CS256402B1 - Closing device for pipeline systems - Google Patents

Abstract

The invention is within the field of air conditioning. Pipe gystem sealing devices according to the invention, it comprises at least the following: of one closing body pivotally mounted in the expanded pipeline area system. On the circumference of the closing body flexible rails are adjustable gaskets and spacers. In the open position, the closure body engages with your eye to the belay element, a it is supported by at least one resilient stop. The use of the invention is possible in air conditioning pipes in the suction boxes of the fans.

Description

BACKGROUND OF THE INVENTION The present invention relates to a shut-off device for piping systems for conveying air.

Air handling equipment used for air transport are designed in various ways in terms of function, layout, investment and operating costs, operational safety, shape and arrangement of transport routes and the like. These devices include shut-off devices for pipelines, such as dampers, gate doors, shutters, and the like, which are primarily used to shut down a portion of the device from operation or to switch to other traffic routes.

Known shutters, dampers and other shut-off devices known to date are characterized by imperfect tightness, investment demands, difficult handling, space requirements, deteriorated aerodynamic properties and thus higher energy consumption. The use of known shut-off devices, for example in the case of main mine ventilation in the event of an emergency situation, makes it very difficult to comply with safety regulations. Manipulating these bodies is complex and time consuming. In addition, when a mine fire occurs, they require a disproportionate amount of backfill material to seal the shut-off device and, moreover, it is difficult to mechanize the work.

These drawbacks are overcome by the shut-off device of the piping systems according to the invention, which consists of at least one shut-off body mounted pivotably by means of a continuous shaft arranged at the side wall of the pipe system in its expanded space. inner contoursand side walls of the piping system. The essence of the invention is that they are adjustable over the entire circumference of the closure body

- 2 256 402 rails in which the elastic seal is firmly attached are fastened in the closing direction. Spacer bolts are disposed for portions of the periphery of the closure body remote from its attachment to the continuous shaft. At least one securing element is fastened to the wall of the expanded space, the housing of which engages an eye fixed on the reverse side of the closure body, in which open axis of the eye aperture coincides with the axis of apertures in the ribs of the box; bodies. At least one spring stop is mounted on the inside of the widened space, the height of which, before compression, is greater than the gap formed between the widened wall and the back face of the closure body in its open locked position.

The advantages achieved by the closure device according to the invention are that it is possible to perfectly adjust the closure bodies in their closed position for maximum tightness, or to limit the tightness of the closure bodies after long-term operational use by re-energizing their sealing bias. In addition to the adjustment of the tightness of the closing bodies, the spacing screws provide relief of the force applied to the elastic seal in the closed position of the closing bodies and thus allow their convenient mounting for vertical conveying routes and suction chambers. closing body. It is also possible to use the closing bodies in the closed position as assembly platforms, which ensure maximum safety of work. The interlocking elements, when interacting with the spring stops, reliably suppress the vibrations and noise of the closing bodies in the open position. Permanent preloading between the contact surfaces of the locking pins and their guide holes also prevents their vibration and spontaneous ejection.

An exemplary embodiment of a shut-off device of the piping systems according to the invention is shown in the accompanying drawings. FIG. 1 is an exterior view of the side wall of the vertical duct and the wall of its extended space. FIG. 2 is a schematic side view and cross-sectional view of the arrangement of FIG. 1. FIG. Giant. Fig. 4 shows schematically a side and sectional view of the arrangement according to Fig. 3. Giant. 6 shows a cross-sectional detail of the cushioning of the closure body in an open pole. Giant. 7 shows in detail a detail of the securing element in the latched plate. Giant. 8 shows a section A-A of the arrangement of FIG. 7.

The enlarged spaces 2 are formed either in the side walls of the vertical square duct or in the wall of the suction chamber of the fan. In the open position, the closing bodies 3 are immersed, fixed to the continuous shafts 4, which are pivotably mounted in bearings. The closing bodies J are provided with eyelets 6 with openings 7, whose axes in the open position of the closing bodies coincide with the openings 20 securing elements 8 mounted on the walls of the expanded spaces 2.

In the same common axes are retractably mounted pins 22, the movement of which is controlled by servomotors 23. The movement of the closing bodies 3 is controlled by ropes 9 fixed at the ends of the closing bodies 3 # Ropes 9 are guided via rollers 10 to winding drums 11 controlled by servomotors 12 In the closed position of the closing bodies 3, a resilient seal 15, which is fixed in the strips 14, is supported on their bearing surface beside the spacing bolts 17, which are fixed to the circumferential reinforcements 13 of the closing bodies 13 On the part of the circumference of the closure bodies J remote from their fastening on the shafts 4, the circumferential reinforcements 13 are provided with spacers 12 which are secured by nuts 18 and their faces define the gap between the faces of the closure bodies 3 and their abutment surfaces. The elastic stops 19 are fastened from the inside of the enlarged spaces 2 to their walls 1. Their height before compression is greater than the gap formed between the walls 1 and the reverse sides of the closing bodies 3 in their locked open positions.

Claims (3)

Pipe system shut-off device, comprising at least one shuttle body pivotable by means of a continuous shaft arranged at a side wall of a pipe system in its widened space, in which the shutter body is immersed in its open position and its face contiguously adjoins the inner contour of the side wall A pipe system, characterized in that rails (14), in which the elastic seal (15) is fixedly fixed, are fixedly fixed around the periphery of the closure body (3) in the closing direction of the closure body (3). since it is fixed on the continuous shaft (4), the spacing screws (17) are located. Closing device according to claim 1, characterized in that at least one securing element (8) is fastened to the wall (1) of the widened space (2), into the housing (20) of which an eye (6) fastened on the reverse side of the closing body (3) ), in which open position the axis of the opening (7) of the eye (6) coincides with the axis of the holes in the ribs (21) of the housing (20) in which is retractably _f receives a pin (22) for locking the open position of the closing body (3). and Closing device according to Claims 1 and 2, characterized in that at least one spring stop (19), whose height before compression is greater than the gap formed between the wall (1), is fastened to its wall (1) from inside the widened space (2). ) and the reverse side of the closing body (3) in its open locked! position. AND