The present invention relates to a device for cage jamming buffer of a hoisting system, which is especially suitable for a buffer action when a cage jamming accident occurs in a large-tonnage hoisting system of an ultra-deep shaft, and can be widely used in the large-tonnage hoisting system of the ultra-deep shaft to avoid occurrence of serious accidents.
In a large-tonnage hoisting system of an ultra-deep shaft, a cage jamming failure may occur during operation of the system, for example, due to subjective reasons such as over-speed hoisting or objective reasons such as poor equipment maintenance. The cage jamming failure may damage a cage guide and a wire rope, affecting production efficiency of a mine, or even in the worst case, may lead to serious accidents such as rope breaking and container falling. The existing coping strategy for the cage jamming accidents is mainly to detect a load during operation of the hoisting system by means of a sensor, and alert an operator to take emergency measures through a monitoring system and an alarm device. The sensor used in this method collects data with low accuracy and requires periodic maintenance.
To overcome the foregoing deficiencies of the prior art, the present invention provides a device for cage jamming buffer of a large-tonnage hoisting system of an ultra-deep shaft. The device for cage jamming buffer can ensure that a wire rope is not broken when a cage jamming failure occurs in the large-tonnage hoisting system of the ultra-deep shaft, has a simple structure, and is quick and convenient to adjust.
The technical solution adopted by the present invention for solving the technical problem thereof is: a device for cage jamming buffer of a large-tonnage hoisting system of an ultra-deep shaft, comprising: a plurality of automatic wire rope tension balancing mechanisms coaxially connected in series, wherein end cage jamming buffer mechanisms are disposed at outer ends of the automatic wire rope tension balancing mechanisms at two ends, and adjacent ends of the plurality of automatic wire rope tension balancing mechanisms are respectively provided with an internal bearing pedestal and are connected by means of the internal bearing pedestals. The end cage jamming buffer mechanisms include an end buffer module and an end fixing module, and the end buffer module and the end fixing module are respectively mounted on shafts of the automatic wire rope tension balancing mechanisms at the two ends. The end buffer module mainly consists of a buffer bearing pedestal, a limit block, a buffer block, and a stop block sequentially mounted on the shaft of the automatic wire rope tension balancing mechanism at one end, wherein the limit block is fixedly connected to an outer side of the buffer bearing pedestal by means of a fixing bolt and an adjusting bolt, the buffer bearing pedestal, the limit block, and a transmission gear of the automatic wire rope tension balancing mechanism at said end are sequentially connected by means of a buffer bolt, and the buffer bearing pedestal is fixed on a container. The end fixing module mainly consists of a fixing bearing pedestal mounted on the shaft of the automatic wire rope tension balancing mechanism at the other end, wherein the fixing bearing pedestal is connected to a transmission gear of the automatic wire rope tension balancing mechanism at said end by means of an adjusting bolt, there is also a fixing block disposed between the transmission gear and the fixing bearing pedestal and mounted on the shaft thereof, and the fixing bearing pedestal is placed on the container. The stop block and the fixing block are fixed on the shafts, and respectively drive the transmission gears to move together with the rotation of the shafts.
Compared with the prior art, in the device for cage jamming buffer of the large-tonnage hoisting system of the ultra-deep shaft according to the present invention, the end cage jamming buffer mechanisms are disposed at the outer ends of the automatic wire rope tension balancing mechanisms at two ends, the end cage jamming buffer mechanisms include the end buffer module and the end fixing module, and the end buffer module and the end fixing module are respectively mounted on the shafts of the automatic wire rope tension balancing mechanisms at two ends. The buffer action of a drum during cage jamming is achieved by means of the buffer bolt on the buffer bearing pedestal. When the torque corresponding to the tensile force of the wire rope is greater than the shear breaking strength of the buffer bolt, it is regarded as cage jamming. The rotation of the transmission gears drives the shafts and the drum to rotate and move the shafts in the axial direction, and each of the automatic wire rope tension balancing mechanisms axially moves along with the shaft until the stop block is in contact with the buffer block. The length of the hoisting wire rope released during this period of time is buffer distance, which ensures that the hoisting wire rope can be buffered without being broken when a cage jamming failure occurs in the hoisting system, thereby solving the problem of breaking the wire rope due to the time lag in the process from the moment cage jamming occurs to the shutdown. The present invention realizes a suitable buffer distance of the wire rope when the cage jamming failure occurs in the hoisting system by means of the buffer bolt and the buffer block, and has a simple structure, and is quick and convenient to adjust.
The present invention is further described below with reference to the accompanying drawings and embodiments.
To make the objectives, technical solutions, and advantages of embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be described below clearly and completely with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are part of the embodiments of the present invention, rather than all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the described embodiments of the present invention without involving any inventive effort are within the protection scope of the present invention.
The working principles of the embodiments of
When a cage jamming failure occurs, the tensions of all the wire ropes increase synchronously with the operation of the hoisting system, the torques on all the drums 13 are equal and increase synchronously, and the torque is transmitted to the buffer bolt 32. The buffer bolt 32 is broken when the torque value exceeds the shear breaking strength of the buffer bolt 32, so that the bevel gear 11 connected to the end buffer module rotates and drives the shaft to rotate, and the shaft also moves in the axial direction under the action of the limit block 34 spirally connected thereto. As the shaft rotates and translates until the stop block 36 is in contact with the buffer block 35 on the bevel gear 11, the buffer block 35 mounted on the bevel gear 11 limits the movement of the stop block 36, while the translation of the shaft is limited and it stops rotating, and the release of the wire rope on the drum 13 is stopped, so that the length of the hoisting wire rope released in the process during which after the buffer bolt 32 is sheared off, the drum 13 rotates with the shaft until it stops is a buffer distance, which effectively performs a buffer action of the hoisting wire rope in the cage jamming failure, thereby solving the problem of breaking the wire rope due to the time lag in the process from the moment cage jamming occurs to the shutdown.
The present invention has the following advantages.
1) The present invention determines the tension value of the wire rope when cage jamming occurs in the system by selecting the buffer bolt 32 with an appropriate shearing strength, and the device is simple and convenient to install and replace;
2) The present invention determines the buffer length of the wire rope by reserving an axial distance between the stop block 36 and the buffer block 35 on the shaft, thereby ensuring an appropriate action distance of the buffer device; and
3) A reasonable buffer distance of the wire rope in the cage jamming failure is ensured by the buffer device of the present invention, providing a new buffer device and method for a large-tonnage hoisting system of an ultra-deep shaft in which a cage jamming failure occurs.
The above are only preferred embodiments of the present invention, and are not intended to limit the present invention in any way. Any simple modifications and equivalent changes made to the foregoing embodiments in accordance with the technical spirit of the present invention fall within the protection scope of the present invention.
Number | Date | Country | Kind |
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201810735607.2 | Jul 2018 | CN | national |
Filing Document | Filing Date | Country | Kind |
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PCT/CN2018/106895 | 9/21/2018 | WO | 00 |