LT3147B - Device for oiling of moving thread - Google Patents

Abstract

This invention is used in processing multithread chemical treads, moving at high speed.The purpose of this invention is to decrease the rent of the thread during the greasing.The device has a thickener feeding system, which consists of the pipe 1 and the chamber 2, which supplies the thickener to the surface 3 of the thread 11 touching the device, and its roughness above crack 7 is smaller than below the crack, through passage 6 with crack 7 present in the central part of the device square to the thread direction, and the thickener collector 9 under the device. The surface in contact with the thread consists of concurrent, uniform, semicircle, cylindrical body surfaces, with diameters of a maximum of 1.0-3.0 mm, and the general tangent makes a semi-ellipse when its smaller axis is coincident with the longitudinal axis of the passage with the crack.

Description

The present invention relates to the production of chemical yarns and is used in the processing of multi-stranded chemical yarns traveling at high speed.

There is a known device for degreasing a thread having a grease feed system that feeds the grease through a channel with a slot in the central portion of the device perpendicular to the direction of motion of the suture to the device and a grease collector underneath the device / 26, 1985). The tangent surface line is in the form of symmetrical arcs with an angle of 2 to 9. The arcuate contact surface is in contact with the straight inclined walls of the device through symmetrical circuits. The radius of the roundings is much smaller than the radius of the arcs, the rods being threaded, enveloping the touch with rounding.

I will not touch

The disadvantage of this device is uneven greasing of the suture, which is due to the increase in tension fluctuation due to the fracture of the straight trajectory of the suture and the high smoothness of the contact surface below the tear. This increases thread deficiency and wear.

The device for moving thread fat, selected in prototype, has a grease delivery system that supplies the grease through a channel with a slot in the central portion of the device perpendicular to the direction of motion, on the surface of the thread contact with the device, and a grease collector underneath the device. In this device, in order to improve the quality of the grease and to reduce thread cracking in the greasing process, the contour of the surface of contact with the thread is elliptical and the minor axis of the ellipse coincides with the longitudinal axis of the slit channel. The surface roughness above the crack (Ra = 0.025 - 0.05 µm) is less than the surface roughness below the crack (Ra = 0.5 - 1.0 μιη) (SU a.l. No. 1484839, D01H 13/30, 1987).

The disadvantage of a given device is the severe shortage of multi-stranded chemical yarns traveling at high speed.

The object of the present invention is to reduce the deficiency of thread during fat treatment. This object is achieved when a moving thread degreasing device having a grease delivery system which supplies the grease through a channel with a slot in the central portion of the thread has a contact surface with a roughness (Ra = 0.025 - 0.05 μητ) on the thread. smaller than the slit below (Ra = 0.5 - 1.0 µm), and a lubricant collector located beneath the contact surface, the contact surface of the device is composed of concentric intersecting surfaces of uniform semicircular cylindrical bodies with a common tangent to a minor axis overlapping with longitudinal axis of channel with slit.

Elliptical thread motion trajectory according to device tangent to increased tapered tension of thread and thread trajectories to reduce its oscillation due to refractive angle, while increased curvature at the top and bottom of the surface prevents tangential contact between the thread and thread and reduces thread grease uniformity . The smooth surface above the slit, according to research, reduces the coefficient of friction and wear of the non-greasy thread, while the increased roughness below the slit improves the smoothness of the grease and reduces the coefficient of friction of the high speed thread. Contact surface relief consisting of concentric intersecting surfaces of uniform semicircular cylindrical bodies with a common tangent to a semicircle whose minor axis coincides with the longitudinal axis of the channel allows a significant reduction in the contact area of the filament, which in turn reduces the wear on the greasy filament. , and also significantly reduces the coefficient of friction of the high speed thread. Thread shortage is reduced by optimum diameters of concentric intersecting uniform semicircular cylindrical body surfaces.

The prototype's patented moving filament greasing device is characterized by the fact that the contact surface is composed of concentric intersecting surfaces of uniform semicircular cylindrical bodies with a common tangent to a half axis whose minor axis coincides with the longitudinal axis of the slit channel.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic diagram of the device, FIG. 2 - Fig. 1 is a section A-A in FIG. 3 is a sectional view of the contact surface. Graph of the dependence of the coefficient of friction on the diameter of the thread.

The device has a grease supply system consisting of a tube 1 and a chamber 2. The front part 4 of the body 5 has a contact surface 3 on which the grease enters by a channel 6 through a slot 7 in the central part of the contact surface perpendicular to the direction of movement. The front housing 4 is made of ceramic and is interchangeable.

The channel 6 widens to the slit (Fig. 3).

The housing 5 is provided with distinctive flanges 8.

Below the device is a grease collector 9 with a porous member 10 for collecting and returning excess grease and spills to the circulation system.

The contact surface consists of concentric intersecting surfaces of uniform semicircular cylindrical bodies with a common tangent to a half-ellipse whose minor axis coincides with the longitudinal axis of the channel (Fig. 3).

The curve obtained at the intersection of the section with the tangent surface 3 can be described by the elliptic equation: x / a + y ² / b ² = 1.

Ratio b / a = 1/3. This ratio reduces the angle of refraction of the trajectory of motion and increases the curvature of the lower and upper parts of the contact surface (BbirOACKMMM.il. CnP3BO * -lHMK ΠΟ BblCllISM Μ3ΤβΜ3ΤΜΚΒ. M .: HayKa, 1977, 56-60). parts are 60 ° This angle improves the drainage of excess grease into the circulating system.

The roughness of the contact surface above slit 12 is equal to Ra = 0.025 - 0.05 µm and below slit 13 is Ra = 0.5 1.0 µm (SU al. No. 1484839). Such contact surface roughness values selected in order to reduce friction and wear offers (MJ Schick Charakteristics Surface of Fibers and Textiles. - New York .: 1975, 26-30 in half. IlaiKaPayCKac and ³ · ³ · MaTyKOHMC AB 1 / bMeHeHMe κο3ΦΦμι | μβητ3 τρθΗΜη ηβοαηοPOAHblX KMTeM B riPOøeCCe MX BbIPaČOTKM. (TeKCTMAbKaa ΤΒΧΗΟΑΟΓΜΗ m MaTePMaAOBeAeHMe: Te3. aoka. pecn. κοΗφ. - K., 1987, 6-7.)

The diameters of concentric intersecting semicircular cylindrical bodies forming the contact surface were selected based on data published in the paper (E. Pažarauskas. Prediction of Frictional Properties of New Structure Yarns for Modern Processing Technologies).

K., 1992, p. 250). Here, the dependencies of the friction coefficient on the frictional body diameter are determined according to a known methodology (KoČAilKOB A.M.M.A. AACOPaTOPHblH npaKTMKyM no TeKCTHAbHOMy MaTepnaAOBeĄ6Hnio - M. 1986, 544 p.).

From the data presented, it is clear that the minimum values of friction coefficients for the non-fused and non-fused filaments are obtained with a friction body diameter of 1.0 - 3.0 mm. Similar patterns apply to other artificial yarns (riattapaycKac J „3. MaiyKOHHc A. B. L43MeHeKHe κο ^ φφκΐ | ΜeHTa ΗΘΟΑΗΟΡΟΑΗΝΧ ΗΘΟΑΗΟΡΟΑΗΝΧΗΘΟΑΗΟΡΟΑΗΝΧκTekl B K.. 1987-7.) Therefore, the diameters of the surfaces of concentric intersecting semicircular cylindrical bodies in a given device are limited to 1.0 - 3.0 mm.

Table 1

Friction Coefficient Dependence on Friction Body Diameter (E. Pažarauskas. Prediction of Frictional Properties of New Structure Yarns for Modern Recycling Technologies. - K., 1992, p. 250)

Friction of the body Unbleached Greased TAC diameter, mm TAC 11 tex thread 11 tex thread 0.4 0.32 0.25 0.6 0.28 0.23 1.0 0.20 0.135 2.0 0.19 0.12 3.0 0.20 0.14 5.0 0.26 0.18 10.0 0.28 0.218 30.0 0.35 0.225 50.0 0.40 0.25

The data presented (Fig. 4) show that the minimum values of friction coefficients for greased and ungreased yarns are obtained with a friction body diameter of 1.0 GB 3147 B

3.0 mm. Similar patterns are common to other artificial yarns. Therefore, the diameters of concentric intersecting semicircular cylindrical bodies in a given device are limited to 1.0 - 3.0 mm.

The device works as follows. At a constant pressure, the grease is fed through the tube 1 into the chamber 2, where it is evenly distributed through the channel 6 over the entire slit 7 and is applied to the thread 11. The excess grease flows through the porous member 10 to the grease collector 9 circulation system.

Claims (3)

DEFINITION OF INVENTION A moving thread degreasing device with a lubricant feed system that · feeds the non-lubricating thread 5 contacting device surface having a roughness above the slit (Ra = 0.025 - 0.05 pm) less than a slit below the gap (Ra = 0.5 to 1.0 µm), through a slit channel and a grease collector below the contact surface in that the contact with The surface of the 10 filaments is formed by intersecting surfaces of uniform semicircular cylindrical bodies with diameters limited to 1.0 to 3.0 mm, and the common tangent forms a half-ellipse whose minor axis coincides with the longitudinal axis of the slit channel.