WO2017143565A1

WO2017143565A1 - Combat robot

Info

Publication number: WO2017143565A1
Application number: PCT/CN2016/074569
Authority: WO
Inventors: 王建军
Original assignee: 深圳市创客工场科技有限公司
Priority date: 2016-02-25
Filing date: 2016-02-25
Publication date: 2017-08-31
Also published as: CN106794577A; CN106794577B

Abstract

A combat robot (100), comprising a base (10), a driving mechanism (20), a control assembly (50) and an adaptation assembly; the base (10) comprises a body (11) and roller wheels (12); the body (11) comprises a chassis (111) and a hood (117) provided relative to the chassis (111); the driving mechanism (20) drives the roller wheels (12) to rotate, so as to move the body (11); the control assembly (50) controls the driving mechanism (20) to operate; the hood (117) comprises a front cover (118) and a rear cover (119) provided relative to the front cover (118); both the front cover (118) and the rear cover (119) are fixed onto the chassis (111) and together cover the driving mechanism (20) and the control assembly (50); the front cover (118) comprises a first opening end (118a) facing the rear cover (119), and the rear cover (119) is provided with a second opening end (119a) facing the front cover (118); and the adaptation assembly comprises a first magnet (118b) fixed to the first opening end (118a) and a second magnet (119b) fixed to the second opening end (119a), the first magnet (118b) and the second magnet (119b) being fixed to each other by means of magnetic force.

Description

Battle robot

Technical field

The present invention relates to the field of machine equipment, and more particularly to a combat robot.

Background technique

Many battle robots can now simulate actual combat scenarios and can be used for combat drills or fun games. Traditional battle robots include a body and a roller that drives the body to walk, as well as a turret that is fixed to the body. The traditional battle robot usually includes a bottom cover, a roller and a driving mechanism mounted on the bottom cover, a main board and a control component fixed to the bottom cover, and a top cover that is covered with the bottom cover. The roller is rotatably connected to the bottom cover, and the driving mechanism is driven. When the roller rotates, the top cover covers the main board, the control component and the drive mechanism, so that the traditional battle robot has a stable structure and is generally not easily damaged. However, the conventional battle robot has such a structure that the components are not easily disassembled and the function is single, that is, the traditional The matching of the robots is not well adapted.

Summary of the invention

It is an object of the present invention to provide a combat robot that improves adaptability.

In order to solve the above technical problem, the present invention provides a competition robot, wherein the competition robot includes a body, a drive mechanism, a control assembly, and an adapter assembly, the body including a body and a roller, the body including a chassis and The hood provided with respect to the chassis, the roller, the driving mechanism and the control component are all mounted on the chassis, the driving mechanism drives the roller to rotate to drive the body to walk, and the driving mechanism is electrically connected The control assembly controls the operation of the driving mechanism, the hood includes a front cover and a rear cover disposed opposite the front cover, and the front cover and the rear cover are both fixed on the chassis And jointly covering the drive mechanism and the control assembly, the front cover includes a first open end facing the rear cover, and the rear cover is provided with a second open end facing the front cover, The adapter assembly includes a first magnet secured to the first open end and a second magnet secured to the second open end, the first magnet and the second magnet being fixed by magnetic force.

Wherein the chassis includes oppositely disposed front ends and rear ends, the rollers including a gimbal roller rotatably coupled to the front end and a unidirectional roller rotatably coupled to the rear end, the direction of rotation of the unidirectional rollers being parallel to The length direction of the chassis.

Wherein, the one-way roller comprises a first roller and a second roller on both sides of the fuselage, and a rotation axis of the first roller and an axis of rotation of the second roller are axially disposed in the same direction, The driving mechanism includes a first motor and a second motor, and the first motor and the second motor respectively drive the first roller And rotating the second roller.

Wherein the competition robot comprises a transmitter fixed to the fuselage and electrically connected to the control component, the control component controlling the transmitter to emit a visible light beam.

Wherein, the battle robot further includes a turret, the turret includes a gun body and a barrel, the gun body is detachably coupled to the outer side of the rear cover, the barrel is fixed to the gun body, and the transmitter is fixed In the gun body, the visible light beam of the emitter is emitted along the inside of the barrel.

Wherein the competition robot comprises a visible light sensor fixed to the fuselage and electrically connected to the control component, the control component controlling the visible light sensor to receive a visible light beam.

Wherein, the visible light sensor comprises a photosensitive surface, the photosensitive surface is parallel to the chassis, the photosensitive surface faces away from the chassis, and the competition robot further comprises a light guiding member, wherein the light guiding member is fixed at the In the body, the light guiding member includes a reflective surface corresponding to the photosensitive surface, the reflective surface is conical, and the axial direction is perpendicular to the photosensitive surface.

Wherein the competition robot further comprises a wireless communication component electrically connected to the control component and fixed to a small end of the fuselage, the wireless communication component being used between two of the combat robots Intercommunicating with each other or between the competing robot and an external device, the wireless communication component communicating a communication signal to the control component.

The wireless communication component includes a terminal device communication module and a 2.4G wireless communication module, and the terminal device communication module is electrically connected to the control component for transmitting and receiving signals to the terminal device, where the 2.4G wireless communication module is electrically connected. The control component is configured to send and receive signals to another of the combat robots.

The feedback mechanism further includes an indication light source electrically connected to the control component, and the control component controls the indicator light source to emit light to indicate an operating state of the competition robot.

The competition robot provided by the present invention includes a front cover and a rear cover disposed opposite to the front cover, and the first magnet that is fixed to the first open end by the adapting assembly, and is fixed to the a second magnet of the second open end, the first magnet and the second magnet being fixed by magnetic force such that the back cover is detachable from the front cover, and the front cover can utilize the first The magnet is adapted to the other cover plates, so that the structure of the competition robot is stabilized, and at the same time, the magnetic properties of the first magnet of the front cover are matched with other cover plates to realize the multifunctional function of the battle robot. Sexuality, and increase the adaptability of the combat robot.

DRAWINGS

In order to more clearly illustrate the technical solutions of the present invention, the drawings used in the embodiments will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the present invention, which are common in the art. For the skilled person, other drawings can be obtained from these drawings without any creative work.

1 is a schematic view of a competition robot provided by the present invention;

2 is an exploded perspective view of the combat robot of FIG. 1;

Figure 3 is another schematic view of the combat robot of Figure 1;

Figure 4 is a schematic cross-sectional view of the combat robot of Figure 1;

Figure 5 is an enlarged schematic view of a portion V of Figure 4;

Fig. 6 is an enlarged schematic view showing a portion VI of Fig. 4.

detailed description

The technical solutions in the embodiments of the present invention will be clearly and completely described in the following with reference to the accompanying drawings.

Referring to FIG. 1 , FIG. 2 and FIG. 3 together, the present invention provides a combat robot 100. The combat robot 100 includes a body 10, a drive mechanism 20, a launching mechanism 30, a feedback mechanism 40, a control assembly 50, and an adapter assembly (not labeled). The body 10 includes a body 11 and a roller 12 disposed on the body 11. The driving mechanism 20 is fixed to the body 11 and drives the roller 12 to rotate to drive the body 11 to walk. The drive mechanism 20 is electrically coupled to the control assembly 50, which controls the operation of the drive mechanism 20. The launching mechanism 30 includes a transmitter 31 that is fixed to the top end of the fuselage 11 and electrically connected to the control assembly 50, through which the transmitter 31 is controlled to emit a visible light beam. The feedback mechanism 40 includes a visible light sensor 41 that is fixed to the body 11 and electrically connected to the control component 50, and the visible light sensor 41 is controlled by the control component 50 to receive a visible light beam. The body 11 includes a chassis 111 and a hood 117 disposed opposite the chassis 111. The roller 12, the drive mechanism 20, and the control assembly 50 are both mounted on the chassis 111. The hood 117 includes a front cover 118 and a relative The front cover 118 is provided with a rear cover 119, and the front cover 118 and the rear cover 119 are both fixed on the chassis 111, and jointly cover the driving mechanism 20 and the control assembly 50, the front The cover 118 includes a first open end 118a facing the rear cover 119, the rear cover 119 is provided with a second open end 119a facing the front cover 118, and the adapter assembly includes a first open end A first magnet 118b of 118a, and a second magnet 119b fixed to the second open end 119a, the first magnet 118b and the second magnet 119b are fixed by magnetic force.

The hood 117 includes a front cover 118 and a rear cover 119 disposed opposite the front cover 118, and includes, by the adapter assembly, a first magnet 118b fixed to the first open end 118a, and fixed to the a second magnet 119b of the second open end 119a, the first magnet 118b and the second magnet 119b are fixed by magnetic force, so that the rear cover 119 is detachable from the front cover 118, and the front The cover 118 can be adapted to the other cover plates by the first magnets 118b, so that the structure of the competition robot 100 is stabilized while utilizing the magnetic properties of the first magnets 118b of the front cover 118 and other cover plates. The versatility of implementing the competition robot 100 is performed, and the adaptability of the competition robot is increased.

The combat robot 100 also includes a battery (not shown) that provides electrical energy to the drive mechanism 20, launch mechanism 30, feedback mechanism 40, and control assembly 50. The drive mechanism 20 can convert electrical energy into mechanical energy by using a motor to drive the rotation of the roller 12 to drive the combat robot 100 to walk. The emitter 31 of the transmitting mechanism 30 may be an LED light source. After the current of the battery is turned on, the emitter 31 emits a light beam visible to the human eye, thereby realizing that the "cannonball" fired by the combat robot 100 is visible and improved. The battle of the battle robot 100 is intuitive. The visible light sensor 41 of the feedback mechanism 40 can convert the visible light beam into a digital signal when receiving the visible light beam emitted by the other combat robot 100, thereby transmitting the digital signal to the control component 50, and the control component 50 can The drive mechanism 20 is controlled to stop running according to the digital signal to simulate that the combat robot 100 receives an "attack" and stops running. Of course, when the combat robot 100 does not receive an "attack", the control component 50 can control the drive mechanism 20 to drive the combat robot 100 forward or backward, or turn. The competing robot 100 simulates launching a projectile in a mode of emitting a visible light beam, thereby improving the simulation performance of the combat robot 100 and increasing the interest of the combat robot 100.

Further, the body 11 includes a chassis 111 disposed at a bottom end, and the chassis 111 includes a phase For the front end 111a and the rear end 111b, the roller 12 includes a gimbal roller 121 rotatably coupled to the front end 111a and a unidirectional roller 122 rotatably coupled to the rear end 111b. The rotation of the unidirectional roller 122 The direction is parallel to the longitudinal direction of the chassis 111.

In this embodiment, the chassis 111 is a rectangular plate member. Specifically, the inner side surface of the front end 111a is provided with a spherical groove 112, and the bottom end of the spherical groove 112 penetrates the outer side surface of the front end 111a. The gimbal roller 121 is a plastic ball. The gimbal roller 121 is received in the spherical groove 112 and partially exposed on the outer side surface of the front end 111a to realize the rolling of the universal roller 121 on the ground. . The inner side surface of the front end 111a is also fixed with a cover plate 113 covering the spherical recess 112, so that the gimbal roller 121 rotates to the front end 111a of the chassis 111. The rear end 111b is provided with two bearings 113, two of the bearings 113 are respectively adjacent to two sides of the chassis 111, and the roller 12 includes two of the one-way rollers 122, and the two of the one-way rollers 122 The rotating shaft is rotatably coupled to the bearing 113, and the rear end 111b is provided with a through hole 114 at one side of the bearing 113, and the one-way roller 122 is partially exposed to the through hole 114, thereby realizing the one-way The roller 122 rolls on the ground. The universal roller 121 is disposed at the front end 111a of the chassis 111 such that the traveling direction of the body 11 is not limited, and the one-way roller 122 is disposed at the rear end of the chassis 111 such that the body 11 receives a large driving force, which facilitates the walking of the body 11. In other embodiments, the bottom plate 111 can also be tapered. The roller 12 can also include two universal rollers and two one-way rollers.

Further, the one-way roller 122 includes a first roller 122a and a second roller 122b on both sides of the fuselage 11, a rotation axis of the first roller 122a and a rotation axis of the second roller 122b. In the same direction, the driving mechanism 20 includes a first motor 21 and a second motor 22, and the first motor 21 and the second motor 22 respectively drive the first roller 122a and the second roller 122b to rotate. .

In this embodiment, the inner side surface of the rear end 111b is provided with a receiving groove 115, the opening of the receiving groove 115 faces away from the outer side surface of the chassis 111, and the motor bracket 116 is disposed in the receiving groove 115. The first motor 21 and the second electrode 22 are both fixed to the motor bracket 116. Two of the bearings 113 are respectively disposed on two opposite sidewalls of the receiving slot 115, and the driving rotating shaft of the first motor 21 and the driving rotating shaft of the second motor 22 are respectively rotatably connected to the two Bearing 113. Two through holes 114 are respectively disposed at two sides of the pocket 115, so that the first motor 21 is driven The first roller 122a rotates, and the second motor 22 drives the second motor 122b to rotate. Both the first motor 21 and the second motor 22 can achieve forward rotation and reverse rotation. When the first motor 21 and the second motor 22 rotate in the same direction, thereby driving the first roller 122a to rotate in the same direction as the second roller 122b, thereby driving the fuselage 11 forward or Retreating to realize straight running of the combat robot 100; when the first motor 21 and the second motor 22 rotate in different directions, so that the first roller 122a and the second roller 122b rotate in opposite directions, Thereby, the first roller 122a and the second roller 122b collectively apply torque to the body 11, so that the body 11 is turned to realize that the combat robot 100 can turn. It is also possible that the first motor 21 or the second motor 22 operates separately, and it is also possible to drive the body 11 to turn. In other embodiments, the drive mechanism may further include a brake mechanism electrically connected to the control assembly 50, the control assembly 50 controlling the brake mechanism to brake the drive mechanism, In order to realize the competition robot 100, the driving can be stopped urgently.

Further, the battle robot 100 further includes a first transmission mechanism 23 and a second transmission mechanism (not labeled), and the first transmission mechanism 23 is coupled between the first motor 21 and the first roller 122a. For transmitting the first motor 21 torque to the first roller 122a, the second transmission mechanism 24 is coupled between the second motor 22 and the second roller 122b for The second motor 22 is torque-transmitted to the second roller 122b, the first motor 21 and the second motor 22 are arranged side by side, and the driving shaft of the first motor 21 and the driving shaft of the second motor 22 are both The axis of rotation of the first roller 122a is perpendicular.

In this embodiment, the first transmission mechanism 23 and the second transmission mechanism (not shown) are gear transmission groups. Specifically, the first transmission mechanism 23 includes a first gear 231 sleeved on the driving shaft of the first motor 21 and a second gear 232 sleeved on the rotating shaft of the first roller 122a, and A third gear (not labeled) that cooperates with the first gear 231 and the second gear 232 is described. The axial direction of the first gear 231 is perpendicular to the axial direction of the second gear 232, so that the first motor 21 can be offset from the rotation axis of the first roller 122a, thereby avoiding the first motor 21 being opposite. The first roller 21a can stably drive the first roller 122a to rotate, so that the combat robot 100 can stably operate. The second transmission mechanism is the same as the first transmission mechanism 23, and details are not described herein again. In other embodiments, the first transmission mechanism 23 may further include a shift gear set such that the rotational speed of the first roller 122a can be Adjustment.

Further, the hood 117 is capped on the chassis 111, and the control assembly 50 and the driving mechanism 20 are both fixed in the hood 117. The hood 117 has a wedge shape, and the hood The small end 117a of the 117 corresponds to the front end 111a of the chassis 111, and the large end 117b of the hood 117 corresponds to the rear end 111b of the chassis 111.

In this embodiment, the hood 117 is a casing, and the hood 117 includes oppositely disposed small ends 117a and large ends 117b. The hood 117 further includes a receiving cavity 117c, and the opening of the receiving cavity 117c faces the chassis 111. The control component 50 is fixed to the circuit board of the chassis 111, and the hood 117 covers the control component 50 and the motor bracket 116, so that the control component 50 and the driving mechanism 20 are accommodated in the The hood 117 protects the control assembly 50 and the motor bracket 116 in the housing chamber 117c. The small end 117a of the hood 117 corresponds to the front end 111a of the chassis 111, and the large end 117b of the hood 117 corresponds to the rear end 111b of the chassis 111, so that the body 117 is moving forward. At the same time, less resistance can be obtained, thereby improving the running performance of the combat robot 100. In other embodiments, the hood 117 may also be a wedge shape with small ends and a large middle.

Further, the battle robot 100 further includes a turret 60. The turret 60 includes a gun body 61 and a barrel 62. The gun body 61 is detachably coupled to the large end of the hood 117, and the barrel 62 is fixed. In the gun body 61, the emitter 31 is fixed in the gun body 61, and the visible light beam of the emitter 31 is emitted along the inner side of the barrel 62.

Specifically, the transmitting mechanism 30 further includes a solid driving circuit board 32, and the driving circuit board 32 and the transmitter 31 are both fixed in the gun body 61, and the driving circuit board 32 drives the The emitter 31 emits a visible light beam, and the emitter 31 may be an LED light. The driving circuit board 32 can be connected to the control component 50 by a cable, and the control component 50 can be disposed on the main board. The emitter 31 emits a visible light beam toward the end of the barrel 62 away from the body 61. A convex lens 621 may be disposed at an end of the barrel 62 away from the gun body 61 to facilitate concentrating the visible light beam emitted by the emitter 31 to facilitate viewing of the visible light beam. When the control component 50 sends a transmission command to the driving circuit board 32, the driving circuit board 32 sends a pulse signal to the transmitter 31 according to the transmission instruction, thereby driving the transmitter 31 to emit a visible light beam to realize The competing robot 100 simulates the launch of a "cannonball." In this embodiment, the turret 60 Fixed to the rear cover 119, the turret 60 can be detached from the front cover 119 with the back cover 119, so that the turret 60 and the rear cover 119 can be detached from the front cover 118, and The front cover 118 is adapted with another cover plate that is not provided with a turret, thereby enabling the combat robot 100 to perform another function. In other embodiments, the control unit 50 connected to the main board and the main board by the transmitter 31 may also be used.

Further, the hood 117 includes a front cover 118 corresponding to the front end 111a and a rear cover 119 corresponding to the rear end 111b, and the rear cover 119 is detachably coupled to the front cover 118, the rear A turret platform 70 is disposed outside the cover 119, and the turret 60 is detachably coupled to the turret platform 70.

In the present embodiment, the front cover 118 is provided with a first opening 118a facing the rear cover 119, and the rear cover 119 is provided with a second opening 119b facing the front cover 118. The first opening 118a of the front cover 118 and the second opening 119a are covered, so that the front cover 118 and the rear cover 119 form a protective cover to protect the driving mechanism 20 and the control assembly 30, The front cover 118 can be detachably connected to the front cover 118 to facilitate the maintenance of the combat robot 100, and the turret 60 can be detached from the front cover 118, thereby making the battle robot 100 diverse. Chemical. Specifically, the first opening 118a of the front cover 118 is provided with a first magnet 118b, and the second opening 119a of the rear cover 119 is provided with a second magnet 119b. The first magnet 118b and the second magnet 119b are magnetically attracted, so that the rear cover 119 can be fixed to the front cover 118, and the rear cover 119 is conveniently disassembled before the external force. Cover 118. The turret platform 70 is disposed outside the rear cover 119, and the turret platform 70 is snap-connected to the turret 60, so that the turret 60 is secured to the hood 117, and the structure of the combat robot 100 is improved. performance. Specifically, the turret platform 70 is provided with a "U" notch 71 extending through the inner side of the rear cover 119, and the notch 71 passes the cable of the driving circuit board 32 into the hood 117, and The main board is connected to the control unit 50 on the main board. Specifically, the opening of the notch 71 faces the front cover 118. The inner periphery of the notch 71 is provided with a card slot 72. The bottom end of the cannon body 61 is provided with a first terminal (not labeled), and the first terminal is provided with a plurality of conductive pins (not labeled). The conductive pins are used to guide the conductive lines of the driving circuit board 32 into the body 117. A card board (not shown) is disposed around the first terminal, and the card board is snap-fitted into the card slot 72. The body 61 is thus fixedly coupled to the turret platform 70.

In this embodiment, the rear cover 119 is adjacent to the side of the chassis 111 on the turret platform 70. An external port 73 is also provided, and a connector 74 is disposed inside the external port 73. The connector 74 is electrically connected to the control component 50, and the connector 74 can communicate with an external device through a wired data line, or can be powered. The cable charges the battery to input a control command to the control component 50 using an external device, or to supply power to the competing robot using an external device. As an embodiment, the connector 74 is a USB connector.

Further, the rear end 111b is provided with a boss 75 for supporting the turret platform 70. The boss 75 is provided with a sliding slot 76 perpendicular to the card slot 72, and the gun body 61 corresponds to the sliding slot 76. Positioning holes (not shown) are provided, the combat robot 100 further includes a locking assembly including a bayonet 631 slidably coupled to the chute 76 and elastically coupled to the bayonet 631 and the An elastic member (not shown) between the bosses 75 for providing a restoring force to the bayonet 631 to be caught in the positioning hole 62. Specifically, the boss 75 is provided with a second terminal (not labeled) connected to the first terminal 611, and the second terminal is provided with a conductive contact corresponding to the conductive pin. 77. The conductive contact 77 is electrically connected to the control component 50. The chute 76 is located on one side of the second terminal. The positioning hole is located at the side of the first terminal 611, and the latch 631 is inserted into the positioning hole by the elastic member, so that the gun body 61 is snap-fitted to the turret platform. After 70, the gun body 61 is prevented from being disengaged from the fuselage 11 while ensuring that the gun body 61 is electrically connected to the control assembly 50 in the fuselage 11.

Further, please refer to FIG. 2, FIG. 4 and FIG. 6, the visible light sensor 41 includes a photosensitive surface 411, the photosensitive surface 411 is parallel to the chassis 111, and the direction of the photosensitive surface 411 faces away from the chassis. 111, the feedback mechanism 40 includes a light guide 42 fixed to the body 11, the light guide 42 includes a reflective surface 42a corresponding to the photosensitive surface 411, the reflective surface 42a is conical, and the shaft The photosensitive surface 411 is perpendicular to the surface.

In the present embodiment, the visible light sensor 41 is fixed in the gun body 61, and the photosensitive surface 411 is located in the gun body 61. The direction of the photosensitive surface 411 faces away from the chassis 111. Specifically, the top end of the gun body 61 is disposed in the light hole 611 corresponding to the photosensitive surface 411. The light entrance hole 611 guides the visible light beam onto the photosensitive surface 411 by the light guide 42. Specifically, the light guide 42 includes a light-transmitting support portion 421 and a light-reflecting portion 422 fixed to the support portion 421 . The support portion 421 has a cylindrical shape, and one end of the support portion 421 is fixed to the light entrance hole 611 , and an inner side of the support portion 421 is in communication with the light entrance hole 611 . The light reflecting portion 422 is fixed to the support portion The light-receiving portion 422 is conical, the light-reflecting portion 422 is perpendicular to the photosensitive surface 411, and the small end of the light-reflecting portion 422 is adjacent to the photosensitive surface 411. The reflective surface 42 a is disposed on a tapered surface of the light reflecting portion 422 . The reflective surface 42a is conical, so that the visible light beam emitted from any position around the combat robot 100 can be irradiated onto the reflective surface 42a of the light guide 42 and further reflected to the photosensitive surface 411. on. More specifically, the visible light beam around the combat robot 100 passes through the support portion 421 and is irradiated on the reflective surface 42a, and the reflective surface 42a reflects the visible light beam onto the photosensitive surface 411, thereby further The photosensitive surface 411 can receive the visible light beam emitted from any position around the combat robot 100, thereby simulating that the combat robot 100 can receive an "attack" anywhere in the surrounding position, thereby improving the battle simulation of the combat robot 100. Authenticity. The visible light beam is used as the simulated projectile by the emitter 63. On the one hand, the visible light can be directly visible to the user, so that the intuitive sensing performance of the user can be enhanced. On the other hand, the visible light of the emitter 63 is not easy to wear when blocked by the obstruction. The obstruction is passed, thereby preventing the simulated "cannonball" of the emitter 63 from hitting the opponent through the obstruction, thereby causing the visible light of the emitter 63 to simulate the authenticity of the "cannonball". In other embodiments, the support portion 421 may also be a support post fixed between the small end of the light reflecting portion 422 and the photosensitive surface 411.

Further, the competition robot 100 further includes a wireless communication component 80 electrically connected to the control component 40 and fixed to the top end 111a of the backboard 111, and the wireless communication component 80 is used for two The competing robots 100 communicate with each other or the competing robot 100 communicates with an external device, and the wireless communication component 80 transmits a communication signal to the control component 40.

In the embodiment, the wireless communication component 80 is fixed to the top end 111a of the backboard 111 to increase the signal receiving capability and improve the communication capability of the combat robot 100. It can be understood that the external device may be a remote controller, and the remote controller transmits and receives a wireless signal between the remote controller and the wireless communication component 80, so that the remote controller can send and receive control commands to the control component 40, so that the remote control can be remotely controlled. The combat robot 100 is operated, so that the combat robot 100 can be controlled to travel, launch a projectile, evade a cannonball or stop running, thereby simulating the battle of the combat robot 100. The wireless communication component 80 can also perform signal interaction between the two battle robots 100, that is, by connecting the two battle robots 100 to the network, and controlling the operation of the two battle robots 100 through the terminal. The two battle robots 100 can send signals to each other or receive each other. The opponent signal, thereby implementing the simulated battle interaction function of the two battle robots 100. In other embodiments, the wireless communication component 80 can also be disposed at the bottom end of the hood 100.

Further, the wireless communication component 80 includes a terminal device communication module 81 and a 2.4G wireless communication module 82. The terminal device communication module 81 is electrically connected to the control component 40 for transmitting and receiving signals to the terminal device, and the terminal device may Electronic devices such as tablets, laptops, or mobile phones. The 2.4G wireless communication module 82 is electrically connected to the control component 40 for transmitting and receiving signals to another of the competition robots 100. The terminal device communication module 81 can be connected to the WIFI network, so that the terminal device can communicate with the combat robot 100 through the wireless local area network, and then the terminal device can be used to control the operation of the combat robot 100. The wireless local area network is set by the wireless communication component 80, thereby improving the adaptability of the competition robot 100. It can be understood that the plurality of the combat robots 100 can also be integrated into the same wireless network by using the 2.4G wireless communication module 82, so that communication between the plurality of combat robots 100 can be realized, or can be controlled by the terminal device. The battle robot 100 performs an interactive battle. The communication between the terminal device communication module 81 and the 2.4G wireless communication module 82 is mutually independent, and the communication efficiency of the competition robot 100 is improved, so that the operational efficiency of the competition robot 100 is improved.

Further, the feedback mechanism 40 further includes an indication light source 43 electrically connected to the control component 50, and the control component 50 controls the indicator light source 43 to emit light to indicate the operating state of the competition robot 100. . The control component 50 controls the indicator light source 43 to be illuminated or extinguished, thereby indicating the different operating states of the combat robot 100. Specifically, the indicator light source 43 may be an LED expression panel composed of a plurality of LED lamp beads, and the plurality of LED lamps of the indicator light source 43 are controlled by the control component 50 to emit light in different arrangement manners, thereby forming different The pattern, in turn, can indicate the different operating states of the combat robot 100. Specifically, the user may input the LED lamp bead 512 switch signal command to the control component 40, that is, the user arbitrarily edits the arrangement manner of the LED lamp bead 512, so that the LED lamp bead 512 is according to the user's needs. Show a variety of patterns. For example, when the competition robot 100 receives an "attack", the control component 50 may control the indication light source 43 to present a "cry face" pattern to indicate that the competition robot 100 receives an "attack" and cannot continue" a state of combat; when the competing robot 100 is "hit" other competing robots 100, the control component 50 controls the pointing light source 43 to present a "smiley face" pattern to indicate that the competing robot 100 hits other competing robots Get the running state of victory.

The competition robot provided by the present invention includes a front cover and a rear cover disposed opposite to the front cover, and the first magnet that is fixed to the first open end by the adapting assembly, and is fixed to the a second magnet of the second open end, the first magnet and the second magnet being fixed by magnetic force such that the back cover is detachable from the front cover, and the front cover can utilize the first The magnet is adapted to the other cover plates to stabilize the structure of the competition robot, and at the same time, the versatility of the battle robot is realized by the adaptation of the magnetic properties of the first magnet of the front cover to the other cover plates. And increase the adaptability of the battle robot.

The above is 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 is the scope of protection of the present invention.

Claims

A competition robot, characterized in that the competition robot comprises a body, a drive mechanism, a control assembly and an adapter assembly, the body comprising a fuselage and a roller, the fuselage comprising a chassis and a hood disposed opposite the chassis The roller, the driving mechanism and the control component are all mounted on the chassis, the driving mechanism drives the roller to rotate to drive the body to walk, and the driving mechanism electrically connects the control component, the control The assembly controls operation of the drive mechanism, the hood includes a front cover and a rear cover disposed opposite the front cover, the front cover and the rear cover are both fixed to the chassis and collectively cover the drive The mechanism and the control assembly, the front cover includes a first open end facing the rear cover, the rear cover is provided with a second open end facing the front cover, and the adapting assembly includes a fixing to the a first magnet at a first open end, and a second magnet fixed to the second open end, the first magnet and the second magnet being fixed by magnetic force.
A competition robot according to claim 1, wherein said chassis includes oppositely disposed front ends and rear ends, said rollers including a gimbal roller rotatably coupled to said front end and a unidirectional rotation coupled to said rear end a roller, the direction of rotation of the one-way roller being parallel to the length direction of the chassis.
The competition robot according to claim 2, wherein the one-way roller comprises a first roller and a second roller on both sides of the fuselage, a rotation axis of the first roller and the second The rotating shaft of the roller is axially disposed in the same direction, and the driving mechanism includes a first motor and a second motor, and the first motor and the second motor respectively drive the first roller and the second roller to rotate.
A competition robot according to claim 1, wherein said competition robot includes a transmitter fixed to said body and electrically connected to said control unit, said control unit controlling said transmitter A visible beam is emitted.
The battle robot according to claim 4, wherein the competition robot further comprises a turret, the turret includes a gun body and a barrel, and the gun body is detachably coupled to the outside of the rear cover, the barrel Fixed to the gun body, the emitter is fixed in the gun body, and the visible light beam of the emitter is emitted along the inner side of the barrel.
A competition robot according to claim 4, wherein said battle robot package A visible light sensor is secured to the fuselage and electrically coupled to the control assembly, the control assembly controlling the visible light sensor to receive a visible light beam.
The competition robot according to claim 6, wherein the visible light sensor comprises a photosensitive surface, the photosensitive surface is parallel to the chassis, the photosensitive surface faces away from the chassis, and the competition robot further includes a light guiding member, the light guiding member is fixed to the body, the light guiding member comprises a reflecting surface corresponding to the photosensitive surface, the reflecting surface is conical, and the axial direction is perpendicular to the photosensitive surface.
The battle robot according to claim 1, wherein the competition robot further comprises a wireless communication component, the wireless communication component is electrically connected to the control component, and is fixed to a small end of the body, the wireless A communication component is configured to communicate with each other between the two of the competing robots or between the competing robot and an external device, the wireless communication component transmitting a communication signal to the control component.
The battle robot according to claim 8, wherein the wireless communication component comprises a terminal device communication module and a 2.4G wireless communication module, and the terminal device communication module is electrically connected to the control component for transmitting and receiving to the terminal device. The 2.4G wireless communication module is electrically connected to the control component for transmitting and receiving signals to another of the combat robots.
The competition robot according to claim 1, wherein the feedback mechanism further comprises an indication light source electrically connected to the control component, the control component controlling the indication light source to emit light to indicate the competition The operating state of the robot.