序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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1 | 具有改进的元件接收的元件输送器 | CN201280077734.9 | 2012-12-19 | CN104854005A | 2015-08-19 | D·希尔克特; S·克鲁兹勒 |
一种元件输送器(10),包括用于从大容量存储器中提升所选元件(30)的提升装置(50),以及邻近于所述提升装置(50)并用于接收所选元件(30)的拾取表面(100)。拾取表面(100)配置用于在所选元件(30)下方移动以接收它们。从而,能够利用该拾取平面(100)的移动以在其上接收所选元件(30)。 | ||||||
2 | 角度可调的摇摆抛粮机 | CN201611100867.X | 2016-12-05 | CN106697812A | 2017-05-24 | 喻贵飞 |
本发明提供一种角度可调的摇摆抛粮机。本发明包括安装支架,其特征是:所述的安装支架的一端通过驱动装置连接针杆的一端,所述的安装支架的另一端通过销轴连接摆杆的一端,所述的针杆和所述的摆杆设置在同一平面上,所述的针杆的另一端和所述的摆杆的另一端通过长度可调节的连杆连接,所述的摆杆上安装抛粮槽。本发明设备结构简单,工作稳定可靠,抛粮的摇摆角度可调。 | ||||||
3 | 用于卷心菜的抛掷机 | CN201610523178.3 | 2016-07-01 | CN106005913A | 2016-10-12 | 王鼎兴 |
本发明公开了一种用于卷心菜的抛掷机,包括一方框形底盘,所述的方框形底盘的四角分别设置有一滚轮,所述的用于卷心菜的抛掷机还包括一方框形支架、一抛掷杆和一弹性橡皮筋,所述的方框形支架与所述的方框形底盘的中部相互垂直连接,所述的方框形支架包括一下横梁和一上横梁,所述的下横梁及所述的上横梁均为水平结构,所述的上横梁上设置有一挂钩,所述的抛掷杆的一端设置有一“C”形连接卡、中部设置有一挂杆、另一端设置有一抛掷碗。本发明的用于卷心菜的抛掷机的优点是:带有抛掷杆和弹性橡皮筋,能够利用橡皮筋的弹力将卷心菜抛至高处,结构简单,生产成本较低,自重较轻,适合随卡车携带。 | ||||||
4 | 一种食品速冻搅拌投料装置 | CN201710553151.3 | 2017-07-07 | CN107156600A | 2017-09-15 | 邱晓峰; 冯雨婷 |
本发明公开了一种食品速冻搅拌投料装置,包括箱体,所述箱体的侧面下部设有电机箱,且电机箱贯穿箱体并延伸至箱体的内部,所述电机箱的内部安装有驱动电机,所述驱动电机的输出轴上固定有第一斜齿轮,转动轴的下端固定有第二斜齿轮,且第一斜齿轮与第二斜齿轮啮合连接,所述转动轴的上端固定有连接块,所述连接块的两端均固定有第一挡板,其中一个挡板远离连接块的一侧固定有第二挡板,且第一挡板与第二挡板相互垂直,所述箱体的内壁上固定有安装架,安装架的顶部固定有气缸,所述气缸的顶部固定有安装板,所述安装板的顶部两侧固定有限位杆,且限位杆贯穿箱体的顶部。本发明结构新颖,设计巧妙,结构合理,适合推广。 | ||||||
5 | 多角度抛粮机 | CN201611100853.8 | 2016-12-05 | CN106477252A | 2017-03-08 | 喻贵飞 |
本发明提供一种多角度抛粮机。本发明包括安装支架,其特征是:所述的安装支架的一端通过销轴连接摆杆的一端,所述的安装支架的另一端安装有驱动装置,所述的驱动装置连接针杆,所述的针杆通过销轴连接导向套筒,所述的导向套筒穿在所述的摆杆上,所述的摆杆上安装抛粮槽。本发明设备结构简单,工作稳定可靠。 | ||||||
6 | 具有改进的元件接收的元件输送器 | CN201280077734.9 | 2012-12-19 | CN104854005B | 2016-11-16 | D·希尔克特; S·克鲁兹勒 |
一种元件输送器(10),包括用于从大容量存储器中提升所选元件(30)的提升装置(50),以及邻近于所述提升装置(50)并用于接收所选元件(30)的拾取表面(100)。拾取表面(100)配置用于在所选元件(30)下方移动以接收它们。从而,能够利用该拾取平面(100)的移动以在其上接收所选元件(30)。 | ||||||
7 | 抛送流水线 | CN201610212595.6 | 2016-03-31 | CN105692087A | 2016-06-22 | 杨绍荣 |
本发明涉及机械装备领域,特指一种能根据实际需要灵活增减流水线的长度、用于传送包裹等货物的抛送流水线。主要由主抛送单元,抛送单元I,抛送单元II和抛送单元III构成。本发明结构合理,操作简便,能方便地增减流水线的长度,并能对流水线的输送线路作一定范围的调整。 | ||||||
8 | Robotic tossing of items in inventory system | US16036583 | 2018-07-16 | US10144591B2 | 2018-12-04 | Jeremiah David Brazeau; Andrew M. Sweeney; Henry David Garcia; Fred Chen; Brian Michael Lusignan |
Robotic arms or manipulators can be used to toss inventory items within an inventory system. Tossing strategies for the robotic arms may include information about how a grasped item is to be moved and released by a robotic arm to achieve a trajectory for moving the item to a receiving location. A tossing strategy may also use a trajectory that avoids time and/or space reserved for a trajectory of another tossed item. The receiving location can include surfaces and/or other features that can be manipulated for receiving the item based on one or more characteristics of the tossed item and/or a trajectory of the tossed item. | ||||||
9 | Stop for overhead carriers. | US1909517521 | 1909-09-13 | US945577A | 1910-01-04 | NELLER ALBERT H |
10 | Parcel-carrier attachment. | US1900012548 | 1900-04-12 | US654015A | 1900-07-17 | MILLER CHARLES J |
11 | Cash-carrier apparatus | US513547D | US513547A | 1894-01-30 | ||
12 | Device for the fast transport of objects | EP15155281.7 | 2015-02-16 | EP3056310A1 | 2016-08-17 | Bonino, Alessandro; Bonino, Giovanni |
A device (1) for the transport of singled objects (2) comprising a first tube section (3), delimiting a loading channel (4) from a rear aperture (6) to a front aperture (7), a loading aperture (8) for the insertion of the singled object (2) in the loading channel (4), a second tube section (9) connected to the rear aperture (6) of the first tube section (3) and delimiting a guide channel (10), a thrust generator (11, 11') suitable to generate in the loading channel (4) a thrust in the transport direction, a transport support (36) suitable to accommodate the' object (2) and arranged in the loading channel (4) in such a way as to be launched in the transport direction along the guide channel (10) and a rebound device (39) positioned in the guide channel (10) to make the transport support (36) bounce, causing the release of the object (2) from transport (36). |
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13 | ROBOTIC TOSSING OF ITEMS IN INVENTORY SYSTEM | US16036583 | 2018-07-16 | US20180319601A1 | 2018-11-08 | Jeremiah David Brazeau; Andrew M. Sweeney; Henry David Garcia; Fred Chen; Brian Michael Lusignan |
Robotic arms or manipulators can be used to toss inventory items within an inventory system. Tossing strategies for the robotic arms may include information about how a grasped item is to be moved and released by a robotic arm to achieve a trajectory for moving the item to a receiving location. A tossing strategy may also use a trajectory that avoids time and/or space reserved for a trajectory of another tossed item. The receiving location can include surfaces and/or other features that can be manipulated for receiving the item based on one or more characteristics of the tossed item and/or a trajectory of the tossed item. | ||||||
14 | ROBOTIC TOSSING OF ITEMS IN INVENTORY SYSTEM | US14869450 | 2015-09-29 | US20170088360A1 | 2017-03-30 | Jeremiah David Brazeau; Andrew M. Sweeney; Henry David Garcia; Fred Chen; Brian Michael Lusignan |
Robotic arms or manipulators can be used to toss inventory items within an inventory system. Tossing strategies for the robotic arms may include information about how a grasped item is to be moved and released by a robotic arm to achieve a trajectory for moving the item to a receiving location. A tossing strategy may also use a trajectory that avoids time and/or space reserved for a trajectory of another tossed item. The receiving location can include surfaces and/or other features that can be manipulated for receiving the item based on one or more characteristics of the tossed item and/or a trajectory of the tossed item. | ||||||
15 | Dough feeding apparatus | US3580385D | 1968-12-23 | US3580385A | 1971-05-25 | THOMPSON DANIEL T |
An apparatus for transporting a plurality of divided elements of a tacky dough substance to a predetermined location where the elements are shaped into toroids. An impelling mechanism consisting essentially of driven impeller wheels is associated with the apparatus. The wheels engage and impel the elements from their predetermined location of a conveying portion of the apparatus at a uniformly predetermined rate, to a toroid-forming machine. The use of the impelling mechanism avoids pileup of one element upon another in the toroid-forming machine by overcoming the normally adhering characteristics of the elements to the material of the conveying portion of the apparatus, brought about by the normally tacky nature of the elements. The impelling mechanism, therefore provides only one element at a time through a feeder to a toroid-forming portion of the toroid-forming machine, thereby resulting in a toroid of uniform size and shape. The use of the impelling mechanism further prevents clogging of the toroid-forming machine by enabling only a single element at a time to be fed to this machine, thereby improving product reliability and reducing the rejection rate of the manufactured toroids.
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16 | Bale-handling apparatus | US50112655 | 1955-04-13 | US2756865A | 1956-07-31 | MORRISON CHARLES S; FORTH MURRAY W |
17 | Elevated-carrier stop. | US1911625498 | 1911-05-06 | US1017393A | 1912-02-13 | DREW HERBERT H |
18 | Samuel w | US615338D | US615338A | 1898-12-06 | ||
19 | Cash-carrier | US455330D | US455330A | 1891-07-07 | ||
20 | Buffer for store-service apparatus | US452474D | US452474A | 1891-05-19 | ||