SU1093674A1 - Apparatus for monitoring the tension of flexible traction member of hoist - Google Patents

Abstract

1. DEVICE FOR MONITORING THE TENSION OF THE LIFT TRACTOR BODY OF LIFT, containing a strut with two supports connected with a flexible organ, and a magnet rigidly connected to a figure brace holding a pull organ, a spring, nematically connected to the strut, a reed switch, configured to interact with the magnet, and a detector, characterized in that, in order to increase its reliability, it is provided with an additional spring and travel stops of both springs, with one ends of these springs being interconnected 11 da: mi with a spacer and located perpendicular to the longitudinal axis of the flexible traction body, while the other ends of the springs rest on the base of the figured bracket, on which the spring travel stops are installed, with the faces на facing the strut on the side. (L 2. The device according to claim 1, characterized in that one end of the strut is rigidly attached to a flexible traction body. X) 4

Description

11 The invention relates to lifting transport machinery, relates to means of automation of mechanisms and, in particular, can be used to control rope overlap at mine lifting installations. A device for controlling the tension of a flexible arm of a lift is known, containing a strut with two supports connected with a flexible organ, and a magnet rigidly connected to a figure brace covering a body, a spring kinematically connected with a strut, a reed switch, with the possibility of interaction with the magnet, and the G 1 detector. The disadvantage of this device is its relatively low reliability in operation caused by the presence of moving parts, i.e. hulls and pushers, which have a size conjugation that, under conditions of increased humidity and corrosive environment of the shaft, may jam, consequently, result in failure of the device as a whole. The use of a bracket rigidly connected with a flexible rod, a pusher rigidly connected through a rod with a bracket, and springs with a central arrangement with respect to the axis of the body leads to the design of the device with a lateral one-sided arrangement of its main elements. This leads to the formation of a significant bending moment, as a result of which the traction body is subjected to an additional bending of a periodic action and loses its initial service life. The use of such a device to control nat. The contraction of the flexible traction body of the counterweight may cause the counterweight to hang or seize due to the contact between the device body and the mine shaft fastening elements, since the dimensions of the cross section of the barrel section for the counterweight are commensurate with the transverse dimensions of the device. The aim of the invention is to improve the reliability of the device. The goal is achieved by the fact that a device for controlling the tension of a flexible traction body of a lift, containing a strut with two supports connected with a flexible traction body, and a magnet rigidly connected to a figured bracket, which grips the traction body, spring, is kinematically connected74 with a spacer, a reed switch, capable of interacting with a magnet, and a detector, are provided with an additional spring and travel stops of both springs, with one ends of these springs interacting with the strut and spacer wife prodelnoy perpendicular to the axis of the flexible traction body and the other ends of the springs are supported on the base bracket figurdyuy on which the travel stops of the springs, and curly bracket facing the convex surface to the spacer. In addition, one end of the strut can be rigidly attached to the flexible cable body. FIG. 1 shows the device, a general view; FIG. 2 is a section A-A in FIG. one; FIG. 3 is a section BB of FIG. 1. The device consists of a strut 1, which, by means of the supports 2 and 3, located at the opposite ends of the strut 1, is connected with a flexible pulling member 4, the support 2 being clamping and support 3 sliding. In the middle part of the spacer 1, the travel stops 5 are rigidly fixed symmetrically with respect to the axial line of the tensioned flexible traction body 4, which are supported by both springs 6, closed by a shaped brace 7, whose convex side is facing the spacer 1 and is directed along the axis of the flexible traction body 4. The concave side of the figured bracket 7 is the guide of the flexible cable organ 4. A magnet 8 is rigidly attached to the figured bracket 7 with the ability to interact with the reed switch 9 mounted on the strut 1. A pair of magnet 8 - reed switch 9 is configured to change the distance between them using a tuning element (not shown). In the off position, the spring 6 is in a compressed position at which the reed switch 9 interacts with the constant magnet field 8 and its contacts (not shown). ) keeps in a closed state. The device works / as follows. The elevator, when moving in the shaft of the mine under the action of its weight, maintains the flexible traction body 4 in a tensioned state. Figure 7 bracket under the force of tension Kahn

Claims (2)

1. A DEVICE FOR TENSION CONTROL OF A FLEXIBLE TRACTION BODY OF THE LIFT, containing a spacer with two supports connected to a flexible traction body, and a magnet rigidly connected to a curly bracket gripping the traction body, a spring kinematically connected to the strut, a reed switch made with the possibility of interaction with a magnet, and a signaling device, characterized in that, in order to increase its reliability, it is equipped with an additional one. the spring and the stroke limiters both springs, the one ends of these springs interacting with a spacer formed and arranged perpendicularly to the longitudinal axis of the flexible traction body and the other ends of the springs are supported on a base shaped bracket on which the travel stops springs being figur- _e Naya bracket faces convex side "to the strut, 2. The device according to π. 1, characterized in that one end of the spacer is rigidly attached to a flexible traction body. SU ™ 1093674>