会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明公开
    • APPARATUS AND METHOD FOR TRANSFERRING SPRINGS
    • 用于转移弹簧的装置和方法
    • EP2882681A1
    • 2015-06-17
    • EP13759559.1
    • 2013-08-08
    • Harrison Spinks Components Limited
    • CLARE, DavidSPINKS, SimonGALLAGHER, Michael
    • B68G9/00
    • B65G15/58B68G9/00
    • A spring transfer apparatus, shown generally at 10, is positioned adjacent a spring coiling machine 12 (shown only schematically). The transfer apparatus comprises a conveying substrate in the form of a belt 14 arranged in an endless loop and driven in a direction A by a motor 16. The belt comprises a plurality of magnetic spring holders 18 which are arranged in use to accept steel wire springs 20 from the coiling machine 12. Each of the magnetic spring holders has a pair of ferro-magnets 18a for holding the steel springs. The magnets are arranged such that identical poles are adjacent. The apparatus is arranged such that the magnets begin to attract the formed springs before they are cut from the length of wire by the spring coiling machine.
    • 总体在(10)处示出的弹簧传送设备与弹簧卷绕机(12)(仅示意性地示出)相邻定位。 该传送设备包括呈环形回路布置并且由马达(16)在方向A上驱动的皮带(14)形式的传送基板。 该皮带包括多个磁性弹簧夹持器(18),该多个磁性弹簧夹持器(18)在使用中布置成接纳来自卷绕机器(12)的钢丝弹簧(20)。 每个磁性弹簧座都具有一对用于保持钢质弹簧的铁磁体(18a)。 磁体被布置成使得相同的磁极相邻。 该装置被布置成使得磁体在由弹簧卷绕机器从一段线切割之前开始吸引形成的弹簧。
    • 9. 发明公开
    • RESILIENT UNIT AND METHOD OF MANUFACTURE
    • 弹性装置和制造方法
    • EP3288424A1
    • 2018-03-07
    • EP16725199.0
    • 2016-04-28
    • Harrison Spinks Components Limited
    • SPINKS, Simon
    • A47C27/06A47C31/10
    • A47C27/064A01K1/0353A47C27/062A47C31/105B68G7/05
    • A resilient unit is shown generally at 10, and comprises a structural portion (12) and a support portion (14). The structural portion is formed by rows of large pocketed metallic coil springs (16). In particular two rows of slightly longer pocketed springs (16a) form the side walls (S) of the structural portion, whilst an array of slightly shorter ones (16b) form a base (B) of the structural portion. The support portion (14) is formed of a pocketed spring unit (18) comprising a plurality of metal coil springs individually encased in pockets formed by layers of thermally weldable, non-woven material that are joined together at locations between the springs. The raised side walls (S) formed by the rows of tall springs (16a) form a recess within which the pocketed spring unit (18) rests on the springs of the base (B). No adhesive is used in the resilient unit (10). The tall springs are formed in rows by welding layers of the pocket material together along seams that run axially beside the springs. The rows themselves are then joined by thermally welding together their edges and/or their ends, or by welding a common layer of material across the ends of the pocketed springs. The spring unit (18) is loosely rested upon the base so that it may be removed and replaced with another, similar unit of a different gauge, or combined with such another unit.