RU2193431C2 - Apparatus for simulating insurance of the safety of climber - Google Patents

Abstract

FIELD: exercising equipment. SUBSTANCE: apparatus has vertical wall, upper and lower brackets mounted on vertical wall and pivotally connected with relief plate, which is in cooperation with load made in the form of parametrical model of climber. Relief plate is equipped with length variation compensator and is positioned so that its angle of inclination may be changed by means of lower bracket, which is provided with row of receptacles for attachment on vertical wall. Upper bracket fixed to upper part of vertical wall is made in the form of horizontal strip, along which cart with drive engine is movable. Drive drum is positioned on output shaft of drive engine and connected through mounting roller by means of drive tie-rod 16 with release coupling adapted for holding load made in the form of parametrical model of climber. One end of flexible tie-rod is fixed to said model and other end defining path of safety insurance chain is held by climber providing safety insurance. Path of safety chain is provided by location of flexible tie-rod through hooks fixed on supports made in the form of electromagnetic washers arranged in rows inside openings in relief plate. Hooks are disconnected from relief plate under the action of load proportional to strength of corresponding type of hook for simulating safety insurance chain under test. Release coupling is made in the form of two levers with spindles brought apart and connected with spacer plank, which is connected to drive tie-rod. Lower catches of said levers are engageable with opposite slots in lug of model of climber. Each of levers is positioned for rotation around its axis, when its upper end abuts against relief plate protrusion, and for releasing parametrical model of climber. Apparatus is used as exercising device for simulating safety insurance for climbers and construction workers. EFFECT: increased efficiency and provision for safe exercising. 2 cl, 5 dwg

Description

 The invention relates to techniques for providing insurance for climbers when working on high-altitude facilities and can be used as a training device for simulating insurance for climbers and climbers working in high-altitude construction conditions.

 A device for climbing climbers is known that is mounted on a simulated surface, containing two brackets carrying a lever with a rope clamp, on which a climber is mounted (A.S. USSR 1227212, class A 63 B 29/00, 1986).

 The disadvantages of the device are the limitation of the climber’s lifting height by the length of the running branch of the rope and the absence of a belay in the safety chain, which does not simulate the safety chains and, therefore, does not allow the trainee to learn their organization skills and the skills of regulating the rope holding effort, which leads to a narrow specialization of the device, reduces its functionality and degrades the quality of the workout.

 The closest known technical solutions is a device for simulating climbers' insurance, containing a bench support with a vertical wall, on the upper and lower brackets of which an inclined wall in the form of a relief plate with the ability to change its angle of inclination through the lower bracket is pivotally mounted, and flexible traction (French application 2682606, class A 63 B 29/00, 1993).

 The disadvantage of this device is the installation of hooks, which does not allow you to adjust the hook fixing force according to its type, which does not simulate the hook fastening strength, and the device also excludes the possibility of acquiring the skills of adjusting the flexible pull holding force when the climber ascends the mountain and its sudden breakdown, and therefore , the simulator of the climber’s insurance is not provided in the fall, which means that the simulation of the safety chains is not provided, as a result, the functional possibilities are reduced the stand and the quality of the workout is getting worse.

 This device has a relatively low technical level due to the lack of opportunities to create conditions for simulating safety chains and, therefore, the comparatively low quality of the training, which does not allow the trainee to gain skills in ensuring safe braking of a partner in case of failure.

 In this regard, the most important task is to create a fundamentally new design of a device for simulating climbers' insurance in laboratory conditions in the form of a bench support with a relief plate imitating sections of slopes, having a climber's parametric model and a new climber climber model resetting system with a response drive and a resetting clutch simulating the rise and a sudden climber fall, and the implementation of various trajectories of safety chains is carried out by a new scheme for installing flexible traction between a parametric model of the insured climber and the climber through the hooks located in rows on the embossed plate, while the hooks can be separated from the embossed plate under the influence of a load proportional to the strength of the corresponding type of hook, which allows simulating the hook fastening force and provides the ability to control the holding force flexible traction, eliminating the pullout of the hook, that is, it provides an imitation of safety chains, as a result, the quality of GUSTs training insuring climber and expand the functionality of the device.

 The technical result of the claimed device for simulating climbers' insurance is to create a fundamentally new layout diagram of a device that simulates mountain slopes, equipped with a parametric model of an insured climber, regulating the climber uphill along a predetermined path and its sudden fall through a dumping system, thereby simulating safety chains for comprehensive training of climbers in order to obtain safe movement skills, as a result of which The quality of the training is enhanced and the functional capabilities of the device are expanded, which leads to an increase in the skill of climbers and the safety of their climbing.

 The specified technical result is achieved by the fact that the device for simulating climbers' insurance, comprising a bench support with a vertical wall, on the upper and lower brackets of which an inclined wall is pivotally mounted in the form of a relief plate with the possibility of changing the angle of its inclination by means of the lower bracket, and a flexible rod is provided with a load in the form of a parametric model of a climber interacting with a relief plate equipped with a compensator for changing the length, while the lower bracket is equipped with a number of slots for closing the upper arm in the form of a horizontal shelf along which a trolley with a drive motor moves, on the output roller of which there is a drive drum connected via a mounting roller with a drive rod with a dumping clutch holding the load in the form a climber’s parametric model, on which one end of the flexible traction is fixed, which forms the trajectory of the safety chain with the other end held by the safety climber, and the trajectory of the safety chain is ensured by installing flexible traction by means of hooks mounted on supports made in the form of electromagnetic washers arranged in dimension rows in the holes of the relief plate, while the hooks can be separated from the relief plate under the influence of a load proportional to the strength of the corresponding type of hook, to simulate the subject the safety chain, and the dumping clutch is made in the form of two levers with spaced axles connected by a spacer bar connected to the drive rod, When this lower arm grippers interact with opposite grooves climber lug pattern, and each of the arms is pivotable about its axis in finding its upper end inclined to the protrusion and the relief plate release parametric model climber.

 Thanks to the introduction of a parametric model of the insured climber into the safety chain of the dropping system, a simulation of situations of climbing uphill and a sudden fall of a climber is created, which ensures the expansion of the device’s functionality.

 Due to the fact that the trajectories of the safety chains are carried out by installing flexible traction between the parametric model of the insured climber and the safety climber by means of hooks that are easily detached from the embossed plate under the influence of a load proportional to the strength of the corresponding type of hook, an imitation of the regulation of the retention force of the flexible traction, excluding the detachment of the hook, is provided conditions are created for simulating safety chains, which leads to an increase in the quality of the training device, and therefore, to increased climbing safety.

 In FIG. 1 shows a device for simulating climbers insurance; in FIG. 2 is a left view of FIG. 1; figure 3 - dumping clutch; figure 4 is a section aa in figure 3; figure 5 is a section bB in figure 1.

 A device for simulating climbers' insurance includes a bench support 1 in the form of a vertical wall 2 with an upper bracket 3 fixedly mounted on its upper end, which is pivotally connected to the inclined wall 4 in the form of a relief plate 5 simulating sections of mountain slopes. The relief plate 5, the height of which is proportional to the length of the rope, has the ability to change its angle of inclination to the vertical by means of a lower bracket 6 pivotally mounted in its lower part in the form of a horizontal bar 7, which is equipped with a number of sockets 8 for swiveling with a vertical wall 2 and allows you to change your length, which provides an imitation of the steepness of the slope, and the inclined wall 4 is equipped with a compensator 9 for changing the length of the inclined wall 4 to ensure horizontal position of the upper bracket 3 when changing SRI relief angle plate 5 (Figures 1, 2).

 The upper bracket 3 is made in the form of a horizontal shelf 10, along which a trolley 11 is made, made of light non-metallic material and serving the entire width of the embossed plate 5, with a drive motor 12, on the output roller 13 of which there is a drive drum 14 connected through a mounting roller 15 of the drive rod 16 with a dumping clutch 17 of the load 18 in the form of a parametric model of a climber 19, interacting with the surface of the relief plate 5, providing an imitation of the ascent of the model of the climber 19 uphill.

 The parametric model of the climber 19, characterized by the given parameters: mass, length and width, is made in the form of a figure, flat from the side of the embossed plate 5, excluding its rotation around its vertical axis when interacting with the surface of the embossed plate 5, has a flat boss 20 in its upper part (figure 3, 4) with two opposite grooves 21 made on its lower side, interacting with the levers 22 of the dumping clutch 17 by means of the lower grippers 23, while the axes 24 of the levers 22 are spaced and connected by a spacer bar 25 associated with the drive rod 16, and each of the levers 22 has the ability to rotate around its axis 24 when the upper inclined ends 26 come in contact with the protrusions of the relief plate 5, which leads to the exit of the lower grippers 23 of the levers 22 from the opposing grooves 21 of the boss 20 of the model of the mountaineer 19 and the release of the model 19 from the levers 22 of the dumping clutch 17, thereby providing a simulation of the situation of sudden failure of the insured climber.

 On the parametric model of the climber 19, one end of the flexible rod 27 is fixed in the form of a rope forming the trajectory of a simulated safety chain, the other end of which is held by the hand of a trained safety climber 28. The safety chain is provided by installing a flexible rod 27 by means of predetermined hooks 29 (Fig. 5), into the eyes 30 of which flexible traction 27 is passed. Hooks 29 are fixed on supports 31 made in the form of electromagnetic washers 32 installed by dimension rows in the holes 33 of the relief plate 5 and pulled out from the power supply by command from the control unit to set different pressing forces of the hooks 29 according to their type, while the hooks 29 are made rotatable on their spherical bases 34 to provide different positions in the space of the eyes 30 and facilitate the exit of the hooks 29 from the holes 33 with electromagnetic washers 32, thereby simulating the connection parameters, namely, the type of hook and the type of rock, as a result of which the rotary hooks 29 can easily be separated from the relief plate 5 under the impact the load from the side of the flexible rod 27, proportional to the strength of the corresponding type of hook, which makes it possible to gain skills in regulating the effort of holding the flexible rod, excluding the pullout of the hook, and provides a simulation of safety chains to organize safe braking of the partner in case of failure. As a result, the quality of the insurer's training is increased and the functionality of the device is expanded.

 The proposed device operates as follows.

 To simulate the steepness of the mountain slope, the inclined wall 4 of the bench support 1 in the form of a relief plate 5 with a height proportional to the length of the rope is installed at a given angle, and the corresponding socket 8 of the lower bracket 6 is pivotally mounted on a vertical wall 2, while the relief plate 5 occupies a predetermined position relative to the vertical wall 2, and thanks to the compensator 9 for changing the length of the inclined wall 4, the horizontal position of the upper bracket 3 is ensured in the form of a horizontal shelf 10, thereby simulating I set the slope of the mountain (Fig.1, 2).

 After choosing the location of the extreme point of the simulated safety chain - the parametric model of the insured climber 19 - the trolley 11 with the drive motor 12 moves along the horizontal shelf 10 until it coincides vertically with the location of the parametric model of the climber 19, while the drive motor 12 does not work, and the parametric model climber 19 hangs freely on the lower grippers 23 of the levers 22 of the dumping clutch 17, to the spreader bar 25 of the axes 24 of which the drive rod 16 is connected, connected through the installation the roller 15 with the drive drum 14 of the drive motor 12 (Fig.3, 4).

 To prepare for the simulation of a given safety chain scheme, part of the supports 31 (Fig. 5), made in the form of electromagnetic washers 32, installed by dimension rows in the holes 33 of the embossed plate 5, are fed from the power supply by a command from the control unit to set various efforts to compress the hooks 29 according to their type. The trajectory of the safety chain is ensured by installing a flexible traction 27 in the form of a rope between the load 18 in the form of a parametric model of the insured climber 19 and the safety climber 28 by means of hooks 29 located on the relief plate 5. This ensures a predetermined location in the space of the eyes 30 of the hooks 29 due to the possibility turning on spherical bases 34, through which a flexible rod 27 is passed, which provides an imitation of the connection parameters, namely the type of hook and rock, as well as the ability to easily th branch hook 29 of the relief plate 5 under the influence by the tractive load 27, proportional strength of the corresponding type of hook that allows obtaining containment regulation skills tractive effort 27 precluding tension load hook 29, and provides simulated safety chains.

 When the drive motor 12 is turned on, the torque from its output roller 13 is transmitted to the drive drum 14, which winds the drive rod 16, shortens it, and the climber’s parametric model 19, made in the form of a figure, flat on the side of the relief plate 5, rises up relief plate 5, which provides an imitation of the climb model climber 19 uphill. In this case, the safety climber 28 pits the flexible rod 27 in the form of a rope in such a way as to prevent the hook 29 from breaking out of the hole 33 of the embossed plate 5, which ensures that the training safety climber 28 acquires the rope etching skills.

 When the inclined ends 26 of the levers 22 of the dumping clutch 17 come in contact with the protrusion of the embossed plate 5, one or both levers 22 rotate around their axes 24, which leads to the release of the lower grippers 23 from the opposing grooves 21 of the boss 20 of the model of the mountaineer 19 being secured and the model 19 is released from the levers 22 clutch 17, which provides a simulation of the situation of sudden failure of the insured climber. At the same time, the safety climber 28 holds the flexible rod 27 in the form of a rope in such a way as to prevent the flexible rod 27 from breaking and the hook 29 to be pulled out of the hole 33 of the relief plate 5 to simulate the organization of safe braking of the partner in case of failure.

 As a result, due to the simulation of the safety chains, a comprehensive training of climbers is provided, which allows to obtain skills in determining the safety chain and the skills of regulating the efforts to hold the rope, which leads to an increase in the quality of the training, expansion of the device’s functional capabilities, and therefore, to increased climbing safety.

 The proposed device with a fundamentally new layout scheme imitates the lifting of the parametric model of the insured climber uphill and its sudden breakdown due to the presence of a new resetting system, imitates safety chains thanks to the new flexible traction scheme between the parametric model of the insured climber and the safety climber through hooks located in dimension rows on a relief plate with the possibility of separation, which will allow the trained insured mountaineer to climb to gain skills in regulating the efforts of holding the rope and the skills of determining the safety chain, as a result, the device’s functional capabilities are expanded, the quality of the training is increased and, therefore, the climb climbers safety is increased.

Thus, the foregoing indicates that when using the claimed invention the following set of conditions:
- a device for simulating climbers insurance, embodying the claimed invention in its implementation, is intended to provide climbers insurance when working on high-altitude facilities and can be used as a training device for simulating climbers insurance and climbers working in high-altitude construction and installation conditions;
- for the claimed invention, in the form as described in the claims, the possibility of its implementation in accordance with the description and the attached drawing is confirmed;
- a device for simulating climbers insurance embodying the claimed invention in its implementation, is able to ensure the achievement of the technical result perceived by the applicant. Therefore, the claimed invention meets the requirement of "industrial applicability".

Claims (2)

 1. A device for simulating climbers' insurance, comprising a bench support with a vertical wall, on the upper and lower brackets of which an inclined wall is pivotally mounted in the form of a relief plate with the ability to change its angle of inclination by means of the lower bracket, and a flexible rod, characterized in that it is equipped with a load in the form of a climber's parametric model interacting with a relief plate equipped with a compensator for changing the length, while the lower bracket is equipped with a number of sockets for mounting on a vertical wall the upper bracket in the form of a horizontal shelf along which a trolley with a drive motor moves, on the output roller of which there is a drive drum connected via a mounting roller with a drive rod with a dump clutch holding the load in the form of a parametric climber model on which one end of the flexible rod is fixed, which forms the trajectory of the safety chain with the other end held by the safety climber, and the trajectory of the safety chain pi is ensured by installing flexible traction by means of hooks mounted on supports made in the form of electromagnetic washers arranged in dimension rows in the holes of the embossed plate, while the hooks can be separated from the embossed plate under the influence of a load proportional to the strength of the corresponding type of hook to simulate the tested safety chain .  2. The device according to claim 1, characterized in that the resetting clutch is made in the form of two levers with spaced axles connected by a spacer bar connected to the drive rod, while the lower levers of the levers interact with the opposing grooves of the boss model climber, and each of the levers has the ability to rotate around its axis when finding its upper inclined end on the protrusion of the relief plate and the release of the climber's parametric model.

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