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
    • 4. 发明授权
    • Fastener and building assembly comprising workpiece, substrate, and
fastener
    • 紧固件和建筑组件包括工件,基底和紧固件
    • US5489179A
    • 1996-02-06
    • US293003
    • 1994-08-19
    • William L. GabrielLawrence S. SheltonHenry A. SygnatorElizabeth J. Eckmann
    • William L. GabrielLawrence S. SheltonHenry A. SygnatorElizabeth J. Eckmann
    • F16B5/02F16B15/00F16B15/06F16B33/00F16B15/08
    • F16B5/0275F16B15/0092F16B15/06F16B33/008Y10S411/922
    • A building assembly comprises a wooden board, a metal framing member, and a fastener having an elongate shank, an enlarged head, and a generally pointed end and fastening the board to the framing member. The shank has a ringed portion with annular grooves defining annular rings having a uniform, outer diameter, helical grooves intersecting the annular grooves, a cylindrical land having a smaller diameter and dividing the ringed portion into an axially longer subportion nearer to the tip and an axially shorter subportion nearer the head, a cylindrical land between the tip and the ringed portion, and a cylindrical land between the head and the ringed portion. The fastener is driven through the board and through the framing member wall so that the head bears against the board, so that the tip and the shank form, from the wall of the framing member, a generally annular lip projecting toward the tip and so that the lip is disposed around the cylindrical land dividing the ringed portion. The wall of the framing member has sufficient resiliency for the lip when disposed around the cylindrical land to have an inner diameter smaller than the outer diameter of the annular ring nearest to the cylindrical land among the annular rings of the subportion nearer to the tip. Each helical groove taken in cross-section is either symmetrical or asymmetrical with respect to a plane comprising the axis defined by the shank and intersecting said helical groove where such helical groove is deepest.
    • 建筑组件包括木板,金属框架构件和紧固件,其具有细长的柄,扩大的头部和大致尖的端部,并将板紧固到框架构件。 柄具有环形部分,环形槽具有限定环形环的环形环,其具有与环形槽相交的均匀的外径螺旋槽,具有较小直径的圆柱形凸台,并将环形部分分成更靠近顶端的轴向更长的子部分, 更靠近头部的较短的子部分,尖端和环形部分之间的圆柱形区域,以及在头部和环形部分之间的圆柱形平台。 紧固件被驱动穿过板并且穿过框架构件壁,使得头部抵靠板,使得尖端和柄部从框架构件的壁形成朝向顶端突出的大致环形的唇缘,并且使得 唇缘围绕分隔环状部分的圆柱形基台设置。 框架构件的壁在围绕圆柱形区域设置时具有足够的弹性,使得内径小于最靠近圆柱形区域的环形圈的外径,该环形环在更靠近尖端的子部分的环形环中。 截面为截面的每个螺旋槽相对于包括由轴定义的轴线并且与螺旋槽相交的平面对称或不对称,其中这种螺旋槽是最深的。
    • 8. 发明授权
    • Grooved fastener
    • 沟槽紧固件
    • US07845889B2
    • 2010-12-07
    • US11958670
    • 2007-12-18
    • Lawrence S. SheltonHenry W. Schniedermeier
    • Lawrence S. SheltonHenry W. Schniedermeier
    • F16B15/00
    • F16B15/06
    • A nail having a plurality of grooves configured to reduce the amount of material needed to create the nail and increase the holding power of the nail, while only minimally affecting the bending yield strength of the nail and other important properties. The nail includes a relatively high number of grooves having a relatively shallow depth to retain a cross-sectional geometry of the shank that permits the formation of a full round head of sufficiently large diameter such that pull through resistance of the nail is not significantly affected. Various embodiments of such a nail are disclosed. In a first embodiment, the grooves are semi-circular and are disposed evenly and symmetrically about the circumference of the shank. In a second embodiment, a protrusion is formed at one tangent point (corner) of each of the plurality of grooves. In a third embodiment, a protrusion is formed at each tangent point of each of the plurality of grooves. In other embodiments the grooves may be unevenly and asymmetrically disposed about the circumference of the shank, the grooves may comprise non-semi-circular geometries and the grooves may comprise deformations.
    • 具有多个凹槽的钉子,其构造成减少产生钉子所需的材料的量并增加钉子的保持力,同时仅最小程度地影响指甲的弯曲屈服强度和其它重要性质。 钉子包括相对较多数量的具有相对浅的深度的凹槽,以保持柄的横截面几何形状,允许形成足够大直径的全圆头,使得钉的拉过阻力不会受到显着影响。 公开了这种钉的各种实施例。 在第一实施例中,槽是半圆形的,并且围绕柄的圆周均匀和对称地设置。 在第二实施例中,在多个槽中的每一个的一个切点(角部)处形成突起。 在第三实施例中,在多个槽中的每一个的每个切点处形成突起。 在其它实施例中,凹槽可以围绕柄的圆周不均匀地和不对称地设置,凹槽可以包括非半圆形几何形状,并且凹槽可以包括变形。