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    • 1. 发明授权
    • Material having a substance protected by deformable standoffs and method of making
    • 具有受可变形支架保护的物质的材料和制造方法
    • US06602580B1
    • 2003-08-05
    • US09247440
    • 1999-02-10
    • Peter W. HamiltonKenneth S. McGuire
    • Peter W. HamiltonKenneth S. McGuire
    • B32B330
    • B65D65/14A61F2013/0296B05D1/28C09J7/22C09J2201/32Y10T428/24273Y10T428/24322Y10T428/24479Y10T428/24521Y10T428/24529Y10T428/2462Y10T428/24678Y10T428/24802
    • A substance delivery system has a three dimensional structure with outermost surface features and spaces for containing a substance. The substance has a level below the outermost surface features such that the substance is protected from inadvertent contact with external surfaces. The substance remains protected until the three dimensional structure is sufficiently deformed into a substantially two dimensional structure and the substance is thereby exposed to contact an external surface without compliance of the external surface being necessary. Deforming is preferably achieved by a compression force, wherein the outermost surface features of the three dimensional structure deform in a direction of the compression force. A method of making the three dimensional material includes the steps of coating a substance onto a forming surface, transferring the coating of substance from the forming surface to a piece of material, and forming the piece of material into a three dimensional structure on the forming surface while the substance is in contact with the forming surface.
    • 物质输送系统具有三维结构,其具有最外表面特征和用于容纳物质的空间。 该物质具有低于最外表面特征的水平,使得物质免受与外表面的无意接触。 物质保持保护,直到三维结构充分变形为基本上二维结构,并且因此使物质暴露于与外表面接触而不符合所需的外表面。 变形优选通过压缩力实现,其中三维结构的最外表面特征在压缩方向上变形。 制造三维材料的方法包括以下步骤:将物质涂布在成形表面上,将物质涂层从成形表面转移到一块材料上,并将该片材在成形表面上形成三维结构 而物质与成形表面接触。
    • 2. 发明授权
    • Thermal cell having an oxygen permeable top sheet and a method of making
a gas permeable material
    • 具有透氧顶片的热电池和制造透气材料的方法
    • US6158427A
    • 2000-12-12
    • US281372
    • 1999-03-30
    • Kenneth S. McGuirePeter W. Hamilton
    • Kenneth S. McGuirePeter W. Hamilton
    • A61F7/02A61F7/03B32B7/12D06M23/16D06N3/00D06N7/00E24J1/00
    • A61F7/034B32B7/12D06M23/16D06N3/007D06N7/0092A61F2007/0098A61F2007/0268D06N2205/06D06N2209/121
    • A method of making a gas permeable material having a diffusive gas permeability at 0.21 atmosphere diffusive driving force in the range of about 0.5.times.10.sup.5 cm.sup.3 /100 square inches/day to about 2.times.10.sup.5 cm.sup.3 /100 square inches/day. The method comprises the step of coating a pattern of spots of a gas impermeable material onto a porous substrate, followed by a step of enlarging the pattern of spots to cover greater than about 95% of the porous substrate such that the gas permeability occurs only through openings between the pattern of spots. The gas impermeable material is preferably a hot melt adhesive and the porous substrate is preferably a nonwoven. The step of enlarging the pattern of spots includes smearing substantially circular spots into oblong spots as the pattern of spots is printed onto the porous substrate until the oblong spots partially overlap. The smearing is achieved by operating a printing screen at a surface speed higher than a draw rate of the porous substrate. Alternatively, the step of enlarging the pattern of spots includes calendering through a fixed gap the porous substrate after the pattern of spots is coated thereon.
    • 制造透气性材料的方法,其在0.21大气压扩散驱动力下具有在约0.5×10 5 cm 3/100平方英寸/天至约2×10 5 cm 3/100平方英寸/天的范围内的扩散气体渗透性。 该方法包括以下步骤:将不透气材料的斑点图案涂覆到多孔基材上,然后扩大斑点图案以覆盖大于多孔基材的约95%的步骤,使得气体渗透性仅通过 斑点之间的开口。 气体不可渗透材料优选为热熔性粘合剂,多孔基材优选为无纺布。 扩大斑点图案的步骤包括将斑点的图案印刷到多孔基材上直到长圆形部分重叠为止,将基本圆形的斑点涂抹到长方形斑点中。 通过以高于多孔基材的拉伸速度的表面速度操作印刷丝网来实现涂抹。 或者,放大斑点图案的步骤包括通过固定间隙的压光,在其上涂覆斑点图案之后的多孔基材。
    • 3. 发明授权
    • Composite material releasably sealable to a target surface when pressed thereagainst
    • 复合材料在按压时可剥离地密封到目标表面
    • US06489022B1
    • 2002-12-03
    • US08851136
    • 1997-05-05
    • Peter W. HamiltonKenneth S. McGuire
    • Peter W. HamiltonKenneth S. McGuire
    • B32B3100
    • B65D65/14A61F2013/0296B05D1/28C09J7/22C09J2201/32Y10T156/1043Y10T428/1486Y10T428/24479Y10T428/24537Y10T428/2457Y10T428/24612Y10T428/24661Y10T428/24678Y10T428/28Y10T428/2839Y10T428/2848Y10T428/2861
    • A method for making a flexible film having pressure sensitive adhesive protected from inadvertent adherence. The method coats a forming screen with an interconnected layer of pressure sensitive adhesive and places a piece of flexible film in contact with the layer of adhesive. The layer of adhesive preferentially adheres to the piece of flexible film. The forming screen has a plurality of recesses therein. The coating step applies the layer of adhesive without bridging the recesses. Another step forms the piece of flexible film to create a plurality of protrusions extending into the recesses. The plurality of protrusions are registered with the interconnected layer of pressure sensitive adhesive by virtue of using the same screen to transfer adhesive and to form protrusions. The forming screen may be wrapped around a rotating drum and the piece of flexible film may be a portion of a continuous web of flexible film. Preferably, the plurality of protrusions are conical, with a base diameter of 0.015 inches to 0.030 inches, a center-to-center spacing of 0.03 to 0.06 inches, and a protrusion height of 0.004 to 0.012 inches.
    • 一种制造具有压敏粘合剂的柔性膜的方法,防止无意的粘附。 该方法用成形筛网涂覆有互连的压敏粘合剂层,并将一块柔性薄膜与粘合剂层接触。 粘合剂层优先粘附到柔性膜片上。 成形筛具有多个凹部。 涂覆步骤施加粘合剂层而不桥接凹部。 另一个步骤形成柔性膜片以形成延伸到凹槽中的多个突起。 通过使用相同的筛网转移粘合剂并形成突起,将多个突起与互连的压敏粘合剂层配准。 成形筛可以缠绕在旋转的滚筒上,并且该柔性薄膜片可以是柔性薄膜的连续卷材的一部分。 优选地,多个突起是圆锥形的,基底直径为0.015英寸至0.030英寸,中心间距为0.03至0.06英寸,突出高度为0.004至0.012英寸。
    • 5. 发明授权
    • Method of making a gas permeable material
    • 制造透气材料的方法
    • US5925406A
    • 1999-07-20
    • US896814
    • 1997-07-18
    • Kenneth S. McGuirePeter W. Hamilton
    • Kenneth S. McGuirePeter W. Hamilton
    • A61F7/02A61F7/03B32B7/12D06M23/16D06N3/00D06N7/00B05D5/10
    • A61F7/034B32B7/12D06M23/16D06N3/007D06N7/0092A61F2007/0098A61F2007/0268D06N2205/06D06N2209/121
    • A method of making a gas permeable material having a diffusive gas permeability at 0.21 atmosphere diffusive driving force in the range of about 0.5.times.10.sup.5 cm.sup.3 /100 square inches/day to about 2.times.10.sup.5 cm.sup.3 /100 square inches/day. The method comprises the step of coating a pattern of spots of a gas impermeable material onto a porous substrate, followed by a step of enlarging the pattern of spots to cover greater than about 95% of the porous substrate such that the gas permeability occurs only through openings between the pattern of spots. The gas impermeable material is preferably a hot melt adhesive and the porous substrate is preferably a nonwoven. The step of enlarging the pattern of spots includes smearing substantially circular spots into oblong spots as the pattern of spots is printed onto the porous substrate until the oblong spots partially overlap. The smearing is achieved by operating a printing screen at a surface speed higher than a draw rate of the porous substrate. Alternatively, the step of enlarging the pattern of spots includes calendering through a fixed gap the porous substrate after the pattern of spots is coated thereon.
    • 制造透气性材料的方法,其在0.21大气压扩散驱动力下具有在约0.5×10 5 cm 3/100平方英寸/天至约2×10 5 cm 3/100平方英寸/天的范围内的扩散气体渗透性。 该方法包括以下步骤:将不透气材料的斑点图案涂覆到多孔基材上,然后扩大斑点图案以覆盖大于多孔基材的约95%的步骤,使得气体渗透性仅通过 斑点之间的开口。 气体不可渗透材料优选为热熔性粘合剂,多孔基材优选为无纺布。 扩大斑点图案的步骤包括将斑点的图案印刷到多孔基材上直到长圆形部分重叠为止,将基本圆形的斑点涂抹到长方形斑点中。 通过以高于多孔基材的拉伸速度的表面速度操作印刷丝网来实现涂抹。 或者,放大斑点图案的步骤包括通过固定间隙的压光,在其上涂覆斑点图案之后的多孔基材。
    • 6. 发明授权
    • Composite for controlling oxygen flux into thermal cells
    • 用于控制氧气通入热电池的复合膜
    • US5718955A
    • 1998-02-17
    • US614036
    • 1996-03-12
    • Kenneth S. McGuirePeter W. Hamilton
    • Kenneth S. McGuirePeter W. Hamilton
    • A61F7/08A61F7/03B32B7/06B01D67/06
    • A61F7/034B32B7/06Y10T428/1352
    • A composite material for controlling oxygen flux into a thermal cell comprises a bottom sheet formed to have a pocket. The bottom sheet is impermeable to oxygen. A plurality of particles is placed in the pocket. The plurality of particles reacts exothermally when exposed to oxygen. A top sheet is sealed to the bottom sheet at a flange around the pocket to enclose the plurality of particles such that the particles cannot fall out of the pocket. The top sheet has a substrate which is highly permeable to oxygen. The substrate is coated with an oxygen permeable silicone based elastomer to a thickness which regulates an oxygen flux into the pocket when the top sheet is exposed to oxygen. The composite material further comprises an oxygen impermeable barrier film bonded to the top sheet by pressure sensitive adhesive for preventing exposure of the top sheet to oxygen until the body warmer is intended to be used. A method for making a top sheet material involves coating a silicone rubber layer onto a smooth surface, partially curing the silicone, pressing a porous substrate against the silicone rubber layer, and completely curing the silicone rubber such that it adheres to the substrate.
    • 用于控制进入热电池的氧气通量的复合材料包括形成为具有口袋的底部片材。 底部片材不透氧。 多个颗粒放置在口袋中。 当暴露于氧气时,多个颗粒发生放热反应。 顶部片在围绕口袋的凸缘处密封到底部片材以封闭多个颗粒,使得颗粒不能从口袋中脱落。 顶片具有对氧气高度可渗透的基底。 衬底被涂覆有透氧硅氧烷弹性体,其厚度在顶片暴露于氧气时调节进入袋中的氧气通量。 复合材料还包括通过压敏粘合剂粘合到顶片上的不透氧阻挡膜,用于防止顶片暴露于氧气直到使用本体加热器。 制造顶片材料的方法包括将硅橡胶层涂覆到光滑表面上,部分固化硅氧烷,将多孔基材压在硅橡胶层上,并将硅橡胶完全固化,使其粘附到基材上。
    • 7. 发明授权
    • Semi-enclosed applicator utilizing a selectively-activatible sheet material for dispensing and dispersing a substance onto the surface of a target object
    • 半封闭式涂抹器利用选择性活性片材,用于将物质分配和分散到目标物体的表面上
    • US06257785B1
    • 2001-07-10
    • US09369742
    • 1999-08-06
    • Geneva G. OttenRichard Tweddell, IIIKenneth S. McGuirePeter W. Hamilton
    • Geneva G. OttenRichard Tweddell, IIIKenneth S. McGuirePeter W. Hamilton
    • A46B504
    • A47K7/03A41D2400/52A45D40/26A45D2200/1018A45D2200/1036
    • A semi-enclosed, substance delivery applicator comprising: (a) a three-dimensional structure having outermost surface features and spaces between the outermost surface features for containing a substance, the substance having a level internal to the outermost surface features such that the substance is protected from inadvertent contact with external surfaces, the three-dimensional structure forming at least a portion of a semi-enclosed applicator body having at least one opening and an internal cavity; and (b) a substance, having substantial resistance to flow prior to delivery to a target surface, occupying the spaces of the three-dimensional structure, the substance remaining protected until the three dimensional structure is sufficiently deformed into a substantially two dimensional structure and the substance is thereby exposed to contact a surface of an object without compliance of the surface being necessary, the substance having an effective viscosity upon activation which permits the substance to be liberated from the location and dispensed onto the surface of the object. The substance may be dispensed inwardly of the applicator, outwardly of the applicator, or both. The applicator may take the form of a glove or mitt.
    • 一种半封闭的物质递送施用器,包括:(a)具有最外表面特征的三维结构和用于容纳物质的最外表面特征之间的空间,所述物质具有最外表面的内部特征,使得物质为 防止与外部表面的意外接触,所述三维结构形成至少一部分具有至少一个开口和内部空腔的半封闭式涂抹器主体; 和(b)在输送到目标表面之前具有显着的抗流动性的物质,占据三维结构的空间,物质保持保护直到三维结构充分变形为基本二维结构,并且 因此,物质暴露于与物体的表面接触,而不需要所需表面的符合性,该物质在活化时具有有效的粘度,其允许物质从该位置释放并分配到物体的表面上。 该物质可以从施用器的内部分配到施加器的外部,或两者。 涂抹器可以采取手套或手套的形式。
    • 8. 发明授权
    • Method for making a seamless apertured metal belt
    • 制造无缝多孔金属带的方法
    • US6148496A
    • 2000-11-21
    • US289223
    • 1999-04-09
    • Kenneth S. McGuirePeter W. Hamilton
    • Kenneth S. McGuirePeter W. Hamilton
    • B26F1/00B29D28/00B29D29/00B44B5/02F16G1/00B21D39/03B23P11/00
    • B44B5/026B29L2031/709Y10T29/49826Y10T29/49861
    • The present invention provides a method for making a seamless apertured belt comprising the steps of: (a) providing a strip of material having two opposing ends and having a length at least equal to a finished belt length; (b) providing an aperture pattern having a length substantially equal to the finished belt length, the pattern including a plurality of two-dimensional geometrical shapes, the pattern having opposing end edges which can be tiled together; (c) removing a pre-determined portion of each end of the pattern and joining the pre-determined portions to one another along the opposing end edges to form a re-etch pattern; (d) forming apertures in the strip corresponding to the two-dimensional geometrical shapes in the pattern, the strip remaining free of apertures in regions near each end comprising fusion zones; (e) fusing the ends of the strip to one another such that the fusion zones form a common fusion zone; and (f) forming apertures in the common fusion zone corresponding to the re-etch pattern. In a preferred embodiment, the two-dimensional pattern is an amorphous two-dimensional pattern of interlocking two-dimensional geometrical shapes. The strip of material may comprise a material selected from the group consisting of metal, plastic, fabric, rubber, and combinations thereof.
    • 本发明提供了一种制造无缝多孔带的方法,包括以下步骤:(a)提供具有两个相对端并具有至少等于最终带长度的长度的材料条; (b)提供具有基本上等于完成的带长度的长度的孔径图案,该图案包括多个二维几何形状,该图案具有可以平铺在一起的相对端边缘; (c)去除图案的每个端部的预定部分并且沿着相对的端部边缘将预定部分彼此连接以形成再蚀刻图案; (d)在图案中对应于二维几何形状的条带中形成孔,所述带在每个端部附近没有孔的区域包括熔融区; (e)将条的端部彼此熔合,使得熔融区形成共同的熔化区; 和(f)在对应于再蚀刻图案的公共熔融区域中形成孔。 在优选实施例中,二维图案是互锁二维几何形状的无定形二维图案。 材料条可以包括选自金属,塑料,织物,橡胶及其组合的材料。
    • 10. 发明授权
    • High speed embossing and adhesive printing process and apparatus
    • 高速压花和胶印印刷工艺及装置
    • US06193918B1
    • 2001-02-27
    • US09289222
    • 1999-04-09
    • Kenneth S. McGuireStephan Gary Bush
    • Kenneth S. McGuireStephan Gary Bush
    • B29C4706
    • B31F1/07B05D1/28B05D3/12B05D5/10B05D2252/02B31F2201/0733B31F2201/0741B31F2201/0743B31F2201/0787Y10T156/1008Y10T156/1023
    • The present invention provides a process which in a preferred embodiment includes the steps of: (a) applying a hot melt adhesive to a heated roll rotating at an initial tangential speed; (b) milling the adhesive to a reduced thickness and accelerating said adhesive through a series of metering gaps between a plurality of adjacent heated glue rolls; (c) applying the adhesive to a conformable glue application roll rotating at a tangential line speed which is higher than the initial tangential speed; (d) applying the adhesive to a first patterned embossing roll which is engaged with a second patterned embossing roll having a complementary pattern to the first embossing roll, the embossing rolls being heated; (e) passing a web of sheet material between the first and second embossing rolls at the tangential line speed to simultaneously emboss the web and apply the adhesive to the web, such that the adhesive forms an adhesive pattern between embossments; (f) transferring the web from the second embossing roll to the first embossing roll; (g) stripping the web from the first embossing roll; and (h) cooling the web.
    • 本发明提供一种方法,在一个优选的实施方案中包括以下步骤:(a)将热熔粘合剂施加到以初始切向速度旋转的加热辊; (b)将粘合剂研磨至较薄的厚度,并通过多个相邻的加热胶辊之间的一系列计量间隙加速所述粘合剂; (c)将粘合剂施加到以比初始切向速度高的切线速度旋转的适形胶粘剂辊; (d)将粘合剂施加到与第一压花辊具有互补图案的第二图案化压花辊接合的第一图案化压花辊上,压花辊被加热; (e)以切线速度在第一和第二压花辊之间通过片材材料网以同时压花幅材并将粘合剂施加到幅材上,使得粘合剂在压花之间形成粘合剂图案; (f)将所述纤维网从所述第二压花辊转移到所述第一压花辊; (g)从所述第一压花辊剥离所述纤维网; 和(h)冷却网。