RU2049034C1 - Thread breakage transducer - Google Patents

Abstract

FIELD: textile industry; monitoring devices. SUBSTANCE: transducer has non-balanced lever with thread guide secured on movable axle, larger and smaller current-collecting plates. Installed on axle of transducer housing in holder is permanent magnet in form of ferromagnetic ring magnetized so that magnetic field is concentrated in ring geometric centre. Hermetically sealed reed relay is fixed in area close to ring geometric centre. Relative position of elements of thread breakage transducer and their overall dimensions are selected so that with thread broken and non-balanced lever with thread guide turned, hermetically sealed reed relay and transducer signalling circuit get commutated. EFFECT: enhanced reliability of operation. 1 dwg

Description

 The invention relates to the textile industry, and more specifically to a device for thread breakage sensors used to indicate the fact of thread breakage by switching the signal circuit of sensors installed on textile machines.

 A similar device is known for monitoring the breakage of a thread on a textile machine [1] containing unbalanced levers with thread guides, a rotary bar with an axis, a permanent magnet fixed to the bar, and a reed switch located on the housing. The disadvantage of this device is that this device is designed to simultaneously control a large number of threads, due to the large geometric dimensions of the device. Slots in the device’s body designed to move levers with thread guides contribute to dust, fluff, etc. and thus, the reliability of the operation of the device is not ensured.

 It is also known a similar device for stopping the supply of rovings to the exhaust device of the spinning machine when the yarn breaks [2] containing a two-arm lever with thread guide at one end and a permanent magnet at the other end, under which the reed switch is placed.

 The disadvantage of this device is the low reliability due to the influence of adjacent sensors and the surrounding metal parts of the textile machine, as well as external spurious magnetic fields arising from industrial interference that occurs when motors, electromagnets, starters, etc.

 A known thread break sensor [3] adopted as a prototype, comprising a housing fixed in a housing on a movable axis, an unbalanced lever with a thread guide, a movable contact fixedly mounted on the axis and electrically connected to a large collector plate serving as the first output of the sensor signal circuit, a fixed contact fixedly mounted on the sensor housing and electrically connected to a small collector plate serving as the second output of the sensor signal circuit.

 In the presence of a tensioned thread between the movable and fixed contacts, a gap is formed and the signal control circuit of the sensor is open. When the thread breaks, the unbalanced lever with the thread conductor under the action of gravity rotates the axis and with it the movable contact, the movable and fixed contacts are closed and the signal circuit of the sensor is closed, which indicates the fact of a break in the thread. This thread break sensor [3] has low response reliability due to an increase in the transition resistance between the movable and fixed contacts in the closed state due to burning of the contact surfaces, the known contact bounce effect, rapid wear of the conductor connecting the movable contact to a large collector plate, insufficient protection of mobile and stationary contacts from dust and fluff. In addition, sparking at the moment of contact closure increases the fire hazard when working on reed machines.

 The aim of the invention is to eliminate these disadvantages and increase the reliability of the sensor breakage.

 This goal is achieved by the fact that the permanent magnet is made in the form of a ring of ferromagnetic material magnetized in such a way that the magnetic field is concentrated in the region of the geometric center of the ring, the magnet holder is fixedly connected to the axis of the unbalanced lever with a thread conductor, and the reed switch is fixedly mounted on the reed holder the housing of the sensor so that the longitudinal axis of the reed switch is oriented along the main axis of the permanent magnet ring, and the reed switch itself is located in the geometrical region the center of the ring of a permanent magnet, one of the terminals of the reed switch being electrically connected to a large current collector plate serving as the first output of the sensor signal circuit, and the second terminal of the reed switch connected to a small current collector plate serving as the second output of the sensor signal circuit, with geometric dimensions and relative spatial arrangement of elements the thread break sensor is selected so that in the presence of a tensioned thread in the thread conductor, the permanent magnet ring does not affect the contacts of the reed switch and they, t kzhe as sensor signal circuit, were opened, and when yarn breakage unbalanced with the guide of the lever under the influence of gravity moved ring permanent magnet in the activation zone of the reed switch, the contacts latter closes and in turn closes the circuit of the sensor signal.

 Improving the reliability of the sensor is achieved by the fact that the magnetic field of the permanent magnet ring is concentrated in its geometric center in a small local area and the permanent magnet ring itself serves as a protective shield that prevents the parasitic influence of neighboring sensors, external industrial interfering magnetic fields and surrounding metal parts of the textile machine .

 The drawing shows a General view of the proposed sensor breakage with a partial cutout of its protective cover.

 The thread breakage sensor has a housing 1, an unbalanced lever with a thread conductor 3 is fixed in its hole on the movable axis 2, a reed switch 5 is fixedly mounted on the housing 1 using the reed holder 4, the first terminal of which is electrically connected to a large slip ring 6, on the axis 2 of the unbalanced lever with the thread conductor 3, with the help of the magnet holder 7, a ring of a permanent magnet 8 is fixed, in the area of the geometric center of which a reed switch is located 5. A small current collection plate 9 is fixedly mounted on the housing 1, electrically connected set using the connecting conductor 10 with the second output of the reed switch 5. To limit the travel of the unbalanced lever with the thread conductor 3, the limiter 11 is used, there is a protective cover 12. If there is a tensioned thread, the unbalanced lever with the thread conductor 3 is in position I and the permanent magnet 8 does not have its own magnetic field influences the contacts of the reed switch 5. When the thread breaks, the unbalanced lever with the thread conductor 3 under the influence of its own gravity rotates the axis 2 and with it rotates the holder 7 and the installed therein magnet 8. The magnet 8 moves along the reed 5 in its outermost position. When the unbalanced lever with the thread conductor 3 reaches the limiter 11, at this moment, under the influence of the magnetic field of the permanent magnet 8, the contacts of the reed switch 5 are closed. Through the closed contacts of the reed switch 5, the large current collector plate 6, the connecting conductor 10 and the small current collector plate 9 the signal circuit is closed. As a result of the closure of the sensor signal circuit, the actuating elements of the textile machine are triggered and the winding process is terminated.

 Improving the reliability of the operation of the sensor breakage can significantly increase productivity and significantly reduce the yield of fumes when working on textile machines.

Claims (1)

 THREAD TERMINATION SENSOR, comprising a housing, on the moving axis of which an unbalanced lever with a thread conductor is placed, and a permanent magnet and a movable reed switch connected to the lever, the terminals of which are electrically connected to the current collector plates of the sensor signal circuit, characterized in that the permanent magnet is made in the form of a ferromagnetic ring, magnetized so that its magnetic field is concentrated in the geometric center of the ring, and the magnetic lines of force are directed along the main axis of symmetry of the ring, while the reed switch is placed in zone of the geometric center of the permanent magnet ring with the ability to switch the reed switch and the signal circuit when the thread breaks.

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