PL97052B1 - MACHINE FOR CONTINUOUS CONTROL OF BELT WIDTH, ESPECIALLY MINING CONVEYORS - Google Patents

Description

The subject of the invention is a device for continuous control of the width of a belt, especially in mining conveyors. During the operation of belt conveyors in mining conditions, the belt of conveyors is often damaged, for example, by a deformed bearing structure or the rollers, the loss of the belt causes its width to decrease, which is the reason why a significant amount of contaminants penetrate the lower belt when the output is fed in series, which transports it to the turning station, it causes a jam, leading to the belt breaking and large quantities of accumulating, for example, coal dust at the turning station, which is often a source of fires. In the system of automation of the conveyor belts, tongs to control the width of the tape do not work well, because it often even happens that in the event of their jamming, they cause the tape to break, especially in the sewing area. The aim of the invention is to develop a device for continuous control of the width of the conveyor belt in motion The purpose of the flax was achieved by the development of a device, the essence of which lies in the fact that the structure of the belt under the upper belt is built with a frame shaped in the form of the letter "C", which with its longest side is placed on the carrying structure of the conveyors and in the mutually opposite trough-shaped ends it has movable wheels, whose pivot axes are embedded in the clamps, while these clamps are connected with the slots through the slot movably with the frame, and between the frame and the clamps there are resilient elements pressing the control rollers to the sides tape, and next to the counter In general, electromagnets connected with the control system of the conveyor belt are built-in. The solution of the invention can also be implemented while maintaining its essence in such a way that the axes of the control discs have extension cords that form contacts with the electrodes of capacitive currents placed next to them in the direction perpendicular to the axis of the conveyor belt connected to the control system of the conveyor belt. The solution of the invention may also be implemented in such a way that between the two trestles constituting the conveyor structure, on opposite sides of the conveyor belt, at least two cut-outs are built into the belt, which, at part of their length, cooperate with the belt, and next to them an electromagnet is built into with the conveyor belts, the electromagnetic system and the subsequent connection of the cutters to the conveyor belt control. The solution according to the invention is shown in the example of the drawing, in which fig. 1 shows the device according to the invention, in front view, in fig. 2 - in top view, in fig. 3 - way of mounting the control roller in the frame in the first version of the invention. Fig. 4 shows an arrangement of electrodes in front view, Fig. 5 - this device in plan view, and Fig. 6 - contact solution as extension of the axis of the control roller, Fig. 7 - solution according to alternative 3 in front view and Fig. 8 - this solution in a top view. The essence of the invention is shown in the drawings in the embodiment as in the first version, where the device is a frame 1 placed on the carrier structure 2 of the conveyor, and at the ends 3 and 4 it has lanes 5, which the axles 7 are embedded in the clamps 8, while these clamps 9 are connected with the slot 10 movably with the frame 1, and between the frame 1 and the clamps 8 there are coil springs 11, and next to the control edges 5 there are electromagnets 12 connected to the control system the conveyor belt. In the second version, on 8 May, the extensions of the rotation axis 14 are attached to their ends, which constitute the contacts with the electrodes 15 located next to them in the axis of the slot. The version shown in Fig. 7 and Fig. 8 is a system of two short control testers 16. The device according to the invention operates in such a way that the springs 11 press the control rollers 5 against the rim of the tape, which as they slide make them rotate and cut with slits 6 constant electromagnetic field, in the event that the moving belt will have a constriction, the spring 11 will cause the rotor to move out of the electromagnetic field, which will cut off the current flow to the conveyor drive. If the system is not turned on for control, excessive movement of the idler may activate the signaling system. The device according to the invention in the second version operates in such a way that the extended axes 14 of the idlers are contacts with the electrodes 15 suspended next to them, whereby the belt coiling causes them to short-circuit According to the third version of the invention, the device operates in such a way that the rotation of the short 16 lobes with notches 16 in the electromagnetic system with the electromagnet 12 will take place only at the full width of the belt in the event of one or two lobes not rotating will turn off the conveyor belt. PL

Claims (4)

Claims 1. Device for continuous control of the width of the belt, especially in mining conveyors, characterized by the fact that it consists of a frame (1) preferably shaped in the form of the letter "C", which with its longest side is placed on the carrying structure (2) of the conveyor , and in the mutually opposite channel-shaped ends (3) and (4) it has movably mounted idlers (5), whose rotary axes (7) are embedded in the clamps (8), and these clamps are connected with the splines (9) through a gap ( 10) movably with the frame (1), and between the frame (1) and the clamps (8) there are resilient elements (11), preferably in the form of coiled springs, pressing the control spacers (5) to the sides of the belt (13), and next to the control spacers ( 5) the electromagnets (12) connected with the control system are installed. 2. Device according to claim A method as claimed in claim 1, characterized in that its control cutters (5) have through gaps (6) on their cylindrical plane. 3. Device for continuous control of the belt width, especially for mining conveyors, characterized by the fact that it consists of a frame (1) preferably shaped in the form of the letter "C", which with its longest side is placed on the carrying structure (2) of the conveyor, and at the mutually opposite, trough-shaped ends (3) and (4), it has movable idlers (5), whose rotary axes (7) are embedded in the clamps (8), and these clamps are connected with the splines (9) through a slot (10) movable with the frame (1), and between the frame (1) and the clamps (8) resilient elements (11) are placed, while the splines (9) have the rotation axis extenders (14) attached to their ends, which are contacts with the adjacent in the slot axis (10) with electrodes (15). 97 052 3, 4. Device for continuous control of the belt width, especially in mining conveyors, characterized by the fact that it consists of a frame (1) attached to the conveyor's bearing structure (2), preferably shaped in the shape of 2 longitudinally connected unequal angle bars, which are all and are ribbed for the foundation on the opposite sides of at least two diagonally set control slots adjacent to the bottom surface of the belt along its entire length, which with its movement and weight causes their parallel deflection, i.e. vertical displacement in relation to the electromagnet (12) with spring bearings located in the slots of the frame (1) and ensures forced rotation consistent with perpendicularly installed electromagnets (12), with which it is an integral part of the system, preferably optical-acoustic signaling or control. Fig 2 Fig 397 052 SP & P5 $ M A \ A, - ^ - ^ ffl ^ i 1 1 1 II \ i. LI m Fig 5 Fig 6 16 S 43 Figs sq 6 < a 3 < > SPS: j; * - n / 70ff Work. Typographer. UP PRL circulation 120 + 18 Price PLN 4 PL