CS260729B1 - Pickup of textile threads' tractive force - Google Patents

Abstract

The invention relates to a meter for determining tensile forces of, for example, textile threads, which consists of two photoelectric elements (2, 3), to which a double-armed lever (5) provided with a thread guide (6) is assigned. This transmitter can be used particularly in control circuits of the textile industry. <IMAGE>

Description

The invention relates to a tensile force sensor of textile threads.

Existing tensile force transducers of textile yarns utilize the conversion of mechanical force to electrical signal, most often on the principle of deformation of the measuring body provided with piezoresistive sensors converting this deformation to electrical signal, or capacitive sensors that convert the displacement of the measuring body to change electrical capacity by differential condensate.

The devices utilizing these methods are sufficiently accurate and stable, but at the same time very demanding to select piezoresistive sensors, power supply and evaluation electrical circuits, and in the case of a capacitive sensor the need to supply it with a large AC voltage at a frequency in the kiloherz range. On the other hand, the good linearity of these transducers, which is demanded by measuring devices, is paid by the high price of the transducer itself and the subsequent equipment for processing the electrical output signal. For regulators, the linearity requirement is not paramount, and therefore the financial cost is not essential.

These drawbacks are overcome by the tensile force sensor of the textile threads according to the invention. It consists of a base body -a and a pair of photoelectric elements positioned coaxially and perpendicular to the air gap formed by a side notch in the end portion of the base body, and a notched end of the two-arm lever rotatably mounted in the base body provided with a damping strip on the outside to fill the gap between the two-arm lever and the sensor housing and the other end with a thread guide, the base body having an opening perpendicular to the two-arm lever and provided with a cylindrical spring on the set screw located above it in this hole. In the base body, a further through hole perpendicular to the double-arm lever can be provided in addition to the pin towards the pair of photoelectric elements, in which the adjusting stop of the double-arm lever is located. The cushioning strip may preferably be formed of polyurethane foam and may be rigidly connected to a double-arm lever.

The tensile force sensor of the textile threads according to the invention is simple, does not require any special sensors or power supplies, the adjustment function is limited only to the adjustment of the spring locking screw or adjusting stop. The output signal is large enough to directly control the power amplifier.

BRIEF DESCRIPTION OF THE DRAWINGS The invention and its effects are explained in more detail in the accompanying drawing, in which: FIG. 1 is a cross-sectional elevational view of a textile yarn force sensor according to the invention; and FIG. tensile forces of textile yarns according to the invention.

In the base body 1 there is at one end a side gap 4 forming an air gap into which a double-arm lever 5 reaches with its curved end. It is pivotable on the pin 7 of the base body 1 by means of a pin 7. The other end of the lever 5 is provided with a yarn guide 6, for example of sintered corundum . The gap between the two-arm lever 5 and the sensor housing 12 is filled with a foamed polyurethane damping strip 11.

The two photoelectric elements 2 and 3, the electroluminescence infrared diode of type WK 16421 and the photo-transistor of type KFX 81, are positioned coaxially and perpendicular to the side slot 4, i.e. to the air gap.

In the base body 1 is formed an opening 13 perpendicular to the double arm 5, in the smooth part of which is located a spring 8 supported by one end on the double arm 5 and the other end on the above set screw 9. 14 is perpendicular to the double-arm lever 5, in the threaded portion of which is an adjusting stop 10 formed, for example, by a screw. The unit is closed by a cover 12.

The function of the yarn tensile force sensor according to the invention depends on the modulation of the light beam emanating from the photoelectric element 2, i.e. the light-emitting diode, through an air gap partially obscured by the bent end of the two-arm lever 5 and impinging on the photoelectric element 3. By force of the thread on the thread guide 6 on one arm of the double-arm lever 5 from the basic position given by the adjusting stop 10 and thus to deflect the spoke. The impact of a greater luminous flux on the photoelectric element 3, i.e. the phototransistor, is also its output signal greater.

With this tensile force sensor in textile threads, it is possible to detect forces in the range of 5 to 100 cN at a phototransistor output voltage of 3.5 to 4.5 V. The phototransistor supply voltage is 6 V and the photodiode supply current is 45 mA. The actual oscillations of the double-arm lever 5 are damped by a foam polyurethane damping strip 11. The sensor can also serve as a measuring member in the control circuit of the automatic textile thread control brake.

The tensile force sensor of textile threads according to the invention is particularly useful in circuits of automatic tensile force regulators in the processing of threads in the textile industry.

Claims (3)

A tensile force sensor of textile threads consisting of a base body and a pair of photoelectric elements disposed coaxially and perpendicular to the air gap, characterized in that the air gap is formed by a side notch (4) into the end portion of the base body (1) and into the side notch ( 4) a bent end of the two-arm lever (5) is rotatably mounted in the base body (1) on the pin (7) and provided with a damping strip (11) on the outside to fill the gap between the two-arm lever (5) and the housing (12); at the opposite end, a yarn guide (6), the base body (1) having an opening (13) perpendicular to the double-arm lever (5) and provided with a cylindrical spring (8) with one end on the double-arm lever (5) and the other end on the set screw (9) which is located above it in the bore (13). Tensile force sensor according to claim 1, characterized in that in the base body (1), in addition to the pin (7) towards the pair of photoelectric elements (2, 3), a further through hole (14) perpendicular to the double-arm lever (5) is formed. in which the adjusting stop (10) of the double-arm lever (5) is located. Tensile force sensor according to claim 1, characterized in that the damping strip (11) is made of polyurethane foam and is firmly connected to the double-arm lever (5).