Shoe

FIELD: personal use articles.

SUBSTANCE: shoe has one-lace lacing with a single lace. This lacing has three working areas, namely the upper, middle and lower working areas, at that, the middle working area with respect to tightening and weakening the shoe laces is functionally linked directly both to the upper working areas and the lower work area. The upper and lower working areas have fixed device to tighten the lace. This device has a part of the lace in the form of an elongated loop used for opening and closing the shoe. The free end of each loop is passed through the handle, having an opportunity of free movement along the loop.

EFFECT: ensuring secure fixation of the foot with the whole shoe and at the same time simplification of putting the shoe on and off.

8 cl, 1 dwg

 

The present invention relates to a Shoe.

Boots used in different sports, such as mountaineering, ski disciplines or snowboarding. Essential to this Shoe is that it covers the foot part should provide a reliable fixation of the foot and the laces should not bump up in the bend region of the latter in the ankle joint. In addition, shoes should tight enough to sit on the leg in the area of the tibia, which is essential for transmission of human efforts to the appropriate sports equipment, in particular when skiing or snowboarding.

However, the Shoe should not only securely fix the leg, but be laced so that people could comfortably and easily put on or take off this Shoe.

From DE 202004019082 U1 famous shoes with dvuhtokovoe lacing. One of the laces is used to perform the lacing in the area of the top, while the other strap is used to perform the lacing on covering the foot part of the boot. To this end one end of the lace that is used to perform lacing on covering the foot part of the Shoe is attached to the Shoe. In the area covering the foot part of the Shoe the lace passes through three elements, in each of which it changes its direction, each of which is located to the side of the t of the tongue of the Shoe and which are hereinafter collectively referred to as turning points, or inflection, lace. After passing through the third pivot point of the free end of the lower strap runs along the top up where the end of the handle.

Related to the uppers of the Shoe upper strap connected to the Shoe, respectively, takes place inside the Shoe in the same way.

Both lace can be used independently from each other, which allows you to tighten, respectively loosen first, the top in the tops-zone lacing independently from the second, lower zone lacing located in the area covering the foot part of the boot. Due to the presence of the top and covering the foot part of the boot two separate zones lacing at least part of the transitional area between these two separate areas of lacing, namely in the area of the bend of the foot at the ankle joint, the lace is not.

For this reason, there is a danger of creating in the bend region of the foot at the ankle joint is insufficient tightness of the lacing that can adversely affect the reliability of fixation of leg boot. In addition, it has been found that removal of the Shoe, you need to loosen the lacing both the upper and lower zones. Because both zone lacing delayed, respectively attenuated independently of each other, weakening one of the upper zone of the cord is Cai enough for easy removal of the foot from the Shoe, since in this case the leg tightly held bottom lacing.

From DE 102004044801 A1 known solutions lacing with a single string without dividing the lacing on three functionally related areas, as well as lacing with two independent laces. These decisions inherent in the above disadvantages decisions on DE 202004019082 U1.

The present invention was based on the task of creating a Shoe lace which would ensure a secure fit (thick girth) feet of each Shoe and at the same time would wear and, respectively, to remove shoes as simple as possible way.

This task is solved according to the invention using the Shoe, characterized by signs of paragraph 1 of the claims, while the preferred embodiments of the invention are given in the dependent claims.

The essential point of the invention is that the proposed Shoe contains the lacing with a single lace (odnosortovymi lacing), which includes three operating zones, i.e. zones of action or operation of lacing, namely upper, middle and lower working areas. The average working area in relation to tighten and loosen the lacing of the Shoe is functionally connected directly with the upper work area, and from the bottom of the working area, i.e. is directly the th functional relationships with them. Thus, in contrast to the known Shoe offered in the invention of the Shoe is not two separate lace and the lace. Due to the presence of a single strap, and three working areas lacing when tightening the lacing firmly established in the bend region of the leg at the ankle joint, i.e. in the Central zone lacing, torque, sufficient for the fixation in the boot entire inside of the boot leg, including in the area of the last bend in the ankle joint. In addition, when the weakening of the upper work zone lacing structurally, due to the functional relationship of the working zone lacing, weakening the only lace is achieved in the medium production zone lacing, and, at least to a certain extent, and in the lower zone lacing, allowing for easy removal of the boot enough to loosen the lacing in only one of the upper zone. In the rest of the secondary working zone lacing, thanks to its functional relationships with both adjoining work areas lacing, performs the function of zone alignment tightening torques, ensuring uniformity of tightening the lacing of the Shoe. This Shoe is more comfortable to wear, and better captures the leg.

Further, in the proposed invention the Shoe with the upper and lower work areas lacing with tesano one fixed device for tightening the strap. With the help of such devices for tightening the strap associated with the respective working zones lacing, the tightness of the lacing in the area of the metatarsus and the leg region can be adjusted individually and independently of each other. The average work zone lacing performs the function of zone leveling effort of tightening the lacing of the Shoe, providing a generally uniform distribution of the pressure exerted on the foot by the Shoe. Device for tightening the strap allow you to implement gradually or proportionally increasing the compression leg boot, without requiring complicated and time-consuming lacing in order - as in normal shoes - first tighten the lacing in the area of the metatarsus, and then in the leg region. The average work zone lacing (zone alignment, tightening torques lacing allows you to provide the pressure distribution exerted by the Shoe on the sensitive area of the bend legs at the ankle joint, which prevents the cutting Shoe to the foot in the bend area. As for the comfort of putting on or taking off the Shoe, this variant of the invention allows releasing device for tightening the strap belonging to the upper work zone lacing, to loosen the lacing entirely by hand, because the upper zone lacing is functionally connected with the Central and lower work areas. Thus, the weakening of lacing in its upper working area covers the middle and lower working areas.

Due to the fact that the device for tightening the strap includes stretch lace, made in the form of an elongated loop used for the opening and closing of the boot, i.e. loosen and tighten the lacing formed by the strap loop is provided in the region of the pivot point lace, not adjacent to the tool rotation lace, and extends beyond it by such a distance that can influence the hinge for opening and closing the boot. To enable tightening of the lacing this loop is made with the possibility of fixing (fixed device for tightening the strap). Since this loop is not around a rotation lace, and stretches further, the turning point lace in the area of the loop can not be provided. In this embodiment of the invention offers the simplest possible implementation of the device for tightening the strap, since the latter uses a portion of the length of the existing string. Furthermore, this variant of the invention allows to provide the most efficient power transmission from the device to tighten the lace on the rest of the string, since the force transmitted to educated the lace is elongated loop, directly passed on through the adjacent turning points of the lace parts of the latter.

Using devices for tightening the strap belonging to the upper and lower work areas or lacing, it is possible to individually adjust the tightness of the lacing in these areas.

Additional more comfortable putting on and removing shoes is ensured by the fact that the free end of each loop passing through the handle, with the possibility of free movement along the loop.

In a preferred embodiment of the invention in the upper and lower working areas have several turning points or inflection, lace, and a device for tightening the strap located between the two, the first two are located directly behind each other such points. This arrangement of the device for tightening the strap allows you to provide the most efficient transfer of force from the device to tighten the lace on lace-up Shoe, because the transmission on the lacing through both the respective pivot points of the string in both directions lacing. Thanks to the lacing in the upper and lower working areas can be tightened, with relatively little effort.

Each loop is held in the guide under the military on the Shoe and/or, moreover, the free end of the loop is available for actuation of the device for tightening the strap. This avoids grasping the loop for foreign objects, such as branches while riding on a snowboard.

For fixing devices for tightening the strap loop can be skipped through attached to the Shoe, and especially to the top of the Shoe, retainer strap.

The most simple fixing of the ends of the strap in the desired position lies in their connection with the Shoe.

Brief description of drawings

Below the invention is described in more detail on the example of one of the variants of its implementation with reference to the attached drawing, which schematically shows a diagram of the lacing of the Shoe, made according to a preferred variant embodiment of the invention.

This is depicted in the accompanying drawing the lacing may be performed, for example, on a mountain boot (the boot for mountaineering and climbing) or soft boot for snowboarding, and the use of such lacing on the soft Shoe is most preferred.

To simplify the drawing shows only the lacing, and not the entire Shoe.

The implementation of the invention

In contrast lacing, known from the publication DE 202004019082 U1 provided on proposed invention the Shoe cords is 10 contains only one string 11, running the length of lacing. In addition, the lacing 10 has three working areas (range) 12A, 12b and 12C, the upper work area 12A lacing located in the region of the upper of the Shoe, and the lower work area 12C lacing - in area of metatarsus. The average working area 12b lacing is located between the upper 12A and lower 12C work areas in the bend area (lifting) of the boot. The average working area 12b lacing is functionally connected directly with the upper 12A and lower 12 work areas lacing and performs the function of zone alignment tightening torques lacing. This area provides the distribution of the tightening torques in section bend because of the efforts generated when tightening the lacing in its upper 12A and/or the bottom 12C of the working zones, transmitted, at least partially, on the average working area 12b.

In addition, as shown in the drawing lacing 10 allows the individual adjustment of the tightening torques of lacing at the top 12A and bottom 12C working areas. It should be noted here that the average working area 12b lacing, acting zone alignment tightening torques lacing, aligns these efforts only partially, it is assuming the job differ from each other by the amount of effort tightening of the lacing to the top 12A and bottom 12C of the working zones of lacing. For the individual adjustment of the tightening torques of lacing from the top is her 12A and the bottom 12C work areas lacing correlated one fixed device 13 to tighten the lace. Acting on the fixture 13 to tighten the lace, lacing in its upper 12A and lower 12C working areas can be tightened with a variety of efforts, with preset torque is retained by the fixing device 13.

In the form shown in the drawing, the embodiment of the invention, the device 13 to tighten the lace is made in the form of an elongated loop 14, which can be affected for opening and closing the boot. To this end portions of the strap extending from the points 15 of rotation of the strap located on one of the sides not shown in the drawing, the tongue of the Shoe, are not, as usual, through located on the opposite side of tongue point 15 of rotation of the lace. On the contrary, in accordance with the invention such a turning point lace is non-existent, and both of these stretch lace lengthened in such a way as to form a loop 14, which people may take a hand. These sections of the strap are extended so that they could pass through a provided in the upper end of the upper latch 19 of the strap and the free end 17 of the tie loop 14 is issued for the latch 19 so that a person can easily grab his hand. In practice, the length of an outstanding over the latch 19 of the strap free end 17 of the tie loops 14 at IU the e corresponds to the height of the top of the boot.

In order to avoid tangling elongated sections of the lace they are located in the guide 16 provided on the Shoe and/or in it. In this guide includes two flexible tubes embedded in the material of the Shoe or fixed in this material. Facing the tongue of the Shoe, the ends of both tubes are located between the points 15 of rotation of the lace, referring respectively to the bottom 12C 12A and the upper work zone lacing, or approximately at the level of the turning points of the lace. Both facing toward the tongue end of the tubes are at such a distance from each other and so located relative to the points 15 of rotation of the lace that lots of lace, concluded between the points 15 and inlet holes of the guide tubes, are essentially in the horizontal direction. The tube can be located and so that the corresponding parts of the string they entered at an angle corresponding to the angle between adjacent sections of the lace with the rest provided in the same lacing the pivot point lace.

Both plots lace extend outward from the guide below latch 19 of the lace and into the retainer on the lower side. Thanks to the Shoe fits only a very short free stretch lace that eliminates the Shoe hanging sections of lace.

The free end 17 of the loop is passed through the handle 18, have left the possibility of free movement along the loops 14 and provides the convenience of pull this loop 14, i.e. tightening the lacing 10.

Formed by the lace loops 14 of the lower 12C 12A and the upper working areas of lacing are of appropriate design, with lots of lace, forming a loop 14, the top of the working area 12A, shorter sections of the strap forming a loop 14 of the lower working area 12C, allowing the free ends 17 of the two loops 14 can be located at the same level.

Both ends of the strap 11, passing through the entire length of the lacing, enshrined respectively in a top of the Shoe and at the bottom of the lift or toe, and the design of this mount not shown.

Instead shown on the drawing option, where in the upper 12A and lower 12C working areas are provided at two points of rotation of the lace, the number of turns of the cord may be selected otherwise. So, for example, can be provided with four or six such turning points of the strap, and educated lace elongated loop 14 need not be located between two directly adjacent the pivot point lace. On the contrary, in accordance with the invention between the two forming loop 14 plots lace may be additional turning point lace.

Instead of elongated loops 14 formed by the strap, the device 13 for tightening the strap can have, for example, two tapes, each of which is connected with a corresponding loop, the tie respectively in the upper 12A and lower 12C working areas lacing.

When zachowanie and rassotojanie Shoe shown in the drawing lacing treated as follows. Pulling up loops 14 related to the upper work area 12A lacing, the lacing in this work zone delay, setting the force of tightening the lacing of the Shoe in the region of the tibia. Tightening the lacing in the area of metatarsus (lift) is performed by pulling the loops 14, relating to the lower working area 12C of lacing. Since the average working area 12b lacing is functionally connected directly with the upper 12A and lower 12C work areas lacing, there is some levelling or smoothing of the tightening torques of the lacing between the upper 12A and lower 12C work areas, and individually set the tightness of the lacing each of these two areas largely remain unchanged. Through this alignment, tightening torques lacing occurring in the Central zone 12b of the latter, provided certain compression leg boot including at the site of the bend of the Shoe, thus achieving a reliable fixation of the Shoe corresponding feet plot no lacing in the sensitive area of the bend legs at the ankle joint.

In General achieved exceptionally comfortable and the same time dense and reliable fixation of the foot in the Shoe.

To remove the Shoe enough to unlock the latch 19 shoelace belonging to the upper work area 12A lacing, as the weakening of the lacing in the upper working area entails the weakening of the lacing in the field of middle and lower working areas. Accordingly, unlike the prior art, to unlock the latch 19 lace, related to lower work zone 12C lacing, not necessarily.

Thus, the proposed lacing, in addition to being able differentiated in some areas of the tightening Shoe, also provides a convenient and quick donning and removal of the Shoe thanks to the use of lacing with work areas 12A, 12b and 12C, which are directly functionally linked.

It should be added that the proposed lacing allows the use of fewer points of rotation of the cord compared with lacing known from DE 2020040192 U1. This is because instead of turning points of the lace with one hand on the boot tongue is elongated loop 14, which, so to speak, replaces the turning point lace. It also allows you to reduce the friction of the lace when tightening or loosening the lacing and thereby to increase the usability of the boot.

1. Boots containing laces (10) with a single strap (11), which includes three working areas (12A, 12b, 12C), namely the upper, cf is working day and lower working area, with an average working area (12b) in relation to tighten and loosen the lacing of the Shoe is functionally connected directly with the top (12A)and lower (12C) work areas, and with the upper and lower work areas (12A, 12C) correlated one fixed device (13) for tightening the strap, including the area of the strap (11) in the form of an elongated loop (14)used for opening and closing the boot, and the free end (17) of each loop (14) is passed through the handle (18), having the ability free movement along the loop (14).

2. Shoe according to claim 1, characterized in that the upper and lower working areas (12A, 12C) has several points (15) rotate lace, and a device (13) to tighten the strap is located between two such points (15).

3. Shoe according to claim 2, characterized in that the device (13) to tighten the lace is between two points (15) rotate lace, arranged directly one behind the other.

4. Shoe according to claim 1, characterized in that each loop (14) is held in a groove (16)provided on the Shoe and/or in it, and the free end (17) of the loop (14) is available for actuation device (13) to tighten the lace.

5. Shoe according to claim 4, characterized in that the guide (16) contains two tubes, each of which is omitted one of the two forming a loop UDL the United sections of the strap (11).

6. Shoe according to claim 3, characterized in that each loop (14) has been passed through is attached to the Shoe retainer (19) lace.

7. Shoe according to claim 6, characterized in that each loop (14) has been passed through is attached to the top of the Shoe retainer (19) lace.

8. Shoe according to claim 1, characterized in that both ends of the strap (11) is connected to the Shoe.



 

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FIELD: personal use articles.

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FIELD: personal use articles.

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FIELD: personal use articles.

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FIELD: personal use articles.

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Ski boot // 2403838

FIELD: personal use articles.

SUBSTANCE: ski boot comprising a rigid one-piece soles (2) from which toe area and approximately to the zone of the arch of the foot the casing (3) overhands open in the direction of the heel zone (4) of the sole (2) which is attached slidably the supporting element (5) at the rear side interacting with the tool (9, 13) of adjustment and directing its axial position relative to the sole (2), and which is attached rotatably to height-adjustable cup (6). Ski boot has the casing (3) has two side wings that pass, starting from about the arch area of the foot in the direction of user's ankle. The wings (7a, 7b) near the bottom edge next to the sole (2) have two first holes (8a, 8b) located on the same axis passing across the sole (2).

EFFECT: possibility of adaptation the produced ski boot to the specific dimensions of not only the user's foot and to the user's calf.

23 cl, 5 dwg

Shoes // 2403837

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.

EFFECT: simplification of manufacture and insertion of the module of the invention into teva shoes to ensure the sole rotation around the rotary plate when turning or twisting of the user's foot at the moment when the rotary plate is in contact with the ground.

24 cl, 7 dwg

Shoes // 2403837

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.

EFFECT: simplification of manufacture and insertion of the module of the invention into teva shoes to ensure the sole rotation around the rotary plate when turning or twisting of the user's foot at the moment when the rotary plate is in contact with the ground.

24 cl, 7 dwg

Skating shoe // 2390292

FIELD: personal use articles.

SUBSTANCE: skating shoe including stock of shoe upper from thermally shaped material. Stock of shoe upper is thermally shaped so that it includes heel part for location of foot heel in it, ankle part for location of leg foot ankle in it, inner and outer parts of cannons for coverage of inner and outer sides of leg foot, and inner and outer toe parts for coverage of leg foot toes. Inner and outer parts of cannons and toe parts are thermally shaped so that they create inner and outer parts of tightening edge of shoe upper stock, passing downward from them and together forming lower part for installation of skate blade. Method for manufacturing of skating shoe for placement of human leg foot in it includes the following operations. Provision of thermally shaped material sheet. Thermal shaping of sheet for production of shoe upper stock, which includes the following components: heel part for placement of leg foot heel, ankle part for location of leg foot ankle in it, inner and outer parts of cannons for coverage of inner and outer sides of leg foot, accordingly, and inner and outer toe parts for coverage of leg foot toes, and inner part of tightening edge of shoe upper stock, arranged in direction downward from inner parts of cannons and toe part, and outer part of tightening edge of shoe upper stock arranged in direction downward from outer part of cannons and toe part. Then inner and outer parts of shoe upper stock tightening edge are tightened to form inner and outer lower parts for installation of skate blade.

EFFECT: consists in manufacturing of skates and skating shoes with application of light materials and where possible in reduction of components number in skates and skating shoe.

34 cl, 15 dwg

The invention relates to a summer home and footwear, namely, shoes, Slippers, bosonozhki and other shoes without backs
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