CZ278432B6 - Guide body of separated fibers - Google Patents

Abstract

Leading body (1) of independent fibers, which is located between independent making mechanism and comber roller and opened side of spinning rotor containing the taking off wall (2) on which fastens the leading canal (4) of taken off fibers which inlet opening is in direction of feeder of independent fibers ended with separating edge (3). The leading body (1) contains the insert (5) created from different material than its other part, at which the insert (5) contains at least one part of taking of wall (2) at least one part of leading canal (4) and the separating edge (3). The insert (5) can be made from stainless metal alloy, from ceramic, glass, from solid plastic composite or as molded steel pressing.

Description

Guided body of united fibers

Technical field. BACKGROUND OF THE INVENTION The present invention relates to an united fiber guide body disposed between a combing roller opening device and an open side of a spinning rotor comprising a sensing wall to which a guided channel of sensed united fibers extends.

The known guiding bodies of the device for detecting and guiding the filaments, in particular from the combing roller of the open-end spinning machine unit, are formed as a body arranged between the combing roller with the combing roller and the open side of the spinning rotor. the sensing wall adjoining the guiding channel of the sensed bonded fibers, optionally formed as a body wrapping up to the zone of the sliver feeding device a combing roller, provided on the sensing wall with a separating edge with an inlet orifice formed therein by the bonding channel and the like.

Such guided bodies of the fiber detecting and guiding devices are produced by the die casting method of zinc alloy, because in view of the desired function of the guiding body it is necessary for the material from which the bodies are made to flow perfectly to form a precise and sufficiently smooth surface. particularly in that part of the body that includes the guiding channel of the sensed bonded fibers. Presently, said requirements are met by die casting a zinc alloy into a steel mold equipped with a tractor for forming an oblique through-going guide channel.

In operation of the unit during the union of the fibers from the cutting device and their open-end spinning machine, i.e. the filament strand of the unidirectional and discharged into the guide channel, the sensed and uncoated roller towed by the combing roller considerably wear off the upper side of the guide channel at its inlet.

The low abrasion resistance of the used zinc alloy is currently solved by reinforcing the separating edge at the sensing wall with a steel pin. However, this solution is labor-intensive and operationally unreliable because, despite several years of technologists' efforts, it has not been possible to create a manufacturing process that would guarantee a flawless connection of the pin to the edge of the sensing wall without any slit. by entering the guide channel. By collecting fibers with diameters of a hundredth of millimeters, they form fiber clumps that break off from time to time and, when they enter the spinning rotor, break the yarn or at least deteriorate its quality.

A number of solutions have been made, the adverse effect of the united and the sensing wall by a special treatment, for example known from CSP 274 306, whose task was to reduce the fibers to the separating edge of these edges and walls. the cylindrical cavity π in the circumferential direction thereof at least partially laterally from its separating edge of the guide channel and its lower edge adjoining the circumferential cylindrical wall extends in an arc from the second end wall of the cylindrical cavity at least beyond or parallel to the separating edge level, wherein the planar deflection sensing wall is spaced from the plane of the peripheral cylindrical wall in the direction of the guide sensing puppy and / or the top wall of the guide channel to extend the sensing input and guide the fibers into the guide channel from the second half of the combing roller width.

The detached filaments in the second half of the combing roller width should thus have more space and time to remove them from the combing roller coating and forcibly guide them from the combing roller coating and guide them non-violently to the guide channel and to the separating edge. There is no intense whipping of the fiber-optic baffle rectifier in which the guide channel and the sensing zone are provided.

Despite these measures, in view of the ever-increasing working power of the open-end spinning machine units and the increasing flow of fibrous material through the guide channel per time unit, the abrasion edge stress at the sensing wall also increases. As a result, the service life of the separating edge, and hence of the entire replaceable body of the fiber detecting and guiding device, is unbearable. The increase in the speed of the spinning rotors is accompanied by a reduction in the cross-section of the guide channel, a reduction in the dimensions of the die casting mold of this interchangeable body of the fiber sensing device. As a result, poor heat dissipation during casting and, as a result, deterioration of the surface quality of the guide channel walls through which the filaments flow. This in turn leads to a deterioration in the quality of the yarn produced.

It is an object of the present invention to provide such a fiber-optic guide which avoids technological problems during manufacture and which is highly resistant to abrasion by fiber-optically exposed surfaces and is also cheaper to manufacture. At the same time, the question of eliminating an unsuitable compromise between the textile-technological requirements for the function of the device and the possibilities of the production of the guide body by the current technologies is monitored.

SUMMARY OF THE INVENTION

The object is achieved by an unified fiber guide body comprising an insert formed of a different material than the remaining part of the guide body, wherein at least a portion of the united fiber scanning wall, at least a portion of a guided channel of the sensed united fibers and a separating edge .

The bonded fiber liner insert can be made of a stainless metal alloy, ceramic, glass or a molded steel.

The remaining part of the guide body may be made of ceramic or thermosetting, for example bakelite.

A CZ 278432, B6

The effects of the solution are manifested in the increased lifetime of the exposed part of the guided body of the unified fibers, the technological process of the body production is not dependent on the condition of production workers, production costs are reduced, complaints difficult for customers are eliminated. extend the variability of the shape of the insert or the whole body and allows to achieve smaller dimensions of the guide channel without deteriorating the surface quality of its walls.

Overview of the drawings

Further advantages and effects of the solution are evident from the following description of an exemplary embodiment of the body. for sensing and guiding the fibers, and in the accompanying drawing, in which Fig. 1 is an oblique view of the fibers guide body, the exposed portion thereof and the fibers section guide channel being formed as an insert of a different material than the other parts of the body; Fig. 2 is a front view of a guide body with an inserted insert formed, for example, by a precision casting or forming method;

DETAILED DESCRIPTION OF THE INVENTION

The unified fiber guide body 1 fed from the unraveling roller of the unlocking unit of the spinning unit without the spindle spinning machine is arranged between the unraveling unit with the unraveling roller and the open side of the not shown spinning rotor. The guide body 1 comprises a sensing wall 2 on which the guide channel 4 of the scanned fibers is connected, the inlet opening of which is terminated in the feeding direction of the fibers by a separating edge 3 or the guide body 1 is designed as a body not shown. a roller provided on said sensing wall with a separating edge with an inlet orifice formed therein by the unified fiber guide channel and the like.

The part of the guide body 1, comprising at least a part of the fiber-optic scanning wall 2, at least a part of the fiber-optic scanning channel 4 and the separating edge 3, is formed as an insert 5 of a different material than the remaining part of the device.

The liner 5 of the unified fiber guide body 1 of a different material is abrasion-resistant, while the remaining part of the guide body 1 is formed of a shape-stable material, for example of a stainless steel alloy by a fusible core method.

The insert 5 of the unified fiber guide body 1 in various modifications can be made of ceramics, glass, reinforced plastic composite or as molded parts of steel and the like.

The fiber-filament guide insert 5 is fixed, for example, by spraying in the remaining part of the guide body 1, the remaining part of the guide body 1 serving to secure the insert 2 and made of a thermoset, for example bakelite or ceramic and the like.

Claims (8)

An unified yarn guide body disposed between a combing roller with the combing roller and an open side of a spinning rotor, comprising a sensing wall followed by a sensed united fiber guide channel, the inlet opening of which is terminated by a separating edge in the unidirectional feed direction characterized in that it comprises an insert (5) formed of a different material than the remaining part of the guide body (1), wherein the insert (5) comprises at least a part of the fiber optic sensing wall (2), at least part of the sensed optic fiber guiding channel (4) and a separating edge (3). The fiber-threaded guide body according to claim 1, characterized in that the insert (2) of the fiber-threaded guide body (1) is made of a stainless metal alloy. The fiber-threaded guide body according to claim 1, characterized in that the insert (2) of the fiber-threaded guide body (1) is made of ceramic. The fiber-optic guide according to claim 1, characterized by: - characterized in that the insert (2) of the unified fiber guide body (1) is made of glass. The fiber-optic guide body according to claim 1, characterized in that the insert (2) of the fiber-optic guide body (1) is made of a reinforced plastic composite. The fiber-optic guide body according to claim 1, characterized in that the insert (2) of the fiber-optic guide body (1) is made as a molded part of steel. The fiber-optic guide body according to claim 1, characterized in that the remaining part of the fiber-optic guide body (1) is made of ceramic. The fiber-optic guide body according to claim 1, characterized in that the remaining part of the fiber-optic guide body (1) is made of a thermoset, for example bakelite.