Intelligent dust removal system with wind pressure detection function and multi-point monitoring function

Abstract

The invention relates to an intelligent dust removal system with a wind pressure detection function and a multi-point monitoring function. The intelligent dust removal system comprises a dust collector arranged outside a spinning workshop. Air pipes of the dust collector are arranged on a ceiling of the spinning workshop in a dispersed mode and are connected with the dust collector through an air collection cavity after being converged. An end of each air pipe is provided with an air collection opening and a first dust sensor. A filter plate is arranged on the portion, between the air collection cavity and the dust collector, of each air pipe. Wind pressure sensors are arranged on the sides, in the direction of the dust collector, of the filter plates. Electric windows are symmetrically formed in a side face of the spinning workshop. A second dust sensor is arranged on the portion, between the two electric windows, of the outer side face of the workshop. An indicator lamp is arranged on the inner side wall of the spinning workshop. Work of the dust collector and work of the electric windows are automatically controlled through multi-point monitoring inside the workshop and monitoring outside the workshop, the intelligent dust removal system is flexible in control, the dust removal effect is improved, and energy consumption is lowered; real-time wind pressure monitoring is adopted, and therefore operators can replace or wash the filter plates in time, and reliability of dust removal is improved.

Description

technical field [0001] The invention relates to the field of textile industry, in particular to a dust removal system for a textile workshop. Background technique [0002] The current cotton textile industrial engineering mainly uses machinery to process fiber materials. In the process of processing, cotton dust, fiber debris, dust and other sundries will inevitably be produced. Avoid bringing debris and garbage from outside the workshop, causing environmental pollution in the workshop, which not only endangers the health of the staff, but also affects product quality. [0003] Usually, traditional cleaning tools such as brooms and mops are used to clean dust manually in small textile workshops, while professional dust removal equipment is used in large textile workshops. Relying on manual cleaning and dust removal with brooms and mops cannot clean the lint and dust in the workshop, and cannot completely solve the problem of dust pollution; while the dust removal equipment ...

AI Technical Summary

Problems solved by technology

Relying on manual cleaning and dust removal with brooms and mops cannot clean the lint and dust in the workshop, and cannot completely solve the problem of dust pollution; while the dust removal equipment in large workshops generally relies on manual start-up or continuous dust removal at fixed times, and cannot be done automatically according to the amount of dust. Start, lack of dust detection device, there are shortcomings of incomplete dust removal and high energy consumption

At present, in the textile workshop, ventilation and dust removal are realized by opening windows, and there is a defect that the environment outside the workshop affects the environmental pollution in the workshop and affects textile processing.

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