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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21 | ANTRIEBSYSTEM FÜR EINEN GURTFÖRDERER, VERFAHREN ZUM ANTREIBEN EINES GURTFÖRDERERS, GURTFÖRDERER, STEUEREINRICHTUNG UND COMPUTERPROGRAMMPRODUKT | EP18156029.3 | 2018-02-09 | EP3412604A1 | 2018-12-12 | HELLMUTH, Torsten; MÄCHLER, Peter; TALJAARD, Pieter |
Zusammenfassend betrifft die Erfindung ein Antriebsystem für einen Gurtförderer, ein Verfahren zum Antreiben eines Gurtförderers (2) sowie einen Gurtförderer (2) mit einem solchen Antrieb. Zudem betrifft die Erfindung ein Computerprogrammprodukt und eine Steuereinrichtung (9, 9a, 9b). Der Gurtförderer (2) umfasst einen Gurt (1), der von zwei Gurttrommeln (3a, 3b) geführt wird und Tragrollen (4a, 4b). Neben der jeweiligen Gurttrommel (3a, 3b) werden zumindest ein Teil der Tragrollen (4a, 4b) mit jeweils einem Motor (5, 5a) angetrieben. Der dezentrale Antrieb des Gurtes (1) senkt dessen Belastung (B). Der jeweilige Motor (5, 5a) dient zur Bewegung des Gurtes (1), wobei der jeweilige Motor (5, 5a) jeweils eine Drehzahl (w) und ein Drehmoment (D) zum Antrieb des Gurtes (1) auf den Gurt (1) übertragen. Durch eine Regelung der jeweiligen Drehzahl (w) und/oder des jeweiligen Drehmomentes (D) kann die Belastung (B) des Gurtes (1) weiter reduziert werden. Vorzugsweise dient eine kraftschlüssige Verbindung des Gurtes (1) mit der jeweiligen Tragrolle (4a) und/oder jeweiligen Gurttrommel (3a) zum Übertrag von kinetischer Energie vom jeweiligen Motor (5, 5a) zum Gurt (1) und zurück. |
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22 | BEFESTIGUNGSELEMENT ZUM BEFESTIGEN EINES LAUFWAGENS AN EINEM ENDLOSFÖRDERMITTEL, LAUFWAGEN, FÖRDERVORRICHTUNG UND BEFESTIGUNGSVERFAHREN | EP16706971.5 | 2016-02-17 | EP3105154B1 | 2017-12-13 | KÄSER, Uwe |
23 | CONVEYOR DEVICE, AND ARTICLE TESTING UNIT HAVING THE SAME | EP01930040.9 | 2001-05-10 | EP1281941A1 | 2003-02-05 | Takahashi, Atsushi c/o Ishida Co., Ltd. |
A weighing conveyor having an increased weighing accuracy. This conveyor includes a conveyor apparatus 3 for transporting an article X to be weighed, a load detector 5 for detecting the weight of the article X to be weighed, and a housing 7 for accommodating the load detector 5, in which a fixed end 5b of the load detector is connected with the housing 7 and a free end 5c thereof is connected with a support member 120 for supporting the conveyor apparatus 3, and the support member 120 protrudes outwardly of the housing 7 from a bottom surface thereof. |
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24 | Conveyor device and conveyor system | EP02000403.2 | 2002-01-07 | EP1223120A3 | 2002-07-24 | Masuda, Junichi |
The present invention relates to a conveyor device (31,32,33) and a conveyor system (1), wherein the conveyor device comprises a front roller (6), an end roller (6), an endless belt (35) passing round the front and end rollers and at least one intermediate roller (6) provided at shorter intervals than the longitudinal length of products between the front and end rollers, and said front and end rollers and said intermediate roller are drive rollers. |
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25 | 제품회수장치 | KR1020120105603 | 2012-09-24 | KR1020130044145A | 2013-05-02 | 사토다카유키; 시노하라기요토 |
PURPOSE: A product collecting device is provided to interlock a conveyor device and a receiving part without installing an exclusive actuator in a rotary table. CONSTITUTION: A product collecting device comprises a transfer belt, a rotary table(21), an interlocking unit(29), and an actuator. The rotary table is rotatably supported. The interlocking unit interlocks a driving force input part for the transfer belt and a driving force input part for the rotary table. The actuator transfers driving force to the transfer belt and the rotary table. Products transferred by the transfer belt are collected in the rotary table. | ||||||
26 | TRANSPORT DEVICE AND TRANSPORT METHOD COMPRISING SUCH A TRANSPORT DEVICE | US15752754 | 2016-07-28 | US20180229942A1 | 2018-08-16 | Ulrich Scholz; Sebastian Götze; Thomas Stienen |
A transport device includes a first transport-element that comprises rotatable transport-element sections and that defines a transport path for transporting materials between front and rear deflection-devices. The path has successive sections along a transport direction and extends between drive-arrangements spaced apart along the transport path. The drive-arrangements interactively connect to the transport-element at different locations along the transport path. Rotatable transport-element sections are repositioned relative to one another in such a way to change an overall length of the first transport-element. Targeted controlling of adjacent transport path sections at a differential speed by way of the first and second drive-arrangements creates an accumulation or a gap of transport material on a transport-path section. | ||||||
27 | Low-energy roller-belt accumulator | US15113528 | 2015-02-04 | US09815632B2 | 2017-11-14 | Joseph M. DePaso; John S. Reid, III; Paul Neuschwander |
A conveyor system and method for cascaded accumulation on a series of in-line roller belts. An accumulation system comprises a series of roller belts that can be actuated in contiguous zones to accelerate conveyed articles forward at twice the belt speed. When articles start to accumulate on the accumulation conveyor, the belt rollers are deactuated downstream to upstream zone by zone. Then the belts are stopped as they fill with accumulated articles. The process is repeated in cascade for the upstream roller belts as articles continue to accumulate. | ||||||
28 | Conveyor having dual-direction drive | US14326643 | 2014-07-09 | US09169075B2 | 2015-10-27 | Clarence C. Allen; Kevin G. Gorby; Eric H. Crowe; Samantha L. J. Armstrong |
A conveyor includes a frame having first and second spaced frame elements having outer sides and facing inner sides, first and second drive rollers between the first and second frame elements, a flexible belt mounted on the first and second drive rollers, first and second drive wheels connected to the first and second drive rollers, and a drive operably connected to the first and second drive wheels and configured to drive the belt in a first direction and in a second direction opposite the first direction. | ||||||
29 | CONVEYOR HAVING DUAL-DIRECTION DRIVE | US14326643 | 2014-07-09 | US20140318930A1 | 2014-10-30 | Clarence C. Allen; Kevin G. GORBY; Eric H. CROWE; Samantha L.J. ARMSTRONG |
A conveyor includes a frame having first and second spaced frame elements having outer sides and facing inner sides, first and second drive rollers between the first and second frame elements, a flexible belt mounted on the first and second drive rollers, first and second drive wheels connected to the first and second drive rollers, and a drive operably connected to the first and second drive wheels and configured to drive the belt in a first direction and in a second direction opposite the first direction. | ||||||
30 | CONVEYOR HAVING BOTTOM OPENING FOR ACCOMMODATING A CONVEYOR SUPPORT STRUCTURE AND METHOD OF USING SAME | US13598830 | 2012-08-30 | US20130306442A1 | 2013-11-21 | Clarence C. ALLEN, JR.; Kevin G. GORBY; Eric H. CROWE; Samantha L.J. ARMSTRONG |
A conveyor includes a frame having first and second spaced frame elements, first and second drive rollers between the frame elements, and a flexible belt mounted between the first and second drive rollers that has a load bearing portion and a return portion, the return portion extending between the first and second frame elements. The conveyor has a first end portion including the first drive roller, a second end portion including the second drive roller and a central portion including a midpoint between the first drive roller and the second drive roller, and the central portion of the conveyor includes a lift-table receiving space between the first drive roller and the second drive roller and between the first frame element and the second frame element, and the return portion of the belt extends between the load bearing portion and the lift-table-receiving space. | ||||||
31 | Spiral belt conveyor | US13122183 | 2009-08-06 | US08522960B2 | 2013-09-03 | Matthew J. Johnson |
The spiral belt conveyor is a conveyor belt system for transporting articles vertically along a helical path. The spiral belt conveyor includes a platform and a central frame structure extending upwardly from the platform. Two idler rollers are mounted on the platform. A helical track having an inner portion and an outer portion is concentrically disposed around the shaft. The inner portion of the helical track has a first radius, and the outer portion thereof has a second radius greater than the first radius. An upper end of the inner portion of the helical track meets an upper end of the outer portion of the helical track adjacent an upper end of the central frame structure. A conveyor belt is mounted on the helical track and the pair of idler rollers. | ||||||
32 | OVERHEAD CONVEYOR AND DRIVE CHAIN FOR THE OVERHEAD CONVEYOR | US13307086 | 2011-11-30 | US20120193192A1 | 2012-08-02 | Max Winkler |
A drive chain of an overhead conveyor for transporting hanging articles. The drive chain comprises a plurality of traction rod elements connected by coupling elements. Each traction rod element comprises a base body extending substantially along a conveying direction and having a first longitudinal end and an opposite second longitudinal end, which respectively comprise a connection section into which a connection bolt is insertable. The base body comprises a frictional engagement section for interacting in a frictional-engaged manner with a drive wheel of a friction roller drive, which drive wheel is forced against the frictional engagement section to move the drive chain in the conveying direction. The base body further comprises a positive engagement section for interacting with spaced synchronization units to prevent displacement of neighbouring traction rod elements in the conveying direction by a positive engagement. The displacement is adjusted variably between the neighbouring traction rod elements. | ||||||
33 | SPIRAL BELT CONVEYOR | US13122183 | 2009-08-06 | US20110174596A1 | 2011-07-21 | Matthew J. Johnson |
The spiral belt conveyor is a conveyor belt system for trans-porting articles vertically along a helical path. The spiral belt conveyor includes a platform and a central frame structure extending upwardly from the platform. Two idler rollers are mounted on the platform. A helical track having an inner portion and an outer portion is concentrically disposed around the shaft. The inner portion of the helical track has a first radius, and the outer portion thereof has a second radius greater than the first radius. An upper end of the inner portion of the helical track meets an upper end of the outer portion of the helical track adjacent an upper end of the central frame structure. A conveyor belt is mounted on the helical track and the pair of idler rollers. | ||||||
34 | Conveyor apparatus and commodity inspecting equipment utilizing the same | US10765162 | 2004-01-28 | US20040182612A1 | 2004-09-23 | Atsushi Takahashi |
A weighing conveyor having an increased weighing accuracy. This conveyor includes a conveyor apparatus 3 for transporting an article X to be weighed, a load detector 5 for detecting the weight of the article X to be weighed, and a housing 7 for accommodating the load detector 5, in which a fixed end 5b of the load detector is connected with the housing 7 and a free end 5c thereof is connected with a support member 120 for supporting the conveyor apparatus 3, and the support member 120 protrudes outwardly of the housing 7 from a bottom surface thereof. | ||||||
35 | Force transmission or transport device | US09502739 | 2000-02-11 | US06269942B1 | 2001-08-07 | Carl Conrad Mäder; Marcel Schneider |
A force transmission or transport device having a line of force transmitting elements (2), a guide (1) for guiding the line of force transmitting elements (2) along a predetermined course, and at least one drive. A tensioning drive (6) is provided at one end of a section (5) of the predetermined course. A further drive (3), or an intermitting stop (9), is provided at the other end of the section (5) for tensioning the line of force transmitting elements (2) by a tractive or a compressive load. The further drive (3) or stop (9) acts substantially without slippage on the force transmitting elements (2). The tensioning drive (6), via a friction clutch, starts slipping when the desired tension has built up. | ||||||
36 | Hydrostatic conveyor drive | US682137 | 1976-04-30 | US4032003A | 1977-06-28 | James S. Hull |
A conveyor drive system employing a constant speed master drive and a slave drive of the hydrostatic, closed loop type in which there are no electrical or hydraulic feedback lines between the master and slave drive unit. The master drive moves the conveyor at a constant speed as load varies and the slave drive unit responds to changes in load on the conveyor to vary the speed of the drive to maintain a constant pull on the conveyor to insure that the slave drive shares its portion of the load with the master drive. | ||||||
37 | Conveyor belt drive assembly | US576791 | 1975-05-12 | US3963114A | 1976-06-15 | Joseph J. Younger |
A conveyor belt drive assembly embodying a supporting frame extending transversely of the belt. A pair of transverse drive axles mounted in the supporting frame are spaced from each other in the direction of belt travel. Drive wheels on the drive axles engage the under surfaces of the edges of the upper strand of the belt and the upper surfaces of the edges of the lower strand. A resiliently mounted rotatable support engages the under surfaces of the edges of the lower strand opposite the drive wheels with the lower strand pinched therebetween. A floating frame operatively connected to the supporting frame is movable relative thereto. Upper wheels carried by transverse axles on the floating frame engage the upper surfaces of the edges of the upper strand opposite the drive wheels with the upper strand pinched therebetween. Downward pressure is applied to the floating frame at a pivot point substantially equidistant from the upper wheels with the floating frame being adapted to swivel about the pivot point to selected positions relative to the upper strand. | ||||||
38 | 低エネルギーローラベルトアキュムレータ | JP2016552496 | 2015-02-04 | JP2017509559A | 2017-04-06 | デパソ,ジョセフ,エム.; サード,ジョン,エス. リード; ノイシュヴァンダー,ポール |
連続するインラインローラベルト上の縦続蓄積のためのコンベヤシステムおよび方法。アキュムレーションシステムは、搬送される物品をベルト速度の2倍で前方に加速するように隣接する領域で作動されることができる一連のローラベルトを含む。物品がアキュムレーションコンベヤ上に蓄積し始めると、ベルトローラは下流から上流へ1領域ずつ非作動にされる。その後ベルトは蓄積された物品でいっぱいになると停止される。物品が蓄積し続けるとき、プロセスは上流のローラベルトに対して連続的に繰り返される。【選択図】図1 | ||||||
39 | 製品回収装置 | JP2011231562 | 2011-10-21 | JP5912402B2 | 2016-04-27 | 佐藤 貴之; 篠原 清人 |
40 | Conveyor belt device | JP15241280 | 1980-10-31 | JPS5678713A | 1981-06-27 | RAIMONTSU ZUKURUSU |