CN105738018A - Movable monitoring device for identifying structural cable force - Google Patents

Abstract

The invention provides a movable monitoring device for identifying structural cable force, and belongs to the field of civil structure monitoring. A sleeve, a motor, a storage battery, a solar panel, a sensor plate, a wireless reception and emission module, a single-chip microcomputer, a motor roller, a sleeve ball and other parts are used to drive the sleeve to move along a cable to a designated position. Since the sleeve can move along the cable, the sleeve can be installed on an easy-installing position on the cable at first. The single- chip microcomputer controls operation and stop of the motor, and data acquisition and emission of the sensor plate. The movable monitoring device is convenient to install, saves wiring, and realizes movably monitoring and identifying structural cable force, and the engineering operation is convenient.

Description

A kind of for the structure Suo Li removable monitoring device identified

Technical field

The invention belongs to structure monitoring field, relate to the removable monitoring device for structure Suo Li identification adopting the compositions such as sleeve, motor, solar panels, accumulator, sensor board, wireless receiving transmitter module, single-chip microcomputer.

Background technology

Form in component in structure, Cable Structure usually occurs, such as the drag-line of the suspension cable on bridge or membrane structure.These ropes subject pulling force, to undertake the load of structure.If rope occurs in that damage, the holding capacity of rope can be reduced, the destruction of rope time serious, can be caused, affect the safety of structure, it is therefore necessary to Suo Li is identified.

Traditional structure Suo Li recognition methods is by pasting foil gauge on rope, being reflected the size of Suo Li by the strain of rope, thus judging whether rope has damage.Also there is the method adopting acceleration transducer test, some position of rope is carried out vibration monitoring, reflects the size of Suo Li according to its dynamic trait, then carry out safety judgement.But these methods all need stickup sensor on rope, this needs in working at the scene to expend substantial amounts of manpower and materials, and for as the such structure of bridge suspension cable, workman generally requires significantly high position and goes to paste sensor, execute-in-place is breakneck, and substantial amounts of sensor wiring simultaneously is as the reason of position brings very burden.Therefore develop a kind of convenient cable force monitoring device installed, be very necessary and significant.

Summary of the invention

It is an object of the invention to structure Suo Li is identified, it is important that solve how to facilitate the problem installed for the structure Suo Li sensor identified.

Technical scheme:

A kind of for the structure Suo Li removable monitoring device identified, including sleeve, motor, accumulator, solar panels, sensor board, wireless receiving transmitter module and single-chip microcomputer, motor roller and sleeve ball；

Sleeve is made up of device groove, screw hole, motor hole, sleeve ball and motor roller, and it is enclosed within rope；Sleeve is provided with sleeve and opens seam, makes sleeve be opened for two halves, is wrapped in sleeve by rope, and screw is tightened fixing through telescopic screw hole；Motor hole is positioned at device groove, and motor is connected with motor roller by motor hole, and motor roller is rolled by motor rotation, and band moving sleeve is along Suo Yidong；Sleeve ball between sleeve and rope moves along with the driving of motor roller；Solar panels are arranged in accumulator, are integrally placed in device groove for providing energy；Sensor board is positioned on wireless receiving transmitter module and single-chip microcomputer, and wireless receiving transmitter module is provided with antenna, is integrally placed in device groove；Wireless receiving transmitter module and single-chip microcomputer are connected with each other and are structure as a whole, and are connected with the motor in device groove, sensor board and accumulator.

Device is enclosed within rope by sleeve, and the motor drive sleeve on sleeve is along the spiral movement of rope；Sleeve arrives specific bit and postpones, and carries out sensor board collection and data are wirelessly transferred, and accumulator on sleeve and solar panels ensure that abundance and lasting power supply.The motor rotation of sleeve and stopping, sensor board data acquisition with to send be all accept, by wireless reception transmitter module, the wireless telecommunications instruction that server launches to complete.Device groove is used for placing motor, sensor board, wireless receiving transmitter module, single-chip microcomputer, accumulator and solar panels, profile rule is kept from global shape, thus ensureing that the centre of form overlaps with center of gravity, arrival is made to specify the sleeve of position to consolidate and without additional rotation.

The invention have the advantages that and move to appointment position by driven by motor sleeve along rope, thus eliminating manual site to specifying position to install, reducing cost, it is ensured that safety.It addition, by wireless remote control and transmission equipment, it may be achieved radio operation, eliminate the inconvenience that wiring brings, be convenient to Engineering operation.

Accompanying drawing explanation

Fig. 1 is the front view for the structure Suo Li removable monitoring device identified.

Fig. 2 is the side view for the structure Suo Li removable monitoring device identified.

Fig. 3 is the sleeve schematic diagram for the structure Suo Li removable monitoring device identified.

Fig. 4 is the motor schematic diagram for the structure Suo Li removable monitoring device identified.

Fig. 5 is the accumulator for the structure Suo Li removable monitoring device identified and solar panels schematic diagram.

Fig. 6 is for the structure Suo Li sensor board of removable monitoring device, wireless reception transmitter module and single-chip microcomputer, the antenna schematic diagram identified.

In figure: 1 sleeve；2 ropes；3 motors；4 solar panels；5 sensor boards；6 screw holes；7 sleeve balls；8 motor rollers；Seam opened by 9 sleeves；10 device grooves；11 motor holes；12 accumulator；13 wireless receiving transmitter module and single-chip microcomputers；14 antennas.

Detailed description of the invention

The specific embodiment of the present invention is described in detail below in conjunction with technical scheme and accompanying drawing.

A kind of for the structure Suo Li removable monitoring device identified, mainly it is made up of sleeve 1, motor 3, solar panels 4, sensor board 5, sleeve ball 7, motor roller 8, accumulator 12, wireless receiving transmitter module and single-chip microcomputer 13 etc.；Sleeve 1 can be opened seam 9 along sleeve and be opened for two halves, after being wrapped in by rope 2 in sleeve 1, then sleeve is opened seam 9 merging, is tightened through screw hole 6 by screw；Having sleeve ball 7 and motor roller 8 before sleeve 1 and rope 2, motor 3 connects through motor hole 11 and drive motor roller 8 operates, and sleeve ball 7 followed by motor roller 8 as driven pulley and moves, thus band moving sleeve 1 moves along rope 2；Sleeve 1 has device groove 10, is used for placing motor 3, solar panels 4, sensor board 5, accumulator 12, wireless receiving transmitter module and single-chip microcomputer 13；Single-chip microcomputer 13 is connected with transmitter module 13, accumulator 12 with the motor 3 in sleeve arrangement groove 10, sensor board 13, wireless receiving, and accumulator 12 is connected with solar panels 4, has ensured the power supply of this device.

Specific embodiment is as follows:

Step one: first sleeve 1 is opened seam 9 along sleeve and open, be then enclosed within the one end of the rope 2 being convenient to installation, rope 2 is positioned over inside sleeve 1, then sleeve 1 is opened seam 9 merging along sleeve.

Step 2: knocking in motor 3 operation instruction at server end, single-chip microcomputer 13 sends a signal to motor 3 and operates after receiving instruction by wireless receiving transmitter module 13 and antenna 14.

Step 3: motor 3 drive motor roller 8 moves, sleeve ball 7 associated movement, so that sleeve 1 is along rope 2 screw movement, and then reach to specify position.

Step 4: server sends instruction makes motor 3 shut down, and makes sleeve 1 be fixed on the ad-hoc location of rope 2.

Step 5: server sends instruction makes sensor board 5 carry out data acquisition, and by wireless receiving transmitter module 13 and antenna 14, the data of collection is sent to server.

Step 6: data are analyzed identification and obtain structure Suo Li, it is achieved that the portable monitoring that structure Suo Li identifies.

Claims (1)

1. the removable monitoring device for structure Suo Li identification, it is characterised in that this removable monitoring device includes sleeve, motor, accumulator, solar panels, sensor board, wireless receiving transmitter module and single-chip microcomputer, motor roller and sleeve ball；

Sleeve is made up of device groove, screw hole, motor hole, sleeve ball and motor roller, and it is enclosed within rope；Sleeve is provided with sleeve and opens seam, makes sleeve be opened for two halves, is wrapped in sleeve by rope, and screw is tightened fixing through telescopic screw hole；Motor hole is positioned at device groove, and motor is connected with motor roller by motor hole, and motor roller is rolled by motor rotation, and band moving sleeve is along Suo Yidong；Sleeve ball between sleeve and rope moves along with the driving of motor roller；Solar panels are arranged in accumulator, are integrally placed in device groove for providing energy；Sensor board is positioned on wireless receiving transmitter module and single-chip microcomputer, and wireless receiving transmitter module is provided with antenna, is integrally placed in device groove；Wireless receiving transmitter module and single-chip microcomputer are connected with each other and are structure as a whole, and are connected with the motor in device groove, sensor board and accumulator.