 2, valve 3 at the end of the stem, actuator D of the stem, a discharge socket 5 passing through the center of the bottom, funnel 6 located on the socket 5 for draining the filtrate and separating it into a duplicate a sample of the nozzle 7 attached to the upper part of the bell of the filter 8 with the base 9, the cuvette IO for receiving the required dose of powder for the analysis, the movable fixed vibrator 1 I., the pneumatic actuator 12 for feeding the cuvette and the vibrator located on it to the discharge socket of unloading the powder, the movably mounted funnel 13 for draining the washing liquid of the mechanism 14 for moving it and the cuvette 10, the valve 15 for supplying water (or other washing liquid), the fitting 16 for removing vapors combined with the nozzle of the pulp supply, valve 17 s drive 18, heater 1, pipe 20 for blowing the sample with heated air, thermal sensor 21, channels 22-29 for supplying air to control the device, casing 30 to prevent spillage of filtrate, air distributor 31 located outside the device. The device works as follows. In the initial state, the channels 22 29 are closed, the position of the cuvette and the funnel in the drawing is shown by a dotted line. Before receiving the sample of the pulp by switching the air distributor 31, the channel 24 for compressed air opens, under the action of which the actuator 18 moves down and the valve 17 Opens the outlet of the nozzle 16 through which the pulp is poured into the device. After receiving the pulp, the air distributor 31 switches, compressed air is discharged from channel 24, and valve 17 closes the opening in nozzle 16. At the same time, compressed air is supplied through channel 22 through heater 19 and nozzle 20 to tank I. Under the action of compressed air, water is pressed out of the sample through a filter 8 and the base 9 into the funnel 6 and drained into the drainage. After the filtering is completed, the air distributor 31 switches, the heater 19 is turned on, the sample warms up from below and is blown through the nozzle 20 from above by heated air passing through the channel 22 to the heater 19, then the channel 24 is turned on and the compressed air opens the hole in the nozzle 16 by moving the valve 17 with the actuator 18 way down. There is a removal of vapors from the glass. When a certain temperature is reached, the temperature sensor 21 is triggered, the heater 19 is turned off, the sample on the filter has dried. To destroy (loosening the sample and unloading the powder, it is necessary to remove the funnel .13 from under the socket and feed the cuvette under the discharge socket 5. To do this, air is removed from channels 22 and 24, and through channel 29 is fed to mechanism 14, which removes the funnel 13 from under the bell 5. and the gripper 32 moves under the discharge socket, and through the channel 26 the air is supplied to the pneumatic actuator 12, which raises the vibrator 11 and the cuvette 10 fixed on it, pressing them tightly to the bell 5. Compressed air supplied through the channel 26 to pneumatic actuator 12, and falls on vib Attorney 1I (through the hole in the pneumatic actuator). The vibrator starts working, transmits oscillatory movements to the cuvette 10, the socket 5 to which the filter 8 with the base 9 is attached. The dried sample quickly loosens and mixes. An additional channel 23 is connected, and the actuator 4 under the action compressed air supplied through channel 23 raises the rod 2 with valve 3, opening the entrance to the socket 5 for unloading the powder. The mixed sample under the action of vibration begins to pour out into the cell 10, the cell is completely filled with powder sample. as the opening of the separation pipe 7 is at this moment at the level of the top of the cuvette, the rest of the powder is poured through pipe 7 onto the duplicate sample with continuous mixing. Since the filling of the cuvette (dosage) and separation of the sample to the duplicate takes place while the vibrator is running, the particles of the sample are in motion, in the weighted state, continuously mixed, segregation does not occur when the powder is unloaded and the cell is filled, the sample will be highly representative. After unloading and dosing the sample, the air distributor 31 switches, the compressed air from the channel 26 is discharged, and through the channel 27 is supplied to the upper part of the pneumatic cylinder 12, the rod of which is lowered together with the vibrator 1.1 and the cuvette 10, 20 and 20

full breakdown. After that, the channel 28 is supplied with compressed air to the movement mechanism 1A, which moves the cuvette 10 to further prepare the sample for analysis, and in its place (manually or mechanically) a clean cuvette is installed, the mechanism 14 moves also the funnel 13 under the discharge socket 5. After This again includes channel 26 and pneumatic actuator 12 with a vibrator 11 presses the funnel 13 to the socket 5 to the level of the upper hole of the separation pipe 7. At the same time, compressed air is supplied to channel 25 to valve 15 and water (or other washing liquid). into the glass 1. Water, splashing, flushes the inner surface of the glass and the filter, and since the pneumatic actuator 12 with the vibrator 11 presses the funnel 13 to the bell 5 and the vibrator is turned on, the filter 8 with the base 9 vibrates, which is well rinsed with water (or other washing) liquid through the center of the removable bottom of the glass, the stem with the valve and the actuator cuvette to receive a certain dry sample, a pneumatic actuator for supplying the cuvette to the discharge socket and a vibrator fixed on the pneumatic actuator, feed valve and funnel for The water of the washing liquid, the mechanism for moving the funnel and the cuvette provides the representative powder sample necessary for the analysis of the dose and accelerates the obtaining of the express analysis.

The use of a device for the preparation of a dosed powder sample in automated anapitic control systems will allow the maximum use of high-performance X-ray analyzers and, on the basis of increasing the quality of the analyzes, can promptly control the technological process and increase the recovery of metals into similar concentrates. 354 with a bone), flushes and the socket 5. Through the funnel 13 all the liquid is drained into the drainage. After flushing the device, the air distributor switches, the air from channel 25 is released, the valve 15 is closed, then the pressure from channel 23 is relieved, the rod 2 with valve 3 closes the entrance to the socket 5, the air from channel 26 is also released, and through channel 27 is supplied to the upper part of the cylinder pneumatic actuator 12, the rod of which is lowered with vibrator I1 and funnel 13. The device returns to its original state and is ready for the next cycle. The presence in the device of a discharge socket with a separating funnel outlet for the filtrate;

Claims (4)

1 . DEVICE FOR PRODUCING A DOSED POWDER SAMPLE FROM A PULP, containing a glass with a removable bottom, a filter with a base, a heater, nozzles for blowing a sample of air and venting vapor and a distributor with channels for supplying compressed air, characterized in that, in order to increase the representativeness of the sample, expanding the device’s functional capabilities and process automation, it is equipped with a distribution bell passing through the center of the removable bottom of the cup, a valve with spring-loaded spring valve installed in the upper part of the bell m rod and coaxially arranged with a socket for receiving a sample, a vibrator and a mechanism for feeding the vibrator and a cell to the distribution bell, while the vibrator is movably mounted on the supply mechanism, and the cell is mounted on the vibrator with the possibility of its horizontal displacement. 2. The device according to π.I, characterized in that the upper end of the socket is attached to the base of the filter, and the lower part of the socket is equipped with a branch pipe for removal. samples. 3. The device according to claims 1 and 2, characterized in that the valve stem is equipped with a pneumatic actuator fixed in the upper part of the cup, connected to the distributor and provided with a shank located in the upper part of the stem. 4. The device according to claims 1 to 3, characterized in that, in order to increase the representativeness of the sample by flushing the device, it is equipped with a valve for supplying the rinsing liquid, a funnel for its discharge and an pneumatic actuator for moving the funnel connected to the distributor ¹ .