CN204667184U - Cable-climbing robot reclaimer - Google Patents
Cable-climbing robot reclaimer Download PDFInfo
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- CN204667184U CN204667184U CN201520205042.9U CN201520205042U CN204667184U CN 204667184 U CN204667184 U CN 204667184U CN 201520205042 U CN201520205042 U CN 201520205042U CN 204667184 U CN204667184 U CN 204667184U
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Abstract
The utility model relates to cable-climbing robot reclaimer, equipment comprises cable climbing machine body, stepper motor, slave computer and host computer, the Power Component of cable climbing machine body is by four groups of stepper motors, four groups of driving wheels and two self-adaptative adjustment wheel compositions, described stepper motor supplies electrical connection by active force power supply and reserve battery respectively, cable climbing machine body carries scrambler, described scrambler only supplies to be electrically connected with standby power supply, described reserve battery adopts lithium battery, an active force power supply sampling A/D chip and scrambler sampling A/D chip is provided with in slave computer, slave computer is wirelessly connected with host computer, host computer controlled in wireless connect stepper motor step actuator and from lock set.The utility model achieves cable-climbing robot in power drain situation, reclaims cable-climbing robot safely and fast, practical.
Description
[technical field]
The utility model relates to robot recovery technology field, specifically cable-climbing robot reclaimer.
[background technology]
Cable-stayed bridge more and more obtains the favor of Bridge Design teacher with the outward appearance of its grace and good shock resistance.The main bearing member of cable-stayed bridge is cable, but it is chronically exposed among air, and be subject to wind, Exposure to Sunlight, drench with rain and the erosion of environmental pollution, its surface can be subject to more serious destruction, and this can bring adverse influence to bed rearrangement cable-stayed bridge.Therefore, be very necessary to effective maintenance of cable.The detection of current Character of Cable Force of Cable stayed Bridge has very large potential market, and research cable-climbing robot has great significance.
The power supply mode of cable-climbing robot adopts lithium battery power supply, and lithium battery is a class is negative material, the battery using non-aqueous electrolytic solution by lithium metal or lithium alloy.The advantages such as lithium battery is larger than traditional storage battery energy, lightweight, present instrument adopts the power supply mode of lithium battery mostly.Cable-climbing robot is in the process detected, if power drain robot cannot reclaim, due to the different areas of activity that cable-climbing robot is special, in this case will bring great trouble to the use of cable-climbing robot, therefore study cable-climbing robot in power drain situation, how to reclaim cable-climbing robot and have great significance.
[summary of the invention]
The purpose of this utility model is to provide cable-climbing robot reclaimer, realizes cable-climbing robot in detection operation process, when power drain, and safe retrieving robot.
For achieving the above object, design a kind of cable-climbing robot reclaimer, comprise cable-climbing robot and host computer, it is characterized in that, the Power Component of cable climbing machine body is by four groups of stepper motors, four groups of driving wheels and two self-adaptative adjustment wheel compositions, described stepper motor supplies electrical connection by active force power supply and reserve battery respectively, cable climbing machine body carries scrambler, described scrambler only supplies to be electrically connected with standby power supply, described reserve battery adopts lithium battery, an active force power supply sampling A/D chip and scrambler sampling A/D chip is provided with in slave computer, slave computer is wirelessly connected with host computer, host computer controlled in wireless connect stepper motor step actuator and from lock set.
The power section of cable climbing machine body is by four groups of stepper motors, four driving wheels and two self-adaptative adjustment wheel compositions, drive motor output shaft is coaxial with driving wheel, directly for driving wheel provides power, the radial force be subject to when robot can hold tightly by driving wheel structure is simultaneously delivered on drive wheel bracket, radial force is subject to avoid motor output shaft, two driving wheels and a regulating wheel are one group, 120 degree, interval is uniformly distributed on fuselage ring, robot body is made up of upper and lower two fuselage rings, four driving wheels keep center of gravity minimum due to Action of Gravity Field, spiral phenomenon can be eliminated, two self-adaptative adjustment wheel can self-adaptation cable diameter and circularity change, ensure that robot keeps the constant moment of torsion that climbs while across obstacle.
Four stepper motors of cable-climbing robot are when self-locking, there is provided enough friction force can overcome the gravity of robot self, cable-climbing robot can be allowed like this to be still on cable, in robot landing process, utilize the auto-lock function of stepper motor, when the speed of robot reaches certain value time, allow stepper motor self-locking.
Stepper motor is by step actuator control linkage, and described step actuator is provided with electric impulse signal receiving unit, electric impulse signal is changed into angular displacement or displacement of the lines.
The utility model achieves cable-climbing robot in power drain situation, reclaims cable-climbing robot safely and fast, practical.
[accompanying drawing explanation]
Fig. 1 is the general frame structural representation of cable-climbing robot
Fig. 2 is robot power section structural representation
Description of symbols in figure
1 supporting base, 2 guide wheel mount pads, the 3 driving wheel axis of guides, 4 fuselage circles, 5 drive wheel assemblies, 6 drive wheel carrier, 7 fuselage link rods, 8 install door briquetting 1,9 installs door briquetting 2,10 install door, 11 engaged wheel adjustment axles, 12 holddown springs, 13 driven wheel carriers, 14 engaged wheel assemblies, 15 engaged wheel axle sleeves, 16 follower shafts.
[embodiment]
Now by reference to the accompanying drawings and embodiment the technical solution of the utility model is further elaborated, believe it is clearly for a person skilled in the art.
As shown in Figure 1, the general frame of cable-climbing robot as shown above, comprise cable climbing machine body, stepper motor, slave computer and host computer, the Power Component of cable climbing machine body is taken turns by four groups of stepper motors, four groups of driving wheels and two self-adaptative adjustment and is formed, as shown in Figure 2.Described stepper motor supplies electrical connection by active force power supply and reserve battery respectively, cable climbing machine body carries scrambler, described scrambler only supplies to be electrically connected with standby power supply, described reserve battery adopts lithium battery, an active force power supply sampling A/D chip and scrambler sampling A/D chip is provided with in slave computer, slave computer is wirelessly connected with host computer, host computer controlled in wireless connect stepper motor step actuator and from lock set.Drive motor output shaft is subject to radial force and does in order to provide enough friction force.Stepper motor is by step actuator control linkage, and described step actuator is provided with electric impulse signal receiving unit, electric impulse signal is changed into angular displacement or displacement of the lines.
Cable-climbing robot power system adopts the type of drive of four stepper motors, this power system has special electrical source of power, if this power depletion, stepper motor can not self-locking, to slide from cable, if cable-climbing robot slides from the height of 200 meters, when sliding into ground, the speed of robot will reach the speed of 30 meter per seconds, such speed is not only broken robot, and bring damage can to surface personnel and bridge floor, if in robot landing process, utilize the auto-lock function of stepper motor, when the speed of robot reaches certain value time, allow stepper motor self-locking, at this time stepper motor can stop, then robot is allowed to open self-locking, then landing.What the mode meeting adopting this segmentation to reclaim was safe can by the recovery of robot security, and removal process is as follows:
1. the electricity of cable-climbing robot will exhaust, system alarm, adopt reserve battery
The Power Component of cable-climbing robot adopts four groups of driving stepper motor, four groups of stepper motors by active force power supply and lithium battery as reserve battery interleaved power, the slave computer of cable-climbing robot has an active force power supply sampling A/D chip to be used for detecting the dump energy of cable-climbing robot active force power supply, sample frequency is 1 minute/time, slave computer by real-time dump energy by being wirelessly transmitted to host computer, the value of the real-time dump energy of host computer analysis, calculate and judge that this value maintains the power system operational time, when the maintenance power system operational time is less than or equal to 5 minutes, host computer is reported to the police, and to start reserve battery be that stepper motor is powered and carried out robot recovery,
2. cable-climbing robot is reclaimed in segmentation
A scrambler is had above cable-climbing robot, this scrambler is powered with standby power supply, can ensure that scrambler works always like this, scrambler can calculate the displacement of cable-climbing robot, then the method for the capable differential of contraposition shift-in can calculate speed, is 0.2 second/time to the sample frequency of scrambler, and such as primary displacement is 100 meters, secondary displacement is 100.3 meters, and the speed of cable-climbing robot is 1.5 meter per seconds through calculating.
(2) when reclaiming, host computer sends the primary power that stepper motor is cut off in instruction, cable-climbing robot glides along cableway based on self gravitation, by scrambler own on cable-climbing robot, obtain the real-time displacement of cable-climbing robot, then calculate the real-time speed of cable-climbing robot, instruction step motor self-locking when speed reaches 2 meter per second time, cable-climbing robot stops declining, and completes first paragraph and reclaims;
(3) after self-locking one second, self-locking opened by host computer instruction step motor, cable-climbing robot continues to glide along cableway based on self gravitation, by scrambler own on cable-climbing robot, obtain the real-time displacement of cable-climbing robot, then calculate the real-time speed of cable-climbing robot, when cable-climbing robot speed is greater than two metre per second (m/s)s, the single-chip microcomputer above cable-climbing robot sends instruction and allows stepper motor self-locking.
Adopt this way of recycling based on robot self gravitation, can solve the problem when cable-climbing robot power drain reclaims, through test of many times, robot, can safe retrieving when power drain, and speed is less than 2 meter per seconds all the time.
Claims (4)
1. a cable-climbing robot reclaimer, comprise cable-climbing robot and host computer, it is characterized in that, the Power Component of cable climbing machine body is by four groups of stepper motors, four groups of driving wheels and two self-adaptative adjustment wheel compositions, described stepper motor supplies electrical connection by active force power supply and reserve battery respectively, cable climbing machine body carries scrambler, described scrambler only supplies to be electrically connected with standby power supply, described reserve battery adopts lithium battery, an active force power supply sampling A/D chip and scrambler sampling A/D chip is provided with in slave computer, slave computer is wirelessly connected with host computer, host computer controlled in wireless connect stepper motor step actuator and from lock set.
2. cable-climbing robot reclaimer as claimed in claim 1, it is characterized in that, the power section of cable climbing machine body is by four groups of stepper motors, four driving wheels and two self-adaptative adjustment wheel compositions, drive motor output shaft is coaxial with driving wheel, directly for driving wheel provides power, the radial force be subject to when robot can hold tightly by driving wheel structure is simultaneously delivered on drive wheel bracket, radial force is subject to avoid motor output shaft, two driving wheels and a regulating wheel are one group, 120 degree, interval is uniformly distributed on fuselage ring, robot body is made up of upper and lower two fuselage rings, four driving wheels keep center of gravity minimum due to Action of Gravity Field, spiral phenomenon can be eliminated, two self-adaptative adjustment wheel can self-adaptation cable diameter and circularity change, ensure that robot keeps the constant moment of torsion that climbs while across obstacle.
3. cable-climbing robot reclaimer as claimed in claim 1, it is characterized in that, four stepper motors of cable-climbing robot are when self-locking, there is provided enough friction force can overcome the gravity of robot self, cable-climbing robot can be allowed like this to be still on cable, in robot landing process, to utilize the auto-lock function of stepper motor, when the speed of robot reaches certain value time, allow stepper motor self-locking.
4. cable-climbing robot reclaimer as claimed in claim 1, it is characterized in that, stepper motor is by step actuator control linkage, and described step actuator is provided with electric impulse signal receiving unit, electric impulse signal is changed into angular displacement or displacement of the lines.
Priority Applications (1)
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CN201520205042.9U CN204667184U (en) | 2015-04-07 | 2015-04-07 | Cable-climbing robot reclaimer |
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CN201520205042.9U CN204667184U (en) | 2015-04-07 | 2015-04-07 | Cable-climbing robot reclaimer |
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CN204667184U true CN204667184U (en) | 2015-09-23 |
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2015
- 2015-04-07 CN CN201520205042.9U patent/CN204667184U/en active Active
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