RU206096U1 - Barrier testing device - Google Patents

Abstract

The utility model relates to control devices, including construction control devices, namely, devices for testing staircase fences, fire escapes, technological platforms, and other fences for horizontal load. The connection of the upper and lower supporting elements of the device is movable. A U-shaped grip is installed on the upper support element by means of a fastening sleeve, which is fixed on the upper support element with a fastening sleeve made of steel pipe and fixed on the lower side of the horizontal plate. On the one hand, the plate is hingedly attached to the shelf of the U-shaped grip, and on the other side it is fixed with a lanyard. On each side wall of the gripper, from one and the other ends, holes are made, located at different levels, for fixing bolts. The technical result is aimed at achieving a reliable and stable installation of the device on inclined handrails of fences with different angle of inclination of the handrails. 6 ill.

Description

The utility model relates to control devices, including construction control devices, namely, devices for testing staircase fences, fire escapes, technological platforms, and other fences for horizontal load.

Known device "Metkur" (Patent RU 2275614 publ. 27.04.2006), which is intended for testing the strength of external stationary fire escapes and roof fences. The device contains a cable with a hook at the end for attaching the cable to one of the elements of the tested structure, a housing on which a traction drum is mounted for winding a cable around it, equipped with a transmission and linkage mechanisms to ensure rotation of the drum, two installed at different heights relative to the base of the roller housing. The device also contains a link pivotally attached by its fixed end to the base of the body, at the movable end of which a swinging roller is hingedly fixed. The dynamometer is connected to the rocker arm.

The disadvantage of the device is that it is capable of creating a vertical or inclined load on the tested structure, and in the case of testing fences, it is necessary to create a horizontal load.

Known device for testing fences for the installation of TC-46 (https://www.unfire01.ru/pozhamyj-magazin/product/prisposoblenie-dlya-ispytaniya-na-rochnost-ograzhdeniya-krysh-dlya-ustanovki-tc-46.html ), made of upper and lower support elements connected at an angle into a single whole. The upper support element has a hook for a roof railing at one end and a hook for a load at the other, the lower support element has a transverse stop.

The main disadvantage of the device is the inability to adjust the angle of inclination of the upper support element and its length. This allows the device to be used only for certain standard sizes of roof railing and roof pitch angles.

The closest known device is a device for testing a roof fence (Patent RU 171550 publ. 06.06.2016), which includes upper and lower supporting elements rigidly connected at an angle to each other. A hook is attached to one end of the upper support element, to which a load is suspended during testing. A hook is welded on the other end of the upper support element, and a transverse stop is welded on the lower end of the lower support element. The upper and lower support elements are made in the form of telescopically connected steel pipes, while a deflection meter is installed at one end of the upper support element.

The disadvantage of the device is the impossibility of changing the angle between the upper and lower supporting elements due to their rigid attachment to each other. This does not allow you to adjust the distance between the hook and the stop and shift the stop in height, if necessary. Also, the disadvantage of the device is the difficulty or impossibility of using it for testing inclined railings (for example, stair railings), since the hook will roll down the railings of the railings without special measures to secure it to the railings of the railings.

The utility model solves the problem of expanding the scope of the device, that is, ensuring the possibility of using the device for testing fences with an inclined position of the handrails, while there can be any standard sizes of the tested fences.

The technical result consists in the use of a device for testing fences, providing a reliable and stable installation of the device on inclined handrails of fences with different angle of inclination of the handrails.

The task and the technical result are achieved as follows.

In the device for testing fences, including the upper and lower support elements connected at an angle, made in the form of two telescopically connected steel pipes, a hook for the load is fixed at one end of the upper support element, the other end is equipped with a grip, according to the proposed solution, the connection of the support elements is movable , while the upper support element is connected to the lower support element using two steel gussets welded on both sides to the upper support element, and the lower support element is inserted and fixed between the gussets with its upper end, the U-shaped grip is made in the form of a rectangular open element and is installed on the upper support element using a fastening sleeve made of steel pipe and fixed on the lower side of the horizontal plate connected to the U-shaped grip, while on one side the plate is hinged to the shelf of the U-shaped grip, and on the other side it is fixed with a lanyard, n and on each side wall of the gripper, from one and the other ends, holes are made, located at a different level, for fixing bolts.

The utility model is illustrated by drawings, where in FIG. 1 shows a general view of the device; in fig. 2 shows a retractable section of the lower support element with a pivotable transverse stop; in fig. 3 shows a general view of the rotary gripper; in fig. 4 shows a schematic diagram of testing a staircase fence; in fig. 5 shows a view A-A of FIG. 4; in fig. 6 shows node I of FIG. 5.

The device consists of an upper support element 1 (Fig. 1), to which a lower support element 2 is connected, made of two telescopically connected steel pipes. At the end of the sliding section 3 of the upper support element, a hook 4 for the load is fixed, and on the other side of the hook 5 is fixed. To the end of the sliding section 6 of the lower support element 2, a transverse rotary stop 7 made of steel pipe is welded. The fixing of the sliding sections 3 and 6 is carried out using a stud with nuts, which is inserted into holes 8 (Fig. 2) located with the same pitch in the sliding sections 3 and 6 of the supporting elements 1 and 2. The upper supporting element 1 is connected to the lower supporting element 2 with the help of two steel gussets 9 welded on both sides to the upper support element 1. The lower support element 2 is inserted with its upper end between the gussets 9 and secured with a bolt 10, thereby providing the ability to rotate the lower support element relative to the upper one by the desired angle. The retractable section 6 of the lower support element 2 is connected to the transverse rotary stop 7 by means of a bolt 11, which is inserted into its hole and screwed into a nut fixed to the end of the retractable section 6 (for example, by welding). The connection allows you to rotate the transverse rotary stop 7 relative to the longitudinal axis of the sliding section 6 to the desired angle.

The U-shaped grip 5 is put on the upper support element 2 using a fastening sleeve 12 (Fig. 3) made of a steel pipe, which is attached (for example, by welding) to the horizontal plate 13 of the grip 5, and fixed with fastening bolts located on both sides relative to the longitudinal axis of the fastening sleeve 12.

On the one hand, the horizontal plate 13 is pivotally attached to the U-shaped grip 5 by means of loops 14 attached to the U-shaped grip 5, a steel tube 15 attached to the horizontal plate 13, and a stud threaded through the loops 14 and the steel tube 15.

On the other hand, the horizontal plate 13 is attached to the U-shaped grip 5 through a lanyard 16 (for example, a lanyard ring of the DIN 1480 BISON 4-304376-06 brand), which with its gripping rings is attached by means of pins to the hinges 17, which in turn are fixed by welding on the horizontal plate 13 and on the upper shelf of the U-shaped grip 5. On the upper shelf of the U-shaped grip 5, clamping bolts 18 are made, which are screwed into the nuts fixed on the shelf of the U-shaped grip 5. From one and the other end of the side walls P -shaped grip 5, holes 19 are made, located at different levels in height, into which fixing bolts 20 are inserted.

A hole 21 is provided in the horizontal plate 13, located near the steel tube 15 and designed to be able to tighten and unscrew the clamping bolt 18 located under the hole 21.

On the upper support element 1 from the side of the gripper 5, a deflection meter 22 (for example, a deflection meter Aistova 6-PAO) and a loop 23 made of a round steel bar are fixed. A bubble level 24 is fixed on the shelf of the horizontal plate 13 in the upper part.

When testing a fence, for example, a fence 25 (Fig. 4, 5), which is fixed on a flight of stairs, the device is installed in such a way that the upper supporting element 1 occupies a horizontal position. The grip 5 is put on the handrail of the tested fence 25. The fixing bolts 20 are inserted into the holes 19 of the U-shaped grip 5 (Fig. 6). By turning the clamping bolts 18 inserted into the nuts, the fixing bolts 20 are pressed against the handrail of the staircase. In this case, the clamping force is created in such a way as to prevent the gripper 5 from sliding down along the handrail. By turning the lanyard 16, the horizontal position of the horizontal plate 13 is achieved. The horizontal position is controlled by means of the bubble level 24. The upper support element 1 is inserted into the fastening sleeve 12 and fixed with fastening bolts.

The cross stop 7 abuts against the fence 25 (Fig. 4, 5). To give the upper support element 1 a horizontal position, the retractable section 6 of the lower support element 2 extends to the required amount and is fixed with a pin with nuts. Also, if necessary, you can adjust the angle between the upper and lower support elements 1 and 2. To do this, loosen the bolt 10, set the desired angle between the upper support element 1 and the lower support element 2, and this position is fixed by tightening the bolt 10. The angle of rotation of the rotary stop 7 around the longitudinal the axes of the sliding section 6 are adjusted by loosening the bolt 11, turning the rotary stop 7 to the desired angle, and fix this position by tightening the bolt 11.

To measure horizontal displacements in the process of testing the fence 25, an elastic steel wire is attached to the anchor 26, previously fixed in the wall 27 of the staircase, which is wound by a single winding on the drum of the deflection meter 22 and stretched due to the weight of the weight 28.

A tensile dynamometer 29 is suspended to the hook 4 by means of a rope, to which the load is suspended in such a way that a gap remains between the lower part of the load and the upper dimension of the flight of stairs. The size of the gap is taken depending on the expected deformation of the fence 25 under the action of the load, but not less than 200 mm. If necessary, the retractable section 3 of the upper support element 1 extends to the required amount and is fixed. The size of the load depends on the geometric dimensions of the device and is calculated individually by methods of structural mechanics in such a way as to create a horizontal force, regulated by GOST 53254-2009, on the handrail of the fence 25. within two minutes and after removing the tensile dynamometer 29 and the load. If the deformations of the fence and the residual displacements determined from the readings of the deflection meter 22 are equal to zero, the fence is considered to have passed the test. Loop 23 is intended for securing the device during testing. A safety rope is attached to the loop 23 at one end, the other end of the rope is attached to the handrail of the fence 25 outside the test area. After testing, the device is dismantled in the reverse order of installation.

The proposed solution makes it possible to apply a vertical load to the tested fence and transform it due to the lever principle into a horizontal load, to securely fix the device on the inclined handrails of the fence, as well as to use measuring devices in the device, in aggregate, this makes it possible to test the fences in accordance with GOST 53254-2009.

Due to the fact that the lower support element 2 can be rotated relative to the upper support element 1, the device can be "folded" for more convenient transportation to the test site.

The device can be completely manufactured and assembled in a factory or in a mechanical assembly shop using well-known technological operations of manufacturing and joining metal parts.

The proposed solution allows performing tests in accordance with GOST 53254-2009 “Fire fighting equipment. External stationary fire ladders. Roof fencing. General technical requirements. Test methods ".

Claims (1)

A device for testing fences, including upper and lower support elements connected at an angle, made in the form of two telescopically connected steel pipes, a hook for a load is fixed at one end of the upper support element, the other end is equipped with a grip, characterized in that the connection of the support elements is movable, while the upper support element is connected to the lower support element by means of two steel gussets welded on both sides to the upper support element, and the lower support element with its upper end is inserted and fixed between the gussets, the U-shaped grip is made in the form of a rectangular open element and installed on the upper support element using a fastening sleeve made of steel pipe and fixed on the lower side of the horizontal plate connected to the U-shaped grip, while on one side the plate is hinged to the shelf of the U-shaped grip, and on the other side it is fixed with with a lanyard, on each side On the new wall of the gripper, from one and the other ends, holes are made, located at different levels for fixing bolts.

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