子分类:
| 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 | 具有铰接的输送元件的运输装置 | CN201280067666.8 | 2012-11-30 | CN104066666B | 2016-08-24 | M·赖尼施; H·范德勒西特 |
| 本发明涉及一种用于输送产品的运输装置,其包括:多个可个别运动的输送元件(2,2'),用于输送产品;位置固定的、回转地设置的运行轨道(3),所述运行轨道确定一用于所述输送元件(2,2')的运行路径;直线马达驱动装置(4),用于驱动所述输送元件(2,2');其中,所述输送元件(2,2')分别具有永磁铁(5,5'),所述永磁铁与所述直线马达驱动装置(4)的线圈(6)处于作用连接;其中,每个所述输送元件(2,2')具有至少一个第一部分元件(21)和至少一个第二部分元件(22),所述第一和第二部分元件借助于铰接部(7)铰接地相互连接;其中,每个所述部分元件(21,22)具有至少一个永磁铁(5,5');其中,每个所述输送元件(2,2')具有一磁轭板(15);其中,所述铰接部(7)如此设置在所述磁轭板(15)上,使得所述磁轭板(15)划分为第一板部分(16)和第二板部分(17),所述第一和第二板部分通过所述铰接部(7)相互连接。 | ||||||
| 2 | 链条输送装置 | CN201210052096.7 | 2012-03-01 | CN102689768B | 2015-01-21 | 尾崎肇 |
| 本发明涉及一种链条输送装置(100),输送链条(110)具有将输送物品(M)吸附保持于搭载面(111a)上的物品吸附用磁铁片(113),与输送链条(110)啮合架绕的链轮(120)同轴配置的物品分离装置(130)在自由辊(132)的外周部位设置有物品分离用磁铁片(133),用于将与输送物品(M)之间的吸附进行分离。本发明的链条输送装置可将由金属制磁体构成的输送物品确实地吸附保持在倾斜的输送线和易滑湿润条件下的输送线上,避免了由撞击引起的损伤和振动噪音,并在输送末端送出区域进行顺畅地送出,从而能够确实地实现连续装载。 | ||||||
| 3 | 饮料和食物输送装置 | CN201080043902.3 | 2010-07-22 | CN102548455B | 2014-07-09 | 石野晴纪; 笹原新太郎; 吉田利浩 |
| 本发明的目的在于提供一种饮料和食物输送装置,能够使载置着饮料和食物的行进体在保持饮料和食物的稳定性的状态下,沿着行进道的曲线路径稳定行进。行进体(7)具有被输送驱动的行进体主体(26)、和在该行进体主体(26)的相对于行进体(7)的行进方向的前端部配置的引导体(27),引导体(27)以能够在水平方向转动的方式被枢轴支撑在行进体主体(26)上,并且在引导体(27)的相对于行进体(7)的行进方向的宽度方向侧的两侧部,沿着行进体(7)的行进方向设有抵接部(29),在曲线路径(10a)中,在该曲线路径(10a)的内周侧配置的抵接部(29)构成为在两处与行进道(1a)抵接。 | ||||||
| 4 | 链式输送机装置 | CN201210183231.1 | 2012-06-05 | CN102815500B | 2015-01-07 | 尾崎肇 |
| 本发明提供链式输送机装置,其在倾斜的输送线或易于打滑的湿润状态下的输送线上,可靠地吸附保持由金属制磁性体组成的输送物品并避免因冲击造成的损伤或振动噪声,同时在输送线的特定位置解除对输送物品的吸附并从输送线简便地分离输送物品。在链式输送机装置(100)中,输送机链条(110)包括:在搭载面(111a)上吸附保持输送物品(M)的物品吸附用磁铁片(113),并且在与输送机链条(110)进行啮合而转动的链轮(120)的旋转轴(160)上所组装的物品分离部件(130)包括:分离与输送物品(M)之间吸附的物品分离用磁铁片(131),并设置为从输送机链条(110)的搬出终端区域延伸到直线状搬出前区域。 | ||||||
| 5 | 具有铰接的输送元件的运输装置 | CN201280067666.8 | 2012-11-30 | CN104066666A | 2014-09-24 | M·赖尼施; H·范德勒西特 |
| 本发明涉及一种用于输送产品的运输装置,其包括:多个可个别运动的输送元件(2,2'),用于输送产品;位置固定的、回转地设置的运行轨道(3),所述运行轨道确定一用于所述输送元件(2,2')的运行路径;直线马达驱动装置(4),用于驱动所述输送元件(2,2');其中,所述输送元件(2,2')分别具有永磁铁(5,5'),所述永磁铁与所述直线马达驱动装置(4)的线圈(6)处于作用连接;其中,每个所述输送元件(2,2')具有至少一个第一部分元件(21)和至少一个第二部分元件(22),所述第一和第二部分元件借助于铰接部(7)铰接地相互连接;其中,每个所述部分元件(21,22)具有至少一个永磁铁(5,5');其中,每个所述输送元件(2,2')具有一磁轭板(15);其中,所述铰接部(7)如此设置在所述磁轭板(15)上,使得所述磁轭板(15)划分为第一板部分(16)和第二板部分(17),所述第一和第二板部分通过所述铰接部(7)相互连接。 | ||||||
| 6 | 饮料和食物输送装置 | CN201080043912.7 | 2010-07-22 | CN102573575B | 2014-06-04 | 石野晴纪; 笹原新太郎 |
| 本发明的目的在于提供一种能够使行进体在行进道上稳定行进的饮料和食物输送装置。饮料和食物输送装置(1)通过使输送驱动体(15)进行驱动,来使行进体(7)通过第一磁性体(18)和第二磁性体(19)的磁力在行进道(1a)上行进,其中,在第二磁性体(19)的附近具有防止抬起单元(34),该防止抬起单元(34)与行进道(1a)抵接来防止第二磁性体(19)由于第一磁性体(18)和第二磁性体(19)之间的磁力而抬起,并且该防止抬起单元(34)与输送驱动体(15)一体地移动。 | ||||||
| 7 | 链式输送机装置 | CN201210183231.1 | 2012-06-05 | CN102815500A | 2012-12-12 | 尾崎肇 |
| 本发明提供链式输送机装置,其在倾斜的输送线或易于打滑的湿润状态下的输送线上,可靠地吸附保持由金属制磁性体组成的输送物品并避免因冲击造成的损伤或振动噪声,同时在输送线的特定位置解除对输送物品的吸附并从输送线简便地分离输送物品。在链式输送机装置(100)中,输送机链条(110)包括:在搭载面(111a)上吸附保持输送物品(M)的物品吸附用磁铁片(113),并且在与输送机链条(110)进行啮合而转动的链轮(120)的旋转轴(160)上所组装的物品分离部件(130)包括:分离与输送物品(M)之间吸附的物品分离用磁铁片(131),并设置为从输送机链条(110)的搬出终端区域延伸到直线状搬出前区域。 | ||||||
| 8 | 饮料和食物输送装置 | CN201080043912.7 | 2010-07-22 | CN102573575A | 2012-07-11 | 石野晴纪; 笹原新太郎 |
| 本发明的目的在于提供一种能够使行进体在行进道上稳定行进的饮料和食物输送装置。饮料和食物输送装置(1)通过使输送驱动体(15)进行驱动,来使行进体(7)通过第一磁性体(18)和第二磁性体(19)的磁力在行进道(1a)上行进,其中,在第二磁性体(19)的附近具有防止抬起单元(34),该防止抬起单元(34)与行进道(1a)抵接来防止第二磁性体(19)由于第一磁性体(18)和第二磁性体(19)之间的磁力而抬起,并且该防止抬起单元(34)与输送驱动体(15)一体地移动。 | ||||||
| 9 | 饮料和食物输送装置 | CN201080043901.9 | 2010-07-22 | CN102548454A | 2012-07-04 | 石野晴纪; 笹原新太郎 |
| 本发明的目的在于提供一种饮料和食物输送装置,能够将朝向与曲线路径中的输送驱动体的输送方向相反的方向而产生的阻力抑制为很小。输送驱动体具有沿着行进道(1a)循环行进的环状的带体(15),并且,引导单元具有:去路侧辊(37a),其在曲线路径(10a)中的去路侧的带体(15b)的内周侧以在水平方向转动自如的方式被枢轴支撑;以及回路侧辊(37b),其在曲线路径(10a)中的回路侧的带体(15c)的内周侧以在水平方向转动自如的方式被枢轴支撑。 | ||||||
| 10 | 磁力驱动带式输送机 | CN201710716107.X | 2017-08-18 | CN107323952A | 2017-11-07 | 胡坤; 王方涛; 王爽; 张星亚; 刘杨; 朱金龙 |
| 本发明公开了一种利用磁力装置实现驱动,输送带和输送带下方的磁力滚筒皆具有磁性,利用磁力滚筒提供驱动力同时代替普通的托辊(支承装置),运用永磁体异性相吸的性质,为磁性输送带提供动力。带式输送机在运行时,由于输送带的磁力驱动大大减少摩擦,从而降低能量损耗和维修成本。 | ||||||
| 11 | 饮料和食物输送装置 | CN201080043901.9 | 2010-07-22 | CN102548454B | 2014-05-28 | 石野晴纪; 笹原新太郎 |
| 本发明的目的在于提供一种饮料和食物输送装置,能够将朝向与曲线路径中的输送驱动体的输送方向相反的方向而产生的阻力抑制为很小。输送驱动体具有沿着行进道(1a)循环行进的环状的带体(15),并且,引导单元具有:去路侧辊(37a),其在曲线路径(10a)中的去路侧的带体(15b)的内周侧以在水平方向转动自如的方式被枢轴支撑;以及回路侧辊(37b),其在曲线路径(10a)中的回路侧的带体(15c)的内周侧以在水平方向转动自如的方式被枢轴支撑。 | ||||||
| 12 | 链条输送装置 | CN201210052096.7 | 2012-03-01 | CN102689768A | 2012-09-26 | 尾崎肇 |
| 本发明涉及一种链条输送装置(100),输送链条(110)具有将输送物品(M)吸附保持于搭载面(111a)上的物品吸附用磁铁片(113),与输送链条(110)啮合架绕的链轮(120)同轴配置的物品分离装置130在自由辊(132)的外周部位设置有物品分离用磁铁片(133),用于将与输送物品(M)之间的吸附进行分离。本发明的链条输送装置可将由金属制磁体构成的输送物品确实地吸附保持在倾斜的输送线和易滑湿润条件下的输送线上,避免了由撞击引起的损伤和振动噪音,并在输送末端送出区域进行顺畅地送出,从而能够确实地实现连续装载。 | ||||||
| 13 | 饮料和食物输送装置 | CN201080043902.3 | 2010-07-22 | CN102548455A | 2012-07-04 | 石野晴纪; 笹原新太郎; 吉田利浩 |
| 本发明的目的在于提供一种饮料和食物输送装置,能够使载置着饮料和食物的行进体在保持饮料和食物的稳定性的状态下,沿着行进道的曲线路径稳定行进。行进体(7)具有被输送驱动的行进体主体(26)、和在该行进体主体(26)的相对于行进体(7)的行进方向的前端部配置的引导体(27),引导体(27)以能够在水平方向转动的方式被枢轴支撑在行进体主体(26)上,并且在引导体(27)的相对于行进体(7)的行进方向的宽度方向侧的两侧部,沿着行进体(7)的行进方向设有抵接部(29),在曲线路径(10a)中,在该曲线路径(10a)的内周侧配置的抵接部(29)构成为在两处与行进道(1a)抵接。 | ||||||
| 14 | Conveying device with articulated conveying element | US14374287 | 2012-11-30 | US09056720B2 | 2015-06-16 | Heinrich van de Loecht; Martin Reinisch |
| A conveying device for conveying a product, comprising a plurality of individually movable conveying elements (2, 2′) for conveying the products, a stationary, circumferentially arranged guide rail (3), which defines a running path for the conveying elements (2, 2′), and a linear motor drive device (4) for driving the conveying elements (2, 2′), said conveying elements (2, 2′) each having permanent magnets (5, 5′) which are actively connected to the coils (6) of the linear motor drive device (4), each conveying element (2, 2′) having at least one first sub-component (21) and one second sub-component (22) which are connected to one another in an articulated manner by means of a hinge (7), each sub-component (21, 22) having at least one permanent magnet (5, 5′), each conveying element (2, 2′) having a reflux plate (15), and the hinge (7) being arranged on the reflux plate (15) in such a way that the reflux plate (15) is sub-divided into a first plate part (16) and a second plate part (17), which are connected to one another via the hinge (7). | ||||||
| 15 | Food and drink conveying device | US13387770 | 2010-07-22 | US09045286B2 | 2015-06-02 | Haruki Ishino; Shintaro Sasahara; Toshihiro Yoshida |
| A food and drink conveying device allows a travel body carrying food and drink to stably travel along a curved path of a travel path while maintaining stability. A travel body (7) includes a travel body main unit (26), and a leading body (27) at the front end of the travel body main unit (26) in the travel direction. The leading body (27) is supported by the travel body main unit (26) so as to be pivotable in a horizontal plane. Contact sections (29) are provided to both sides of the leading body (27) in the widthwise direction relative to the travel direction and aligned on either side in the travel direction. The contact sections (29) provided on the inner side of a curved path portion (10a) are configured to make contact in the curved path (10a) at two locations in a travel path (1a). | ||||||
| 16 | Conveyor system | US13227527 | 2011-09-08 | US08590689B2 | 2013-11-26 | Matthias Wahl; Martin Seger; Johann Huttner |
| A conveyor system having at least one variable capacity storage for a bottle treatment machine at least two guides running laterally adjacent and at least one transfer guide are provided for a bottle carrier chain of curve-going coupled bottle carriers, with runs of the bottle carrier chain being transferable from one guide to the adjacent guide via the transfer guide are drivable along the guides. Each of the guides comprises at least one continuous tension member drivable by at least one conveyor drive of the conveyor system, and a respective run of the bottle carrier chain is arranged a certain distance along a tension member, guided there by the tension member and by means of automatically releasable and engageable positive fit and / or magnetically engaging couplings in the area of the transfer guide is driven by the tension member. | ||||||
| 17 | CHAIN CONVEYOR SYSTEM | US13477156 | 2012-05-22 | US20120305368A1 | 2012-12-06 | Hajime Ozaki |
| For a chain conveyor system having a main conveyor having links with an inclined or a slippery wet conveying run extending from a feed end to a discharge end capable of securely attracting and retaining metallic magnetic articles on the run by article-attracting magnet pieces in selected links for attracting and retaining the articles on the run. An auxiliary conveyor for enabling separation of the articles from the conveyor at the discharge end of the run by releasing attraction of the articles. The auxiliary conveyor has links which register with the main conveyor links at the discharge end of the main conveyor system. The registering links of the auxiliary conveyor have article-separating means operable to reduce the magnetic force of the magnet pieces at the discharge end of the run to enable separation of the conveyed articles from the main conveyor. | ||||||
| 18 | Conveyor System | US13227527 | 2011-09-08 | US20120055757A1 | 2012-03-08 | Matthias Wahl; Martin Seger; Johann Huttner |
| A conveyor system having at least one variable capacity storage for a bottle treatment machine at least two guides running laterally adjacent and at least one transfer guide are provided for a bottle carrier chain of curve-going coupled bottle carriers, with runs of the bottle carrier chain being transferable from one guide to the adjacent guide via the transfer guide are drivable along the guides. Each of the guides comprises at least one continuous tension member drivable by at least one conveyor drive of the conveyor system, and a respective run of the bottle carrier chain is arranged a certain distance along a tension member, guided there by the tension member and by means of automatically releasable and engageable positive fit and/or magnetically engaging couplings in the area of the transfer guide is driven by the tension member. | ||||||
| 19 | REVOLVING CONVEYOR SYSTEM WITH AN IMPROVED DRIVE CONCEPT | US12766486 | 2010-04-23 | US20100270129A1 | 2010-10-28 | Martin REINISCH; Dennis Szczerba; Heinrich Loecht; Karsten Voelz; Anja Boehm |
| The present invention relates to a conveyor system, in particular for supplying packaging machines, which has a revolving conveyor segment with a curved region. An electromagnetic drive is provided with a plurality of stationary coil elements and a plurality of permanent magnets. The stationary coil elements are disposed along the conveyor segment, and at least one rotor is disposed movably on the conveyor segment and is movable by means of electromagnetic forces. The permanent magnets are disposed on the rotor. A first row of coil elements and a second row of coil elements are disposed in the curved region such that the second row of coil elements is disposed radially outside the first row of coil elements. | ||||||
| 20 | Conveyor system | US10068390 | 2002-02-06 | US06607073B2 | 2003-08-19 | Robert Büchi; Daniel Hinder |
| In a conveyor system, a magnet element row aligned at least partly parallel to the conveyor path is arranged in a driving region to serve as a stationary drive device. Conveyor elements include conducting parts (4) and are movable along the conveyor path through the drive region. The magnet element row (11) includes alternatingly orientated permanent magnets and produces a magnetic field locally changing along the row (11). The conducting parts (4) are arranged on the conveyor elements (2) such that in the drive region they are positioned in the effective range of the magnet element row (11). A relative movement between the magnetic element row (11) and the conveyor element (2) produces eddy currents in the conducting parts (4) effecting forces counteracting the relative movement. The relative movement is produced by annular magnet element rows (11) that are revolvingly driven and of which a part moves parallel to the conveyor path being in interaction with the conducting parts (4) of conveyor elements (2). The drive device works without contact and permits jolt-free conveyance, particularly when used in conjunction with independently movable conveyor elements. | ||||||
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