JPH0192432A - Metallic traveller for spinning machine - Google Patents

Abstract

PURPOSE:To obtain the title traveller coming into contact with yarn by point contact, having excellent heat dissipation effect, wear resistance and long life, by subjecting the yarn passage part of a metallic traveller circle to satin treat ment and providing the satin face with a ceramic coating layer. CONSTITUTION:The yarn passage part of a metallic traveller circle is subjected to stain treatment and the stain face is coated with a ceramic coating layer (preferably formed by plural layers of different kinds of ceramics) to give the aimed traveller. The yarn passage part is at least brought into contact with yarn. The part provided with the ceramic coating layer has surface roughness of preferably 1.5-3.5mu ten point average roughness RZ. A coating film of an epoxy resin containing a solid lubricant is preferably formed on the surface of the metallic traveller except the yarn passage part.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a metal trapeller for spinning machines, which is used in spinning machines, yarn twisting machines, etc., and has good abrasion resistance in the thread passage section.

[Conventional technology and its problems]

Conventionally, in a trapeller for a spinning machine, wear resistance of the yarn passing section is required under operating conditions in which the yarn passes through the yarn passing section at high speed or under operating conditions in which the yarn contains special additives. Therefore, in order to improve this abrasion resistance, trapellas are used in which the surface of the thread passage section is hardened with chrome plating or satin chrome plating. However, due to faster operating conditions and specialization of the yarn to be spun, conventional Metsuki Trapellers tend to wear out the yarn passing section early, causing deterioration in yarn quality, yarn fluff, and yarn breakage, resulting in stable spinning. is not obtained,
There are problems in that the lifespan is short and the number of times it takes to replace the trapper increases.

SUMMARY OF THE INVENTION An object of the present invention is to provide a metal trapeller for a spinning machine that solves the conventional problems and has significantly improved wear resistance of the thread passage section.

[Means for solving problems]

The present invention applies a satin finish to at least the surface of the thread passing portion that contacts the thread of a metal trapeller, and applies a PVD, C-VD, IVD, etc. (7) 1 physical/chemical vapor deposition method, etc. to the matte finished surface. As a result, a ceramic coating layer with excellent wear resistance and a hardness of HV 1500 to 2500 and a surface roughness of ten point average roughness RZ = 1.5 to 3.5μ (reference length 0.8μ) was formed. It is something.

The above-mentioned ceramic coating layer can be formed only on the yarn passing portion by masking, but it can also be provided on the entire trapella. Further, the ceramic coating layer may be formed into a plurality of layers made of different types of ceramics. Furthermore, in the case of a trapeller where the entire trapeller is made of a ceramic coating layer, if there is a risk that it may act as an abrasive on the ring surface with low surface hardness during high-speed operation, a second layer is added to the surface of the ceramic coating layer except for the thread passage area. Molybdenum sulfide, soft metal powder.

By forming an epoxy resin film containing a solid lubricant such as graphite or metal oxide, the problem of ring wear can be solved and the trapeller can run smoothly. In addition, the surface roughness of the trapeller surface is RZ = 1.5μ ~
The reason why the range is 3.5μ is that if it is less than 1.5μ, the coefficient of friction with the thread becomes large and the ceramic layer wears out early.
If it exceeds 5μ, the thread will be strained and damaged.

〔Example〕

An embodiment of the present invention will be described below based on the drawings.

Example 1 As shown in FIGS. 1(a) and 1(b), a hard steel wire is used to form a vertical trapeller 1 or horizontal trapella 2 of a desired shape.
The above trapella is given a satin finish, then PVD and CVD.
Yarn passage part 3 that comes into contact with at least the yarn by vapor deposition treatment such as
Titanium carbonitride, titanium nitride, titanium carbide, etc. with a thickness of 3μ to 15μ and a Vickers hardness of HV 1500 to H
A ceramic coating layer 4 of V 2500 is provided.

Then, a quenching treatment is performed to form the metal trapeller for a spinning machine of the present invention.

As shown in FIG. 2, the surface roughness of the trapeller provided with the ceramic coating layer is 10-point average roughness RZ = 1.
96μ (reference length O, a), center line average roughness RA =
0.35μ, maximum height RM A X = 2.52μ
Met.

In addition, the ceramic coating layer is made of the above-mentioned truncated silicon,
AI! , 03. A ceramic coating layer of Zr0a, SiC, or composite plating may be provided.

In addition, the reason why the thickness of the ceramic coating layer is set to 3μ to 15μ is that if the thickness exceeds 15μ, the processing time will be longer, and the overall hardness will increase, making it difficult to attach or remove the ring or causing cracks. This is because there are problems in the treatment process and handling such as drying, which is undesirable, and if it is less than 3μ, the life is insufficient and the desired wear resistance cannot be achieved.

In addition, when a ceramic coating layer is provided on the entire surface of the trapella that has been subjected to the matte finishing, solid lubricants such as molybdenum disulfide, soft lubricating metal powder, graphite, metal oxide, etc. are applied to the entire surface except for the yarn passing section 3. Epoxy resin liquid FJ5 containing
The metal trapeller for a spinning machine of the present invention may be constructed by forming the metal trapeller with a thickness of 2 μm to 10 μm. FIG. 3 shows the cross-sectional hardness distribution curves of the trapeller A of the present invention and the conventional matte chrome trappeller B formed in this manner.

A spinning test was conducted under the following conditions for comparison between the metal trapella A obtained by the present invention and the conventional satin chrome trappeller B.

Thread: Ester 40d Ring: Vertical sintered ring (5TSN140+nmφ
) Spindle rotation speed: 7000r, P, 1 trapella
: BSB No. 30 (Vertical Trapeller) As a result of the spinning test, the yarn passage part of the conventional Satin Chrome Metsuki Trapeller B was worn out in 2 to 3 hours and spinning became impossible.
It was confirmed that the metal trapper A of the present invention showed no wear even after 10 to 15 hours and had excellent wear resistance.

Example 2 As shown in FIGS. 4(a) and 4(b), a hard steel wire rod is formed into a vertical trapella 6 or horizontal trapella 7 of a desired shape,
A satin finish is applied to at least the yarn passing portion of the trapella that comes into contact with the yarn. Next, the above trapeller is T I C It s
+ Ha * CH41Na 450-900°C (preferably 700-900'
By performing chemical vapor deposition in step C), a multilayer of a titanium carbonitride layer 8 with a thickness of 2 to 20 μm and a titanium nitride layer 9 with a thickness of 3 μm or less is formed at least on the surface of the yarn passing portion 3 that comes into contact with the yarn. . The surface hardness of this multilayer ceramic coating l-10 is Vikalas hardness HV1900 to HV2500. Then, a quenching treatment is performed to form the metal trapeller for a spinning machine of the present invention.

Note that the ceramic coating layer 10 of the titanium carbonitride layer 8 and the titanium nitride layer 9 can be applied to the entire surface of the I-labeler circle, but it is sufficient if it is provided at least on the surface of the thread passage part that contacts the thread of the trapella. It can be applied to the required areas by performing masking treatment before treatment.

By the way, when a ceramic coating layer is provided on the entire surface of the trapeller circle, the entire surface except the yarn passage section 3 is coated with a solid lubricant-containing epoxy resin liquid [5] as in Example 1.
It forms the

The metal trapeller for spinning machines of this embodiment has the above-mentioned structure, and has a surface hardness of HV 1900 to 2500, which is much higher than conventional trapellers for spinning machines. The outermost titanium nitride layer has a slightly lower hardness than the titanium carbonitride layer, has a low coefficient of friction, is clean, and fits well with the ring. Furthermore, the ceramic coating layer and the base material are bonded by diffusion, and superior adhesion can be obtained compared to plating or physical vapor deposition. Further, since the ceramic coating layer is treated at medium humidity, coarsening of crystal grains of the base material and decarburization are prevented.

By the way, the ceramic coating layer of Example 2 is as follows:
As oxide type, ARa 02 , Z ro,.

Sin, Tie,, In, 03. ZnO.

Cr, O, Sin, Tie, MgO, Bed.

The, etc., as carbide type, SiC, TaC.

5i2Nn as a nitride-based material such as ZrC, WC, HfC, B, C, NbC, and C (diamond).

TiN, TaN, ZrN, AjjN, GaN, BN.

InN, etc., boride-based materials such as TiB, ZrB, etc.

It can be appropriately selected and used from HfB, etc.

〔Effect of the invention〕

Since the present invention provides a matte finish ceramic coating layer on at least the yarn passage part of the trapella circle, the yarn passage part is made of hard ceramic having a surface roughness RZ = 1.5μ to 3.5μ and a Vickers hardness of HV 1500 to HV 2500. It has an uneven surface, and the contact with the thread is point contact with a hard point with a smooth surface, which has an excellent heat dissipation effect.In particular, the wear of the thread passing part due to the decrease in the coefficient of friction with the thread is significantly reduced compared to conventional trapellas, making it highly resistant. This invention has excellent effects such as high wear resistance and long life.

[Brief explanation of the drawing]

Fig. 1 shows a metal trapeller for a spinning machine showing one embodiment of the present invention, (a) is a cross-sectional view of a vertical trapeller, (b) is a partially cutaway front view of a horizontal trapeller, and Fig. 2 is a surface roughness measurement of the same. Figure, 3rd
The figure is a cross-sectional hardness distribution curve diagram of the present invention and conventional metal trapeller.
FIG. 4 shows a metal trapeller for a spinning machine showing an embodiment different from the present invention, in which (a) is a sectional view of a vertical trapeller, and (b) is a sectional view of a horizontal trapeller. 1.6... Vertical trapella 2.7... Horizontal trapella 3... Yarn passage section 4, lO... Ceramic coating layer 5...
...Epoxy resin film containing solid lubricant 8 ...
Titanium carbonitride layer 9 Titanium nitride layer Fig. 1 (CI) (b) Fig. 2 + 2 (Ira 1 Vl 5) Fig. 3 Fig. 4. (CI) (b)

Claims (4)

[Claims] (1) A metal trapper for a spinning machine, characterized in that at least the yarn passing portion of the metal trapper circle that comes into contact with the yarn is treated with a satin finish, and the satin finish is provided with a ceramic coating layer. (2) The metal trapeller for a spinning machine according to claim 1, wherein the ceramic coating layer is formed of a plurality of layers of different types of ceramics. (3) The metal trapeller for a spinning machine according to claim 1, wherein the surface roughness of the portion provided with the ceramic coating layer is in the range of ten point average roughness RZ = 1.5 to 3.5μ. (4) The metal trappeller for a spinning machine according to claim 1, wherein a coating of epoxy resin containing a solid lubricant is formed on the surface of the metal trapper other than the yarn passing portion.