SU1505568A1 - Filter for cleaning a gas - Google Patents

Abstract

The invention relates to the purification of gases from dust in the systems of aspiration and pneumatic conveying and allows increasing the filtration cycle. The filter includes a housing with a tapered sleeve and a valve. A regenerating device in the form of an annular element is attached to the sleeve on flexible pipes. On the inner surface of the case, brackets are fixed on mutually opposite sides with a horizontal displacement of at least half the diameter of the element. When lifting the sleeve and the element under the pressure of dusty air, the element periodically clings to the brackets, breaks off them and shakes the sleeve sharply, making it regenerate. 1 il.

Description

The invention relates to the purification of air and gases from dust in the systems of aspiration and pneumatic transport, both vacuum and pressure.

The purpose of the invention is to increase the filter cycle.

The drawing shows the scheme of the proposed filter, a general view.

The filter contains a vertically mounted cylindrical body 1 with an upper conical part 2 with an outlet nozzle 3, a conical sleeve 4 with a valve 5 in the bottom part and a regenerating device 6.

As a regenerating device around the perimeter of the middle part of the sleeve 4, an annular element 8 is suspended on flexible rods 7. The element 8 is in contact with the valve 5

By means of sub 9, mounted on the valve.

Along the perimeter of the housing wall on its inner surface with a horizontal offset of at least 0.5 of the diameter of the annular element brackets 10 are fixed, made in contact with the VieHTOM B element.

The filter works as follows.

The cleaned air passes through the sleeve 4, on the inside of which a layer of dust is formed, which leads to an increase in the pressure drop above and below the sleeve. The increasing internal pressure acts on the sleeve and raises it up with the annular element 8,. which rises to the nearest

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bracket 10, clings to it with one edge. As the sleeve continues to lift, the element continues to rise upward, tilts, then snaps out of engagement with the bracket and shakes the sleeve sharply as it vibrates. As a result of a decrease in the sleeve resistance, the latter again descends to its original position and hits 9 with the tipping element 9 (when the sleeve is raised, the support 9 rises faster than the element and the gap increases between them, and when the sleeve is lowered, the element This element catches up when it stops in the lower position of the sleeve and collides with it). In this case, the sleeve is shaken further. Further, with further filtration and increased tissue resistance, the sleeve rises again, etc.

With the increased flow rate of the gas to be purified and at the same time its high dust content, the brackets 10 are mounted vertically in several lines. This is necessary so that after the moment when the pressure of the dusty gas begins to exceed the resistance of the fabric of the sleeve and the ring-shaped element during lifting, the sleeve was shaken several times, which increases the intensity of cleaning the fabric from dust. With a sufficiently long filter operation, the fabric of the sleeve, despite the partial regeneration, is shaken during filtration and still increases the resistance to the gas flow. At the same time, at the end of the filter cycle, the sleeve is completely reversed and impacted by the valve 5 with the inlet nozzle. When the pressure is removed under the sleeve, as a result of cessation of the supply of the source gas, the sleeve under the t-sheet of its own and ring-shaped element drops sharply and hits the baffle 9 with the central part of element 8, which causes a powerful shock pulse and intensive shaking of the sleeve, after which it opens again gas supply and filter cycle resumed.

The proposed filter increases the filter cycle due to the intermediate regeneration of the sleeve by inserting it with the help of a ring-shaped element that comes off the brackets (under the filter

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the cycle in this case is understood to be the time of continuous operation of the filter between the main regenerations of in-built when the supply of the source gas is stopped (the gas supply pipe is shut off).

The sleeve reaches the upper position when the pressure drop under the sleeve and above it will be greater than the weight of the sleeve together with the ring-shaped element. The pressure of the source gas maintains the sleeve in the upper position until the supply of the source gas through the inlet nozzle closes, which eliminates the pressure drop and the sleeve along with the element falls down to its original position.

After the annular element is released from the engagement with the bracket, it abruptly turns in the other direction and experiences oscillatory movements with a simultaneous inset sleeve.

If the distance between the brackets is reduced to less than 0.5 of the element diameter, this limits the oscillation of the annular element to the opposite diameter of the brackets, since the specified element clings to them during vibrations. This test, as shown, reduces the intensity of the inset sleeve. Therefore, the brackets are installed with an offset of at least 0.5 of the diameter of the element.

The technical and economic efficiency of the proposed filter is to simplify the regeneration process by hanging an additional ring-shaped element on the hooks, which, when lifting the sleeve, dismounting from the brackets, shakes it periodically, which reduces the filter resistance during operation to an average of 15%. 20% and provide a more stable long-term operation of the filter, and with a large gas flow and high dust content, the time between regenerations increases by 1.5-2 times.

Claims (1)

Claims A gas purification filter comprising a vertically mounted cylindrical body with an upper conical part provided with an outlet nozzle, a conical sleeve with a valve, and a regenerating device, characterized in that Editor V. Danko Compiled by N, Kovaleva Tehred M. Morgental Proofreader T. Malets Order 5374/6 Circulation 600 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5 Subscription