| 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 | 一种自动反馈调节碎玻璃传送张力的系统 | CN201310173565.5 | 2013-05-10 | CN103224117B | 2016-02-03 | 贾胡平 |
| 一种自动反馈调节碎玻璃传送张力的系统,包括传送机构、绞碎机和回收桶,所述碎玻璃经传送机构送入绞碎机中绞碎后,传送入回收桶中,所述传送机构包括传动马达、传送带和传动滚筒,所述传送带缠绕于两传动滚筒之间,传动马达驱动传动滚筒转动,以使之带动传送带转动,将碎玻璃送入绞碎机中进行绞碎回收,本系统还增设有与传动滚筒相连接的电磁控制系统,其根据两传动滚筒之间的间距变化,来自动调节传送带的张力。 | ||||||
| 2 | 一种自动反馈调节碎玻璃传送张力的系统 | CN201310173565.5 | 2013-05-10 | CN103224117A | 2013-07-31 | 贾胡平 |
| 一种自动反馈调节碎玻璃传送张力的系统,包括传送机构、绞碎机和回收桶,所述碎玻璃经传送机构送入绞碎机中绞碎后,传送入回收桶中,所述传送机构包括传动马达、传送带和传动滚筒,所述传送带缠绕于两传动滚筒之间,传动马达驱动传动滚筒转动,以使之带动传送带转动,将碎玻璃送入绞碎机中进行绞碎回收,本系统还增设有与传动滚筒相连接的电磁控制系统,其根据两传动滚筒之间的间距变化,来自动调节传送带的张力。 | ||||||
| 3 | Transport system | US14885270 | 2015-10-16 | US09926141B2 | 2018-03-27 | Robert Vierbergen |
| A transport system for linear movements includes at least two sensors configured to determine a position of one or more carriers along a carrier track. Each of the sensors are interconnected with each other and arranged in a daisy-chained manner along the carrier track. The sensors create a position sensor bus configured to transmit a digital position sensor signal. The transport system further includes a motion controller connected to the sensor bus and configured to control at least one position of the carriers along the carrier track. | ||||||
| 4 | SYSTEM FOR AUTOMATIC FEEDBACK AND ADJUST TRANSMITTAL PULLING FORCE OF THE GLASS FRAGMENT | US13983702 | 2013-06-29 | US20170183168A1 | 2017-06-29 | Huping JIA |
| A system for automatic feedback and adjust transmittal pulling force of the glass fragment comprises a delivery machine, a glass broken machine and a recycle box, the glass fragment is transmitted by the delivery machine and triturated by the glass broken machine, and then transported them to the recycle box, the delivery machine comprises a driving motor, a conveyer belt and a driving roller, the conveyer belt is surrounded between the driving rollers, the driving roller is turn round by the driving of the driving motor to lead the conveyer belt rotating at the same time, and then the glass fragment on the conveyer belt could be transported into the glass broken machine for triturating and recycling. Additional, an electromagnetic control system is provided for automatic adjusting transmittal pulling force of the conveyer belt depends on the distance between the two driving rollers, which is connecting with the driving roller. | ||||||
| 5 | TORQUE CONTROL CARGO LOADING SYSTEMS AND METHODS | EP15170403.8 | 2015-06-03 | EP2952432A1 | 2015-12-09 | Harms, Scott Paul |
Systems comprising an input device(135) configured to output a variable control signal, a controller (10) configured to receive the variable control signal and derive a torque command in accordance with the variable control signal, and a freight conveying device (30) comprising a motor (40) configured to receive the torque command and produce an output torque on a motor shaft in accordance with the torque command are disclosed. Also methods comprising receiving, at a controller, a variable control signal from an input device, deriving, by the controller, a torque command in accordance with the variable control signal, and driving, by the controller, a motor of a freight conveying device in accordance with the torque command are disclosed.
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| 6 | System and method for transferring rod-shaped articles and arrangement and method for retaining rod-shaped articles in a conveyor band | US15029845 | 2014-11-03 | US10064427B2 | 2018-09-04 | Leszek Sikora |
| The system for transferring rod-shaped articles comprises a reservoir for holding a plurality of rod-shaped articles and a conveyor band comprising a seat adapted to receive a rod-shaped article from the reservoir. The system further comprises a speed compensator for compensating a speed variation of a portion of the conveyor band such that a speed of another portion of the conveyor band is kept constant. There is also provided an arrangement for retaining rod-shaped articles in a conveyor band. The arrangement comprises a conveyor wheel, wherein the seat is guidable in the conveyor band around the conveyor wheel and comprises an offset conveyor band arranged in parallel and at a distance to the conveyor band along a section of the conveyor band. | ||||||
| 7 | System for providing automatic feedback and adjusting transmittal pulling force for transporting glass fragment | US13983702 | 2013-06-29 | US09862555B2 | 2018-01-09 | Huping Jia |
| A system for providing automatic feedback and adjusting transmittal pulling force for transporting glass fragment, where the system comprises a delivery machine, a glass broken machine and a recycle box. The glass fragment is transmitted by the delivery machine and triturated by the glass broken machine, and the triturated glass fragment is then transported to the recycle box, the delivery machine comprises a driving motor, a conveyer belt and two driving rollers, where the conveyer belt surrounds the two driving rollers, the driving rollers are driven by the driving motor to rotate the conveyer belt, and the glass fragment on the conveyer belt is transported into the glass broken machine for triturating and recycling. | ||||||
| 8 | Process and apparatus for the controlling of the conveyance of loose bulk material | US179491 | 1971-09-10 | US3964599A | 1976-06-22 | Jean Marie van Langen; Gerardus Wilhelmus Cornelis Jacobs; Gerrit DE Jong |
| Ore pellets are delivered by a conveyor to the chain grate of a continuously operating baking plant, said pellets being supplied to the conveyor from a pellet former at a fluctuating rate independent of the speed of the conveyor. To afford as nearly constant a flow of the pellets to the baking plant as possible, the quantity of pellets about to be delivered by the conveyor at the delivery station is measured, more particularly by measuring the speed of the conveyor and weighing the conveyor load near said delivery station, and is represented by a first signal which is passed through a high-permeable filter and a proportional control means, to provide a second signal which is combined with a signal representative of a belt speed calculated for an average load, and applied to adjust the belt speed in the direction to maintain said flow as nearly constant as possible. | ||||||
| 9 | SYSTEM AND METHOD FOR TRANSFERRING ROD-SHAPED ARTICLES AND ARRANGEMENT AND METHOD FOR RETAINING ROD-SHAPED ARTICLES IN A CONVEYOR BAND | US15029845 | 2014-11-03 | US20160235111A1 | 2016-08-18 | Leszek Sikora |
| The system for transferring rod-shaped articles comprises a reservoir for holding a plurality of rod-shaped articles and a conveyor band comprising a seat adapted to receive a rod-shaped article from the reservoir. The system further comprises a speed compensator for compensating a speed variation of a portion of the conveyor band such that a speed of another portion of the conveyor band is kept constant. There is also provided an arrangement for retaining rod-shaped articles in a conveyor band. The arrangement comprises a conveyor wheel, wherein the seat is guidable in the conveyor band around the conveyor wheel and comprises an offset conveyor band arranged in parallel and at a distance to the conveyor band along a section of the conveyor band. The distance is adapted such that the offset conveyor band is to contact a rod-shaped article in the seat of the conveyor band along the section of the conveyor band, wherein the section of the conveyor band comprises at least the part of the conveyor band that is being guided around the conveyor wheel. | ||||||
| 10 | Transport System | US14885270 | 2015-10-16 | US20160114983A1 | 2016-04-28 | Robert Vierbergen |
| A transport system for linear movements includes at least two sensors configured to determine a position of one or more carriers along a carrier track. Each of the sensors are interconnected with each other and arranged in a daisy-chained manner along the carrier track. The sensors create a position sensor bus configured to transmit a digital position sensor signal. The transport system further includes a motion controller connected to the sensor bus and configured to control at least one position of the carriers along the carrier track. | ||||||
| 11 | TORQUE CONTROL CARGO LOADING SYSTEMS AND METHODS | US14295564 | 2014-06-04 | US20150353283A1 | 2015-12-10 | Scott Paul Harms |
| Systems comprising an input device configured to output a variable control signal, a controller configured to receive the variable control signal and derive a torque command in accordance with the variable control signal, and a freight conveying device comprising a motor configured to receive the torque command and produce an output torque on a motor shaft in accordance with the torque command are disclosed. Also methods comprising receiving, at a controller, a variable control signal from an input device, deriving, by the controller, a torque command in accordance with the variable control signal, and driving, by the controller, a motor of a freight conveying device in accordance with the torque command are disclosed. | ||||||
| 12 | Conveying means for delivering material at a substantially constant rate | US3468456D | 1967-05-19 | US3468456A | 1969-09-23 | CLINE JEROME F |
| 13 | ロッド状の物品を運搬するためのシステムおよび方法、ならびにロッド状の物品をコンベヤーバンド内に保持するための配列および方法 | JP2016520059 | 2014-11-03 | JP2017500001A | 2017-01-05 | レゼク シコラ |
| ロッド状の物品を運搬するためのシステムは、複数のロッド状の物品を保持するための貯蔵所および貯蔵所からロッド状の物品を受け取るよう適応されたシートを備えるコンベヤーバンドを備える。システムはさらに、コンベヤーバンドの別の一部分の速度が一定に保たれるように、コンベヤーバンドの一部分の速度変動を補正するための速度補正装置を備える。またロッド状の物品をコンベヤーバンド内に保持するための配列が提供されている。配列はコンベヤーホイールを含み、シートは、コンベヤーバンド内でコンベヤーホイールの周りで案内可能であり、コンベヤーバンドに対して平行に、ある一定の距離で、コンベヤーバンドの一セクションに沿って配列されているオフセットコンベヤーバンドを備える。距離は、オフセットコンベヤーバンドがコンベヤーバンドのシート内でコンベヤーバンドのセクションに沿ってロッド状の物品と接触するように適応され、ここでコンベヤーバンドのセクションはコンベヤーホイールの周りで案内されるコンベヤーバンドの少なくとも一部を含む。【選択図】図1 | ||||||
| 14 | JPS5229073B1 - | JP167571 | 1971-01-22 | JPS5229073B1 | 1977-07-30 | |
| 15 | Transport system | EP14190424.3 | 2014-10-27 | EP3015933A1 | 2016-05-04 | Vierbergen, Robert |
The invention relates to a transport system for linear movements, comprising |
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| 16 | 로드 형상 물품을 전달하기 위한 시스템 및 방법과 컨베이어 밴드에 로드 형상 물품을 보유하기 위한 배열 및 방법 | KR1020167006370 | 2014-11-03 | KR1020160082966A | 2016-07-11 | 시코라,레스젝 |
| 로드형상물품을전달하기위한시스템은복수의로드형상물품을보유하기위한저장부및 저장부로부터로드형상물품을수용하기에적합한시트(seat)를포함하는컨베이어밴드를포함하고있다. 시스템은컨베이어밴드의일부분의속도변동을보상해서컨베이어밴드의다른부분의속도가일정하게유지되게하는속도보상기를더 포함하고있다. 또한컨베이어밴드내에로드형상물품을보유하기위한배열이제공되어있다. 배열은시트가컨베이어휠 주위에서컨베이어밴드내에안내될수 있는, 컨베이어휠을포함하고있으며, 컨베이어밴드의한 부위를따라컨베이어밴드에평행하게거리를두고배열되어있는오프셋컨베이어밴드를포함하고있다. 거리는오프셋컨베이어밴드가컨베이어밴드의부위를따라컨베이어밴드의시트내의로드형상물품과접촉하기에적합하며, 여기서컨베이어밴드의부위는적어도컨베이어휠 주위에안내되는컨베이어밴드의부분을포함하고있다. | ||||||
| 17 | SYSTEM AND METHOD FOR TRANSFERRING ROD-SHAPED ARTICLES AND ARRANGEMENT AND METHOD FOR RETAINING ROD-SHAPED ARTICLES IN A CONVEYOR BAND | PCT/EP2014073510 | 2014-11-03 | WO2015063284A3 | 2015-08-27 | SIKORA LESZEK |
| The system for transferring rod-shaped articles comprises a reservoir for holding a plurality of rod-shaped articles and a conveyor band comprising a seat adapted to receive a rod-shaped article from the reservoir. The system further comprises a speed compensator for compensating a speed variation of a portion of the conveyor band such that a speed of another portion of the conveyor band is kept constant. There is also provided an arrangement for retaining rod-shaped articles in a conveyor band. The arrangement comprises a conveyor wheel, wherein the seat is guidable in the conveyor band around the conveyor wheel and comprises an offset conveyor band arranged in parallel and at a distance to the conveyor band along a section of the conveyor band. The distance is adapted such that the offset conveyor band is to contact a rod-shaped article in the seat of the conveyor band along the section of the conveyor band, wherein the section of the conveyor band comprises at least the part of the conveyor band that is being guided around the conveyor wheel. | ||||||
| 18 | 반송 속도 개별 제어형 컨베이어 장치 및 컨베이어 장치의 반송 속도 개별 제어 방법 | KR1020160144641 | 2016-11-01 | KR101833457B1 | 2018-02-28 | 이재현; 이장석 |
| 본발명은, 제1 컨베이어와, 상기제1 컨베이어의제1 재하에대한반송상태에따라상기제1 컨베이어에대해제1 속도레벨을설정하는제1 제어유닛을구비하는제1 컨베이어모듈; 제2 컨베이어와, 상기제2 컨베이어의제2 재하에대한반송상태나상기제2 컨베이어가상기제1 재하의반송목적지인지에따라상기제2 컨베이어에대해제2 속도레벨을설정하는제2 제어유닛을구비하는제2 컨베이어모듈; 및상기제1 컨베이어와상기제2 컨베이어사이에위치하는제3 컨베이어와, 상기제1 제어유닛으로터전송받은상기제1 속도레벨및 상기제2 제어유닛으로부터전송받은상기제2 속도레벨에기초하여상기제3 컨베이어에관한제3 속도레벨을설정하고상기제3 속도레벨에기초하여상기제3 컨베이어의구동속도를제어하는제3 제어유닛을구비하는제3 컨베이어모듈을포함하는, 반송속도개별제어형컨베이어장치및 그에관한컨베이어장치의반송속도개별제어방법을제공한다. | ||||||
| 19 | 용기 이송장치 | KR1020150030360 | 2015-03-04 | KR1020160107519A | 2016-09-19 | 임의순 |
| 본발명은용기이송장치에관한것으로서, 제1이송컨베이어; 상기제1이송컨베이어의전측단부와연결되는이송플레이트; 상기이송플레이트의전측단부와연결되는제2이송컨베이어; 상기이송플레이트와제1이송컨베이어에연결되는본체프레임; 상기본체프레임에연결되고일정궤도를따라이동하면서상기제1이송컨베이어의단부에위치한용기를상기제2이송컨베이어까지밀어내이송시키는용기이동부;를포함한다. 본발명의실시예에따르면, 이동바가제1이송컨베이어의단부에위치한용기를제2이송컨베이어까지밀어이송시킴에따라, 용기가이동바의이동력에의해이동됨으로제2이송컨베이어까지이송되는과정에서쓰러지지않고안정적으로이동시킬수 있는효과가있다. | ||||||
| 20 | 물품 자동 분류시스템의 인덕션-캐리어 실시간 동기제어방법 | KR1020140186331 | 2014-12-22 | KR1020160076292A | 2016-06-30 | 김상봉; 민중후 |
| 본발명은인덕션컨베이어로부터전달되는복수의미분류물품을복수의캐리어로이동시키면서중량별로분류하여배출시키는물품자동분류시스템의인덕션-캐리어실시간동기제어방법을제공한다. 이와같은본 발명에따른물품자동분류시스템의인덕션-캐리어실시간동기제어방법은인덕션컨베이어와캐리어의현재이동속도및 미분류물품과물품미탑재캐리어의현재위치가실시간검출되면서인덕션컨베이어와캐리어의이동이실시간동기제어되도록함에따라인덕션컨베이어를통해현재이동중인미분류물품이현재이동중인캐리어로시간적단절없이자동전달될수 있어물품의자동분류작업의효율증대와작업속도증대가도모되고, 이를통해고속물품자동분류시스템에효과적으로적용되는기술적특징을갖는다. 본발명에따른물품자동분류시스템의인덕션-캐리어실시간동기제어방법은인덕션컨베이어의이동속도와캐리어의이동속도가각각검출되어제어모듈에입력되는인덕션-캐리어이동속도검출단계와; 이동중인복수의캐리어각각의물품탑재여부및 물품미탑재캐리어의위치가검출되어제어모듈에입력되는캐리어물품탑재여부검출단계와; 인덕션컨베이어에위치한물품이물품감지센서에의해감지되면서물품위치정보가제어모듈에입력되는인덕션물품감지단계와; 인덕션컨베이어이동속도정보, 캐리어이동속도정보, 캐리어의물품탑재여부정보, 인덕션컨베이어의물품감지정보, 물품미탑재캐리어위치정보, 인덕션컨베이어의물품위치정보를입력받은제어모듈에의해인덕션컨베이어동작제어신호및 캐리어동작제어신호가산출되면서인덕션컨베이어와캐리어가동기제어되되, 복수의캐리어를이동시키는캐리어이송장치와인덕션컨베이어가서로연결되는인덕션-캐리어이송장치연결지점을통과하는물품미탑재캐리어에인덕션물품감지단계에서감지된물품이탑재되도록인덕션컨베이어와캐리어가동기제어되는인덕션-캐리어속도동기화제어단계및; 인덕션-캐리어이송장치연결지점에서인덕션컨베이어에놓여이송되는물품이이동중인물품미탑재캐리어의상면으로전달되어탑재되는미분류물품캐리어탑재단계를거쳐수행된다. | ||||||
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