| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 一种隔热管内管用铝箔加工装置 | CN201611249285.8 | 2016-12-29 | CN106671191A | 2017-05-17 | 李太仁; 韩长岭; 周振强; 张春生; 刘振森 |
| 本发明公开了一种隔热管内管用铝箔加工装置,所述装置包括旋转打孔辊、铝箔卷以及操作平台,所述铝箔卷可转动地放置在下端固定在地面上的铝箔卷支撑架上,所述旋转打孔辊可转动地放置在下端固定在地面上的打孔辊支撑架上,所述旋转打孔辊包括打孔辊体以及固定连接在打孔辊体表面、纵向和横向均间隔均匀设置的金属钉状柱,铝箔从铝箔卷上展开后,与打孔辊体表面接触,然后,经过操作平台上方后与铝箔缠绕机构相连接。使用的时候,通过铝箔缠绕机构向前拉动铝箔,铝箔通过旋转打孔辊上的金属钉状柱使得铝箔形成小孔,由于金属钉状柱设置均匀,因此,铝箔上的孔也均匀,且效率较高,满足了客户的使用需求,便于在产业上推广和应用。 | ||||||
| 2 | 双层薄膜热打孔机 | CN201710512346.3 | 2017-06-29 | CN107053325A | 2017-08-18 | 羊绍东; 鞠永进 |
| 一种双层薄膜热打孔机;括机架、薄膜放卷辊装置、薄膜冲孔装置及薄膜支撑分离装置及控制装置,所述薄膜放卷辊装置、薄膜冲孔装置及薄膜支撑分离装置依次设置在所述机架上,并分别与所述控制装置电连接;所述薄膜支撑分离装置设置在所述机架的上方;所述薄膜支撑分离装置包括下膜支撑板和薄膜分离板;所述薄膜冲孔装置设置在所述薄膜支撑分离装置的上方。本发明采用动力送卷,自动打孔,速度快,孔距可调,更换不同规格的打孔器可以打不同规格的孔,成本低廉,效率大幅度提高,质量也完全保障,可用于单层双层薄膜的打孔加工。 | ||||||
| 3 | 具有过校正装置的印刷板材裁切机 | CN201710092043.0 | 2017-02-21 | CN106584578A | 2017-04-26 | 张智勇; 杜勇; 吕军; 仝凯祥; 朱颖 |
| 本发明涉及印刷设备技术领域,名称是具有过校正装置的印刷板材裁切机,包括机架,在机架上具有印刷板材材料的缠绕辊,在机架的进入端具有两个印刷板材材料依次经过的缠绕辊,分别是第一缠绕辊和第二缠绕辊,印刷板材材料经过第一缠绕辊的第一切点和第二缠绕辊的第二切点,在第一缠绕辊和第二缠绕辊中间还有一个顶辊,顶辊中心轴平行于第一缠绕辊和第二缠绕辊安装在机架上,顶辊的外面凸出于第一切点和第二切点的连线,这样的印刷板材裁切机具有可以生产出更平整、两端不会向上翘起、或减少翘起的单块的印刷板材的优点。 | ||||||
| 4 | 包装盒模切机 | CN201610365736.8 | 2016-05-30 | CN105835121A | 2016-08-10 | 周宗佑 |
| 本发明涉及一种包装盒模切机,包括沿输入至输出方向依次设置的上料机构、传送机构,模切机构、卸料机构,模切机构、卸料机构之间穿设有叼纸牙排机构,所述叼纸牙排机构包括主动轮、从动轮,主动轮、从动轮之间通过链条传动,链条上均布有叼纸牙排,主动轮下部及从动轮下部均设置有开牙装置,模切机构位于主动轮下后侧,卸料机构位于从动轮下部的开牙装置的下方,本发明结构简单,适用于膜的模切加工,输送稳定,模切效果好,加工效率高。 | ||||||
| 5 | 横切装置以及操作该横切装置的方法 | CN200710087855.2 | 2007-03-21 | CN101073888A | 2007-11-21 | T·许尔希; B·瓦利曼 |
| 本发明涉及一种用于由在输送方向(T)上移动的平坦的材料卷筒纸(30)制造切断部分(34)的横切装置以及一种相应的操作方法。该装置具有两个横切单元(10、20),它们各自具有固定刀片(12)和布置在旋转构件(14)上的旋转刀片(16),并且所述横切单元(10、20)在输送方向(T)上相互分离。第二旋转构件(24)能够通过这样的方式与吸气装置相连,即,在应用时切断部分(34)至少暂时固定在第二旋转构件(24)上。根据本发明,第二旋转构件(24)沿其圆周面具有多个区域(60、62、64),可以向所述区域单独和/或组合地施加吸气,以固定不同规格的切断部分(34)。 | ||||||
| 6 | 无穿孔的燃料电池气体扩散层 | CN201480009619.7 | 2014-02-20 | CN105074984B | 2017-08-11 | S·莫图帕里 |
| 碳纤维纸片(9)从轴(11)上的第一卷绕滚筒(14)前移到绕轴(15)的第二卷。碳纤维纸片绕滚筒(14)的弯曲致使容易解开的纤维从表面向外突出并被附接到固定支座(18)上的锐利刀刃(17)修整掉。或者,碳纤维元件诸如燃料电池气体扩散层(20)可固定在弓形夹具(22)中并且锐利刀刃(31)可沿该元件的表面回转以切掉任何突出的纤维。 | ||||||
| 7 | 一种机组式模烫机的精准定位装置及其工作方法 | CN201610529416.1 | 2016-07-07 | CN106183394A | 2016-12-07 | 韦树远 |
| 一种机组式模烫机的精准定位装置,其特征在于精准定位装置包括设置于第一机组压印单元输入端的定位单元及设置于每组压印单元输出端的定位单元,相邻两组定位单元共同完成在该两组定位单元之间的定位;所述定位单元由对称安装在压印单元两端的定位组件构成,所述定位组件包括可绕安装轴旋转的定位摆杆,各定位摆杆上分别设置定位块,所述定位块具有基准面;牙排的后面设置基准配合面。工作方法:选定一组定位单元作为定位基准;调整其它各组定位单元,完成定位。优越性:通过在多机组模烫机上配置定位单元,使设备在同时进行多工位工序提高工作效率的同时能够保证模压工艺的精准性;具有定位基准同一、调整简单及结构优化的优点。 | ||||||
| 8 | 无穿孔的燃料电池气体扩散层 | CN201480009619.7 | 2014-02-20 | CN105074984A | 2015-11-18 | S·莫图帕里 |
| 碳纤维纸片(9)从轴(11)上的第一卷绕滚筒(14)前移到绕轴(15)的第二卷。碳纤维纸片绕滚筒(14)的弯曲致使容易解开的纤维从表面向外突出并被附接到固定支座(18)上的锐利刀刃(17)修整掉。或者,碳纤维元件诸如燃料电池气体扩散层(20)可固定在弓形夹具(22)中并且锐利刀刃(31)可沿该元件的表面回转以切掉任何突出的纤维。 | ||||||
| 9 | 复合材料平面成型机 | CN201410651520.9 | 2014-11-17 | CN104441048A | 2015-03-25 | 邵科德; 邵雨秋 |
| 一种复合材料平面成型机,由龙门架、机械手移动传输机构、机械手、成品输送工作台、下机体、上机体、刀模夹紧装置、PLC控制器、磁粉放卷装置、随动张紧装置、高精纠偏装置、气缸夹紧装置、挡死装置、导向柱、工作油缸、主电机、同步伺服电机、输送带纠偏装置、输送带张紧装置、输送带所组成,该机采用先进的前、后工台板同步位移技术,使用伺服电机,利用液、机、电、光多面技术优化组合设计,实现智能化,机械手的使用不但成型速度快,质量好,噪音低,节能提高工效明显,操作安全方便,在同类产品中具有独创性和新颖性。 | ||||||
| 10 | 组件的修边处理方法及修边处理装置 | CN201180028773.5 | 2011-06-10 | CN102947063A | 2013-02-27 | 饭屋谷和志 |
| 在使刀尖在刀厚方向上随着趋向径向外侧而以锋利状倾斜的旋转刀具有绕沿着所述基板的厚度方向的轴心朝向所述基板侧倾斜的切断角度、且使其向一方向旋转的状态下,使该旋转刀和所述组件中的至少一方沿着所述基板的端面的切断方向相对移动的同时切除所述剩余部。 | ||||||
| 11 | Film cutting machine | EP96111729.8 | 1996-07-20 | EP0819505A1 | 1998-01-21 | Ogata, Taizo |
According to the present invention relating to a film cutting machine, a band-like film (A) which is passing a film cutting position (P) is cut by both rotary blade (1) and fixed backup blade (3), and in a predetermined section after passage through the film cutting position (P) a push piece (4) is ejected from a rotation track (1b) of an edge (1a) of the rotary blade (1) toward a feed path (B) of the band-like film (A) by an eject means (5), so that the push piece (4) strikes against the front end (A1) of the band-like film (A) to separate the front end (A1) from a rotary holder (2), which front end is conducted to the feed path (B). |
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| 12 | Labelling equipment | EP79302772.3 | 1979-12-04 | EP0018457B1 | 1984-05-16 | Malthouse, Martin D.; Groeger, Heinz K. |
| 13 | Labelling equipment | EP79302772.3 | 1979-12-04 | EP0018457A1 | 1980-11-12 | Malthouse, Martin D.; Groeger, Heinz K. |
Labelling equipment for applying wrap-around labels to cylindrical containers, e.g. bottles (50). The equipment includes a label carrier (36) having a wheel (119) rotatable about its axis, a vacuum system (140, 142) coupled to the wheel to retain labels (e.g. 44) on the wheel, a feeder (34) for directing containers individually to the wheel adjacent the periphery of the wheel to receive a label, and a drive system (38) for receiving containers from the container feeder and for rolling the containers upon receiving the label from the label carrier. The drive system includes at least one belt (128) engaged about the wheel (119) in slipping relationship therewith to permit the belt to move fasterthan the periphery of the wheel and including a portion for moving in contact with the container (50) immediately after the container leaves the feeder to both carry the label (48) off the wheel and to engage it on the container. A cutter arrangement (40) is provided with a lobe (85) which removes tension from the label (129) as it is severed from the strip of labels. |
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| 14 | TRANSPORT DEVICE FOR A CUTTING MACHINE | US15769345 | 2016-12-07 | US20180304487A1 | 2018-10-25 | Hannes Richter; Nikolaus Koch; Timo Capone |
| A transport device, in particular a chain track frame, for a cutting machine, for receiving slices separated from the material to be cut by a cutting blade and for transporting the slices from the cutting blade to a deposit region, includes: a frame on which the following components are mounted: a receiving apparatus for receiving separated slices; a plurality of guide rollers arranged so as to be spaced apart from each other; a drive device for driving a plurality of transport chains or transport belts extending in parallel with each other, the transport chains or transport belts being guided in a closed circulating manner by the drive device via the guide rollers; and a coupling for connecting the drive device to a drive. The frame comprises a single part. | ||||||
| 15 | System and method for the rapid, automated creation of advanced composite tailored blanks | US13851242 | 2013-03-27 | US08992715B2 | 2015-03-31 | David R. Cramer; Neal J. Beidleman; Colin R. Chapman; Don O. Evans; Michael K. Passmore; Michael L. Skinner |
| An embodiment of the present invention provides a method for manufacturing a composite preform from tape material, including feeding a tape section into a tape section guide that suspends the tape across a tooling surface, moving at least one of the tape section guide and the tooling surface relative to each other to position the tape section at a desired location and orientation relative to the tooling surface, moving the tape section toward a pre-existing tape section disposed on the tooling surface, and tacking the tape section to the pre-existing tape section. A corresponding apparatus for manufacturing composite preforms is also disclosed. | ||||||
| 16 | METHOD AND DEVICE FOR TRIMMING MODULE | US13703473 | 2011-06-10 | US20130087029A1 | 2013-04-11 | Kazushi Iyatani |
| A rotating blade having a blade edge that has a sloped surface to become gradually narrower in a blade thickness direction outward along a radial direction is inclined about an axis along a thickness direction of the substrate toward a substrate at a cutting angle, and an excess portion of a module is cut off by relatively moving at least one of the rotating blade and the module in a cutting direction along an end face of the substrate while the rotating blade is being rotated in one direction. | ||||||
| 17 | System and Method for the Rapid, Automated Creation of Advanced Composite Tailored Blanks | US13435006 | 2012-03-30 | US20120186749A1 | 2012-07-26 | David R. Cramer; Neal J. Beidleman; Colin R. Chapman; Don O. Evans; Michael K. Passmore; Michael L. Skinner |
| An embodiment of the present invention provides a method for manufacturing a composite preform from tape material, including feeding a tape section into a tape section guide that suspends the tape across a tooling surface, moving at least one of the tape section guide and the tooling surface relative to each other to position the tape section at a desired location and orientation relative to the tooling surface, moving the tape section toward a pre-existing tape section disposed on the tooling surface, and tacking the tape section to the pre-existing tape section. A corresponding apparatus for manufacturing composite preforms is also disclosed. | ||||||
| 18 | System and method for the rapid, automated creation of advanced composite tailored blanks | US13251360 | 2011-10-03 | US08168029B2 | 2012-05-01 | David R. Cramer; Neal J. Beidleman; Colin R. Chapman; Don O. Evans; Michael K. Passmore; Michael L. Skinner |
| An embodiment of the present invention provides a method for manufacturing a composite preform from tape material, including feeding a tape section into a tape section guide that suspends the tape across a tooling surface, moving at least one of the tape section guide and the tooling surface relative to each other to position the tape section at a desired location and orientation relative to the tooling surface, moving the tape section toward a pre-existing tape section disposed on the tooling surface, and tacking the tape section to the pre-existing tape section. A corresponding apparatus for manufacturing composite preforms is also disclosed. | ||||||
| 19 | Cross cutting device and method for operating such a cross cutting device | US11723669 | 2007-03-21 | US20070234863A1 | 2007-10-11 | Thomas Schurch; Bruno Wallimann |
| The invention relates to a cross cutting device and a corresponding operating method for manufacturing cut-out portions from a flat material web which is moved in a direction of transportation. The device has two cross cutting units which each have a fixed blade and a rotating blade arranged on a rotational element, and said cross cutting units are spaced apart from one another in the direction of transportation. The second rotational element can be connected to a suction device in such a way that in a case of application the cut-out portion is at least temporarily secured on the second rotational element. According to the invention, the second rotational element has, along its circumferential face, a plurality of zones, to which suction air can be applied individually and/or in combination, in order to secure cut-out portions of different formats. | ||||||
| 20 | Apparatus and method for cutting web | US210712 | 1998-12-14 | US6058817A | 2000-05-09 | Hideo Kobayashi; Manish Sharma |
| An apparatus for cutting a web with a rotary cutter 31 includes a cutter drum 42, which has an air suction chamber 58 and air discharge chambers 59A and 59B, these chambers being formed in its inside, as well as having first air jet holes 71, second air jet holes 72, and third air jet holes 73, these air jet holes 71 to 73 being open in its outer periphery. | ||||||
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