WO2017080065A1 - System and method for detecting vibration performance of head sheave of mine hoist - Google Patents

Abstract

Disclosed is a system for detecting a vibration performance of a head sheave of a mine hoist, comprising a sensor bracket (4), a laser displacement sensor (5), a sensor box (8), a collector (10) and an upper computer (11). The sensor bracket (4) is provided on a head sheave platform (1). Two laser displacement sensors (5) are provided on the sensor bracket (4), wherein one laser displacement sensor (5) is aligned to one side end face of a head sheave (2) and the other laser displacement sensor (5) is aligned to a radially outer edge of the head sheave (2). The sensor box (8) is provided on a bearing support (6). A sound sensor and an acceleration sensor are provided in the sensor box (8). The signal output ends of the laser displacement sensor (5), the sound sensor and the acceleration sensor are connected to a signal input end of the collector (10), and a signal output end of the collector (10) is connected to a signal input end of the upper computer (11) via the Ethernet. The present invention also relates to a method for detecting a vibration performance of a head sheave of a mine based on this system, and can achieve on-line detection of a working operation state of a head sheave of a hoist.

Description

Mine hoisting crane wheel vibration performance detecting system and method Technical field

The invention relates to a system and a method for detecting the vibration performance of a hoisting wheel, in particular to a vibration detecting performance system and method for a mine hoist.

Background technique

The hoist is known as the “mine throat” and bears the task of upgrading coal gangue, decentralized materials, lifting personnel and equipment. Its operating status is directly related to the safe and efficient production of coal mines. As an important part of the hoist, the balance wheel can directly reflect whether the hoist is running normally. The high-speed over-winding, broken rope, slipping and other vicious accidents of the hoisting machine are accompanied by the damage of the mechanical components of the skywheel. The mechanical components can be distinguished in terms of vibration performance when they are damaged and in good condition.

Therefore, the research on the vibration performance of the skywheel can judge the operation state of the hoist during the operation of the lifting system, so that when the working state of the skywheel is abnormal, the failure of the hoist will be analyzed through the vibration information. Prevent the cause of hoist failures. It is of great significance to improve the safety of the transportation process.

Summary of the invention

OBJECT OF THE INVENTION: The object of the present invention is a vibration hoisting performance detecting system and method for a mine hoist, which detects on-line vibration performance of the hoist and the running condition of the bearing.

In order to achieve the above object, the present invention adopts the following technical solution: a mine hoisting day wheel vibration performance detecting system, the mine hoisting day wheel comprises a sky wheel platform, a sky wheel, a bearing support and a bearing, the sky wheel The rotating shaft is mounted on the bearing support through a bearing, and the bearing support is mounted on the sky wheel platform; the vibration performance detecting system comprises a sensor bracket, a laser displacement sensor, a sensor box, a collector and a host machine, and the sensor bracket is arranged on the sky wheel On the platform, the sensor bracket is provided with two laser displacement sensors, one of which is aligned with one end face of the balance wheel, the other laser displacement sensor is directed to the radially outer edge of the balance wheel, and the sensor box is disposed on the bearing support. The sensor box is provided with an acoustic sensor and an acceleration sensor. The signal output end of the laser displacement sensor, the sound sensor and the acceleration sensor is connected to the signal input end of the collector, and the signal output end of the collector is connected to the signal input end of the upper computer through the Ethernet.

Further, an isolation rubber block is disposed between the bottom of the sensor bracket and the sky wheel platform.

Further, the sensor box is attracted to the bearing support by a magnet block.

Further, the surface of the sensor box that is not in contact with the bearing support is made of a soundproof material.

Further, the laser displacement sensor, the sound sensor, the acceleration sensor and the collector are all connected to the DC power module.

The above-mentioned vibration performance detecting system of the mine hoisting wheel vibration performance detecting method: the upper computer sets the synchronous clock, the upper computer control signal passes through the Ethernet input collector, realizes the laser displacement sensor, the sound sensor and the adding The speed sensor synchronously collects data, the laser displacement sensor measures the axial and radial oscillation displacement of the balance wheel respectively, the sound sensor measures the bearing operation sound signal, the acceleration sensor measures the bearing motion signal, and the collector transmits the collected data to the upper computer through the Ethernet. The upper computer analyzes the working state of the hoisting wheel according to the received data information.

Advantageous Effects: The invention indirectly measures the test system and the detection method of the working state of the balance wheel by the axial and radial vibration of the balance wheel and the test of the running state of the bearing, and the system is convenient to install, and the on-line detection hoist balance wheel can be conveniently realized. The health of the work.

DRAWINGS

1 is a schematic structural view of a vibration performance detecting system of the present invention;

2 is a control schematic diagram of a vibration performance detecting system of the present invention.

In the figure: 1. Tianlun platform; 2. Tianlun; 3. Isolation rubber pad; 4. Sensor bracket; 5. Laser displacement sensor; 6. Bearing support; 7. Bearing; 8. Sensor box; Block; 10, collector; 11, upper computer.

detailed description:

The invention will be further explained below in conjunction with the drawings.

As shown in FIGS. 1 and 2, the mine hoist balance wheel comprises a balance wheel platform 1, a balance wheel 2, a bearing support 6 and a bearing 7, and the crown 2 shaft is mounted on the bearing support 6 via a bearing 7, the bearing branch The seat 6 is mounted on the sky wheel platform 1.

The mine hoisting crane vibration performance detecting system of the invention comprises a sensor bracket 4, a laser displacement sensor 5, a sensor box 8, a collector 10 and a host computer 11. The sensor bracket 4 is disposed on the sky wheel platform 1 , and a vibration isolation rubber block 3 is disposed between the bottom of the sensor bracket 4 and the sky wheel platform 1 . The sensor holder 4 is provided with two laser displacement sensors 5, one of which is aligned with the end face of the balance wheel 2, and the other laser displacement sensor 5 is aligned with the radially outer edge of the day wheel 2, and the laser displacement sensor 5 and the day The relative position of the wheel is fixed, and the distance between the two is within the range of the laser displacement sensor 5. The sensor box 8 is adsorbed on the bearing support 6 through the magnet block 9. The sensor box 8 is provided with an acoustic sensor and an acceleration sensor. The surface of the sensor box 8 not in contact with the bearing support 6 is made of soundproof material and is isolated. The external sound interferes with the acoustic sensor in the sensor box 8. The laser displacement sensor 5, the sound sensor and the acceleration sensor signal output end are connected to the signal input end of the collector 10, and the signal output end of the collector 10 is connected to the signal input end of the host computer 11 via Ethernet.

The sound sensor incorporates a sound-sensitive capacitive electret microphone, and the sound signal generated when the bearing 7 of the crown 2 is operated is transmitted to the sensor case 8 as a medium by the bearing holder 6, and is received by the sound sensor. The sound causes vibration of the electret film in the microphone, causing a change in capacitance, which further causes a voltage change. The operation of the bearing 7 can be indirectly obtained by collecting and analyzing the continuously varying voltage.

When the balance wheel bearing 7 is running, it will cause the vibration of the bearing support 6. The amplitude of the vibration caused by the different degrees of wear of the bearing is different. The acceleration sensor is used to capture the changes of these vibrations, and the collected signals are amplified and converted to obtain electrical signals. It is possible to indirectly know the degree of wear and wear of the bearing by the change of the collected electrical signal.

The laser displacement sensor 5, the acoustic sensor, the acceleration sensor and the collector 10 are all connected to the DC power supply module. The 15VDC power supply module is installed in the collector 10 and the sensor box 8. The power supply module is a lithium battery with a output voltage of 15V, DC. The power module is equipped with a voltage regulator module, and the voltage regulator module uses a voltage regulator chip LM2596.

The upper computer 11 is programmed with the upper computer software for analysis and processing. The upper software is preferably written by the LabVIEW tool. In LabVIEW, the implementation only needs to call “read TCP data.vi” and “write TCP data.vi”. The data of the collector 10 is read and written; the data of the collector 10 can be saved by calling the data "write spreadsheet file .vi" or "writing the text file .vi".

The method for detecting the vibration performance of the mine hoisting wheel of the mine hoist based on the above vibration performance detecting system: the upper computer 11 sets the synchronous clock, and the control signal of the upper computer 11 is input to the collector 10 through the Ethernet to realize the laser displacement sensor 5, the sound sensor and The acceleration sensor synchronously collects data, the laser displacement sensor 5 measures the axial and radial oscillation displacements of the skywheel 2, the acoustic sensor measures the acoustic signal of the bearing 7, the acceleration sensor measures the motion signal of the bearing 7, and the collector 10 passes the collected data. The Ethernet is sent to the host computer 11, and the host computer 11 analyzes the working state of the elevator sky wheel based on the received data information.

The above description is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can also make several improvements and retouchings without departing from the principles of the present invention. It should be considered as the scope of protection of the present invention.

Claims (6)

1. A mine hoisting wheel vibration performance detecting system, the mine hoisting day wheel comprises a sky wheel platform (1), a sky wheel (2), a bearing support (6) and a bearing (7), the sky wheel (2 The rotating shaft is mounted on the bearing support (6) through the bearing (7), and the bearing support (6) is mounted on the sky wheel platform (1); the vibration performance detecting system includes the sensor bracket (4), the laser a displacement sensor (5), a sensor box (8), a collector (10) and a host computer (11), the sensor bracket (4) is disposed on the sky wheel platform (1), and the sensor bracket (4) is provided with two Laser displacement sensor (5), one laser displacement sensor (5) is aligned with one end face of the balance wheel (2), and the other laser displacement sensor (5) is aligned with the radial outer edge of the balance wheel (2), the sensor box ( 8) Set on the bearing support (6), the sensor box (8) is provided with sound sensor and acceleration sensor, laser displacement sensor (5), sound sensor and acceleration sensor signal output and signal input of the collector (10) The terminal is connected, and the signal output end of the collector (10) is connected to the signal input end of the host computer (11) via Ethernet.
2. The utility model relates to a mine hoisting crane vibration performance detecting system according to claim 1, characterized in that: a vibration isolation rubber block (3) is arranged between the bottom of the sensor bracket (4) and the sky wheel platform (1).
3. A mine hoisting crane vibration performance detecting system according to claim 1, characterized in that the sensor box (8) is adsorbed on the bearing support (6) by a magnet block (9).
4. A mine hoisting crane vibration performance detecting system according to claim 1, characterized in that the surface of the sensor casing (8) not in contact with the bearing support (6) is made of a sound insulating material.
5. The mine hoisting wheel vibration performance detecting system according to claim 1, characterized in that the laser displacement sensor (5), the sound sensor, the acceleration sensor and the collector (10) are all connected to the DC power supply module.
6. A method for detecting a vibration performance of a mine hoisting crane according to the vibration performance detecting system according to any one of claims 1 to 5, characterized in that: the upper computer (11) sets a synchronous clock, and the upper computer (11) controls the signal. Through the Ethernet input collector (10), the laser displacement sensor (5), the sound sensor and the acceleration sensor are synchronously collected data, and the laser displacement sensor (5) measures the axial and radial oscillation displacement of the sky wheel (2), respectively. The sensor measures the acoustic signal of the bearing (7), the acceleration sensor measures the motion signal of the bearing (7), and the collector (10) transmits the collected data to the upper computer (11) via the Ethernet, and the upper computer (11) receives the received signal according to the received signal. The data information is analyzed to improve the working state of the balance wheel.

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