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
    • 1. 发明申请
    • WIRE SHAPING APPARATUS AND METHOD OF SHAPING A WIRE
    • 线成形装置和成形线的方法
    • WO2017207999A1
    • 2017-12-07
    • PCT/GB2017/051569
    • 2017-06-01
    • HARRISON SPINKS COMPONENTS LIMITED
    • SPINKS, SimonCLARE, David
    • B21F3/02B21D7/00B21D7/12B21F35/00B21F11/00
    • Apparatus for forming wire components, which are in this example springs, comprises a supply station (202), for supplying spring forming material, such as metallic wire W. The supply station includes a pair of guide rollers (204) and pair of driven feed rollers (206), mounted on a heavy support plate (216). The wire is fed through a flexible sheath FS to a remotely located wire shaping device, in particular a spring forming device 208, comprising forming tools (210), a pitch control tool (212) and a cutter (214). The forming tools (210) and the pitch control tool (212) form the wire into a spring S, which is cut from the supply of wire when it is complete. The tools (210, 212) and cutter (214) are controlled remotely from a control station (220) via a bundle of flexible control cables (222), which may include a power cable. The spring forming device 208 is mounted on a positioning member (224), such as a robot arm or moveable table, configured for three-dimensional movement, and/or optionally adjustments in inclination. Without the heavy plate (216) and rollers (205, 206), the spring forming device (208) is sufficiently light in weight and compact as to be moved by the positioning member (224) to a location in which springs are to be used, thereby avoiding the need for transportation apparatus to convey the springs from the place where they are formed to the place where they are to be used.
    • 用于形成金属丝构件的设备(在该实例中为弹簧)包括供应站(202),用于供应诸如金属线W的弹簧成形材料。供应站包括一对导辊 (204)和安装在重载板(216)上的一对从动进料辊(206)。 通过柔性护套FS将丝线馈送到位于远处的丝线成形装置,特别是包括成形工具(210),倾斜控制工具(212)和切割器(214)的弹簧成形装置208。 成形工具(210)和倾斜控制工具(212)将线材形成为弹簧S,弹簧S在完成时从线材的供给中切割下来。 工具(210,212)和切割器(214)经由可以包括电力电缆的一捆柔性控制电缆(222)从控制站(220)远程控制。 弹簧形成装置208安装在定位构件(224)上,例如机器人臂或可移动台,其被构造成用于三维移动,和/或可选地调整倾斜度。 在没有厚板216和滚轮205,206的情况下,弹簧形成装置208的重量和紧凑程度足够轻以便被定位构件224移动到弹簧将被使用的位置 ,从而避免了运输设备将弹簧从它们形成的地方运送到它们将被使用的地方的需要。
    • 4. 发明申请
    • POCKETED SPRING UNIT AND METHOD AND APPARATUS FOR FORMING THE SAME
    • 弹簧弹簧单元及其形成方法和装置
    • WO2015114361A1
    • 2015-08-06
    • PCT/GB2015/050236
    • 2015-01-30
    • HARRISON SPINKS COMPONENTS LIMITED
    • CLARE, DavidSPINKS, Simon PaulESSERY, RichardGALLAGHER, Michael
    • A47C27/06B68G9/00B68G15/00
    • B68G9/00A47C27/064B68G15/00
    • A method of forming a pocketed spring unit (38) for an upholstered article comprises taking successive strings (16) of pocketed springs and welding at least one sheet of material (20) to at least a first end of the pocketed springs. Anvils (46) are moved from a non- operative position to an operative position, in which they are located between adjacent pockets at upper and lower ends of the springs. This embodiment makes use of the surplus material that is formed at the ends of the pockets in the form of flaps (50) or "ears" of material. These flaps (50) protrude upwardly initially, and then become folded flat as the spring unit advances between the rolls (48) of material. The external anvils (44) are then made to apply heat and pressure to the material flaps (50) trapped between them and the internal anvils (46) at the sides of the pockets, between the springs to weld them to the material from the rolls (48).
    • 形成用于软垫制品的袋状弹簧单元(38)的方法包括取下连续的袋状弹簧(16)并将至少一片材料(20)焊接到所述袋状弹簧的至少第一端。 砧座(46)从非操作位置移动到操作位置,在该位置处,它们位于弹簧的上端和下端处的相邻凹部之间。 该实施例利用形成在袋的端部处的材料的襟翼(50)或“耳朵”形式的剩余材料。 这些翼片(50)首先向上突出,然后当弹簧单元在材料辊(48)之间前进时变得平坦。 然后制造外部砧座(44),以将热和压力施加到夹在它们之间的材料襟翼(50)和位于弹簧两侧的内部砧座(46)之间,以将其焊接到来自辊子的材料 (48)。
    • 5. 发明申请
    • APPARATUS AND METHOD FOR TRANSFERRING SPRINGS
    • 用于传送弹簧的装置和方法
    • WO2014023974A1
    • 2014-02-13
    • PCT/GB2013/052130
    • 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.
    • 大体上(10)所示的弹簧传送装置邻近弹簧卷绕机(12)定位(仅示意性地示出)。 传送装置包括以无端环路布置的带(14)形式的传送基板,并通过马达(16)沿A方向驱动。 带包括多个磁性弹簧保持器(18),它们在使用中被布置成从卷取机器(12)接纳钢丝弹簧(20)。 每个磁性弹簧座具有用于保持钢弹簧的一对铁磁体(18a)。 磁体被布置成使得相同的极相邻。 该装置被布置成使得磁体在通过弹簧卷绕机从电线长度切割之前开始吸引成形弹簧。
    • 7. 发明申请
    • APPARATUS AND METHOD FOR MAKING A RESILIENT UNIT
    • 用于制造回弹仪的装置和方法
    • WO2017153758A2
    • 2017-09-14
    • PCT/GB2017/050631
    • 2017-03-09
    • HARRISON SPINKS COMPONENTS LIMITED
    • SPINKS, SimonCLARE, David
    • A47C27/06B68G9/00
    • Apparatus for forming a resilient unit comprises a conveyor (210) and first and second spring supply stations (212 and 214), arranged in use to deposit respectively first and second spring types (216 and 218) under compression onto the conveyor. The conveyor is arranged in use to convey a row of the springs (216, 218) in a direction shown by Arrows A4 towards pocketing station (220). At the pocketing station (220) the springs are urged from the conveyor into positions between upper and lower sheets (222 and 224), by a plurality of inserter devices (226) that move together in a reciprocating fashion in the direction of arrow A5, before retracting to the position shown. After each row of springs is inserted between the sheets (222), upper and lower computer-controlled welding tools (not shown) come together at positions P between the springs to join the sheets together, forming pockets in which the springs are encased. After each welding event the resilient unit is indexed forwards a distance equal to one pocket width in the direction of Arrows A6 by computer-controlled drive means (not shown). The next row of springs is then conveyed into position ready for insertion between the sheets of material, and the process is repeated. The two spring supply stations are arranged to supply springs that differ from one another in at least one characteristic.
    • 用于形成弹性单元的设备包括输送机(210)和第一和第二弹簧供应站(212和214),所述第一和第二弹簧供应站(212和214)被布置成在使用时分别将第一和第二弹簧类型(216和218) 压缩到传送带上。 传送器布置成在箭头A4所示的方向上朝向袋装工位(220)传送一排弹簧(216,218)。 在袋装台(220)处,通过多个沿箭头A5的方向以往复方式一起移动的插入器装置(226)将弹簧从传送器推进到上片和下片(222和224)之间的位置, 在缩回到所示的位置之前。 在每排弹簧插入片材(222)之间之后,上部和下部计算机控制的焊接工具(未示出)在弹簧之间的位置P处聚集在一起,形成容纳弹簧的凹穴。 在每次焊接事件之后,通过计算机控制的驱动装置(未示出),弹性单元沿箭头A6的方向向前移动一个等于一个凹槽宽度的距离。 然后将下一排弹簧输送到准备插入材料片之间的位置,并重复该过程。 两个弹簧供应站被设置为提供至少在一个特征上相互不同的弹簧。
    • 8. 发明申请
    • RESILIENT UNIT AND METHOD OF MANUFACTURE
    • 弹性单元及其制造方法
    • WO2016174446A1
    • 2016-11-03
    • PCT/GB2016/051215
    • 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.
    • 弹性单元总体上以10表示,并且包括结构部分(12)和支撑部分(14)。 该结构部分是由一排大的袋状金属螺旋弹簧(16)形成的。 特别地,两排稍长的袋状弹簧(16a)形成结构部分的侧壁(S),而稍微较短的一个(16b)的阵列形成结构部分的基部(B)。 支撑部分(14)由袋状弹簧单元(18)形成,该弹性单元包括多个金属螺旋弹簧,该金属螺旋弹簧分别封装在由可热焊接的非织造材料层形成的凹穴中,该弹性层在弹簧之间的位置处连接在一起。 由两排高弹簧(16a)形成的升高的侧壁(S)形成一个凹槽,该凹进的弹簧单元(18)位于基座(B)的弹簧上。 在弹性单元(10)中不使用粘合剂。 这些高弹簧通过将袋状材料的层焊接在一起,沿着在弹簧周围轴向延伸的接缝而成行。 然后通过将它们的边缘和/或它们的端部热焊接在一起,或者通过将共同的材料层焊接在袋状弹簧的端部上来连接行。 弹簧单元(18)松散地搁置在基座上,使得其可以被移除并被另一个类似于不同规格的单元替换,或者与另外的单元组合。
    • 10. 发明申请
    • APPARATUS AND METHOD FOR MAKING A RESILIENT UNIT
    • WO2017153758A3
    • 2017-09-14
    • PCT/GB2017/050631
    • 2017-03-09
    • HARRISON SPINKS COMPONENTS LIMITED
    • SPINKS, SimonCLARE, David
    • A47C27/06B68G9/00
    • Apparatus for forming a resilient unit comprises a conveyor (210) and first and second spring supply stations (212 and 214), arranged in use to deposit respectively first and second spring types (216 and 218) under compression onto the conveyor. The conveyor is arranged in use to convey a row of the springs (216, 218) in a direction shown by Arrows A4 towards pocketing station (220). At the pocketing station (220) the springs are urged from the conveyor into positions between upper and lower sheets (222 and 224), by a plurality of inserter devices (226) that move together in a reciprocating fashion in the direction of arrow A5, before retracting to the position shown. After each row of springs is inserted between the sheets (222), upper and lower computer-controlled welding tools (not shown) come together at positions P between the springs to join the sheets together, forming pockets in which the springs are encased. After each welding event the resilient unit is indexed forwards a distance equal to one pocket width in the direction of Arrows A6 by computer-controlled drive means (not shown). The next row of springs is then conveyed into position ready for insertion between the sheets of material, and the process is repeated. The two spring supply stations are arranged to supply springs that differ from one another in at least one characteristic.