RU2007142197A - AIR FLOW REGULATOR - Google Patents

Abstract

1. A louver-type air flow regulator for a shaft channel, containing a plurality of louver plates adapted to be installed in a frame and rotated around a longitudinal axis therein between a predetermined position in which the louver plates are combined to close or restrict part of the channel, and an open position for air passage between the louver plates and through the channel, an inclined mechanism for acting on each louver plate in such a way that, in use, each louver plate is adapted to be held in a predetermined position until a predetermined air flow to the plates is achieved. ! 2. The regulator of claim 1, wherein the predetermined position of the plates corresponds to the closed or partially open position of the plates, and the open position corresponds to the fully open position of the plates. ! 3. A regulator according to claim 1 or 2, wherein the tilting mechanism is a weighing device capable of acting on and rotating each louver plate to a predetermined position, or a spring mechanism capable of accurately pushing each louver plate to rotate into a predetermined position, and / or a spacer mechanism capable of precisely pushing each louver plate to rotate to a predetermined position. ! 4. The regulator of claim 3, wherein the weighing device comprises at least one weight operatively associated with each louver plate by means of a respective linkage, whereby due to gravity, the weight is capable of lowering onto the linkages and thus pushing each the louver plate to a predetermined position, and at a given air flow, the louver plates are capable of acting on each linkage

Claims (16)

1. An air flow regulator such as a louvre for a mine channel, comprising a plurality of louvre plates adapted to be mounted in a frame and rotated about a longitudinal axis between a predetermined position, in which the louvre plates are combined to close or limit a portion of the channel, and an open position for air passage between the louvre plates and through the channel, an inclined mechanism for acting on each louvre plate in such a way that when using each louvre plate is adapted to be held in a predetermined position until ostizheniya predetermined air flow to the plates. 2. The controller according to claim 1, in which the predetermined position of the plates corresponds to the closed or partially open position of the plates, and the open position corresponds to the fully open position of the plates. 3. The controller according to claim 1 or 2, in which the inclined mechanism is a weight device that can act on each plate of the blinds and provide its rotation in a predetermined position, or a spring mechanism that can accurately push each plate of the blinds to rotate in a predetermined position, and / or a spacer mechanism capable of accurately pushing each louvre plate to rotate to a predetermined position. 4. The controller according to claim 3, in which the weighing device contains at least one load functionally connected to each louvre plate by means of a corresponding lever gear, while due to gravity the load is able to fall on the lever gears and, thus, push each the louvre plate in a predetermined position, and for a given air flow of the louvre plate, the louvres are able to act on each lever gear and push the load upward when moving each louvre plate to its open position, the spring mechanism contains a corresponding spring capable of pulling each louvre plate to a predetermined position, and with a given air flow, the louvre plates are able to act on each respective spring and stretch it when moving each louvre plate to an open position, and / or the spacer mechanism is a gas strut connected to a lever mechanism acting on the louvre plates to move them to a predetermined position, and with a given air flow of the plate, the louvres are able to act on the lever mechanism, which is able to act on the gas strut, when each louvre plates to an open position. 5. The regulator according to claim 4, in which the weighing device contains one or two weights, each of which has lever gears passing from it at intervals spaced from each other along the load, and each lever gear is connected to a corresponding plate of the blinds at the connection, pivotally attached to the frame in the same place as the rotary support of the plate, each spring of the attached mechanism passes between the frame and the place on the plate of the blinds at or near the front or rear edge of the plate, and / or the connection between the gas strut oh expansible mechanism and a lever mechanism operable to regulate so that plates blinds can be closed completely or partly under the influence of the gas struts. 6. The controller according to claim 1, additionally containing a control mechanism for separately and independently controlling the position of each louvre plate during normal air flow in the shaft channel, as a result of which the inclined mechanism does not interfere with normal air flow control, and the control mechanism does not interfere with the opening of the louvre plates when a predetermined air flow or returning the plates with an inclined mechanism to a predetermined position. 7. The controller according to claim 6, in which the control mechanism comprises a manual control mechanism or an adjustment mechanism with remote control. 8. The controller according to claim 7, in which actuators are actuated electrically and remotely controlled via a fiber optic communication system in a remote-controlled adjusting mechanism. 9. The controller according to claim 1, further comprising a frame and a plurality of mounting fingers / bolts extending from the frame and intended to be mounted relative to an adjacent wall of the mine channel. 10. The controller according to claim 9, in which the fingers are used to fasten the formwork, providing support for applying a cementing binder, whereby the fingers / bolts, formwork and binder further provide a structural wall for holding the frame in the channel. 11. The controller according to claim 1, in which the frame forms part of the module, many of which are adapted to be installed in a larger frame located in the channel. 12. The controller according to claim 11, in which each module has a plurality of selectively extendable mounting fingers located around its periphery so that when the module is installed in a larger channel frame, the extension of the mounting fingers ensures the module is secured to the channel frame, and the removal of the mounting fingers allows separating the module from the channel frame. 13. The controller according to claim 11 or 12, in which each module has places for lifting formed therein, allowing it to be raised for entry into and exit from the frame. 14. The controller according to claim 1, further comprising a stopper to prevent pivoting of the plates beyond the open position. 15. The regulator of claim 14, wherein the stopper comprises a damper or shock absorber. 16. The controller according to claim 1, in which the plates when used pass in the frame, in general, horizontally.