RU207572U1 - Umbrella-visor - Google Patents

Abstract

The utility model relates to the field of heat engineering. The essence of the utility model lies in the fact that an umbrella-visor containing a front, back, two side planes and an upper (horizontal) plane, rigidly connected to each other, and an air duct is connected to the upper plane, characterized in that the front plane is connected to the upper (horizontal) ) a plane with the ability to rotate it around the horizontal axis of rotation, and additional planes are rigidly attached to the inner surface of the front plane along its long sides, located perpendicular to the specified inner surface. 3 ill.

Description

The utility model relates to the field of heat engineering and can be used in systems of local exhaust ventilation and process ventilation.

Local exhaust ventilation is designed to trap and remove harmful emissions (hazards) from the premises at the places of their formation with relatively low flow rates of the removed air.

Removal of contaminated air from the places of its release is carried out when constructing shelters near various technological equipment, which is a source of harmful emissions. The device of local exhaust ventilation is the most economical and effective way to combat harmful emissions and maintain the required air parameters at permanent workplaces. The main element of local exhaust ventilation is local suction.

A device for local suction of gases from a melting furnace is known, see copyright certificate 397735 M.cl. F27d 17/00. The specified device includes a casing that covers the furnace and the mold. Above the mold there is a canopy made of folding and attached to the casing on hinges, and the central axes of the hinges are removed from the canopy wall to the side. The disadvantages of the known device are that it cannot be used to trap harmful substances that are knocked out of the charging holes of the heating furnaces. The specified device is taken as an analogue.

Local suction units are diverse in design, however, all types have basic requirements that they must satisfy. One of the requirements: local suction should not interfere with the normal operation of technological equipment and reduce labor productivity. This requirement should be especially taken into account when designing shelters for technological equipment that has a small working opening for loading and unloading parts.

For example, an umbrella-visor is more often installed at the inlet of a thermal furnace. The design and location of the canopy at the furnace loading opening is shown in Fig. 5.2, p. 58, see in the book "Ventilation: a textbook for students of higher educational institutions", authors V.I. Polushkin, S.M. Anisimov, V.F. Vasiliev, V.V. Deryugin. Publishing Center "Academy", M. 2008.

The canopy umbrella is made of sheet steel with a thickness of about 1 mm. Umbrella-visor contains front, back, two lateral planes and an upper (horizontal) plane; These planes are rigidly connected, for example, by welding, to each other. The front plane is inclined; the inclination is made towards the furnace feed opening. An air duct is rigidly connected to the upper horizontal plane, which serves to remove gases that escape from the furnace feed hole.

It is known that the side shields at the canopy, which descend to the bottom of the furnace feed opening, reduce the consumption of the sucked air by 10-20%. The sizes of the loading openings vary widely: from 293 × 293 (b × h), mm, to 1622 × 360 mm (see ibid., Pp. 68-69, table 5.5). The outreach of the canopy is determined by calculation and can reach from 800 to 1000 mm (see ibid., P. 61). The height of the canopy-canopy suspension at the furnace opening is taken at the level of the upper edge of the loading opening, as shown in Fig. 5.2, p. 58, (see ibid.).

The lower edge of the furnace charging hole is often located above the floor level of the working area by 800-900 mm.

If we take the distance from the floor of the working area to the bottom of the loading opening 800 mm, the height of the loading opening 500 mm, the overhang of the umbrella-visor 900 mm, then taking into account the above, the suction opening of the umbrella-visor is located at a height of 1300 mm from the floor level of the working area. With such dimensions, the worker who loads the parts into the furnace through the loading opening and then unloads these parts after the technological process is forced to work in a bent position so that his head does not hit the lower part of the canopy. Those. the disadvantages of the known umbrella-visor should be attributed to the difficulty of loading parts into the furnace and unloading them from the furnace after the technological process due to the fact that the worker must perform the specified work in a bent position, and this causes fatigue and fatigue. The known device is taken as a prototype.

The objective of the claimed device is to develop the design of the umbrella-visor, which would increase the height of the suction device of the umbrella-visor during loading and unloading of products into the oven without reducing the amount of trapped harmful emissions.

The specified result was obtained as a result of the development of an umbrella-visor, in which the front plane is attached to the upper (horizontal) plane with the possibility of turning it around the horizontal axis of rotation, and additional planes are rigidly attached to the inner surface of the front plane along its long sides, located perpendicular to the specified inner surface.

The essence of the developed umbrella-visor is illustrated by drawings, which show the structure of the umbrella-visor:

FIG. 1 is a perspective view when the front plane is lowered. FIG. 2 is a side view of FIG. 1. In FIG. 3 - the same as in FIG. 2, but the front plane is horizontal, i. E. raised.

The proposed umbrella-visor consists of several elements: 1 - front, as a rule, an inclined plane; 2 - left side plane; 3 - right side plane; 4 - back plane; 5 - upper (horizontal) plane; 6 - air duct for removing gases; 7 - ledge (vertical board) on three sides of the canopy; 8 and 9 - side shields. Side shields 8 and 9 at the canopy umbrella, going down to the bottom of the loading opening, prevent air from leaking into the canopy from the sides and (as will be shown below) increase the volume of the canopy umbrella, as a result, the amount of gas that enters the working area decreases ...

Two additional planes 10 and 11 are rigidly attached to the inner surface of the front plane 1 along its long sides (see Fig. 1) (for example, by welding). An additional plane 10 is located to the right of the left lateral plane 2 (the distance between them is 0.5 -1.0 mm), and plane 11 is located to the left of the right lateral plane 3 (the distance between them is 0.5-1.0 mm).

The front plane 1 is connected only to the upper (horizontal) plane 5 by means of two hinges 12 and 13 (hinges - in this case, they are hinges), which are attached to the upper plane 5 and to the outer side of plane 1. The inner surfaces of the front wall 1 rest on the front ends of lateral planes 2 and 3.

The hinges 12 and 13 formed a horizontal axis of rotation 14 (see Figs. 1, 2, 3), around which the front plane 1 can be deflected upward (from the working position) by an angle of about 180 degrees. The deflection of plane 1 is carried out using a mechanism that consists of a cable, two blocks and a drum with a handle.

A bracket 15 is rigidly attached to plane 1 in its lower part, to which one end of the cable 16 is rigidly attached; the cable 16 is passed through the block 17 and the block 18. The second end of the cable is fixed on the drum 19, which rotates with the handle 20.

The device works as follows. In furnaces for heating the metal, an overpressure is constantly maintained, under the action of which gases from the furnace are knocked out of the furnace through the loading opening into the room and enter the umbrella-visor, from which a fan (not shown in the figure) is removed from the room through the air duct 6.

When loading and unloading parts for the convenience of performing production operations and, in most cases, to increase labor productivity and less fatigue of the worker, the front plane 1 of the umbrella-visor is rotated around the axis of rotation 14 at an angle from 100 to 180 degrees (see Fig. 3) ; while the lower end of the specified plane rises up to a height of 1.7 to 1.9 m (and more) from the floor of the working area. This eliminates the contact of the worker's head with the lower part of plane 1 and, consequently, getting an occupational injury. If necessary, the worker can approach the outer surface of the furnace wall for the convenience of performing work operations. To rotate plane 1 around axis 14, it is necessary to rotate the handle 20 clockwise, the drum 19 will rotate together with the handle, and the cable 16 will be wound on the drum 19, because the end of the cable 16 is rigidly connected to the bracket 15, then the lower end of the plane 1 will rise up to the required height Η from the floor of the working area.

Because two additional planes 10 and 11 are attached to the inner surface of the front plane 1 along its long sides, then they will also rise upward (see Fig. 3). That is, after turning the front plane 1 by the required angle (up to 180 degrees), the flap 8 and the additional plane 10 form a new (first) common surface, and the flap 9 and the additional plane 11 form a new (second) common surface. Both of these surfaces exclude the flow of gases into the working area, increase the volume of the canopy and exclude the negative effect of horizontal flows in the room on the operation of the canopy. All of the above will significantly increase the amount of removed gases that are knocked out of the furnace feed hole.

After loading the parts into the oven or unloading the parts from the oven, plane 1 should be returned to its original position (see Fig. 1) for this, the drum 19 is rotated counterclockwise by the handle 20. Under the action of gravity, plane 1 will go down and take its original position (see Fig. 1). FIG. 3 R and R ₁ - radii of rotation of the lower parts of plane 1 when it is rotated.

A local suction has been developed - an umbrella-visor, which allows to significantly increase the volume of the umbrella-visor during operation. Such a constructive solution allows for a more complete trapping of harmful substances, with the same flow rate of the removed air, thereby reducing the concentration of harmful substances in the working area. Local suction allows you to adjust (change) the distance from the plane of the living section of the canopy to the working area; such a constructive implementation increases labor productivity and ensures the performance of technological operations in a more comfortable working position.

Claims (1)

An umbrella-visor containing a front, back, two side planes and an upper horizontal plane, rigidly connected to each other, and an air duct is connected to the upper plane, designed to remove gases, characterized in that the front plane is attached to the upper horizontal plane with the possibility of turning it around horizontal axis of rotation, and additional planes are rigidly attached to the inner surface of the front plane along its long sides, located perpendicular to the specified inner surface, with one additional plane located to the right of the left side plane, and the second additional plane located to the left of the right side plane, umbrella - the visor is equipped with side shields that go down to the bottom of the furnace charging hole.

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