RU208002U1 - Fence test spreader - Google Patents

Abstract

The utility model relates to control equipment, including building control equipment, and can be used to test various fences for horizontal load, including staircase fences, interfloor platforms and porches of residential buildings, fences for stairs and technological platforms of industrial buildings, fences fire and evacuation ladders of any kind, other fences. Two thrust rods are located coaxially. A U-shaped grip is welded to one thrust rod at one end, and the other end is connected through a bolt to a dynamometer. The thrust rod with the plate is connected to one side of the lanyard by means of a left-hand threaded stud welded to its end, on the other side, the lanyard is connected to a free stud with a right-hand thread connected through an adapter to a dynamometer. The technical result consists in increasing the reliability of the connection of the device parts. 2 ill.

Description

The technical field to which the utility model belongs.

The utility model relates to control devices, including construction control devices, and can be used to test various barriers for horizontal loads, including staircase barriers, interfloor areas and porches of residential buildings, staircase barriers and technological platforms of industrial buildings, barriers fire and escape ladders of any kind, other fences.

Known device for testing roof fencing (Patent RU 171550 publ. 06.06.2016), including the 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 main disadvantage of the device is the difficulty or impossibility of using it for testing inclined railings (for example, stair railings), since the hook, under the influence of the sloping component of the load, will roll down the railings of the railings without special measures to secure it to the railings of the railings. Also, the disadvantage of the device is the need to perform engineering calculations to determine the value of the weight of the load depending on the size of the extended telescopic part of the upper support element, which reduces the efficiency of testing.

The closest known device is a device for testing a fence (see https://msk.gklio.ru/o-kompanii/protokol-ispytanij-na-prochnost), which consists of an upper rod, on one side connected to the lower rod by a movable joint , so that they can move relative to each other parallel to the longitudinal axis of the upper rod. On the other hand, the upper shaft is connected by a movable but lockable connection to a dynamometer. When testing the fence, the lower rod rests against the wall of the staircase through the distribution plate, and the dynamometer rests against the fence through the stop. The movable connection of the dynamometer with the upper bar is fixed with a clamping screw, and the horizontal force during the test of the fence is created by a lanyard installed between the pins fixed to the upper and lower bar in the area of the movable joint.

The main disadvantage of the device is the misalignment of the longitudinal axis of the upper rod relative to the longitudinal axes of the lower rod and the dynamometer. This leads to the occurrence of bending moments in the movable joints of the upper rod with the lower rod and with the dynamometer. In this case, a situation of jamming of the movable joint of the upper and lower rods and a skew of the dynamometer relative to the longitudinal axis of the upper rod is possible. Also, the disadvantage of the device is that when disassembled and folded, the size of the device does not decrease relative to the size in the assembled state due to the need for the length of the upper rod, which is practically equal to the length of the assembled device.

The utility model solves the problem of obtaining a compact, quickly assembled device for testing any standard size of fences with the possibility of using it for fences with both inclined and horizontal handrails.

The technical result consists in increasing the reliability of the connection of the device parts.

The task and the technical result are achieved as follows. In a spacer device for testing fences, including two thrust rods, to one of which a thrust plate, a lanyard and a dynamometer are welded, according to the proposed solution, the thrust rods are located coaxially, while a U-shaped grip is welded to one thrust rod from one end, and the other the end is connected through a bolt with a dynamometer, a thrust bar with a plate is connected to one side of the lanyard using a stud with a left-hand thread welded to its end, on the other side the lanyard is connected to a free hairpin with a right-hand thread, connected through an adapter to a dynamometer.

The utility model is illustrated by drawings.

FIG. 1 shows a general view of the device; in fig. 2 shows a schematic diagram of the test of the fence.

The device consists of a coaxially located bar 1, for example, made of a steel pipe, a rear thrust bar 2 made of a steel pipe, a dynamometer 3 and an adapter 4. On the front thrust bar 1 from one end, a U-shaped grip 5 is fixed by welding. for fixing and resting on the handrail of the fence. At the other end, a bolt 6 is fixed by welding. Dynamometer 3 has threaded holes on both sides and is equipped with an electronic control unit 7. The adapter 4 has a head with a hole provided with an internal thread. On the rear stop rod 2, at one end, a stop plate 8 is attached by welding, designed to abut against a wall or other rigid structure. Lanyard 9 is fixed at the other end of the rod. The lanyard 9 is fastened by welding the end of the pin 10 to the rear thrust rod 2.

On the other side of the lanyard 9 there is a free pin 11. The free pin 11 has a right-hand thread, and the pin 10 has a left-hand thread, thus, when twisting or unscrewing the lanyard 9, the pins 10 and 11 move coaxially towards each other or away from each other, respectively ...

When testing the fence, for example, the fence of the loggia 12 (Fig. 2), the assembled device is installed in such a way that it occupies a horizontal position. The U-shaped grip 5 abuts against the handrail of the fence 12, and the stop plate 8 abuts against the wall 13. In the proposed example, the wall 13 is the wall of the loggia, in other cases there can be any wall or other rigid structure that can absorb the force created during the test of the fence ... The rotation of the lanyard 9 creates the required horizontal force on the fence 12. When testing the fence, the value of the horizontal force is regulated by GOST 53254-2009. The magnitude of the force generated is controlled by the electronic control unit 7 of the dynamometer 3.

To measure the horizontal displacements of the fence 12 during its testing, a tripod 14 is installed next to the fence, on which a dial indicator 15 is fixed through a system of fasteners, for example, through a magnetic indicator stand.

The indicator readings are recorded before applying a horizontal load to the fence 12, after holding the load for a time specified by GOST 53254-2009, and after removing the load. If the residual deformations of the fence 12 after removing the load are equal to zero, then the fence is considered to have passed the test. It is possible to use any other system for registering deformations of the fence, for example, you can use a laser distance meter.

The proposed solution makes it possible to apply a horizontal load to the tested fence, while the device can be equally effectively used both on horizontal handrails and on inclined handrails of fences.

Due to the possibility of being disassembled, the device can be "folded" without much time for more convenient transportation to the test site. The collapsible design of the device allows you to replace the front bar with a longer or shorter one, thus it is possible to carry out tests at any distance between the fence and a wall or other structure, against which the thrust plate of the rear thrust bar 2 will abut.

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.

Claims (1)

A spacer for testing fences, including two thrust rods, to one of which a thrust plate, a lanyard and a dynamometer are welded, characterized in that the thrust rods are located coaxially, while a U-shaped grip is welded to one thrust rod from one end, and the other end connected through a bolt with a dynamometer, a thrust rod with a plate is connected to one side of the lanyard using a stud with a left thread welded to its end, on the other side the lanyard is connected to a free hairpin with a right thread connected through an adapter with a dynamometer.

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