RU125475U1 - SPRING BOOTS FOR ACTIVITIES - Google Patents

Abstract

1. Spring boots for outdoor activities, containing a spring structure attached to the sole of each shoe, including two elastic elements in the form of an arcuate shape of elastic plates arranged concavities towards each other and the combined ends of which are fixed in the reinforcing element in the form of a plate placed between elastic plates and made at the ends with sockets for inserting the ends of these plates into them, while the upper-located elastic plate is attached to the sole of the boot, on the outer surface The surface of the lower-lying elastic plate has a protector attached to increase traction, while for the sole of each shoe a support plate is attached that is attached to the sole and made with elements for attaching the upper-located elastic plate, characterized in that the support plate attached to the sole of each shoe is made with side the walls forming the lodgements for placing the sole of the boot and attaching the upper-mounted elastic plate, the reinforcing element in the form of a plate is made between by the attachment nodes of the ends of the elastic plates with the possibility of elastic tension and with elements for fixing the elastically deformable blocks located in the middle of the reinforcing element on the side of each elastic plate or in the zones of attachment of the said elastic plates, the tread is removable with its fixing elements on the lower elastic plate, and on the back an elastic stop is provided on the side of the sole of the shoe or on the base plate, which allows the load to be distributed evenly over the sole surface

Description

The utility model relates to sports shoes and relates to the design of boots made with a spring device that provides the opportunity to engage in active sports, that is, it can increase the amplitude of its movements due to the active forces of the spring structure.

Such shoes can be considered not only as a means of entertainment and relaxation, but also as an effective sports simulator that has a minimal effect on the joints. Jumping boots as a training tool are recognized by many international sports associations and medical institutions and are recommended, including for the rehabilitation of people who have suffered injuries of the motor apparatus. They help improve balance, coordination, strengthen the muscles of the legs and abdominals.

Anti-gravity or jumping boots are known, which are models of sports shoes for fitness of two types - these are sneakers similar to roller and figured boots, or sandals, which are a plastic frame with fastenings, fixing the ankle, to the sole of which is attached a spring structure, which is rubber frame made of spring elements interconnected by a dividing element, installed in accordance with the weight of a person (Article "Brytinki-jumpers", 02.16.2012, posted on sa those "Expostal-m.ru" on the Internet at: http://www.expostal-m.ru/material/botinki-pryguny.html, the video is available at: http://www.youtube.com/watch ? v = VTlhg_oEZb4, copy attached). This decision was made as a prototype.

The disadvantage of this solution is its low operational reliability, due to some design features of the spring structure and fixing the boot on this structure. Firstly, a support plate, by means of which the spring structure is attached to the sole and has no positioning elements of the elastic element. The position of this elastic element with respect to the sole is determined by the mount itself. During operation and due to loads, the position of the elastic structure can change (shift, skew, etc.), in relation to the direction of movement or in relation to the sole of the boot. This may result in personal injury.

In addition, the elements of the spring structure during loading and unloading change their position with respect to each other and with respect to the sole. In this regard, the upper located plate of the spring structure has a point mount to the base plate so that it would have free space during deformation and be pressed to the base plate or move away from it when restoring its shape. But this leads to the formation of a hard blow to the sole during compression of the plates, and when straightening, the user’s weight is redistributed, which introduces an imbalance into the state of stable equilibrium acquired by the user.

Dynamic loads during the operation of such boots increase the impact interaction of the plates during compression in the nodes of their connection, which forms a rigid elastic characteristic of the spring structure. Since the spring structure is made of a polymer material, under such shock loading fatigue loading occurs, leading to cracks and destruction of the polymer material of the reinforcing element in the plate attachment points

Such design features reduce the operational safety of jumping boots.

This utility model aims to achieve a technical result, which consists in increasing operational reliability.

The specified technical result is achieved in that in spring boots for outdoor activities, containing a spring structure attached to the sole of each shoe, including two elastic elements in the form of an arcuate shape of plates arranged concavities towards each other and the combined ends of which are fixed in the reinforcing element in in the form of a plate placed between the elastic elements and made at the ends with sockets for inputting the ends of the springs, while the upper located plate is attached a protector is attached to the sole of the boot, on the outer surface of the lower located plate to increase traction, and for the sole of each boot a support plate is attached, attached to the sole and made with attachment elements to it of the upper located plate, the support plate attached to the sole of each boot is made with the side walls forming the lodgements for placing the sole of the boot and for placing and attaching the upper located plate, the reinforcing element in the form of a plate is made with with hollow slots for fixing additional elastic elements in the form of elastically deformable blocks located in the middle of the reinforcing element on the side of each elastic element in the form of arched plates or in the zones of connection of these plates, the tread is removable with its fixing elements on the lower plate and on the back an emphasis is provided on the side of the soles of the boots, which allows the load on the elastic elements to be distributed evenly over the surface of the sole in the form of an arched shape of the plates.

These features are significant and are interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

The present invention is illustrated by specific examples of execution, which, however, are not the only possible, but clearly demonstrate the ability to achieve the desired technical result.

Figure 1 is a General view of spring boots for outdoor activities;

figure 2 - spring design.

This utility model considers the design of boots made with a springing device that provides the opportunity to engage in active sports.

Boot 1 is a structure rigidly mounted on the foot. In this case, the design itself assumes the height of the boot, covering most of the leg above the foot, which is necessary for injury safety with possible dislocation.

Spring boots for outdoor activities contain a spring structure 2 attached to the sole of each shoe, which includes for each boot two elastic elements in the form of an arcuate shape of elastic plates 3, arranged concave towards each other. These plates can be made of metal or polymeric material. With this arrangement, the elastic plates form an oval-shaped profile in which the ends of the plates are close to each other. In this position, the combined ends of the elastic plates are fixed in the reinforcing element 4 in the form of a plate placed between the elastic elements (plates), which is made at the ends with sockets 5 for inputting the ends of the elastic plates 3. The reinforcing element between the end nodes of the attachment of the ends of the elastic plates is made with the possibility of elastic stretching. When the elastic plates are compressed, the reinforcing element stretches. To perform this function, the reinforcing element is made of three parts: two end nodes with sockets 5 for pinching the ends of the elastic plates and the central elastically deformable part 6, which is connected with the end nodes.

On the outer surface of the lower located plate, a tread 7 is attached to increase traction (the tread is removable with elements 8 for fixing it on the lower located plate 3 and can be replaced when worn), and the upper located elastic plate 3 is attached to the sole 9 of the boot 1, while this is a point the attachment is carried out through the support plate 10, which is made with the attachment elements to it of the upper located plate. This support plate 10, attached to the sole 9 of each shoe, is made with side walls 11 forming lodgements for placing the sole of the shoe and attaching the upper located plate 3, while on this support plate is fixed or made together with it or attached to the sole of the stop 12 of elastically deformable material (damper), which allows you to evenly distribute the load on the elastic plates on the surface of the sole.

The reinforcing element 4 located between the elastic plates in the form of a plate is made with longitudinal slots for securing additional elastic elements 13 in the form of elastically deformable blocks (possibly removable) located in the middle of the reinforcing element from the side of each elastic plate or in the connection areas of these plates.

The use of a corrugated insert (tread) in the form of a corrugated surface in the spring structure in its lower part, where there is contact with the surface of the earth, improves adhesion to the surface of the earth. The use of additional springs in the design of the reinforcing element in the form of elastically deformable blocks (it is possible to insert and remove them as an additional spring) allows increasing the stiffness of the reinforcing element and the entire spring structure. but at the same time, the damping of the peak shock loads occurs and the elastic characteristic increases. A damper is provided in the design so that during full straightening the elastic plates do not abut against each other, which would increase their wear or their possible destruction under load, but in dampers, which are replaceable. An emphasis is provided on the back side of the sole of the shoe or on the base plate, which makes it possible to distribute the load on the spring force evenly on the surface of the sole.

A person engaged in active sports can increase the amplitude of his movements due to the active force of the spring structure. When jumping due to the weight of the training person, the spring can bend until it is fully extended. When creating jumping movements, the spring, due to the energy of bending, enhances the effect of the jump. In this case, it is possible to make jogging movements, dance movements, and with some preparation acrobatic exercises with the possibility of somersaults in the air.

Claims (2)

1. Spring boots for outdoor activities, containing a spring structure attached to the sole of each shoe, which includes two elastic elements in the form of an arcuate shape of elastic plates arranged concavities towards each other and the combined ends of which are fixed in the reinforcing element in the form of a plate placed between elastic plates and made at the ends with sockets for inserting the ends of these plates into them, while the upper-lying elastic plate is attached to the sole of the boot, on the outer surface The surface of the lower-lying elastic plate has a protector attached to increase traction, while for the sole of each shoe, a support plate is attached that is attached to the sole and made with elements for attaching the upper-located elastic plate, characterized in that the support plate attached to the sole of each shoe is made with side walls forming lodgements for placing the sole of the boot and attaching the upper-mounted elastic plate, the reinforcing element in the form of a plate is made between by the attachment nodes of the ends of the elastic plates with the possibility of elastic stretching and with elements for fixing the elastically deformable blocks located in the middle of the reinforcing element from the side of each elastic plate or in the areas of attachment of the said elastic plates, the tread is removable with its fixing elements on the lower elastic plate, and on the back an elastic stop is provided on the side of the sole of the shoe or on the base plate, which allows the load to be distributed evenly over the sole surface plate. 2. Spring boots according to claim 1, characterized in that the elastic plates are made of metal or a polymeric material.

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