| 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 | Method and apparatus for disposal of cuttings | US13621894 | 2012-09-18 | US08528666B1 | 2013-09-10 | Michael Patterson; Edward L. Shearer |
| A method and apparatus for disposing of drill cuttings 500 from an oil and/or gas well drilling platform 510, comprising (a) transporting the drill cuttings 520 to a cuttings collection area 530 on the platform 510; (b) providing a barge 10, the barge 10 having at least one storage area 30, a cover 100 operably connected to the at least one storage area 30, and covering the at least one storage area 30; (c) placing the cover 100 in a first open state so that cuttings 500 can be placed in the at least one storage area 30; (d) transporting the drill cuttings 500 from the cuttings collection area 530 to the at least one storage area of the barge 10; (e) placing the cover 100 in a closed state so that the cuttings 520 in the storage area 30 of the barge 10 are contained; (f) transporting the barge 10 from the drilling platform 510 to a collection site 540; (g) placing the cover 100 in a second open state so that the cuttings 520 in the storage area 30 can be removed; and (h) removing the cuttings 520 from the storage area 30. | ||||||
| 4 | Method and apparatus for disposal of cuttings | US13026757 | 2011-02-14 | US08096371B1 | 2012-01-17 | Michael Patterson; Edward L. Shearer |
| A method and apparatus for disposing of drill cuttings 500 from an oil and/or gas well drilling platform 510, comprising (a) transporting the drill cuttings 520 to a cuttings collection area 530 on the platform 510; (b) providing a barge 10, the barge 10 having at least one storage area 30, a cover 100 operably connected to the at least one storage area 30, and covering the at least one storage area 30; (c) placing the cover 100 in a first open state so that cuttings 500 can be placed in the at least one storage area 30; (d) transporting the drill cuttings 500 from the cuttings collection area 530 to the at least one storage area of the barge 10; (e) placing the cover 100 in a closed state so that the cuttings 520 in the storage area 30 of the barge 10 are contained; (f) transporting the barge 10 from the drilling platform 510 to a collection site 540; (g) placing the cover 100 in a second open state so that the cuttings 520 in the storage area 30 can be removed; and (h) removing the cuttings 520 from the storage area 30. | ||||||
| 5 | Method and apparatus for disposal of cuttings | US12408789 | 2009-03-23 | US07886848B1 | 2011-02-15 | Michael Patterson; Edward L. Shearer |
| A method and apparatus for disposing of drill cuttings 500 from an oil and/or gas well drilling platform 510, comprising (a) transporting the drill cuttings 520 to a cuttings collection area 530 on the platform 510; (b) providing a barge 10, the barge 10 having at least one storage area 30, a cover 100 operably connected to the at least one storage area 30, and covering the at least one storage area 30; (c) placing the cover 100 in a first open state so that cuttings 500 can be placed in the at least one storage area 30; (d) transporting the drill cuttings 500 from the cuttings collection area 530 to the at least one storage area of the barge 10; (e) placing the cover 100 in a closed state so that the cuttings 520 in the storage area 30 of the barge 10 are contained; (f) transporting the barge 10 from the drilling platform 510 to a collection site 540; (g) placing the cover 100 in a second open state so that the cuttings 520 in the storage area 30 can be removed; and (h) removing the cuttings 520 from the storage area 30. | ||||||
| 6 | 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. | ||||||
| 7 | METHOD AND APPARATUS FOR DISPOSAL OF CUTTINGS | US15340070 | 2016-11-01 | US20170113764A1 | 2017-04-27 | Michael Patterson; Edward L. Shearer |
| A method and apparatus for disposing of drill cuttings 500 from an oil and/or gas well drilling platform 510, comprising (a) transporting the drill cuttings 520 to a cuttings collection area 530 on the platform 510; (b) providing a barge 10, the barge 10 having at least one storage area 30, a cover 100 operably connected to the at least one storage area 30, and covering the at least one storage area 30; (c) placing the cover 100 in a first open state so that cuttings 500 can be placed in the at least one storage area 30; (d) transporting the drill cuttings 500 from the cuttings collection area 530 to the at least one storage area of the barge10; (e) placing the cover 100 in a closed state so that the cuttings 520 in the storage area 30 of the barge 10 are contained; (f) transporting the barge 10 from the drilling platform 510 to a collection site 540; (g) placing the cover 100 in a second open state so that the cuttings 520 in the storage area 30 can be removed; and (h) removing the cuttings 520 from the storage area 30. | ||||||
| 8 | Method and apparatus for disposal of cuttings | US13351275 | 2012-01-17 | US08267201B1 | 2012-09-18 | Michael Patterson; Edward L. Shearer |
| A method and apparatus for disposing of drill cuttings 500 from an oil and/or gas well drilling platform 510, comprising providing a barge 10, the barge 10 having at least one storage area 30, a cover 100 operably connected to the at least one storage area placing the cover 100 in a first open state so that cuttings 500 can be placed in the at least one storage area 30; transporting the drill cuttings placing the cover 100 in a closed state so that the cuttings 520 in the storage area 30 of the barge 10 are contained; transporting the barge 10 from the drilling platform 510 to a collection site 540; placing the cover 100 in a second open state so that the cuttings 520 in the storage area 30 can be removed; and removing the cuttings 520 from the storage area 30. | ||||||
| 9 | VEHICLE INSPECTION SYSTEM, METHOD AND SMART GARAGE | US15857645 | 2017-12-29 | US20180187443A1 | 2018-07-05 | Zhiqiang CHEN; Yuanjing LI; Jianmin LI; Shangmin SUN; Yu HU; Yuan MA; Qiangqiang WANG |
| A vehicle inspection system is described. The vehicle inspection system comprises: an inspection device, for performing an inspection on a vehicle to be inspected; a carrier platform, for carrying the vehicle to be inspected; and an unmanned controlled travelling device for moving the carrier platform to pass through a scanning area of the inspection device, so as to perform the inspection on the vehicle to be inspected. In the present disclosure, the vehicle to be inspected is carried by the carrier platform, and the unmanned controlled travelling device is used to move the carrier platform to pass through the scanning area of the inspection device, so that the vehicle to be inspected can be subject to inspection smoothly. There is no driver required to drive through the scanning area in this process, thus avoiding exposure of a driver to a threat of radiation. | ||||||
| 10 | 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. | ||||||
| 11 | Method and apparatus for disposal of cuttings | US14022348 | 2013-09-10 | US09482065B1 | 2016-11-01 | Michael Patterson; Edward L. Shearer |
| A method and apparatus for disposing of drill cuttings 500 from an oil and/or gas well drilling platform 510, comprising (a) transporting the drill cuttings 520 to a cuttings collection area 530 on the platform 510; (b) providing a barge 10, the barge 10 having at least one storage area 30, a cover 100 operably connected to the at least one storage area 30, and covering the at least one storage area 30; (c) placing the cover 100 in a first open state so that cuttings 500 can be placed in the at least one storage area 30; (d) transporting the drill cuttings 500 from the cuttings collection area 530 to the at least one storage area of the barge 10; (e) placing the cover 100 in a closed state so that the cuttings 520 in the storage area 30 of the barge 10 are contained; (f) transporting the barge 10 from the drilling platform 510 to a collection site 540; (g) placing the cover 100 in a second open state so that the cuttings 520 in the storage area 30 can be removed; and (h) removing the cuttings 520 from the storage area 30. | ||||||
| 12 | Method and apparatus for disposal of cuttings | US11324142 | 2005-12-29 | US07506702B1 | 2009-03-24 | Michael Patterson; Edward L. Shearer |
| A method and apparatus for disposing of drill cuttings 500 from an oil and/or gas well drilling platform 510, comprising (a) transporting the drill cuttings 520 to a cuttings collection area 530 on the platform 510; (b) providing a barge 10, the barge 10 having at least one storage area 30, a cover 100 operably connected to the at least one storage area 30, and covering the at least one storage area 30; (c) placing the cover 100 in a first open state so that cuttings 500 can be placed in the at least one storage area 30; (d) transporting the drill cuttings 500 from the cuttings collection area 530 to the at least one storage area of the barge 10; (e) placing the cover 100 in a closed state so that the cuttings 520 in the storage area 30 of the barge 10 are contained; (f) transporting the barge 10 from the drilling platform 510 to a collection site 540; (g) placing the cover 100 in a second open state so that the cuttings 520 in the storage area 30 can be removed; and (h) removing the cuttings 520 from the storage area 30. | ||||||
| 13 | VEHICLE INSPECTION SYSTEM, METHOD AND SMART GARAGE | EP17210393.9 | 2017-12-22 | EP3342960A1 | 2018-07-04 | CHEN, Zhiqiang; LI, Yuanjing; LI, Jianmin; SUN, Shangmin; HU, Yu; MA, Yuan; WANG, Qiangqiang |
The present disclosure relates to an vehicle inspection system, a method and a smart garage. The vehicle inspection system comprises: an inspection device (9), for performing an inspection on a vehicle (4) to be inspected; a carrier platform (2), for carrying the vehicle (4) to be inspected; and an unmanned controlled travelling device for moving the carrier platform (2) to pass through a scanning area of the inspection device (9), so as to perform the inspection on the vehicle (4) to be inspected. In the present disclosure, the vehicle to be inspected is carried by the carrier platform, and the unmanned controlled travelling device is used to move the carrier platform to pass through the scanning area of the inspection device, so that the vehicle to be inspected can be subject to inspection smoothly. There is no driver required to drive through the scanning area in this process, thus avoiding exposure of a driver to a threat of radiation. Moreover, civil engineering construction may be omitted, while the inspection device may also be relocated at any time, thereby improving the flexibility and applicability of the vehicle inspection system.
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