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A swirl exhaust device and system

An exhaust device and swirling technology, applied in cleaning methods and appliances, chemical instruments and methods, and dust removal, can solve the problems of pollutants escaping, insufficient suction distance, and poor collection effect of exhaust pipes. Achieve the effect of efficiently capturing pollutants, increasing the range of action, and avoiding the escape of pollutants

Active Publication Date: 2022-03-08
XI'AN UNIVERSITY OF ARCHITECTURE AND TECHNOLOGY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In actual operation, the converging effect of the suction of the exhaust pipe will rapidly decay in the environment. In addition, it is often disturbed by the ambient air flow or the suction distance is insufficient due to technological activities such as equipment blocking, resulting in the current capture of the local exhaust pipe. The collection effect is not good, and there is a large amount of pollutant escape

Method used

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  • A swirl exhaust device and system
  • A swirl exhaust device and system
  • A swirl exhaust device and system

Examples

Experimental program
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Effect test

Embodiment 1

[0059] This embodiment provides two design trapping strategies and exhaust modes, which are mode a and mode b respectively.

[0060] In mode a, for the working condition where the pollutants are greatly affected by the ambient wind, the rotation of the blades of the exhaust outlet of the exhaust pipe 1 generates a high radial velocity to effectively shield the ambient wind such as the side airflow, so that the pollutants are discharged from the air. The negative pressure area of ​​the air duct 1 is inhaled.

[0061] In order to realize above-mentioned technical task, the present invention is realized like this, as Figure 1-Figure 2 Shown:

[0062] The exhaust pipe 1 is located in the middle position, and the support ring assembly 2-1 (bearing) is welded on the periphery of the exhaust pipe 1, and the other side of the support ring assembly 2-1 (bearing) is glued to the blade through the connecting arm 2-2. The blades are made of plastic to ensure light structure, and the an...

Embodiment 2

[0067] This embodiment provides experimental verification for mode a and mode b, and compares the capture effect of commonly used traditional umbrella covers. The experimental results show that the present invention can effectively capture pollutants emitted in the environment. In this embodiment, CFD numerical simulation is used to carry out numerical experiments of fluid mechanics. This embodiment adopts the component transport model (Species transport). The component transport model can analyze the flow process of gas flow between different gas components in detail.

[0068] In this embodiment, the test environment is a small volatile workshop whose size is 2m long*2m wide*2m high. There is a high-temperature organic volatilization barrel 7 in the center of the room, and the diameter of the barrel is 0.2m; in addition, at a position of 1.8m in height, it is the position of the exhaust pipe 1, and the diameter of the two hoods is 0.4m, wherein the blade rotation diameter of...

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Abstract

A swirl exhaust device and system, comprising an exhaust pipe, a swirl assembly is arranged around the lower port of the exhaust pipe, a support mechanism is provided between the swirl assembly and the outer wall of the exhaust pipe; There is a power mechanism, and the power mechanism drives the support mechanism and the swirl assembly to rotate coaxially with the axis of the exhaust pipe; the power mechanism includes coils uniformly arranged in the circumferential direction of the exhaust pipe, and also includes a magnetic ring connected to the support mechanism. The ring is arranged on the outer circumference of the coil and is located on the same level as the coil. Through the reasonable setting of the component structure, the vortex generated by the swirl assembly increases the suction speed of the exhaust pipe, so that the exhaust pipe can obtain a greater depth, and the speed of the swirl assembly is controlled by the actual load to control different flow conditions. The overall device has the characteristics of high suction speed, deep ventilation depth, and low energy consumption. It reduces the attenuation of the suction speed of the exhaust pipe as a whole, avoids the escape of pollutants, and achieves the effect of efficiently capturing pollutants.

Description

technical field [0001] The invention belongs to the technical field of gaseous pollutant control, and in particular relates to a cyclone exhaust device and system. Background technique [0002] In industrial production, local exhaust pipes are often used to capture pollutants generated in process production. The suction effect of the airflow at the mouth of the exhaust pipe can trap harmful substances, so as to ensure that the emission speed of gaseous toxic substances and particles in the workplace does not exceed the national standard, and ensure the health of production workers. In actual operation, the converging effect of the suction of the exhaust pipe will rapidly decay in the environment. In addition, it is often disturbed by the ambient air flow or the suction distance is insufficient due to technological activities such as equipment blocking, resulting in the current capture of the local exhaust pipe. The collection effect is not good, and there is a large amount ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B08B15/04
CPCB08B15/04
Inventor 黄艳秋荣俊豪陈俊妍郭胜男王怡赵春晓
Owner XI'AN UNIVERSITY OF ARCHITECTURE AND TECHNOLOGY
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