RU2052176C1 - Device for protection of exit of structure - Google Patents

Abstract

FIELD: underground railway. SUBSTANCE: at least two blast fans are connected to tangential outlet heads located over circumference. Doorway is made in form of taper diffuser. Heads are arranged over circumference of tunnel exit and are mounted tangentially relative to inner surface of beginning of diffuser. Axis of outlet holes of heads is shifted relative to cross section of diffuser to doorway exit. Fans are arranged over circumference on diffuser outside. EFFECT: enhanced efficiency. 2 cl, 2 dwg

Description

 The invention relates to thermal protection against overcooling of an exit from structures, in particular from underground tunnels to the earth's surface (portals).

 To protect portals from entering cold air tunnels, thermal air curtains are usually used, the drawback of which is the consumption of a large amount of heat to heat the air entering the underground tunnels from the outside.

 These shortcomings are absent in air direct-flow ejection installations, which have a number of advantages, i.e., they do not require additional heat consumption and create ventilation of the connecting branch that goes to the metro portal, but they require large capital investments at low efficiency.

 Known air-thermal curtain with a scaling effect [1] that works both on indoor and outdoor air with heating, but such curtains are not effective from the piston pressure of trains entering the tunnel, require a large heat consumption, which entails increased operating costs. The specified device does not create ventilation of the tunnels of the connecting branch.

 An object of the invention is the effectiveness of air protection of the subway portal without using additional costs for thermal energy by sucking in for heating the portal of thermal air from the tunnels to the outside, while the tunnels are ventilated with small capital investments.

 According to the invention, the portal is made at the exit from the earth in the form of a conical diffuser. Along the circumference of the exit from the tunnel, there are exhaust nozzles tangential to the inner surface with an offset to the cross section at the exit. The nozzles are connected to the blow fans, which are located outside the circumference of the initial section of the exit from the tunnels. Such a portal air protection device provides heating and at the same time ventilation of the near-branch branch of the subway tunnels, which creates the elimination of the installation of tunnel ventilation ventilation chambers.

 In FIG. 1 shows a device, side view; in FIG. 2, section AA in FIG. 1.

 The subway portal at the exit from the tunnel 1 to the surface is made in the form of a conical diffuser 2, in which exhaust nozzles 3 are arranged around the circumference, mounted tangentially to the inner surface of the diffuser 2, with an offset angle to the exit cross section. Nozzles 3 are connected to the blow fans 4, which are installed outward around the circumference of the exit from the tunnel 1.

 The device operates as follows.

 Fans 4 external unheated air through nozzles 3 is pumped into a cone-shaped portal. At the beginning of the expansion of the exit portal from the tunnel 1, the streams of injection jets form a swirling flow of unheated outside air, which creates an ejective effect, while the warm air from the tunnels 1 begins to be sucked into the portal, mixed with the ejected air, and exits. The sucked-in warm air from tunnels 1 heats the "portal" and creates ventilation of the subway connecting branch. The swirling air formed from the "portal" prevents the penetration of cold air from the earth's surface into tunnels 1 of the underground.

Claims (2)

 1. DEVICE FOR PROTECTING THE EXIT FROM THE STRUCTURE, mainly the exit of the underground tunnels to the surface of the earth with a portal containing circumferentially tangential exhaust nozzles attached to them by at least two blow fans, characterized in that the portal is made in the form of a conical diffuser, and the nozzles are placed along the circumference of the exit from the tunnel and installed tangentially to the inner surface of the beginning of the diffuser, and the axis of the outlet openings of the nozzles is shifted to the cross section of the diffuser at the exit of the portal.  2. The device according to claim 1, characterized in that the blower fans are located around the circumference outside the diffuser and connected to the nozzles.

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