SU281248A1 - AUTOMATIC REVERSE MECHANISM - Google Patents

Description

The invention is related to the field of pneumatic transport, in particular to the mechanisms of automatic back-flushing of filters of the settling chambers of the suction system.

Mechanisms are known for the automatic reverse induction of filters of the precipitation chambers of suction wind-transport installations, consisting of two valve boxes mounted on suction air lines connecting the filter and the vacuum chamber to the vacuum pump. Each valve box is provided with two valves mounted on the stem, alternately blocking the suction pipe and there is a purge opening in the box that communicates with the atmosphere. In these mechanisms, the claws of the claws are set in motion by the LAND. And at their ends, two pistons of broken diameter. The working cavity of the smaller piston is connected to the suction air duct and directly, and the larger piston - through the storage tank and the regulating valve. The pauses between the blowdowns are set using valves. The magnitude of the storage capacity affects the duration of pauses and purging.

They are slowed by shaking, which leads to a reduction in the unit's performance or to a decrease in the operating pressure due to the intake of too much air and their shaking too often (this also reduces productivity). The valves open gradually, which reduces the pneumatic shaking effect. The purpose of the invention is to increase

filter cleaning efficiency, firstly, by automatically switching on the mechanism of the achievement of a predetermined value of filter resistance and automatically turning it off after cleaning the filters; secondly, by maximizing the effect of pneumatic shaking of the filters, provided by instantaneous opening of the valves, and, thirdly, by normalizing the duration of the purge process, which makes it possible to let only the necessary amount of air into the settling chamber.

This goal is achieved by the fact that the mechanism is equipped with a filter resistance sensor,

made in the form of a sectioned membrane of the casing, the cavities of which are connected by a nipple of a MP with a dof filter and a filter cavity of the chamber. To the sensor membrane irikrepley stock, interacting with the start; 3

alternately activated by the command of the sensor electromagnetic actuators, which are connected with the rods of clamps.

FIG. 1 shows the mechanics of the production codes, a longitudinal section; on fng. 2 - the same, top view, in section.

The modularism of the extraction consists of two classed boxes I, 2, each having two plate valves 3, 4 rigidly fixed on the brush 5. Both clan boxes are connected to a vacuum pump with the help of a suction air duct 6, 7, but are not shown in the drawing. with a racket of suction air lines 8, 9 - with a post-filter cavity B of the settling chamber 10. Each box has a partition 11 with a seat 12 for valve 3 and a sleeve with a seat 13 for valve 4. The stem 5 of the keys is connected with a electromagnetic actuator 15 . To maintain valves in ref. one position is the spring 16.

A filter resistance sensor 17 is mounted on the corus chamber. One sensor cavity is connected by a pipe 18 with a pre-filter cavity B of the settling chamber, i.e. with the volume before the filters (counting along the air). Nozzle 19 connects the other iolality of the sensor and the filter-loss cavity B of the chamber. The stem 20 of the sensor attached to the membrane e 21, is in contact with the starting button 22.

By simply changing the distance between the end of the rod 20 and the pin of the button 22, the system can be easily configured to turn on automatic purging when it reaches any given filter resistance value.

The mechanism for purging filters works as follows.

During normal operation of the settling chamber, the material enters it with air. The bulk of the material is deposited in the filter and is removed from it by a screw (not shown in the drawing). The dusty air is idlipped into the chamber 10, passes through the filters 23,: In them from material particles, and through the air ducts 8, 9, the valve boxes 1, 2 and the air ducts 6, 7 are sucked off by a vacuum pump and released into the atmosphere.

 Suction air passing through the filters 25 gradually clogs them. Thus, over time, the working vacuum in the cavity B of the precipitation chamber decreases, while in cavity B it remains high. A vacuum differential is formed between these cavities, which causes a displacement of a sensor / 7 resistor 20. The sensor rod 20 connects the pin of the button 22, which closes the corresponding electrical circuit and gives it a chance to switch on the automation. Automation and switching on and off electromagnetic drives / 5. When the electromagnetic actuators 15 are turned on, the magnet bore moves the valves 3, 4 through the shackle 14 and the rod 5, 4, by closing. KvTanan 3, closing the chamber, detaches the compartment of the settling chamber from the vacuum pump, and valve 4 with the atmosphere. Atmospheric air quickly enters cavity 5 (indicated by arrows), which causes the filters 23 to shake and purge them with air in the opposite direction. The air that has passed into the chamber is sucked off with a vacuum pump through the second compartment of the precipitation chamber.

After turning off the electromagnetic actuators 15 (after 1 sec under the influence of the spring

The 16 clauses return to their original position, i.e., clan 3 is opened and valve 4 is closed (on phg. 2 it is depicted with a dotted line). In the initial position, the cavity B of the chamber is connected to a vacuum pump.

In this way, the f.ilters 23 are automatically cleaned until the differential-gap between cavities B and C is reduced to a minimum, after which the rod 20 stops pressing the pin of the button 22,

the electrical control circuit is broken, and the filter blowing process is terminated.

Subject invention

The mechanism of automatic back-flushing of the filters of the collecting chambers of the suction pneumatic conveying installations, consisting of two valve boxes, mounted on the suction air lines,

connecting the post-filter iolinity of the chamber with a vacuum pump, each valve box being provided with two valves reinforced to the stem by two valves alternately blocking the suction pipe and the opening for purging in the box, which is connected with the atmosphere, characterized in that in order to increase the efficiency of filter cleaning, the mechanism is equipped with a filter resistance sensor made in

in the form of a housing divided by a membrane, the cavities of which are connected by nozzles to the pre-filter and post-filter cavities of the chamber, and a stem interacting with the start button is attached to the sensor membrane,

electrically connected with alternately activated by the command of the sensor electromagnetic actuators, which are connected to valve rods.

FIG ..