SU641839A1 - Converter of pneumatic to electric energy - Google Patents

Description

The designation of ofiooits to electrical equipment, and the name of the power supply source of intrinsically safe output. A device for converting energy of compressed air into electric energy, made at the base of a friction current generator with constant magniMK, is known. An air jae turbium is placed on the axis of the junction, and sheathed into the shell. Also known as a transducer of electric energy with a scatter output. , on the shaft of which there is a pivotmoturbine, intrinsic protection units and a branch pipe for connection to pneumatic collars C2; j. A disadvantage of the known devices of the converter is the lack of ability to provide {w BSpuBoaamutK pneumatic generator in case of damage to the body of the wedge; d. With such damage, the excess pressure inside the converter housing decreases and the gas mixture is explosive, penetrating into the housing can ignite and cause an explosive hazardous environment, since the converter does not have special means of explosion protection. The aim of the invention is to increase the level of explosion protection. This goal is achieved by the fact that the criss is provided with an inner shell, forming a protective cavity connected to the pneumatic blender with the case elements, and an explosion-proof chamber in which the generator and spark protection blocks are placed, the air turbine located in a separate chamber communicating through the channel with the protective cavity the flame arresters are with the generator cavity, and the explosion-proof camera communicates with the external environment through the flame barrier. The drawing depicts a pneumatic energy converter. The converter of pneumatic energy into electric one has a pneumatic turbine 1 fixed on the shaft of the core 2 of the generator 3 with the winding 4, the blocks 5 are spark-proof, the intrinsically safe circuits of which are outputted to the output BF. The generator and non-static blocking blocks are routed into a flameproof chamber formed by the morning shell 7, flange 8, generator flange 9 and cover 10. Case 11 together with flange 8 and cover 10 form a protective cavity 12. Cover 13 together with flange 8 and flange 9 generator form a cavity 14 pneumoturbia. The zazcit cavity through the inlet 15 is connected to the pneumatic circuit, and through the inlet channel 16 in the lid with the cavity of the pneumatic turbine. The BE cavity of the explosion-proof chamber 17 communicates with the external environment through the flames of the barrier 18. The internal cavity 19 of the generator communicates with the cavity of the pneumatic turbine through the flames of the obstacles, the cavity of the pneumatic turbine communicating with the external environment by an outlet opening 20 located in the cover 13. The pneumatic-electric energy converter operates as follows . Compressed air from the pneumatic network through the inlet 15 enters the protective cavity 12, blows the latter and through the inlet channel 16 enters the pneumatic turbine 1. The pneumatic turbine rotates the bark 2 of the generator 3, in the windings 4 of which electromotive force is induced and is applied to the spark protection blocks 5. In the spark protection units, the power is limited to an intrinsically safe value and is applied to the output terminals b. Used air From the cavity 14, the pneumatic turbines through the flame, the obstacles 18 placed in the generator flange 9, enters the internal cavity 19 of the generator, and then, blowing the internal cavity 17 of the flameproof chamber through the flame, the obstacles 18 located in the cover 10 are thrown into the external the environment, with a part of the exhausted compressed air from the cavity 1 of the pneumatic turbine being ejected into the external medium through the outlet 2 in normal operation mode, an explosion of protection of the electric power generator is provided for Thu excessively air pressure within the first chamber flameproof. If damage is likely (for example, the housing 11 or the inlet 15), the excess air pressure in the internal cavity 17 of the explosion-proof chamber decreases to atmospheric and an explosive gas mixture, penetrating the damage site, can ignite from accidental electrical discharges in the generator 3, which continues to rotate with the air turbine 1 by inertia. However, the ignition of an explosive gas mixture cannot be transferred to: the external environment, since the explosion-proof chamber is provided with flames by obstacles 18, which provide flange explosion protection. In emergency mode, the explosion protection of a generator of electrical energy is provided by an explosion-proof chamber. The presence of the supply channel 16 in the lid 13 eliminates the rotation of the pneumatic turbine when the lid is removed. Claims An air-to-electrical energy converter with an intrinsically safe output, comprising a housing, an electrical energy generator on whose shaft a pneumatic turbine, an intrinsic protection unit and a nozzle for connection to a pneumatic network, are located, characterized in with the case elements, a protective cavity connected to the pneumatic network and an explosion-proof chamber in which the generator and spark protection units are located, with the Pneumoturbine located in a separate chamber communicating through the channel with the protective cavity and through the flame the barriers are connected to the cavity of the generator, and the flameproof chamber communicates with the external environment through the flame barriers. Sources of information taken into account during the examination 1. Pneumatic shaft lamp. - Mining Journal, 1958, W 3. 2. Copyright certificate 273129, cl. E 21 f 17/04, 1970.

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Claims (1)

Claim Pneumatic to electric energy converter with intrinsically safe output, comprising a housing, an electric energy generator, a pneumatic turbine, spark protection blocks and a nozzle for connecting to a pneumatic network, which is characterized in that, in order to increase the level of explosion protection, the housing is equipped with an inner shell forming with elements housing a protective cavity connected to the pneumatic network, and an explosion-proof chamber in which the generator and spark protection blocks are located, and the pneumatic turbine is located separately chamber communicating via a channel with a protective cavity and through flame arrestors - a cavity generator and the explosion chamber communicates with the outside through flame arrestors.