阅读说明：本技术 一种被动分离式蛇形机器人 (Passive disconnect-type snake-like robot ) 是由 龙樟 陈敏 杨鹏 张鹏 温飞娟 陈林燕 陈广 于 2019-09-23 设计创作，主要内容包括：本发明的一种被动分离式蛇形机器人,包括头部,其包括头部壳体和设置于所述头部壳体的控制单元、外部环境探测单元和电池单元；体部,其包括多个依次连接形成链状结构的可分离式关节模块和设置于相邻两个所述可分离式关节模块之间的关节驱动电机；所述可分离式关节模块包括模块Ⅰ、模块Ⅱ和连接组件；当建筑物倒塌受到重力压迫时,被压迫那部分停止运动,未被压迫部分继续运动,传递动力,使得连接装置中的弹簧带动钢球与球形凹槽脱离,被压迫部分与整体分离,终止工作,未被压迫部分在蛇头的带领下继续工作,通过微型摄像头,将灾害场景传递给救援人员,提高救援工作效率。(The invention relates to a passive separation type snake-shaped robot, which comprises a head, a control unit, an external environment detection unit and a battery unit, wherein the head comprises a head shell, and the control unit, the external environment detection unit and the battery unit are arranged on the head shell; the body part comprises a plurality of separable joint modules which are sequentially connected to form a chain structure and joint driving motors arranged between every two adjacent separable joint modules; the separable joint module comprises a module I, a module II and a connecting assembly; when the building collapses and is pressed by gravity, the pressed part stops moving, the part which is not pressed continues moving to transmit power, so that the spring in the connecting device drives the steel ball to be separated from the spherical groove, the pressed part is separated from the whole body to stop working, the part which is not pressed continues working under the leading of the snake head, and the disaster scene is transmitted to the rescue workers through the miniature camera, thereby improving the rescue working efficiency.)

1. A passive split serpentine robot, comprising:

a head including a head housing, and a control unit, an external environment detection unit, and a battery unit provided to the head housing;

The body part comprises a plurality of separable joint modules which are sequentially connected to form a chain structure and joint driving motors arranged between every two adjacent separable joint modules;

The separable joint module comprises a module I, a module II and a connecting assembly; the front end of the module I is provided with a motor mounting seat for fixedly mounting the joint driving motor body, and the rear end of the module I is provided with a circular connecting boss; a plurality of hemispherical grooves are uniformly distributed on the connecting boss along the circumferential direction; the front end of the module II is provided with a convex ring which can be matched with the connecting boss, and the rear end of the module II is provided with a mounting hole which is in transmission connection with an output shaft of a rear joint driving motor; through holes which are in one-to-one correspondence with the hemispherical grooves are uniformly distributed in the circumferential direction of the convex ring; the connecting assembly comprises a hoop sleeved on the convex ring, a steel ball and a spring, wherein the steel ball and the spring are positioned in the through hole; one end of the spring is fixedly connected to the inner wall of the hoop, and the other end of the spring is fixedly connected to the steel ball and can press the steel ball into the hemispherical groove.

2. The passive split snake robot of claim 1, wherein: the outer surfaces of the head part and the body part are covered with silica gel layers; and the silica gel layer is distributed with anti-skid bulges.

3. The passive split snake robot of claim 1, wherein: the motor mounting seat is arranged in a clamping groove at the front end of the module I.

4. the passive split snake robot of claim 1, wherein: the outer diameter of the connecting boss is gradually increased from the front end to the rear end.

5. The passive split snake robot of claim 1, wherein: the hoop comprises two hoop half bodies of semicircular ring structures which are hinged with each other, and spring mounting holes which correspond to the springs one by one are uniformly distributed on the inner wall of the hoop in the circumferential direction.

6. the passive split snake robot of claim 1, wherein: the battery supplies power to each joint driving motor through a contact circuit.

Technical Field

the invention relates to the field of robots, in particular to a passive separation type snake-shaped robot.

background

Disasters often occur around the world due to natural disasters (such as earthquakes), terrorist activities, and the like. Huge disasters can cause large areas of collapsed buildings and casualties, and the most urgent thing after the disaster happens is to rescue survivors trapped in the ruins. However, in disaster relief, rescuers have a very short time to find survivors in the ruins of collapsed buildings. Studies have shown that if these survivors are not effectively rescued within 48 hours, the chance of survival is almost zero. The complex dangerous disaster site brings huge security threat to the rescue workers and survivors, and can also prevent the rescue work from being carried out quickly and effectively. Therefore, some rescue robots specially adapted to rescue work in such disasters have appeared in the prior art, for example, patent of invention with publication number CN106695769B discloses a snake-shaped rescue robot, which can autonomously travel on the rescue site to complete the rescue task after disaster due to terrain adaptability and motion flexibility, but after a disaster, the robot is often accompanied by a secondary disaster, and often cannot be moved and flicked by a heavy object due to collapse and the like in the secondary disaster.

in order to solve the problems, the invention provides a passive separation type snake-shaped robot which can realize various actions such as winding, advancing, retreating and the like, meanwhile, when a building collapses and is pressed by gravity, a pressed part can be separated from a main body by itself, an un-pressed part continues to work under the belt of a snake head, and a disaster scene is transmitted to rescuers through a miniature camera, so that the rescue work efficiency is improved.

Disclosure of Invention

The invention aims to provide a passive separated snake-shaped robot, wherein after partial sections of the snake-shaped robot are compressed, the compressed part of the snake-shaped robot can be separated from a main body by self, so that the main body part can continuously complete a rescue task.

The invention relates to a passive separation type snake-shaped robot, which comprises:

A head including a head housing, and a control unit, an external environment detection unit, and a battery unit provided to the head housing;

the body part comprises a plurality of separable joint modules which are sequentially connected to form a chain structure and joint driving motors arranged between every two adjacent separable joint modules;

the separable joint module comprises a module I, a module II and a connecting assembly; the front end of the module I is provided with a motor mounting seat for fixedly mounting the joint driving motor body, and the rear end of the module I is provided with a circular connecting boss; a plurality of hemispherical grooves are uniformly distributed on the connecting boss along the circumferential direction; the front end of the module II is provided with a convex ring which can be matched with the connecting boss, and the rear end of the module II is provided with a mounting hole which is in transmission connection with an output shaft of a rear joint driving motor; through holes which are in one-to-one correspondence with the hemispherical grooves are uniformly distributed in the circumferential direction of the convex ring; the connecting assembly comprises a hoop sleeved on the convex ring, a steel ball and a spring, wherein the steel ball and the spring are positioned in the through hole; one end of the spring is fixedly connected to the inner wall of the hoop, and the other end of the spring is fixedly connected to the steel ball and can press the steel ball into the hemispherical groove.

Furthermore, the outer surfaces of the head part and the body part are covered with silica gel layers; the silica gel layer is distributed with anti-skid bulges;

further, the motor mounting seat is a clamping groove arranged at the front end of the module I;

Further, the outer diameter of the connecting boss is gradually increased from the front end to the rear end;

furthermore, the hoop comprises two hoop half bodies of semicircular ring structures which are hinged with each other, and spring mounting holes which correspond to the springs one by one are uniformly distributed on the inner wall of the hoop half bodies along the circumferential direction;

Further, the battery supplies power to each joint driving motor through a contact line.

the invention has the beneficial effects that: this snake-shaped robot can realize wriggling to advance, multiple actions such as retreat, every joint module of the snake body is connected by connecting device, when the building collapses and receives the gravity oppression, by that partial stop motion of oppression, not continue the motion by the oppression part, transmission power, make spring among the connecting device drive steel ball and spherical groove break away from, by oppression part and whole separation, termination work, not by the oppression part continue work under the area of snake head is led, through miniature camera head, transmit the disaster scene for the rescue personnel, improve rescue work efficiency.

Drawings

FIG. 1 is a schematic view of the overall structure of the snake robot of the present invention;

FIG. 2a is a top view of a serpentine robot head of the present invention;

FIG. 2b is a front view of a serpentine robot head of the present invention;

FIG. 3 is a schematic view of a detachable joint module according to the present invention;

FIG. 4 is a schematic diagram of module I of the present invention;

FIG. 5 is a schematic diagram of module II of the present invention;

FIG. 6 is a cross-sectional view of the connection assembly of the present invention;

Fig. 7 is a schematic view of the hoop of the present invention.

Reference numerals: the camera comprises a snake head 1, a joint driving motor 2, a separable joint module 3, a micro camera 1-1, a head shell 1-2, a control unit 1-3, a battery unit 1-4, a module I3-1, a connecting assembly 3-2, a module II 3-3, a hemispherical groove 3-1, a connecting boss 3-1-2, a motor mounting seat 3-1-3, a hoop 3-2-1, a spring 3-2-2, a steel ball 3-2-3, a convex ring 3-3-1, a through hole 3-3-2 and a mounting hole 3-3-3.

Detailed Description

the passive split type snake robot according to the present invention will be described in further detail with reference to examples.

as shown in fig. 1, a passive split type snake robot of the present embodiment includes:

A head including a head case 1-2 and a control unit 1-3, an external environment detection unit and a battery unit 1-4 provided to the head case 1-2; as shown in fig. 2, the head casing 1-2 is a cover-shaped structure, and the front end surface of the head casing is provided with a miniature camera 1-1 used as an external detection unit, so that an image of a disaster relief site can be transmitted back to a monitoring center, and rescue personnel can conveniently make a rescue plan; of course, the detection unit is not limited to a visual detector such as a camera, and other existing detection devices such as distance, force sense and hearing can be carried according to requirements. A control unit 1-3 and a battery unit 1-4 are arranged in the head shell 1-2, the control unit 1-3 controls the action of the whole robot, the battery unit 1-4 provides a necessary power source for the operation of the snake-shaped robot, and the mechanical and circuit structures of the snake-shaped robot adopt the prior art and are not described again;

The body part comprises a plurality of separable joint modules 3 which are sequentially connected to form a chain structure and joint driving motors 2 arranged between every two adjacent separable joint modules 3; the joint driving motor 2 is used for driving the two adjacent separable joint modules 3 to rotate relatively, so that the whole snake-shaped robot can realize various actions such as winding advancing, retreating and the like.

The separable joint module 3 comprises a module I3-1, a module II 3-3 and a connecting assembly 3-2; as shown in fig. 4, the front end of the module i 3-1 is provided with a motor mounting seat 3-1-3 for fixedly mounting the body of the joint driving motor 2, and the rear end of the module i 3-1 is provided with a circular connecting boss 3-1-2 (herein, "front end" refers to one end facing the head, and the other end is "rear end"); four hemispherical grooves are uniformly distributed on the connecting boss 3-1-2 along the circumferential direction; as shown in fig. 5, a convex ring 3-3-1 which can be matched with the connecting boss 3-1-2 is arranged at the front end of the module ii 3-3 (namely, the inner diameter of the convex ring 3-3-1 is larger than the outer diameter of the boss 3-1-2), a mounting hole 3-3-3 which is in transmission connection with the output shaft of the following joint driving motor 2 is arranged at the rear end of the module ii 3-3, the mounting hole 3-3-3 can adopt an inner tooth-shaped hole, and the output shaft of the joint driving motor 2 is processed into a tooth shape and is in transmission connection with the mounting hole 3-3-3 through the tooth shape; four through holes 3-3-2 which correspond to the hemispherical grooves one by one are uniformly distributed in the convex ring 3-3-1 along the circumferential direction; as shown in fig. 6, the connecting assembly 3-2 includes a hoop 3-2-1 sleeved on the convex ring 3-3-1, a steel ball 3-2-3 and a spring 3-2-2 in the through hole 3-3-2; one end of the spring 3-2-2 is fixedly connected with the inner wall of the hoop 3-2-1, the other end of the spring 3-2-2 is fixedly connected with the steel ball 3-2-3 and can press the steel ball 3-2-3 into the hemispherical groove 3-1-1, when the spring is installed, the four through holes 3-3-2 on the convex ring 3-3-1 are opposite to the four hemispherical grooves 3-1-1 on the boss 3-1-2, then the steel ball 3-2-3 and the spring 3-2-2 are arranged into the four through holes 3-3-2, finally the convex ring 3-3-1 is hooped by the hoop 3-2-1, the through hole 3-3-2 is sealed, the spring 3-2-2 is compressed, and at the same time, the outer end of the spring 3-2-2 can be clamped into the spring 3-2-2 seat to be connected with the clamp, the compressed spring 3-2-2 pushes the steel ball 3-2-3 to be embedded into the hemispherical groove 3-1-1, and the spring 3-2-2 and the steel ball 3-2-3 can be used as a pin to connect the convex ring 3-3-1 and the boss 3-1-2 with each other; when the building collapses and is pressed by gravity, the pressed part stops moving, the non-pressed part continues moving, the through hole 3-3-2 of the convex ring 3-3-1 and the groove of the boss 3-1-2 generate a relative staggered trend, so that the steel ball 3-2-3 generates a trend of exiting the hemispherical groove 3-1-1, when the steel ball exceeds the pressing force of the spring 3-2-2, the steel ball 3-2-3 overcomes the pressing force of the spring 3-2-2 and is separated from the hemispherical groove 3-1-1, the pressed part is separated from the whole, and the work is stopped. The non-pressed part continues to work under the belt of the snake head 1. Of course, the tension required for the separation of the separable joint module 3 can be adjusted by replacing the springs 3-2-2 of different stiffness.