公开(公告)号：US09975737B2

公开(公告)日：2018-05-22

申请号：US15520478

申请日：2015-12-29

Applicant: CHINA UNIVERSITY OF MINING AND TECHNOLOGY

Inventor： Zhencai Zhu ,  Guohua Cao ,  Yandong Wang ,  Lu Yan ,  Weihong Peng ,  Yuxing Peng ,  Gongbo Zhou ,  Wei Li ,  Gang Shen

IPC: B66B17/00 ,  B66B19/00 ,  E21D7/02

CPC classification number: B66B17/00 ,  B66B19/00 ,  E21D7/02

Abstract: The present invention relates to a horizontally movable vertical shaft rope guide and a regulating method thereof, which are suitable for guiding of hoisting containers in vertical shafts. The vertical shaft rope guide comprises a hoisting rope, and two hoisting containers suspended from the tail ends of the hoisting rope, wherein, cage guide ropes are led through guide cage lugs arranged on the two sides respectively, a tensioner arranged on the ground at the shaft top is connected to the upper end of each cage guide rope, and a connector arranged under a steel slot at the shaft bottom is connected to the lower end of each cage guide rope; a hydraulic cylinder is connected at the other side of each tensioner and the corresponding connector, and the hydraulic cylinder is connected to the tensioner or connector. During hoisting in the vertical shaft, the hydraulic cylinders are controlled to act in advance, to push the tensioners or connectors to move towards the center between the two hoisting containers, so that the cage guide ropes led through the guide cage lugs on the two sides of the hoisting containers get close to each other at the same time and wrap the hoisting container; thus, the horizontal displacement of the hoisting containers is restrained, and the impact of air flow on the two hoisting containers is minimized when the two hoisting containers meet.

公开(公告)号：US09963296B2

公开(公告)日：2018-05-08

申请号：US15537523

申请日：2015-08-11

Applicant: CHINA UNIVERSITY OF MINING AND TECHNOLOGY

Inventor： Xiao Chen ,  Qianping Wu ,  Wei Li ,  Zhencai Zhu ,  Mingquan Qiu ,  Gongbo Zhou ,  Guohua Cao ,  Yuxing Peng

IPC: B65G15/34 ,  B65G15/22 ,  B65G43/00

CPC classification number: B65G15/34 ,  B65G15/22 ,  B65G15/60 ,  B65G39/14 ,  B65G43/00 ,  B65G2207/28

Abstract: A coal dropping impact energy buffer monitoring device and method for a coal mine belt conveying system. The device comprises a buffer belt roller group, a buffer bracket, buffer springs, impact energy collecting dampers, a signal converting and sending device, and an installation bottom board, the buffer belt roller group being fixed to the buffer bracket, the upper ends and the lower ends of the buffer springs and the impact energy collecting dampers being respectively connected to the buffer bracket and the installation bottom board, and the impact energy collecting dampers being connected to the signal converting and sending device fixed to the installation bottom board through guide lines.

公开(公告)号：US20180065811A1

公开(公告)日：2018-03-08

申请号：US15537523

申请日：2015-08-11

Applicant: CHINA UNIVERSITY OF MINING AND TECHNOLOGY

Inventor： Xiao Chen ,  Qianping Wu ,  Wei Li ,  Zhencai Zhu ,  Mingquan Qiu ,  Gongbo Zhou ,  Guohua Cao ,  Yuxing Peng

IPC: B65G15/34 ,  B65G15/22

CPC classification number: B65G15/34 ,  B65G15/22 ,  B65G15/60 ,  B65G39/14 ,  B65G43/00 ,  B65G2207/28

Abstract: A coal dropping impact energy buffer monitoring device and method for a coal mine belt conveying system. The device comprises a buffer belt roller group, a buffer bracket, buffer springs, impact energy collecting dampers, a signal converting and sending device, and an installation bottom board, the buffer belt roller group being fixed to the buffer bracket, the upper ends and the lower ends of the buffer springs and the impact energy collecting dampers being respectively connected to the buffer bracket and the installation bottom board, and the impact energy collecting dampers being connected to the signal converting and sending device fixed to the installation bottom board through guide lines.

公开(公告)号：US09774202B2

公开(公告)日：2017-09-26

申请号：US14917500

申请日：2015-04-28

Applicant: CHINA UNIVERSITY OF MINING AND TECHNOLOGY

Inventor： Gongbo Zhou ,  Zhencai Zhu ,  Houlian Wang ,  Yang Li ,  Wei Li ,  Guohua Cao

IPC: H02J7/00 ,  G01R31/36 ,  H02J7/34

CPC classification number: H02J7/0052 ,  G01R31/3624 ,  G01R31/3651 ,  G01R31/3689 ,  H02J7/0021 ,  H02J7/0047 ,  H02J7/0072 ,  H02J7/345 ,  H02J2007/0096 ,  Y02B40/90

Abstract: A monitoring system for charging of a super capacitor, comprising three parts, i.e. a power line, monomer super capacitor monitoring subsystems and a master monitoring system, wherein the master monitoring system comprises a charging circuit (2), a power supply unit (7), a master single chip microcomputer (4), a carrier communication module (3), a human-machine interface module (5), a storage unit (6) and an RS-232 module (8); and each of the monomer super capacitor monitoring subsystems comprises a monomer super capacitor (1), a power supply unit (7), a slave single chip microcomputer (11), a carrier communication module (3), a voltage, current and temperature detection unit (9) and a storage unit (6). The master monitoring system charges a super capacitor group through the power line and the charging circuit. The monitoring system can control the charge states of various monomer super capacitors, thereby avoiding the occurrence of an over-charging phenomenon.

公开(公告)号：US09689257B2

公开(公告)日：2017-06-27

申请号：US14418642

申请日：2014-01-22

Applicant: CHINA UNIVERSITY OF MINING AND TECHNOLOGY

Inventor： Guohua Cao ,  Jinjie Wang ,  Zhencai Zhu ,  Weihong Peng ,  Yandong Wang ,  Lei Zhang ,  Gang Shen ,  Shanzeng Liu

IPC: B66B17/00 ,  B66B7/02 ,  E21D7/02

CPC classification number: E21D7/02 ,  B66B7/02 ,  B66B17/00

Abstract: A guide rail rope deflection inhibition mechanism and method for a parallel soft cable suspension system in ultradeep vertical shaft construction. The guide rail rope deflection inhibition mechanism comprises a T-shaped installation support base, a rotating frame, a hydraulic support rod, and a chuck. The T-shaped installation support base comprises a vertical support rod and a horizontal support rod. The hydraulic support rod comprises an upper hydraulic support rod and a lower hydraulic support rod. The rotating frame comprises an upper Y-shaped frame and a lower Y-shaped frame. The chuck comprises an upper chuck and a lower chuck. The guide rail rope deflection inhibition method treats two guide rail rope deflection inhibition mechanisms as one group, and arranges at least two groups along the vertical direction on the shaft wall. While guaranteeing the smooth sliding of a direction guiding frame, the freedom of the guide rail rope part is restrained by the chuck, thereby enhancing the stability and safety of hoisting containers.

公开(公告)号：US09688513B2

公开(公告)日：2017-06-27

申请号：US14434012

申请日：2014-03-26

Applicant: DONGNAN ELEVATOR CO., LTD. ,  CHINA UNIVERSITY OF MINING AND TECHNOLOGY

Inventor： Zhencai Zhu ,  Jiancong Qin ,  Guohua Cao ,  Guangfeng Mao ,  Wei Li ,  Gongbo Zhou ,  Beibei Fu ,  Hongbin Fei ,  Yiping Ma ,  Jianrong Yang

IPC: B66B5/28 ,  B66B5/24

CPC classification number: B66B5/28 ,  B66B5/24

Abstract: An elevator anti-fall buffer based on flexible guidance. The anti-fall buffer is used for connecting and fixing an end part of a braking steel rope of an elevator. The anti-fall buffer has an upper support plate and a lower support plate, wherein a pulley set is provided on the upper support plate and the lower support plate, and a hydraulic damping buffer is provided at two sides of the pulley set. The anti-fall buffer uses the energy consumption principle of a hydraulic damping hole, and while protecting the braking steel rope from the force of impact created thereon by the elevator, prevents the force of impact from a spring on the elevator post-braking, improving the safety and reliability of elevator braking, thereby improving safety of an elevator, while also using a pulley set can increase the braking distance of the braking steel rope, thereby lengthening life of the steel rope.

公开(公告)号：US09488558B2

公开(公告)日：2016-11-08

申请号：US14411080

申请日：2014-06-05

Applicant: CHINA UNIVERSITY OF MINING AND TECHNOLOGY

Inventor： Guohua Cao ,  Yandong Wang ,  Zhencai Zhu ,  Weihong Peng ,  Jinjie Wang ,  Shanzeng Liu ,  Gang Shen ,  Hao Lu

IPC: G01N3/00 ,  G01N11/00 ,  G01N3/08 ,  B66D1/50 ,  B66D1/60 ,  G01L5/10

CPC classification number: G01N3/08 ,  B66D1/50 ,  B66D1/605 ,  G01L5/103 ,  G01L5/108

Abstract: The present invention discloses a device and a method for detecting the tension on a guide rope of a hanging scaffold in a construction shaft. The guide rope is released by a winch, rounds over a hoisting sheave, is connected to the hanging scaffold, and then is tensioned up; the hoisting sheave is disposed at a position above the winch, and the device comprises a slide device, two tension ropes, and a pull rope, wherein, the slide device is fitted around the guide rope, the two tension ropes are fixed to the two sides of the slide device respectively and arranged parallel to the guide rope, the pull rope is fixed to the lower part of the slide device and arranged perpendicular to the guide rope. On the basis of the basic principles of mechanics, the force applied on the guide rope can be calculated indirectly according to the proportional relation between the forces applied on the tension rope and guide rope and the lengths of the ropes. The device disclosed in the present invention is simple, and the method disclosed in the present invention is skillful. The device and method are applicable to thick and thin steel wire ropes and highly universal, and are low in cost.

Abstract translation: 本发明公开了一种用于检测施工井中吊架的导绳上的张力的装置和方法。 导绳由绞车释放，绕着吊装滑轮，连接到吊架上，然后张紧; 吊装滑轮设置在绞盘上方的位置，该装置包括滑动装置，两根拉力绳和拉绳，其中，滑动装置围绕导绳安装，两根拉力绳固定于两根 滑动装置的两侧分别平行于导绳布置，拉绳固定到滑动装置的下部并垂直于导绳布置。 根据力学的基本原理，施加在导绳上的力可以根据施加在拉力绳和导绳上的力与绳索的长度之间的比例关系间接计算。 本发明公开的装置简单，本发明公开的方法是巧妙的。 该装置和方法适用于厚钢丝绳，高度通用，成本低。

公开(公告)号：US20160207740A1

公开(公告)日：2016-07-21

申请号：US14441550

申请日：2014-03-26

Applicant: CHINA UNIVERSITY OF MINING AND TECHNOLOGY ,  XUZHOU COAL MINE SAFETY EQUIPMENT MANUFACTURE CO., LTD.

Inventor： Zhencai Zhu ,  Gongbo Zhou ,  Changhua Hu ,  Guohua Cao ,  Wei Li ,  Guoan Chen ,  Yuxing Peng ,  Qingyong Du ,  Zhi Liu

IPC: B66B17/04

CPC classification number: B66B17/04

Abstract: An adjustable intermediate disk body of large double-layer cage comprises cage columns, a main intermediate disk body, and a chain block and a connecting piece. An intermediate disk guide rail beam is arranged on the inner side of the cage columns, wedge bases are symmetrically arranged on the two sides of the lower part of the intermediate disk guide rail beam, a limited block with a bolt hole is arranged on the upper part of the intermediate disk guide rail beam, and an anti-disengaging plate is arranged on the intermediate disk guide rail beam. Intermediate disk wedge bodies, which match the wedge faces of the wedge bases and can only move vertically along the intermediate disk guide rail beams, are arranged on the two side faces of the main intermediate disk body, at positions corresponding to the intermediate disk guide rail beams; an intermediate disk guide wheel that is fitted with the intermediate disk guide rail beam and an intermediate disk guide wheel seat with a bolt hole are arranged on the upper part of the intermediate disk wedge body.

Abstract translation: 大型双层笼的可调节中间盘体包括笼柱，主中间盘体，链条块和连接件。 中间圆盘导轨梁布置在保持架柱的内侧，楔形基座对称地布置在中间盘导轨横梁下部的两侧，上部有一个带螺栓孔的有限块 中间盘导轨梁的一部分，以及防分离板布置在中间盘导轨梁上。 与楔形基座的楔面匹配并且只能沿着中间盘导轨梁垂直移动的中间盘楔体设置在主中间盘体的两个侧面上，在与中间盘导轨相对应的位置 梁; 在中间盘楔体的上部配置有安装有中间盘导轨梁的中间盘导向轮和具有螺栓孔的中间盘导向轮座。

公开(公告)号：US20150122592A1

公开(公告)日：2015-05-07

申请号：US14383836

申请日：2013-03-25

Applicant: China University of Mining and Technology ,  Dongnan Elevator Co., Ltd.

Inventor： Zhencai Zhu ,  Guohua Cao ,  Jiancong Qin ,  Hongqiao Kang ,  Guoan Chen ,  Weihong Peng ,  Wei Li ,  Gongbo Zhou ,  Renyuan Wu ,  Ling Yue ,  Yiping Ma ,  Jianrong Yang

IPC: B66B5/24

CPC classification number: B66B5/24 ,  B66B7/085 ,  B66B7/10

Abstract: Disclosed is a fall prevention brake buffering system for high-speed mine lift, including brake ropes (2) fixed on two sides of a car (5). One end of the brake rope (2) is fixed on the top part of a vertical well (6), and the other end is fixed on the bottom part of the vertical well (6). A linkage mechanism (11) is arranged at the bottom of the car (5). A buffer (1) is arranged at the top of the brake rope (2), and a tension connector (4) is arranged at the bottom of the brake rope (2). A brake rope safety tong (3) fixed on the brake rope (2) and connected with the linkage mechanism (11) is arranged at the bottom of the car (5). The buffer (1) includes an inverted brake rope gradual safety tong (8) with a buffering rope (9) provided therein and connected with the brake rope (2). A buffering rope clip (10) is arranged on the buffering rope (9). The system is convenient to install, and the buffering force of the brake rope is constant and adjustable. The system realizes reliable fall prevention brake function, greatly improves safety performance during high-speed operation of a lift with non-rigid rails, and increases safety performance during high-speed operation of a mine lift.

Abstract translation: 公开了一种用于高速矿井升降机的防坠落制动缓冲系统，包括固定在汽车（5）两侧的制动绳索（2）。 制动绳索（2）的一端固定在竖井（6）的顶部，另一端固定在垂直井（6）的底部。 在轿厢（5）的底部设有连杆机构（11）。 缓冲器（1）布置在制动绳索（2）的顶部，并且张紧连接器（4）布置在制动绳索（2）的底部。 固定在制动绳索（2）上并与连杆机构（11）连接的制动绳安全钳（3）布置在轿厢（5）的底部。 缓冲器（1）包括具有设置在其中并与制动绳索（2）连接的缓冲绳（9）的倒立制动绳梯级安全钳（8）。 缓冲绳夹（10）布置在缓冲绳（9）上。 该系统安装方便，制动绳的缓冲力恒定可调。 该系统实现了可靠的防坠落制动功能，大大提高了非刚性导轨电梯高速运行时的安全性能，提高了矿山电梯高速运行时的安全性能。