SU1729629A1 - Exhaust hood - Google Patents

Abstract

The invention relates to ventilation and allows, due to the design features, to effectively capture and remove contaminated convection currents from various technological equipment. The purpose of the invention is to increase work efficiency and expand technological capabilities. In the annular gap formed by the housing and the insert, there is additionally placed a collector, for example an annular one, with one or more nozzles facing the outlet openings in the direction opposite to the L suction slit. The collector is provided with a compressed gas supply nozzle, and the suction slot is made, for example, annular and located in the middle of a flat or conical flange connecting the ends of the housing and the insert. In addition, the annular suction slit is equipped with a mechanism for adjusting the area of its suction section, made, for example, in the form of interchangeable dampers connected by means of fasteners with a flange and located on it around the umbrella perimeter. The invention can find wide application in ventilation systems used in industry and transport. 2 hp f-ly, 7 ill.

Description

The invention relates to ventilation and can be used to trap and remove contaminated convective streams from process equipment, such as a welding unit, chemical baths and other sources.

The design of an umbrella is known, which includes a conical case with an air duct connected to it and a conical insert placed inside the case coaxially with it with the formation of an annular gap between them.

The main disadvantage of this design is low efficiency, especially in cases where the release of hazards is uneven in time, for example, when opening chemical baths, furnaces, when pouring molds with metal, etc.

The design of the umbrella also does not provide for the creation of short-term strong traction for suction of intensely released harmful substances, which is especially important in the initial period of their release, when their concentration is maximum. The consequence of this is the overflow of the umbrella and the ingress of hazards into the room. In addition, due to insufficient suction due to the mobility of the air in the room, the air can divert the flow of harmful substances carried under the umbrella into the room.

Due to the impossibility of adjusting the intensity of suction over time, a constant increased air flow is required,

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which leads to increased energy consumption and, accordingly, greater material consumption of the ventilation system, dimensions, etc. The consequence of this is also the impossibility of using this umbrella design in systems with natural stretching. In addition, with the help of this umbrella, it is impossible, along with effective removal of hazard, to neutralize them directly in the umbrella after trapping them from the source of the hazard release, which further narrows the technological capabilities of this umbrella.

The purpose of the invention is to increase work efficiency and expand technological capabilities.

Figure 1 shows the proposed device, a general view, the execution of the collector with a nozzle, option 1 (nozzle-collector; in figure 2, node I in figure 1, option 2 - the execution of the collector with a nozzle (slotted nozzle); H - node I in Fig. 1, option 3 - the execution of the collector with nozzles (conical), evenly spaced around the perimeter; Fig. 4 - node I in Fig. 1, option 1 (nozzle-collector in an enlarged view); .5 is a variant of the use of the active umbrella in combination with natural ventilation; FIG. 6 shows the node II in FIG. 1 (the embodiment of an annular suction head and dampers), FIG, 7 - view A in Figure 6 (views of replaceable valve).

An exhaust umbrella consists of a conical body 1 with a suction air duct 2 connected to it, an insert 3 placed inside the body 1 coaxially with it and forming an annular gap 4 between it and the body 1 (the annular gap is made in the form of an annular confuser, figure 1). The lower ends of the housing 1 and the insert 3 are interconnected by means of a conical flange 5, in the middle of which an annular suction inlet 6 is made. For better aerodynamics, the adapter 7 in the form of a smooth annular diffuser 8 is made at the outlet of the suction inlet 6 and the width of the inlet is equal to the width the suction inlet 6 (Fig. 1.6), and the junction with its expanding part, respectively, with the conical body 1 and the insert 3 inside the annular gap 4.

Inside the annular gap 4 formed by the conical body 1 and the insert 3, there is an annular collector with a nozzle, made in the form of an annular nozzle-collector 9, in a normal section of a drop-like shape, the radius part of the section 10 of which faces the suction inlet 6, and the outlet of the nozzle 11 is located on the opposite radius of the 10 end of the nozzle-collector (Fig.1,4, option 1).

The nozzle-collector 9 is equipped with a pipe

12 is supplied with compressed air, which is additionally provided with a mechanism for adjusting the area of its flow area, for example, a valve 13 (FIG. 5).

0 As an embodiment, the collector can be made, for example, in the form of a toroidal pipe 14, and the nozzles 15 are made in the form of conical nozzles, evenly spaced around the perimeter of the toroidal5. Noah pipes (for example, six nozzles evenly spaced at an angle of 60 ° around the perimeter, fig.Z, option 3).

A variation on this option is also a collector version in

0 as a toroidal tube 14 with a slotted nozzle 16, in the form of a confused ring 17 formed by two cones joining the toroidal tube along its perimeter, and an annular ring in the toroidal tube

five . a groove 18 in communication with the cavity of the confused ring 17 (Fig. 2, option 2).

In addition, the annular opening 6 is provided with a mechanism for adjusting the area of its flow area,

0 made in the form of interchangeable dampers 19 connected by means of fasteners 20 to a conical flange 5 and evenly located on it around the perimeter of the umbrella (for example, 6 shutters at an angle of 60 °).

5 The number of dampers can change the suction mode around the umbrella perimeter in order to optimize its mode of operation.

Figure 5 shows the use of the exhaust hood c. combined with natural stretching. The suction duct 2 of the exhaust hood in this case is connected to the main duct 23 passing through the cover 22 of the building. Trunk duct 23

5 (for reinforcement of gi) ends with deflector 24.

Exhaust umbrella works as follows

At the time of the beginning of the intensive release of hazardous substances from the source 21 of their release, compressed air (or other agent) is supplied through a pipe 12 to supply compressed air, for example, using a valve 13 from the factory pneumatic network (not shown) to the nozzle-collector 9 (or another collector, e.g. option 2, 3). The nozzle-collector 9 can be supplied with humidified air, neutralizing harmful substances, gas, air with neutralizing additives, etc. As a result of expiration

air at high speed from the nozzle-collector 9 in the annular gap 4, a vacuum is formed and through the annular suction inlet 6 air first enters the annular gap 4 and then as a result of ejection into the suction duct 2. the umbrella itself, as well as intensive suction around the perimeter of the umbrella, in the zone of the annular suction inlet 6, which is equivalent to the conditional elongation of the umbrella (figure 1). In order to optimize the operation of the umbrella, replaceable dampers 19 are used, with which you can change the suction mode around the umbrella perimeter.

As a result of the increased speed in the umbrella, they are intensively removed (hazards) through the suction duct 2 into the ventilation system. In addition, there is an intensive trapping of hazards (blown off by side air flows) around the umbrella perimeter, which also contributes to its highly efficient operation. At the same time, the zone of the umbrella is visible for servicing, since its conditional elongation occurs (Fig. 1). When a neutralizing harm of the gas mixture is supplied through a nozzle-collector 9, they are intensively mixed and neutralized directly during their removal, which is important, since their concentration in the removal zone is maximum.

The proposed exhaust umbrella has an increased operating efficiency of the umbrella due to the creation of increased gravity both in the central part of the umbrella and around its perimeter, provides adjustment of the intensity of removal of sucked harmful substances during their release, for example, a short-term strong ha is created. . The process of removing the hazardous substances is automated depending on their concentration and the volume to be released, i.e., a feedback system is created, which allows a more economical ventilation system to be created; The possibility of using the device in combination with natural exhaust has been expanded.

It is possible to suck out harmful, aggressive and other substances that cause, for example, severe corrosion of the fan, as well as substances that are

accidental sparking can ignite and explode; simultaneously with the removal of hazards, to neutralize them directly in the umbrella, which is especially important, since the concentration

Harm in this zone is maximum; save electricity and, consequently, reduce thermal pollution of the environment, by creating more economic ventilation systems.

At the same time, in devices, there is a risk

call the energy of compressed gas instead of electric power, which allows the use of exhaust gases from existing technological equipment, i.e. utilization of energy PP: / -;

The proposed ustovozzho is simply to be manufactured and operated / 1e, it requires additional working space, cheaply:

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Claims (3)

1. Exhaust umbrella, with conical shell with suction device | 1 air guide and conical insert located inside the case, coaxially with it o6 | azaniem an annular gap between them, aphid ara, and so that, in order to increase operational efficiency and increase technological capabilities, the wf is equipped with annular manifolds, and we have: a compressed air supply pipe | and so | la directed to the side ;; the suction duct, and a flange connecting the edges of the insert and the housing, while the flange has a suction opening located in the central part of the annular gap. 2. Umbrella according to claim 1, excl and chas yushchi and so. that the suction inlet is made in the form of a diffuser. - .. 3. Umbrella according to claim 1, from the vessel and from the fact that the suction inlet and outlet pipe of the compressed gas are equipped with adjustment mechanisms. The area of their flow area.  . -; . Option 2 Fig.1 2 Voriantz / / / / s / / // 7 / 5 JL Option 1 J The embodiment of the slot with a flap 7