CA2986065C - Breaking detection device and method for dumbbell pin connected to middle trough - Google Patents

Abstract

A middle groove coupling dumbbell pin breakage detection apparatus and method, belonging to a pin breakage detection apparatus and method. The apparatus comprises a locking apparatus and a dumbbell pin posture monitoring apparatus. The locking apparatus comprises a positioning ring and a fastening ring, and is used for positioning the dumbbell pin posture monitoring apparatus. The posture monitoring apparatus comprises an elastic support bar, an infrared transceiver and a cross-shaped Cardan joint, and is used for realizing infrared signal monitoring. A wireless communication network is used for realizing real-time communication between the posture monitoring apparatus and an upper computer. The upper computer can store and process a collected infrared data signal, and correctly determines a dumbbell pin breakage condition. In the method, an infrared signal received by any infrared receiver of the dumbbell pin breakage detection apparatus is taken as a reference to determine a dumbbell pin breakage failure and the position of a broken dumbbell pin. The present invention is strongly reliable, highly accurate and easy to spread and use.

Description

BREAKING DETECTION DEVICE AND METHOD FOR DUMBBELL
PIN CONNECTED TO MIDDLE TROUGH
BACKGROUND
Technical Field The present invention relates to a pin breaking detection device and method, and more particularly to a breaking detection device and method for a dumbbell pin connected to a middle trough.
Related Art In a propulsion process of a fully mechanized coal mining face, a middle trough of a scraper conveyor is susceptible to a combined action of various loads such as a dead load, a coal carrying force and a pushing resistance, and is also affected by the straightness of the scraper conveyor, ground fluctuation, a bending angle between any adjacent middle trough sections and the own strength of a dumbbell pin, thus making it much easier to result in wearing and breaking of the middle trough and the dumbbell pin, or to seriously result in connection displacement or disconnection of the middle trough. The connection strength of a middle trough dumbbell pin seat is much stronger than that of the dumbbell pin, and once the dumbbell pin is broken, it can be judged that the middle trough fails in connection.
At present, in a mine production process of the fully mechanized coal mining face, a breaking failure of a dumbbell pin connected to a middle trough is still detected in a traditional artificial manner, it is quite difficult to artificially distinguish the non-obvious displacement or disconnection of the middle trough and to replace a broken dumbbell pin in time, so a great potential safety hazard exists.
SUMMARY
The present invention is directed to a breaking detection device and method for a dumbbell pin connected to a middle trough, which are high in reliability, high in accuracy and easy to maintain.
To this end, the present invention adopts the technical solution as follows.
The breaking detection device comprises a locking device and a dumbbell pin posture monitoring device. A dumbbell pin and the dumbbell pin posture monitoring device are connected to a middle trough of a scraper conveyor, and all adjacent components of the locking device and the dumbbell pin posture monitoring device are connected through locating bolts. The dumbbell pin breaking detection device is arranged on one side of a coal shoveling plate, thus avoiding a stress impact in a pushing process.
The locking device is used for locating the dumbbell pin posture monitoring device, and comprises elastic locating rings and an elastic fastening ring, the elastic fastening ring being connected to an elastic support rod, and the elastic locating rings being symmetrically arranged at two ends of a pin rod of a dumbbell pin connected between any adjacent middle troughs. A cross universal joint is connected to a middle position of the elastic support rod.
The cross universal joint consists of a transmitting base, a receiving base and a cross joint, an infrared transmitter being arranged in a chamber of the transmitting base, an infrared receiver being arranged in a chamber of the receiving base, the two bases being capable of rotating in horizontal and vertical directions, and lead holes being used for wire arrangement. Central holes are provided in the centers of both the transmitting base and the receiving base, and the lead holes are further provided in the transmitting base and the receiving base. The central holes of the transmitting base and the receiving base are identical to a central hole of the cross universal joint in size, central axes of the central holes being in the same horizontal line.
The dumbbell pin posture monitoring device is used for monitoring an infrared signal, and comprises the infrared receiver, the infrared transmitter and a signal processing module, the signal processing module being used for processing data of the infrared signal. The infrared receiver and the infrared transmitter of the dumbbell pin posture monitoring device are connected to an output end of the signal processing module. The signal processing module is connected to an upper computer through a wireless communication network, the upper computer implementing data processing storage display, real-time early warning and remote control. The wireless communication network comprises: a ZigBee node, a ZigBee wireless routing module and a ZigBee coordinator, the ZigBee routing module

2 communicating with the upper computer in real time by adopting a CC2530 chip selection system. The upper computer comprises a signal processing system taking an ARM
chip as a microprocessor, a digital display unit taking MCGS industrial control software as a core, and an automatic alarm device.
A detection method adopting a breaking detection device for a dumbbell pin connected to a middle trough, comprising the following steps:
a), uniformly numbering dumbbell pin posture monitoring devices connected between any adjacent scraper conveyors, receiving, by an infrared receiver, an infrared signal transmitted from an infrared transmitter of a detection device, connecting an output end of the infrared receiver to a signal processing module, decoding, by the signal processing module, the infrared signal, performing data conversion to obtain a corresponding digital value, electrically connecting the signal processing module to uniformly-numbered ZigBee node modules, and then transmitting data to an upper computer through a wireless communication network, the wireless communication network consisting of multiple groups of ZigBee router modules and coordinator modules and being capable of selecting a path in a multi-hop manner to transmit the data;
b), dumbbell pin breaking failure diagnosis: processing, by the upper computer, the data in real time, so as to obtain a theoretic intensity value NO of the infrared signal received by the infrared receiver and an actual intensity value N of the infrared signal collected by a ZigBee node in a detection process, setting a reference variable as MO%--IN-NOI/NO, and setting a threshold thereof as 10%, wherein when MO% is approximate to 0, it is shown that a dumbbell pin normally works, when MO%
exceeds 10%, it is shown that a cross universal joint deflects in a horizontal or vertical direction, the infrared signal cannot be normally received at this time, the dumbbell pin is broken, and the upper computer can judge the position of the broken dumbbell pin according to the serial numbers of the dumbbell pin posture monitoring devices and ZigBee node networking ID
numbers; and c), repeating the steps a and b, detecting a breaking condition of the dumbbell pin in real time, and processing, storing and displaying, by the upper computer, the received data,

3 so as to further achieve real-time early warning for a breaking failure of the dumbbell pin and remote control over a pushing action of a middle trough at a broken part.
Beneficial effects are as follows. Due to the adoption of the above-mentioned solution, once a dumbbell pin has a chain breaking failure, a cross universal joint between a transmitting base and a receiving base will deflect in a horizontal or vertical direction, an infrared signal cannot be normally received at this time, a breaking condition of the dumbbell pin is accurately judged by taking the intensity of the infrared signal received by the dumbbell pin breaking detection device as a reference, and an upper computer can quickly determine the position of the broken dumbbell pin, thus greatly simplifying a detection procedure, overcoming blindness and low efficiency of artificial detection, and providing a reliable reference for real-time early warning for the breaking failure of the dumbbell pin and remote control over a working face.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is an arrangement diagram of a breaking detection device of the present invention.
FIG. 2 is an installation diagram of a breaking detection device of the present invention.
FIG. 3 is a structural diagram of a locking device and a dumbbell pin posture monitoring device of the present invention.
FIG. 4 is a connection diagram of a control device of the present invention.
In the drawings: 1, middle trough of scraper conveyor, 2, dumbbell pin, 21, pin rod of dumbbell pin, 3, dumbbell pin posture monitoring device, 31, locking device, 311, elastic locating ring, 312, elastic fastening ring, 32, elastic support rod, 33, cross universal joint, 331, transmitting base, 332, cross joint, 333, receiving base, 334, lead hole, and 335, central hole.
DETAILED DESCRIPTION
The present invention will be further explained hereinbelow in conjunction with the

4 drawings.
A breaking detection device comprises a locking device 31 and a dumbbell pin posture monitoring device. A dumbbell pin 2 and the dumbbell pin posture monitoring device 3 are connected to a middle trough 1 of a scraper conveyor, and all adjacent components of the locking device 31 and the dumbbell pin posture monitoring device 3 are connected through locating bolts. The dumbbell pin breaking detection device is arranged on one side of a coal shoveling plate, thus avoiding a stress impact in a pushing process.
The locking device 31 is used for locating the dumbbell pin posture monitoring device, and comprises elastic locating rings 311 and an elastic fastening ring 312, the elastic fastening ring 312 being connected to an elastic support rod 32, and the elastic locating rings 311 being symmetrically arranged at two ends of a pin rod 21 of a dumbbell pin connected between any adjacent middle troughs. A cross universal joint 33 is connected to a middle position of the elastic support rod 32.
The cross universal joint 33 consists of a transmitting base 331, a receiving base 333 and a cross joint 332, an infrared transmitter being arranged in a chamber of the transmitting base 331, an infrared receiver being arranged in a chamber of the receiving base 333, the two bases being capable of rotating in horizontal and vertical directions, and lead holes 334 being used for wire arrangement. Central holes 335 are provided in the centers of both the transmitting base 331 and the receiving base 333, and the lead holes 334 are further provided in the transmitting base 331 and the receiving base 333.
The central holes of the transmitting base and the receiving base are identical to a central hole of the cross universal joint in size, central axes of the central holes being in the same horizontal line.
The dumbbell pin posture monitoring device 3 is used for monitoring an infrared signal, and comprises the infrared receiver, the infrared transmitter and a signal processing module, the signal processing module being used for processing data of the infrared signal; the infrared receiver and the infrared transmitter of the dumbbell pin posture monitoring device 3 are connected to an output end of the signal processing module; the signal processing module is connected to an upper computer through a wireless communication network, the

5 upper computer implementing data processing storage display, real-time early warning and remote control; the wireless communication network comprises: a ZigBee node, a ZigBee wireless routing module and a ZigBee coordinator, the ZigBee routing module communicating with the upper computer in real time by adopting a CC2530 chip selection system; and the upper computer comprises a signal processing system taking an ARM chip as a microprocessor, a digital display unit taking MCGS industrial control software as a core, and an automatic alarm device.
A detection method adopting a breaking detection device for a dumbbell pin connected to a middle trough, comprising the following steps:
a), uniformly numbering dumbbell pin posture monitoring devices connected between any adjacent scraper conveyors, receiving, by an infrared receiver, an infrared signal transmitted from an infrared transmitter of a detection device, connecting an output end of the infrared receiver to a signal processing module, decoding, by the signal processing module, the infrared signal, performing data conversion to obtain a corresponding digital value, electrically connecting the signal processing module to uniformly-numbered ZigBee node modules, and then transmitting data to an upper computer through a wireless communication network, the wireless communication network consisting of multiple groups of ZigBee router modules and coordinator modules and being capable of selecting a path in a multi-hop manner to transmit the data;
b), dumbbell pin breaking failure diagnosis: processing, by the upper computer, the data in real time, so as to obtain a theoretic intensity value NO of the infrared signal received by the infrared receiver and an actual intensity value N of the infrared signal collected by a ZigBee node in a detection process, setting a reference variable as MO%¨iN-NOI/NO, and setting a threshold thereof as 10%, wherein when MO% is approximate to 0, it is shown that a dumbbell pin normally works, when MO%
exceeds 10%, it is shown that a cross universal joint deflects in a horizontal or vertical direction, the infrared signal cannot be normally received at this time, the dumbbell pin is broken, and the upper computer can judge the position of the broken dumbbell pin according to the serial numbers of the dumbbell pin posture monitoring devices and ZigBee node networking ID

6 numbers; and c), repeating the steps a and b, detecting a breaking condition of the dumbbell pin in real time, and processing, storing and displaying, by the upper computer, the received data, so as to further achieve real-time early warning for a breaking failure of the dumbbell pin and remote control over a pushing action of a middle trough at a broken part.
Embodiment 1: To this end, the present invention adopts the technical solution as follows.
In FIG. 1 and FIG. 2, a breaking detection device 3 for a dumbbell pin 2 connected to a middle trough is shown. The breaking detection device comprises a locking device 31 and a dumbbell pin posture monitoring device. The locking device is used for locating the dumbbell pin posture monitoring device, and the posture monitoring device is used for monitoring an infrared signal. A signal processing module is used for processing data of the infrared signal, a wireless communication network consists of ZigBee wireless data transmission modules, and the ZigBee modules can communicate with an upper computer in real time by adopting a CC2530 chip selection system. The upper computer comprises a signal processing system taking an ARM chip as a microprocessor, a digital display unit taking MCGS industrial control software as a core, an automatic alarm device, etc.
As shown in FIG. 2 and FIG. 3, the locking device comprises elastic locating rings 311 and an elastic fastening ring 312, the elastic locating rings being symmetrically arranged at two ends of a pin rod 21 of a dumbbell pin connected between any adjacent middle troughs 1. The posture monitoring device comprises an elastic support rod 32, an infrared transceiver and a cross universal joint 33. All adjacent components of the locking device and the dumbbell pin posture monitoring device are connected through locating bolts.
The cross universal joint consists of a transmitting base 331, a receiving base 333 and a cross joint 332, an infrared transmitter is arranged in a chamber of the transmitting base, an infrared receiver is arranged in a chamber of the receiving base, the two bases are capable of rotating in horizontal and vertical directions, and lead holes 334 are used for wire arrangement.

7 The dumbbell pin breaking detection device is arranged on one side of a coal shoveling plate, thus avoiding a stress impact in a pushing process. The transmitting base and the receiving base of the dumbbell pin posture monitoring device and the cross universal joint have central holes 335 of the same size, and central axes of the central holes are in the same horizontal line.
As shown in FIG. 4, a detection method adopting a breaking detection device for a dumbbell pin connected to a middle trough, comprising the following steps:
a), uniformly numbering dumbbell pin posture monitoring devices connected between any adjacent scraper conveyors, receiving, by an infrared receiver, an infrared signal transmitted from an infrared transmitter of a detection device, connecting an output end of the infrared receiver to a signal processing module, decoding, by the signal processing module, the infrared signal, performing data conversion to obtain a corresponding digital value, electrically connecting the signal processing module to uniformly-numbered ZigBee node modules, and then transmitting data to an upper computer through a wireless communication network, the wireless communication network consisting of multiple groups of ZigBee router modules and coordinator modules and being capable of selecting a path in a multi-hop manner to transmit the data;
b), dumbbell pin breaking failure diagnosis: processing, by the upper computer, the data in real time, so as to obtain a theoretic intensity value NO of the infrared signal received by the infrared receiver and an actual intensity value N of the infrared signal collected by a ZigBee node in a detection process, setting a reference variable as MO%¨IN-NOVNO, and setting a threshold thereof as 10%, wherein when MO% is approximate to 0, it is shown that a dumbbell pin normally works, when MO%
exceeds 10%, it is shown that a cross universal joint deflects in a horizontal or vertical direction, the infrared signal cannot be normally received at this time, the dumbbell pin is broken, and the upper computer can judge the position of the broken dumbbell pin according to the serial numbers of the dumbbell pin posture monitoring devices and ZigBee node networking ID
numbers; and c), repeating the steps a and b, detecting a breaking condition of the dumbbell pin in

8 real time, and processing, storing and displaying, by the upper computer, the received data, so as to further achieve real-time early warning for a breaking failure of the dumbbell pin and remote control over a pushing action of a middle trough at a broken part.

9

Claims (3)

What is claimed is:

1. A breaking detection device for a dumbbell pin connected to a middle trough, comprising:
a locking device and a dumbbell pin posture monitoring device, the dumbbell pin and the dumbbell pin posture monitoring device are connected to the middle trough of a scraper conveyor, and all adjacent components of the locking device and the dumbbell pin posture monitoring device are connected through locating bolts; the dumbbell pin breaking detection device is arranged on one side of a coal shoveling plate, thus avoiding a stress impact in a pushing process;
the locking device is used for locating the dumbbell pin posture monitoring device, and comprises elastic locating rings and an elastic fastening ring, the elastic fastening ring being connected to an elastic support rod, and the elastic locating rings being symmetrically arranged at two ends of a pin rod of a dumbbell pin connected between any adjacent middle troughs; a cross universal joint is connected to a middle position of the elastic support rod;
the dumbbell pin posture monitoring device is used for monitoring an infrared signal, and comprises an infrared receiver, an infrared transmitter and a signal processing module, the signal processing module being used for processing data of the infrared signal; the infrared receiver and the infrared transmitter of the dumbbell pin posture monitoring device are connected to an output end of the signal processing module; the signal processing module is connected to an upper computer through a wireless communication network, the upper computer implementing data processing storage display, real-time early warning and remote control; the wireless communication network comprises a ZigBee node, a ZigBee wireless routing module and a ZigBee coordinator, the ZigBee routing module communicating with the upper computer in real time by adopting a CC2530 chip selection system; and the upper computer comprises a signal processing system taking an ARM chip as a microprocessor, a digital display unit taking MCGS industrial control software as a core, and an automatic alarm device.

2. The breaking detection device for a dumbbell pin connected to a middle trough according to claim 1, wherein the cross universal joint consists of a transmitting base, a receiving base and a cross joint, the infrared transmitter being arranged in a chamber of the transmitting base, the infrared receiver being arranged in a chamber of the receiving base, the two bases being capable of rotating in horizontal and vertical directions, and lead holes being used for wire arrangement;
central holes are provided in the centers of both the transmitting base and the receiving base, and the lead holes are further provided in the transmitting base and the receiving base; and the central holes of the transmitting base and the receiving base are identical to a central hole of the cross universal joint in size, central axes of the central holes being in the same horizontal line.

3. A method of detecting breaking of a dumbbell pin connected to a middle trough which comprises the following steps:
a) numbering dumbbell pin posture monitoring devices connected between any adjacent scraper conveyors, receiving, by an infrared receiver, an infrared signal transmitted from an infrared transmitter of a detection device, connecting an output end of the infrared receiver to a signal processing module, decoding, by the signal processing module, the infrared signal, performing data conversion to obtain a corresponding digital value, electrically connecting the signal processing module to uniformly-numbered ZigBee node modules, and then transmitting data to an upper computer through a wireless communication network, the wireless communication network consisting of multiple groups of ZigBee router modules and coordinator modules and being capable of selecting a path in a rnulti-hop manner to transmit the data;
b) dumbbell pin breaking failure diagnosis: processing, by the upper computer, the data in real time, so as to obtain a theoretic intensity value N0 of the infrared signal received by the infrared receiver and an actual intensity value N of the infrared signal collected by a ZigBee node in a detection process, setting a reference variable as M0%=¦N-N0¦/N0, and setting a threshold thereof as 10%, wherein when M0% is approximate to 0, it is shown that a dumbbell pin normally works, when M0% exceeds 10%, it is shown that a cross universal joint deflects in a horizontal or vertical direction, the inftared signal cannot be normally received at this time, the dumbbell pin is broken, and the upper computer can judge the position of the broken dumbbell pin according to said nuinbering ot the dumbbell pin posture monitoring devices and ZigBee node networking ID numbers; and c) repeating the steps a and b, detecting a breaking condition of the dumbbell pin in real time, and processing, storing and displaying, by the upper computer, the received data, so as to further achieve real-time early warning for a breaking failure of the dumbbell pin and remote control over a pushing action of a middle trough at a broken part.