JP2734138B2 - Upper looper mechanism of sewing machine - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to an upper looper mechanism of a sewing machine.

[Prior art] Conventionally, an upper looper mechanism of an industrial overlock sewing machine has an upper looper arm that swings in synchronization with the vertical movement of a sewing needle, an upper looper fixed to a distal end portion, and a lower end portion connected to the upper looper arm. A substantially shaft-shaped upper looper mounting base rotatably connected to the sewing machine housing and rotatably supported by the sewing machine housing, and the upper looper mounting base is slidably inserted in a direction orthogonal to the rotation axis. The upper looper guide is provided with a sliding hole. The upper looper mounting base and the upper looper guide are made of a metal material such as alloy steel or ordinary carbon steel. If necessary, quenched chrome (Cr) is used. , Nickel (Ni) and other hard plating.

When the upper looper is driven, the upper looper mount is given its axial movement and rotational movement. Therefore, large bending stress is applied to the upper looper mount,
In addition, the upper looper guide for guiding the inner surface is subjected to a tensile stress in the direction of pushing and expanding the sliding hole, in addition to the sliding resistance of the inner surface, so that a very high load causes severe wear. for that reason,
At present, hard chromium (Cr) plating has been applied. Even after such treatment, seizure or the like still occurs. Therefore, an upper looper mounting base and an upper looper guide formed of ceramics having excellent wear resistance have been proposed.

[Problems to be Solved by the Invention] However, when the upper looper mount and the looper guide are formed of ceramics, as described above, a large bending stress is generated in the elongated rod-shaped upper looper mount, and the upper looper guide is formed. Since a large tensile stress acts on, ceramics are hard and have good sliding characteristics, but brittle ceramics have a risk of breaking. It is also conceivable to form the upper looper guide with a metallic material and to form a hard ceramic film on the surface in order to prevent destruction, but the diameter is extremely large like the sliding hole where the upper looper mount slides. It is technically very difficult to form a ceramic film in a small and long hole.

The present invention has been made in order to solve the above-described problems, and does not cause seizure or abnormal wear such as a metal material, and has a sliding property equivalent to that of ceramics, and even when a higher stress is applied. The purpose is to provide an upper looper mechanism that does not break like ceramics.

Means for Solving the Problems In order to achieve this object, according to the present invention, an upper looper arm that swings in synchronization with the vertical movement of a sewing needle, an upper looper is fixed to a distal end portion, and a lower end portion has the upper end. A substantially shaft-shaped upper looper mounting base rotatably connected to the looper arm, and rotatably supported by the sewing machine housing, and the upper looper mounting base slidable in a direction orthogonal to the rotation axis thereof; An upper looper guide having an upper looper guide formed with a sliding hole to be inserted into the upper looper guide, wherein the upper looper mounting base is formed of metal and a hard ceramic film is formed on a sliding portion thereof. After forming a porous hard coating on the sliding part, impregnating the surface with a fluororesin,
It is fused.

[Operation] The upper looper mount of the present invention having the above-described structure is formed of a metal material having high toughness, and a hard ceramic film is formed thereon, so that good sliding characteristics without breaking. Is shown. On the other hand, the upper looper guide is similarly formed of a metal material with high toughness, a porous hard film is formed on its sliding part, and its surface is impregnated with and fused with a fluororesin. Even if stress is applied, it does not break and does not wear and shows excellent sliding characteristics.

[Embodiment] An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a sectional view of the upper looper mechanism of the industrial overlock sewing machine according to the present embodiment. At the right end, the upper looper arm 2 is fitted to the upper looper shaft 1 which rotates in synchronization with the vertical movement of a sewing needle (not shown), and is fixed by bolts 3. Further, the upper looper arm 2 is rotatably connected at the left end to a lower end bifurcation of a hollow shaft-shaped upper looper mount 5 via an upper looper arm shaft 4. The upper looper guide 8 has a cylindrical shape, is rotatably supported by an upper looper guide metal 9 fixed to a min housing (not shown), and has its axial movement restricted.
The upper looper guide 8 has a sliding hole 12 in a direction orthogonal to the axial direction, and the upper looper mount 5 is inserted through the sliding hole 12 so as to be able to reciprocate in the axial direction. I have. An upper looper 6 is fixed to the upper end of the upper looper mount 5 with screws 7.

On the surface of the sliding portion of the upper looper mount 5 with the upper looper guide 8, a chromium oxide (Cr ₂ O ₃ ) ceramic film 11 is formed on a chromium molybdenum steel base material 10 to a thickness of 50 to 500 μm. And is formed by injection. The upper looper guide 8 has an aluminum alloy 21 as shown in a partially enlarged sectional view of FIG.
It has a porous hard anodic oxide film (hard alumite layer) 22 on its inner and outer surfaces, and further has a fluorine resin 23 on the surface pores of the hard anodic oxide film 22.
Is impregnated and fused.

Anodization is performed by using an object to be treated as an anode in an electrolytic solution and generating a relatively thick uniform porous oxide film by an oxidation reaction on the entire surface of the anode. It can be easily formed in an elongated hole. Also,
Further, the impregnation of the fluororesin is performed by immersing the object in the fluororesin solution, so that the holes of the hard anodic oxide film 22 can be uniformly impregnated.

In the upper looper mechanism configured as described above, the upper looper shaft 1 rotates at a certain rotation angle in synchronization with the vertical movement of the sewing needle (not shown). The arm 2 swings integrally. This allows
The upper looper mount 5 connected to the swinging end of the upper looper arm 2 reciprocates in the sliding hole 12 of the upper looper guide 8 and rotates at a fixed angle about the axis of the upper looper guide 8. Becomes By such an operation, the upper looper 6 fixed to the upper end of the upper looper mount 5 reciprocates in the upper left direction in the drawing.

Due to such a motion, a large bending stress is applied to the upper looper mount 5, and the upper looper guide 8 for guiding the bending stress.
In addition to the sliding resistance of the inner surface, a tensile stress acts in the direction in which the sliding hole 12 is pushed and spread, but the base material 10 of the upper looper mount 5 is formed of a highly tough murommolybdenum steel. Hard chromium oxide (Cr ₂ O ₃ ) ceramic coating 1
Since 1 is formed by thermal spraying, it shows good sliding characteristics without breaking. On the other hand, the upper looper guide 8 is formed of a tough aluminum alloy 21 and its sliding portion has a porous hard anodic oxide film (hard alumite layer) 22.
Are formed, and the surface thereof is impregnated with and fused with the fluororesin 23. Therefore, even if a high load stress is applied, it does not break and does not wear and shows excellent sliding characteristics.

Although the present embodiment has been described in detail above, various embodiments can be considered without departing from the spirit of the present invention, and all are effective. For example, a chromium oxide (Cr ₂ O ₃ ) -based ceramic film is applied on a steel base material on the surface of the sliding portion of the upper looper mount 5 that slides with the upper looper guide 8.
The upper looper guide 8 is formed by applying hard electroless nickel-phosphorus (Ni-P) plating on the inner and outer surfaces of a steel base material, and impregnating and fusing the surface holes of the plating layer with a fluorine resin. You may.

[Effects of the Invention] As is clear from the above, according to the upper looper mechanism of the present invention, the upper looper mounting base is formed of metal, and the hard ceramic film is formed on the sliding portion thereof. After forming the looper guide with metal and forming a porous hard film on the sliding part, the surface is impregnated and fused with fluororesin, so it does not cause seizure and abnormal wear like metal material, An analogous characteristic equivalent to that of ceramics can be obtained, and an excellent effect of not breaking like ceramics even when a higher stress is applied can be obtained.

[Brief description of the drawings]

1 and 2 show an embodiment of the present invention. FIG. 1 is a sectional view of an upper looper mechanism of an industrial overlock sewing machine, and FIG. 2 is a partially enlarged view of a surface of an upper looper guide. It is sectional drawing. In the figure, 5 is an upper looper mount, 8 is an upper looper guide, 11 is a chromium oxide ceramic film, 22 is a hard anodic oxide film,
23 is a fluororesin.

Claims (1)

(57) [Claims] An upper looper arm (2) that swings in synchronization with the vertical movement of a sewing needle, an upper looper (6) is fixed to a tip portion, and a lower end portion is rotatable with respect to the upper looper arm (2). A substantially shaft-shaped upper looper mount (5) connected to the sewing machine housing and rotatably supported by the sewing machine housing, and the upper looper mount (5) slidable in a direction orthogonal to the rotation axis thereof. An upper looper guide (8) having a sliding hole (12) formed therein, wherein the upper looper mount (5) is formed of metal, and a hard ceramic is formed in the sliding portion. After forming the film (11), the upper looper guide (8) is formed of metal, a porous hard film (22) is formed on the sliding portion, and then a fluororesin (23) is formed on the surface thereof. An upper looper mechanism of the sewing machine characterized by impregnation and fusion.