RU192301U1 - ELECTRICAL PROTECTIVE HELMET - Google Patents

Abstract

The proposed technical solution relates to multifunctional personal protective equipment containing electrical measuring instruments and portable lighting devices, and can be used to increase individual safety during operation of electrical installations, including for protection against electric arc and electric shock. The objective of the proposed utility model is the creation of an electric protective helmet, equipped with a protective face shield, retractable inside the helmet, and means safety in low light conditions and the presence of dangerous voltage sources near the place of work, including unplanned supply of voltage to the electrical installation. The task is solved by the fact that the helmet is electrically protective, containing a body made of dielectric material, a protective face shield and internal equipment, consisting of a bearing rim connected to the housing and intersecting shock absorbing tapes mounted on the bearing rim, the protective face shield is pivotally connected to the bearing rim and can be moved inside the helmet between the casing and shock absorbing belts, it is equipped with a directional lamp in a dielectric case and a dangerous voltage signaling device, the course light is equipped with a built-in power supply and a holder made of dielectric material, and the holder is pivotally connected to the directional light body and mounted on the surface of the front part of the helmet body, the signaling device hazardous voltage is fixed on the inside of the housing above the intersection of shock absorbing tapes.

Description

The proposed technical solution relates to multifunctional personal protective equipment containing electrical measuring instruments and portable lighting devices, and can be used to increase individual safety during operation of electrical installations, including for protection against the effects of an electric arc and from electric shock.

OCHRONNY ELEKTROIZOLACYJNY "SECRA" ZE ZINTEGROWANA

TWARZY. INSTRUKCJA

. https://sklep.hubix.pl/Portals/0/Pliki/SECRA1.pdf).Closest to the proposed technical solution (prototype) is an electric protective helmet containing a housing made of dielectric material, a protective face shield and internal equipment consisting of a supporting rim connected to the housing and a shock absorber made of intersecting damping tapes mounted on the supporting rim, protective the face shield is pivotally connected to the bearing rim and can be moved inside the helmet between the body and the shock absorbing belts (SECRA helmet is a protective electrical insulator with built-in faces m flap. Instructions for use.

OCHRONNY ELEKTROIZOLACYJNY "SECRA" ZE ZINTEGROWANA

TWARZY. INSTRUKCJA

. https://sklep.hubix.pl/Portals/0/Pliki/SECRA1.pdf).

The disadvantage of the prototype is the lack of built-in signaling about approaching a source of hazardous voltage, including a source whose voltage exceeds the value of the operating voltage of the insulating helmet, as well as unplanned voltage supply to the electrical installation. In addition, in conditions with insufficient illumination, the helmet does not provide increased safety by lighting the working area.

The objective of the proposed utility model and the technical result achieved is to expand the arsenal of technical means designed to increase safety during the operation of electrical installations, including to protect against the effects of an electric arc and from electric shock.

The specified technical result is achieved by the fact that it is proposed that the helmet is electrically protective, comprising a housing made of dielectric material, a protective face shield and an internal tooling consisting of a bearing rim connected to the housing and intersecting shock absorbing tapes mounted on the bearing rim, the protective face shield is pivotally connected to the bearing the rim and can move inside the helmet between the housing and the shock absorbers, the helmet is equipped with a directional lamp in a dielectric housing and a hazard warning device, the headlamp is equipped with a built-in power supply unit and a holder made of dielectric material, the holder being pivotally connected to the headlamp housing and mounted on the surface of the front of the helmet body, the hazard warning device is mounted on the inside of the housing above the intersection of the shock absorbing tapes and contains an antenna, hazardous voltage alarm unit , the power supply of the signaling device and the power switch of the signaling device, and the power supply of the signaling device is connected to the signaling unit of dangerous voltage through the power switch of the detector, the antenna is connected to the input of the hazardous voltage alarm unit. In addition, the dangerous voltage signaling unit, the signaling power supply unit and the signaling power switch are enclosed in a sheath of elastic dielectric material, the signaling device in the shell being fixed to the inner surface of the helmet body by means of adhesive tape. In addition, the headlight holder is attached to the surface of the helmet body by means of adhesive tape. In addition, the headlamp housing is sealed to increase dielectric strength.

Providing the proposed electrical safety helmet with a headlamp in a dielectric housing with a built-in power supply, ensures increased safety in low light conditions while maintaining the electrical insulation properties of the helmet. The swivel connection of the lamp housing with the holder makes it possible to choose the direction of the light flux that provides the best illumination of the working area.

The supply of the proposed electrical safety helmet with a hazardous voltage detector mounted on the inside of the housing provides increased safety in the presence of sources of hazardous voltage near the place of work, including unplanned supply of voltage to an electrical installation, for example, when servicing and repairing overhead power transmission lines (VL). Connecting the power supply of the signaling device to the signaling unit of a hazardous voltage through a power switch allows you to extend the operating time of the hazardous voltage signaling device without replacing the power supply, as well as improve the comfort of work in the presence of a constant electric field created by the switched on high-voltage electrical installations located at a safe distance from the workplace for example, in switchgear (RU). The fastening of the dangerous voltage signaling device on the inside of the helmet prevents environmental factors from adversely affecting it. The fastening of the dangerous voltage signaling device together with the antenna above the intersection of the shock-absorbing tapes provides equal conditions for the operation of the dangerous voltage signaling unit regardless of the direction of approach to live parts.

The implementation of the antenna, the hazardous voltage signaling unit, the power supply of the signaling device and the power switch of the signaling device in a sheath made of elastic dielectric material, reduces the likelihood of injury during vertical mechanical stresses causing tensile damping tapes to exceed the permissible value.

Fixing the headlamp holder on the surface of the helmet body by means of adhesive tape avoids making holes in the helmet body that impair electrical protection properties and does not require special mounting elements on the helmet body.

Sealing the housing of the headlamp by preventing moisture and dust from penetrating into it ensures an increase and preservation of electrical insulating properties, including in adverse weather conditions.

In FIG. 1 shows a safety helmet in a top view; in FIG. 2 shows an electric protective helmet with a retracted protective face shield in front view in section; in FIG. 3 shows an electric protective helmet with an extended protective face shield in front view in section; in FIG. 4 shows a block diagram of a hazard warning device; in FIG. 5 shows a design diagram of the headlamp.

The electric protective helmet contains a housing 1 made of dielectric material, a protective face shield 2 and an internal snap-in 3 consisting of a supporting rim 4 connected to the housing 1 and intersecting shock absorbing tapes 5 fixed to the supporting rim 4. The protective face 2 is connected to the supporting rim 4 by means of hinges 6. The protective face shield 2 can be moved inside the helmet between the housing 1 and the cushioning belts 5. The headlamp 7 in the dielectric sealed housing 8 is equipped with a holder 9 mounted on the surface of the parts 10 of the housing 1. Housing 8 of the directional lamp 7 is connected to the holder 9 by means of a hinge 11. On the inside of the housing 1 above the intersection 12 of the cushioning tapes 5, an hazardous voltage signaling device 13 is fixed by means of adhesive tape, which contains an antenna 14, dangerous voltage signaling unit 15 , the power supply unit 16 of the signaling device and the switch 17 powering the signaling device. The antenna 14, the dangerous voltage signaling unit 15, the signaling power supply unit 16 and the signaling power supply switch 17 are enclosed in a sheath 18 of elastic dielectric material. The power supply unit 19 of the headlamp 7 is built into the housing 8 of the headlamp 7. The holder 9 is equipped with adhesive tape 20 for mounting on the surface of the helmet. The housing 8 of the headlamp 7 is sealed to increase dielectric strength.

Safety helmet works as follows.

Internal equipment 3 holds the helmet body 1 on the head of the worker, so that mechanical stress is distributed through the supporting rim 4 and cushioning belts 5 over the surface of the head of the worker. The protective face shield 2 is installed in the required position (the helmets are pushed inward between the internal equipment 3 and the helmet body 1 or pushed outward), changing the position of the hinges 6.

Before starting work, the worker connects the dangerous voltage signaling unit 15 to the signaling device power supply unit 16 using the switch 17. When the helmet approaches the live parts that are under voltage, or when the voltage is unplanned to the electrical installation, the dangerous voltage signaling unit 15 is activated, warning the worker about the danger. In this case, the response distance of the dangerous voltage signaling unit 15 does not depend on the direction of approach to the source of the electric field, which ensures the location of the antenna 14 in the upper part of the helmet. If the workplace is in a constant presence of an electric field created by the switched on high-voltage electrical installations located at a safe distance near the workplace, the hazardous voltage signaling unit 15 turned on can constantly operate and significantly worsen the working conditions. In this case, the dangerous voltage signaling unit 15 is disconnected from the signaling device power supply unit 16 using the switch 17. During operation during rain, the snowfall of the dangerous voltage signaling device 13 is not exposed to adverse environmental factors due to the fixing of the helmet from the inside of the housing 1.

After operation, the hazardous voltage signaling unit 15 in order to extend the life of the hazardous voltage signaling device 13 without replacing the power supply unit 16 of the signaling device is disconnected from the power supply unit 16 of the signaling device using a switch 17.

To connect and disconnect the power supply 16 of the detector on the switch 17 act through an elastic sheath 18.

In conditions with insufficient illumination, the housing 8 of the headlamp 7 using the hinge 11 is installed relative to the holder 9 in a position that provides the best illumination of the working area.

Sources of information taken into account:

OCHRONNY ELEKTROIZOLACYJNY "SECRA" ZE ZINTEGROWANA

TWARZY. INSTRUKCJA

. https://sklep.hubix.pl/Portals/0/Pliki/SECRA1.pdf.1. Helmet "SECRA" protective electrical insulating with a built-in face shield. Instructions for use.

OCHRONNY ELEKTROIZOLACYJNY "SECRA" ZE ZINTEGROWANA

TWARZY. INSTRUKCJA

. https://sklep.hubix.pl/Portals/0/Pliki/SECRA1.pdf.

Claims (4)

1. An electric protective helmet containing a body made of dielectric material, a protective face shield and an internal tooling consisting of a bearing rim connected to the body and intersecting shock absorbing tapes mounted on the bearing rim, the protective face shield is pivotally connected to the bearing rim and can slide into the helmet between the housing and the shock absorbing tapes, characterized in that the helmet is equipped with a directional lamp in a dielectric housing and a hazard warning device, the directional lamp is equipped with a built-in block a holder made of a dielectric material, the holder being pivotally connected to the headlight housing and mounted on the surface of the front of the helmet housing, a hazard warning device mounted on the inside of the housing above the intersection of the shock absorbing tapes and contains an antenna, hazardous voltage alarm unit, signal power supply unit and the power switch of the detector, and the power supply of the detector is connected to the alarm unit dangerous voltage through the power switch , The antenna is connected to the input of dangerous voltage alarm unit. 2. The helmet according to claim 1, characterized in that the antenna, the hazardous voltage signaling unit, the signaling device power supply and the signaling power switch are enclosed in a shell of elastic dielectric material, the signaling device in the shell being fixed to the inner surface of the helmet body by means of adhesive tape. 3. A helmet according to claim 1, characterized in that the headlamp holder is fixed to the surface of the helmet body by means of adhesive tape. 4. A helmet according to claim 1, characterized in that the headlamp housing is sealed to increase dielectric strength.

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