RU126575U1 - VIBRATION PROTECTIVE FOOTWEAR WITH ANTI-SLIDING LAYER - Google Patents

Abstract

The utility model relates to sets of personal protective equipment for rescuers working in emergency situations in the presence of vibrations at objects with sliding surfaces. The technical result is an increase in the degree of protection against vibration and shock when working on objects having sliding surfaces. This is achieved by the fact that vibration-resistant shoes with an anti-slip layer containing a sole and a heel connected to the upper parts of the shoe, as well as an internal protective toe cap made of shock-resistant composite material, an anatomically shaped insert insole, a two-layer sole with an intermediate layer of polyurethane and a layer of elastic-elastic mesh elements with shock-absorbing properties, while the upper parts of the shoes are made of heat-resistant waterproof leather, and the shoe lining and h leather split, and the sole protector is made with increased adhesion to the surfaces of the operator’s working area, and the hard back is made of thermoplastic material, and in the heel of the shoe, under the insert insole of anatomical shape, there is a tab of elastic-damping elements containing a support plane with a support plane attached to it bushings in which elastic elements are located, for example, springs in contact with a damping unit made of a three-layer and containing plates of a rigid vibration-damping material Ala, for example of the type "Agate", between which there is a layer of polyurethane damping vibration at medium frequencies, while the elastic elements in contact with the damping block are made in the form of conical springs having equal frequency properties, while the spring coils are covered with a layer of vibration damping mastic, and the inner a protective toe cap made of composite material, in the cross section of the upper part is made of an arched type, and the polyurethane overlay of the toe of the shoe adjacent to it, also arched in this part type, additionally contains a device for preventing slipping of shoes containing a substrate, the front side of which is made with an abrasive coating, and the wrong side is with an adhesive coating, while the polymer is used as a substrate, the wrong side of the substrate with an adhesive coating is provided with a peeling protective layer, and the abrasive coating on the front side of the substrate is made in the form of abrasive particles directly attached to the substrate or in the form of an intermediate layer glued to the substrate with abrasive particles attached to it, and the substrate is made in the form of a rectangle with a side length of at least 4 cm, or a circle with a diameter of at least 4 cm, or in the form of the toe or heel of the sole of the shoe, and the thickness of the substrate is 0.2-2.0 mm

Description

The utility model relates to sets of personal protective equipment for rescuers working in emergency situations in the presence of vibrations at objects with sliding surfaces.

The closest technical solution to the claimed object are vibration-proof boots according to the application of the Russian Federation No. 2012103027, А41D 13/10, (positive decision of 04/27/12), containing the sole and the heel connected to the upper parts of the shoe (prototype).

A disadvantage of the known device is the relatively low degree of protection when working on objects having sliding surfaces.

The technical result is an increase in the degree of protection against vibration and shock when working on objects having sliding surfaces.

This is achieved by the fact that vibration-resistant shoes with an anti-slip layer containing a sole and a heel connected to the upper parts of the shoe, as well as an internal protective toe cap made of shock-resistant composite material, an anatomically shaped insert insole, a two-layer sole with an intermediate layer of polyurethane and a layer of elastic-elastic mesh elements with shock-absorbing properties, while the upper parts of the shoes are made of heat-resistant waterproof leather, and the shoe lining and h leather split, and the sole protector is made with increased adhesion to the surfaces of the operator’s working area, and the hard back is made of thermoplastic material, and in the heel of the shoe, under the insert insole of anatomical shape, there is a tab of elastic-damping elements containing a support plane with a support plane attached to it bushings in which elastic elements are located, for example, springs in contact with a damping block made of a three-layer and containing plates of a rigid vibration-damping material Ala, for example of the type "Agate", between which there is a layer of polyurethane damping vibration at medium frequencies, while the elastic elements in contact with the damping block are made in the form of conical springs having equal frequency properties, while the spring coils are covered with a layer of vibration damping mastic, and the inner a protective toe cap made of composite material, in the cross section of the upper part is made of an arched type, and the polyurethane overlay of the toe of the shoe adjacent to it, also arched in this part type, additionally contains a device for preventing slipping of shoes containing a substrate, the front side of which is made with an abrasive coating, and the wrong side is with an adhesive coating, while the polymer is used as a substrate, the wrong side of the substrate with an adhesive coating is provided with a peeling protective layer, and the abrasive coating on the front side of the substrate is made in the form of abrasive particles directly attached to the substrate or in the form of an intermediate layer glued to the substrate with abrasive particles attached to it, and the substrate is made in the form of a rectangle with a side length of at least 4 cm, or a circle with a diameter of at least 4 cm, or in the form of the toe or heel of the sole of the shoe, and the thickness of the substrate is 0.2-2.0 mm

Figure 1 shows a General view of vibration-proof shoes, figure 2 - elastic-damping elements in the heel of the shoe, figure 3 - elastic-damping elements in the sole, figure 4 - a device to prevent slipping of shoes, section.

Vibro-protective shoes with anti-slip layer consists of an internal protective toe 1 (figure 1), made of a composite material that protects against shock. Gasket 2 eliminates possible pressure on the foot. Polyurethane pad 3 (filling) of the toe of the shoe protects the foot from mechanical damage. The insert insole 4 of an anatomical shape together with the set-in (strobelny) insole 5 optimizes the dynamics of the foot during operation.

A two-layer sole 6 with an intermediate layer of polyurethane and a layer 17 (Fig. 3) of elastic-elastic mesh elements having shock-absorbing properties and a running layer of thermoplastic polyurethane with wear-resistant properties creates comfortable conditions for the operator when working with vibroactive equipment. The density of the mesh structure of the elastic mesh elements is in the optimal range of 1.2 g / cm ³ ... 2.0 g / cm ³ and the material of the wire of the elastic mesh elements is steel grade EI-708, and its diameter is in the optimal range of values 0.09 mm ... 0.15 mm.

Details of the upper 7 shoes are made of heat-resistant waterproof leather, and the lining of 8 shoes is made of leather split. The protector of the sole 9 is made with increased adhesion to the surfaces of the operator’s working area, and the hard back 10 of thermoplastic material protects the operator’s heel from mechanical and thermal effects.

In the heel of the shoe (figure 2), under the insert insole 4 of an anatomical shape, there is a tab 12 of elastic-damping elements containing a support plane with bushings 13 fixed on it, in which elastic elements are located, for example, springs 11 in contact with the damping block made in three layers and containing plates 14 and 16 of a hard vibration-damping material, for example, “Agate” type, between which there is a layer of polyurethane 15, damping vibration at medium frequencies.

The elastic elements in contact with the damping unit are made in the form of conical springs 11 having equal frequency properties, while the coils of the springs 11 are covered with a layer of vibration damping mastic (not shown in the drawing).

The inner protective toe cap 1, made of composite material, is made in the form (in the section of the upper part) of the arch type (not shown in the drawing), and on top of it is a polyurethane pad 3 (filling) of the toe of the shoe, which is also made in this part of the arch type.

When performing work belonging to the category of “heavy”, the internal protective toe cap 1 can be made of perforated metal of increased strength (not shown in the drawing).

The implementation of the substrate (figure 4) with an anti-slip layer allows you to provide the optimal degree of anti-slip properties of shoes.

The substrate 18 of the device can be made in the form of a rectangle with a side length of at least 4 cm, or a circle with a diameter of at least 4 cm, or in the form of the toe or heel of the sole of the shoe. The thickness of the substrate may be 0.2-2.0 mm The thickness of the substrate is selected from the conditions for ensuring its strength and ease of use (i.e., it should not interfere with a person walking).

The implementation of the device in the claimed form significantly increases its wear resistance due to the ability of the substrate to bend elastically without breaking when the soles are bent, as well as due to the increased water resistance, the ability to withstand abrasion and more durable fixing of abrasive particles to the substrate, due to the increased adhesion of the adhesive fixing the abrasive particles to the substrate and polymeric substrate material. It also facilitates the fixation of the device on the sole of the shoe, which is done by simply applying and pressing the adhesive side of the substrate, from which the protective layer has been previously removed, to the sole.

The shoe slipping prevention device (FIG. 4) comprises a substrate 18 made of an elastic polymer material, which can be used polypropylene, polyurethane, rubber, etc.

Abrasive particles 19 are fixed on the front surface of the substrate, for example, abrasive particles 19 are glued using waterproof glue (resin), emery powder, silica chips, sifted sand, etc. can be used. 0.2-0.8 mm in size. An adhesive coating 20 (from adhesives commonly used in the manufacture of adhesive tape) is applied to the underside of the substrate, over which a peeling backing layer 21 (from paper, film, etc.) is applied. An embodiment of the device is possible when an intermediate layer 22 is glued onto the substrate, on which abrasive particles are already fixed. As such a layer, for example, sandpaper can be used.

Vibro-protective shoes with anti-slip layer works as follows.

The inner protective toe cap 1, made of composite material, protects against shock, and the gasket 2 eliminates possible pressure on the foot. A polyurethane pad 3 (filling) of the toe of the shoe protects the foot from mechanical damage, and an anatomically shaped insole 4 optimizes the dynamics of the foot during operation.

A two-layer sole 6 with an intermediate layer of polyurethane and a layer 17 (figure 3) of elastic-elastic mesh elements with shock-absorbing properties creates comfortable conditions for the operator when working with vibroactive equipment. The sole protector 9 is made with increased adhesion to the surfaces of the operator’s working area, and in the heel of the shoe, under the insert insole 4 of an anatomical shape, there is a tab 12 of elastic damping elements that provide vibration protection and damping at medium frequencies.

The elastic elements in the form of conical springs 11 have equal frequency properties, therefore, they will compensate for the change in operator weight in connection with the performance of heavy work with weight transfer.

When using a device with an anti-slip layer, the protective layer 21 is peeled off from the adhesive surface 20 of the substrate, impose this surface on a non-fat dry surface of the sole of the shoe and tightly pressed. Then the device is ready for operation.

Thus, the utility model provides increased operational reliability and increases usability.

Claims (1)

Vibro-protective shoes with an anti-slip layer, containing a sole and a heel part connected to the upper parts of the shoe, as well as an internal protective toe cap made of impact-resistant composite material, an anatomically shaped insert insole, a two-layer sole with an intermediate layer of polyurethane and a layer of elastic mesh elements with shock-absorbing properties, while the upper parts of the shoes are made of heat-resistant waterproof leather, and the shoe lining is made of leather split leather, etc. than the sole protector is made with increased adhesion to the surfaces of the operator’s working area, and the hard back is made of thermoplastic material, and in the heel of the shoe, under the anatomically shaped insert insole, there is a tab of elastic-damping elements containing a support plane with bushings fixed to it, in which there are elastic elements, for example, springs in contact with a damping block made of a three-layer and containing plates of hard vibration-damping material, for example, type "Agate" between which there is a layer of polyurethane damping vibration at medium frequencies, while the elastic elements in contact with the damping block are made in the form of conical springs having equal frequency properties, while the spring coils are covered with a layer of vibration-damping mastic, and the inner protective toe cap made of composite material, in the cross section of the upper part is made of arched type, and the polyurethane overlay of the toe of the shoe adjacent to it is also made in this part of the arch type, characterized in that then it additionally contains a device for preventing slipping of shoes containing a substrate, the front side of which is made with an abrasive coating, and the wrong side is with an adhesive coating, while the polymer is used as a substrate, the wrong side of the adhesive coated substrate has a peeling protective layer, and the abrasive coating on the front side of the substrate is made in the form of abrasive particles directly attached to the substrate or in the form of an intermediate layer glued to the substrate with abrasive particles attached to it, and the substrate is made in the form of a rectangle with a side length of at least 4 cm, or a circle with a diameter of at least 4 cm, or in the form of the toe or heel of the sole of the shoe, and the thickness of the substrate is 0.2-2.0 mm

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