SU1070386A1 - Dedusting device - Google Patents

Abstract

A SECURING DEVICE, comprising a chamber with a working opening and a suction gap, a discharge fan and an air duct with a filter installed at its outlet, the chamber having a cross-sectional shape of an unequal quadrilateral, and the working opening is made in one of its side walls, characterized in that in order to ensure uniformity of air flow in the chamber, the suction slot is located in one of the side walls of the chamber, and the opposite wall B, I is filled with a movable and pivotally connected to the base iem adjustably angle therebetween in the range 100-120 °. g (L o oo 00 O5

Description

The invention relates to a technique of ventilation, namely, devices that create a dust free zone in the working space of the process equipment, and is intended primarily for use in the electronic and optical industries. A dedusting device is known, comprising a chamber with a working opening and a suction gap, a discharge fan and an air duct with a filter installed at its outlet, the chamber having a cross-sectional shape of an unequal quadrilateral, and the working opening is made in one of its side walls 1. In a known device the distribution of the air flow rates in the working chamber is not ensured, which leads to an increase in energy consumption. This is due to the fact that the curved sections of the channel exert aerodynamic resistance to air flow, and placing the process product in the dust-free zone breaks laminar flow. The purpose of the invention is to ensure uniform movement of the air flow in the chamber. The goal is achieved by the fact that a dedusting device B contains a chamber with a working opening and a suction gap, a discharge fan and an air duct with a filter installed at its outlet, the chamber having a cross-sectional shape of a non-equilateral quadrilateral the suction side of the chamber is located in one of the side walls of the chamber, while the opposite wall is movable and pivotally connected to the base with the possibility of adjusting the angle between them It is 100-120 °. FIG. 1 shows the device, general view, section; in fig. .2 - diagram of the air flow in the duct. The device comprises a chamber 1 with a working opening 2 and a suction gap 3, a discharge fan 4 and an air duct 5 with a filter 6 installed at its outlet 6. Chamber 1 has the shape of a non-equilateral quadrilateral ABCD in cross section, and the working opening 2 is made in the side wall 7. Suction the slit 3 is located in the side wall 7 of the chamber 1, and the opposite wall 8 is made movable and pivotally connected to the base 9 with the possibility of adjusting the angle X between them within 100-120 °. Slot 3 is combined with the working opening 2. The device operates as follows. When the injection fan 4 is turned on, the air through the flexible duct 5 enters the filter 6, where it is cleaned. Dust-free air passes through the process zone of the chamber, bounded by the side walls 7 and 8 and the base 9, and exits through the slit 3 ;. The upper part of the flexible duct 5, the side walls 7 and 8, the base 9 of the chamber 1 and the slot 3 represent the overall air duct with two curved sections aa and bb (Fig. 2) determining the velocity distribution over the width of the air flow in the channels ab and i.e., in the process zone of chamber 1. A phased change in the distribution of the flow velocity over the width occurs after passing through the bent portions, so V - velocity distribution over the flow width at the exit of the flexible duct - changes to V after the filter and is uniform aspredelenie, yuschees maintained throughout the entire channel aa-bb bbCh After rotating with the breakdown at the edge of the slit b distribution takes the form of ultrasonic. Adjusting the angle a in the range of 100-120 ° ensures the preservation of laminar air flow in the channel when most of the unified radio products are placed on the table and manipulations are performed on them. The interval of angle changes is set experimentally. The advantages of the proposed device are the reduction of aerodynamic resistance to air flow, which leads to a decrease in the power of the fan motor, and the elimination of uncleaned air leaks into the working space of the chamber.

Claims (1)

A SPRAYING DEVICE comprising a chamber with a working opening and a suction slot, a blower fan and an air duct with a filter installed at its outlet, moreover, the camera has a cross-sectional shape of a non-equilateral quadrangle, and the working opening is made in one of its side walls, characterized in that, with In order to ensure uniform motion of the air flow in the chamber, the suction slot is located in one of the side walls of the chamber, and the opposite wall is movable and pivotally connected to the base with the possibility of adjusting the angle between them within 100-120 °. figure 1