PL213484B1 - Clamping and sliding mechanism - Google Patents

Description

The subject of the invention is a clamp and slide mechanism for use in belaying and protection systems against falling from a height of a vertically moving worker.

On all kinds of permanent entrances to chimneys, towers, masts, buildings, a system is used to secure a vertically moving worker. The essential elements of this system are a vertical rope and a clamp and slide mechanism. The rope is stretched between the lower fixing point and the upper fixing point, the so-called the point of a fixed structure, and its proper tension is achieved with a typical tensioner, which is a turnbuckle - a properly tensioned rope becomes stiff. A clamping and sliding mechanism is attached to this rope, which is sufficient to protect a vertically moving worker. A human is connected to this mechanism through a carabiner attached to the front hook of the safety harness he is wearing. The known clamp-sliding mechanism works by clamping the rope by the cam when the device moves in one direction (downward, on a fall) and releasing the clamp on the opposite movement (up, when climbing).

The main parts of the clamping and sliding mechanism are the tubular guide of the carrying rope and the lever with the clamping cam, on the other hand it has a connection eyelet to which the ascending person is connected with the snap hook. The rope guide is connected to the rear wall of the mechanism. There is also a pin embedded in this wall, around which the lever rotates. The cam is shaped in such a way that when the device is moved up, it slides along the line placed in the guide - while climbing the lever is pulled up by the eyelet (through the carabiner, which connects the mechanism to the front hook of the safety harness). In the event of a fall, the direction of the force acting on the lever is changed, it is then pulled downwards and then the cam clamps on the rope, pressing it against the wall of the guide, thus the fall is stopped. The mechanism is restarted after stabilizing the position of the person climbing up and pulling the lever up - the cam releases the pressure and the mechanism can be moved again along the rope. The lever is always kept under slight pressure on the rope by means of a spring acting on it, which presses against the lever arm. The mechanism also has a safety device that constantly closes the slot for inserting the rope into the guide. This fuse is rotatably mounted on another pin, which holds the walls of the mechanism housing, and is pressed against the guide by means of a spring so as to prevent the rope from sliding out of the guide by itself.

The described mechanism, however, has a certain disadvantage, which is the tendency of the mechanism to jam, especially when climbing up and sliding it up the rope. When moved, the mechanism beveled on the rope and stuck on it with the edges of the guide. This leads to a reduction in confidence in the correct operation of the mechanism and thus reduces the comfort of work, which is essential when working at heights.

The mechanism according to the invention is characterized in that in the rear wall of the mechanism housing, at the end of the lever, which is embedded in the rear wall of the mechanism housing, there is a roller, with the roller positioned over the guide and on the opposite side in relation to the carrying rope placed in the guide rope. than the guide.

The lever is rotatably mounted on a pin in the rear wall of the mechanism housing and has a cutout at its lower end for cooperation with a stop limiting the deflection of the lever. The bumper is also embedded in the rear wall of the mechanism housing.

The lever is connected to a spring that presses the roller against the leg rope.

The outer surface of the roller is shaped to the surface of the carrying rope.

The mechanism according to the invention ensures proper cooperation of the carrier rope with the guide, thanks to which there is no skewing and thus jamming the mechanism on the carrier rope while it is being moved along the rope upwards, because the roller acts on the rope with a force opposite to the force of the guide acting on the rope .

The subject of the invention is shown in the embodiment in the drawing, in which fig. 1 shows the mechanism in a cross-section just below the surface of the front wall of the housing, and fig. 2 - the mechanism in the working position on the support rope.

As shown in Fig. 1, a guide 2 is attached to the rear wall 1 of the mechanism housing, in which a carrier rope 3 is inserted. A pin 4 is also mounted in the rear wall, around which a lever 5 pivots, having a cam 6 at one end, and on the second connection eyelet 7. Movement of the lever 5 downwards is limited by the pin 8, against which the lever 5 is constantly pressed

Due to the spring 9. The pressure force of the spring 9 causes the cam 6 to always lightly clamp the carrier rope 3 in the guide 2 and thus the mechanism is constantly slightly jammed on the carrier rope 3, so that it does not automatically fall down. By pulling the lever 5 and the eyelet 7 upwards, this jamming is released and the mechanism can be easily moved upwards. The spring 9 is a torsion spring, and its arms rotate around a pin 10, also embedded in the rear wall 1. One spring arm 9 presses against the lever 5, and the other, shorter, and therefore more forceful, acts on the fuse 11, therefore the fuse 11 constantly closes the gap between the front wall 12 of the housing and the guide 2 so as to prevent the carrier rope 3 from sliding out of the guide 2. The fuse 11 is rotatably mounted on the pin 13, fixed in the rear wall 1. On the same pin 13, it is also rotatably a lever 14 is fixed with a roller 15, mounted at the end of the lever 14 on a pin 16. At the other end, the lever 14 has a notch 17 for cooperation with a stop 18, limiting the deflection of the lever 14. The roller 15 is kept under a constant pressure on the rope 3 by means of a spring 19, fixed on the pin 13 and pressing with its arm on the pin 20, fixed at the lower end of the lever 14. By means of pins 4, 8, 10 and 13, it is connected the rear walls 1 and the front walls 12 of the mechanism housing.

Fig. 2 shows a mechanism mounted on the carrier rope 3, with the roller 15 already shown in the correct position for a force against the force to induce the mechanism to jam on the carrier rope 3 during upward movement. It is also shown how the safety device 11 closes the gap between the front wall 12 of the mechanism housing and the guide 2. In order to place the carrier rope 3 in the guide 2, you must simultaneously open the safety 11 and the cam 6 of the lever 5, and then release the pressure - then the spring arms 9 will begin to exert pressure on fuse arm 11, which will close the gap between the front wall 12 and the guide 2, as well as the lever 5, so that the mechanism will be pre-clamped on the support rope 3. Fig. 2 also shows that the connection eye 7 of the lever 5 is snap hook 21 safety harnesses that are worn by a person who is climbing up. Moving the mechanism along the carrying rope 3 takes place automatically - when climbing, the lever 5 is pulled upwards and thus the cam 6 moves away from the rope 3, releasing the pressure. The roller 15 ensures precise and safe positioning of the mechanism on the carrier rope 3 and its free movement along the carrier rope 3. In the event of a fall, the lever 5 is pulled down by the eyelet 7 and the cam 6 clamps the carrier rope 3 in the guide 2 and the mechanism stops with falling man.

Claims (4)

1. Clamp and slide mechanism for use in belaying and protection systems against falling from a height of a vertically moving worker, with a rope guide connected to the rear wall of the mechanism housing, with a lever with a clamping cam on one side and a connection eyelet on the other side, rotatably mounted on a bolt also fixed in the rear wall of the casing, with a spring ensuring constant, light pressure of the cam on the carrier rope and a safety device preventing the carrier rope from sliding out of the guide, characterized in that in the rear wall (1) of the mechanism casing, at the end of the lever (14), which is embedded in the rear wall (1) of the mechanism housing, there is a roller (15) rotatably mounted on a pin (16), with the roller (15) positioned over the the guide (2) on the opposite side to the guide (2). 2. The clamp and slide mechanism according to claim A device as claimed in claim 1, characterized in that the lever (14) is pivotally mounted on the pin (13) in the rear wall (1) of the mechanism housing, the lever (14) having a notch (17) at its lower end to cooperate with the bumper (18) limiting the tilt. the lever (14) also embedded in the rear wall (1) of the mechanism housing. 3. The clamp and slide mechanism according to claim A device as claimed in claim 1, characterized in that the lever (14) is connected to a spring (19) that presses the roller (15) against the carrier rope (3). 4. A clamp and slide mechanism according to claim A device as claimed in claim 1, characterized in that the outer surface of the roller (15) conforms to the shape of the carrying rope (3).