KR20110072642A - Simulated rock climbing apparatus assuring user safety - Google Patents

Abstract

It is a simulated rock climbing exercise equipment that guarantees safety. It is a climbing wall which is generally set in the vertical direction, a safety wall that stands in parallel with the climbing wall and faces the climbing wall, and a climbing course established between the climbing wall and the safety wall. It consists of a scaffold, a mock climbing object placed on top of the climbing course scaffold, and mock climbing handles that mate with the scaffolding object. It is preferable to start at a high altitude and then return to the ground, and a safety rope should be laid on the climbing trail, and the safety wall and the safety wall are made of transparent and unbreakable plastic or wire mesh. It can be seen to some extent from the outside, and as the shape of the climbing wall and the safety wall, To be a plane, and may be a cylindrical or curved surface of a similar three-dimensional shape such, the overall shape may be made to the interesting shape, such as a dinosaur, a rocket. The user can enjoy mountain climbing or rock climbing.

Mock Rock Climbing System, Indoor Rock Climbing, Sports Rock Climbing

Description

Simulated rock climbing apparatus assuring user safety

This is an invention related to a rock climbing simulator.

Mock rock climbing is called sports rock climbing, and its popularity is increasing rapidly around the world. However, this simulated rock climbing is quite dangerous and is likely to be injured, so it is possible to enjoy it only at facilities installed in special purposes and places, and only in an environment with a supervisor, and in general public facilities such as parks. It is actually near impossible to install. This leads to the excitement that rock climbing enjoys, significant exercise effects, and climbing practices are inaccessible to the general public.

In the simulated rock climbing, invent a simulated rock climbing device or facility that guarantees its safety.

Is the task and purpose.

As an example of the present invention, a climbing wall of about 30 meters in width and 8 meters in height is made of stainless steel wire mesh, and a safety wall of the same size and material is made, and the two walls are faced side by side. The interval between them is about 1 meter. Create a stairway between the gaps, starting at the corner of the left corner, up to 6 meters high, and descending to the corner of the right corner to set up the trail across the climbing wall. would). Follow the trail and attach the simulated climbing objects about 10 centimeters from the platform to the climbing wall, and attach the simulated climbing handles that are taller than the climbing objects. The user may climb along the climbing course footstep, or move along the climbing wall using only the handles and the stepping objects, without touching the climbing footstep. The footing object is only 10 centimeters above the trail, so even if the user falls off while climbing, his foot will step on the trail below 10 centimeters, so there is virtually no risk of injury. It would be helpful for the elderly, etc., to walk along the trail and hold the rope from the top with your hand. You can make climbing or climbing a more enjoyable event by making this safety climbing device into various shapes such as dinosaurs and rockets.

In general public places such as parks, schools, etc., and without a guide, you can safely enjoy mock rock climbing. If you don't want to climb, you can just walk and climb, or you can make fun with dinosaurs and rockets. It is possible to maximize the performance of the rock climbing in parks, schools, health clubs, etc., which are not widely installed and favored due to safety issues. I can raise it.

Referring to the accompanying drawings, Figure 1 shows a black and white image of an example of a rock climbing mechanism according to the present invention.

To briefly describe the organization as a metaphor, it is like a trail trail with cliffs on both sides. That is, in the simulated rock climbing mechanism according to the present invention, two walls 1 and 2 are placed side by side at intervals of about 1 meter, and the climbing nose swash plate 3 corresponding to the trail is climbed by one. It is installed along the course.

The hiking course is convenient to start from the ground, go up, and return to the ground. In the example of Fig. 1, therefore, at the left bottom edge 3f, the climbing course scaffold 3 starts to rise to the top and ends at the right bottom edge 3g. On the right side of Figure 1 is a side cross-sectional view.

As a preferred, if the rope 6 is installed on the climbing course scaffolding 3, it will be safe for the mountain to climb.

The climbing wall 1 corresponding to the cliff next to the hiking trail is attached with the simulated climbing foot 4 and the handle object 5 (an enlarged view of these objects is shown at the bottom of FIG. These are only examples, and any object and shape is fine if you can step on it and hold it with your hands).

The footrest object 4 is attached to a point close to the climbing course footboard 3, for example, 5 cm to 10 cm in height. Therefore, even if the user 7 steps down, he will only fall by about 5 cm to 10 cm, and there is practically no fear of injury.

In addition, since walls 1 and 2 are present on both sides, there is no fear of falling.

And, when the simulation rock climbing is difficult, just go up and down the climbing course scaffolding (3). Alternatively, you can go rock climbing on some of the trails and just walk the rest. In particular, if the rope (6) is hanging along the climbing course footing (3), it will be safer to walk while holding the rope.

2 shows an enlarged view of the climbing wall, the climbing course scaffolding and the mock climbing footing object in the present invention, the distance between the foot of the user 7 and the climbing course scaffolding 3 (h = fallable distance) is close. Shows. This distance should be about 10 cm or less.

Figure 3 shows the front view of the bar shown in Figure 2, but also shows the safety wall (2). As can be seen, the climbing wall 1 and the safety wall 2 standing side by side protect the user from falling from side to side, and the distance h between the stepping object 4 and the climbing course scaffolding 3 Because of the proximity, the user 7 is virtually never injured. In particular, as described below, when these walls 1 and 2 are made of wire mesh, it is convenient to hold the walls by hand if necessary.

Fig. 4 is the same as Fig. 1, but shows in a case where the constituent walls are not a plane but a cylindrical surface. In other words, it can be understood that the mechanism shown in FIG. 4 is made into a cylindrical shape by bending the wheel shown in FIG. The advantages of the cylinder are that it is possible to maintain its upright position without a separate support device, and that the user 7 can return to the starting point by turning one wheel and continue rock climbing or climbing. Here too it can be seen that the rope 6 is attached to the ceiling 6a for convenience.

FIG. 5 is the same as FIG. 1, but shows the case where the constituent walls combine a plane and a cylindrical surface. Even in this case, there is an advantage that you can maintain your own upright position without a separate support, and you can continue rock climbing or climbing as you return to its original position by turning one wheel. Here too it is shown for convenience that the rope 6 is attached to the ceiling 6. It can be any length you want (30 meters or 50 meters), so it's a good choice for a multi-person environment such as a school or park.

FIG. 6 is the same as FIG. 1, but symbolically shows a case where the climbing course scaffold 3 is installed over two (3a-course a, 3b-course b) courses. In addition, one climbing course scaffolding 3 may be divided into two in the middle.

FIG. 7 is similar to FIG. 1, but shows that a conventional general mock rock climbing facility, that is, a non-safety course, is not secured under the climbing course scaffold 3.

Fig. 8 symbolically shows the case where all the walls 1 and 2 of the respective mechanisms shown in Figs. 1, 4 and 5 or the safety wall 2 are made of a transparent object. This is appropriate in environments where formative beauty is required. As the wall (1, 2) material, polycarbonate (Lexan), which is not broken, may be preferable. In particular, in the case of models B and C, a rock, a waterfall, a bench, etc. may be installed in a space inside the center, and lighting may be installed. In this transparent case, the appearance of climbing seems to be beneficial, which helps to safety and induces a tenderness to those who visit.

Fig. 9 symbolically shows the case where all or one of the walls 1 and 2 of the mechanism shown in Fig. 1 is made of a wire mesh. As an advantage of the wire mesh, it is light and strong, and it is easy to attach the climbing course scaffolding (3) and the stepping object (4) and the handle object (5), and in the case of stainless steel, the appearance is clean, excellent in durability, and almost transparent. The advantage of being able to see the image of climbing is that it helps the safety and induces a tenderness to those who visit.

FIG. 10 shows a case in which the apparatus shown in FIG. 1 has the shape of a dinosaur as a whole. This is the preferred design in that it maximizes the enjoyment of the users (7) and enhances the value as a landscape object.

FIG. 11 shows a case where the mechanism shown in FIG. 4 has the shape of a rocket. Other designs include guitars, airplanes, trains, and cars.

In addition, if the mechanism is cylindrical, as shown in Fig. 4 or 11, the cylinder may be rotated about a vertical axis, and further, if the vertical axis is slightly inclined, the previous patent application 10-2009-0069715 According to the teachings of the rotating wheel walking exercise device, the natural phenomenon in which gravity returns the user 7 to the point of lowest gravity energy can be used. There are advantages of these points, which will be patented as a separate invention.

In addition, the footing object 4 and the handle object 5 can be attached to the safety wall (2) as well as the climbing wall (1), in this case, there is an advantage that people can perform climbing on both walls . In particular, when the walls 1 and 2 are all made of a wire mesh, it will be relatively easy to attach the footing object 4 and the handle object 5 to both sides 1, 2.

It will be possible to make various modifications of the invention using the methods taught above, and it is to be understood that the invention is intended to embrace all such possibilities and the claims are set forth below.

1 shows a black and white image of one example of a rock climbing mechanism according to the present invention.

Figure 2 shows an enlarged climbing wall, climbing course scaffolding and mock climbing object in the present invention.

Figure 3 shows the front view of the bar shown in Figure 2, but also shows a safety wall.

Fig. 4 is the same as Fig. 1, but shows the case where the constituent walls are not flat but cylindrical.

FIG. 5 is the same as FIG. 1, but shows the case where the constituent walls combine a plane and a cylindrical surface.

FIG. 6 is the same as FIG. 1, but symbolically shows a case where two climbing trails are installed.

FIG. 7 is the same as FIG. 1, but symbolically shows that the existing general mock rock climbing facility is not secured under the climbing course scaffold.

Fig. 8 symbolically shows the case where the walls of the mechanisms shown in Figs. 1, 4 and 5 are made of a transparent object.

Fig. 9 symbolically shows the case where the wall of the mechanism shown in Fig. 1 is made of a wire mesh.

FIG. 10 shows a case where the instrument shown in FIG. 1 has the shape of a dinosaur.

FIG. 11 shows a case where the mechanism shown in FIG. 4 has the shape of a rocket.

Claims (19)

As a simulated rock climbing exercise device that guarantees safety, a climbing wall (1), which is generally erected in a vertical direction, a safety wall (2) standing side by side with the climbing wall and facing the climbing wall, and the climbing along a climbing course Climbing course scaffolding 3 installed between the wall 1 and the safety wall 2, and the simulated climbing feet 4 installed along the climbing course scaffolding 3 along the climbing course scaffolding 3 And the simulated climbing handles 5 which are paired with the stepping objects, and the fallable distance h between the stepping objects 4 and the climbing course scaffolding 3 is determined. Relatively small, there is virtually no fear of injury due to falling in the vertical direction even when the user 7 steps down, and the climbing wall 1 and the safety wall (before and after the user 7) 2) exists, so it is impossible to fall back and forth, Mock rock climbing mechanism, which is designed to safely carry out mock rock climbing. The simulated rock climbing mechanism according to claim 1, wherein the fallable distance h is 10 cm or less. The mock rock climbing device according to claim 1, wherein the climbing course scaffolding (3) starts at the ground (3f), reaches a considerable altitude, and returns to the ground (3g). Mock rock climbing device according to claim 1, characterized in that the climbing wall (1) and the safety wall (2) are generally flat. 2. The simulated rock climbing mechanism according to claim 1, wherein the climbing wall (1) and the safety wall (2) are generally cylindrical surfaces. 2. The simulated rock climbing mechanism according to claim 1, wherein the climbing wall (1) and the safety wall (2) are made of a combination of a plane and a cylindrical surface. The rock climbing device of claim 1, wherein the climbing wall (1) is made of a transparent material. Mock rock climbing mechanism according to claim 1, characterized in that the safety wall (2) is made of a transparent material. Mock rock climbing mechanism according to claim 1, characterized in that the climbing wall (1) is made of a wire mesh material. The simulated rock climbing mechanism according to claim 1, wherein the safety wall (2) is made of a wire mesh material. The mock rock climbing device according to claim 1, wherein the overall shape of the mock rock climbing device is an image reminiscent of a dinosaur. The mock rock climbing mechanism according to claim 1, wherein the overall shape of the mock rock climbing mechanism is an image reminiscent of a rocket. The mock rock climbing mechanism according to claim 1, wherein the overall shape of the mock rock climbing mechanism is an image reminiscent of an airplane. The mock rock climbing mechanism according to claim 1, wherein the overall shape of the mock rock climbing mechanism is an image reminiscent of a train. The mock rock climbing mechanism according to claim 1, wherein the overall shape of the mock rock climbing mechanism is an image reminiscent of a car. The mock rock climbing mechanism according to claim 1, wherein the overall shape of the mock rock climbing mechanism is an image reminiscent of a guitar. The simulated rock climbing mechanism according to claim 1, wherein a distance between the climbing wall (1) and the safety wall (2) is about 1 meter. As a simulated rock climbing exercise device that guarantees safety, a climbing wall (1), which is generally erected in a vertical direction, a safety wall (2) standing side by side with the climbing wall and facing the climbing wall, and along a climbing course Climbing course scaffolding (3) installed between the climbing wall (1) and the safety wall (2), and the simulated climbing footing objects installed on the climbing wall (1) while following the climbing course scaffolding (3) 4), simulated climbing handles 5 mated with the stepping objects, and a rope 6 positioned above the climbing course footboard 3 and lowered from the ceiling 6a. The fallable distance h between the footsteps 4 and the climbing course scaffold 3 is made relatively small, so that the user 7 may be injured due to the fall in the vertical direction even when the user 7 stumbles. There is virtually no concern and the climbing walls 1 and safety walls before and after the user 7. The mock rock climbing mechanism, which is designed so that it is possible to safely carry out mock rock climbing as a whole because it is impossible to fall back and forth since (2) exists. As a simulated rock climbing exercise device that guarantees safety, a climbing wall (1), which is generally erected in a vertical direction, a safety wall (2) standing side by side with the climbing wall and facing the climbing wall, and the climbing along a climbing course Climbing course scaffolding 3 installed between the wall 1 and the safety wall 2, and the simulated climbing feet 4 installed along the climbing course scaffolding 3 along the climbing course scaffolding 3 ), Simulated climbing handles (5) paired with the footing objects, and the simulation climbing footing objects (4) installed along the climbing course footing (3) along the safety wall (2) And a simulated climbing handle (5) paired with the stepping objects, and the fallable distance (h) between the stepping objects (4) and the climbing course scaffold (3). If it is relatively small, the user 7 may be injured due to the fall in the vertical direction even when the user 7 steps down. There are practically no problems, and the climbing wall 1 and the safety wall 2 exist in front and behind the user 7, so that the fall back and forth is impossible, so that the overall rock climbing can be safely performed. Mock rock climbing mechanism, characterized in that the devised.

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