SU929169A1 - Bag filter - Google Patents

Description

(5) SLEEVE FILTER

The invention relates to the light, chemical, energy, food, woodworking, animal feed and other sectors of the industry, in which bag filter filters are used to purify air and gas from the suspended particles contained in them. A bag filter is known, consisting of a body, filter sleeves, contaminated and clean air chambers and a regeneration mechanism, including devices for opening the blow-back valve and shaking valve sleeves. The disadvantages of the known technical solution are a small amount of sleeve shaking, which does not contribute to their effective cleaning, which contributes to the accumulation of waste in the filter, and thus increases its fire and explosion hazard. The device for shaking the sleeves is B, m virtually all filter overlap, which allows it to install expelling openings with the ventilation factor K 0.1 required to ensure the machine's explosion safety (the ratio of the areas of expelling openings to the internal volume of the filter. In addition, the installation of expelling openings with exhaust pipes in real conditions it is difficult to do. Longer stretching of the sleeves when shaken contributes to their wear and, as a result, shortens the duration of their service. them and their lower parts, i.e. in the places where they are connected to the collector. When the hose is under a high tension, it explodes and in the middle. Damage areas of the sleeves predetermine the ingress of filtered dust into the air ducts of the recirculated air or into the environment.

The filter is difficult to maintain, since it consists of 125 items of parts with a total of 1,300 pieces and has 98 holes for daily lubrication.

The purpose of the invention is to simplify the manufacture of the filter and its operation.

The goal is achieved by the fact that in a bag filter consisting of a body. filter bags, pollution and clean air chambers and a regeneration mechanism, including devices for opening the back blow valve and shaking the sleeves, are located respectively above the clean air chamber and on the lateral surface of the housing, and the regeneration mechanism is equipped with guides a cable connecting the shaking device to the valve opening device of the backwash valve and resting on the guides, and the eccentric coupling interacting with the cable. It is advisable, in order to more efficiently regenerate the sleeves and increase their service life, to provide the sleeves with metal rings with clamps fortified them in the middle, and the filter with spring loaded tubes. installed with the possibility of reciprocating motion in the horizontal plane, while connecting the rings with clamps interacting with the eccentric clutch It is advisable to provide eccentric couplings with Z-shaped movement levers installed with the possibility of turning in a vertical plane and connected with a valve with reverse valve purge. FIG. 1 schematically shows the mechanism of regeneration of one half of the filter, top view; in fig. 2 - the same, longitudinal section. The filter consists of a housing 1, filter sleeves 2, chambers of contaminated 3 and clean k air and a regeneration mechanism consisting of an electric motor 5 of the V-belt drive 6 and 7, a gearbox 8, a shaft 9, horses

gear 10, shaft 11 mounted on filter housing 1 on bearings 12, half couplings 13, sitting on guide keys k of shaft 11, levers 15, rigidly connected to half couplings 13, and cable 16 with reverse blowdown valve 17, eccentric half coupling 18, freely sitting on

Claims (1)

shaft 11, ti 19, rigidly connected by a yoke 20 with metal rings 21 of the sleeves 2, springs 22, shaft 23 on bearings 2 with eccentric washers 25 of the lever 26 rigidly fixed on it, fixed 26 movably on the axis of the support 27 and hingedly connected to t 28 and, through it, the reverse purge valve 17, the spring 19, with the reciprocating movement of which the shaking of the sleeves 2 of the filter section occurs. The number of oscillations of the sleeves, i.e. the reciprocating movements of the gi 19 is determined by the speed of rotation of the eccentric coupling half 18 and the number of its projections, and the ampli29, which is fixed at one end on the valve 17, on the support 27. The filter works as follows. The dusty gas enters the chamber 3 of the dusty gas, passes inside the filter sleeves 2, where it is cleaned of dust and enters the chamber of the purified gas. With the help of the regeneration mechanism, another shaking and blowing of the sleeves of one of the filter sections occurs. The mechanism of regeneration works as follows .. Shaft 23 with rigidly mounted on. The eccentric washers 25 are driven into rotation by the electric motor 5 through the V-belt drive 6 and the gearbox 8. When the eccentric washer 25 is rotated, the lever 26 and the articulated BUTT 28, pivot at a predetermined angle, stop wedging the reverse blowdown valve 17 that opens the action of the spring 29. When opening this valve / cable 16, rigidly connected with it, the lever 15 pivots around its axis, which in turn moves the coupling half 13 along the keys of the shaft 11 to the eccentric coupling half 18, Half coupling 13, in engagement with the coupling half 18, gives it a rotational motion, which is connected to the shaft 11 by the electric motor 5 through the V-belt drive 7, the shaft 9 and the bevel gear transmission 10. The eccentric coupling half 18 pushes 19 from itself during rotation, and its return occurs under the action of the spring 22. The metal rings 21 of the sleeves 2 are rigidly connected by a yoke 2L, where the oscillations are determined by the height of these protrusions. The proposed regeneration mechanism is reliable in operation and easy to maintain compared to the known one. The number of burns in the sleeves after being shaken by this mechanism is three times less than when shaken by the well known FRM mechanism. Thus, the filter with the proposed regeneration mechanism is more technological and fire and explosion proof. The design of the mechanism makes it possible to set out the openings in the entire area of the filter overlap over its hose sections. Vibration regeneration of the hoses increases their service life. Claims 1. A bag filter consisting of a body, filter sleeves, chambers of contaminated and clean air and a regeneration mechanism that includes devices for opening the reverse-flow valve and shaking the sleeves, in order to simplify manufacture the filter and its operation, the device for shaking the sleeve and opening the check valve are placed respectively on the side surface of the housing and above the clean air chamber, and the regeneration mechanism is equipped with guides, a cable connecting the Reacting, shaking with the valve opening device of the reverse purge and supported on the guides, and the eccentric coupling interacting with the tro2. The filter according to claim 1, is different from the fact that, in order to more efficiently regenerate the sleeves and extend their service life, the sleeves are equipped metal rings with clamps fixed on their middle, and the filter is equipped with spring-loaded rods installed with the possibility of reciprocating movement in the horizontal plane, while the rings are connected by clamps with rods with eccentric clutch. 3. Filter popp. 1 and 2, characterized in that the eccentric couplings are provided with Z-shaped movement levers mounted for rotation in a vertical plane and connected by a cable with a back flush valve. Sources of information that are accounted for in the examination 1. Sorokin N.S. Ventilation, heating and air conditioning in textile plants. M., Easy Industri, 197, p. 88-70, Figure 38. 75 / 7 13 22 , V / 28 26 27 25 V X h  H - 2 , 2 h 7