JP2002088561A - Cleaning device for spinning nozzle surface and method for cleaning the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a device for cleaning a spinning nozzle surface capable of applying oil on the nozzle surface without stopping the spinning, and a method for cleaning the same. SOLUTION: This device for cleaning the spinning nozzle cap surface, equipped with a revolution means and rotating means, rotating and making a revolution of a metal blade 8 by the above revolution means and rotation means, and cleaning the cap surface 3a of the nozzle 3 by the above metal blade, is characterized by installing an oil-applying means OM preceding the metal blade and applying the oil on the cap surface of the spinning nozzle on a revolution orbit of the above metal blade.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a spinning nozzle base cleaning apparatus for cleaning a spinning nozzle base in a spinning machine, and to a cleaning method therefor.

[0002]

2. Description of the Related Art Conventionally, as a spinning nozzle base surface cleaning device for cleaning a spinning nozzle base surface in a spinning machine described above, for example, a revolving shaft, a revolving shaft revolving around the revolving shaft, and a rotating shaft. A blade for cleaning the spinning nozzle base surface by contacting the spinning nozzle base surface on the output side, wherein the spinning nozzle base surface is cleaned while rotating and revolving the blade. 2. Description of the Related Art A spinning nozzle base surface cleaning device is known.

[0003] According to the cleaning device for cleaning the spinning nozzle base surface of the spinning machine by the rotation-revolution type blade described above, the metal blade for cleaning the spinning nozzle base surface is a hard metal. If the oil film breaks on the spinneret nozzle surface, there is a problem that the nozzle surface is scraped and scratched.

As a method for solving the above-mentioned problem, when a spinning nozzle base surface is cleaned by a rotation-revolution type metal blade, during the cleaning period, the spinning nozzle base surface is constantly placed before the metal blade. It is extremely effective to apply a silicone oil or the like to form an oil film.

On the other hand, the spinning nozzle base surface may be cleaned in a spinning state without stopping the spinning in some cases. In this case, it is necessary to provide a thread guide preceding the metal blade on the orbit so that the spun yarn does not wind around the revolving metal blade.

[0006] However, during the cleaning of the spinning nozzle base surface, even if an oil application means is provided to constantly form an oil film on the base surface, the yarn entanglement is required to prevent the yarn from being entangled with the metal blade. Even if the guide means is provided, each of them must be provided on the orbit of the metal blade before and immediately before the metal blade. Has a problem that the thread guard guide is in the way.

[0007]

SUMMARY OF THE INVENTION Therefore, the present invention
When the spinning nozzle base surface of the spinning machine is cleaned by the revolution-type revolving blade, damage to the spinning nozzle base surface due to oil film shortage is prevented, and when the spinning nozzle surface is cleaned without stopping the spinning, the rotation is performed. An object of the present invention is to provide a spinning nozzle base surface cleaning apparatus and a cleaning method thereof configured so that the prevention of thread entanglement with the revolving blade can be achieved in cooperation with each other.

[0008]

In order to achieve the above object, the present invention specifically includes a revolving means and a rotating means, and the metal blade is rotated by the revolving means and the rotating means. In a spinning nozzle base surface cleaning device that cleans the base surface of the spinning nozzle with a metal blade, on the orbit of the metal blade,
An apparatus for cleaning a spinning nozzle base surface provided with oil applying means for applying oil to the base surface of the spinning nozzle prior to the metal blade is provided.

Further, according to the present invention, the oil applying means constitutes a spinning nozzle base surface cleaning device comprising a structure which also serves as a thread guard.

Further, according to the present invention, the revolving means and the revolving means are provided, and the metal blade is revolved by the revolving means and the revolving means, and oil is applied to the base surface of the spinning nozzle prior to the metal blade. In the spinning nozzle base surface cleaning method of cleaning the base surface of the spinning nozzle with the metal blade, the contact pressure of the metal blade with respect to the base surface is set to a low contact pressure in the first half of cleaning and to a high contact pressure in the second half of cleaning. It also constitutes a nozzle base surface cleaning method.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a spinning nozzle base surface cleaning apparatus and a cleaning method according to the present invention will be described in detail based on specific embodiments shown in the drawings. FIG. 1 shows an example of a basic configuration of a spinning nozzle base surface cleaning device according to the present invention. In particular, two spinning shafts having respective spinning shafts at two different radial positions from the orbital shaft are shown. It is a schematic perspective view showing an example of composition of a cleaning device provided with revolving blade means and a pair of oil application means, for example.

FIG. 2 shows a basic configuration example of a spinning nozzle base surface cleaning apparatus according to the present invention, and schematically shows a contact relationship between a rotation-revolution type blade means and an oil application means with respect to the spinning nozzle base surface. FIG.
Is a spinning nozzle base surface cleaning apparatus according to the present invention, wherein a first blade whose rotation axis is located at a first revolution path diameter (R1) and a rotation axis is located at a second revolution path diameter (R2). FIG. 10 is a schematic plan view showing a rotation-revolution trajectory of a cleaning area by a second blade and two oil application units.

On the other hand, FIG. 4 is a schematic view showing an example of a structure of a spinning nozzle base surface cleaning device according to the present invention, in which the cleaning device is movably combined on a guide rail extending along a spinning machine. FIG. 5 is a schematic plan view showing the configuration example shown in FIG. 4 as viewed from above.

First, a basic configuration example of the spinning nozzle base surface cleaning apparatus according to the present invention will be described in detail with reference to FIGS. 1, 2 and 3. The spinning nozzle base surface cleaning device 1 according to the present invention is a device for cleaning a nozzle base surface 3a of a spinning nozzle base 3 having a spinning nozzle hole 2, the nozzle being brought into contact with the nozzle base surface 3a. Rotating-revolving blade means BM for removing the deposits adhering to the base surface 3a, and oil applying means OM for applying silicon oil to the nozzle base surface 3a during cleaning by the rotating-revolving blade means BM.
And that which includes. In the present invention, the oil applying means OM also functions as a thread avoiding guide for preventing the thread from being entangled with the blade means when the blade cleaning operation is performed while the spinning is in operation.

In the specific embodiment shown in FIG. 1, the rotation-revolution type blade means BM includes a first blade mechanism BM1 which rotates and revolves with a rotation axis positioned at a first revolution locus diameter (R1). And a second blade mechanism BM2 that rotates and revolves with the rotation axis positioned at the second revolution locus diameter (R2).

In the rotation-revolution type blade means BM, the first and second blade mechanisms BM1 and BM
M2 has the same configuration, and the same components are denoted by the same reference numerals, and only one of them will be described. The rotation-revolution type blade means BM includes a rotation shaft drive system 4 having a rotation shaft 6, a rotation shaft drive system 5 having a rotation shaft 7, and a spinning nozzle base surface 3a on the output side of the rotation shaft.
And a blade 8 for elastically contacting the spinning nozzle base surface 3a by elastic contact through an elastic means 9.

In the specific embodiment shown in FIGS. 1 and 2, the revolving shaft drive system 4 includes a revolving drive motor M 1, and the revolving shaft 6 is driven by power transmission means 10. And is connected to the revolving drive motor M1 by power transmission. In the specific example shown in FIG. 1, the power transmission means 10 is constituted by a revolution drive gear 12 attached to a rotation shaft 11 of the revolution drive motor M1, and a revolution driven gear 13 meshed with the revolution drive gear 12. It is.

A slip ring 14 is combined with the orbital shaft 6, and a 24 V DC power supply line 15 is connected to the slip ring 14. Further, a rotary joint 16 is
Are combined, and the rotary joint 16 is used.
On the other hand, a silicon oil supply line 17 for supplying oil to oil applying means described later is connected.

On the output end side 6a of the revolving shaft 6, there is provided a rotating disk member 18 structured integrally with the revolving shaft 6. The first and second blade mechanisms BM1 and B
The rotation shaft drive system 5 in M2 and the constituent members of the oil application means described later are combined.

In the specific embodiment shown in FIGS. 1 and 2, the rotation shaft drive system 5 in the first and second blade mechanisms BM1 and BM2 includes one rotation drive motor M2. The rotation shaft 7 is operatively connected to the rotation drive motor M2 via power transmission means 19. In the specific examples shown in FIGS. 1, 2 and 3, the power transmission means 19 includes a rotation driving gear 21 attached to a rotation shaft 20 of the rotation driving motor M2, and a rotation driven gear engaged with the rotation driving gear 21. The gear 22 is used.

The first and second blade mechanisms BM1
-Rotating drive motors M2, M2 in BM2 and BM2
Is connected to a power supply line 15 of 24 VDC through a center hole 18a provided in the rotating disk member 18 and through the revolution shaft 6.
It is connected to the.

As shown in FIG. 3, the spinning nozzle base surface cleaning apparatus 1 according to the present invention includes a first cleaning zone CZ1 along the first revolution locus diameter R1 by the first blade mechanism BM1 and the first cleaning zone CZ1. The second blade mechanism BM2 is configured to perform cleaning by dividing into a second cleaning area CZ2 along a second revolution path diameter R2.

On the other hand, the oil application means OM comprises a nozzle support member 24 having a silicon oil discharge nozzle 23 at the upper end.
It consists of what contains. The nozzle support member 24
Is fixed to the rotating disk member 18, and the silicone oil discharge nozzle 23 is urged to expand in the axial direction of the nozzle support member 24 by elasticity applying means 25.

Between the nozzle support member 24 and the rotary joint 16 in the oil application means OM,
A silicone oil supply connection line 26 is provided,
The silicone oil supply connection line 26 connects between the rotary joint 16 and the nozzle support member 24 through a through hole 27 provided at a position off the rotation axis of the rotary disk member 18.

During the cleaning by the rotation-revolution type blade means BM, the oil application means OM holds the nozzle base surface 3a.
For applying silicone oil through the silicone oil discharge nozzle 23, and is provided with a discharge nozzle opening 23a formed in a generally flat linear shape. As shown in FIG. 3, the opening line of the discharge nozzle opening 23a in the silicon oil discharge nozzle 23 is appropriately set with respect to a line connecting the rotation shafts 7 in the first and second blade mechanisms BM1 and BM2. Preferably, it is inclined. During cleaning by means BM,
Oil applying means OM for applying silicone oil to the nozzle base surface 3a. In the present invention, the oil applying means OM functions as a yarn avoiding guide for preventing the yarn from being entangled with the blade means when the blade cleaning operation is performed while the spinning is in operation.

The spinning nozzle base surface cleaning apparatus having the rotation-revolution type blade means BM and the oil application means OM having the above-described structure is controlled by the spinning control means 28 as shown in FIGS. 4 and 5, for example. Self-propelled control is performed along the machine SM. In this case, the spinning nozzle base surface cleaning device 1 includes a rail 2 extending along the spinning machine SM.
9 is assembled on a carriage 30 that can run on the vehicle.

The bogie 30 equipped with the spinning nozzle base surface cleaning device 1 by the self-propelled control means 28 starts running after receiving a designation of a weight to be cleaned from the control device, and corresponds to the designated weight. When it arrives at the position, it is positioned and stopped. After the bogie 30 stops at a position facing the designated weight to be cleaned, the spinning nozzle base surface cleaning device 1 mounted on the bogie 30 is moved forward / backward by a forward / backward drive means 31 as shown in FIGS. Move along the direction of the arrow X, and are positioned immediately below the spinning nozzle base of the designated weight, and thereafter, the ascending and descending driving means 3
2, the rotation-revolution type blade means BM and the oil application means O in the spinning nozzle base surface cleaning device 1
M is brought into contact with the nozzle base surface 3a of the spinning nozzle base 3, and the nozzle base surface 3a is cleaned while applying silicone oil to the nozzle base surface 3a.

In this case, according to the spinning nozzle base surface cleaning method of the present invention, the contact pressure of the metal blade 8 with respect to the nozzle base surface 3a is set to a very low contact pressure in the first half of cleaning, and the nozzle pressure is set in the second half of cleaning. The contact pressure is set high enough to reliably remove the deposits and the like adhering to the base surface 3a.
By performing such control, in the first half of the cleaning, a complete oil film is formed on the nozzle base surface 3a, the frictional resistance between the metal blade 8 and the nozzle base surface 3a is reduced, and the metal blade 8 becomes slippery. The risk of damaging the base surface 3a is avoided. By applying a high contact pressure in the latter half of the cleaning, it is possible to reliably remove deposits and the like adhering to the nozzle base surface 3a without damaging them.

[0029]

According to the spinning nozzle base surface cleaning apparatus of the present invention having the above-described structure, oil is applied to the base surface of the spinning nozzle on the orbit of the metal blade prior to the metal blade. By providing the oil applying means for applying, it is possible to clean the nozzle base surface by the metal blade while forming an oil film on the nozzle base surface, thereby suppressing the occurrence of scratches on the spinning nozzle base surface and performing reliable cleaning. In this respect, it can be said that this works extremely effectively.

Further, according to the spinning nozzle base surface cleaning device of the present invention, oil application means is provided on the orbit of the metal blade in advance of the metal blade, and the oil application means is used to provide a thread guide and a thread guide. This makes it possible to prevent spinning-revolution type metal blades from being entangled as much as possible during cleaning of the nozzle die surface during operation of the spinning machine, and in that respect, it is extremely effective. It works.

Further, according to the spinning nozzle base surface cleaning method of the present invention, there is provided a revolving means and a revolving means, wherein the revolving means and the revolving means cause the metal blade to revolve on its own and precede the metal blade. When cleaning the base surface of the spinning nozzle with the metal blade while applying oil to the base surface of the spinning nozzle, the contact pressure of the metal blade against the base surface is set to a low contact pressure in the first half of cleaning, and to a high contact pressure in the second half of cleaning. By doing so, the frictional resistance between the metal blade and the nozzle base can be reduced, the metal blade becomes slippery, and it is possible to reliably remove deposits and the like adhering to the nozzle base without scratching. It can be said that it works very effectively.

[Brief description of the drawings]

FIG. 1 shows an example of a basic configuration of a spinning nozzle base surface cleaning apparatus according to the present invention. In particular, the spinning nozzle base face cleaning apparatus has respective rotation axes at two different radial positions from a revolution axis. Two rotating-revolving blade means, for example,
It is a schematic perspective view showing an example of composition of a cleaning device provided with a pair of oil application means.

FIG. 2 is a schematic view showing a basic configuration example of a spinning nozzle base surface cleaning apparatus according to the present invention, showing a contact relationship between a rotation-revolution type blade unit and an oil application unit with respect to the spinning nozzle base surface. FIG.

FIG. 3 is a spinning nozzle base surface cleaning apparatus according to the present invention, in which a first blade whose rotation axis is located at a first revolution trajectory diameter (R1) and a second revolution trajectory diameter ( R
FIG. 2B is a schematic plan view showing the rotation-revolution trajectory of the cleaning area with the second blade on which the rotation axis is located and two oil applying means.

FIG. 4 is a schematic side view showing an example of a structure of a spinning nozzle base surface cleaning device according to the present invention, in which the cleaning device is movably combined on a guide rail extending along a spinning machine. FIG.

FIG. 5 is a schematic plan view showing the configuration example shown in FIG. 4 as viewed from above.

[Explanation of symbols]

 SM spinning machine R1 First orbit diameter R2 Second orbit diameter 1 Spinning nozzle base cleaning device 2 Spinning nozzle hole 3 Spinning nozzle base 3a Spinning nozzle base 4 Revolution axis drive system 5 Rotation axis drive system 6 Revolution axis REFERENCE SIGNS LIST 7 rotation shaft 8 blade 9 elastic means 10 power transmission means M1 revolution drive motor M2 rotation drive motor BM rotation-revolution type blade means BM1 first blade mechanism BM2 second blade mechanism OM oil application means 11 revolution drive motor Rotation shaft of 12 Rotation drive gear 13 Revolution driven gear 14 Slip ring 15 Power supply line 16 Rotary joint 17 Silicon oil supply line 18 Rotating disk member 19 Power transmission means 20 Rotation shaft of rotation drive motor 21 Rotation drive gear 22 Rotation driven gear CZ1 First cleaning area CZ Second cleaning area 23 Silicon oil discharge nozzle 24 Nozzle support member 25 Elasticity providing means 26 Silicon oil supply connection line 27 Through hole 28 Self-propelled control means 29 Rail SM spinning machine 30 Dolly 31 Forward-retreat driving means 32 Up-down Driving means

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Keigo Yoshimoto, Inventor Ishikawa Prefecture Nomi-gun, Tatsunokuchi-cho, Kita-shi, 1 Toray Ishikawa Plant Co., Ltd. (72) Inventor Noboru Nishida 1-1-1, Sotsuyama, Otsu, Shiga Toray F-term in Shiga Plant (reference) 3B116 AA47 AB53 BA03 BA14 4L045 CB31

Claims (3)

[Claims] 1. A spinning nozzle base surface cleaning device, comprising: a revolving unit and a rotating unit, wherein a metal blade is rotated by the revolving unit and the rotating unit, and a base surface of a spinning nozzle is cleaned by the metal blade. An apparatus for cleaning a spinning nozzle base surface, comprising an oil applying means for applying oil to a base surface of the spinning nozzle prior to the metal blade on a revolution path of the blade. 2. The spinning nozzle base surface cleaning device according to claim 1, wherein said oil applying means comprises a structure which also serves as a thread guard. 3. A revolving means and a revolving means, wherein the revolving means and the revolving means cause the metal blade to revolve on its own axis, and apply the oil to a die surface of a spinning nozzle prior to the metal blade. A spinning nozzle base surface cleaning method for cleaning the base surface of a spinning nozzle by using a low contact pressure in the first half of cleaning and a high contact pressure in the second half of cleaning, wherein the contact pressure of the metal blade with respect to the base surface is high. Nozzle base surface cleaning method.