CS254802B1 - Piezoelectric sensor of thread motion - Google Patents

Description

- 1 - 254 802

BACKGROUND OF THE INVENTION The invention relates to a piezoelectric yarn motion sensor which is particularly suitable for weaving machines.

The hitherto known piezoelectric yarn sensors utilize the principle of sensing the yarn conductor vibration by the action of a moving yarn. This vibration is transmitted to the piezoelectric converter where, due to mechanical deformations, electrical polarization is generated within the crystalline dielectrics, thereby producing an electrical signal to the converter poles.

A particular embodiment of one of the hitherto known piezoelectric yarn sensors consists of two inoculated yarn wires. The first seed thread conductor is on its resilient rubber flexible rings, over which it is attached to the sensor holder. In this case, a plate with a piezoelectric transducer is attached to the first in-line thread conductor. A second loop thread conductor is attached to the sensor mount head to guide the indicated thread from the sensor. When moving over the conductors, the first seed thread conductor vibrates as it is resiliently mounted in the sensor holder. However, this mounting is disadvantageous due to the complexity of mounting the sensor with the number of sensor components, the large width of the mounting space from the use of two in-thread thread dies and the low frequency spectrum due to the storage of the first in-line wire, thereby making the sensor signal processing difficult.

Claims (1)

These disadvantages of the known piezoelectric yarn movement sensors are eliminated by the piezoelectric motion sensor according to the invention. The piezoelectric yarn transducer consists of a piezoelectric transducer mounted on a plate which is mounted on an inoculum yarn conductor, the annular conductor, the plate and the piezoelectric transducer being set in a hollow holder and embedded in this position by a resilient elastic material that does not touch the hollow holder and the inoculant nile conductor is encapsulated only on the outer surface. The essence of the invention is that the resilient encapsulant has a hardness of 50 ° Sh to 60 ° Sh, a tensile strength of 1.6 and 1.8 MFa and an elongation of 70% to 80%. the higher quality of the elastic bearing of the in-line conductor. In order to embed the assembled parts of the piezoelectric sensor, it is advantageous to use a fixation device formed by a crimper which is threaded into the hole of the inoculant nile conductor and, with the aid of a shaped pad, the space for a flexible potting compound is placed thereon. When using a flexible encapsulating material with the above mentioned mechanical properties, all the components of the sensor are sufficiently flexible and at the same time firmly connected to increase the sensitivity of the excitation of the excitation frequencies from the movement of the indicated thread to the piezoelectric inverter itself. The sensor's intrinsic frequency is increased by applying a resilient casting mass of mechanical properties as defined in the subject invention from the normal 80 kHz to 140 kF, which is the preferred higher rate of sensing. for 'iprajSdvánř dipping' and watering. and