UA18770U - INFLOW-EXHAUST UNIT ôTORNADOö - Google Patents

Abstract

Inflow-exhaust unit has cylindrical body with installed in it coaxially suction branch pipe, branch pipe of inflow air and swirler of inflow air. The swirler is arranged as spiral-like section of inflow channel of the body connected to the branch pipe of inflow air. The lower part of the body is arranged as confuser.

Description

Description of the invention

The useful model refers to ventilation technology, namely to local suction based on 2 vortex technologies, and can be used to equip the workplaces of solderers, welders, during grinding work, painting, other work with the formation of dust, aerosols harmful to human health .

A well-known intake-exhaust device containing a swirler and a coaxial suction nozzle inserted into it (A.S. USSR. Mo1542544, MPK? A471 9/08, op. 02.15.90). During the operation of the known device, the inflow air is swirled in the swirler, forming a strongly swirling inflow jet. In the axial region there is a zone of reverse air currents. The inflow jet prevents air from flowing into the suction nozzle from above and from the sides. However, the presence of a turbulent flow regime contributes to the interaction of the inflow jet and the rising axial flow, which leads to the appearance of large-scale instability of the flow as a whole and emissions of harmful substances from the suction plume into the environment. t The closest analog of the claimed device is an intake-exhaust device for local ventilation, which contains a cylindrical body with a coaxially located suction nozzle, which has a receiving hole in the section. The supply air nozzle is installed asymmetrically to the body. Between the housing and the suction nozzle there is a vane swirler of the incoming air, and the housing has a diffuser connected to it and located at the level of the section of the suction nozzle on the side of its receiving hole 720, while the walls of the diffuser have a curve (Patent of the Russian Federation Mo2046258, MPKO g24E7/06, ВО8В15/00, op. 20.10.95.

Common essential features of the known device and the claimed device are a cylindrical body with a coaxially installed suction nozzle, a supply air nozzle and a swirler of supply air. During the operation of the known device, the inflow air under pressure fills the inflow channel of the housing, formed by the walls of the housing and the suction nozzle, is swirled with the help of a vane swirler located in the direction of the flow and exits, thanks to the presence of a diffuser, in the form of a radial fan jet, which forms a central suction jet , which removes harmful substances, while supply and suction air do not mix. However, the design of the known device, namely the presence of a built-in blade swirler and diffuser, does not provide a sufficient speed of the incoming air flow, which causes an insufficient speed of the suction air and, accordingly, the ability to remove harmful substances - at a distance necessary for a certain technological process, which leads to reduce the range of the device. In addition to them, the design of the known device is complicated and non-technological.

The basis of a useful model is the task of improving the supply-exhaust device, in which d) 35 by modernizing the design, a high speed of the swirling vortex supply flow is achieved, which "- provides the required speed of the suction flow from the maximum possible distance with equal suction air flows, which leads to an increase long-range device when simplifying its design and manufacturability.

The problem is solved by the fact that in the intake-exhaust device, which contains a cylindrical body with a coaxially installed suction nozzle, an inlet air nozzle and a swirler - in the inlet air, according to a useful model, the swirler is made in the form of a spiral-shaped section from the inlet channel of the housing, connected to the supply air nozzle, and the lower part of the case is made in the form of a confusor.

The following causal relationship exists between the set of essential features of the claimed useful model and the technical result achieved 415. - Modernization of the design of the supply-exhaust device, namely: - execution of a swirler in the form of a spiral-shaped section of the supply channel of the housing, connected to the supply air nozzle; -1 - execution of the lower part of the case in the form of a confusor; in combination with the known features of the useful model, which is claimed, provides the speed of the swirling - vortex flow of supply air, sufficient for the formation of a suction flow, which is able to remove the available amount of harmful substances, without interfering with the technological process, with a lower consumption of supply and suction air, which increases far the operation of the device. At the same time, the simplification of the design of the device and the improvement of the manufacturability of its manufacture are achieved.

The essence of the proposed useful model is explained by the drawings, where Fig. 1 shows the frontal view of the intake and exhaust device "Tornado"; Fig. 2 is a top view of the device; Fig. 3 is a side view of the device.

The supply and exhaust device "Tornado" contains a cylindrical body 1 made of sheet metal or plastic with a suction nozzle 2 coaxially located in it, the space between which is the supply channel. The upper spiral section Z of the inflow channel, which performs the function of a swirler, has a technologically determined rectangular cross-section, which transitions into a round cross-section of the cylindrical nozzle 4 of the inflow air. At the same time, both nozzles have mostly the same diameters. The lower part of the case is made in the form of a cone-shaped baffle 5, the lower narrower opening of which smoothly expands to the bottom.

The device can be manufactured in different standard sizes, while the diameter of the nozzles is decisive. The choice of the standard size of the device depends on its purpose, that is, the mass of particles of harmful substances to be removed, the distance at which the device can be located without interfering with the technological process. For example, devices with a nozzle diameter of 80 or 100 mm are used to equip the workplaces of soldering irons, and 200 or 250 mm to equip the workplaces of welders.

The device works like this.

The inflow air through the nozzle 4, receiving at the same time a certain preliminary moment of the amount of movement, enters the spiral-like section Z of the inflow channel, in which it swirls to a high speed, which increases even more when passing through the narrowed opening of the confusor 5. The swirling vortex flow of the inflow air leaves the device with at high speed in the form of a fan jet approximately at an angle of 75 9, due to the expansion of the lower part of the confusor. This jet has a high ejection capacity and forms a 70 stable suction torch with low turbulence. Harmful substances are transported by the upward flow to the suction nozzle 2. At the same time, the incoming air does not mix with the polluted air, but is distributed in the worker's breathing zone.

For example, a device with a nozzle diameter of 8О0mm with a supply and exhaust air consumption of 120m2/h provides a standardized speed for the workplace of solderers of 0.bm/s, sufficient to remove 75 lead joints formed during soldering from a distance of О0.2bm, which exceeds the indicators of the nearest analogue.

Claims (1)

Formulation of the invention Supply-exhaust device containing a cylindrical body with a coaxially installed suction nozzle, a supply air nozzle and a swirler of supply air, which is characterized by the fact that the swirler is made in the form of a spiral section of the supply channel of the housing, connected to the supply air nozzle, and the lower part of the case is made in the form of a confusor. that 2 "c) y y (ee) y - and? - (ee) -i -i (42) 60 b5