SU1113564A1 - Arrangement for airing mine openings - Google Patents

Abstract

A device for airing of mines, including two coaxially mounted ejector, have suction and discharge nozzles, characterized by the fact that, in order to increase the efficiency of ventilation by increasing the range of the jet, it is equipped with a generator of vortex rings, made in the form of a cylindrical housing with a cracked body and increased killing length. a diaphragm connected to the lid over the outer diameter, and with a ring over the inner one, with ejectors installed inside the generator, the suction nozzle of one of them is connected to the atm sphere, and the discharge nozzle installed another ring concentrically and axially movable. 00 el 05 4

Description

The invention relates to industrial ventilation and can be used for ventilation of mine workings. A device for ventilation is known, which contains two torus pneumo-jars mounted coaxially l. It is also known a device for ventilation of mine workings, including two coaxially mounted ejector, having a suction and discharge nozzle p1. Coaxially located ejectors allow a greater jet head than single-stage jet devices. The disadvantage of the device is that the air stream is uninterrupted; emanating from the diffuser, it erodes relatively quickly in the atmosphere, which reduces the range of this jet. The purpose of the invention is to increase the ventilation efficiency by increasing the jet range. This goal is achieved by the fact that the device for ventilation of the mountain windings, including two coaxially mounted ejector, having injection and suction with a launcher, is equipped with a vortex ring generator, made in the form of a cylindrical body with a lid and ring membrane, connected to the outer diameter of the cylinder, and on the inside - with a ring, with ejectors installed inside the generator, the suction nozzle of one of them is in communication with the atmosphere, and on the BOM nozzle of the other, the ring is mounted concentrically and with axial movement. Such an embodiment of the design allows one to send an air jet into the wellhead, on which vortex rings are strung. The rings stabilize the jet, which becomes more compact and has longer range. Figure 1 shows a device for airing mine workings, a cross-section; Fig. 2 is a diagram of the movement of air jets inside the device at the extreme positions of the membrane} in Fig. 3 - the form of the formed jet flowing from the device. The device comprises a cylindrical body 1, on one end of which an exhaust opening 2 is made, the diameter of which is 0.3-0.4 of the diameter of the tank. The opposite end face is closed by a polyurethane annular membrane 3 attached at the outer diameter to the rim 4. The rim 4 is connected to the walls of the tank with flanges and longitudinal ribs. In the cavity 5, the columns 4 are located along the longitudinal axis of the device two pneumatic slot ejector, interconnected by tubular supports 6, through which compressed air is supplied to the slot nozzles of the ejectors. The ejectors contain suction nozzles 7 (low pressure areas) and injection nozzles 8 (high pressure areas). A sleeve 9 is rigidly attached to the front ejector discharge nozzle, and the internal diameter of the annular membrane 3 is connected to a composite metal ring 10, with a gap of about 1 mm between the surface of the sleeve and the ring. The proposed device works as follows. When compressed air is supplied from the source to the ejectors, the air from the atmosphere and the cavity 5 of the cover 4 is sucked into the nozzles 7, mixed with the supersonic jet coming from the slit, and is ejected through the housing 1 and the hole 2 to the side of the mine working. When air is drawn in from cavity 5, the pressure in it becomes 200-300 cm water column. less atmospheric. Due to the pressure difference, the membrane 3 flexes sharply towards the side of the valve 4 so that the ring 10 slides through the sleeve 9. forming a gap A, and a gap B appears between the end of the housing 1 and the membrane (figure 2). Air from the atmosphere passes through slots B and A into cavity 5 and the pressure in it rises. The elastic forces the membrane to unbend and throw away from the lid 4. At the same time, the slit B is closed and the air column in the housing 1 is pushed out through the exhaust hole 2 in the form of a vortex ring.

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the membrane is attracted to the cap. Then another push of the air column occurs, etc.

The amplitude of the oscillation of the membrane increases the inertial force of the massive ring 10 that moves along with it. In addition, with appropriate selection of the design parameters, the membrane can oscillate in a resonant mode, at which the oscillation frequency is equal to or a multiple of its own. When operating in the resonant mode, the efficiency of the devices is maximum.

13564 4

The vortex rings formed by the device move in a wake of gas ejected by the ejectors. They are strung on a jet. 5 When moving the ring squeeze

jet, seal it and reduce dispersion in the atmosphere. (fig.Z). Thereby, the jet acquires greater compactness and long range (the effect 10 of shrinking the flow with a vortex ring is clearly visible, for example, on the film of the development of a nuclear charge) and the ventilation efficiency is increased.

Claims (1)

A device for ventilation of mining operations, including two coaxially mounted ejectors having suction and discharge nozzles, characterized in that, in order to increase the efficiency of ventilation by increasing the range of the jet, it is equipped with a vortex ring generator made in the form of a cylindrical body with a cover and an annular membrane, the outer diameter is connected to the lid, and the inner - to the ring, while the ejectors are installed inside the generator, the suction nozzle of one of them is in communication with the atmosphere, and on the injection nozzle of the other, a ring is mounted concentrically and with the possibility of axial movement. ? U1! SU m l 113564 Ί113564