RU2064770C1 - Protective radio-equipped helmet - Google Patents

Abstract

FIELD: radio-equipped individual head protecting facilities. SUBSTANCE: protective device has metal or plastic helmet, shock-absorbing unit carrier attached on helmet by detachable connecting unit, receiving device positioned within carrier. Receiving device has radio set, independent power source and telephone capsule. Elements of flush-mounted antenna are fixed on removable dome-shaped part of shock- absorbing unit. EFFECT: increased efficiency in protecting head, simplified construction and enhanced reliability in operation. 2 dwg

Description

 The invention relates to personal protective equipment, namely, protective headgear, and provides the object of protection with wireless remote communication.

 The prior art in this area is characterized by the following known solutions.

 Known protective radiofit helmet, which is actually a helmet in which the head phones are installed, and a remote radio receiver with an antenna connected to the head phones with a cable through a detachable connection. With this design of a radioficated headgear, the presence of a connecting cable that impedes human movement and reduces the reliability of the work creates serious inconvenience due to the possibility of mechanical damage to the cable.

 The task of autonomous placement of an individual radio communication device in a protective headgear is solved in a radio-controlled mining helmet. This device contains a plastic helmet, inside of which is located an individual radio communication device consisting of an antenna and a telephone capsule connected to a radio receiver. However, this copyright certificate does not contain information about the location of the power source inside the helmet and information about the design of the antenna. The first is probably due to the fact that miners are usually provided with individual portable power supplies connected to helmets with cable connection. The second suggests that there is no novelty in the performance of the antenna and the authors are satisfied with the well-known (typical) solutions. However, if it is necessary to replace the plastic material of the helmet with metal, the typical antenna used in this design will be shielded from the surrounding space, which reduces its gain and decreases the radio range.

 The technical problem solved by the invention is to place inside the protective helmet (helmet) for various purposes all the components of the individual radio communication device so as to provide the object of protection with reliable radio communication in any, including extreme, situations, for example, during rescue operations, performing special tasks special forces (quick response), etc. This, firstly, requires complete autonomy and secrecy of the radio equipment inside the protective helmet in order to exclude all cable connections outside the helmet and to protect the object of protection from accidental and deliberate damage to them. Secondly, it sets the task of non-traditional solution of the antenna device, especially in the widely used meter wavelength range. The use of an antenna in the form of a traditional quarter-wave pin of any design does not allow placing it inside the helmet without noticeable deterioration in its coordination with the radio receiver and radiation pattern, and in the case of a metal helmet it generally eliminates this solution.

 In the proposed protective radiofit helmet, which contains the protective helmet with a radio communication device located in it, including a radio receiver with an antenna and a telephone capsule and an autonomous power source, the antenna is dome-shaped from two metallized surfaces, between which there is a separation layer.

 The technical result of the proposed implementation of the built-in non-protruding antenna is the necessary matching of the antenna with the radio receiver and a circular radiation pattern, which provides the object of protection with reliable radio communication regardless of the position of the helmet in space.

 In this case, the purpose, shape of the case and the material from which the protective helmet (helmet) is made, do not matter.

 The following example of a specific implementation of a protective radio-helmet on the basis of serial products "Mask" allows you to more fully present the proposed solution.

 In FIG. 1 shows a longitudinal section of the proposed protective radiation helmet, in FIG. 2 scan of the bearing part of the shock-absorbing equipment.

 In the above example, a protective radiofit helmet contains a helmet 1 with a protective visor 2 or without it and an internal shock-absorbing snap, consisting of a dome 3 and bearing 4 parts. A radio receiving device consisting of a receiver 5, an autonomous power supply 6 and a telephone capsule 7 is located in the cavity of the carrier part 4. Elements of the built-in antenna 8 are mounted on the surfaces of the domed part of the shock-absorbing equipment 3. The bearing part of the shock-absorbing equipment 4 is removable and mounted on the helmet with screws 9. The helmet can be metal or plastic. The elements of the non-protruding antenna 8 can be made in the form of metallization layers deposited on the surfaces of the dome part of the shock-absorbing equipment. If the helmet is metallic, then its surface is used as one of the elements of the antenna.

 The device operates as follows. A helmet put on the head provides protection against shock and other influences due to the helmet 1 and shock-absorbing equipment 3 and 4. When the radio receiver is turned on, the object of protection is provided by one-way radio communication. In this case, the helmet 1 protects the radio receiver and antenna from possible mechanical damage.

 The bearing part of the shock-absorbing equipment 4 together with the built-in radio receiver can be removed from the helmet and installed on another helmet or sent for repair.

 The technical solution given in the example allows you to create a reliable radio communication for the protection object, provides a visual masking of the radio equipment and their operational maintainability.

 The presence of a removable dome shock absorbing insert in such products provides the necessary basis for creating the proposed antenna. Such inserts are an integral attribute of a number of other serial products. If belt shock absorbers are used instead, such dome-shaped inserts should be introduced additionally.

 The proposed protective radiofit helmet can be used to equip security services, special units, security and law enforcement services, search and rescue groups, fire protection units, construction workers and rigging loading and unloading teams in transport, dispatch control of oil and gas teams, miners, loggers, etc. as well as for training athletes (motorcycling, cycling, climbing, etc.).

Claims (1)

 A protective helmet with an individual radio communication device located in it, including a radio receiver with an antenna and a telephone capsule, characterized in that it contains an autonomous power source installed inside the helmet, and the antenna is dome-shaped from two metallized surfaces between which there is a separation layer.

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