RU12359U1 - RUNNERS - Google Patents

Abstract

1. Roller skates containing rollers, casing, locking mechanism, means for attaching the rollers to the casing and attaching the casing to the sole of the shoe, characterized in that they are a single monolithic casing, the length or area of the support is the same or slightly different from the size of the shoe, which is a set of side brackets for mounting removable roller assemblies (from 2 to 5, depending on the size of the shoe), having in the front part a support protrusion and in the heel part a locking mechanism and holes around the perimeter of the support, top the profile of the case coincides with the profile of the sole of sports shoes (such as sneakers), with the rise in the heel area (20%), and the form of the runner’s support coincides with the shape of the foot of the shoe (independently the left or right shoe), the brackets have recesses for inserting the attachment point of the removable assembly roller, holes and grooves for installing and fixing a removable assembly, which includes a metal axis and a movable roller (sliding bearing), the axis has a limiting protrusion and an annular groove for installing a spring limit washer, and at the ends of the inner threaded thread for screw fixing the replaceable roller assembly, the roller has a cylindrical or rounded cross section with a diameter of 24 - 40 mm and a diameter / width ratio with a value of 1.5 - 4.0, the roller mount includes metal support inserts, locking and restrictive washers , the insert and the soft fixing washer have holes and a slot along the diameter of the axis, the fixing washer is put on the insert and its fixing protrusion is bent into the groove of the body, the locking mechanism is a cylinder (as part of the runner's body), the stem with a replaceable cut

Description

Runners belong to sports equipment, more precisely, to roller skates. The purpose of the development of this utility model is to create a product of widespread use: for a variety of riding styles, of any age, and of any type and size of shoes.

Known single-row roller skates, for example, the company ROCES Italy, which have several disadvantages:

1) The clip of the rollers is fixed with the upper bracket in the middle of the sole of the boot, which leads to an increase in the height of the boot above the surface and, in combination with the circular cross-section of the roller, reduces the bearing area to almost zero, and hence the stability of the ridge, which, in turn, leads to significant lateral efforts on the ankle joint of the legs (especially with small shoe sizes) and this causes difficulties in development and the likelihood of injury when using skates.

2) The instability of the ROCES roller skates does not allow their autonomous use (for arbitrary shoes), but requires the use of rigid (mainly plastic) shoes, which in turn leads to an increase in the weight of the roller skates and, accordingly, the load on the foot, which especially noticeable for small shoe sizes.

3) The use of the drive roller as a jog roller, in combination with the instability of the ROCES roller skates, leads to an extremely tilted working position of the skate and, consequently, to rapid wear of the rollers and to loss of mobility when cornering.

4) The rigid design of the skates deprives them of mobility and makes them practically inapplicable in figure skating.

5) The ROCES inline skates do not have a locking device, which makes it difficult to step through the skates of this type.

Known double-row roller skates, for example, the company ROCES, which, with their high stability, have several disadvantages:

1) The rollers are placed outside the support (sole of the shoe), which creates mutual interference during movement and can cause a fall. Widely placed rollers make it difficult to start and stop, and also deprive skates of mobility when cornering.

2) The mount can be adjusted to the size of the shoe. However, separate mounting of the foot and heel is provided, while the toe is not fixed at all. As a result, skates have poor handling.

Runners, a family of inline skates that are free of the above disadvantages, are offered as a utility model. This is achieved as follows:

1) Each roller is mounted in the runner’s body (to the sole of the boot) with side brackets, which minimizes the distance between the roller and the sole of the boot and accordingly reduces the height of the boot over the rolling surface (road) and thereby increases its stability.

2) The cylindrical section of the roller, in combination with the use of small diameter rollers (24-40 mm) and a diameter / width coefficient with a value of 1.5-4.0, allows the runner to have an area of support that excludes lateral efforts on the ankle joint of the leg for any shoe size, which allows use of the runner autonomously and with various shoes.

3) A protrusion is located in the front (bow) part of the runner’s body, which allows both side and direct pushing, which protects the drive roller from lateral forces, makes acceleration easy, and this makes it easier for runners to master.

4) In the back (heel) area of the runner’s body there is a locking mechanism that has two manually fixed states: the upper (working) used for emergency braking during rolling, and the lower (locking) used for step-by-step movement; in the latter case, the leg rests on the stopper, and rolling is prevented; It is also possible to use a locking device with a simultaneous stopper on all the runner’s rollers.

5) The implementation of the runner’s body in the form of a monolithic product makes the manufacturing process technological, and also allows you to combine the manufacturing process of the housing with the manufacturing process of the sole of the shoe, while the housing can retain some flexibility, which also increases mobility, especially when cornering.

6) The use of a monolithic body with a support area of almost the sole of the shoe allows various types of fastening to almost any shoe: soft (quick-detachable) fastening of the runner to the shoe (boot) with a bridle or clamps, semi-rigid fastening (with special shoes), hard fastening - by means of glue or screws (if the shoe has a hard sole), monolithic fastening - by pressing the body of the runner into the sole of the shoe.

7) The small size of the roller (not more than 40 mm) and the adopted mounting system allow you to create more modifications to the size of the runner and thereby ensure its perfect fit to the size of the shoes.

A general view of a runner for two implementation options is shown in Fig. 1: soft fastening of shoes to the runner’s body (1) by means of a bridle (2) or a monolithic union of the runner’s body and the sole of the shoe. In both cases, the same locking mechanism is used (3).

A runner (independently left or right) is a single monolithic body (Fig. 2), which is the same or slightly different from the size of the shoe in terms of length and area of the support. The housing has a front protrusion in the front (nose) part, several seats for mounting the rollers (4) and a locking device (6) in the back (heel) part. The upper profile of the runner coincides with the profile of the soles of the most common sports shoes (such as sneakers), with an additional lift in the heel area (10-20%), to strengthen the support during the push. The support form of the runner’s body (Fig. 2a) coincides with the shape of the foot of sports shoes. Along the perimeter of the support there are holes (5) for installing auxiliary brackets, plates and other fasteners.

The number of rollers, their placement and the distance between them are determined by the size of the shoes (Fig. 3). Almost all shoe sizes are covered using from three to five rollers (with a nominal roller diameter of 32 mm).

The roller itself can have different implementations and a different profile of the rim depending on the cost and nature of the use of runners (walking, running, hopping, etc.): Fig. 4a - monolithic plain bearing (9), with an inner insert And metal or cermet and wear-resistant outer rim (10) made of soft plastic or rubber; Fig. 46 - monorolok with rresovanny rolling bearing (14), one or two; fig.4v - double olik with independent bearings of any type.

  the fixed axis forms a separate removable unit. The metal axis (8) has a travel limiter both for the movable roller (sliding bearing) and for the roller rigidly fixed on the axis (rolling bearing); from the end opposite the limiter, the axis has an annular groove where the spring limit washer is inserted to limit the movement of the roller along the axis. The roller mounting unit includes: metal support inserts (I), locking (12) and restrictive washers (15).

 about

The insert, as well as the fixing washer, has an inner diameter of the axis and a slot for installing the removable roller assembly (rns.4g). The soft locking washer (Fig. 4e) has an annular rim by which the washer is put on the insert, and a protrusion by which the washer rotates and closes the slot in the insert, preventing the axis from leaving the insert (11). The position of the protrusion is fixed by bending it towards the groove in the runner’s body (7).

Installation and removal of the roller is carried out in the following order:

1) The roller is fixed on the axis and fixed with a restrictive washer, forming a removable assembly.

2) A pair of inserts, together with fixing washers, is installed in the recesses of the housing bracket and rotates until the slots of the inserts and grooves in the runner's body coincide.

3) A removable assembly with a roller and restrictive washers is inserted into the slots of the housing and is shifted inward until it enters the support inserts.

4) The removable assembly is fixed in the insert by turning the locking washers until the locking protrusion on the fixing washer hits the groove of the housing (with the subsequent bending of the protrusion towards the housing).

5) We remove the node in the reverse order.

For cases of vigorous skating (figure skating, fast running, jumping), and also when the runner’s body is not strong enough, additional fastening of the removable assembly is used: screws (13) are screwed into the axis from the outside of the mounting brackets (7), depriving the axle of mobility in the transverse direction . However, lock washers may not be used.

The locking mechanism has two types. The external mechanism (Fig. 5a) is a cylinder (16) as part of the runner’s body, a rod (17) with a removable rubber pad (19) and a pair of clamps (18) fastened by an axis with a distributing spring. The protruding part outside the cylinder has an external spring (20). In the normal position, the stem is pushed up by the external spring of the clamps. For dynamic braking during movement (rolling), it is enough to raise the runner's toe until the rubber lining of the rod touches the rolling surface.

When the clamps are pressed from above, the rod lowers, while the clamps are extended by the spreading spring from the rod body and rest on the cylinder (16) with their projections. This position is stable and reliable, since all the load falls on the cylinder. With a step-by-step movement, it is enough to put your foot resting on the heel. In this case, the rubber overlay (19) of the rod rests on the surface, preventing rolling.

If you simultaneously press both latches on the side and thereby compress the distributing spring, then the tabs of the latches are removed into the stem housing and are pressed upward by the external spring, returning the rod to its original state.

The built-in modification of the locking mechanism (Fig. 56) is a plate (21) located in the runner’s body directly above the rollers. On the plate there are rubber pads (22) for the number of rollers and stops in front and rear. In the normal position (rolling mode), the plate is moved back by pressing the front stop, which at the same time retracts into the housing. When you press the back stop, the pads come in contact with the rollers and prevent their rotation. To increase the reliability of local fixation, grooves are provided in the runner body and a protrusion on the plate. The stopper is returned to its original state by pressing the front stop.

Different types of shoes and conditions for the use of runners require the use of different types of fastening shoes to the runner. Soft (easily removable) fastening of the runner to the shoe is carried out using a bridle or clamps. For arbitrary shoes, a bridle can be used (Fig. 1/2), which is made of leather or leather substitute.

It has a front mount (fixing the toe of the boot) and two / three on each side. Each individual mount can change length. Lateral fastenings of the bridle to the runner's body use metal brackets, -. which are adjusted to the width of the sole, excluding its lateral displacement. Thus, the mount is adjusted to the width and height of the boot. The heel does not have a stop, but it has a locking lock with tension. The boot is installed in the bridle and tightened on the heel with a lock.

Clips can be used only when using shoes with a rigid, pronounced welt (Fig. B). Depending on the size, two / three pairs of clamps (24) are required that secure the sole of the shoe (25) to the runner’s body (28) in the middle of the foot and heel. The clamps are mounted on the plate (26), which in turn is rigidly attached (27) to the runner’s body (28).

With vigorous skating (speed or figure skating), it is advisable to use a hard mount. For this, it is necessary with a sufficiently rigid sole (Fig. 66). If the profile of the sole ideally matches the profile of the runner’s body, then special adhesives can be used; otherwise, the joint (or riveting) joint (27) can be used, for which holes are provided in the runner’s body along its perimeter.

For semi-rigid fastening of shoes to the runner, special sports shoes (such as sneakers) of double use can be used: together with the runner and separately from it (Fig. 7a). In the sole of shoes

(30) there are deep curly cuts. Their shape and pattern coincides with the reciprocal pattern on the runner's support in such a way that the tides of the support

(31) enter the cutouts of the sole of the shoe and hold the body of the runner. The fastening procedure is tight wave compression of the shoe and the body of the runner. We eat - the reverse procedure. Shoes of several adjacent sizes can have one pattern and therefore use a runner of the same size. To ensure even greater independence in shoe and runner sizes, tides can be made not on the runner’s body support, but on a special interchangeable plate (32), which is rigidly attached to the runner’s body.

The construction of a runner on the basis of a single monolithic body makes possible a monolithic connection of the runner's body and the sole of the shoe (pnc-v76), for example, by combining the technological processes of attaching the runner's body to the shoe (sneakers) and the manufacturing process (by casting) of the sole of the shoe, or it can be a single compatible technological process of molding the runner’s body directly on the sole of the shoe (34). If necessary, partial reinforcement of the roller mounting region with more rigid plastic may take place (35). Inonii retains (part of) the flexibility podoshpy shoe has the greatest stability, reliability and low weight, which makes it most suitable for mass applications.

Figure 8 shows the layout for a two-row runner: the right roller is placed on its own axis in the interval between the left rollers (and vice versa). The number of external and internal rollers is different. Accordingly, the left and right runners are distinguished. For a two-row runner, all considered types of fastening the runner to the sole of the shoe can be used. Two-row runners provide a more even and faster rolling while maintaining high stability and maneuverability.

Claims (10)

1. Roller skates containing rollers, casing, locking mechanism, means for attaching the rollers to the casing and attaching the casing to the sole of the shoe, characterized in that they are a single monolithic casing, the length or area of the support is the same or slightly different from the size of the shoe, which is a set of side brackets for mounting removable roller assemblies (from 2 to 5, depending on the size of the shoe), having in the front part a support protrusion and in the heel part a locking mechanism and holes around the perimeter of the support, top the profile of the case coincides with the profile of the sole of sports shoes (such as sneakers), with the rise in the heel area (20%), and the form of the runner’s support coincides with the shape of the foot of the shoe (independently the left or right shoe), the brackets have recesses for inserting the attachment point of the removable assembly roller, holes and grooves for installing and fixing a removable assembly, which includes a metal axis and a movable roller (sliding bearing), the axis has a limiting protrusion and an annular groove for installing a spring limit washer, and at the ends of the inner threaded thread for screw fixing the replaceable roller assembly, the roller has a cylindrical or rounded cross section with a diameter of 24 - 40 mm and a diameter / width ratio with a value of 1.5 - 4.0, the roller mount includes metal support inserts, locking and restrictive washers , the insert and the soft fixing washer have holes and a slot along the diameter of the axis, the fixing washer is put on the insert and its fixing protrusion is bent into the groove of the body, the locking mechanism is a cylinder (as part of the runner's body), the stem with a replaceable cut a new pad, a pair of clamps fastened by an axis with a spreading spring, and an external ejection spring, so that when the clamps are pressed from above, the stem is lowered and fixed in this position by the tabs of the clamps (step-by-step movement), and when the clamps are laterally pressed, their tabs are pulled into the stem housing and it returns to the normal state by the external spring (rolling mode); the bridle for attaching the boot to the runner’s body has a front mount (fixing the toe of the boot) and two / three mounts with a variable length on each side, the side mounts of the bridle use metal staples (the width of the sole), and the heel mount has a lock with tension.  2. Roller skates according to claim 1, characterized in that instead of a roller in the form of a sliding bearing, replaceable roller mountings use a roller with a rolling bearing pressed into it (one or two), rigidly fixed to the axis.  3. Roller skates according to claims 1 and 2, characterized in that instead of one roller, two coaxially located rollers (left and right) with independent rotation are used in the replaceable assembly.  4. Roller skates according to claim 3, characterized in that the left and right rollers are placed in separate interchangeable units arranged in alternating positions, so that the axis of the left roller is located between the axes of the right rollers and vice versa, while the number of external rollers is one less than the number internal (we have left and right runners).  5. Roller skates according to claims 1 to 3, characterized in that instead of the external locking mechanism, an integrated locking mechanism is used in the form of a metal plate located above the rollers on which there are rubber pads, according to the number of rollers, and stops in front and rear, so that when pressing the back stop, the pads come in contact with the rollers and prevent their rotation, and return to the initial state by pressing the front stop.  6. Roller skates according to claims 1 to 5, characterized in that instead of using the bridle, the shoes are attached to the runner’s body by means of clamps located around the perimeter of the support, which grasp the sole of the sole, press it against the runner’s support and are fixed in this position.  7. Roller skates according to claims 1 to 5, characterized in that for attaching shoes to the runner’s body, special shoes are used instead of the bridle, the bottom of which has deep grooves and which is attached to the runner’s body by tides on its support, matching in shape and pattern with grooves in the sole of the shoe (reverse drawing), with joint compression, the tides enter the grooves and hold the body on the sole, the tides can be located on a special plate that is rigidly mounted on the runner’s support.  8. Roller skates according to claims 1 to 5, characterized in that instead of using the bridle, the shoes are attached rigidly to the runner’s body by means of glue or screw (or riveted) joints using holes along the perimeter of the runner’s body.  9. Roller skates according to claims 1 to 5, characterized in that instead of using the bridle, the shoes are attached to the runner’s body by combining the technological processes of fastening the runner’s body to the shoes and manufacturing (by casting) the sole of the shoe. 10. Roller skates according to claims 1 to 5, characterized in that instead of using the bridle, the boots are attached to the runner’s body through a single combined process of molding the runner’s body and the sole of the shoe (sneakers, gym shoes, etc.).