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CN-224207452-U - Quick recovery device for extraction reagent

CN224207452UCN 224207452 UCN224207452 UCN 224207452UCN-224207452-U

Abstract

The utility model relates to a rapid recovery device of an extraction reagent, which belongs to the technical field of liquid extraction equipment and comprises two iron stand tables which are symmetrically arranged left and right, and is characterized in that the iron stand tables are formed by combining a bottom plate, upright rods, clamping sleeves, adjusting bolts, supporting rods and jackets, a glass coil condenser is sleeved between the jackets on the two iron stand tables, a water outlet pipe is inwards inserted at the top of the side surface of the glass coil condenser, a plurality of liquid inlet branch pipes are arranged on the outer ring of the bottom of the glass coil condenser, and a charging flask for containing raw materials to be extracted is sleeved at the output end of each liquid inlet branch pipe, so that a plurality of raw materials to be extracted can be uniformly extracted, the extraction liquid can be finally discharged through a liquid outlet uniformly, the condition that each charging flask is required to be provided with one extraction device is avoided, and the size of a liquid collecting flask can be replaced according to the extraction condition.

Inventors

  • WANG SHOUYU
  • BAO BIBO
  • SI YANZHOU
  • ZHANG JIAHUI
  • SHI JINGJING

Assignees

  • 中纺标(浙江)检测有限公司

Dates

Publication Date
20260508
Application Date
20250709

Claims (3)

  1. 1. The quick recovery device for the extraction reagent comprises two iron stand tables which are arranged in bilateral symmetry, and is characterized in that each iron stand table is formed by combining a bottom plate (11), a vertical rod (12), a clamping sleeve (13), an adjusting bolt (14), a supporting rod (15) and a jacket (16), a glass coil condenser (2) is sleeved between the jackets (16) on the two iron stand tables, a water outlet pipe (21) is inwards plugged at the top of the side surface of the glass coil condenser (2), a water inlet pipe (22) is inwards plugged at the top of the side surface of the glass coil condenser (2), a first coil pipe (23) and a second coil pipe (24) are respectively arranged between the water outlet pipe (21) and the water inlet pipe (22), the first coil pipe (23) and the second coil pipe (24) are communicated with the water outlet pipe (21) and the water inlet pipe (22), a liquid outlet (25) is arranged at the bottom of the glass coil condenser (2), a liquid inlet (3) is arranged at the bottom of the liquid outlet (25), a plurality of liquid inlets (41) are respectively arranged at the bottom of the glass coil condenser (2), a plurality of liquid collectors (41) are connected with the liquid inlets (41), and a charging flask (42) is inserted into the output end of each liquid inlet branch pipe (41).
  2. 2. The rapid recovery device for extraction reagent according to claim 1, wherein the joint of the liquid collecting flask (3) and the liquid outlet (25) is sleeved with a first sealing sleeve (26), and the joint of the charging flask (42) and the liquid inlet branch pipe (41) is sleeved with a second sealing sleeve (43).
  3. 3. The rapid extraction reagent recovery device according to claim 1, wherein the material changing trolley comprises a chassis (51), limiting seats (52), telescopic frames (53) and sliding rails (54), the bottom plate (11) is arranged corresponding to the bottom of the liquid collecting flask (3), the limiting seats (52) are arranged corresponding to four corners of the top of the bottom plate (11) and clamp the liquid collecting flask (3), the telescopic frames (53) are arranged corresponding to four corners of the chassis (51) in four groups, pulleys are respectively arranged at the bottom of each telescopic frame (53), the sliding rails (54) are symmetrically arranged in two groups, and the material changing trolley slides left and right through the sliding rails (54).

Description

Quick recovery device for extraction reagent Technical Field The utility model belongs to the technical field of liquid extraction equipment, and particularly relates to a rapid recovery device of an extraction reagent. Background Chemical agents capable of forming an organic phase-soluble extract with the extracted material. In hydrometallurgy, the extractant has the function of generating an extract with the extracted metal through a matched chemical reaction, extracting the extracted metal into an organic phase, and reversely extracting the extracted metal from the organic phase to a water phase through a certain chemical reaction, thereby achieving the purposes of metal purification and enrichment. In the case of ordinary extraction recovery, a single bottle is usually recovered by a single recovery device, a plurality of recovery devices are required for recovering the same type of reagent, and after each bottle is full, the recovery bottles are uniformly poured into each other by sampling, so that the efficiency is relatively slow, and an improved recovery method is required. Disclosure of utility model The utility model mainly solves the technical problems in the prior art and provides a rapid recovery device for an extraction reagent. The technical problem is mainly solved by the following technical scheme that the quick recovery device for the extraction reagent comprises two iron stand tables which are symmetrically arranged left and right, and is characterized in that the iron stand tables are formed by combining a bottom plate, upright rods, clamping sleeves, adjusting bolts, supporting rods and jackets, a glass coil condenser is sleeved between the jackets on the two iron stand tables, a water outlet pipe is inwards plugged at the top of the side face of the glass coil condenser, a water inlet pipe is inwards plugged at the top of the side face of the glass coil condenser, a first coil and a second coil are respectively arranged between the water outlet pipe and the water inlet pipe, the first coil and the second coil are communicated with the water outlet pipe and the water inlet pipe, the first coil and the second coil are positioned in the glass coil condenser, a liquid outlet is arranged at the bottom of the glass coil condenser, a liquid collecting flask is arranged at the bottom of the liquid collecting flask, a plurality of liquid inlet branch pipes are connected around the bottom of the glass coil condenser, and charging flasks are plugged at the output ends of the liquid branch pipes. Preferably, the joint of the liquid collecting flask and the liquid outlet is sleeved with a first sealing sleeve, and the joint of the charging flask and the liquid inlet branch pipe is sleeved with a second sealing sleeve. Preferably, the reloading trolley comprises a chassis, a limiting seat, telescopic brackets and sliding rails, wherein the bottom of the bottom plate corresponds to the bottom of the liquid collecting flask, the limiting seat corresponds to four corners of the top of the bottom plate and clamps the liquid collecting flask, the telescopic brackets are arranged at four corners of the chassis, the bottom of each telescopic bracket is provided with pulleys respectively, the sliding rails are symmetrically arranged in two groups, and the reloading trolley slides left and right through the sliding rails. The utility model has the advantages that the plurality of liquid inlet branch pipes are arranged on the outer ring of the bottom of the glass coil condenser, and the output end of each liquid inlet branch pipe is sleeved with the charging flask for containing raw materials to be extracted, so that the plurality of raw materials to be extracted can be uniformly extracted, the extraction liquid can be finally discharged through the liquid outlet uniformly, the condition that each charging flask is required to be provided with one extraction device is avoided, the size of the liquid collecting flask can be changed according to the extraction condition, four telescopic brackets which can be adjusted in an up-down telescopic manner are arranged at the top of the bottom of the charging trolley, and when the large flask is changed, the height of the charging trolley and the height of the charging flasks is higher than that of the bottom plate, the charging flasks can be used for placing a heating device at the bottom of the charging trolley, or when the charging flasks are placed larger, the lifting device is not used, so that the sliding rail and the bottom frame are high, and the collection is more convenient and rapid. Drawings FIG. 1 is a schematic perspective view of the present utility model; fig. 2 is a schematic cross-sectional view of the present utility model. The device comprises a bottom plate, a vertical rod, a clamping sleeve, a regulating bolt, a supporting rod, a clamping sleeve, a glass coil condenser, a water outlet pipe, a water inlet pipe, a first coil pipe, a second coil pipe