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Track deformable robot mobile platform

A mobile platform and robot technology, applied in motor vehicles, tracked vehicles, transportation and packaging, etc., can solve problems such as the ineffectiveness of the auxiliary swing arm module, the friction between the track and the ground, and the low speed of smoothing the road, and achieve strong performance. The effect of autonomous terrain adaptability, reducing friction, and increasing the speed of wheeled movement

Active Publication Date: 2016-04-06
彼合彼方机器人(天津)有限公司
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Problems solved by technology

[0003] The existing passive adaptive crawler robot research includes: Chinese patent No. ZL2013101764130 discloses a passive adaptive crawler deformable mobile robot platform, the robot platform uses an underactuated planar six-bar mechanism as a mechanism to support the crawler, and can Through obstacles higher than the track, but its deformation is not large, the speed of the flat road is low, and the auxiliary swing arm module does not achieve much effect in practical applications; the Chinese patent No. ZL2010102195152 discloses a self-adaptive The wheel-track composite deformation mobile robot has two wheel-track motion modes, but when it moves in wheel mode, the track is still in contact with the ground as a virtual wheel, and it must maintain the same linear speed as the driving wheel, which is easy to produce track friction with the ground

Method used

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Embodiment Construction

[0027] The present invention will be further described below in conjunction with the embodiments and drawings. The examples are specific implementations performed on the premise of the technical solutions of the present invention, and detailed implementation manners and processes are given, but they are not used as limitations on the protection scope of the claims of the present application.

[0028] The crawler deformable robot mobile platform of the present invention (referred to as the mobile platform, see Figure 1-10 ) Including the robot body 1 and two wheel-track composite modules 2. The two wheel-track composite modules 2 are symmetrically arranged on both sides of the robot body 1;

[0029] The robot body 1 (see figure 2 ) Including a box board 101, a power supply 105, a motor driver 104 and two drive systems installed in reverse. The power supply 105, a motor driver 104 and two drive systems are all installed in the box board 101, and the two drive systems drive correspon...

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Abstract

The invention relates to a track deformable robot mobile platform. The track deformable robot mobile platform comprises a robot body and two wheel-track composite modules. The two wheel-track composite modules are arranged on the two sides of the robot body symmetrically right and right. The robot body comprises a box body plate, a power source, a motor driver and two driving systems, and the driving systems are installed reversely. The power source, the motor driver and the two driving systems are all installed in the box body plate. The two driving systems drive the wheel-track composite modules to move correspondingly and respectively. The track deformable robot mobile platform is characterized in that each wheel-track composite module comprises a track, a track driving wheel, a synchronous pulley, a driven vehicle wheel rack, a ] transmission shaft, a main shaft, a third gear, a spring, a driving vehicle wheel, a driver vehicle wheel, a driving vehicle wheel rack, a sliding block mechanism, a second gear, a fourth gear, a driving vehicle wheel axle, two front supports, two rear supports and four track supporting wheels; the two front supports are connected through a connection frame, and the two rear supports are connected through a connection frame.

Description

Technical field [0001] The invention relates to the technical field of robot mobile platforms, in particular to a caterpillar deformable robot mobile platform. Background technique [0002] In the existing research on the mobile mechanism of robots, wheeled mobile robots have better flexibility and maneuverability, but they are mainly used in flat ground environments; legged mobile robots can pass through more complex ground environments, but their efficiency is low. Complex; crawler robots are widely used in research and have both efficiency and obstacle passing performance. Most common crawler robots are joint swing arm structures, which actively adapt to environmental changes by adjusting the angle of the joint swing arm. And this type of robot relies heavily on environmental information fed back by sensors and active control and adjustment. The passive adaptive crawler robot can use the restraining force in the environment as an effective output to passively change the conto...

Claims

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Application Information

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IPC IPC(8): B62D55/04B62D55/075
CPCB62D55/04B62D55/075
Inventor 吕晓玲田颖张明路李凡张绍春
Owner 彼合彼方机器人(天津)有限公司
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