CZ305354B6 - Safety device with explosion proof flap with arresting mechanism, particularly for environment with occurrence of inflammatory or explosive substances - Google Patents

Abstract

In the present invention, there is disclosed a safety device with explosion proof flap with arresting mechanism, particularly for environment with occurrence of inflammatory or explosive substances consisting of a body (1) provided with a removable cover terminated by inlet and outlet flanges (2, 3), and an explosion proof flap (4) mounted in swingable manner in the interior thereof. Outside the body (1), there is an arresting mechanism for securing the position of the explosion proof flap (4) having its upper part formed by a prismatic body (6) with a through-hole wherein half-axles (7.1, 7.2) of the explosion proof flap (4) are secured by means of screws (8) in said through-hole. The explosion proof flap (4) half-axles (7.1, 7.2) are carried in bearing blocks (26) of the body (1), whereby the arresting mechanism, arranged on one outer side of the body (1) on a bearing plate (11), consists of an arrester (13) with a compression spring (14), mounted slidably on the bearing plate (11) through the mediation of guide pins (12). An arresting lever (17), provided in its central portion with an arresting pin (18) adapted for engagement with an arresting finger (19) performed on the arrester (13) lower side, is mounted in swingable manner on the bearing plate (11) underneath the front portion of the arrester (13). The arresting lever (17) terminates by a pin (20), which is in engagement with a groove (21) performed in a multifunctional cam (10) coupled with the half- axle (7.2), while the other end of the multifunctional cam (10) is connected with a tension spring (25). The arresting mechanism further comprises in its rear section a double arm-clearing lever (22) mounted in swingable manner on the bearing plate (11) and having its lower arm (23) connected through the mediation of a tension spring (24) with the arrester (13).

Description

Technical field

FIELD OF THE INVENTION The present invention relates to a safety device with an anti-explosive flap having a locking mechanism intended to be mounted by means of flanges in a duct in front of a site with an increased probability of explosion of combustible or explosive dust particles. These combustible or explosive dust particles, which occur in various industrial plants, such as mills, sugar mills, coal mines or other similar industrial plants, are conveyed through a piping system, with the purpose of installing a flame arrester safety device in the piping system to prevent or minimize consequences. possible explosion of flammable or explosive dust particles.

BACKGROUND OF THE INVENTION

The known anti-explosive flap construction forms a body predominantly in the form of a sheet metal cylinder, which is closed from above by a removable lid and which is provided with connecting flanges at both ends. From the utility model CZ 21767 there is known a solution according to which in the upper part of the sheet metal cylinder a closing member is formed on the rotating shaft, which consists of a pressure plate and a sealing plate mounted pivotably on this pressure plate against the sealing edge of the closed supply line. The pressure plate with the sealing plate is locked in position when the supply pipe is closed by a non-return flap. In the event of an explosion, an explosion pressure wave causes the non-return valve closing member to be closed to the closed position, thereby closing the supply line. At the same time, the pressure plate of the closure member is locked in this position, thereby avoiding pressure and flame transfer between the two process devices. After the explosion has passed, the locking of the pressure plate with its sealing plate of the non-return valve closing member is manually released, thereby opening the supply line.

The non-return valve locking mechanisms are relatively complex and are generally used in duplicate, which complicates their adjustment, which must be performed upon complete disassembly, i.e. when the valve is removed from the non-return valve body. The locking mechanism consists of a locking screw holder, a locking screw with a spring-loaded ball and a latch. The adjustment itself is carried out by moving the locking screw holder. A drawback of the spring-loaded screw is that the spring-loaded ball only protrudes slightly above the surface of the screw, whereby the ball stroke is very small. When closing the damper blade, the latch on the damper blade is moved over the spring-loaded ball of the locking screw and the damper blade is then locked against bouncing. This movement of the sprung ball over the pawl thus results in a large impact and great wear of the flat pawl and sprung ball.

From the utility model CZ 20338 a solution is known, which is based on the fact that the arresting mechanism located in the lower part of the non-return flap housing is provided on the inner side of the bottom of the flap housing with a service opening and a bracket to which the latch is located. spring pin and stop bolt fixed in the nut on the flap blade.

The disadvantage of all currently used designs is that the explosion flaps remain closed after the explosion, and the operator must partially remove the damper to unlock the damper. There is a risk that the anti-explosion damper may be altered and malfunctioned. A disadvantage of these solutions is that even when the anti-explosive flap blade is locked in the locked position, it can vibrate due to the explosive pressure forces and thereby partially discharge the exploding medium into the piping system. A common disadvantage of the currently used flame arresters is that, when the pipe systems are guided at considerable heights, re-flame arresters to the released position are very demanding and require additional access means.

SUMMARY OF THE INVENTION

These deficiencies are largely overcome by a safety device with an anti-explosive flap with a locking mechanism according to the invention, intended to be mounted by means of flanges in a piping in front of a site with an increased probability of explosion of flammable or explosive substances.

SUMMARY OF THE INVENTION The invention is based on the fact that the upper end of the anti-explosive flap forms a prismatic body with a through hole in which the axles of the anti-explosive flap mounted in bearing housings in the body are fastened by means of screws. The anti-explosion damper locking mechanism, arranged on one of the outer sides of the body on the support plate, consists of a locking pawl with a pressure spring mounted on the support plate slidingly by means of guide pins. Underneath the front part of the detent pawl, a detent lever is pivotably mounted on the carrier plate provided with a detent pin adapted to engage the detent thumb formed on the underside of the detent pawl in the central portion. The locking lever is terminated by a pin which engages with a groove formed in the multifunctional cam, which is positively connected to the half-axle. A tension spring is attached to the other end of the multifunctional cam. The locking mechanism at the rear further comprises a two-arm release lever pivotably mounted on the support plate, the lower arm of which is connected to the locking pawl by means of a tension spring.

In a preferred embodiment, the bearing housings in the housing are arranged adjustable in the vertical and horizontal directions.

According to a further preferred embodiment, the anti-explosive flap in the lower part is provided with a thrust tongue.

According to a further preferred embodiment, the locking pawl terminates at one end with a beak-like locking nose and at the other end with an unlocking pin.

It is also advantageous if a cut in the form of a planar surface is provided on the locking pin located on the locking lever.

Furthermore, it is advantageous if the tension spring, which is connected at one end to the multifunctional cam, is provided at the other end with a tensioning device arranged outside the body.

Another advantage of the present solution is that on the outside of the multifunctional cam, position indicators of the red and green flame arrester are arranged.

Preferably, one of the half-axes is equipped with a cam segment for electronic signaling of the position of the anti-explosive flap.

It is also advantageous to design a two-arm unlocking lever in that the unlocking of the locking mechanism is enabled by pulling the two-arm unlocking lever downwards, which makes it possible to unlock the locking mechanism from the ground with a suitable simple tool, for example a hook bar.

Furthermore, it is advantageous if the locking thumb has an arcuate profile whose center lies between the pivot axis of the locking lever and the longitudinal axis of the pressure spring at a point such that no action of torque occurs on the locking lever by the action between the locking thumb and the locking pin.

-2GB 305354 B6

The solution according to the invention avoids oscillation of the anti-explosive flap in the locked position during an explosion and furthermore enables the anti-explosive flap to be unlocked even in the piping system guided in higher positions by means of a two-arm unlocking lever. pneumatic drive.

Clarification of drawings

Giant. 1 is an axonometric view of a non-explosive flap valve body with the lid removed;

Giant. 2 Anti-explosive flap;

Giant. 3 Locking mechanism;

Giant. 4 Detail of detent latch;

Giant. 5 is a sectional view of the flame arrester prior to closing the passage of the piping system;

Giant. 6 View in section of the flame arrester in the locked position, ie after closing the passage of the piping system.

DETAILED DESCRIPTION OF THE INVENTION

FIG. 1 shows in axonometric view a body 1 of a security device with an anti-explosive flap 4 having a rectangular or square shape from above, having an inlet flange 2 at one end and an outlet flange 3 at the other end. from above closed by a removable lid not shown here. In the interior space of the body 1 there is pivotably mounted an anti-explosive flap 4 coupled with a locking mechanism, which is described in more detail below, arranged on the side of the body 1 of the safety device.

The flame arrester 4 shown in Fig. 2 is formed as a welded sandwich structure with stiffeners, at the lower free end of which a ram tongue 5 is formed. The upper part of the flame arrester 4 consists of a prismatic body 6 provided with a through hole. The axles 7.1 and 7.2 are fixed on one side in the rectangular body 6 by means of screws 8 and on the other side rotatably mounted in tilting bearings in the bearing houses 26 in the body i. and 72 in the axial direction extend and loosen the anti-explosive flap 4, in case of its wear or deformation caused by explosion, remove when opening the removable lid. The bearing housings 26 with bearings are adjustable in the horizontal and vertical axes and are secured by pins in order to position the flame arrester 4 precisely. As can further be seen from FIG. 2, the cam segment 9 of the electrical position signaling device is located on the axle 7.1 facing away from the locking mechanism described below. The axle 7.2 is connected to the shaped multifunction cam 10 on the outside of the body and the anti-explosive flap by means of a positive connection, on which the optical signaling 27, 28 of the position of the anti-explosive flap 4 of green and red color.

The locking mechanism shown in FIG. 3 consists of a support plate 11 fastened by means of screws to the body 1, on which the locking bolts 13 are slidably mounted on the guide pins 12, pressed by a pressure spring 14, terminated on one side by the locking nose 15 and on the other by 16. The locking pawl 13 is in the operating position, i.e. in the upper position of the flame arrester 4, when it is completely through to the piping system, blocked by a locking lever 17, pivoted on a support plate XX, provided with a locking pin 18 engaging with the locking pawl. a thumb 19 formed on the underside of the locking pawl 13. The free end of the locking lever 17 terminates in a pin 20 engaging a groove 21 formed in the multifunction cam 10.

-3 CZ 305354 B6

As can be seen further from the detailed illustration of FIG. 4, the upper side of the locking pin 18 has a ground surface that slides over the lower surface of the locking pawl 13.

In FIG. 5, the anti-explosive flap 4 in the open position is further shown in the cut-out prior to closing the passage of the medium through the piping system. As can be seen from the figure, the locking pawl 13 is held in a locked or locked position. in the standby position by means of the locking pin 18 on the locking lever 17 engaged with the locking thumb 19 on the underside of the locking pawl 13, the surface of the locking thumb 19 having an arc profile with the pivot center of the locking lever 17 so it has been ensured that between the upper position of the anti-explosive flap 4 and the lowering point of the locking mechanism, only the frictional force is applied between the locking thumb 19 and the locking pin 18 and not other forces that would cause the locking lever 17 to rotate in any direction.

In FIG. 6, an anti-explosive flap 4 in the closed position due to an explosion is shown in the cut-out. As can be seen, turning the anti-explosive flap 4 to the closed position results in the pivoting of the multifunction cam 10, and hence by means of a pin 20 that extends into the groove 21 in the multifunction cam 10, pivoting the locking lever 17 thereby releasing the locking pin 18 from The locking pawl 13 is then moved by the pressure spring 14 to the multifunction cam 10 until the locking nose 15 firmly abuts the surface curve of the shaped multifunction cam (15) with a force several times greater than that of the tension spring 24 to raise the anti-explosive flap 4 to the operating, i.e., upper position, where the piping system is completely through and thus prevent further movement of the multifunctional cam 10, for example the vibration of the blade 4 due to an explosion which is firmly connected to the multifunctional cam 10 via a positive connection. arresting of the nose 15 on the surface of the multifunctional cam (fy) is already before the closing point of the anti-explosive flap 4 such that the locking mechanism is self-locking and thus it is not possible to open the anti-explosive flap 4 by reverse force acting on the anti-explosive flap blade

4.

As further evident from FIG. 3, the unlocking mechanism 4 is used to unlock the flame arrester flap 4 from the closed position. The shorter lower arm 23 of the two-arm unlock lever 22 is connected via a spring 24 to the detent pawl 13. When the anti-explosion flap 4 is unlocked, the longer arm of the two-arm unlock lever 22 is moved closer here. The rod (not shown) is in a horizontal position when its second shorter arm 23, by acting on the unlocking pin 16, pulls the locking pawl 13 out of engagement with the multifunction cam 10. The released multifunctional cam 10 is then brought back to its original starting position by means of a tension spring 25, and the firmly connected anti-explosive flap 4 is thus brought into the open position. At the same time, the two-arm unlocking lever 22 is moved by the force of the spring 23 to the standby position, i.e. to a position in which it has no effect on the locking mechanism.

Claims (8)

PATENT CLAIMS Safety device with an anti-explosive flap having a detent mechanism, in particular for environments with the presence of flammable or explosive substances, consisting of a body provided with a removable lid, terminated by an inlet and an outlet flange, in which the anti-explosive flap is pivoted. mechanism for securing the position of the flame arrester, characterized in that the upper end of the flame arrester (4) forms a prismatic body (6) with a through hole, in which the axles (7.1, 7.2) of the flame arrester (4) are mounted in bearing housings (26) in the housing (1), the locking mechanism arranged on one of the outer sides of the housing (1) on the support plate (11), consisting of a locking pawl (13) with a pressure spring (14) mounted on the support The plate (11) is slidable by means of guide pins (12), and below the front part of the locking pawl (13), a locking lever (17) provided in the central part with a locking pin (18) adapted to engaging with a detent thumb (19) formed on the underside of the detent pawl (13), the detent lever (17) terminating in a pin (20) which engages a groove (21) formed in the multifunction cam (10) integrally connected a tension spring (25) is attached to the other end of the multifunctional cam (10), the locking mechanism at the rear further comprising a pivotally mounted two-arm unlocking lever (22) on the support plate (11), the lower arm (23) of which ) is connected to the detent pawl (13) by means of a tension spring (24). Safety device according to claim 1, characterized in that the bearing housing (26) is arranged in the housing (1) in an adjustable vertical and horizontal direction. Security device according to claim 1, characterized in that the anti-explosive flap (4) is provided with a thrust tongue (5) at the bottom. Security device according to claim 1, characterized in that the locking pawl (13) is terminated at one end by a beak-like locking nose (15) and at the other end by a release pin (16). Security device according to claim 1, characterized in that a cut in the form of a planar surface is provided on the locking pin (18) located on the locking lever (17). Safety device according to claim 1, characterized in that the tension spring (25) connected to the multifunctional cam (10) is provided at the other end with a tensioning device (27) arranged outside the body (1). Safety device according to claim 1, characterized in that on the outside of the multifunctional cam (10) the position indicators (28, 29) of the anti-explosive flap (4) of red and green are arranged. Safety device according to claim 1, characterized in that the half-axle (7.1) is provided with a cam segment (9) for the electronic signaling of the position of the flame arrester (4).