WO2019095341A1 - 数据线插接头焊接定位模具 - Google Patents

数据线插接头焊接定位模具 Download PDF

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Publication number
WO2019095341A1
WO2019095341A1 PCT/CN2017/111765 CN2017111765W WO2019095341A1 WO 2019095341 A1 WO2019095341 A1 WO 2019095341A1 CN 2017111765 W CN2017111765 W CN 2017111765W WO 2019095341 A1 WO2019095341 A1 WO 2019095341A1
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Prior art keywords
spring
positioning
separating
data line
positioning device
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PCT/CN2017/111765
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English (en)
French (fr)
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孙生强
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孙生强
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Publication of WO2019095341A1 publication Critical patent/WO2019095341A1/zh

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23KSOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
    • B23K37/00Auxiliary devices or processes, not specially adapted to a procedure covered by only one of the preceding main groups
    • B23K37/04Auxiliary devices or processes, not specially adapted to a procedure covered by only one of the preceding main groups for holding or positioning work
    • B23K37/0426Fixtures for other work
    • B23K37/0435Clamps
    • B23K37/0443Jigs
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23KSOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
    • B23K2101/00Articles made by soldering, welding or cutting
    • B23K2101/36Electric or electronic devices

Definitions

  • the invention relates to a tool, in particular to a data line plug joint welding positioning mold.
  • the data line mainly comprises a plug connector and a total strand conductor connected to the plug connector, wherein the total strand conductor has a plurality of independent strands, and each strand has a corresponding lead electrode on the plug connector. Solder together, for this reason, before the welding, each strand must be aligned with the lead on the plug connector.
  • the existing method of aligning the strand with the lead is mainly by hand. After a split wire is aligned with the lead electrode, the welding is performed, and all the welding fixes are completed in sequence.
  • the object of the present invention is to address the existing data line welding production process: the pilot electrode on the plug connector and the stranded wire are not easily aligned, and thus the welding efficiency is low and the welding quality is poor. Defect, the present invention provides a data line plug joint welding positioning mold, which overcomes the above-mentioned defects existing in the welding production process of the existing data line.
  • a data line plug joint welding positioning mold which is composed of a first spring chip type snapping device 1, a bottom plate 2, a separating and positioning device 3, and a rotating shaft seat 4 , shaft 5, second spring piece clamping device 6, spring pressing piece
  • the bottom plate 2 is an elongated strip-shaped structure, and a first spring-plate type snapping device 1 made of a spring piece is disposed in the longitudinal direction of the bottom plate 2, the first A spring-plate type snapping device 1 is used for positioning the main strands 8.
  • the first spring-plate type snapping device 1 is an open-up U-shaped structure, and further: the first spring The chip type snap device 1 is any one of an integral structure or a split structure, and is fixedly disposed and separated on the bottom plate (2) in the direction of the center line of the opening of the first spring chip type carding device (1).
  • the device 3, the separating and positioning device 3 is provided with a plurality of open slots 13, and the open slots 13 are any one of a circular arc shape or a V-shaped structure, on the side of the separating and positioning device 3
  • the bottom plate 2 is disposed on the bottom plate 2, and one end of the spring pressing piece 7 is movably hinged on the rotating shaft seat 4 through the rotating shaft 5.
  • the other end of the spring pressing piece 7 has an inner curved card joint 12, and the inner curved card joint 12 can be Conveniently snapped into the snap slot 11 provided on the other side of the separation and positioning device 3, or from the card
  • the slots 11 are separated so as to fix the stranded conductors 9 that are clustered together in the open slot 13 of the separating and positioning device 3, and the second base 2 attached to the other side of the separating and positioning device 3 is fixedly mounted with a second a spring leaf type snap device 6, the second spring chip type snap device 6 is used for positioning the plug connector 10, and further, the second spring chip type snap device 6 is an open U-shaped structure Further, the second spring chip type snap device 6 is any one of a unitary structure and a split structure.
  • the working process of the present invention is such that the plug connector 10 is snapped into the second spring-plate type snap-in device 6, and the end protective rubber of the total strand wire 8 is peeled off before the split strand 9 is exposed.
  • the strand guiding 8 card is connected in the spring chip type engaging device 1, and each stranded wire 9 is placed in the opening groove 13 of the separating and positioning device 3, and is pressed by the spring pressing piece 7, At the same time, the card joint 12 of the spring pressing piece 7 is pressed against the engaging groove 11, and each of the stranded wires 9 at this time is in contact with the conductive electrode on the plug connector 10. At this time, each of the stranded wires can be connected. 9 is welded to the wires on the plug connector 10.
  • Figure 1 is a schematic view of the principle of the present invention
  • Figure 2 is a cross-sectional view taken along line A-A, B-B of Figure 1;
  • Figure 3 is a cross-sectional view taken along line C-C of Figure 1;
  • Figure 4 is a cross-sectional view taken along line D-D of Figure 1;
  • Figure 5 is a detailed structural view of the separating and positioning device of Figure 1.
  • the figure shows: 1 is a spring-plate type snap-on device, 2 is a bottom plate, 3 is a separation and positioning device, 4 is a rotating shaft seat, 5 is a rotating shaft, 6 is a second spring piece engaging device, 7 is a spring pressing piece, 8 is a total strand wire, 9 is a stranded wire, 10 is a plug connector, 11 is a snap groove, 12 is a card joint, and 13 is an open groove.
  • a specific embodiment of the present invention is to provide a first spring-plate type snap device 1 made of a spring piece in the longitudinal direction of the bottom plate 2 .
  • the first spring chip type snap device 1 is used for positioning the total strand wire 8. Further, the first spring chip type snap device 1 is an open U-shaped structure.
  • the first spring chip type card-attaching device 1 is any one of a unitary structure and a separate structure, and is on the bottom plate 2 in the direction of the center line of the opening of the first spring-plate type card-attaching device 1
  • the separation and positioning device 3 is fixedly disposed, and the separation and positioning device 3 is provided with a plurality of open slots 13 which are any one of a circular arc shape or a V-shaped structure, in the separation and
  • the bottom plate 2 on one side of the positioning device 3 is disposed on the bottom plate 2, and one end of the spring pressing piece 7 is movably hinged to the rotating shaft seat 4 via the rotating shaft 5.
  • the other end of the spring pressing piece 7 has an inner bent card joint 12, which is inside.
  • the bent card connector 12 can be conveniently snapped into or separated from the latching slot 11 provided on the other side of the separating and positioning device 3, so as to fix the stranded wires 9 that are clustered together.
  • a second spring-plate type snapping device 6 is fixedly mounted on the bottom plate 2 on the other side of the separating and positioning device 3, and the second spring-plate type is engaged.
  • the device 6 is for positioning the plug connector 10, further, the second spring Snap-type apparatus 6 is upwardly open U-shaped structure, and then further: said second spring means connected to the chip card 6 or any of a unitary structure separate structures.

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  • Physics & Mathematics (AREA)
  • Optics & Photonics (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Wire Processing (AREA)
  • Details Of Connecting Devices For Male And Female Coupling (AREA)

Abstract

一种数据线插接头焊接定位模具,它是在底板(2)长度方向上,设置有用弹簧片做出的第一弹簧片式卡接装置(1),在与第一弹簧片式卡接装置(1)的开口中心线方向的底板(2)上,固定设置有分离与定位装置(3),分离与定位装置(3)上设置若干开口槽(13),在分离与定位装置(3)一侧的底板(2)上设置有转轴座(4),弹簧压片(7)的一端通过转轴(5)活动地铰接在转轴座(4)上,弹簧压片(7)的另外一端具有内弯的卡接头(12),该内弯的卡接头(12)可以方便地卡接在设置在分离与定位装置(3)另外一侧的卡接槽(11)内,或从卡接槽(11)内分离;在紧靠分离与定位装置(3)另外一侧的底板(2)上固定安装有第二弹簧片卡接装置(6);该定位模具具有效率较高,劳动强度较低,以及安全可靠的优点。

Description

数据线插接头焊接定位模具 技术领域
本发明涉及一种工具,具体涉及数据线插接头焊接定位模具。
背景技术
众所周知:数据线主要包括插接头以及与插接头相连的总股导线组成,所述的总股导线内具有若干根独立的分股线,每一根分股线与插接头上对应的一个导电极焊接在一起,为此,在焊接之前,必须使每一根的分股线与插接头上的导电极对正,现有的使分股线与导电极对正的方法主要采用手工使其中的一根分股线与导电极对正后,再实施焊接,并依次完成所有焊接固定,显然,由于每一根总股线内的分股线与插接头上的导电极排列比较密集,所以,将每一根的分股线与其对应的插接头上的导电极对正比较困难,不但影响到焊接的效率,同时,也影响到焊接的质量,对此,目前还没有一个比较好的办法。发明内容
本发明的目的在于:针对现有数据线焊接生产过程中所存在的:插接头上的导电极与分股导线之间不易对正,以及因此而造成的焊接效率较低以及焊接质量较差的缺陷,本发明提供一种数据线插接头焊接定位模具,克服现有数据线在焊接生产过程中所存在的上述缺陷。
本发明实现上述目的所采用的技术方案是:所述的一种数据线插接头焊接定位模具,它是由第一弹簧片式卡接装置1、底板2、分离与定位装置3、转轴座4、转轴5、第二弹簧片卡接装置6、弹簧压片 7所组成,所述的底板2是一长条形的板状结构,在所述的底板2长度方向上,设置有用弹簧片做出的第一弹簧片式卡接装置1,所述的第一弹簧片式卡接装置1用于将总股导线8定位,进一步的,所述的第一弹簧片式卡接装置1是开口向上的U型结构,再进一步地:所述的第一弹簧片式卡接装置1是整体结构或分体结构中的任意一种,在与第一弹簧片式卡接装置(1)的开口中心线方向的底板(2)上,固定设置有分离与定位装置3,所述的分离与定位装置3上设置若干开口槽13,所述的开口槽13是圆弧形或V型结构中的任意一种,在所述的分离与定位装置3一侧的底板2上设置由于转轴座4,弹簧压片7的一端通过转轴5活动地铰接在转轴座4上,弹簧压片7的另外一端具有内弯的卡接头12,该内弯的卡接头12可以方便地卡接在设置在分离与定位装置3另外一侧的卡接槽11内,或从卡接槽11内分离,以便于将团簇在一起的分股导线9固定在分离与定位装置3的开口槽13内,在紧靠分离与定位装置3另外一侧的底板2上固定安装有第二弹簧片式卡接装置6,所述的第二弹簧片式卡接装置6用于将插接头10定位,进一步的,所述的第二弹簧片式卡接装置6是开口向上的U型结构,再进一步地:所述的第二弹簧片式卡接装置6是整体结构或分体结构中的任意一种。
本发明的工作过程是这样的:预先将插接头10卡接在第二弹簧片式卡接装置6内,总股导线8的端部保护胶皮预先剥离后露出分股导线9,此时将总股导向8卡接在弹簧片式卡接装置1内,将每一根分股导线9置于分离与定位装置3的开口槽13内,用弹簧压片7压住, 并同时将弹簧压片7的卡接头12按压在卡接槽11,此时的每一根分股导线9与插接头10上的导电极相接触,此时,便可以将每一个分股导线9与插接头10上的导线相焊接。
有益效果:与本发明的结构以及工作过程可以知道,由于分股导线与插接头上的导电极定位不依赖于手工,且一次可以完成全部需要焊接部位的定位,所以,本发明具有效率较高,劳动强度较低,并且具有安全可靠的优点。
附图说明
图1是本发明的原理总图;
图2是图1的A-A,B-B截面图;
图3是图1的C-C截面图;
图4是图1的D-D截面图;
图5是图1中分离与定位装置具体结构图。
图中所示:1是弹簧片式卡接装置、2是底板、3是分离与定位装置、4是转轴座、5是转轴、6是第二弹簧片卡接装置、7是弹簧压片、8是总股导线、9是分股导线、10是插接头、11是卡接槽、12是卡接头、13是开口槽。
具体实施方式
结合图1、图2、图3、图4、图5,本发明的具体实施方式是:在所述的底板2长度方向上,设置有用弹簧片做出的第一弹簧片式卡接装置1,所述的第一弹簧片式卡接装置1用于将总股导线8定位,进一步的,所述的第一弹簧片式卡接装置1是开口向上的U型结构, 再进一步地:所述的第一弹簧片式卡接装置1是整体结构或分体结构中的任意一种,在与第一弹簧片式卡接装置1的开口中心线方向的底板2上,固定设置有分离与定位装置3,所述的分离与定位装置3上设置若干开口槽13,所述的开口槽13是圆弧形或V型结构中的任意一种,在所述的分离与定位装置3一侧的底板2上设置由于转轴座4,弹簧压片7的一端通过转轴5活动地铰接在转轴座4上,弹簧压片7的另外一端具有内弯的卡接头12,该内弯的卡接头12可以方便地卡接在设置在分离与定位装置3另外一侧的卡接槽11内,或从卡接槽11内分离,以便于将团簇在一起的分股导线9固定在分离与定位装置3的开口槽13内,在紧靠分离与定位装置3另外一侧的底板2上固定安装有第二弹簧片式卡接装置6,所述的第二弹簧片式卡接装置6用于将插接头10定位,进一步的,所述的第二弹簧片式卡接装置6是开口向上的U型结构,再进一步地:所述的第二弹簧片式卡接装置6是整体结构或分体结构中的任意一种。

Claims (6)

  1. 一种数据线插接头焊接定位模具,其特征在于:它是由第一弹簧片式卡接装置(1)、底板(2)、分离与定位装置(3)、转轴座(4)、转轴(5)、第二弹簧片卡接装置(6)、弹簧压片(7)所组成,所述的底板(2)是一长条形的板状结构,在底板(2)长度方向上,设置有用弹簧片做出的第一弹簧片式卡接装置(1),在与第一弹簧片式卡接装置(1)的开口中心线方向的底板(2)上,固定设置有分离与定位装置(3),分离与定位装置(3)上设置若干开口槽(13),在分离与定位装置(3)一侧的底板(2)上设置由于转轴座(4),弹簧压片(7)的一端通过转轴(5)活动地铰接在转轴座(4)上,弹簧压片(7)的另外一端具有内弯的卡接头(12),该内弯的卡接头(12)可以方便地卡接在设置在分离与定位装置(3)另外一侧的卡接槽(11)内,或从卡接槽(11)内分离,在紧靠分离与定位装置(3)另外一侧的底板(2)上固定安装有第二弹簧片式卡接装置(6)。
  2. 根据权利要求1所述的数据线插接头焊接定位模具,其特征在于:第一弹簧片式卡接装置(1)是开口向上的U型结构。
  3. 根据权利要求2所述的第一弹簧片式卡接装置(1)是整体结构或分体结构中的任意一种。
  4. 根据权利要求1所述的数据线插接头焊接定位模具,其特征在于:所述的开口槽(13)是圆弧形或V型结构中的任意一种。
  5. 根据权利要求1所述的数据线插接头焊接定位模具,其特征在于:第二弹簧片式卡接装置(6)是开口向上的U型结构。
  6. 根据权利要求5所述的数据线插接头焊接定位模具,其特征在于: 所述的第二弹簧片式卡接装置(6)是整体结构或分体结构中的任意一种。
PCT/CN2017/111765 2017-11-15 2018-01-04 数据线插接头焊接定位模具 WO2019095341A1 (zh)

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