RU2054062C1 - Drive of rotors of pneumatic-mechanical spinning machine - Google Patents

Abstract

FIELD: textile industry. SUBSTANCE: drive has flat belt pressed against shafts of spinning rotors of machine and passed over driving and driven pulleys. Driven pulley is set in bearings on axle coupled with one end to fixture for belt pulling. Bushing with collar carries shaped bushing with ring protrusion put on the other end of axle. Driven pulley has recession corresponding to shaped of ring protrusion. Protrusion is placed into recession with clearance. Shaped bushing carries carrier with cone-shaped rod to put belt out of contact with driven pulley when its bearings are destructed. EFFECT: improved operational reliability of machine. 3 dwg

Description

 The invention relates to spinning production of the textile industry and can be used on a rotor spinning machine to prevent failure of the drive belt of the spinning rotors.

 A known spinning rotor drive of a rotor spinning machine comprising a driving pulley and a driven pulley connected to the engine, mounted by ball bearings on an axis connected at one end to a belt tensioner located on the driving and driven pulleys with the possibility of pressing against the shafts of the spinning rotors.

 In the process of operation of the machine, the drive belt of the spinning rotors fails due to the destruction of the ball bearings of the driven pulleys, which also spoils the spindle axis and pulley housing sockets. As a result of this, there is a decrease in machine performance due to the need to re-fasten the belt, repair the spindle and pulley.

 The objective of the invention is the creation of a drive of spinning rotors, providing a technical result, consisting in preventing the failure of the drive elements and in increasing the productivity of the machine.

 This technical result in a spinning rotor drive of a rotor spinning machine comprising a drive pulley and a driven pulley connected to the engine, mounted by means of ball bearings on an axis connected at one end to a belt tensioner located on the driving and driven pulleys with the possibility of pressing against the shafts of the spinning rotors, is achieved by the fact that the drive contains a sleeve with a shoulder rigidly fixed on the other end of the axis of the driven pulley and mounted on the sleeve with the possibility of rotation relative to a sleeve having an annular protrusion at the end and fixed on the outer side surface by means of a leash a cone-shaped rod for bringing the belt out of contact with the driven pulley when its ball bearings are destroyed, while the cone-shaped rod is located at an angle to the generatrix of the working surface of the driven pulley, the ring is made on the end a recess, and the annular protrusion of the sleeve is placed in the annular recess of the driven pulley with a clearance relative to it, and the axis of the driven pulley is connected to the tensioner belt to opposite bushings end.

 The failure of the drive elements is prevented by instantly removing the belt from contact with the pulley at the time of destruction of the driven pulley bearing.

 Figure 1 shows the drive, a General view; figure 2 driven pulley in the context; figure 3 conical rod.

 The drive contains a motor 1, on one end of the shaft of which a drive pulley 2 is installed, and on the other end of a pulley with two V-belts for transmitting rotation to the lower gear (not shown). Along the entire side of the machine there is a flat belt 3, enveloping the drive pulley 2 and the driven pulley 4 with the possibility of pressing against the shafts of the spinning rotors 5 (figure 1). The driven pulley 4 is mounted by means of ball bearings on an axis 6 with a length greater than the width of the pulley 4.

 At one end, the axis 6 is pressed into the sleeve 7 of the device for tensioning the belt 3. In the sleeve 7, a through channel 8 is made for pressing out the axis 6 and a fixing screw 9 is installed (Fig. 2).

 At the other end of the axis 6, a sleeve 10 with a shoulder 11 is rigidly fixed, on which a figured sleeve 12 with an annular protrusion 13 at the end is mounted rotatably relative to it. A recess 14 is made on the pulley 4 corresponding to the shape of the annular protrusion 13, while the protrusion 13 is placed in the recess 14 with a gap. On a curly sleeve 12 under the upper branch of the drive belt 3, a leash 15 with a cone-shaped rod 16 is rigidly fixed to bring the belt 3 out of contact with the driven pulley 4 when its ball bearings are destroyed. The rod 16 is located at an angle to the generatrix of the working surface of the pulley 4 and is made in the form of a truncated cone, the axis of which is located at an angle to its base. At the ends, the rod has slices 17 (Fig. 3) to a height equal to the height of the flange 11 of the pulley 4. The surface of the cone-shaped rod 16 adjacent to the surface of the pulley 4 is made concentric of the latter. Figured sleeve 12 with the rod 16 is fixed in a fixed position using the sleeve 18 and the latch 19.

 The drive operates as follows.

 When the pulley 4 rotates, the figured sleeve 12 is at rest. At the time of the destruction of the bearing, the gap between the annular protrusion 13 of the figured sleeve 12 and the recess 14 in the pulley 4 is eliminated. The sleeve 12 begins to rotate together with the pulley 4. In this case, the cone-shaped rod 16, rigidly connected through the lead 15 to the sleeve 12 and which was previously stationary under the upper branch of the drive belt 3, moving, wedges between the working surface of the pulley and belt 3. In the original the moment of contact of the rod 16 with the belt 3 and the pulley 4 there is a torque, causing the rod 16 to deviate from the original position, while the cuts 17 of the rod 16 abut against the flange 11 of the pulley 4. By means of the rod 16, the belt 3 is removed from the loop the one with the pulley surface 4. Work spinning devices on the side of the machine, where faulty driven pulley stops. After replacing the bearing and installing the pulley 3 on the belt tensioner, the cone-shaped rod is again brought under the upper branch of the drive belt.

 To reduce the response time of the device, the free end of the rod is placed in close proximity to the place of contact of the pulley with the drive belt.

 The design of this drive prevents the failure of its elements and thereby enhances the performance of the machine.

Claims (1)

 DRIVING SPINNING ROTORS OF A PNEUMANIC MECHANICAL SPINDING MACHINE, comprising a drive pulley and a driven pulley connected to the engine, mounted by ball bearings on an axis connected at one end to a belt tensioner placed on the driving and driven pulleys with the possibility of pressing against the shafts of the spinning rotors it contains a sleeve with a shoulder rigidly fixed on the other end of the axis of the driven pulley and mounted on the sleeve with the possibility of rotation relative to it a sleeve having a ring at the end a cone-shaped protrusion attached to the outer lateral surface by means of a leash to lead the belt out of contact with the driven pulley when its ball bearings are destroyed, while the cone-shaped rod is located at an angle to the forming working surface of the driven pulley, an annular recess is made at the end of the latter, and an annular protrusion of the sleeve placed in the annular recess of the driven pulley with a gap relative to it, and the axis of the driven pulley is connected to the device for tensioning the belt opposite the bushings to ntsom.

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