Special dehydration rotational flow assembly for sand and water separation system as well as sand and water separation method

A sand-water separation and assembly technology, which is applied in separation methods, filtration separation, chemical instruments and methods, etc., can solve the problems of low sand-water separation efficiency, inability to move, fine sand running out, etc.

Active Publication Date: 2013-07-24
ZHEJIANG SHUANGJIN MACHINERY HLDG
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Its shortcomings: first, large investment, large floor area, and high power consumption; second, low efficiency of sand-water separation; third, fixed dehydration cyclone assembly for sand-water separation system, which cannot be moved; The coarse sand on the surface of the dewatering screen cannot naturally form a sand wall on the surface of the dewatering screen, so it cannot achieve continuous dehydration during operation
[0003] 2. In the context of cobblestones and other water-based extraction of machine-made sand and raw sand, the current market basically adopts: drum type sand washing machine, winch cage type sand twisting machine and wheel type sand lifting machine and some areas. The bucket-lift sand lifter is used to extract coarse sand. When the above methods are used alone, there are serious tailings.
Not only does the water content of the finished products prepared by the above-mentioned equipment remain high, but the gradation of the produced machine-made sand and raw sand products is unreasonable, and the medium and fine sand run out seriously, and the finished products with qualified grading cannot be obtained, which has caused Serious waste, but also secondary pollution caused by the environment, etc. For this reason, in order to achieve the gradation of qualified machine-made sand and original sand, and to prevent secondary pollution, the manufacturer has to be equipped with a dehydrator and a tailing There are many auxiliary equipment such as sand recovery devices, which have caused many problems such as excessive investment in equipment in the system, high unit price, large floor area, and excessive power consumption.

Method used

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  • Special dehydration rotational flow assembly for sand and water separation system as well as sand and water separation method
  • Special dehydration rotational flow assembly for sand and water separation system as well as sand and water separation method
  • Special dehydration rotational flow assembly for sand and water separation system as well as sand and water separation method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0015] Embodiment 1: with reference to attached Figure 1-5 . A special dehydration cyclone assembly for a sand-water separation system, including a dewatering screen assembly and a cyclone (one set) or a cyclone group, and the cyclone or cyclone group is integrated above the dewatering screen assembly through a support frame , the wide water storage type dewatering screen 1 in the dewatering screen assembly is located on the frame 7 through the shock absorber 6, the wide water storage type dewatering screen 1 is driven by the vibration excitation motor or the camshaft drive mechanism 10, and the wide water storage tank 5 is located below the wide water storage dewatering screen 1, the feed inlet of the cyclone or cyclone group 4 communicates with the outlet of the slurry pump 8 on the side of the frame 7 through the conveying pipeline, and the motor 9 drives the slurry through the belt transmission mechanism. Slurry pump 8. A maintenance platform 3 and a ladder 2 for climbi...

Embodiment 2

[0020] Embodiment 2: On the basis of Embodiment 1, when the flow rate of sand water treated by the wide-width water storage dewatering screen 1 per hour is greater than 300 cubic meters of water, the bottom plate, lower end sieve plate and side sieve plates of the frame are all screen holes plate.

Embodiment 3

[0021] Embodiment 3: with reference to attached Figure 6 . On the basis of Example 1, a sand-water separation method for the dehydration cyclone assembly dedicated to the sand-water separation system, the sediment-water mixture screened by the vibrating screening device 15 passes through the quicksand tank 16 to the wide water storage type dewatering screen 1 Since the angle between the bottom plate of the wide water storage dewatering screen 15 and the horizontal plane is greater than 3 degrees, and the vibration of the wide water storage dewatering screen 1 is driven by an exciting motor or a camshaft drive mechanism, the wide water storage dewatering screen is forced to The vibration trajectory of the dewatering screen 1 forms a straight forward and backward bouncing motion, so when the sand-water mixture washed down from the vibrating screening equipment 15 passes through the wide-width water storage dewatering screen 15 to the outwardly inclined open facade screen When ...

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PUM

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Abstract

The invention relates to a special dehydration rotational flow assembly for a sand and water separation system as well as a sand and water separation method, can effectively separate mud, water and sand in a mud, sand and water mixture, and also can dehydrate the sand and the water efficiently. The special dehydration rotational flow assembly for the sand and water separation system comprises a dehydration screen assembly, and a rotational flow device or a rotational flow device group; the rotational flow device or the rotational flow device group is integrated above the dehydration screen assembly through a support frame; a wide-amplitude water-storage-type dehydration screen in the dehydration screen assembly is positioned on a rack through a shock absorber, and is driven through a shock excitation motor or a cam wheel driving mechanism; a wide-amplitude water storage groove is positioned below the wide-amplitude water-storage-type dehydration screen; a material inlet of the rotational flow device or the rotational flow device group is communicated with an outlet of a slurry pump positioned at the side part of the rack through a conveying pipeline; and the motor drives the slurry pump through a belt driving mechanism. The special dehydration rotational flow assembly for the sand and water separation system and the sand and water separation method have the advantages that firstly, the integration of the dehydrating screen assembly and the rotational flow device or the rotational flow device group in the sand and water separation system is created for the first time; secondly, the investment is reduced greatly, the occupied area is small, and the energy consumption is reduced; and thirdly, the sand and water separation efficiency is high.

Description

technical field [0001] The invention relates to a special dehydration cyclone assembly and a sand-water separation method for a sand-water separation system that can effectively separate mud, water and sand in a mud-water mixture, and can efficiently dehydrate sand and water. Manufacturing field of dehydration cyclone assembly for separation system. Background technique [0002] 1. CN201524486U, name "sand water separation and recovery system", which includes mud and sand water classification equipment, sand dewatering equipment and mud dehydration equipment; the mud and sand water classification equipment includes a working cylinder, a feeding pipe, an overflow pipe, and a sand outlet , the feed pipe and the overflow pipe are fixedly connected around the working cylinder, the grit chamber is arranged at the lower end of the working cylinder, and the working cylinder is a hollow cylinder connected with a An inverted cone communicating with the cylinder; the sand dewatering ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01D36/04
Inventor 黄建伟胡建明蒋刚
Owner ZHEJIANG SHUANGJIN MACHINERY HLDG
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