RU125435U1 - HEAT AND VIBRATION PROTECTIVE SLEEVES - Google Patents

Abstract

Thermal-vibration protective gloves containing the palm and back of the fingertip, interconnected to form an open cavity, elastic-damping elements that are fixed by means of a patch pocket on the palm of the hand, and the back of the gloves are made of a solid protective material, such as technical fabric, and connected to the palm of the hand two lateral surfaces parallel to the axis of the gauntlet, and one end surface perpendicular to the axis of the gauntlet, and the elastic-damping elements are located vertically in rows parallel to each other and perpendicular to the axis of the mitten, characterized in that they further comprise a heat shield insert that is placed in a protective cover and contains a heating thread that is connected to at least one piezoelectric element located in the palm of the gauntlet, while the insert is made of ethylene vinyl acetate or other elastic material, and a piezoelectric element made of polydimethylsiloxane or piezoresin with a thickness of 2.5 ÷ 5 mm, size 10 × 10 mm is glued into the palm of the insert of the mitten, and the cover is removable and made of olikottona.

Description

The utility model relates to personal protective equipment for rescuers that prevent injury to hands.

The closest technical solution to the claimed object are protective gloves according to the application for utility model of the Russian Federation No. 2012103028, A41D 13/10, according to which a positive decision was made by FIPS to grant a patent, and which contain a protective sheath connected to the fabric lining, having an elastomeric vibration-protective on the outer surface coating.

A disadvantage of the known device is the relatively low degree of protection of the rescue hands from low temperatures.

The technical result is an increase in the degree of protection of the hands of the lifesaver from low temperatures.

This is achieved by the fact that in mittens containing the palm and back of the fingertip, connected to each other with the formation of an open cavity, elastic-damping elements that are fixed by means of a patch pocket on the palm of the hand, and the back of the mitten is made of a solid protective material, for example technical tissue, and connected to the palm of the hand with two side surfaces parallel to the axis of the mitten and one end surface perpendicular to the axis of the mitten, and the elastic-damping elements are located in in vertical rows parallel to each other and perpendicular to the axis of the mitten, additionally contain a heat-insulating insert, which is placed in a protective cover, and contains a heating thread that is connected to at least one piezoelectric element located in the palm of the hands, while the insert is made of ethylene vinyl acetate or other elastic material, and a piezoelectric element made of polydimethylsiloxane or piezorezin 2.5 ÷ 5 mm thick, 10x10 mm in size is glued into the palm of the glove insert, and the cover is removable from polycotton.

Figure 1 shows a General view of heat and vibration protection gloves with the fastening of the elastic-damping element by means of a patch pocket, figure 2 - profile projection of figure 1, figure 3 - elastic damping elements in a perspective view, figure 3 - heat protection insert for hands.

Heat-vibration-protective gloves with fastening of the elastic-damping element by means of a patch pocket (Fig. 1 and Fig. 2) consist of the surface of the mitten 1, which is an open cavity 6 on one side limited by the back of the mitten made of a continuous protective material, for example, technical fabric , and palm part with a fingertip 5 for the thumb. The back of the mitten is connected to the palm of the hand by two side surfaces parallel to the axis of the mitten and one end surface perpendicular to the axis of the mitten. The mittens are made with a patch pocket 4, into which a patch 3 is inserted with elastic-damping elements 2 of a tubular type, which are arranged in vertical rows parallel to each other and perpendicular to the axis of the mitt.

Elastic-damping elements 2 are made of at least two polymeric cellular tubes 7, which are soldered together in places of contact 8 with the possibility of their relative movement within an angle lying in the range of 20-45 °. The cavities of each of the cellular tubes 7 (Fig. 3) are filled with a damping element 9 made of foam rubber or foam elastomer or sponge rubber.

The cellular polymer tubes 7 are obtained by extrusion, cut to a predetermined length and laid in a conductor, observing the necessary laying direction, i.e. placing the tube 7 parallel to each other. After that, heating elements are brought to their ends and welded together in places of contact 8.

The heat-insulating insert for the hands (figure 4) is placed in a protective case 10, and contains a heating thread 11, which is connected to at least one piezoelectric element 12 located in the palm of the hand. In addition, the insert can be made of ethylene vinyl acetate or other flexible material, and a piezoelectric element made of polydimethylsiloxane (piezoresin) with a thickness of 2.5 ÷ 5 mm and a size of about 10 × 10 mm is glued into the palm of the insert of the mitten. In addition, the cover can be made removable and made of polycotton.

Heat-vibration protective gloves work as follows.

When working with a hand-held vibroactive mechanized tool, elastic-damping elements 2, which are made of at least two polymeric cellular tubes 7, filled with, for example, foam, dampen the local vibration transmitted to the operator’s hands.

Using the proposed device will significantly improve the safety of technological operations and processes associated with vibro-acoustic impact on the operator.

The cavities of each of the cellular tubes 7 can be filled with a damping element 9 made of cut pieces of polyurethane foam (not shown in the drawing). This contributes to the additional damping of the vibration due to mechanical friction between the surfaces of the cut pieces of polyurethane foam in the cellular tubes 7 of the elastic damping elements 2 when exposed to vibration load. Since the packaging of sliced pieces of polyurethane foam in the cellular tubes 7 is arbitrary, the rubbing surfaces of the sliced pieces of polyurethane foam rubbing against each other have different areas, which provides effective damping of the vibration in a wide range of operating frequencies (30-1000 Hz), while it was found that a great value for vibration levels acting on the operator’s hands are affected by the aspect ratio of the cut pieces of polyurethane foam on the thickness of the filled tube-pocket of the liner.

When the face size of the cut pieces of polyurethane foam is less than 0.2 of the thickness of the filled mesh tubes 7, the vibration damping efficiency is reduced by reducing the amount of vibration energy dissipation, and when the size of the face of the cut pieces of polyurethane foam is greater than 1.0 from the thickness of the mesh tubes 7, the vibration damping efficiency is also reduced, since when the dimensions of the cut pieces of polyurethane foam exceed the thickness of the cellular tubes 7, they are in a pre-compressed state and therefore the total work of deforming them less due to vibration load. Thus, it is optimal to fill with polyurethane foam, cut into pieces with dimensions along the sides of 0.2-1.0 of the thickness of the cellular tubes 7.

The heat-insulating insert is heated through the cover 10 by means of a heating thread 11 connected to the piezoelectric element 12, with a periodic pressure on which the direct current appears in the palm of the hands. It is preferable that the piezoelectric element is mounted in the middle of the palm of the hand (it is possible to use two piezoelectric elements in the model: in the region of the fingers and palm, in which case the heating power is doubled). The use of piezoelectric elements as a heating element allows the use of inserts outdoors without risk to health, to constantly maintain a comfortable temperature of the hands in the cold season. The maximum heating temperature is about 45 degrees. As a piezoelectric material, PZT (lead zirconate titonate) can be used, transferred to a flexible PDMS (polydimethylsiloxane) sample 2.5-5 mm thick (the so-called piezoresin). During deformation, this piezoelectric element generates an EMF (direct current electromotive force), sufficient to generate current (not more than 12 mA) and voltage (not more than 36 V). It is possible to use another similar piezoelectric element and piezoelectric. It is possible to use some other soft and flexible piezoelectric with an EMF sufficient to generate current (not more than 12 mA) and voltage (not more than 36 V), necessary for heating the insoles. The insole heating temperature depends on the characteristics of the piezoelectric, the pressure force on the piezoelectric element, the length of the heating thread and other factors. The material of the insert cover is polycotton, the cover is removable, which allows it to be washed as it becomes dirty.

With periodic pressure on the piezoelectric element 12, a current arises, which, passing along the heating thread 11, laid along the entire surface of the insert, heats it and transfers heat through the case 10 to the user.

Claims (1)

Thermal-vibration protective gloves containing the palm and back of the fingertip, interconnected to form an open cavity, elastic-damping elements that are fixed by means of a patch pocket on the palm of the hand, and the back of the gloves are made of a solid protective material, such as technical fabric, and connected to the palm of the hand two lateral surfaces parallel to the axis of the gauntlet, and one end surface perpendicular to the axis of the gauntlet, and the elastic-damping elements are located vertically in rows parallel to each other and perpendicular to the axis of the mitten, characterized in that they further comprise a heat shield insert that is placed in a protective cover and contains a heating thread that is connected to at least one piezoelectric element located in the palm of the gauntlet, while the insert is made of ethylene vinyl acetate or other elastic material, and a piezoelectric element made of polydimethylsiloxane or piezoresin with a thickness of 2.5 ÷ 5 mm, size 10 × 10 mm is glued into the palm of the insert of the mitten, and the cover is removable and made of olikottona.

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