Apparatus for active walking combined with rolling

FIELD: shoe industry, in particular, manufacture of shoes equipped with devices facilitating acting walking and rolling.

SUBSTANCE: apparatus has upper portion provided with shoe top part and sole provided with at least mid portion, lower portion and lower sole layer. Lower layer of mid portion of sole and lower layer of sole have random convex or arched shape or shape of segment of circle.

EFFECT: increased efficiency in protecting of user's joints, enhanced growth of muscles and strengthening of posture.

21 cl, 14 dwg

 

The present invention relates to a device for active walk with rolling.

Man, being a very complex system of ligaments - muscles, tendons, with sensitive direct to the spine, is arranged so that in nature it can move over uneven ground. For thousands of years people have used and kept his body in accordance with these natural conditions.

Only in the last hundred years we have been largely to make the surface of the earth on which we live, and move, artificially flat and solid. When we move on such a surface, the body is used in a completely different manner than that for which it is intended by nature, and it is during this short period of human history have faced problems that have spread like an epidemic, associated with your back, joints, veins, etc.

Several thousand years ago man invented the wheel for transportation of cargo. Over time, he realized that it is a practical device for transporting heavy loads over long distances. The more flat is the way to go for transportation, the easier it is transportation. Consequently, man has adapted the road for transportation to the wheel and made them flat.

When about 100 years ago the ne began to create large flat surface on the square, he moves, he would be in accordance with the development of the wheel and in contrast to its walk at least to alter your shoes, namely so that he could also "roll" on the flat surfaces of the earth. Only in this way it is possible to preserve the natural big step when walking and, consequently, the health of the musculoskeletal system. However, the footwear industry is absolutely not noticed this development.

It is recognized that people tend to walk on flat surfaces of the earth, and indeed it is so easy, which makes it possible passive walking, which uses only part of the propulsion system, and that virtually invites people to passive walking. As a result, the shock of the joints and spine. Unequal loading of the musculoskeletal system means that certain parts are not loaded, while others are loaded excessively. 10,000 steps a person goes through, on average, each day, require attention to the human body. In the case of an unsuccessful one-sided load on the musculoskeletal system, which is the result of passive walk, shake joint and unilateral muscles, tendons and ligaments are common sources of problems with your back, joints, veins, legs and feet.

Minor ailments or disorders of posture, such as the curvature of the foot or a flat foot, recover, for example, using liners in regular shoes. It is assumed that as a result of continuous use or wear liners, search the correction is carried out automatically over time. Unfortunately, proved the opposite, and muscles while reducing stress is attenuated, because it no longer performs the functions work. Dynamic change and further development of posture and locomotion system is not accepted or only slightly taken into account.

In the case of minor ailments often continuously used measures, such as, for example, wear liners, are unfavorable. So, from the utility model DE 29609992 known orthopedic shoes, the upper part of which has the top of the Shoe, with which you can pin it to the leg and which is made of leather, textile or other natural or synthetic materials. The user to the th wants to correct poor posture, very easy to make another new poor posture as a result of static correction.

Neither shoes, nor in the above-described devices for walking, also mentioned in several articles and patents, is not taken into account the need to use the entire musculoskeletal system through active walk, and independently and to quickly determine how the muscles, tendons and spinal column should be used for an active walk. As orthopedic shoes and inserts can only be modified by an expert podiatrist. As a consequence, existing devices are unsuitable for the improvement of light, and possibly also temporal, abnormalities of posture and errors in the sequence of operation of the propulsion system of planned and accelerated manner.

Physiotherapy often assists by issuing instructions to the relevant exercises and movements. However, often there is the disadvantage that therapy may not last permanently, i.e. also in the continuation of the usual walk to work and the like, and the patient often does not perform a number of recommended exercises.

The present invention is to improve shoes or other shoes the aforementioned type in such a way that active walking becomes necessary. In the 10,000 steps, which are attempted, aged is evno, run in as natural a coordinated movement with the rolling. Even loading the whole body protects the joints, builds muscles, improves posture and helps the circulation of blood ("venous pump"). Device for active walk with rolling must be prepared by an expert and can be made valid by the user.

The problem is solved by a device for active walk with rolling, the upper part of which is equipped with top of the Shoe, with the help of which you can secure the device on the leg and which is made of leather, textile or other natural or synthetic materials, which according to the invention outsole contains at least the middle part of the sole, the bottom part of the sole and the bottom layer of the sole, and the middle part of the sole is made of durable, solid and elastic, the lower part of the sole has a thickness of between 0.5 and 5 cm, and is soft and elastic, and the bottom layer of the sole is made of hard and elastic, and the lower layer the middle part of the sole and the bottom layer of the sole have an arbitrary convex, arcuate, or in the form of a circle segment shape.

Preferably, the middle portion of the sole is solid, and the lower part of the sole is soft, and the two parts separated by the lower layer of the middle part of the sole.

Preferably in devices which have a gradual transition from durable, solid middle of the soles to the soft bottom of the soles.

Preferably the lower part of the sole is made of one or more layers or parts of a soft material so that the sole has elasticity like sand, but that in the compressed state may adopt a new form only through the application of force and which, despite this, is elastically flexible.

Preferably the solids attached to the bottom layer, the middle part of the sole.

Preferably the solids are of various shapes and sizes.

Preferably the spikes attached to the bottom layer of the sole.

Preferably the spikes attached to the bottom layer of the sole with the possibility of replacement.

Preferably disposal of solid inclusions and spikes corresponds to a destination specified for a particular case.

Preferably the device has a solid having a wedge-shaped large inclusion in the anterior third of the Shoe (II), completely filling the space between the bottom layer of the middle part of the sole and the bottom layer of the sole, the rear two thirds of the Shoe (III, IV) it has an arbitrary shape, and the rest of the space between the bottom layer of the middle part of the sole and the bottom layer of the sole is filled with soft lower part of the sole so that the convex outer contour of the lower layer is preserved.

Preference is sustained fashion solids in the middle third (III) of the Shoe at least two arbitrarily chosen points x and x', start with the bottom layer of the sole, and at least two lines a and a' of arbitrary curvature, which on the rear two thirds (III, IV) shoes strive to achieve the heel (V) and end at least at two points z and z'.

Preferably at the point in the center of the Shoe (y, y') begins at least one additional line (b, b'), which forms an arbitrary curve and ends at least at one point (v, v') of the heel (V).

Preferably the points y and y', where the start of lines b and b'are located at an arbitrary location on theoretical connecting line between x and x'.

Preferably the points v and v', where end of line b and b'are located at an arbitrary location on theoretical connecting line between z and z'.

Preferably in an arbitrary number of points y and y', etc. have an arbitrary number of lines b and b', which end in an arbitrary number of points v and v'.

Hereinafter the invention will be explained in more detail with reference to the accompanying drawings, in which

Figure 1 is a device for active walk with rolling.

Figure 2 is a device for active walk with rolling with additions.

Figure 3 - instant photo sequence of operation of the device for an active walk with rolling.

Figure 4 - instant photo sequence of operation of the device for an active walk with Perek what titanium.

5 is an instant picture of the sequence of operation of the device for an active walk with rolling.

6 is a transverse section of the device for an active walk with rolling.

Fig.7 is a view in section along the line a-a in the rear.

Fig is a view in section along the line a-a in the rear.

Fig.9 is a view in section along the line a-a in the rear.

Figure 10 is a view in section along the line In the back.

11 is a perspective and schematic view of the solids from the bottom.

Fig - rear view.

Fig - rear view.

Fig is a perspective view of the solids from the bottom.

In the drawings is shown the preferred embodiment are illustrated by the following description.

The device 1 in accordance with the invention for an active walk with rolling, hereinafter referred to as device 1 for walking, contains the upper part of the Shoe 2 and the sole 3. The upper part of the Shoe 2 is used to secure the device 1 to walk to the foot. This can be done by means of straps, like the ones used in sandals, shoelaces, which are used in beach footwear, or solid upper part of the Shoe, made of leather or textile material. It is important that through this upper part of the Shoe 2 foot firmly and comfortably connected to the middle part of the sole 10.

Sole 3 can be designed in different ways. Basically onasteries at least one the middle part 10 of the sole, the lower portion 12 of the sole and the bottom layer 13 of the sole. To increase the flexibility of the device 1 for the distance between the middle part 10 of the sole and the lower part 12 of the sole can be inserted into the bottom layer 11 middle part of the sole. The use and application determine the design of the device 1 for walk in accordance with the invention and thus to create one of its advantages. It is adapted to the requirements posed in front of a group of users, but can still be adjusted individually.

The middle part of the sole 10 is made of conventional material and is durable, resilient and relatively rigid. It is designed for use on purpose, so for gymnastic shoes you select different hardness, for example, compared with operating shoes. The lower layer 11 of the middle part of the sole is made of a solid elastic material. It also has adequate strength to absorb the forces resulting from the deformation of the lower part 10 of the sole. The lower layer 11 of the middle part of the sole is durable enough to be able to reliably transfer solids 15 type hat from a nail. The lower boundary of the middle part 10 soles or in the presence of the lower layer 11 of the middle part of the sole has a downward convex, arcuate, or in the form of a segment of a circle is a shape, which is selected depending on the intended use of the device 1 for walking.

The lower portion 12 of the sole is the most important part of the device for walking. She has a thickness of from 0.5 to 5 cm and is soft and elastic. She is on the side of limiting the lower layer 13 of the sole facing down convex, arcuate, or in the form of a circle segment of arbitrary shape. It is made of easily deformable, flexible material that allows the consumer to feel when rolling over, he walks barefoot on the sand, creates the effect of marking time. The process of rolling, as chronologically presented on figure 3, 4 and 5, requires the consumption of a certain active power in the same way as when walking on sand. In the final stage of rolling, as shown in figure 5, the process of rolling is limited by the effect of the type of marking time. The bottom layer 13 of the sole is mainly used to protect the lower part 12 of the soles from wear and allows the device 1 to walk the necessary slip resistance. It is made from solid materials. Made of very elastic and wear-resistant elastic material, the device immediately shrinks when rolling. Thus, in the continuation of putting it constantly adapts to the above form of the lower part 12 of the sole. Depending on the requirements appropriate to eastwoodiae device is applied on the lower layer 13 of the sole, in order to provide a simple mounting studs 14.

Any arbitrary type devices is made possible by the proposed invention the design of the sole 3, which consists of the middle part 10 of the sole, the lower layer 11 of the middle part of the sole, the lower part 12 of the sole and the lower layer 13 of the sole. For the planned uses and applications, such as massage, correction of the soles of the feet, the statics of the spine, the reflex of the foot so that the middle portion 10 of the sole and the lower part 12 of the sole can be molded in one piece. The transition from a relatively rigid middle part 10 soles to soft elastic lower portion 12 of the sole has in many cases gradual. In the manufacture of this mode of production creates significant advantages. The sole 3 is limited to the lower layer 13 of the sole, which has the above-mentioned convex shape.

The lower portion 12 of the sole may be formed of layers or different parts. For example, it is possible that when trampling (figure 3) to the rear part of the sole 3 is selected first mixture, for the middle third of the sole (4) - second and to the front third (figure 5) - the third part. The goal of the movement with the rolling is decisive for the selection of materials and design of the sole 3. The selected materials are highly deformable and flexible, but they provide a good effect rela is xali.

More specifically, for use in orthopedic purposes variant, shown in figure 2, which has the ability to capture solids 15 to the lower layer 11 of the middle part of the sole, is appropriate. Such solids 15 can have any shape and size. The selected material can have different characteristics in terms of hardness and elasticity. The choice of shape, hardness and elasticity depends on the use for which the device 1 is intended for walking. With such a solids content of 15 it is possible to correct improper or abnormal foot position, such as, for example, in the case of the curvature of the feet or flat feet, or abnormal condition of the knee or position of the hip, as well as to protect the position of the spine. However, these solids 15 also allow the effect of the massage, stimulation of the reflex zones of the foot and planning coordination of movement. The device 1 for walk can be used to strengthen certain muscles and to actively support the skeleton.

The studs 14, which shall be affixed to the bottom of the sole 13 can be fixed as motionless, and with the possibility of withdrawal. If they can arbitrarily be removed in the same manner as the studs on football boots, this gives the user the advantage and the opportunity is to regulirovanie certain effects of training. The device 1 for walk in accordance with the invention, therefore, becomes a training device that can be adapted to changing training requirements.

Describes the studs 14 can have any shape and size. The hardness and elasticity can be adapted for such use. Naturally, it is also possible to drive to the bottom layer 13 of the sole other part having an arbitrary shape, size, elasticity and made of various materials. They can also be either still connected or fastened with the possibility of withdrawing the lower layer 13 soles.

The bottom layer 13 of the sole is restrictive and protective layer for some parts or all parts of a sole 3. It can be placed around the sole 3, and if desired, may be applied to the upper part of the Shoe 2.

Figure 6 shows that the solid inclusion 15 may also have large dimensions and fill the entire front part of the foot II. At the point x of the plot she has a thickness d and is held in the form of a wedge up to the tip of the first device 1 for walking. The space between the lower layer 11 of the middle part of the sole and the bottom layer 13 of the lower part of sole entirely filled shows solid inclusion 15. All four forward-facing boundary surface R, R', Q and Q' of the wedge may have an arbitrary shape and can be PR is sposoben to the outer contour of the device 1 for active walk with rolling. Fifth, a rearward-facing surface of the wedge R, which, for example, presented in section along the line In figure 10, is held in any form until the heel V. On 11 and 14 shows a possible design of this part of the solids 15. Depending on the shape of the rear part of the solids 15 the shape of the surfaces R, R', Q and Q', it is obvious that change. The surface R may be constrained by a variety of lines a, a', b and b' may be subdivided into segments R, R', R", as shown in Fig.

Form solids 15 in the Central part III and rear section IV can be chosen arbitrarily, as shown at 11 to 14. As the outer bounding lines a and a', connecting points x and z, or x' and z', and the Central line b, virtual presents as a "ridge" on Fig, which connects the points u and v, can be largely arbitrary configuration.

Only in very few cases, the line b is located at the center. Due to the fact that it is located off center, achieved the planned one-sided voltage of the propulsion system and, in particular, the muscles of the user device 1 to walk.

In order to avoid the risk of bending at the walk or to reduce it, through a group of infinite number of curves b connecting an infinite number of points x and y, it is possible to form a round surface R' p is oswaldoi forms of the type shown at 11.

A randomly chosen points x and x' on the bottom layer 13 of the sole can be connected by two curved lines a and a' of arbitrary curvature on the rear two thirds (III,IV), and reach the heel (V) at the points z and z'. In addition, lines b and b', starting at the points y and y' of the Central part of the lower layer of the sole and ending at the heel (V) at the points v and v'may be to limit the solids with arbitrary curvature in the direction of the lower part 12 of the sole. Points y and y' can also be located at any place on the lines a and a'. The endpoints of lines b and b' can also be located at an arbitrary point v on theoretical line connecting z and z', as shown in Fig. The number of connecting lines b can be chosen arbitrarily for the formation of a group of lines forming a continuous curve.

The space between the lower layer 11 of the middle part of the sole and the bottom layer 13 of the lower part of the soles filled with solid inclusions 15 and the soft lower part 12 of the sole. There are no air inclusions. Hard turning 15 and the lower portion 12 of the sole fitting one to another in such a way that from the outside they are perceived as a single unit, and which is limited by the lower layer 13 of the lower part of the sole.

1. Device for active walk with rolling, the upper part of which is equipped with top of the Shoe, by means of which the can is to secure the device on the leg and which is made of leather, textiles or other natural or synthetic materials, wherein the sole includes at least the middle part of the sole, the bottom part of the sole and the bottom layer of the sole, and the middle part of the sole is made of durable, solid and elastic, the lower part of the sole has a thickness of between 0.5 and 5 cm, and is soft and elastic, the bottom layer of the sole is made of hard and elastic, and the bottom layer of the middle part of the sole and the bottom layer of the sole have an arbitrary convex, arcuate, or in the form of a circle segment shape.

2. The device according to claim 1, characterized in that the middle part of the sole is solid, the bottom part of the sole is soft, and the two parts separated by the lower layer of the middle part of the sole.

3. Device according to any one of claim 1 or 2, characterized in that it has a gradual transition from durable, solid middle part of the sole to the soft bottom of the soles.

4. Device according to any one of claim 1 or 2, characterized in that the lower part of the sole is made of one or more layers or parts of a soft material so that the sole has elasticity like sand, but that in the compressed state may adopt a new form only through the application of force and which, despite this, is opposible.

5. The device according to claim 1, characterized in that the solids attached to the bottom layer average frequent the soles.

6. The device according to claim 5, characterized in that the spikes attached to the bottom layer of the sole.

7. The device according to claim 6, characterized in that the spikes attached to the bottom layer of the sole with the possibility of replacement.

8. The device according to p. 7, characterized in that the disposal of solid inclusions and spikes corresponds to a destination specified for a particular case.

9. The device under item 5, wherein the hard particles have different shapes and sizes.

10. The device according to claim 1, characterized in that the spikes attached to the bottom layer of the sole.

11. The device according to claim 10, characterized in that the spikes attached to the bottom layer of the sole with the possibility of replacement.

12. The device according to claim 10, characterized in that the disposal of solid inclusions and spikes corresponds to a destination specified for a particular case.

13. The device according to claim 10, characterized in that it has a solid, having a wedge-shaped large inclusion in the anterior third of the Shoe, completely filling the space between the bottom layer of the middle part of the sole and the bottom layer of the sole, the rear two thirds of the Shoe it has an arbitrary shape, the rest of the space between the bottom layer of the middle part of the sole and the bottom layer of the sole is filled with soft lower part of the sole so that the convex outer contour of the lower layer is preserved.

<> 14. The device according to item 13, characterized in that the solid inclusion in the middle third (III) of the Shoe at least two arbitrarily chosen points x and x′ start with the bottom layer of the sole at least two lines a and a′ arbitrary curvature, which on the rear two thirds (III, IV) shoes strive to achieve the heel (V) and end at least at two points z and z′.

15. The device according to 14, characterized in that at the point in the center of the Shoe (we′) starts at least one additional line (b, b′), which forms an arbitrary curve and ends at least at one point (v, v′) heel (V).

16. The device according to claim 1, characterized in that it has a solid, having a wedge-shaped large inclusion in the anterior third of the Shoe, completely filling the space between the bottom layer of the middle part of the sole and the bottom layer of the sole, the rear two thirds of the Shoe it has an arbitrary shape, the rest of the space between the bottom layer of the middle part of the sole and the bottom layer of the sole is filled with soft lower part of the sole so that the convex outer contour of the lower layer is preserved.

17. The device according to item 16, characterized in that the solid inclusion in the middle third (III) of the Shoe at least two arbitrarily chosen points x and x′ start with the bottom layer of the sole on ENISA least two lines a and a′ arbitrary curvature, which on the rear two thirds (III, IV) shoes strive to achieve the heel (V) and end at least at two points z and z′.

18. The device according to 17, characterized in that at the point in the center of the Shoe (we′) starts at least one additional line (b, b′), which forms an arbitrary curve and ends at least at one point (v, v′) heel (V).

19. Device according to any one of p-18, characterized in that the points y and y′where the start line b and b′located in an arbitrary location on theoretical connecting line between x and x′.

20. Device according to any one of p-18, characterized in that the points v and v′where end of line b and b′located in an arbitrary location on theoretical connecting line between z and z′.

21. Device according to any one of p-18, characterized in that an arbitrary number of points, similar to y and y′there is an arbitrary number of lines b and b′that end in an arbitrary number of points v and v′.



 

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FIELD: shoe industry, in particular, manufacture of shoes equipped with devices facilitating acting walking and rolling.

SUBSTANCE: apparatus has upper portion provided with shoe top part and sole provided with at least mid portion, lower portion and lower sole layer. Lower layer of mid portion of sole and lower layer of sole have random convex or arched shape or shape of segment of circle.

EFFECT: increased efficiency in protecting of user's joints, enhanced growth of muscles and strengthening of posture.

21 cl, 14 dwg

FIELD: household goods and personal effects.

SUBSTANCE: atmospheric air is pumped through the system of horizontal elastic channels available in the shoe sole. They are placed in the cellular layer and do not interact with each other. While walking, the rear part of the leg heel interacts with the support surface of the front part. Then the sole contact with the surface moves to the toe part. At the same time, the load moves subsequently from heels to toe. The elastic channels of minor diameter of the cross section are deformed and blocked under the gravity effect. It helps to push air from hell to toe part of the show. The channel section diameter does not exceed 1.5-2.0 mm. Pressure is increased in the inner shoe volume resulting in air and water steam release through the natural slots between feet, inner surface of shoe top and toe material. The same action is repeated at each step, i.e. the system of elastic, horizontal channels is represented with a pump, which pumps atmospheric air into the toe part of the shoe.

EFFECT: more comfortable shoes, improved hygienic properties due to atmospheric air pumping through the toe shoe part.

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EFFECT: improved footwear comfort and hygienic properties.

2 dwg

FIELD: individual supplies.

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EFFECT: technical result provides for footwear sole using according to invention and lies in applying simple technology of manufacture; so, sole has maximum bending elasticity and flexibility in metatarsophalangeal joint of foot flexure without loss of side stability chosen as structural basis.

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EFFECT: increased efficiency of moisture removal from shoes and elimination of membrane damage in process of operation.

21 cl, 25 dwg

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FIELD: personal use articles.

SUBSTANCE: module with the rotary plate for embedding into shoe soles in the form of pre-assembled node contains a basic detail, a rotary plate installed on the basic detail for a limited rotation relative to the basic detail in each direction of rotation from the starting position, with an elastic element mounted between the rotary plate and the basic detail to ensure the return of the rotary plate to its original position after the turn, and O-ring. The latter is applied to the basic detail to find outside the periphery of the rotary plate so that the rotary plate is placed between the O-ring and the basic detail. At that the outer surface of the rotary plate is in sliding contact with an adjoining surface of the O-ring, whereby the O-ring prevents the access of dirt or mud inside the module. The module is made with an ability to install in a pre-formed structure of the sole so that the rotary plate is open through a hole in the outer sole of this structure. Use of the pre-assembled module with the rotary plate facilitates its insertion into a shoe using a general technique of mass production of shoes.

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24 cl, 7 dwg

FIELD: personal use articles.

SUBSTANCE: invention proposes a flexible sole of shoes for cross-country skis, including at least two connecting units (16, 18) for its connection to the fixation device. Besides, these connecting units include elements of anchor fixation (48, 50) in the sole (14). Connecting units are fixed on the common part of anchor fixture (46), which is rigidly connected to the sole (14). The anchor fixture part includes two fixing zones (58, 60). At the same time each connecting unit is fixed on one of fixing zones, and the anchor fixation part includes a central zone (62), which passes between two fixing zones. The anchor fixation part of the sole has flexibility, which ensures folding of sole part when shoes are used, in which the anchor fixation part is integrated. When shoes are used, folding of the sole part, where the anchor fixation part is integrated, results in relative displacement of both connecting units. Cross-country skis shoes contain a sole made in compliance with the sole invention.

EFFECT: invention provides reliable fixation of connecting units without excessive stiffening of the sole in the part, where connecting units are fixed.

18 cl, 9 dwg

FIELD: personal appliances.

SUBSTANCE: invention refers to footwear (1), especially athletic footwear having an upper portion (2) and an outsole (3) attached to the upper portion (2); the outsole (3) has a long axis (L) and has an anterior foot (4), a middle foot (5) and a heel (6). The outsole (3) has at least one first pivot (7) arranged between the anterior foot (4) and the middle foot (5), which enables bend the anterior foot (4) in relation to the middle foot (5) about a first horizontal axis (T1) perpendicular to the long axis (L), and the outsole (3) has at least one second pivot (8) arranged in the middle portion (5) and enabling bending two adjoining portions (5a, 5b) of the middle foot (5) about the second horizontal axis (T2) perpendicular to the long axis (L); on or in the outsole (3) there is at least one flexible tension unit (9), which displaces the anterior foot (4) so that it turns about the first horizontal axis (T1) upwards in relation to the middle foot (5), when the footwear stands on the ground (10), and which displaces the two portions (5a, 5b) of the middle foot (5) so that they turn about the second horizontal axis (T2) to form an arch, when the footwear stands on the ground (10).

EFFECT: supporting foot more naturally, especially when running.

15 cl, 20 dwg

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