SU1152652A1 - Exhausting hood - Google Patents

Abstract

The EXHAUST CABINET, which includes a base, a fence with an opening, stationary vptukly fairings, fixed around the perimeter of the opening, characterized in that, in order to increase the reliability of the exhaust by reducing the passage of gases through the contour of the opening, it is equipped with an additional fairing mounted on the fixed fairing with an additional fairing mounted on the aperture contour, equipped with an additional fairing mounted on the fixed fairing with an additional fairing mounted on the aperture contour, equipped with an additional fairing mounted on the stationary fairing with an additional fairing mounted on the aperture contour, equipped with an additional fairing mounted on the stationary fairing with an additional fairing mounted on the aperture contour, an additional fairing mounted on the stationary fairing with an additional fairing mounted on the aperture contour, an additional fairing mounted on the stationary fairing with an additional fairing mounted on the aperture contour, equipped with an additional fairing attached to the stationary fairing. angle 85-90 to the edge of the opening with the formation of a passage between the ducts, with the additional fairing extending convex on both sides. l

Description

11 The invention relates to laboratory equipment, namely, laboratory cabinets and boxes for working with toxic substances, and can be used to protect workers from toxic substances and when working in the field of genetic engineering. A fume cupboard is known, comprising an opening and guides forming the air flow. In this case, a deflector was used to increase its efficiency. forming a slit aazor with the lower edge of the working opening. The air flow passing through the formed slit gap from the room to the working space of the cabinet serves to intensively remove gases, vapors, aerosol particles and the surface of the table top in the working part of the cabinet and prevents it in the lower edge of the opening. This gateway increases the protection efficiency at the lower edge of the opening, that is, in the most dangerous area, but does not solve the problem of overflow in the boundary area along the contour of the opening and does not take into account that the surface of the deflector itself creates an edge at the bottom of the opening. The closest to the invention is a hood. The cabinet includes a base, a fence with an aperture, fixed convex fairings fixed along the perimeter of opening 2 However, the known cabinet has a low reliability of extraction due to the possibility of leakage around the opening contour. The purpose of the invention is to increase the reliability of the exhaust by reducing the gas leakage around the opening contour. The goal is achieved by the fact that a hood, including a base, a fence with an opening, fixed convex fairings fixed along the perimeter of the opening, is equipped with an additional fairing fixed on a fixed fairing at an angle of 85-90 to the edge of the opening with the formation of a fairing between the fairings channel, while the additional fairing is made convex on both sides. FIG. Figure 1 shows the hood, general view; in fig. 2 - node T in FIG. 1. The hood contains a base 1 and a fence 2 with an opening 3. A fairing is fixed along the perimeter of opening 3: the main 4 and an additional 5. Main fairing 4 is fixed fixedly around the perimeter of the opening at an angle oi 45-50 and is made out of the outer side, And additional fairing 5 is made convex on both sides, set at an angle of ft 85-90 to the edge of the opening and forms a channel through the convex surface of the main fairing. The hood works as follows. The air sucked into the exhaust cabinet flows around the additional fairing 5, and a reduced pressure zone A is created behind the fairing. Due to the pressure differential, the air is accelerated in the channel formed by the spinner 4 and 5, and with greater speed falls on the edges of the front panel of the barrier 2. Thus, the air velocity in the boundary zone increases significantly, and the average value of turbulent pulsations remains constant, which significantly reduces the likelihood of negative speed fluctuations, and thus the likelihood of substances leaving the cabinet due to molecular diffusion in a laminar sublayer. The slope of the flap 5 to the front edge at an angle of less than 40 and more than 50 impairs the aerodynamic characteristics of the flow and, consequently, impairs the protective efficiency of the air cabinet. Making the plates convex inside the channel ensures the formation of a flat nozzle. I The probability of breakthrough and negative pulsations in the area of the borderline is reduced by a factor of 10.

Js

ig.2

Claims (1)

EXHAUST CABINET including a base, a fence with an aperture, fixed convex fairings fixed along the perimeter of the opening, characterized in that, in order to increase the reliability of the hood by reducing the gas leakage along the contour of the opening, it is equipped with an additional fairing mounted on a stationary fairing mounted at an angle 85-90 to the edge of the opening with the formation between the fairings of the passage channel, while the additional fairing is made convex on both sides.