SU929185A1 - Apparatus for diluting salt melt and measuring ph - Google Patents

Description

(54) DEVICE FOR DILUTION AND MEASURING PH FLOOR SALTS

Claims (1)

The invention relates to the use of mixers for the continuous preparation of an analyzed sample by dissolving water salts, for example, mineral fertilizers in boils, and can be used in centralized monitoring and control systems at various stations for the production of mineral fertilizers and other crystallizing water salts. A device for disintegrating and measuring the pH of the molten salt, a co-sampler, a water distribution chamber, a mixer and a sensor is known. In this device, a uniform dilution of the water with water (steam condensate), which enters the pressure reducer at a dose of an ore: mixture, occurs. Stirring occurs due to rotation of the oreometric displacer 1 J. However, the known device cannot provide a stable measurement of the pH of the melt due to the fact that as a result of the deposited salt of the melt of holes in the zone along the following lines; working surface, the device often fails; when filtering water from mechanical impurities, filters often become clogged, which also removes yytpoacTfeoj. In addition to this, the device has complex maintenance associated with cqev complexity K (5 hours). The purpose of the invention is to stabilize the scrubber and eliminate sedimentation on the working surface of the device The proposed device takes into account the possibility of the formation of buffer solutions of salts with water. In this connection, the strict dilution of salt and water is excluded in the device for diluting the melt, since upon dilution of one volume float 6–15 volumes of water solution pH remains constant. The aim of the invention is to increase the EFFICIENCY of operation of the device by eliminating work surface stickings. 39 Г1 left goal is based on the vice column, which was removed by the internal spraying chamber , it is equipped with a receiving head placed by the nat upper humus of the column with the formation of an annular gap and a funnel with a firing cone located under the lower end, and the sensor is flow-through. In addition, the intake head is equipped with a fluoroplastic sleeve. FIG. I shows the device, the cut; in fig. 2 - gauge, cut. The device comprises a sampler 1, a mixer 2 and a sensor 3. The sampler I represents a crosspiece 4 installed in the water pipeline. From the bottom, the mixer 2 is connected to the crosspiece 4, the pneumatic head with the needle 5 is connected from above. The mixer 2 contains a water distribution chamber 6 with a water supply unit with a cylinder 7, thermally insulated fluoroplastic sleeve 8, a suction head 9 with a suction inlet 10, a cone-shaped annular gap 11, a mixing head , a funnel 13 with a built-in baffle cone 14. The sensor consists of a glass 15 with a discharge fitting 16. The glass has an overflow hole 17 and a drain pipe 18. In the cover 19 cups 15 through the fitting 20 inserted measuring electrodes 2 1 pH - meters. To ensure the flow of water into the mixing knee, the inner diameter of the suction hole and the annular gap was chosen experimentally and corresponded to 2.5 mm and 13 mm, and the bottom Ai of the intake fence was lowered into the mixing column by 3 mm. The device works as follows. Water is supplied to the water distribution chamber 6 from the expansion tank under the pressure of 0.2-O, 3 MPa and ZO-400C. The water passing through the cone is equal to the annular slot 11, which is ejected through the hole 10 of the intake head 9 of the salt melt from the sampler 1. B. The mixing column 12 melts the water and cools, mixes and dissolves in it. In the funnel 13, the mixture falls on the chipping cone 14 is broken and mixed finally. From the funnel 13, the diluted melt is poured into the glass 1. Due to the drain fitting 16, the overflow 54 of the hole 17 and the tube 18, the level in the glass 15 is always kept constant. In addition, the funnel serves to remove gases evolving upon dilution of the melt. Structurally, the cup 15 is made flow-through and therefore the mixture in it is always updated. The bottom of the glass 16 is made concave and the funnel 13 is displaced relative to the axis of the glass, as a result of which the mixture constantly circulates in the glass and the precipitation is minimized. The glass 16 is attached to the lid with 19 screws and, if necessary, (cleaning the electrodes from salt deposits, washing the glass) can be removed. The design of the mixer allows you to maintain the desired proportion of water and water, as the pressure of water supplied to chamber 6 changes and ejection of the melt. A needle 5, periodically driven by a membrane kinematic drive, is provided in the intake head 9 to prevent clogging of the suction inlet Yu.- In order to avoid the crystallization process of the melt, a fluoroplastic heat-insulating sleeve 8 is provided under the intake head 9, which is constantly washed by the water jet, which eliminates the formation of plaque crystals of salts of melt. In the funnel 13, the mixture of water and melt with the help of the fender cone 14 constantly wets all the walls of the funnel, which eliminates the formation of salt deposits. The electrodes of the pH meter 21 are always immersed in the solution of the melt and constantly give a signal to the control devices. The use of the proposed device allows one to obtain in detail a record of the pH of the melted salt, as it prevents the working surface of the device from being blocked. Simplification of the design (exclusion of complex elements: buoy, filter impeller, gearbox) ensures reliable operation and ease of maintenance. In addition, it allows water to be diluted with water without prior purification. Claim I. Investigator for diluting and measuring the pH of the molten salt containing a sample