CN215995576U - Sling buffering and recycling system - Google Patents

Abstract

A sliding rope buffering and recovering system is provided with a steel cable, a carrier and a trolley; the pulley vehicle is hung with a steel cable and is connected with a carrier; one end of the steel cable is connected with a protective net at a high position, and the other end of the steel cable is connected with a protective net at a low position; the protective net faces high; the steel cable is connected with the protective net in a rope clamping and fixing mode after being wound into a rope loop; a buffer block is sleeved on the steel cable in front of the protective net; the rear of the buffer block is connected with a spring; the other end of the spring is connected with the rope clamp; the carrier is connected with the high place through a recovery rope; the utility model has the advantages that the buffer block and the spring can buffer and decelerate the sliding trolley, and then are linked and protected by the protective net; the training personnel pull back the scooter by means of the recovery rope; the utility model can train no matter how heavy the trainers are; meanwhile, the scooter is helpful for training personnel to recover the scooter during multi-person successive type quick sliding rope training.

Description

Sling buffering and recycling system

Technical Field

The utility model relates to a technical field of training apparatus is extended to the quality, especially relates to a swift current cable buffering recovery system.

Background

The yo-yo is the original river-crossing tool, ancient China called as the bump. Two or one rope is tied on trees or other fixed objects on two banks of the river respectively. One head is high, the other head is low, and a high-low inclination is formed. Subsequently, the rope slipping is developed into a training project for high mountain self-rescue and military assault; at present, the skyline is more recreational, and is just like a challenging, exciting and recreational modernized quality development training program. The sliding rope mainly comprises a steel cable, a pulley vehicle and a carrier; two ends of the steel cable are respectively connected with two positions with height difference; the scooter is matched with the steel cable so as to slide on the steel cable; the carrier is connected with the trolley, arranged below the trolley and used for carrying people or objects; the sliding rope has the common fault that the training personnel are transported from a high position to a low position by means of gravity and inertia, so that the speed of the training personnel at the low position is very high, and the training personnel can not brake the train easily and have impact; in the prior art, some schemes lengthen the sliding rope, and decelerate the sliding rope through the friction force of the sliding rope in front of the lower part, but the solution easily enables the trainer with lighter weight to decelerate to zero without reaching the lower part, and the sliding rope can not be experienced by the trainer with lighter weight; in addition, when a multi-person take-over type quick sling training is organized, the sling cannot return to a high position after reaching a low position; in the training process of tightly gong and drum, the sliding rope is reset by the staff, so that the training rhythm is undoubtedly disturbed; therefore, the yo-yo project must have a yo-yo recovery function controlled by the trainers.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem and providing a slip rope buffering and recycling system.

The technical scheme of the utility model is that: a sliding rope buffering and recovering system comprises a steel cable, a pulley vehicle and a carrier; one end of the steel cable is connected to the high position, and the other end is connected to the low position; a protective net is arranged at the lower part; the protective net faces high; the steel cable is connected with the middle part of the upper beam of the protective net in a way that the tail end of the steel cable is fixed with the steel cable through a rope clamp after the steel cable is wound into a rope loop; a buffer block is sleeved on the steel cable in front of the protective net; the rear of the buffer block is connected with a spring; the spring is sleeved on the steel cable; the tail end of the spring is connected with the rope clamp; the end of the carrier is connected with the high place through a recovery rope.

Preferably, the carrier is triangular; the triangular bottom edge of the carrier is sleeved with a lining.

Preferably, a boss is arranged at the high position; the connection mode of the steel cable and the upper beam of the boss is that the tail end of the steel cable is fixed with the steel cable through a cable clamp after the steel cable is wound back into a rope loop; one side of the boss facing the protective net is provided with a gentle slope.

Preferably, the boss is provided with a fence.

Preferably, the boss upper beam and the protective net upper beam are provided with rope fixing rings connected with the steel cable.

Preferably, the recovery rope is connected with the rope fixing ring on the upper beam of the boss.

The utility model has the advantages that: the utility model discloses a sliding rope buffering and recycling system, which is provided with a steel cable, a carrier and a trolley; the pulley vehicle is hung with a steel cable and is connected with a carrier; one end of the steel cable is connected with a protective net at a high position, and the other end of the steel cable is connected with a protective net at a low position; the protective net faces high; the steel cable is connected with the protective net in a rope clamping and fixing mode after being wound into a rope loop; a buffer block is sleeved on the steel cable in front of the protective net; the rear of the buffer block is connected with a spring; the other end of the spring is connected with the rope clamp; the carrier is connected with the high place through a recovery rope; the utility model has the advantages that the buffer block and the spring can buffer and decelerate the sliding trolley, and then are linked and protected by the protective net; the training personnel pull back the scooter by means of the recovery rope; the utility model can train no matter how heavy the trainers are; meanwhile, the scooter is helpful for training personnel to recover the scooter during multi-person successive type quick sliding rope training.

Drawings

FIG. 1 is a schematic perspective view of a buffering and recovering system for a rope of the present invention;

FIG. 2 is an enlarged view I of FIG. 1;

FIG. 3 is a front view of FIG. 1;

fig. 4 is a schematic structural view of the protection net;

FIG. 5 is an enlarged view II of FIG. 4;

in the figure: 1. the novel rope-fixing device comprises a boss, 11, a boss upper beam, 111, a rope-fixing ring, 12, a gentle slope, 13, a fence, 31, a steel rope, 311, a rope clamp, 312, a buffer block, 313, a spring, 32, a pulley vehicle, 33, a carrier, 331, a recovery rope, 332, a lining, 34, a protective net and 341, a protective net upper beam.

Detailed Description

Example (b): referring to fig. 1-5, a strop buffering and recycling system comprises a steel cable, a pulley vehicle and a carrier; the scooter is hung with a steel cable and hangs the carrier downwards, so as to drive the carrier to slide on the steel cable; the carrier is used for carrying training personnel; one end of the steel cable is connected to the high position, and the other end of the steel cable is connected to the low position to form a height difference, so that the scooter can slide from the high position to the low position by means of self gravity and inertia; a protective net is arranged at the lower part; the protective net faces to a high place and is used for wrapping training personnel falling from the high place, buffering impact and protecting the training personnel; the steel cable is connected with the middle part of the upper beam of the protective net in a way that the tail end of the steel cable is fixed with the steel cable through a rope clamp after the steel cable is wound into a rope loop, so that the steel cable is stably connected with the protective net, and a sliding trainer just falls into the range of the protective net; a steel cable in front of the protective net is sleeved with a buffer block for slowing down the gliding speed and impact of the scooter; the rear of the buffer block is connected with a spring for absorbing the impact of the sliding of the scooter; the spring is sleeved on the steel cable and is converted into elastic potential energy along the direction of the steel cable to resist impact; the tail end of the spring is connected with the rope clamp; the pulley trolley and the rope clamp are separated by the spring and the buffer block, so that the accident caused by collision of the pulley trolley and the rope clamp is avoided; meanwhile, the spring can absorb the impact of the scooter into elastic potential energy, so that the impact absorption capacity is improved; the end part of the carrier is connected with the high place through a recovery rope; the trainee pulls the scooter back high by means of the retrieval rope.

The carrier is triangular; training personnel can easily form a stable state by manually climbing the triangular bottom edge of the carrier to carry out cable sliding training; the triangular bottom edge of the carrier is sleeved with a lining, so that the friction force between the hands of the training personnel and the carrier is increased.

The bosses are arranged at the high positions and form a height difference with the protective net so as to ensure that a trainer can easily use the carrier when standing on the bosses, and feet of the protective net cannot touch the ground in advance before the protective net, so that the training is ensured to be finished; the steel cable is connected with the upper beam of the boss in a manner that the tail end of the steel cable is fixed with the steel cable through a rope clamp after the steel cable is wound back into a rope loop to form stable connection; one side of the boss facing the protective net is provided with a gentle slope; the gentle slope can make training personnel arrive on the boss fast, also can provide the helping hand of similar run-up when training personnel's coast line is started.

Be equipped with the rail on the boss, the prevention protects training personnel and falls from the boss.

The lug boss upper beam and the protective net upper beam are respectively provided with a rope fixing ring connected with the steel cable, so that the steel cable is convenient to mount.

The recovery rope is connected with the rope fixing ring on the upper beam of the boss, so that the recovery rope can be found by training personnel conveniently.

The training process of this embodiment: a group of training personnel performs successive type quick rope slipping training; the first trainer reaches the boss through the gentle slope, and pulls the scooter back to a place where the high-altitude trainer can use through the recovery rope; grasping a carrier, and rapidly sliding to a protective net by applying force to both feet, or kicking from a gentle slope or accelerating by virtue of a gentle slope; before reaching the protective net, the scooter impacts the buffer block; the buffer block can relieve the impact of the scooter, and meanwhile, the spring behind the buffer block can also reduce the speed of the scooter by compressing the spring to convert the spring into elastic potential energy; even if the trainees have forward inertia after the buffer blocks and the springs decelerate, the protective net can be used for following the trainees, so that the trainees are prevented from being injured; no matter the weight is light or heavy, the training personnel can arrive at the end point safely;

when the next trainer leaves the gentle slope and rushes to the protective net while the first trainer leaves the gentle slope, the next trainer quickly arrives on the boss through the gentle slope and pulls the scooter back again through the recovery rope for training.

Claims (6)

1. A sliding rope buffering and recovering system comprises a steel cable, a pulley vehicle and a carrier; one end of the steel cable is connected to the high position, and the other end is connected to the low position; it is characterized in that a protective net is arranged at the lower part; the protective net faces high; the steel cable is connected with the middle part of the upper beam of the protective net in a way that the tail end of the steel cable is fixed with the steel cable through a rope clamp after the steel cable is wound into a rope loop; a buffer block is sleeved on the steel cable in front of the protective net; the rear of the buffer block is connected with a spring; the spring is sleeved on the steel cable; the tail end of the spring is connected with the rope clamp; the end of the carrier is connected with the high place through a recovery rope.

2. The rope buffer recovery system of claim 1, wherein: the carrier is triangular; the triangular bottom edge of the carrier is sleeved with a lining.

3. The rope buffer recovery system of claim 1, wherein: a boss is arranged at the high position; the connection mode of the steel cable and the upper beam of the boss is that the tail end of the steel cable is fixed with the steel cable through a cable clamp after the steel cable is wound back into a rope loop; one side of the boss facing the protective net is provided with a gentle slope.

4. The slick line buffer recovery system of claim 3, further comprising: the boss is provided with a fence.

5. The slick line buffer recovery system of claim 3, further comprising: the lug boss upper beam and the protective net upper beam are both provided with rope fixing rings connected with the steel cable.

6. The slick line buffer recovery system of claim 5, further comprising: the recovery rope is connected with the rope fixing ring on the upper beam of the boss.

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