| 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 | 一种轴承内圈自动上料装置 | CN201610830962.9 | 2016-09-19 | CN106395314A | 2017-02-15 | 赵艳; 姜亚俊; 姜飒; 黄兆伟 |
| 本发明涉及轴承生产加工技术领域,提供了一种轴承内圈自动上料装置,包括送料装置、导料槽、加工装置、下料槽,所述导料槽的出口端与所述加工装置对接,所述下料槽的入口端与所述加工装置对接,其特征在于,还包括控制装置、设置在所述送料装置与所述导料槽之间的过渡导槽,所述导料槽的中端穿设有挡料杆与挡料板,所述挡料板位于所述挡料杆的下方,所述过渡导槽、所述导料槽及所述下料槽与水平面之间均形成夹角,所述送料装置的驱动装置与所述控制装置电信号连接。本发明提供的一种轴承内圈自动上料装置,自动化程度高,储料量大,工作效率高,结构简单可靠,可防止研磨液飞溅与泄露,使用方便安全,适合大规模推广。 | ||||||
| 2 | 塑壳用收料装置 | CN201610797493.5 | 2016-08-31 | CN106395237A | 2017-02-15 | 刘功伟 |
| 本发明公开了一种塑壳用收料装置,包括:壳体,其顶部设置有进料口和出气口,底部设置有进气口和出料口;多块隔板,其沿竖直方向间隔设置在壳体内,隔板上设置有开口;挡板,其设置在壳体内,且位于最底部的隔板的下方,挡板上设置有网孔;传送带,其设置在壳体的下方,传送带的一端与出料口相对;支架,其设置在传送带的下方;至少一个收纳箱,其设置在传送带的另一端的下方。本发明能防止塑料制品跌坏,通过对成型后的塑料制品进行冷却后收集,能防止塑料制品变形,无需人为操作,提高了劳动效率。 | ||||||
| 3 | 电子元器件传送装置 | CN201610513658.1 | 2016-07-01 | CN106315178A | 2017-01-11 | 角方胜; 田中尚登; 三井肇 |
| 本发明提供一种电子元器件难以堵塞于传送路径的电子元器件传送装置。第1磁力发生部(24a)设置于中游部(23b)的第1侧壁(22a)的侧方。中游部(23b)的第1侧壁(22a)和第2侧壁(22b)的间隔比上游部(23a)的第1侧壁(22a)和第2侧壁(22b)的间隔及下游部(23c)的第1侧壁(22a)和第2侧壁(22b)的间隔要大。第1侧壁22b平坦地通过上游部(23a)、中游部(23b)、下游部(23c)。 | ||||||
| 4 | 型材生产下料装置 | CN201610422708.5 | 2016-06-15 | CN105905586A | 2016-08-31 | 左胜贵; 陈凯; 朱青松; 阴其路 |
| 本发明公开了一种型材生产下料装置,包括底座和支撑架以及料架,所述料架通过支撑架设在底座上,还包括支撑料板和支撑气缸,所述支撑料板一侧铰接在支撑架上,支撑料板位于料架上方,所述支撑气缸一端铰接在支撑架上,支撑气缸另一端铰接在支撑料板的下部,所述支撑料板的高度与型材生产线出口高度一致。该型材生产下料装置结构设计合理,生产出来的型材可自动下料至高度较低的料架上,工人下料操作简便,生产效率高,工人劳动量小,成本低。 | ||||||
| 5 | 焊丝盘发料机 | CN201610124816.4 | 2016-03-04 | CN105692037A | 2016-06-22 | 杨连生; 李逵; 沈新新; 沙俊峰; 张爱兵; 宗涛; 朱家平; 孙安州 |
| 本发明公开了一种焊丝盘发料机,包括支撑机架、滑道、取料开关和出料口;所述滑道倾斜设于所述支撑机架内,所述滑道上设有焊丝盘,所述出料口位于所述滑道的底端,所述取料开关用于控制焊丝盘从所述滑道滚至所述出料口。本发明提供的焊丝盘发料机能够实现自助领取焊丝盘,能有效满足施工现场工人领料的即时需求,同时有助于提升配套部门的信息化管理水平,降低生产配送中的人力与管理成本,实现24小时无限制配送。 | ||||||
| 6 | Drop chute assembly for paper handling system | US14172934 | 2014-02-05 | US09051123B2 | 2015-06-09 | Paul B. Lotz |
| A paper transport system includes a first conveyor, a second conveyor, and a drop chute assembly. The first conveyor has a belt for transporting paper disposed at a first elevation. The second conveyor has a belt for transporting paper disposed at a second elevation that is different from the first elevation. The drop chute assembly is positioned between the first conveyor and the second conveyor. The drop chute assembly is configured to receive paper from the first conveyor and output the paper to the second conveyor. | ||||||
| 7 | A ramp | EP83303357.4 | 1983-06-10 | EP0098693A1 | 1984-01-18 | Leclancher, Guy Charles |
A downwardly inclined pathway for supporting and conveying objects, such as a glacis, comprises two er more pathway elements (11, 12, 13, 14) arranged in longitudinal succession and which present respective sections of the pathways supporting surface, the slope of at least one of the pathway elements being adjustable by adjustement means (26,27) relative to a supporting structure (15). The slope of the pathway may thereby be altered to accommodate different conditions and different objects to assist in the objects travelling from an upper end to the lower end without stopping on the pathway and also without arriving at the lower end at too great a speed. |
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| 8 | TRANSPORT CHUTE HAVING DRIVE MEANS | US15743503 | 2016-06-08 | US20190002203A1 | 2019-01-03 | OLIVER SCHITTHELM |
| A transport chute is suitable for use as a store for articles that are able to be laid one on top of another, in particular packages and items of luggage. The chute contains a chute portion which has an inclined chute surface with a dropping direction along the chute surface. The chute portion is interrupted by an interruption such that the chute surface is subdivided into at least an upper chute surface and lower chute surface. The interruption is configured to make it easier to form at least two layers of articles lying one on top of another below the interruption. The lower chute surface has a driver, which is drivable and actuable counter to the dropping direction, for transporting the articles, the articles of the bottommost layer being able to rest at least in part on the driver in order to be transported. | ||||||
| 9 | Chute system with adjustable angle of inclination | US14367858 | 2012-12-20 | US09278809B2 | 2016-03-08 | Uffe Lykkegaard; Finn Lyng Pedersen |
| The invention provides a chute system (C1,C2,C3) for a sorting system arranged for transporting objects, e.g. for use for discharging luggage from a conveyor system. The chute system has one or more chute sections with an inlet (IL) in one end and an outlet (OL) in the opposite end. Displacement means, e.g. a pneumatic actuator, is arranged to adjust an angle of inclination of the one or more chute sections (C1,C2,C3) by displacing the chute section (C1,C2,C3) in a motion comprising pivoting around a pivot point positioned downstream of the inlet (IL). E.G. the pivot point can be positioned at the outlet, e.g. by means of a hinge. The adjustment of the angle of inclination may be controlled by a processor in response to various position and/or speed sensors and/or information about incoming objects from a vision based system or from the associated sorting system, e.g. identification of poly wrapped objects. The angle of inclination can be increased in case an object stops on the chute section, or the angle of inclination can be decreased in case an object moves too fast, even if a simple gravity chute is used. A cascade of two or more chute sections (C1,C2,C3) with adjustable angles of inclination can be used to control batches of objects and to control back pressure of objects on the chute. | ||||||
| 10 | CHUTE SYSTEM WITH ADJUSTABLE ANGLE OF INCLINATION | US14367858 | 2012-12-20 | US20150122611A1 | 2015-05-07 | Uffe Lykkegaard; Finn Lyng Pedersen |
| The invention provides a chute system (C1,C2,C3) for a sorting system arranged for transporting objects, e.g. for use for discharging luggage from a conveyor system. The chute system has one or more chute sections with an inlet (IL) in one end and an outlet (OL) in the opposite end. Displacement means, e.g. a pneumatic actuator, is arranged to adjust an angle of inclination of the one or more chute sections (C1,C2,C3) by displacing the chute section (C1,C2,C3) in a motion comprising pivoting around a pivot point positioned downstream of the inlet (IL). E.G. the pivot point can be positioned at the outlet, e.g. by means of a hinge. The adjustment of the angle of inclination may be controlled by a processor in response to various position and/or speed sensors and/or information about incoming objects from a vision based system or from the associated sorting system, e.g. identification of poly wrapped objects. The angle of inclination can be increased in case an object stops on the chute section, or the angle of inclination can be decreased in case an object moves too fast, even if a simple gravity chute is used. A cascade of two or more chute sections (C1,C2,C3) with adjustable angles of inclination can be used to control batches of objects and to control back pressure of objects on the chute. | ||||||
| 11 | Mechanism for transferring integrated circuit packages from a source site to a destination site with minimized moving parts | US09409179 | 1999-09-30 | US06206626B1 | 2001-03-27 | Sa-Nguan Boochakorn; Supachai Vesaruch; Kitinan Chanvivakul |
| A mechanism for transferring an integrated circuit package from a source site to a destination site with use of air to push the integrated circuit package to minimize use of moving parts. The integrated circuit package initially travels through an input passage when the integrated circuit package is placed into an input passage opening at the source site. In addition, an intermediate resting site is disposed at the end of the input passage. The integrated circuit package stops to rest at the intermediate resting site after traveling through the input passage. An output passage has an output passage opening at the intermediate resting site, and the integrated circuit package travels through the output passage to reach the destination site at the end of the output passage. An air nozzle is disposed at the intermediate resting site such that air from the air nozzle is blown onto the integrated circuit package when the integrated circuit package is at the intermediate resting site to push the integrated circuit package into the output passage opening. A detector may determine when the integrated circuit package is at the intermediate resting site such that the air nozzle automatically turns on to blow air onto the integrated circuit package when the detector determines that the integrated circuit passage is at the intermediate resting site. | ||||||
| 12 | Ship-loading chute | US27065728 | 1928-04-17 | US1766681A | 1930-06-24 | ALFRED PAYNE |
| 13 | GRAVITY FEED INVENTORY MANAGEMENT | EP16825624.6 | 2016-12-15 | EP3390246A1 | 2018-10-24 | AALUND, Martin Peter; BATTLES, Jon Stuart; CLARK, David Henry; LECKY, Ned; JOCHIM, Jayson Michael |
| Described are systems, methods, and apparatus for managing the movement of inventory items within a materials handling facility using rollable containers and a gravity feed conveyance system. Inventory items are placed in the rollable containers and are routed to different locations within the materials handling facility along the gravity feed conveyance system, through use of gravitational forces that cause the rollable containers to roll. By using gravity to route inventory items within the materials handling facility, the energy and power requirements for the materials handling facility are reduced, which reduces overhead costs and which is better for the environment. | ||||||
| 14 | CHUTE SYSTEM WITH ADJUSTABLE ANGLE OF INCLINATION | EP12810054.2 | 2012-12-20 | EP2794435B1 | 2016-04-27 | LYKKEGAARD, Uffe; PEDERSEN, Finn Lyng |
| 15 | CONVEYOR CHUTE COMPRISING A WIDTH ADJUSTING MECHANISM | US15576332 | 2016-05-12 | US20180162644A1 | 2018-06-14 | MICHELE VITALINI; JUERGEN BRAUN; CHRISTOPH HOFMANN; OLIVER SCHITTHELM |
| A conveyor chute is suitable for use as a store for goods, such as packages and pieces of luggage. The conveyor chute has at least one sliding section with an inclined sliding surface with a direction of fall along the sliding surface as well as a sliding width. The sliding section has a width adjusting mechanism which allows the goods to be distributed across at least part of the sliding width and which thus allows the conveyor chute to be used in an improved manner for storing the goods. | ||||||
| 16 | Electronic component conveyance device | US15195084 | 2016-06-28 | US09769968B2 | 2017-09-19 | Masaru Kakuho; Naoto Tanaka; Hajime Mitsui |
| An electronic component conveyance device in which an electronic component is unlikely to jam in a conveyance path. A first magnetic force generation unit is provided lateral to a first sidewall in a midstream part. An interval between the first sidewall and a second sidewall in the midstream part is larger than an interval between the first sidewall and the second sidewall in an upstream part and an interval between the first sidewall and the second sidewall in a downstream part. The first sidewall is flat across the upstream part, the midstream part, and the downstream part. | ||||||
| 17 | GRAVITY FEED INVENTORY MANAGEMENT | US14975596 | 2015-12-18 | US20170174436A1 | 2017-06-22 | Martin Peter Aalund; Jon Stuart Battles; David Henry Clark; Ned Lecky; Jayson Michael Jochim |
| Described are systems, methods, and apparatus for managing the movement of inventory items within a materials handling facility using rollable containers and a gravity feed conveyance system. Inventory items are placed in the rollable containers and are routed to different locations within the materials handling facility along the gravity feed conveyance system, through use of gravitational forces that cause the rollable containers to roll. By using gravity to route inventory items within the materials handling facility, the energy and power requirements for the materials handling facility are reduced, which reduces overhead costs and which is better for the environment. | ||||||
| 18 | ELECTRONIC COMPONENT CONVEYANCE DEVICE | US15195084 | 2016-06-28 | US20170001809A1 | 2017-01-05 | Masaru KAKUHO; Naoto TANAKA; Hajime MITSUI |
| An electronic component conveyance device in which an electronic component is unlikely to jam in a conveyance path. A first magnetic force generation unit is provided lateral to a first sidewall in a midstream part. An interval between the first sidewall and a second sidewall in the midstream part is larger than an interval between the first sidewall and the second sidewall in an upstream part and an interval between the first sidewall and the second sidewall in a downstream part. The first sidewall is flat across the upstream part, the midstream part, and the downstream part. | ||||||
| 19 | DROP CHUTE ASSEMBLY FOR PAPER HANDLING SYSTEM | US14172934 | 2014-02-05 | US20140216887A1 | 2014-08-07 | Paul B. LOTZ |
| A paper transport system includes a first conveyor, a second conveyor, and a drop chute assembly. The first conveyor has a belt for transporting paper disposed at a first elevation. The second conveyor has a belt for transporting paper disposed at a second elevation that is different from the first elevation. The drop chute assembly is positioned between the first conveyor and the second conveyor. The drop chute assembly is configured to receive paper from the first conveyor and output the paper to the second conveyor. | ||||||
| 20 | Parcel singulation system | US09362863 | 1999-07-29 | US06259967B1 | 2001-07-10 | Karl Heinz Hartlepp; Brian Bruun; Christopher Robert Matanin |
| A system for and a method of singulating parcels stored in a bulk into a single file of parcels that are mutually separated, by leading the parcels between consecutive, perpendicular conveyor sections by chutes that are designed for providing the desired spreading of parcels in a transport direction and/or the desired narrowing of the flow of parcels in a direction transverse to the transport direction. A first chute leads parcels from an input conveyor section to an intermediate conveyor section so that parcels having different transverse positions will tend to be spread in the transport direction when passing from the input conveyor section to the intermediate conveyor section. A second chute leads parcels from an intermediate conveyor section to a receiving conveyor section so that parcels subsequently will have a significantly reduced mutual spacing in the direction transverse to the transport direction of the receiving conveyor section. | ||||||
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