RU2111420C1 - Slide valve - Google Patents

Abstract

FIELD: protection of buildings against smoke. SUBSTANCE: slide valve includes damper fitted movably in guide of housing, mechanism for suspension of damper and drive electromagnet. Valve is provided with one or several additional dampers which are interconnected by means of flexible member and are located in guides of housing in parallel relative to each other at some distance forming air gap. EFFECT: enhanced reliability.

Description

 The invention relates to ventilation devices, is used for smoke protection of buildings and can improve the reliability of operation.

 A device for blocking the opening of the exhaust shaft [1], containing a rotary leaf, fixed in the closed position by a rotary lever with a load on the free end. The lever with the load tends to fall down, but is held in the upper position by means of an electromagnetic drive. In the event of a fire, an electric signal is supplied to the drive and the drive releases the lever, which, under the influence of the load, rotates around its axis, releases the sash. The valve, having a shifted center of mass, tends to turn and open the shaft opening. If the sash, during a long closed vertical position, is “stuck” on the opening guard, the lever with the load, with its further turn, pushes the sash towards the opening direction and forces it to leave the dormant state and lean back into the horizontal position, opening the shaft opening. This is achieved by increasing the reliability of the device.

 The disadvantage of this device is the presence of metal-consuming cargo.

 It is also known a device for closing the exhaust shaft [2], also containing a rotary leaf, eccentrically mounted on the axis and tending under the action of the moment from gravity to an open horizontal position. A lever is rigidly connected to the sash, on which a permanent magnet is fixed. The device has an electromagnet, the anchor of which is used as a magnetizable structural element. When the electromagnet is de-energized, the armature is opposite the permanent magnet, which pulls the lever to the armature. The sash connected with the lever is pressed against the support plane. This ensures high valve tightness. But as a result of prolonged contact of the leaf surface with the supporting surface, “sticking” of the leaf can occur at rest. To increase the reliability of the device, a second permanent magnet of the same name with the first polarity is installed on the electromagnet's anchor, in the usual de-energized state of the armature below the first one and not interacting with it. When the electromagnet is turned on, the anchor is pulled in and the permanent magnet located on it, passing by the first magnet, by virtue of the same polarity, will push the lever, and therefore the shutter associated with it, and open the opening of the smoke shaft.

 The disadvantage of this device is the weak force on the sash, which may not provide the desired results.

 The closest prototype to the proposed valve is a slide gate [3]. The slide gate contains a flap moving along vertical guides. The damper is held in the upper position by a linkage with an electromagnetic drive. With the high reliability of this suspension and actuator, the damper can nevertheless freeze in the rails in the upper position due to dirt or due to the deformation of the damper or rails, and will not fall down.

 The basis of the invention is the task of increasing the reliability of the valve while simplifying its design.

 This problem is solved in that the slide valve containing a plate valve installed to move it in the guides of the housing, the suspension mechanism of the valves and the drive electromagnet, according to the invention is additionally equipped with one or more valves, connected to the actuator and interconnected by a flexible element and located in guide rails parallel to each other at a certain distance from one another. As a flexible element, a cable or chain can be used.

 In comparison with the known slide gate, the inventive valve has a novelty, differing from it by the presence of two or more dampers, interconnected by a flexible connection and located in the guides of the housing with the formation of air gaps between them.

 The connection of all the dampers to the actuator allows, upon receipt of a signal to the latter, to ensure the fall of either all the dampers at the same time, or part of them. The fall of even one of the shutters causes tension of the flexible element connecting it to the other shutter, and with the help of a dynamic blow captures this shutter, it captures the next, and so there is a chain reaction of the fall of the shutters, which eliminates the hang of any of the shutters and guarantees the opening of the ventilation opening or any other system.

 Air gaps between the butterfly valves increase the fire resistance of the valve. In addition, the presence of several pairs of "shutter - guides" creates a resistance to gases higher than one, resulting in increased valve tightness.

 The applicant is not aware of devices having a combination of these essential features and providing, due to the above distinctive features, such as several interconnected by a flexible element plate flaps located in the valve body with the formation of air gaps between them, the achievement of the above technical result, therefore, he believes that the claimed the technical solution meets the criterion of "inventive step".

 Figure 1 is a General view of the slide valve; figure 2 is a view along A-A of figure 1.

 The valve comprises two or more plate shutters 1 connected to each other by a flexible strong element 2, for example, a cable or chain, and located in the vertical guides 3 of the valve body 4. The dampers are fixed on the lever-electromagnetic actuator 5.

 The valve operates as follows.

 In the initial position, the flaps are held by the electromagnetic actuator in the upper position, blocking the opening 6 in the wall of the ventilation shaft 7. When an electrical signal is received, the actuator releases all the flaps simultaneously. Moreover, the probability of falling of at least one of them is significantly higher than the probability of falling of a single damper (for example, for 2 plate damper this probability is 2 times higher). The fall of one of the shutters causes the rest to fall. As a result, the likelihood of opening a mine opening increases significantly. The damper is returned to its original upper position manually.

 For example, two steel plates weighing 0.5 kg each were hung on a crossbar on threads and connected together by a copper stranded wire. Then one of the threads was cut with scissors. A plate suspended on this thread fell and pulled the wire. As a result of a dynamic impact, the remaining thread was torn and both plates fell. This experiment clearly demonstrated the essence of the proposed idea of increasing the reliability of the slide valve.

 Fields of industrial application of the slide valve can be ventilation systems of residential buildings and mines, workshops, warehouses and other facilities. An important design feature of the valve is its simplicity and manufacturability.

Claims (3)

 1. A slide valve comprising a flap mounted to move it in the guides of the housing, a suspension mechanism of the flap and a drive electromagnet, characterized in that the valve is equipped with an additional one or more shutters interconnected by a flexible element and located in the guides of the housing parallel to one another some distance from each other with the formation of an air gap.  2. The valve according to claim 1, characterized in that a cable is used as a flexible element.  3. The valve according to claim 1, characterized in that a chain is used as a flexible element.

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