TW200305652A - Stainless steel, slide fastener and but tons suitable for use with needledetector - Google Patents

Abstract

A stainless steel suitable for use with a needle detector, that has a magnetic permeability of 1.005 or less in a magnetic field of 1 kOe, and a magnetization of 550 memu/g or less in a magnetic field of 18 kOe. The steel comprises, in mass%, 0.01 to 0.15% of C, 0.1 to 5% of Si, 1 to 10% of Mn, 8 to 25% of Ni, 14 to 30% of Cr, 0.01 to 0.25% of N, and the remainder Fe and impurities, wherein an Ni equivalent, which is defined as Ni equivalent = Ni + 0.6Mn + 9.69(C+N) + 0.18Cr - 0.11Si2, has a value of 19 or more, and may further contain at least one selected from among a) 0.5 to 3% of Cu, b) 0.05 to 0.5% of at least one element selected from Nb, W and V, and c) 0.1 to 2% of Mo. The stainless steel enables reliable detection of whether broken needles have got into clothing or the like during sewing, and there can be a slide fastener and buttons that satisfy required properties and can be used with needle detectors due to constituent components thereof being manufactured using the stainless steel.

Description

200305652 (1) 玫、發明說明 【發明所屬之技術領域】 本發明係有關於一種不會造成檢針器故障而適於使用 檢針器的不鏽鋼，以及一種滑動固定件及鈕扣，其等可供 裝設在衣物、鞋類或類似之物上，且適合配合檢針器使用 【先前技術】 習用上，此種形式的不鏽鋼，如日本專利公開第6-4905B號和日本專利公開第6-4 1 624B號中所揭露的不鏽 鋼等，係爲已知的。在前一專利公開案中，其揭露一種具 有極佳彈性的非磁性不鏽鋼，而在後一專利公開案中，其 揭露一種加工硬化的非磁性不鏽鋼，其在冷作加工硬化後 仍能保持爲非磁性。但是，雖然前述專利公開案中的不鏽 鋼具有某種程度的非磁性，而使其揭露爲具有1 . 0 1或更 小的導磁率，其磁性程度仍大於其他合金的磁性程度，例 如銅合金和鋁合金，因此其會造成一項困擾，即是因爲在 縫紉作業中斷裂的針是相當的小，因此僅具有小的磁性， 而前述專利公開案的不鏽鋼，就配合於用來偵測是否有斷 針或其碎片殘留於衣物或類似之物內的檢針器而言，其係 不足的。另一方面，日本專利公開第2000-25 68 1 3 A號中 所揭露的合金是已知可做爲供個人裝飾使用的合金，其不 會造成檢針器故障。該專利公開案揭露該合金可以應用在 多種的個人裝飾用途上，例如鈕扣、滑動固定件、匙環式 -7- (2) (2)200305652 耳環、領帶扣、胸針和項鍊，以及構成該等個人裝飾物的 零組件。但是，該專利公開案中所揭露的合金是一種以 Zr或Ti爲主要成份的合金，因此自目前所使用之合金的 角度來看，是一種特別的合金，此外其所具有的一項缺點 在於無法輕易地製造，因爲其合金結構必須要加以控制之 。再者，在滑動固定件或鈕扣係僅使用此種合金製造的情 形下，其將可得到足供配合於檢針器使用的能力，但是滑 動固定件和鈕扣等係由許多不同的零組件所組成的，且每 一零組件均係依照各自所需的特性來加以製造的。若滑動 固定件或鈕扣的所有的不同的零組件均係由此種合金製做 的話，這些零組件中的某些將會缺乏所需的特性。詳細地 說，在零組件必須具有彈性的情形中，使用前述合金是會 有問題的，因此必須要使用傳統的不鏽鋼或類似材料；因 此會變成無法在縫紉作業中對是否有斷針跑進衣物或類似 之物內加以正確地偵測。 【發明內容】 因此本發明的目的是要提供一種不鏽鋼，其可使其能 在縫紉作業中正確地偵測出是否有斷針跑到衣物或類似之 物內，以及一種滑動固定件和鈕扣，其可滿足於滑動固定 件和鈕扣所需之特性，且因爲該滑動固定件和鈕扣或其構 成零組件係由上述的不鏽鋼所製成的，故能配合檢針器使 用。請注意，根據本發明的不鏽鋼不僅可以使用在適於使 用檢針器的滑動固定件和鈕扣上，亦可使用在不需磁性的 -8- 200305652 (3) 用途上，例如槍的零件或磁性感應器之外殼等構件上。 本發明的構成如下。 (1) 一種適於使用檢針器的不鏽鋼，其在1千奧斯 特（kOe)之磁場內具有1.005或更低的導磁率，以及在18 千奧斯特（kOe)磁場內爲5 5 0 memu/g或更低的磁化程度。 (2 )根據上述（〗）之適於使用檢針器的不鏽鋼，進 一步具有1.2公釐直徑鐵球或更小者的針檢測性能。 (3 )根據上述（1 )之適於使用檢針器的不鏽鋼，進 一步具有0 · 8公釐直徑鐵球或更小者的針檢測性能。 (4) 根據上述（1) 、（2) 、（3)中任一者之適於 使用檢針器的不鏽鋼，在質量百分比上包含有0.01至 0. 1 5%的 C、0. 1 至 5%的 Si、1 至 10%的 Μη、8 至 25%的 犯、14至30%的（：1*、0.01至0.25%的1^，其餘爲？6及雜 質，其中定義爲 Ni 當量 sNi + OJMn + LGMC + TO + O.lSCr-o.llSi2 的 Ni 當 量具有 19 或更大 之値。 (5 )根據上述（4 )之適於使用檢針器的不鏽鋼，在 質量百分比上進一步包含有至少一種自包含有 a) 0.5至 3%的Cu、b) 0.05至0.5%的至少一種選自包含有Nb、W 和V之族群的元素、以及c) ο」至2%的Mo等的族群中 選出的添加元素。 (6)根據上述（1)至（5)中任一者之適於使用檢 針器的不鏽鋼’其中該針檢測性能是在進行60%縮減比的 冷軋作業後仍加以維持。 (7 ) —種適於使用檢針器的滑動固定件，包含有多 -9- (4) (4)200305652 個元件，裝設在一對固定帶之互相面對的邊緣部位上，擋 件，裝設在該等元件之二側末端，以及一銜合器，可開啓 及關閉該等元件，其中至少有一個自包含有該等元件、擋 件和銜合器，以及其構成零組件之族群內選出的構件是由 適於使用檢針器，且在1千奧斯特（kOe)之磁場內具有 1.005或更低的導磁率，以及在18千奧斯特（kOe)磁場內 爲5 5 0 memu/g或更低的磁化程度的不鏽鋼所製成的。 (8 )根據上述（7 )之適於使用檢針器的滑動固定件 ，具有1.2公釐直徑鐵球或更小者的針檢測性能。 (9 )根據上述（7 )之適於使用檢針器的滑動固定件 ，具有0.8公釐直徑鐵球或更小者的針檢測性能。 (1 〇 )根據上述（7 )至（9 )中任一者之適於使用檢 針器的滑動固定件，其中該滑動固定件的銜合器包含有一 銜合器本體、一個設置在該本體上的拉片，以及一個可藉 由該拉片之操作而擺動，且可由推壓裝置施加之力量而被 朝向該銜合器本體側推壓的閂爪，至少該推壓裝置係由適 於使用檢針器的不鏽鋼所製成的。 (1 1 )根據上述（1 0 )之適於使用檢針器的滑動固定 件，其中該銜合器之推壓裝置是一個包含該閂爪的彈簧， 或是一個可設置在該閂爪上的彈簧。 (1 2 ) —種適於使用檢針器的鈕扣，包含有一個設置 在布料前表面上的前表面構件，以及一個設置在布料反向 表面上的基底構件，其係藉由將該前表面構件與該基底構 件嚙合在一起而固定在該布料上，其中至少有一個自包含 -10- (5) (5)200305652 有該前表面構件和基底構件，以及其構成零組件之族群內 選出的構件是由適於使用檢針器，且在1千奧斯特（kOe) 之磁場內具有1.〇〇5或更低的導磁率，以及在18千奧斯 特（kOe)磁場內爲5 5 0 memu/g或更低的磁化程度的不鏽鋼 所製成的。 (1 3 )根據上述（1 2 )之適於使用檢針器的鈕扣，具 有1.2公釐直徑鐵球或更小者的針檢測性能。 (1 4 )根據上述（1 2 )之適於使用檢針器的鈕扣，具 有〇. 8公釐直徑鐵球或更小者的針檢測性能。 (1 5 ) —種適於使用檢針器的鈕扣，包含有一對鈕扣 ，包含有一公鈕扣，其係固定在布料上，並且在其一表面 上具有一個向外突出的鼓起頭部，以及一母鈕扣，係固定 在布料上，且具有一個凹入部，其係與該公鈕扣的鼓起頭 分開而可與之嚙合，其中至少有一個自包含有該公鈕扣和 該母鈕扣，以及其構成零組件之族群內選出的構件是由適 於使用檢針器，且在1千奧斯特（kOe)之磁場內具有 1.005或更低的導磁率，以及在18千奧斯特（kOe)磁場內 爲5 5 0 m e m u / g或更低的磁化程度的不鏽鋼所製成的。 在整個說明書內，除非有特別註明，否則構成此不鏽 鋼的各元素的成份均是以整個不鏽鋼的質量百分比來加以 表示的。 【實施方式】 以下是本發明之不鏽鋼的詳細說明。 -11 - (6) (6)200305652 本發明的不鏽鋼在1千奧斯特（kOe)之磁場內必須具 有1.005或更小之導磁率，且在18千奧斯特（k〇e)之磁場 內則須具有55〇 memu/g或更小的磁化程度，這些係要使 得此不鏽鋼能夠配合於檢針器使用，此係本發明的目的。 藉由滿足這些條件，其將可提供適於使用檢針器的產品、 零組件及材料，而此可供檢針器能夠正確地運作，以搜尋 在縫紉作業中跑到布料或類似之物內部的斷針及其碎片， 而且不會在此不鏽鋼運用在個人裝飾用產品上或是做爲個 人裝飾用產品之零組件時，例如做爲滑動固定件及鈕扣， 造成檢針器的故障。此外，如果其在1千奧斯特（kOe)之 磁場內必須具有1.003或更小之導磁率，且在18千奧斯 特（kOe)之磁場內須具有440 memu/g或更小的磁化程度， 則前述的效果將可更顯著。 至於針檢測性能，就可以測量出因爲金屬以固定速度 切割磁通量時所致之磁通量密度改變之量的靜態磁場型式 檢針器而言，對應於0.8公釐直徑鐵球的磁通量密度改變 量是設定爲1 00至1 20的參考値（標示値），此値在對欲 加以測量之物體加以進行測量時，是做爲針檢測値，而估 算作業則是依據相對於此參考値之數値來進行的。詳細地 說，如果欲測量之物體所得之針檢測値是等於或小於該參 考値，則針檢測性能即以“ 0.8公釐直徑鐵球或更小者” 代表之，若欲測量之物體的針檢測値是等於1.2公釐直徑 鐵球的針檢測値或更小者，則針檢測性能以“ 1.2公釐直 徑鐵球或更小者”代表之。在此種方式中，針檢測性能係 -12- (7) (7)200305652 以0.8、1.2、1.5公釐直徑鐵球或更小者來代表之；在針 檢測性能是〇 . 8公釐直徑鐵球或更小者的情形中，表示說 即使是縫紐作業中所用之最小特殊尺寸的斷針亦可加以偵 測到，而在針檢測性能爲1.2公釐直徑鐵球或更小者的情 形中，表示說其可以正確地偵測到一般使用之尺寸的斷針 。在本發明中，針檢測性能比較好的是1.2公釐直徑鐵球 或更小者，最好的是〇· 8公釐直徑鐵球或更小者。在本發 明中，在使用合金的情形下，欲測量之物體係一件尺寸爲 15公釐 X 15公釐 X 0.4公釐的合金物件，而此欲測量物 體之針檢測値是依據此欲測量物體垂直通過磁通量而測得 的結果。此外，在稍後要說明的滑動固定件或鈕扣的情形 中，該欲測量物體是該產品或其零組件，且該欲測量物體 之針檢測値是依據此欲測量物體垂直通過磁通量而測得的 結果。 下列的成份係所用之不鏽鋼的較佳成份。也就是說， 質量百分比中包含有〇.〇1至0.15%的C、0.1至5%的Si 、1 至 10% 的 Μη、8 至 25% 的 Ni、14 至 30% 的 Cr、0.01 至0.25%的N，其餘爲Fe及雜質，而其中Ni的當量是定 義爲 Ni 當量=Ni + 0.6Mn + 9.69(C + N) + 0.18Cr-0.11Si2，具有 1 9或更大的數値者，所構成的不鏽鋼是有效的。 C，如同N —樣，是一種有力的沃斯田相穩定元素， 而且也是一種可用於有效改善彈性性能的元素’因此C含 量的低限是設爲〇. 〇 1 %。但是c是一種可造成抗蝕能力下 降的元素，且如果產生過量的c固態溶液，則此不鏽鋼的 -13- (8) (8)200305652 加工性會因爲固態溶液中C之量的增加而致的硬化而受到 損害，因此在考量於此的情形下，C含量的上限是定爲 0.15%。200305652 (1) Description of the invention [Technical field to which the invention belongs] The present invention relates to a stainless steel suitable for the use of a needle detector without causing a malfunction of the needle detector, and a sliding fixture and a button, which are provided for It is installed on clothing, footwear, or the like, and is suitable for use with a needle detector. [Prior art] Conventionally, this type of stainless steel, such as Japanese Patent Publication No. 6-4905B and Japanese Patent Publication No. 6-4 The stainless steel and the like disclosed in No. 1624B are known. In the former patent publication, it discloses a non-magnetic stainless steel with excellent elasticity, while in the latter patent publication, it discloses a work-hardened non-magnetic stainless steel, which can remain as Non-magnetic. However, although the stainless steel in the aforementioned patent publication has a certain degree of non-magnetism, and it is disclosed as having a magnetic permeability of 1.0 or less, its magnetic degree is still greater than that of other alloys, such as copper alloys and Aluminum alloy, therefore, it will cause a problem, that is, because the needle that is broken in the sewing operation is quite small, so it has only a small magnetism. The stainless steel disclosed in the aforementioned patent is used to detect whether there is any Needle detectors where broken needles or fragments remain in clothing or the like are insufficient. On the other hand, the alloy disclosed in Japanese Patent Laid-Open No. 2000-25 68 1 3 A is an alloy known to be used for personal decoration, which does not cause malfunction of the needle detector. The patent publication reveals that the alloy can be used for a variety of personal decorative purposes, such as buttons, slide fasteners, key rings, 7- (2) (2) 200305652 earrings, tie buckles, brooches and necklaces, and the like Components for personal decorations. However, the alloy disclosed in the patent publication is an alloy with Zr or Ti as the main component. Therefore, from the perspective of the currently used alloy, it is a special alloy. In addition, it has a disadvantage that It cannot be easily manufactured because its alloy structure must be controlled. Furthermore, in the case where the sliding fixture or button is made of only this alloy, it will have sufficient capacity for use with a needle detector, but the sliding fixture and button are made of many different components. And each component is manufactured according to its own required characteristics. If all the different components of the slide fastener or button were made of this alloy, some of these components would lack the required characteristics. In detail, in the case where the component must be elastic, the use of the aforementioned alloy is problematic, so traditional stainless steel or similar materials must be used; therefore, it will become impossible to run into the clothing if there is a broken needle in the sewing operation. Or similar. [Summary of the Invention] The object of the present invention is to provide a stainless steel that can correctly detect whether a broken needle runs into clothing or the like during sewing operations, and a sliding fixture and a button, It can satisfy the required characteristics of the sliding fixtures and buttons, and because the sliding fixtures and buttons or their constituent components are made of the stainless steel described above, they can be used with needle detectors. Please note that the stainless steel according to the present invention can be used not only on sliding fixtures and buttons suitable for the use of needle detectors, but also on non-magnetic 8-200305652 (3) applications such as gun parts or magnetic Sensor housing and other components. The constitution of the present invention is as follows. (1) A stainless steel suitable for use with a needle detector, which has a magnetic permeability of 1.005 or less in a magnetic field of 1 kOe, and 5 5 in a magnetic field of 18 kOe. 0 memu / g or less magnetization. (2) The stainless steel suitable for use with a needle detector according to the above (), further has a needle detection performance of a 1.2 mm diameter iron ball or smaller. (3) The stainless steel suitable for use with a needle detector according to the above (1), further has a needle detection performance of an iron ball with a diameter of 0.8 mm or less. (4) According to any one of the above (1), (2), (3), the stainless steel suitable for use with a needle detector includes 0.01 to 0.15% C, 0.1 to 5% Si, 1 to 10% Mη, 8 to 25% offender, 14 to 30% (: 1 *, 0.01 to 0.25% 1 ^, the rest are? 6 and impurities, which is defined as Ni equivalent sNi + OJMn + LGMC + TO + O.lSCr-o.llSi2 has a Ni equivalent of 19 or more. (5) The stainless steel suitable for the use of a needle detector according to (4) above, further includes in mass percentage At least one element containing a) 0.5 to 3% of Cu, b) 0.05 to 0.5% of at least one element selected from the group consisting of Nb, W, and V, and c) to 2% of Mo, etc. The selected added element. (6) The stainless steel suitable for use with a needle detector according to any one of (1) to (5) above, wherein the needle detection performance is maintained after a cold rolling operation with a reduction ratio of 60%. (7) A sliding fixture suitable for use with a needle detector, including more than -9- (4) (4) 200305652 components, which are installed on the facing edge portions of a pair of fixing bands, and the stopper , Installed on the two side ends of the components, and an adapter can open and close the components, at least one of which self-contains the components, stoppers and adapters, and its components The members selected in the group are made of needle detectors with a magnetic permeability of 1.005 or less in a magnetic field of 1 kOe and a magnetic permeability of 5 in a magnetic field of 18 kOe. 50 memu / g or less magnetized stainless steel. (8) The sliding fixture suitable for using a needle detector according to the above (7), has a needle detection performance of a 1.2 mm diameter iron ball or smaller. (9) The sliding fixture suitable for use with a needle detector according to the above (7), has a needle detection performance of a 0.8 mm diameter iron ball or smaller. (1) The sliding fixture suitable for using a needle detector according to any one of (7) to (9) above, wherein the adaptor of the sliding fixture includes an adaptor body, and one provided on the body A pull tab on the top, and a latch claw that can be swung by the operation of the pull tab and can be pushed towards the main body side by the force applied by the pushing device, at least the pushing device is adapted by Made of stainless steel using a needle detector. (1 1) The sliding fixture suitable for using a needle detector according to the above (1 0), wherein the pushing device of the adapter is a spring containing the latch claw, or it can be provided on the latch claw Spring. (1 2) A button suitable for use with a needle detector, comprising a front surface member provided on the front surface of the cloth, and a base member provided on the reverse surface of the cloth by using the front surface The member is engaged with the base member to be fixed on the cloth, at least one of which is self-contained -10- (5) (5) 200305652, which has the front surface member and the base member, and is selected from the group of components The component is made of a needle detector suitable for use with a magnetic permeability of 1.005 or less in a magnetic field of 1 kOe and 5 in a magnetic field of 18 kOe 50 memu / g or less magnetized stainless steel. (1 3) The button suitable for use with a needle detector according to the above (1 2), has a needle detection performance of a 1.2 mm diameter iron ball or smaller. (1 4) The button suitable for use with a needle detector according to the above (1 2), has a needle detection performance of a 0.8 mm diameter iron ball or smaller. (1 5) A button suitable for use with a needle detector, comprising a pair of buttons, including a male button, which is fixed to the fabric, and has a protruding head protruding outward on one surface, and A female button is fixed on the fabric and has a recessed portion which is separated from the bulging head of the male button and can be engaged therewith, at least one of which contains the male button and the female button, and its composition The components selected in the group of components are made of needle detectors with a magnetic permeability of 1.005 or less in a magnetic field of 1 kOe and a magnetic field of 18 kOe Made of stainless steel with a magnetization of 5 50 memu / g or less. Throughout the specification, unless otherwise specified, the composition of each element constituting this stainless steel is expressed as the mass percentage of the entire stainless steel. [Embodiment] The following is a detailed description of the stainless steel of the present invention. -11-(6) (6) 200305652 The stainless steel of the present invention must have a magnetic permeability of 1.005 or less in a magnetic field of 1 kOe and a magnetic field of 18 kOe The inside must have a degree of magnetization of 55 ohm / g or less. These are to enable the stainless steel to be used with a needle detector, which is the purpose of the present invention. By satisfying these conditions, it will be able to provide products, components and materials suitable for use with needle detectors, and this needle detector can operate correctly to find the inside of cloth or the like during sewing operations The broken needle and its fragments will not cause the failure of the needle detector when the stainless steel is used in personal decoration products or components of personal decoration products, such as slide fasteners and buttons. In addition, if it has a magnetic permeability of 1.003 or less in a magnetic field of 1 kOe, it must have a magnetization of 440 memu / g or less in a magnetic field of 18 kOe. Degree, the aforementioned effects will be more significant. As for the needle detection performance, a static magnetic field type needle detector that can measure the amount of change in magnetic flux density caused by metal cutting magnetic flux at a fixed speed, the amount of change in magnetic flux density corresponding to a 0.8 mm diameter iron ball is set It is a reference frame (labeled) from 100 to 120. This frame is used as a needle detection frame when measuring the object to be measured, and the estimation operation is based on the number relative to this frame. ongoing. In detail, if the needle detection 所得 of the object to be measured is equal to or less than the reference 値, the needle detection performance is represented by “0.8 mm diameter iron balls or smaller”. If the needle of the object to be measured is Detection 値 is a needle detection 等于 equal to or smaller than a 1.2 mm diameter iron ball, and the needle detection performance is represented by “1.2 mm diameter iron sphere or less”. In this way, the needle detection performance is -12- (7) (7) 200305652 represented by 0.8, 1.2, 1.5 mm diameter iron balls or smaller; the needle detection performance is 0.8 mm diameter In the case of iron balls or smaller, it means that even the smallest special size broken needles used in sewing operations can be detected, while the needle detection performance of 1.2 mm diameter iron balls or smaller In this case, it means that it can correctly detect the broken needle of the size in general use. In the present invention, the needle detection performance is better with a 1.2 mm diameter iron ball or less, and most preferably with a 0.8 mm diameter iron ball or less. In the present invention, in the case of using an alloy, the object system to be measured is an alloy object having a size of 15 mm X 15 mm X 0.4 mm, and the needle detection of the object to be measured is based on this measurement. The result of an object passing perpendicularly through a magnetic flux. In addition, in the case of a sliding fixture or a button to be described later, the object to be measured is the product or its components, and the needle detection of the object to be measured is measured based on the magnetic flux perpendicular to the object to be measured the result of. The following ingredients are the preferred ingredients of the stainless steel used. That is, the mass percentage contains 0.01 to 0.15% of C, 0.1 to 5% of Si, 1 to 10% of Mn, 8 to 25% of Ni, 14 to 30% of Cr, and 0.01 to 0.25. % Of N, the rest are Fe and impurities, and the equivalent of Ni is defined as Ni equivalent = Ni + 0.6Mn + 9.69 (C + N) + 0.18Cr-0.11Si2, with a number of 19 or more, The constructed stainless steel is effective. C, like N, is a powerful Vossian phase stabilizing element, and it is also an element that can be used to effectively improve elastic properties. Therefore, the lower limit of the C content is set to 0.01%. However, c is an element that can cause a decrease in the corrosion resistance, and if an excessive amount of c solid solution is produced, the stainless steel's -13- (8) (8) 200305652 processability will be caused by the increase in the amount of C in the solid solution. In the case of considering this, the upper limit of the C content is set to 0.15%.

Si是一種可用來達成高強度的有效元素，因此最好 Si的含量至少爲0. 1%。但是，當Si含量增加時’冷作後 的導磁率會大幅度地增加，因此會變成無法維持其非磁性 ，所以Si含量的上限是設爲5%。 Μη，如同Ni —樣，是一種沃斯田相的穩定元素，因 此可抑制冷作時導磁率的增加。此外，Μη是一種會增加 Ν之固態溶解度的元素。爲顯現此等的性質，Μη的含量 必須至少爲1 %，此外，Μ η的含量必須配合N i的含量而 調整，以保持在冷作後的非磁性；但是，若含有超過1 〇% 的Μη，則不會見到與此相同的效應，因此Μη含量的上 限是設定爲1 0 %。1%。 Si is an effective element that can be used to achieve high strength, so the content of Si is preferably at least 0.1%. However, when the Si content is increased, the magnetic permeability after cold working increases greatly, and it becomes impossible to maintain its non-magnetic property. Therefore, the upper limit of the Si content is set to 5%. Mn, like Ni, is a stabilizing element in the Voss field, so it can suppress the increase in magnetic permeability during cold work. In addition, Mη is an element which increases the solid solubility of N. In order to show these properties, the content of Mn must be at least 1%. In addition, the content of Mn must be adjusted in accordance with the content of Ni to maintain the non-magnetic properties after cold working; however, if it contains more than 10% Mn, the same effect will not be seen, so the upper limit of Mn content is set to 10%.

Ni是沃斯田不鏽鋼的基礎成份，也是對於沃斯田相 之穩定有所貢獻的有效元素。爲能保有冷作之後的非磁狀 態，Ni的含量必須至少爲8%，此外Ni的含量也必須根 據Si含量而配合於Μη含量加以調整。但是，Ni會造成 冷作後之彈性特性的下降，因此Ni含量的上限是設定爲 2 5 0/〇 〇Ni is the basic component of Vostian stainless steel and an effective element that contributes to the stability of Vostian. In order to maintain the non-magnetic state after cold working, the content of Ni must be at least 8%, and the content of Ni must also be adjusted according to the Si content and the Mn content. However, Ni causes a decrease in elastic characteristics after cold working, so the upper limit of the Ni content is set to 2 50 / 〇 〇

Cr*是不鏽鋼的基礎成份，爲能得到良好的抗蝕效果 ，C r的含量必須至少1 4 °/〇 ;但是，如果含有大量的C r， 則會形成大量的得爾它肥粒鐵，因之而無法確保其非磁狀 態；因此Cr含量的上限是設爲30%。 -14 - 200305652 Ο) 的 N 化 爲 工 鋼 於 的 〇 溶 設 能 W 能 特 種 量 維 N是可用來維持本發明不鏽鋼之主要特性的非磁性 有效元素，並可改善強度及提供極佳的彈性特性；因此 含量的下限是設爲0.01%。但是如果N含量超過〇.25% 再配合C，則將會因固態溶液中N含量的增加而造成硬 ，進而破壞不鏽鋼的加工性。此外’鑄造性也會被破壞 因此將無法製得堅實的鋼錠；因此N含量的上限是設 0.2 5%。詳細地說，在必須要有加工性，如形狀固定加 性，且需要延長壓模的使用壽命，因之而必須要使不鏽 變成較柔軟的情形中，最好是將N含量的上限設爲小 0.0 6%。Cr * is the basic component of stainless steel. In order to obtain a good corrosion resistance, the content of C r must be at least 14 ° / 〇; however, if a large amount of C r is contained, a large amount of delta fat iron will be formed. As a result, its non-magnetic state cannot be ensured; therefore, the upper limit of the Cr content is set to 30%. -14-200305652 〇) N is transformed into industrial steel with a dissolving energy W energy special dimension dimension N is a non-magnetic effective element that can be used to maintain the main characteristics of the stainless steel of the present invention, and can improve strength and provide excellent elasticity Characteristics; therefore, the lower limit of the content is set to 0.01%. However, if the N content exceeds 0.25% and then C is added, it will cause hardness due to the increase of the N content in the solid solution, and then damage the workability of stainless steel. In addition, the castability will be destroyed, so that a solid steel ingot cannot be produced; therefore, the upper limit of the N content is set to 0.2 5%. In detail, in the case where it is necessary to have workability, such as fixed shape addition, and to extend the service life of the stamper, and therefore it is necessary to make stainless softer, it is best to set the upper limit of the N content As small as 0.0 6%.

Cu是一種沃斯田相穩定元素，也是提供可加工性 有效元素。爲顯現其效果，最好是添加至少0.5%的Cu 但是，如果添加超過3 %的Cu，則過量添加而超出固態 解度極限的Cu會損傷到可加工性，因此Cu的上限是 爲3%。Cu is a Vastian phase-stabilizing element and an effective element that provides workability. In order to show its effect, it is best to add at least 0.5% Cu. However, if Cu is added in excess of 3%, Cu added in excess and exceeding the solid solution limit will impair workability, so the upper limit of Cu is 3% .

Nb、W和V等是會增加加工硬化特性的元素，爲 顯現此種效果，其最好添加總量至少爲0.05%的Nb、 和V。但是，如果加入大量的Nb、W和V，則熱作性 將會減弱，會生成得爾它肥粒鐵，因此無法維持其非磁 性；因此Nb、W及V之總量的上限是設爲〇 · 5 %。Nb, W, and V are elements that increase work hardening characteristics. In order to exhibit this effect, it is best to add at least 0.05% of Nb, and V in total. However, if a large amount of Nb, W, and V is added, the thermal performance will be weakened, and delta ferrite iron will be generated, so it cannot maintain its non-magnetic property; therefore, the upper limit of the total amount of Nb, W, and V is set to 0.5%.

Mo是一種可有效改善抗蝕效果的元素，爲展現此 效果，其取好添加至少〇. 1%的Mo。但是，如果添加大 的Mo，則會生成相當量的得爾它肥粒鐵，因之而無法 持其非磁特性；因此Mo含量的上限是設爲2%。 -15- 200305652 do) 此外，爲獲致高強度，其必須要藉由冷作在本發明的 不鏽鋼中加上加工應變，因之而造成不鏽鋼的加工硬化。 因此有必要施用相當於冷軋減縮比3 0%至8 0%的冷作加工 。爲能確保在此冷作加工後仍保有非磁性’如前面所述及 之N i當量的數値必須至少爲1 9。冷軋減縮比是定義爲材 料在冷軋後的板厚變化相對於原始板厚的百分比。但是’ 如果N i和Μ η的含量太高而增高N i當量的數値時，鋼的 加工硬化能力會下降，因此Ni和Μη的含量須如前述般 加以設定。 此外，若應用本發明不鏽鋼的滑動固定件或類似物的 構成組件是以上述定義之冷軋減縮比至少爲60%的方式加 以冷軋而製造的，則其必須要能在實施60%冷軋減縮後仍 保有其針檢測性能。如上述，爲獲致高強度，就本發明的 不鏽鋼而言，其必須要有30至80%的冷軋減縮比，因此 其必須要能在實施3 0%冷軋減縮比後仍保有其針檢測性能 ;依所製造出之產品或組件而定，其或許需要進行60%的 冷軋減縮，因此其最好能在實施60%冷軋減縮後保有針檢 測性能。 下面將配合圖式來說明應用本發明的滑動固定件和鈕 扣。 首先說滑動固定件F。 第1圖是滑動固定件的示意圖；如第1圖所示，滑動 固定件F包含有一對固定帶1，每一者均具有一核部2, 形成在其一側之邊緣上，元件3係以歛合方式在預定的間 -16- (11) (11)200305652 距下固定（固著）至每一固定帶1的核部2上，頂擋件4 和底擋件5係以歛合方式分別固定在每一固定帶1的元件 3的頂端和底端，以及滑動固定件銜合器（下文中稱爲“ 銜合器” ）S，設置在互相面對的各對元件3之間，且可 在上下方向上自由滑動，以銜合或分開（開啓和關閉）該 等元件3。注意到，在上述中，藉由將元件3固著至固定 帶1之核部2上而製成的物件是一條滑動固定鍊7。亦注 意到，雖然未顯示在圖式中，底擋件5可以製做成一種包 含有插銷、箱銷和箱體形式之可分離的底擋件總成，因之 該對滑動固定鍊7可經由銜合器S的開啓動作而分離開。 在本發明中，前述適於使用檢針器之不鏽鋼亦可供該等元 件3、頂擋件4、底擋件5、銜合器S、可分離之底擋件總 成及類似者使用，如果它們是要以金屬製做。此外，該適 於使用檢針器的不鏽鋼可供銜合器S及可分離底擋件總成 的零組件使用，例如該插銷、箱銷、箱體等等（對於銜合 器S，其零組件將於下文中加以說明）。此外，上述的說 明僅係針對使用由金屬製成的元件3、頂擋件4及底擋件 5的滑動固定件，但是本發明亦可應用至使用由樹脂以例 如射出方式製成，或是由樹脂纖維（例如爲盤圈形式者） 製成的元件3、頂擋件4和底擋件5的滑動固定件，在此 情形中，本發明所能應用的標的將是其它由金屬製成的零 組件等。 以下是銜合器S的詳細說明。1% Mo。 Mo is an element that can effectively improve the effect of corrosion, in order to show this effect, it is good to add at least 0.1% Mo. However, if a large amount of Mo is added, a considerable amount of delta ferrite iron will be generated, and thus its non-magnetic properties cannot be maintained; therefore, the upper limit of the Mo content is set to 2%. -15- 200305652 do) In addition, in order to obtain high strength, it is necessary to apply a working strain to the stainless steel of the present invention by cold work, thereby causing work hardening of the stainless steel. Therefore, it is necessary to apply cold work equivalent to a cold rolling reduction ratio of 30% to 80%. In order to ensure that the non-magnetic properties remain after this cold working process, the number of Ni equivalents as described above must be at least 19. The cold rolling reduction ratio is defined as the percentage of the thickness change of the material after cold rolling relative to the original thickness. However, if the content of Ni and Mn is too high and the number of Ni equivalents is increased, the work hardening ability of the steel will decrease. Therefore, the content of Ni and Mn must be set as described above. In addition, if the component to which the stainless steel sliding fixture or the like is applied is manufactured by cold rolling with a cold rolling reduction ratio of at least 60% as defined above, it must be able to perform 60% cold rolling The needle detection performance is retained after reduction. As mentioned above, in order to obtain high strength, the stainless steel of the present invention must have a cold rolling reduction ratio of 30 to 80%, so it must be able to retain its needle detection after implementing a 30% cold rolling reduction ratio. Performance; Depending on the product or component being manufactured, it may require 60% cold rolling reduction, so it is best to retain the needle detection performance after implementing 60% cold rolling reduction. The slide fixing member and the button to which the present invention is applied will be described with reference to the drawings. First, the sliding fixture F will be described. Fig. 1 is a schematic diagram of a sliding fixing member. As shown in Fig. 1, the sliding fixing member F includes a pair of fixing bands 1 each having a core portion 2 formed on an edge of one side thereof, and the element 3 is Fix (fix) to the core 2 of each fixing band 1 at a predetermined interval -16- (11) (11) 200305652 in a convergence manner, and the top stop 4 and bottom stop 5 are converged It is respectively fixed at the top and bottom ends of the elements 3 of each fixing band 1, and the sliding fastener adaptor (hereinafter referred to as an "adapter") S is provided between each pair of elements 3 facing each other. , And can slide freely in the up-down direction to engage or separate (open and close) these elements 3. Note that, in the above, the article made by fixing the element 3 to the core portion 2 of the fixing band 1 is a slide fixing chain 7. It is also noted that although not shown in the drawings, the bottom stopper 5 can be made into a separable bottom stopper assembly including the form of a latch, a box pin and a box body, so that the pair of sliding fixed chains 7 can It is separated by the opening operation of the adapter S. In the present invention, the aforementioned stainless steel suitable for use with a needle detector can also be used for these elements 3, top stop 4, bottom stop 5, adapter S, separable bottom stop assembly, and the like, If they are to be made of metal. In addition, the stainless steel suitable for the needle detector is available for the components of the adapter S and the separable bottom stop assembly, such as the latch, box pin, box, etc. (for the adapter S, its zero The components are explained below). In addition, the above description is only directed to the slide fastener using the element 3, the top stop 4 and the bottom stop 5 made of metal, but the present invention can also be applied to the use of a resin made in, for example, injection molding, or Sliding fixtures of element 3, top stop 4 and bottom stop 5 made of resin fiber (for example, in the form of coils). In this case, the subject matter applicable to the present invention will be other metal Components and so on. The following is a detailed description of the adapter S.

第2圖和第3圖顯示爲本發明應用於其上的銜合器S -17- (12) (12)200305652 ;第2圖係分解外觀圖，以分解開的形式顯示出各零組件 間的關係，而第3圖係沿著銜合器之縱長方向中心線所取 的剖面圖。參考標號1 1代表銜合器本體，參考標號1 2代 表拉片，而參考標號1 3則代表具閂爪之彈簧。在具閂爪 之彈簧1 3中，係由位在前側的彈簧部1 4與位在背側的閂 爪部1 5 —體結合而形成的。如第3圖所示，銜合器S 1係 藉由將拉片1 2設置在銜合器本體1 1上，並將具閂爪之彈 簧13固著至銜合器本體11上而構成的。在此種銜合器 S 1的情形下，在不使用時，如第3圖所示，該具閂爪之 彈簧1 3的閂爪部1 5的末端部會被具閂爪之彈簧1 3之彈 簧部1 4所施加之力量向下推壓，因之而咬合於該等未顯 示出的元件之間，可止擋住銜合器S1的向下移動。另一 方面，在使用時，拉片1 2係被以抵抗該彈簧部1 4之力量 的方式向上拉起，因之而使該閂爪部1 5的末端部向上移 動，進而使該等未顯示出之元件間的閂鎖作用解除，使得 銜合器S1成爲可以向下移動。 第4圖、第5圖、第6圖顯示出銜合器s的另一種範 例；第4圖是銜合器S 2的外觀圖，第5圖是分解外觀圖 ，以分解開的形式顯示出各零組件間的關係，而第6圖係 沿著銜合器之縱長方向中心線所取的剖面圖。和前述一樣 ，參考標號1 1代表銜合器本體，參考標號1 2代表拉片； 參考編號16代表閂爪，參考編號17代表板彈簧，而參考 標號18則代表蓋部。如第5圖和第6圖中所示，銜合器 S2係藉由將拉片1 2和閂爪部1 6設置在銜合器本體n上 -18- (13) (13)200305652 、將板彈簧1 7固定至銜合器本體1 1的頂端部位上，並將 蓋部1 8固定至銜合器本體1 1的頂端部上而構成的。在此 種銜合器S 2的情形下，在不使用時，如第6圖所示，閂 爪部1 6的末端部會被板彈簧1 7所施加之力量向下推壓， 因之而咬合於該等未顯示出的元件之間，可止擋住銜合器 S2的向下移動。另一方面，在使用時，拉片12係被以抵 抗該板彈簧1 7之力量的方式向上拉起，因之而使該閂爪 部1 6的末端部向上移動，進而使該等未顯示出之元件間 的閂鎖作用解除，使得銜合器S2成爲可以向下移動。 在前述的銜合器中，銜合器S 1之具有閂爪之彈簧1 3 ，以及至少該銜合器S2的板彈簧1 7，係由本發明之適於 使用檢針器的不鏽鋼來加以製做。此外，在前述中，閂爪 部1 6和蓋部1 8，及拉片12和銜合器本體1 1，均可以本 發明之適於使用檢針器的不鏽鋼來加以製做，此外，適合 配合本發明檢針器使用的銜合器亦可藉由以適於使用檢針 器之不鏽鋼來製做具閂爪之彈簧1 3和板彈簧1 7，並以黃 銅、紅黃銅或類似材料來製做銜合器本體1 1、閂爪部1 6 、蓋部1 8和拉片1 2，而構成之。此外，適合使用於本發 明檢針器的滑動固定件亦可藉由製做具有上述零組件之銜 合器，並以適於使用檢針器之不鏽鋼，或是其它的黃銅、 紅黃銅或類似材料來製做該等元件3、頂擋件4和底擋件 5，而構成之。 其次，將說明鈕扣B。在本發明中所稱之“鈕扣B” 的意義是包括第7圖至第9圖中所示之裝飾性鈕扣B 1至 -19- (14) (14)200305652 B3、第10圖中所示之扣緊鈕扣B4，以及第1 1圖至第13 圖中所示的按式鈕扣SB 1、2、3。此外，“前表面構件” 表示一個大致上設置在布料外表面側的構件，“基底構件 ”表示一個大致上設在布料反向表面側的構件。 下面將詳細說明每一種的鈕扣B。 第7圖顯示一種裝飾性鈕扣B 1，係裝設在例如牛仔 衣口袋之邊緣。如第7圖之剖面圖所示，此裝飾性鈕扣 B 1包含有一連接構件2 1、一覆蓋構件22和一固著構件 23。此鈕扣B 1係藉由將覆蓋構件22固定至連接構件2 1 的基部（該連接構件2 1和該覆蓋構件22共同構成基底構 件）、將連接構件2 1之軸部貫穿過布料20、進一步將該 連接構件2 1的軸部穿過固著構件23 (前表面構件），而 後將連接構件21之軸部的尖端加以擴大而裝設至布料20 上。 第8圖的裝飾性鈕扣B2與第7圖的裝飾性鈕扣B1 間的差異點在於連接構件2 1的軸部是在固著構件23的內 部擴大，而被隱藏起來。除此之外，第8圖的裝飾性鈕扣 B2與第7圖的裝飾性鈕扣B 1 —樣。 在上述的裝飾性鈕扣B 1和B 2中，在考量到固著構 件2 3必須要能在歛合作業時變形，以便固定住，且不能 易於退色、劣化及腐蝕的情形下，基本上曝露於外表面側 的固著構件23是以本發明適於使用檢針器的不鏽鋼來加 以製做的。此外，在前述中，覆蓋構件22和連接構件2 1 均可以本發明適於使用檢針器的不鏽鋼來加以製做，此外 -20- (15) (15)200305652 ，適合配合檢針器使用的裝飾性鈕扣亦可藉由以黃銅、紅 黃銅或類似材料來製做覆蓋構件22和連接構件2 1，而構 成之。 第9圖顯示一種使用在牛仔衣或類似衣物上的裝飾性 鈕扣B 3。如第9圖中的剖面圖所示，此裝飾性鈕扣B 3包 有一固著構件23 (前表面構件）和基部構件24 (基底構 件）。此鈕扣B3係藉由將基底構件24設置在布料20的 反向表面側上、將固著構件23貫穿過布料20、將該固著 構件23穿過基部構件24的後側表面，並以歛合方式將基 部構件24固定至固著構件23上而裝設至布料20上。 在裝飾性鈕扣B3中，在考量到固著構件23必須要能 在歛合作業時變形，以便固定住，且不能易於退色、劣化 及腐蝕的情形下，基本上曝露於外表面側的固著構件23 是以本發明適於使用檢針器的不鏽鋼來加以製做的。此外 ，在前述中，基底構件24可以本發明適於使用檢針器的 不鏽鋼來加以製做，此外，適合配合檢針器使用的裝飾性 鈕扣亦可藉由以黃銅、紅黃銅或類似材料來製做基部構件 24而構成之。 第10圖顯示出一種使用在衣物或類似物上而可藉由 將鈕扣中膨大的頂部貫穿過於另一側處設在布料20上的 固著孔洞而固定住的緊固鈕扣B 4。如第1 〇圖的剖面圖所 示，此緊固鈕扣B4包含有一連接構件2 1、一覆蓋構件22 、一固著構件23、一裝飾構件25和一支撐構件26。此鈕 扣B4係藉由將覆蓋構件22固定至連接構件21的基部（ -21 - (16) (16)200305652 該連接構件2 1和該覆蓋構件22共同構成基底構件）、將 連接構件21之軸部貫穿過布料20、將該連接構件21的 軸部穿過固著構件23、將連接構件2 1之軸部加以擴大， 因之而嚙合於內設有支撐構件2 6固定於其內及裝飾構件 25的固著構件23 (該固著構件23、裝飾構件25和支撐 構件26共同構成前表面構作）上。 在緊固鈕扣B4中，在考量到固著構件23必須要能變 形，以便固定住，且不能易於退色、劣化及腐鈾的情形下 ，基本上曝露於外表面側的固著構件23是以本發明適於 使用檢針器的不鏽鋼來加以製做的，且考量到裝飾構件 2 5必須要能變形，以便固定住，且不能易於退色、劣化 及腐蝕的情形下，基本上曝露於外表面側的裝飾構件25 是以本發明適於使用檢針器的不鏽鋼來加以製做的。此外 ，在前述中，連接構件21、覆蓋構件22和支撐構件26 均可以本發明適於使用檢針器的不鏽鋼來加以製做，此外 ，適合配合檢針器使用的緊固鈕扣亦可藉由以黃銅、紅黃 銅或類似材料來製做連接構件2 1、覆蓋構件22和支撐構 件2 6，而構成之。 第1 1圖是一剖面圖，顯示出可供本發明應用於其上 之按式鈕扣SB中的一種按式鈕扣SB1 ;此按式鈕扣SB 1 包含有一母鈕扣31和一公鈕扣32。母鈕扣31包含有一 母構件3 3 (基底構件），其中形成有一凹入部3 3 a，在其 內側周邊上設有一彈性部，可供下文所述之公鈕扣3 2嚙 合之，以及一母固定構件3 5 (前表面構件），其係貫穿 -22- (17) (17)200305652 過布料20，因之而將母構件33加以固定住。公鈕扣32 包含有一公構件34 (前表面構件），具有鼓起頭部34a， 可與母構件3 3之彈性部相嚙合，以及一公固定構件3 6 ( 基底構件），其貫穿過布料20，因之而將公構件34加以 固定住。 第1 2圖是一剖面圖，顯示出按式鈕扣s B的另一範 例；如同前述的按式扭扣SB 1 —樣，此按式鈕扣SB 2包 含有一母鈕扣31和一公鈕扣32。母鈕扣31包含有一覆 蓋構件、一母固定構件3 5，其係套合於覆蓋構件3 7內， 因之而可防止覆蓋構件37的變形，且係貫穿過布料20, 以藉由布料2 0而將覆蓋構件3 7和一將於下文說明的母構 件3 3 —起固定住（此覆蓋構件3 7和母固定構件3 5共同 構成前表面構件），該母構件33內形成有一凹入部33a ，可供包覆下文所述之公鈕扣3 2，以及一彈性彈簧3 8， 其係設置在母構件33之凹入部33a內，並可嚙合下文所 述的公鈕扣3 2 (此母構件3 3和彈簧3 8共同構成基底構 件）。公鈕扣3 2包含有一公構件3 4 (前表面構件），具 有鼓起頭部34a，可與設置在母構件33之凹入部33a內 部的彈性彈簧3 8相嚙合，以及一公固定構件3 6 (基底構 件）’其貫穿過布料2〇，因之而將公構件3 4加以固定住 〇 第1 3圖是一剖面圖，顯示出按式鈕扣SB的再另一 範例；如同前述的按式扭扣S B 1和S B 2 —樣，此按式鈕 扣SB3包含有一母鈕扣η和一公鈕扣32。此母鈕扣31 -23 - (18) (18)200305652 與按式扭扣SB2之母鈕扣不同之處在於，雖然按式鈕扣 SB2的彈簧38爲具有部份切割之環狀形狀，但按式鈕扣 SB3則是使用第13圖中所示的形式，且其母構件33具有 與之相配合的形式，除此之外，其係類似於按式鈕扣SB2 。此外，公鈕扣3 1是與按式鈕扣SB 1中的公鈕扣相同。 就上述的按式鈕扣SB而言，在按式鈕扣SB 1、SB 2 和SB3中，至少其母構件33是由本發明適於使用檢針器 之不鏽鋼所製做的。此外，在前述中，公構件34、母及 公固定構件3 5和3 6，以及覆蓋構件3 7均可以本發明適 於使用檢針器的不鏽鋼來加以製做，此外，適合配合本發 明檢針器使用的按式鈕扣亦可藉由以適於使用檢針器之不 鏽鋼來製做母構件3 3，並以黃銅、紅黃銅或類似材料來 製做公構件3 4、母及公固定構件3 5和3 6、及覆蓋構件 3 7，而構成之。此外，在考量到退色、劣化及腐鈾的情形 下，按式鈕扣SB1的母固定構件35和按式鈕扣SB 2和 SB3的覆蓋構件37最好是以本發明適於使用檢針器的不 鏽鋼來加以製做。 範例： 下面透過範例來對本發明做具體的說明，但是本發明 當然並不僅限於下面的範例。 -24 - (19)200305652Figures 2 and 3 show the adaptor S -17- (12) (12) 200305652 to which the present invention is applied; Figure 2 is an exploded view showing the components in an exploded form Figure 3 is a cross-sectional view taken along the longitudinal centerline of the adaptor. Reference numeral 11 designates an adaptor body, reference numeral 12 designates a pull tab, and reference numeral 13 designates a spring with a latch claw. The spring 13 with a latch claw is formed by integrally combining a spring portion 14 on the front side and a latch claw portion 15 on the back side. As shown in FIG. 3, the adapter S 1 is configured by setting a pull tab 12 on the adapter body 11 and fixing a spring 13 with a latch claw to the adapter body 11. . In the case of such an adaptor S 1, when not in use, as shown in FIG. 3, the end portion of the latch claw portion 15 of the spring 13 with a latch claw is replaced by the spring 1 3 with a latch claw. The force exerted by the spring portion 14 pushes downwards, and thus engages between these components not shown, which can stop the downward movement of the adapter S1. On the other hand, when in use, the pull-tab 12 is pulled up to resist the force of the spring portion 14, thereby causing the end portion of the latch claw portion 15 to move upward, thereby making such unfinished The latching action between the components shown is released, so that the adapter S1 can be moved downward. Fig. 4, Fig. 5, and Fig. 6 show another example of the adaptor s; Fig. 4 is an external view of the adaptor S 2, and Fig. 5 is an exploded appearance view, shown in an exploded form. Fig. 6 is a cross-sectional view taken along the longitudinal centerline of the adapter. As before, reference numeral 1 1 represents the adapter body, reference numeral 12 represents a pull tab; reference numeral 16 represents a latch claw, reference numeral 17 represents a leaf spring, and reference numeral 18 represents a cover portion. As shown in Figs. 5 and 6, the adapter S2 is provided with the pull tab 12 and the latch claw portion 16 on the adapter body n. -18- (13) (13) 200305652, The leaf spring 17 is fixed to the top end portion of the adapter body 11 and the cover portion 18 is fixed to the top end portion of the adapter body 11. In the case of such an adapter S 2, when not in use, as shown in FIG. 6, the end portion of the latch claw portion 16 is pushed down by the force exerted by the plate spring 17, so that Snapping between the components not shown can stop the downward movement of the adapter S2. On the other hand, when in use, the pull-tab 12 is pulled up in a way to resist the force of the leaf spring 17, thereby moving the end of the latch claw portion 16 upward, thereby making these unshown The latching action between the outgoing elements is released, so that the adapter S2 can be moved downward. In the aforementioned adaptor, the spring 13 having a latch claw of the adaptor S1 and at least the leaf spring 17 of the adaptor S2 are made of stainless steel suitable for using a needle detector of the present invention. do. In addition, in the foregoing, the latch claw portion 16 and the cover portion 18, and the pull tab 12 and the adaptor body 11 can be made of stainless steel suitable for use with a needle detector of the present invention. The adaptor used in conjunction with the needle detector of the present invention can also be made of stainless springs with latch claws 13 and plate springs 17 made of stainless steel suitable for use with needle detectors, and brass, red brass or the like Materials are used to make the adaptor body 11, the latch claw portion 16, the cover portion 18 and the pull tab 12. In addition, the sliding fixture suitable for the needle detector of the present invention can also be made of an adapter with the above components and made of stainless steel suitable for the needle detector, or other brass, red brass Or similar materials are used to make the elements 3, the top stop 4 and the bottom stop 5 to form them. Next, the button B will be explained. The meaning of "button B" in the present invention is to include the decorative buttons B 1 to -19 shown in Figs. 7 to 9 (14) (14) 200305652 B3, shown in Fig. 10 The button B4 is fastened, and the push buttons SB 1, 2, 3 shown in Figs. 11 to 13 are shown. In addition, "front surface member" means a member provided substantially on the outer surface side of the cloth, and "base member" means a member provided substantially on the reverse surface side of the cloth. Each of the buttons B will be described in detail below. Figure 7 shows a decorative button B 1 attached to the edge of a denim pocket, for example. As shown in the sectional view of FIG. 7, the decorative button B1 includes a connecting member 21, a covering member 22, and a fixing member 23. This button B 1 is obtained by fixing the covering member 22 to the base of the connecting member 21 (the connecting member 21 and the covering member 22 together constitute a base member), passing the shaft portion of the connecting member 21 through the cloth 20, and further The shaft portion of the connection member 21 is passed through the fixing member 23 (front surface member), and then the tip of the shaft portion of the connection member 21 is enlarged to be mounted on the cloth 20. The difference between the decorative button B2 in FIG. 8 and the decorative button B1 in FIG. 7 lies in that the shaft portion of the connecting member 21 is enlarged inside the fixing member 23 and is hidden. In addition, the decorative button B2 in FIG. 8 is the same as the decorative button B 1 in FIG. 7. In the above-mentioned decorative buttons B 1 and B 2, in consideration of the fact that the fixing member 23 must be able to be deformed during convergence, in order to be fixed, and cannot be easily discolored, deteriorated and corroded, it is basically exposed. The fixing member 23 on the outer surface side is made of stainless steel suitable for using a needle detector in the present invention. In addition, in the foregoing, both the covering member 22 and the connecting member 2 1 can be made of stainless steel suitable for use with a needle detector in the present invention. In addition, -20- (15) (15) 200305652 is suitable for use with a needle detector. The decorative button can also be formed by making the covering member 22 and the connecting member 21 from brass, red brass, or the like. Fig. 9 shows a decorative button B 3 for use on a denim garment or the like. As shown in the sectional view in Fig. 9, this decorative button B 3 is provided with a fixing member 23 (front surface member) and a base member 24 (base member). This button B3 is provided by setting the base member 24 on the reverse surface side of the cloth 20, passing the fixing member 23 through the cloth 20, passing the fixing member 23 through the rear side surface of the base member 24, and converging. The base member 24 is fixed to the fixing member 23 and attached to the cloth 20 in a combined manner. In the decorative button B3, in consideration of the fact that the fixing member 23 must be able to be deformed during the convergence operation so as to be fixed, and cannot be easily discolored, deteriorated, and corroded, it is basically exposed to the fixing on the outer surface side. The member 23 is made of stainless steel suitable for use with a needle detector of the present invention. In addition, in the foregoing, the base member 24 may be made of stainless steel suitable for use with a needle detector of the present invention. In addition, decorative buttons suitable for use with a needle detector may also be made of brass, red brass, or the like. The base member 24 is made of materials. Fig. 10 shows a fastening button B 4 which is used on clothes or the like and can be fixed by penetrating an inflated top portion of the button through a fixing hole provided on the fabric 20 at the other side. As shown in the sectional view of FIG. 10, the fastening button B4 includes a connecting member 21, a covering member 22, a fixing member 23, a decorative member 25, and a supporting member 26. This button B4 is to fix the cover member 22 to the base of the connecting member 21 (-21-(16) (16) 200305652 The connecting member 21 and the covering member 22 together form a base member), and the shaft of the connecting member 21 The part passes through the cloth 20, the shaft part of the connection member 21 passes through the fixing member 23, and the shaft part of the connection member 21 is enlarged, so that it engages with an internal support member 26 and is fixed in it and decorated. The fixing member 23 of the member 25 (the fixing member 23, the decoration member 25, and the support member 26 together constitute a front surface configuration). In the fastening button B4, considering that the fixing member 23 must be deformable to be fixed, and cannot be easily discolored, deteriorated, and rotten uranium, the fixing member 23 basically exposed on the outer surface side is The invention is suitable to be made by using stainless steel of a needle detector, and considering that the decorative member 25 must be deformable to be fixed, and cannot be easily discolored, deteriorated and corroded, it is basically exposed on the outer surface The decorative member 25 on the side is made of stainless steel suitable for use with a needle detector of the present invention. In addition, in the foregoing, the connecting member 21, the covering member 22, and the supporting member 26 can all be made of stainless steel suitable for use with a needle detector according to the present invention. In addition, a fastening button suitable for use with a needle detector can also be made by The connection member 21, the cover member 22, and the support member 26 are made of brass, red brass, or the like, and are formed. Fig. 11 is a sectional view showing a push button SB1 among push buttons SB to which the present invention can be applied; this push button SB1 includes a female button 31 and a male button 32. The female button 31 includes a female member 3 3 (base member), in which a recessed portion 3 3 a is formed, and an elastic portion is provided on the inner periphery of the female button 31, which can be engaged with the male button 3 2 described below, and a female fixing The member 3 5 (front surface member) passes through -22- (17) (17) 200305652 and passes through the cloth 20, thereby fixing the mother member 33. The male button 32 includes a male member 34 (front surface member) having a bulging head 34a, which can be engaged with the elastic portion of the female member 33, and a male fixing member 3 6 (base member), which passes through the fabric 20 Therefore, the male member 34 is fixed. Fig. 12 is a sectional view showing another example of the push button s B; as with the aforementioned push button SB 1, the push button SB 2 includes a female button 31 and a male button 32. The female button 31 includes a covering member and a female fixing member 35, which are fitted into the covering member 37, thereby preventing deformation of the covering member 37, and passing through the cloth 20 to pass the cloth 2 0 The cover member 37 and a mother member 3 3 to be described below are fixed together (the cover member 37 and the mother fixing member 35 together form a front surface member). A recess 33a is formed in the mother member 33. Can be used to cover the male button 3 2 described below, and an elastic spring 38, which is arranged in the recessed portion 33a of the female member 33 and can engage the male button 3 2 described below (this female member 3 3 and the spring 3 8 together constitute the base member). The male button 3 2 includes a male member 3 4 (front surface member) having a bulging head 34 a that can be engaged with an elastic spring 3 8 provided inside the recessed portion 33 a of the female member 33 and a male fixing member 3 6 (Base member) 'It penetrates through the fabric 20, so the male member 34 is fixed. Figure 13 is a cross-sectional view showing yet another example of the push button SB; Twist buttons SB 1 and SB 2 are the same. This push button SB3 includes a female button η and a male button 32. This female button 31 -23-(18) (18) 200305652 is different from the female button of the push button SB2 in that although the spring 38 of the push button SB2 has a partially cut ring shape, the push button SB3 uses the form shown in FIG. 13 and its mother member 33 has a form that fits it, except that it is similar to the push button SB2. In addition, the male button 31 is the same as the male button in the push button SB1. With regard to the above-mentioned push buttons SB, among the push buttons SB1, SB2 and SB3, at least the female member 33 is made of stainless steel suitable for use with a needle detector of the present invention. In addition, in the foregoing, the male member 34, the female and male fixing members 3 5 and 36, and the covering member 37 can be made of stainless steel suitable for use with a needle detector of the present invention. In addition, it is suitable to cooperate with the inspection of the present invention. Push buttons for needle devices can also be made of stainless steel by using stainless steel suitable for the needle detector 3 3, and male members 3 by brass, red brass or similar materials 4, female and male The fixing members 35 and 36 and the covering member 37 are constituted. In addition, in consideration of fading, deterioration, and decay of uranium, the female fixing member 35 of the push button SB1 and the cover member 37 of the push button SB 2 and SB3 are preferably stainless steel suitable for use with a needle detector of the present invention To make it. Examples: The following specifically describes the present invention through examples, but the present invention is not limited to the following examples, of course. -24-(19) 200305652

成> 份（質量百分比） 其餘成份= Fe Ni當量 C Si Μη Ni Cr N Mo Cu W Nb V 範例1 0.131 2.3 9.6 13.8 26.5 0.23 27.2 範例2 0.065 0.6 3.8 13.0 20.3 0.04 19.9 範例3 0.095 1.5 7.7 17.3 22.3 0.20 一 28.5 範例4 0.065 1.1 6.0 20.2 23.6 0.08 29.3 範例5 0.065 1.4 3.6 12.5 19.5 0.05 19.1 範例6 0.093 0.8 5.1 13.6 17.7 0.06 峰 21.3 範例7 0.072 0.2 8.3 12.1 15.3 0.03 一 20.8 範例8 0.062 0.6 5.1 13.6 19.5 0.04 _ 21.1 範例9 0.059 0.6 4.3 13.2 20.1 0.03 19.7 範例10 0.066 0.7 3.8 12.8 20.4 0.03 _ 19.7 範例11 0.066 0.7 3.8 12.8 20.4 0.12 20.5 範例12 0.070 0.3 6.5 10.3 20.0 0.10 麵 19.4 範例13 0.072 0.3 3.0 12.3 19.0 0.15 19.7 範例14 0.063 0.6 1.5 14.8 22.3 0.02 _ 20.5 範例15 0.051 0.5 1.5 19.1 24.7 0.03 0.30 25.2 範例16 0.073 0.6 3.0 12.2 18.9 0.13 1.50 19.3 範例17 0.077 0.6 3.2 12.4 18.9 0.17 讎 0.20 20.1 範例18 0.067 0.5 3.1 12.0 19.3 0.12 0.30 19.1 範例19 0.059 0.6 3.2 12.3 18.9 0.11 0.33 19.2 範例20 0.072 0.7 3.0 12.2 19.2 0.14 0.35 19.5 對比範例1 0.041 0.7 0.6 7.8 18.1 0.04 參 12.1 對比範例2 0.052 0.6 3.2 10.0 18.9 0.03 _ 16.1 對比範例3 0.040 0.8 2.0 12.0 17.8 0.03 晒 17.0 對比範例4 0.041 0.3 1.0 13.0 22.0 0.03 18.2 對比範例5 0.055 0.6 0.8 8.1 18.3 0.03 12.6 對比範例6 0.072 0.4 0.7 8.1 18.3 0.03 12.8 -25- (20) (20)200305652 表一中所示之以本發明不鏽鋼製成之試驗材料（範例 1至2 0 )是以下法製造的。此外，對比試驗材料亦是以相 同的方法製造的。 將表一中所示之各成份加以稱重。以高頻感應式熔爐 使用一般的方法將每一種成份3 0kg加以熔化，並鑄造成 厚度10公釐、寬度12〇公釐的鑄錠。接著將每一鑄錠溶 液處理之、冷軋至3公釐厚度、中間退火處理、冷軋至 1 _ 5公釐厚度及最終退火處理。如此所製得的材料尺寸爲 120公釐 X 3 00公釐。接著進一步進行冷軋作業，以達到 輥軋減縮比60%，如此製成的材料即做爲該等試驗材料。 對於每一種製得的試驗材料，其導磁率係利用磁性平 衡儀島津式 （Shimadzu) MB-3在1千奧斯特（kOe)磁場內 測量的。所得結果顯示在表二中。自表二中可以看到，本 發明的試驗材料的導磁率是相當的低（不超過1 . 〇 〇 5 )。 此外’對於每一種製得的試驗材料，亦測量其磁化程 度。每一種試驗材料之磁化程度均是使用交流梯度力磁力 計（AGFM ;型號AFGM 2900-04C )來加以測量的；將預 定量的試驗材料放置於電磁鐵的磁場內，並由該電磁鐵產 生18千奧斯特（k〇e)的磁場，再藉由改變該磁場而進行1 磁化程度的測量。測量作業是以5 0微秒/每點的測量速 度加以進行的。如表二中所示之結果中所可看到的，就本 發明的試驗材料而言，其在18千奧斯特（k〇e)的強磁場 內的磁化程度是相當的低，5 5 0 memu/g或更小。 -26· (21)200305652 表二 導磁率 在18千奧斯 特(kOe)下的 磁化程度 針檢測値 能實施針檢測作業時的鈕扣數目 0.8公釐直徑鐵球 1.2公釐直徑鐵球 範例1 1.003 412 65 3 10 範例2 1.002 422 67 3 10 範例3 1.002 409 64 3 10 範例4 1.003 403 60 3 10 範例5 1.004 432 78 3 10 範例6 1.003 415 68 3 10 範例7 1.002 419 69 3 10 範例8 1.003 414 68 3 10 範例9 1.003 420 69 3 10 範例10 1.002 431 72 3 10 範例11 1.003 423 71 3 10 範例12 1.002 435 79 3 10 範例13 1.003 435 75 3 10 範例14 1.003 428 73 3 10 範例15 1.003 416 68 3 10 範例16 1.003 545 86 3 10 範例17 1.003 524 83 3 10 範例18 1.003 490 82 3 10 範例19 1.003 515 84 3 10 範例20 1.004 528 84 3 10 對比範例1 1.21 8920 504 0 0 對比範例2 1.03 937 133 0 2 對比範例3 1.02 647 97 1 4 對比範例4 1.008 574 84 2 5 對比範例5 1.14 5029 398 0 1 對比範例6 1.12 5830 430 0 0 -27- (22) (22)200305652 此外，每一試驗材料均採用一片1 5公釐X 15公釐 X 0.4公釐，並測量其針檢測値。就針檢測値而言，在可 以測量因爲金屬在固定速度下通過磁通量而致之磁通量密 度改變的量的靜態磁場型式檢針器中，其對應於0.8公釐 直徑鐵球的磁通量密度改變量是設定爲100至120的參考 値（標示値），此數値在對欲加以測量之試驗材料進行測 量時，是做爲針檢測値。根據上述進行測量的結果是顯示 在表二中。表二中所示之數値是相對於前述參考値的數値 。如表二中之結果所可看到的，本發明的試驗材具有相當 低之針檢測値，爲8 6或更低。 此外，以所製得的每一種試驗材料來製做母構件3 3 、母固定構件3 5和覆蓋構件3 7，且製做第1 2圖中所示 的按式鈕扣SB2的公鈕扣3 1。注意到其如前述般進行輥 軋作業，以使得在製做此按式鈕扣SB2的母鈕扣31前， 其輥軋減縮比爲60%。將所製得的母鈕扣3 1送入檢針器 內’並硏究在何種數量的母鈕扣3 1存在的情形下可以偵 測到特定的斷針。表二中之0.8公釐直徑鐵球的數値是在 相當於〇. 8公釐直徑鐵球的斷針可以被偵測出來時所可以 存在的母鈕扣31的數量，而表二中之1.2公釐直徑鐵球 的數値則同樣的是在相當於1.2公釐直徑鐵球的斷針可以 被偵測出來時所可以存在的母鈕扣3 1的數量。自表二可 以看到，對於由本發明之每一種試驗材料所製成的母鈕扣 31而言，相當於0.8公釐直徑鐵球的斷針可以在即使有3 個母鈕扣3 1存在的情形下被測量出來，而在偵測相當於 -28- (23) (23)200305652 1.2 A驚直傻鐵球的斷針時，此斷針可以在即使有10個母 紐ία 31存在的情形中被偵測出來。這些結果表示斷針不 f堇7Ε在布料鶴入檢針器內而使得裝設在該布料上的按式 ®U ~ ;欠通過〜個的方式通過檢針器的情形下，可以被 {貞沏I ’即使是在3到1 〇個按式鈕扣同時通過檢針器時 亦可偵測到。 其次’亦硏究加工比（減縮比）、硬度、磁化程度和 針檢測値間的關係。將試驗材料加以製備而使其製做時的 輥軋減縮比如前述般爲6〇%，且在最終退火後，不實施冷 軋，故其軋輥縮減比爲0%。硬度是以2〇 kg下的維克氏 硬度測量的’而磁化程度和針檢測値則是如前述般測量。 所得結果顯示於表三中。 -29 - (24)200305652 表三 硬度 在180千奧斯特(kOe)下的磁化程度 針檢測値 0% 60% 0% 60% 0% 60% 範例1 176 422 401 412 61 65 範例2 145 360 403 422 65 67 範例3 172 409 398 409 63 64 範例4 149 366 390 403 59 60 範例5 144 363 428 432 73 78 範例6 139 368 411 415 65 68 範例7 140 367 408 419 65 69 範例8 127 366 402 414 66 68 範例9 132 370 497 420 67 69 範例10 145 387 428 431 68 72 範例11 173 408 417 423 68 71 範例12 171 404 427 435 72 79 範例13 177 420 428 435 73 75 範例14 145 389 419 428 68 73 範例15 143 380 406 416 64 68 範例16 155 390 511 545 78 86 範例17 165 419 495 524 75 83 範例18 162 404 477 490 77 82 範例19 164 405 492 515 78 84 範例20 168 413 519 528 80 84 對比範例1 141 382 821 8920 129 604 對比範例2 138 378 640 937 91 133 對比範例3 139 381 503 647 88 97 對比範例4 137 370 469 574 79 84 對比範例5 140 383 793 5029 107 398 對比範例6 138 379 713 5830 94 430 -30- (25) (25)200305652 自表三可以看到，在輥軋減縮比較大時，硬度變成較 高，而不管輥軋減縮比爲何，本發明各範例的試驗材料均 具有較對比範例之試驗材料爲高的硬度。此外，可以看到 ，在增加輥軋減縮比時，對比範例中的試驗材料的磁化程 度會變大，而對於本發明各範例的試驗材料而言，其磁化 程度不會受到輥軋減縮比的影響，且可以看到，不管輥軋 減縮比爲何，本發明各範例之試驗材料的磁化會比對比範 例中的試驗材料爲慢。此外，在對比範例的材料中，針檢 測値在輥軋減縮比增加時會顯著地增高，但是對本發明範 例中的試驗材料而言，其針檢測値不會受到輥軋減縮比的 影響。 根據本發明之適於使用檢針器的不鏽鋼，其可以在縫 紉作業中正確地偵測出是否有斷針跑到衣物或類似之物內 。此外，根據本發明的滑動固定件和鈕扣，其可以提供一 種能滿足其使用所需之特性的滑動固定件和鈕扣，且其可 配合於檢針器，而使得其能夠在縫紉作業中正確地偵測出 是否有斷針跑到衣物或類似之物內。 【圖式簡單說明】 第1圖是滑動固定件的示意圖。 第2圖是可供本發明應用於其上的銜合器的外觀圖。 第3圖是可供本發明應用於其上的銜合器的剖面圖。 第4圖是銜合器另一範例的外觀圖。 第5圖是銜合器另一範例的分解外觀圖。 -31 - (26) (26)200305652 第6圖是沿著銜合器在縱長方向上的中心線所截取的 縱長向剖面圖。 第7圖是一種可裝設在牛仔衣口袋或類似物之邊緣上 的裝飾性鈕扣的剖面圖。 第8圖是裝飾性鈕扣另一範例的剖面圖。 第9圖使用在外套或類似物上之裝飾性鈕扣的剖面圖 第1 〇圖是使用在衣物或類似物上的緊固鈕扣的剖面 圖。 桌11圖是按式鈕扣的剖面圖。 第1 2圖是按式鈕扣另一範例的剖面圖。 桌1 3圖是按式鈕扣另一範例的剖面圖。 元件符號表： 1 固定帶 2 核部 3 元件 4 頂擋件 5 底擋件 7 滑動固定鍊 11 銜合器本體 12 拉片 13 具閂爪之彈簧 14 彈簧部 32- (27)200305652 15 閂 爪 部 16 閂 爪 17 板 彈 簧 18 蓋 部 20 布料 21 連 接 構 件 22 覆 蓋 構 件 23 固 著 構 件 24 基 部 構 件 25 裝 飾 構 件 26 支 撐 構 件 3 1 母 鈕 扣 32 公 鈕 扣 33 母 構 件 33a 凹 入 部 34 公 構 件 34a 鼓 起 頭 部 35 母 固 定 構 件 36 公 固 定 構 件 37 覆 蓋 構 件 38 彈 簧 F 滑 動 固 定 件 S 銜 合 器 SI 銜 合 器 -33 200305652 (28) S2 銜合器 B 鈕扣 B 1 裝飾性鈕扣 B2 裝飾性鈕扣 B3 裝飾性鈕扣 B4 緊固鈕扣 S B 1按式鈕扣 S B 2按式紐扣 S B 3按式鈕扣 S B 4按式鈕扣Content > Parts (mass percentage) Other ingredients = Fe Ni equivalent C Si Mn Ni Cr N Mo Cu W Nb V Example 1 0.131 2.3 9.6 13.8 26.5 0.23 27.2 Example 2 0.065 0.6 3.8 13.0 20.3 0.04 19.9 Example 3 0.095 1.5 7.7 17.3 22.3 0.20 to 28.5 Example 4 0.065 1.1 6.0 20.2 23.6 0.08 29.3 Example 5 0.065 1.4 3.6 12.5 19.5 0.05 19.1 Example 6 0.093 0.8 5.1 13.6 17.7 0.06 Peak 21.3 Example 7 0.072 0.2 8.3 12.1 15.3 0.03 One 20.8 Example 8 0.062 0.6 5.1 13.6 19.5 0.04 __ 21.1 Example 9 0.059 0.6 4.3 13.2 20.1 0.03 19.7 Example 10 0.066 0.7 3.8 12.8 20.4 0.03 _ 19.7 Example 11 0.066 0.7 3.8 12.8 20.4 0.12 20.5 Example 12 0.070 0.3 6.5 10.3 20.0 0.10 Face 19.4 Example 13 0.072 0.3 3.0 12.3 19.0 0.15 19.7 Example 14 0.063 0.6 1.5 14.8 22.3 0.02 _ 20.5 Example 15 0.051 0.5 1.5 19.1 24.7 0.03 0.30 25.2 Example 16 0.073 0.6 3.0 12.2 18.9 0.13 1.50 19.3 Example 17 0.077 0.6 3.2 12.4 18.9 0.17 雠 0.20 20.1 Example 18 0.067 0.5 3.1 12.0 19.3 0.12 0.30 19.1 Example 19 0.059 0.6 3.2 12.3 18.9 0.11 0.33 19.2 Example 20 0.072 0.7 3.0 12.2 19.2 0.14 0.35 19.5 Comparative example 1 0.041 0.7 0.6 7.8 18.1 0.04 Reference 12.1 Comparative example 2 0.052 0.6 3.2 10.0 18.9 0.03 _ 16.1 Comparative example 3 0.040 0.8 2.0 12.0 17.8 0.03 Sun 17.0 Comparative Example 4 0.041 0.3 1.0 13.0 22.0 0.03 18.2 Comparative Example 5 0.055 0.6 0.8 8.1 18.3 0.03 12.6 Comparative Example 6 0.072 0.4 0.7 8.1 18.3 0.03 12.8 -25- (20) (20) 200305652 Shown in Table 1 The test materials (Examples 1 to 20) made of the stainless steel of the present invention were manufactured by the following method. In addition, comparative test materials were also manufactured in the same way. Weigh the ingredients shown in Table 1. In a high-frequency induction furnace, 30 kg of each component was melted by a general method, and cast into an ingot having a thickness of 10 mm and a width of 120 mm. Next, each ingot solution is processed, cold rolled to a thickness of 3 mm, intermediate annealing, cold rolled to a thickness of 1 to 5 mm, and finally annealed. The size of the material thus produced is 120 mm x 3 00 mm. The cold rolling operation is then carried out to achieve a rolling reduction ratio of 60%, and the materials thus produced are used as such test materials. For each prepared test material, the magnetic permeability was measured using a magnetic balancer Shimadzu MB-3 in a magnetic field of 1 kOe. The results obtained are shown in Table II. As can be seen from Table 2, the magnetic permeability of the test material of the present invention is quite low (not more than 1.05). In addition, for each of the prepared test materials, the degree of magnetization was also measured. The degree of magnetization of each test material is measured using an AC gradient force magnetometer (AGFM; model AFGM 2900-04C); a predetermined amount of test material is placed in the magnetic field of an electromagnet and generated by the electromagnet 18 The magnetic field of kilo Oersted (k0e) was measured by changing the magnetic field to a degree of 1 magnetization. The measurement operation is performed at a measurement speed of 50 microseconds per point. As can be seen from the results shown in Table 2, as far as the test material of the present invention is concerned, its degree of magnetization in a strong magnetic field of 18 kilo-oersted (k0e) is quite low, 5 5 0 memu / g or less. -26 · (21) 200305652 Table 2. Magnetization degree with magnetic permeability of 18 kilo Oersteds (kOe). Needle detection. Number of buttons when needle detection can be performed. 1.003 412 65 3 10 Example 2 1.002 422 67 3 10 Example 3 1.002 409 64 3 10 Example 4 1.003 403 60 3 10 Example 5 1.004 432 78 3 10 Example 6 1.003 415 68 3 10 Example 7 1.002 419 69 3 10 Example 8 1.003 414 68 3 10 Example 9 1.003 420 69 3 10 Example 10 1.002 431 72 3 10 Example 11 1.003 423 71 3 10 Example 12 1.002 435 79 3 10 Example 13 1.003 435 75 3 10 Example 14 1.003 428 73 3 10 Example 15 1.003 416 68 3 10 Example 16 1.003 545 86 3 10 Example 17 1.003 524 83 3 10 Example 18 1.003 490 82 3 10 Example 19 1.003 515 84 3 10 Example 20 1.004 528 84 3 10 Compare Example 1 1.21 8920 504 0 0 Compare Example 2 1.03 937 133 0 2 Comparative example 3 1.02 647 97 1 4 Comparative example 4 1.008 574 84 2 5 Comparative example 5 1.14 5029 398 0 1 Comparative example 6 1.12 5830 430 0 0 -27- (22) (22) 200305652 In addition, each Each test material uses a 15-meter piece X 15 mm X 0.4 mm, and measured for the needle detection Zhi. In the case of needle detection, in a static magnetic field type needle detector that can measure the amount of change in magnetic flux density caused by the passage of metal at a fixed speed, the magnetic flux density change corresponding to an iron ball of 0.8 mm diameter is The reference value (labeled) is set to 100 to 120. This number is used as the needle detection value when measuring the test material to be measured. The measurement results based on the above are shown in Table 2. The numbers 所示 shown in Table 2 are relative to the aforementioned reference 前述. As can be seen from the results in Table 2, the test material of the present invention has a relatively low needle detection threshold, which is 86 or less. In addition, the mother member 3 3, the mother fixing member 35, and the cover member 37 are made of each of the test materials prepared, and the male button 3 1 of the push button SB2 shown in FIG. 12 is made. . It is noted that the rolling operation is performed as described above, so that the rolling reduction ratio of the push button SB2 before the mother button 31 is 60%. Feed the prepared female buttons 31 into the needle detector 'and find out how many female buttons 31 can detect a specific broken needle. The number of 0.8 mm diameter iron balls in Table 2 is the number of female buttons 31 that can exist when a broken needle equivalent to 0.8 mm diameter iron balls can be detected, and 1.2 in Table 2 The number of millimeter diameter iron balls is the same as the number of female buttons 31 that can exist when a broken needle equivalent to a 1.2 millimeter diameter iron ball can be detected. As can be seen from Table 2, for the female button 31 made of each of the test materials of the present invention, a broken needle equivalent to an iron ball of 0.8 mm diameter can be used even if 3 female buttons 31 are present. Measured, and when detecting a broken needle equivalent to -28- (23) (23) 200305652 1.2 A stupefied a stupid iron ball, this broken needle can be detected even in the presence of 10 female buttons 〔α 31 Detected. These results indicate that when the broken needle is not inserted into the needle detector of the cloth crane, the button type U installed on the cloth can be used; if the needle detector is not passed through, it can be { I 'can be detected even when 3 to 10 push buttons pass through the needle detector at the same time. Secondly, the relationship between processing ratio (reduction ratio), hardness, degree of magnetization, and needle detection is also investigated. The test material was prepared so that the roll reduction during production was 60% as described above, and after the final annealing, cold rolling was not performed, so the roll reduction ratio was 0%. The hardness was measured by Vickers hardness at 20 kg, and the degree of magnetization and needle detection were measured as described above. The results obtained are shown in Table III. -29-(24) 200305652 Table 3 Magnetization Degree Needle Detection at 180 Kilo-Oersted (kOe) 针 0% 60% 0% 60% 0% 60% Example 1 176 422 401 412 61 65 Example 2 145 360 403 422 65 67 Example 3 172 409 398 409 63 64 Example 4 149 366 390 403 59 60 Example 5 144 363 428 432 73 78 Example 6 139 368 411 415 65 68 Example 7 140 367 408 419 65 69 Example 8 127 366 402 414 66 68 Example 9 132 370 497 420 67 69 Example 10 145 387 428 431 68 72 Example 11 173 408 417 423 68 71 Example 12 171 404 427 435 72 79 Example 13 177 420 428 435 73 75 Example 14 145 389 419 428 68 73 Example 15 143 380 406 416 64 68 Example 16 155 390 511 545 78 86 Example 17 165 419 495 524 75 83 Example 18 162 404 477 490 77 82 Example 19 164 405 492 515 78 84 Example 20 168 413 519 528 80 84 Comparison Example 1 141 382 821 8920 129 604 Comparative example 2 138 378 640 937 91 133 Comparative example 3 139 381 503 647 88 97 Comparative example 4 137 370 469 574 79 84 Comparative example 5 140 383 793 5029 107 398 Comparative example 6 138 379 713 5830 94 430 -30- (25) (25) 200305652 to As can be seen in Table 3, when the rolling reduction is relatively large, the hardness becomes higher, regardless of the rolling reduction ratio, the test materials of each example of the present invention have higher hardness than the test material of the comparative example. In addition, it can be seen that when the rolling reduction ratio is increased, the degree of magnetization of the test material in the comparative example becomes larger, and for the test material of each example of the present invention, the degree of magnetization is not affected by the rolling reduction ratio It can be seen that regardless of the rolling reduction ratio, the magnetization of the test material of each example of the present invention will be slower than that of the test material in the comparative example. In addition, in the material of the comparative example, the pin detection pin was significantly increased when the rolling reduction ratio was increased, but for the test material in the example of the present invention, the pin detection pin was not affected by the rolling reduction ratio. The stainless steel suitable for use with a needle detector according to the present invention can correctly detect whether a broken needle runs into clothes or the like during sewing operations. In addition, according to the sliding fixture and button of the present invention, it can provide a sliding fixture and button that can meet the characteristics required for its use, and it can be fitted with a needle detector, so that it can be correctly used in sewing operations. Detect if a broken needle has run into clothing or the like. [Brief description of the drawings] FIG. 1 is a schematic diagram of a sliding fixture. Fig. 2 is an external view of an adaptor to which the present invention can be applied. Fig. 3 is a sectional view of an adaptor to which the present invention can be applied. Fig. 4 is an external view of another example of the adaptor. Figure 5 is an exploded view of another example of an adaptor. -31-(26) (26) 200305652 Figure 6 is a longitudinal section view taken along the centerline of the adaptor in the longitudinal direction. Figure 7 is a cross-sectional view of a decorative button that can be mounted on the edge of a denim pocket or the like. Fig. 8 is a sectional view of another example of the decorative button. Fig. 9 is a sectional view of a decorative button used on a coat or the like. Fig. 10 is a sectional view of a fastening button used on a clothes or the like. Table 11 is a sectional view of the push button. Figure 12 is a sectional view of another example of a push button. Table 1 3 is a cross-sectional view of another example of a push button. Component symbol table: 1 Fixing band 2 Core 3 Element 4 Top stop 5 Bottom stop 7 Sliding fixing chain 11 Adapter body 12 Pull tab 13 Spring with latch claw 14 Spring part 32- (27) 200305652 15 Latch claw Section 16 Latch 17 Leaf spring 18 Cover 20 Cloth 21 Connecting member 22 Covering member 23 Fixing member 24 Base member 25 Decorative member 26 Supporting member 3 1 Female button 32 Male button 33 Female member 33a Recessed portion 34 Male member 34a Swells Head 35 Female fixing member 36 Male fixing member 37 Covering member 38 Spring F Slide fixing member S Coupler SI Coupler-33 200305652 (28) S2 Coupler B Button B 1 Decorative button B2 Decorative button B3 Decoration B4 Fastening button SB 1 Push button SB 2 Push button SB 3 Push button SB 4 Push button

Claims (1)

(1) (1)200305652 拾、申請專利範圍 1 . 一種適於使用檢針器的不鏽鋼，其在1千奧斯特 (kOe)之磁場內具有1.005或更低的導磁率，以及在18千 奧斯特（kOe)磁場內爲5 5 0 memu/g或更低的磁化程度。 2.根據申請專利範圍第1項之適於使用檢針器的不鏽 鋼，進一步具有1.2公釐直徑鐵球或更小者的針檢測性能 〇 3 .根據申請專利範圍第1項之適於使用檢針器的不鏽 鋼，進一步具有〇. 8公釐直徑鐵球或更小者的針檢測性能 〇 4. 根據申請專利範圍第1項之適於使用檢針器的不鏽 鋼，在質量百分比上包含有0.0 1至0 . 1 5 %的C、0.1至5 % 的 Si、1 至 10%的 Μη、8 至 25% 的 Ni、14 至 30% 的 Cr、 〇·〇1至0.25%的N，其餘爲Fe及雜質，其中Ni當量爲19 或更大値，且定義爲Ni當量=Ni + 0·6Μη + 9.69 (C + N) + 〇· 1 8Cr - 0· 1 1 Si2 〇 5. 根據申請專利範圍第4項之適於使用檢針器的不鏽 鋼，在質量百分比上進一步包含有至少一種自包含有a) 〇·5至3%的Cu、b) 0.05至0.5%的至少一種選自包含有 Nb、W和V之族群的元素、以及c) 0. 1至2°/。的Mo等的 族群中選出的添加元素。 6. 根據申請專利範圍第1項之適於使用檢針器的不鏽 鋼’其中該針檢測性能是在進行60%縮減比的冷軋作業後 仍加以維持。 -35- (2) (2)200305652 7. —種適於使用檢針器的滑動固定件，包含有： 多個元件，裝設在一對固定帶之互相面對的邊緣部位 上； 擋件，裝設在該等元件之二側末端；以及 一銜合器，可開啓及關閉該等元件， 其中至少有一個自包含有該等元件、擋件和銜合器， 以及其構成零組件之族群內選出的構件是由適於使用檢針 器，且在1千奧斯特（k〇e)之磁場內具有1.005或更低的 導磁率，以及在18千奧斯特（kOe)磁場內爲550 memu/g 或更低的磁化程度的不鏽鋼所製成的。 8 .根據申請專利範圍第7項之適於使用檢針器的滑動 固定件，具有1.2公釐直徑鐵球或更小者的針檢測性能。 9.根據申請專利範圍第7項之適於使用檢針器的滑動 固定件，具有0.8公釐直徑鐵球或更小者的針檢測性能。 1 〇.根據申請專利範圍第7項之適於使用檢針器的滑 動固定件，其中該滑動固定件的銜合器包含有一銜合器本 體、一個設置在該本體上的拉片，以及一個可藉由該拉片 之操作而擺動，且可由推壓裝置施加之力量而被朝向該銜 合器本體側推壓的閂爪，至少該推壓裝置係由適於使用檢 針器的不鏽鋼所製成的。 1 1 .根據申請專利範圍第1 〇項之適於使用檢針器的 滑動固定件，其中該銜合器之推壓裝置是一個包含該閂爪 的彈簧，或是一個可設置在該閂爪上的彈簧。 12.—種適於使用檢針器的鈕扣，包含有一個設置在 -36- (3) (3)200305652 布料前表面上的前表面構件，以及一個設置在布料反向表 面上的基底構件，其係藉由將該前表面構件與該基底構件 嚙合在一起而固定在該布料上， 其中至少有一個自包含有該前表面構件和基底構件， 以及其構成零組件之族群內選出的構件是由適於使用檢針 器，且在1千奧斯特（kOe)之磁場內具有1.00 5或更低的 導磁率，以及在18千奧斯特（kOe)磁場內爲5 5 0 memu/g 或更低的磁化程度的不鏽鋼所製成的。 13. 根據申請專利範圍第12項之適於使用檢針器的鈕 扣，具有1.2公釐直徑鐵球或更小者的針檢測性能。 14. 根據申請專利範圍第12項之適於使用檢針器的鈕 扣，具有0.8公釐直徑鐵球或更小者的針檢測性能。 1 5 . —種適於使用檢針器的鈕扣，包含有一對鈕扣， 包含有一公鈕扣，其係固定在布料上，並且在其一表面上 具有一個向外突出的鼓起頭部，以及一母鈕扣，係固定在 布料上，且具有一個凹入部，其係與該公鈕扣的鼓起頭分 開而可與之嚙合， 其中至少有一個自包含有該公鈕扣和該母鈕扣，以及 其構成零組件之族群內選出的構件是由適於使用檢針器， 且在1千奧斯特（kOe)之磁場內具有1.005或更低的導磁 率，以及在18千奧斯特（kOe)磁場內爲5 5 0 memu/g或更 低的磁化程度的不鏽鋼所製成的。 -37-(1) (1) 200305652, patent application scope 1. A stainless steel suitable for use with a needle detector, which has a magnetic permeability of 1.005 or lower in a magnetic field of 1 thousand Oersted (kOe), and a magnetic permeability of 18 thousand The degree of magnetization in the magnetic field of Ost (kOe) is 5 50 memu / g or less. 2. Stainless steel suitable for use with a needle detector according to item 1 of the scope of patent application, further having needle detection performance of iron balls of 1.2 mm diameter or smaller. 3 According to application 1 The stainless steel of the needle device further has a needle detection performance of 0.8 mm diameter iron balls or smaller. 4 According to the first patent application scope, the stainless steel suitable for using the needle detector includes 0.0 in mass percentage. 1 to 0.15% C, 0.1 to 5% Si, 1 to 10% Mη, 8 to 25% Ni, 14 to 30% Cr, 0.001 to 0.25% N, and the rest are Fe and impurities, in which the Ni equivalent is 19 or more 定义, and is defined as Ni equivalent = Ni + 0 · 6Μη + 9.69 (C + N) + 〇 · 1 8Cr-0 · 1 1 Si2 〇5. According to the scope of the patent application The stainless steel suitable for the needle detector of item 4, further includes at least one kind of self-contained a) Cu to 5 to 3%, b) at least one to 0.05 to 0.5% selected from the group consisting of Nb. , Elements of the groups W, V, and c) 0.1 to 2 ° /. Mo and other selected elements from the group. 6. The stainless steel suitable for use with a needle detector according to item 1 of the scope of the patent application, wherein the needle detection performance is maintained after a cold rolling operation with a reduction ratio of 60%. -35- (2) (2) 200305652 7. —A sliding fixture suitable for using a needle detector, comprising: a plurality of components, which are installed on the facing edge portions of a pair of fixing bands; a stopper Installed on the two side ends of the components; and an adapter that can open and close the components, at least one of which self-contains the components, stoppers and adapters, and its components The components selected in the group are made of needle detectors that have a magnetic permeability of 1.005 or less in a magnetic field of 1 kOe and a magnetic field of 18 kOe. Made of stainless steel with a magnetization of 550 memu / g or less. 8. The sliding fixture suitable for use with a needle detector according to item 7 of the scope of patent application, has a needle detection performance of a 1.2 mm diameter iron ball or smaller. 9. The sliding fixture suitable for using a needle detector according to item 7 of the scope of patent application, has a needle detection performance of 0.8 mm diameter iron balls or smaller. 1 〇. A sliding fixture suitable for using a needle detector according to item 7 of the scope of patent application, wherein the adaptor of the sliding fixture includes an adaptor body, a pull-tab provided on the body, and a A latch pawl that can be swung by the operation of the pull tab, and can be pushed toward the adapter body side by the force applied by the pushing device, at least the pushing device is made of stainless steel suitable for using a needle detector Made of. 1 1. The sliding fixture suitable for use with a needle detector according to item 10 of the scope of the patent application, wherein the pushing device of the adapter is a spring containing the latch claw, or it can be provided on the latch claw On the spring. 12. A button suitable for using a needle detector, comprising a front surface member provided on the front surface of -36- (3) (3) 200305652, and a base member provided on the reverse surface of the cloth, It is fixed on the cloth by engaging the front surface member and the base member together, at least one of which is selected from the group consisting of the front surface member and the base member, and the components that constitute the component are It is suitable for use with a needle detector and has a magnetic permeability of 1.00 5 or less in a magnetic field of 1 kilo Oersted (kOe) and 5 5 0 memu / g in a magnetic field of 18 kilo Oersted (kOe) Or lower magnetized stainless steel. 13. According to item 12 of the patent application, a button suitable for use with a needle detector has a needle detection performance of a 1.2 mm diameter iron ball or smaller. 14. According to item 12 of the scope of the patent application, a button suitable for use with a needle detector has a needle detection performance of 0.8 mm diameter iron balls or smaller. 1 5. A button suitable for use with a needle detector, comprising a pair of buttons, including a male button, which is fixed to the fabric, has a protruding head protruding outward on one surface, and a The female button is fixed on the fabric and has a recessed portion which is separated from the bulging head of the male button and can be engaged therewith, at least one of which contains the male button and the female button, and constitutes zero The components selected in the group of components are made of suitable needle detectors and have a magnetic permeability of 1.005 or less in a magnetic field of 1 kOe and a magnetic field of 18 kOe. Made of stainless steel with a magnetization of 5 50 memu / g or less. -37-