CN105534416A

CN105534416A - Self-adaption traveling mechanism for floor sweeping robot

Info

Publication number: CN105534416A
Application number: CN201610055737.2A
Authority: CN
Inventors: 曾胜兴
Original assignee: Suzhou Hongqirui Automation Co Ltd
Current assignee: Suzhou Hongqirui Automation Co Ltd
Priority date: 2016-01-27
Filing date: 2016-01-27
Publication date: 2016-05-04
Anticipated expiration: 2036-01-27
Also published as: CN105534416B

Abstract

The invention relates to a self-adaption traveling mechanism for a floor sweeping robot. The mechanism comprises a traveling control module (6) and a traveling mechanism body arranged on the lower surface of a floor sweeping robot body (1), the traveling mechanism body comprises four or more sub traveling mechanism bodies, and each sub traveling mechanism body comprises a differential level rod (2) with the preset length, a rotation motor (4), a speed sensor (5) and two electric wheels (3). Based on the technical scheme of the self-adaption traveling mechanism, all the mentioned devices are connected, so that the self-adaption traveling mechanism for the floor sweeping robot is formed, the passing ability of the floor sweeping robot in the traveling process is greatly improved, sweeping in the larger scope can be achieved, and sweeping work efficiency of the floor sweeping robot is effectively guaranteed.

Description

A kind of sweeping robot self adaptation walking mechanism

Technical field

The present invention relates to a kind of sweeping robot self adaptation walking mechanism, belong to Smart Home technical field.

Background technology

Along with the development of science and technology level and improving constantly of people's living standard, increasing household electrical appliance are just towards intelligentized future development, such as in the last few years, sweeping robot has been there is in increasing family, it can when without the need to any control, automatically clean for ground, and along with improving constantly of sweeping robot utilization rate, mend gene also constantly does for existing sweeping robot in manufacturer, such as the patent No.: 201320537462.8; Disclose a kind of sweeping robot, comprise main frame and dirt box, main frame is provided with cavity, dirt box is embedded in described cavity, the ash inlet of dirt box and the dust channel ash hole correspondence of main frame are arranged, on the sidewall of cavity, be positioned at the two ends place of dust channel ash hole, an optical signal transmitter is set respectively and for exporting dust concentration signal to one first optical signal receiver of control unit; And dirt box is transparent material.The sweeping robot of technique scheme design, by dust concentration sensor setting in cavity side walls, user can cleaning of the photocell of dust sensor and the light-passing board of light receiving element when cleaning dirt box simultaneously, solves the problem that prior art effectively cannot clean dust sensor light-passing board.

Also has number of patent application: 201410752789.6, disclose a kind of Intelligent robot for sweeping floor, comprise: the multiple obstacle sensors arranged with preset pitch, and each described obstacle sensor correspondence arranges a steering angle, when obstacle sensor is triggered, the angle that robot carries out the turning to steering angle corresponding with the obstacle sensor that this is triggered associates.The sweeping robot of technique scheme design, the steering angle that when barrier being detected, its angle turned to and the obstacle sensor be triggered are preset associates, thus can optimize robot motion path, raising cleaning efficiency.

Moreover, the patent No.: 201520042353.8, disclose a kind of sweeping robot, this sweeping robot comprises: sweeping robot body, described sweeping robot body comprises shell, limit brush assemblies, drive motors and elastic construction, described limit brush assemblies is located at the bottom of described shell, described drive motors is connected with described limit brush assemblies and for driving described limit brush assemblies to rotate around the rotation of described limit brush assemblies, described elastic construction is arranged to flexibly compress described limit brush assemblies downwards.The sweeping robot of technique scheme design, its robot body can extend limit and brush service life, effectively cleans ground, thus improves cleaning effect.

From above-mentioned prior art, the development of existing sweeping robot is with rapid changepl. never-ending changes and improvements, function is also being updated with perfect, operate also more intelligent, but existing sweeping robot is in the application process of reality, still there is a little weak point, such as existing sweeping robot is constantly being pursued on exquisite small and exquisite direction, the volume of product itself is constantly done little, can more narrow space be adapted to, this wherein espespecially pastes ground property, need to adopt less road wheel to realize the movement of product, but this kind of design direction, have a strong impact on the property passed through of existing sweeping robot, namely just cannot pass through once the object running into some relatively high points, such as carpet etc., existing sweeping robot is just difficult to pass through, and then cannot clean for carpet surface.

Summary of the invention

For above-mentioned technical problem, technical problem to be solved by this invention is to provide a kind of sweeping robot self adaptation walking mechanism, have employed the structural design of brand-new walking mechanism, and introduce Intelligent Measurement, Based Intelligent Control structure, can greatly improve sweeping robot by property, ensure the operating efficiency of sweeping robot.

The present invention is in order to solve the problems of the technologies described above by the following technical solutions: the present invention devises a kind of sweeping robot self adaptation walking mechanism, comprises the walking mechanism being arranged at sweeping robot body lower surface; Also comprise travelling control module; Described walking mechanism comprises at least four sub-walking mechanisms, each sub-walking mechanism array distribution is arranged on the lower surface of sweeping robot body, wherein, each sub-walking mechanism comprises the poor position bar of preset length, rotary electric machine, velocity sensor and two Electric Motor Wheel respectively; Rotary electric machine in each sub-walking mechanism is connected with travelling control module respectively with velocity sensor; Travelling control module is connected with the power end in sweeping robot body, and power end is respectively rotary electric machine in each sub-walking mechanism through travelling control module and velocity sensor is powered; Each Electric Motor Wheel in each sub-walking mechanism is connected with the control end in sweeping robot body; In each sub-walking mechanism, the end of rotary electric machine drive rod is fixedly connected with the middle part of corresponding difference position bar, and rotary electric machine drive rod place straight line is perpendicular with difference bar place, position straight line; In each sub-walking mechanism, rotary electric machine is fixedly installed on the position at the corresponding sub-walking mechanism place of sweeping robot body lower surface, and difference position bar place straight line and sweeping robot body direction of travel place straight line is coplanar in each sub-walking mechanism, in each sub-walking mechanism difference position bar correspondence connect the control of rotary electric machine under swing; Two Electric Motor Wheel in each sub-walking mechanism are connected to the two ends of corresponding difference position bar, and are positioned at the below at corresponding difference bar two ends, position, and the face, place of two Electric Motor Wheel is coplanar, and this is coplanar parallels with sweeping robot body direction of travel place straight line; Along sweeping robot body direction of travel, the velocity sensor in each sub-walking mechanism is arranged in the Electric Motor Wheel at rear.

As a preferred technical solution of the present invention: the rotary electric machine in each sub-walking mechanism described is brushless rotary motor.

As a preferred technical solution of the present invention: in each sub-walking mechanism described, each Electric Motor Wheel is brushless electric machine driving wheel.

As a preferred technical solution of the present invention: described travelling control module is single-chip microcomputer.

As a preferred technical solution of the present invention: in each sub-walking mechanism described, the length of difference position bar is 3 times of Electric Motor Wheel diameter to 4 times.

As a preferred technical solution of the present invention: the poor position bar in each sub-walking mechanism described adopts aluminum alloy materials to make.

A kind of sweeping robot self adaptation walking mechanism of the present invention adopts above technical scheme compared with prior art, has following technique effect:

(1) the sweeping robot self adaptation walking mechanism of the present invention's design, for each sub-walking mechanism of existing sweeping robot body lower surface, devise brand-new electric control structure, by designed Intelligent Measurement structure, Intelligent Measurement is realized for the ground barrier of sweeping robot direction of travel, and the Based Intelligent Control structure designed by combining, the swing of difference position bar in each sub-walking mechanism of Based Intelligent Control, before and after utilizing in each sub-walking mechanism, Electric Motor Wheel is with the design of high and low position difference under the bar weave control of difference position, can effectively improve for height walking surface grab ground effect, substantially increase the property passed through in sweeping robot walking process, wider cleaning can be realized, effectively ensure that the cleaning works efficiency of sweeping robot,

(2) in the sweeping robot self adaptation walking mechanism that the present invention designs, for the rotary electric machine in each sub-walking mechanism, further design adopts brushless rotary motor, and for each Electric Motor Wheel in each sub-walking mechanism, further design adopts brushless electric machine driving wheel, the sweeping robot self adaptation walking mechanism that the present invention is designed is in practical work process, quiet work can be realized, both ensure that designed sweeping robot self adaptation walking mechanism had cross-country traveling ability, can ensure that again its course of work does not impact surrounding environment, embody the human oriented design in design process,

(3) in the sweeping robot self adaptation walking mechanism that the present invention designs, for designed travelling control module, further design adopts single-chip microcomputer, the expansion demand of later stage for sweeping robot self adaptation walking mechanism can be applicable on the one hand, on the other hand, succinct control architecture mode can be convenient to the maintenance in later stage;

(4) in the sweeping robot self adaptation walking mechanism that the present invention designs, for the poor position bar in each sub-walking mechanism, further design adopts aluminum alloy materials to make, while the bar high strength of guarantee difference position, effectively control the weight of poor position bar, ensure that the portability of sweeping robot.

Accompanying drawing explanation

Fig. 1 is the structural representation that the present invention designs sweeping robot self adaptation walking mechanism;

Fig. 2 is the side-looking structural representation that the present invention designs sweeping robot self adaptation walking mechanism neutron walking mechanism.

Wherein, 1. sweeping robot body, 2. differs from a bar, 3. Electric Motor Wheel, 4. rotary electric machine, 5. velocity sensor, 6. travelling control module.

Detailed description of the invention

Be described in further detail for the specific embodiment of the present invention below in conjunction with Figure of description.

As shown in Figure 1, a kind of sweeping robot self adaptation walking mechanism of the present invention's design, comprises the walking mechanism being arranged at sweeping robot body 1 lower surface; Also comprise travelling control module 6; Described walking mechanism comprises at least four sub-walking mechanisms, each sub-walking mechanism array distribution is arranged on the lower surface of sweeping robot body 1, wherein, as shown in Figure 2, each sub-walking mechanism comprises the poor position bar 2 of preset length, rotary electric machine 4, velocity sensor 5 and two Electric Motor Wheel 3 respectively; Rotary electric machine 4 in each sub-walking mechanism is connected with travelling control module 6 respectively with velocity sensor 5; Travelling control module 6 is connected with the power end in sweeping robot body 1, and power end is respectively rotary electric machine 4 in each sub-walking mechanism through travelling control module 6 and velocity sensor 5 is powered; Each Electric Motor Wheel 3 in each sub-walking mechanism is connected with the control end in sweeping robot body 1; In each sub-walking mechanism, the end of rotary electric machine 4 drive rod is fixedly connected with the middle part of corresponding difference position bar 2, and rotary electric machine 4 drive rod place straight line is perpendicular with difference bar 2 place, position straight line; In each sub-walking mechanism, rotary electric machine 4 is fixedly installed on the position at the corresponding sub-walking mechanism place of sweeping robot body 1 lower surface, and difference position bar 2 place straight line and sweeping robot body 1 direction of travel place straight line is coplanar in each sub-walking mechanism, in each sub-walking mechanism difference position bar 2 correspondence connect the control of rotary electric machine 4 under swing; Two Electric Motor Wheel 3 in each sub-walking mechanism are connected to the two ends of corresponding difference position bar 2, and be positioned at the below at corresponding difference bar 2 two ends, position, and the face, place of two Electric Motor Wheel 3 is coplanar, this is coplanar parallels with sweeping robot body 1 direction of travel place straight line; Along sweeping robot body 1 direction of travel, the velocity sensor 5 in each sub-walking mechanism is arranged in the Electric Motor Wheel 3 at rear.The sweeping robot self adaptation walking mechanism of technique scheme design, for each sub-walking mechanism of existing sweeping robot body 1 lower surface, devise brand-new electric control structure, by designed Intelligent Measurement structure, Intelligent Measurement is realized for the ground barrier of sweeping robot direction of travel, and the Based Intelligent Control structure designed by combining, the swing of difference position bar 3 in each sub-walking mechanism of Based Intelligent Control, before and after utilizing in each sub-walking mechanism, Electric Motor Wheel 3 is with the design of high and low position difference under bar 2 weave control of difference position, can effectively improve for height walking surface grab ground effect, substantially increase the property passed through in sweeping robot walking process, wider cleaning can be realized, effectively ensure that the cleaning works efficiency of sweeping robot.

On basis based on above-mentioned design sweeping robot self adaptation walking mechanism technical scheme, the present invention also devises following optimal technical scheme further: for the rotary electric machine 4 in each sub-walking mechanism, further design adopts brushless rotary motor, and for each Electric Motor Wheel 3 in each sub-walking mechanism, further design adopts brushless electric machine driving wheel, the sweeping robot self adaptation walking mechanism that the present invention is designed is in practical work process, quiet work can be realized, both ensure that designed sweeping robot self adaptation walking mechanism had cross-country traveling ability, can ensure that again its course of work does not impact surrounding environment, embody the human oriented design in design process, and for designed travelling control module 6, design adopts single-chip microcomputer further, and can be applicable to the expansion demand of later stage for sweeping robot self adaptation walking mechanism on the one hand, on the other hand, succinct control architecture mode can be convenient to the maintenance in later stage, in addition, for the poor position bar 2 in each sub-walking mechanism, design adopts aluminum alloy materials to make further, while bar 2 high strength of guarantee difference position, effectively controls the weight of poor position bar 2, ensure that the portability of sweeping robot.

The sweeping robot self adaptation walking mechanism of the present invention's design, in the middle of actual application, comprises the walking mechanism being arranged at sweeping robot body 1 lower surface; Also comprise single-chip microcomputer; Described walking mechanism comprises at least four sub-walking mechanisms, each sub-walking mechanism array distribution is arranged on the lower surface of sweeping robot body 1, wherein, each sub-walking mechanism comprises the poor position bar 2 of preset length, brushless rotary motor, velocity sensor 5 and two brushless electric machine driving wheels respectively; In each sub-walking mechanism, the length of difference position bar 2 is 3 times of brushless electric machine driving wheel diameter to 4 times, and difference position bar 2 adopts aluminum alloy materials to make; Brushless rotary motor in each sub-walking mechanism is connected with single-chip microcomputer respectively with velocity sensor 5; Single-chip microcomputer is connected with the power end in sweeping robot body 1, and power end is respectively brushless rotary motor in each sub-walking mechanism through single-chip microcomputer and velocity sensor 5 is powered; Each brushless electric machine driving wheel in each sub-walking mechanism is connected with the control end in sweeping robot body 1; In each sub-walking mechanism, the end of brushless rotary motor drive rod is fixedly connected with the middle part of corresponding difference position bar 2, and brushless rotary motor drive rod place straight line is perpendicular with difference bar 2 place, position straight line; In each sub-walking mechanism, brushless rotary motor is fixedly installed on the position at the corresponding sub-walking mechanism place of sweeping robot body 1 lower surface, and difference position bar 2 place straight line and sweeping robot body 1 direction of travel place straight line is coplanar in each sub-walking mechanism, in each sub-walking mechanism difference position bar 2 correspondence connect the control of brushless rotary motor under swing; Two brushless electric machine driving wheels in each sub-walking mechanism are connected to the two ends of corresponding difference position bar 2, and be positioned at the below at corresponding difference bar 2 two ends, position, and the face, place of two brushless electric machine driving wheels is coplanar, this is coplanar parallels with sweeping robot body 1 direction of travel place straight line; Along sweeping robot body 1 direction of travel, the velocity sensor 5 in each sub-walking mechanism is arranged on the brushless electric machine driving wheel at rear.In the middle of actual application, first initialize for being arranged at each sub-walking mechanism of sweeping robot body 1 lower surface, brushless rotary motor work in each sub-walking mechanism of Single-chip Controlling, make poor position bar 2 in each sub-walking mechanism under the control of corresponding brushless rotary motor, on difference position bar 2, the position, one end of corresponding sweeping robot body 1 direction of travel is higher than its other end position, the difference in height laid respectively in each sub-walking mechanism between two brushless electric machine driving wheels at bar 2 two ends, poor position is made to be brushless electric machine driving wheel diameter 1/2, namely the difference in height in each sub-walking mechanism between front and two brushless electric machine driving wheels at rear is brushless electric machine driving wheel diameter 1/2, form the initial angle of difference position bar 2 in each sub-walking mechanism thus, in application, rotate under being arranged at the control of two the brushless electric machine driving wheels control end in sweeping robot body 1 in each sub-walking mechanism of sweeping robot body 1 lower surface, simultaneously, velocity sensor 5 in each sub-walking mechanism detects the velocity of rotation of corresponding brushless electric machine driving wheel in sub-walking mechanism in real time, and is uploaded in real time in the middle of single-chip microcomputer, when sweeping robot is placed on the ground, now, in each sub-walking mechanism, rear brushless electric machine driving wheel and ground touch, move along direction of travel under the rotation of sweeping robot body 1 rear brushless electric machine driving wheel in each sub-walking mechanism, barrier is there is on the ground of sweeping robot direction of advance, and the difference in height on the relative ground of barrier is brushless electric machine driving wheel diameter 1/3 to 1/2, now, sweeping robot continues to move along its direction of travel, due to lay respectively at bar 2 two ends, poor position in each sub-walking mechanism two brushless electric machine driving wheels between difference in height be brushless electric machine driving wheel diameter 1/2, therefore, being arranged in each sub-walking mechanism front, its lower surface forefront brushless electric machine driving wheel along sweeping robot body 1 direction of travel can with the movement of sweeping robot, first move to the upper surface of barrier, when in this each sub-walking mechanism, rear brushless electric machine driving wheel contacts with barrier, under the effect of barrier frictional force, in this each sub-walking mechanism, the rotating speed of rear brushless electric machine driving wheel can decrease, the reduction of this rotating speed can be detected by the velocity sensor 5 that corresponding rear brushless electric machine driving wheel is arranged, and be uploaded in the middle of single-chip microcomputer, single-chip microcomputer controls for the brushless rotary motor reduced in sub-walking mechanism corresponding to rotating speed, difference position bar 2 in this sub-walking mechanism is rotated, one end of the corresponding sweeping robot direction of travel of lower pressure reduction position bar 2, namely the front end of pressure reduction position bar 2 is descended, brushless electric machine driving wheel on this end is contacted with the upper surface of barrier, like this, two brushless electric machine driving wheels in this each sub-walking mechanism move respectively on blocking surfaces and floor surface, the rear brushless electric machine driving wheel jointly had an effect in the sub-walking mechanism of drive this each moves on blocking surfaces, continue to move along sweeping robot direction of travel, rear brushless electric machine driving wheel in this each sub-walking mechanism moves to after on blocking surfaces, in this each sub-walking mechanism, the rotating speed of rear brushless electric machine driving wheel returns to initial speed immediately, detected by the velocity sensor 5 that the rising of this rotating speed can be arranged by correspondence, and be uploaded in the middle of single-chip microcomputer, the brushless rotary motor that now single-chip microcomputer rises in corresponding sub-walking mechanism for rotating speed controls, the poor position bar 2 in this each sub-walking mechanism is made to return to initial angle, the surface that all the other each the sub-walking mechanisms being arranged at sweeping robot 1 lower surface equally all move to barrier by above-mentioned moving process is moved, continue to move until whole sweeping robot clears the jumps, substantially increase the property passed through of sweeping robot, wider cleaning can be realized, effectively ensure that the cleaning works efficiency of sweeping robot.

Be explained in detail for embodiments of the present invention in conjunction with Figure of description above, but the present invention is not limited to above-mentioned embodiment, in the ken that those of ordinary skill in the art possess, can also make a variety of changes under the prerequisite not departing from present inventive concept.

Claims

1. a sweeping robot self adaptation walking mechanism, comprises the walking mechanism being arranged at sweeping robot body (1) lower surface; It is characterized in that: also comprise travelling control module (6); Described walking mechanism comprises at least four sub-walking mechanisms, each sub-walking mechanism array distribution is arranged on the lower surface of sweeping robot body (1), wherein, each sub-walking mechanism comprises poor position bar (2) of preset length, rotary electric machine (4), velocity sensor (5) and two Electric Motor Wheel (3) respectively; Rotary electric machine (4) in each sub-walking mechanism is connected with travelling control module (6) respectively with velocity sensor (5); Travelling control module (6) is connected with the power end in sweeping robot body (1), and power end is respectively rotary electric machine (4) in each sub-walking mechanism through travelling control module (6) and velocity sensor (5) is powered; Each Electric Motor Wheel (3) in each sub-walking mechanism is connected with the control end in sweeping robot body (1); In each sub-walking mechanism, the end of rotary electric machine (4) drive rod is fixedly connected with the middle part of corresponding difference position bar (2), and rotary electric machine (4) drive rod place straight line is perpendicular with difference bar (2) place, position straight line; In each sub-walking mechanism, rotary electric machine (4) is fixedly installed on the position at the corresponding sub-walking mechanism place of sweeping robot body (1) lower surface, and difference position bar (2) place straight line and sweeping robot body (1) direction of travel place straight line is coplanar in each sub-walking mechanism, in each sub-walking mechanism difference position bar (2) correspondence connect the control of rotary electric machine (4) under swing; Two Electric Motor Wheel (3) in each sub-walking mechanism are connected to the two ends of corresponding difference position bar (2), and be positioned at the below at corresponding difference bar (2) two ends, position, and the face, place of two Electric Motor Wheel (3) is coplanar, this is coplanar parallels with sweeping robot body (1) direction of travel place straight line; Along sweeping robot body (1) direction of travel, the velocity sensor (5) in each sub-walking mechanism is arranged in the Electric Motor Wheel (3) at rear.

2. a kind of sweeping robot self adaptation walking mechanism according to claim 1, is characterized in that: the rotary electric machine (4) in each sub-walking mechanism described is brushless rotary motor.

3. a kind of sweeping robot self adaptation walking mechanism according to claim 1, is characterized in that: in each sub-walking mechanism described, each Electric Motor Wheel (3) is brushless electric machine driving wheel.

4. a kind of sweeping robot self adaptation walking mechanism according to claim 1, is characterized in that: described travelling control module (6) is single-chip microcomputer.

5. a kind of sweeping robot self adaptation walking mechanism according to claim 1, is characterized in that: in each sub-walking mechanism described, the length of difference position bar (2) is 3 times of Electric Motor Wheel (3) diameter to 4 times.

6. a kind of sweeping robot self adaptation walking mechanism according to claim 1, is characterized in that: poor position bar (2) in each sub-walking mechanism described adopts aluminum alloy materials to make.