CN209108597U - A kind of programming Educational toy robot - Google Patents

Abstract

The utility model provides a kind of programming Educational toy robot, including rack, battery, driving mechanism, mobile mechanism, control mainboard, radio frequency mainboard, induction subplate, the battery, driving mechanism, radio frequency mainboard, induction subplate and control mainboard are electrically connected and are assembled in rack, the rack is installed in mobile mechanism, the control mainboard is equipped with ultrasonic distance-measuring sensor and photosensitive sensor, and the induction subplate is equipped with infrared sensor.The utility model is wirelessly connected mobile terminal or other controllers by radio frequency mainboard, this product is set to realize that tracking light source is moved using photosensitive sensor, preceding object ranging is passed through using ultrasonic distance-measuring sensor, realizing this product can automatic avoiding obstacles, the infrared sensor is for monitoring bottom surface path, to realize that this product can be mobile with automatic seeking diameter.The utility model structure is simple, and product is light, vdiverse in function, and intelligence degree is higher.

Description

A kind of programming Educational toy robot

Technical field

The utility model relates to toy robot fields, more particularly, to a kind of programming Educational toy robot.

Background technique

Nowadays, toy robot may not only be applied to entertainment for children, with information-based, intelligentized continuous development, Intelligent toy robot starts to flourish in children education, field of human-computer interaction already, various high intelligent, structure diversification Toy robot is answered this and is given birth to, also more and more for the demand of intelligent toy robot in the market, thus the prior art is also To be modified and raising.

Utility model content

Place in view of above-mentioned deficiencies of the prior art, the purpose of this utility model is to provide a kind of multi-functional programmings to teach Educate toy robot.

In order to solve the above technical problems, the utility model takes following technical scheme:

A kind of programming Educational toy robot provided by the utility model, including rack, battery, driving mechanism, moving machine Structure, control mainboard, radio frequency mainboard, induction subplate, the battery, driving mechanism, radio frequency mainboard, induction subplate and control mainboard electricity Property connection and be assembled in rack, the rack is installed in mobile mechanism, the control mainboard be equipped with ultrasonic distance measurement Sensor and photosensitive sensor, the induction subplate are equipped with infrared sensor.

Further, the programming Educational toy robot, the induction subplate are set to bottom of the frame, the infrared biography Sensor is set to the bottom of induction subplate.

Further, the programming Educational toy robot, the driving mechanism include motor and motor movement is defeated Transmission mechanism out, the transmission mechanism couple with the motor.

Further, the programming Educational toy robot, the transmission mechanism include main drive wheel, first gear, Second gear, third gear, the 4th gear, the 5th gear and the 6th gear, the main drive wheel and first gear are integrally formed, The second gear and third gear are integrally formed, the 4th gear and the integrated molding of the 5th gear, the main drive wheel, the One gear, second gear, third gear are coaxial, and the 4th gear, the 5th gear, the 6th gear are coaxial, the 4th gear It is engaged with first gear, the 5th gear is engaged with second gear, and the 6th gear is engaged with third gear.

Further, the programming Educational toy robot, further includes shell, and the shell is equipped with switch button, The switch button includes pressing component and connecting component, and the connecting component includes fixing component and linking arm, the connection One end of arm is fixed in fixing component, and the other end of the linking arm is fixedly connected with pressing component.

Further, the programming Educational toy robot, the mobile mechanism include two wheels and at least one Idler wheel component, the idler wheel component include ball and slot rolling, and the ball is installed in slot rolling, and the wheel and idler wheel component are set In the bottom end of programming Educational toy robot, two wheel Parallel Symmetrics settings, the installation position of the idler wheel component with Two wheels are not conllinear.

Further, the programming Educational toy robot, the wheel include wheel hub, wheel rim and spoke, the wheel The axle center of hub is just equipped with round rectangle shape axis hole, and the spoke is made of at least two U-brackets, the opening of the U-bracket End is fixed with wheel rim, and arc bottom end and the wheel hub of the U-bracket are fixed.

Further, the programming Educational toy robot is additionally provided in the control mainboard and starts switch.

Further, the programming Educational toy robot is additionally provided with LED light on the induction subplate.

Further, the programming Educational toy robot, further includes loudspeaker, the loudspeaker is installed in rack Bottom.

Compared to the prior art, a kind of programming Educational toy robot provided by the utility model, including rack, battery, Driving mechanism, mobile mechanism, control mainboard, radio frequency mainboard, induction subplate, the battery, driving mechanism, radio frequency mainboard, induction Subplate and control mainboard are electrically connected and are assembled in rack, and the rack is installed in mobile mechanism, the control mainboard It is equipped with ultrasonic distance-measuring sensor and photosensitive sensor, the induction subplate is equipped with infrared sensor.The utility model is logical It crosses radio frequency mainboard and is wirelessly connected mobile terminal or other controllers, so that this product is realized that tracking light source carries out using photosensitive sensor It is mobile, using ultrasonic distance-measuring sensor by preceding object ranging, make this product realize can automatic avoiding obstacles, it is described Infrared sensor is for monitoring bottom surface path, to realize that this product can be mobile with automatic seeking diameter.The utility model structure is simple, produces Product are light, vdiverse in function, and intelligence degree is higher.

Detailed description of the invention

Fig. 1 is the schematic diagram of internal structure of programming Educational toy robot provided by the utility model.

Fig. 2 is the structural schematic diagram of programming Educational toy robot provided by the utility model.

Fig. 3 is the explosive view of the transmission mechanism of programming Educational toy robot provided by the utility model.

Fig. 4 is the positive structure diagram of the switch button of programming Educational toy robot provided by the utility model.

Fig. 5 is the backsight structural representation of the switch button of programming Educational toy robot provided by the utility model.

Fig. 6 is an angled arrangement schematic diagram of the mobile mechanism of programming Educational toy robot provided by the utility model.

Fig. 7 is another angled arrangement signal of the mobile mechanism of programming Educational toy robot provided by the utility model Figure.

Fig. 8 is the one side structural schematic diagram of the wheel of programming Educational toy robot provided by the utility model.

Fig. 9 is the other side structural schematic diagram of the wheel of programming Educational toy robot provided by the utility model.

Specific embodiment

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain The utility model is not used to limit the utility model.

It should be noted that it can when component is referred to as on " being installed in ", " being fixed on " or " being set to " another component Directly on the other part or may be simultaneously present component placed in the middle.When a component be known as " being connected to " another Component, it can be directly to another component or may be simultaneously present component placed in the middle.

It is only each other relatively it should also be noted that, the positional terms such as left and right, upper and lower in the utility model embodiment Concept or be reference with the normal operating condition of product, and should not be regarded as restrictive.

A kind of programming Educational toy robot provided by the utility model, including rack 100, battery 101, driving mechanism, Mobile mechanism, control mainboard 110, radio frequency mainboard 120, induction subplate 130, the battery 101, driving mechanism, radio frequency mainboard 120, induction subplate 130 and the control mainboard 110 are electrically connected and are assembled in rack 100, and the rack 100 is installed In in mobile mechanism, the control mainboard 110 is equipped with ultrasonic distance-measuring sensor 111 and photosensitive sensor 112, the induction Subplate 130 is equipped with infrared sensor 131.The utility model is wirelessly connected mobile terminal or other controls by radio frequency mainboard 120 Device processed makes this product realize that tracking light source is moved using photosensitive sensor 112, logical using ultrasonic distance-measuring sensor 111 Cross preceding object ranging, make this product realize can automatic avoiding obstacles, the infrared sensor 131 is for monitoring bottom surface road Diameter, to realize that this product can be mobile with automatic seeking diameter.The utility model structure is simple, and product is light, vdiverse in function, intelligent journey Degree is higher, and the main member of the utility model is concentrated and is installed in rack 100, compact-sized, is conducive to reduce producing Product volume is conducive to the portability and micromation that promote product.

It should be noted that the control mainboard 110, radio frequency mainboard 120, ultrasonic distance-measuring sensor 111, light sensor Device 112 and infrared sensor 131 are the prior art, and the selectable range of those skilled in the art is more broad , details are not described herein again.

Further, in the present embodiment, the control mainboard 110, which stands, is set to the side of the rack 100, described Radio frequency mainboard 120 is set to the top of rack 100, and the induction subplate 130 is set to 100 bottom of rack, the infrared sensor 131 Set on the bottom of induction subplate 130, in order to carry out induction monitoring to the path-line on ground.

Further, two driving mechanisms are used in the present embodiment, the driving mechanism includes motor 220 and driver Structure, the transmission mechanism couple with the motor 220.

Further, referring to Fig. 3, it is provided by the utility model it is a kind of program Educational toy robot transmission mechanism, Including main drive wheel 201, first gear 202, second gear 203, third gear 204, the 4th gear 205,206 and of the 5th gear 6th gear 207, the main drive wheel 201 are integrally formed with first gear 202, the second gear 203 and third gear 204 It is integrally formed, the 4th gear 205 and the integrated molding of the 5th gear 206, the main drive wheel 201, first gear 202, the Two gears 203, third gear 204 are coaxial, and the 4th gear 205, the 5th gear 206, the 6th gear 207 are coaxial, and described Four gears 205 are engaged with first gear 202, and the 5th gear 206 is engaged with second gear 203, the 6th gear 207 with Third gear 204 engages.The utility model is the driver between motor 220 and the wheel 500 for programming Educational toy robot Structure improves transmission accuracy by stage-geared, is conducive to the programming Educational toy intelligent robot control of degree of precision It is mobile, and the connection of each gear is compact, is conducive to the miniaturization for programming Educational toy robot.

Preferably, the reference diameter of the first gear 202 is less than the reference diameter of the main drive wheel 201.Institute The reference diameter for stating third gear 204 is less than the reference diameter of the second gear 203.Point of 5th gear 206 Spend the reference diameter that circular diameter is less than the 4th gear 205.The transmission mechanism of the utility model passes through each gear compound graduation circle The difference of diameter allows each gear staggeredly to assemble engagement, not only ensure that transmission ratio, but also the utility model is more stepped up It gathers, reduces occupied space, and then be conducive to program the miniaturization of Educational toy robot.

Preferably, the transmission mechanism of programming Educational toy robot provided by the utility model, the third gear 204 Middle part is equipped with hollow hole 208.The utility model uses 208 structure of hollow hole in the case where guaranteeing not will lead to gear failure, Material can be saved, production cost is reduced, and may advantageously facilitate the lightweight of programming Educational toy robot, also helps and mentions The controllability of programming Educational toy robot is risen, and then promotes the manipulation experience of user.

Specifically, the transmission mechanism of programming Educational toy robot provided by the utility model, the hollow hole 208 is in fan Shape.Specifically, it is provided by the utility model programming Educational toy robot transmission mechanism, the hollow hole 208 be 4 and In cross distribution.It is such to be provided with service life the effect of conducive to maximizing engraved structure, while ensureing gear.

Preferably, the transmission mechanism of programming Educational toy robot provided by the utility model, on the 6th gear 207 Equipped with inside groove 209.Further, the transmission mechanism of programming Educational toy robot provided by the utility model, the inside groove 209 Internal tooth is equipped with for round and side.Further, the transmission mechanism of programming Educational toy robot provided by the utility model, It further include drive shaft 210, one end of the drive shaft 210 is equipped with fifth wheel 211, and the outer of the fifth wheel 211 is equipped with certain 211 tooth of fifth wheel of the number of teeth, 211 tooth of fifth wheel are mutually chimeric with the internal tooth.The main drive wheel 201 and electricity of the utility model Machine 220 couples, and the wheel 500 of 210 Driven programming Educational toy robot of drive shaft rotates, and the fifth wheel 211 is provided with Convenient for assembly, pass through the cooperation with the inside groove 209, it is ensured that effectively transmission, and the use of the 6th gear 207 can be reduced Material is conducive to the lightweight for further promoting product.

Please continue to refer to Fig. 4, Fig. 5, further, the programming Educational toy robot further includes shell 300, institute Shell 300 is stated equipped with switch button, the switch button includes pressing component 301 and connecting component, the connecting component packet Fixing component 302 and linking arm 303 are included, one end of the linking arm 303 is fixed in fixing component 302, the linking arm 303 The other end be fixedly connected with pressing component 301.The switch button of the utility model is directly installed on product casing 300, And be melted into a whole with product casing 300, be conducive to the overall aesthetics for improving product, and then improve user experience；And this reality Utilize is that the malleable of linking arm 303 itself makes push-button reset with novel, eliminates the trouble of additional configuration button, spring, And reduce the process flow reassembled, advantageously reduce production cost.

Preferably, the switch button of programming Educational toy robot provided by the utility model, 301 He of pressing component Connecting component is plastic cement material and is integrally formed, and in order to manufacture, improves production efficiency, reduces production cost.

In the present embodiment, the switch button of programming Educational toy robot provided by the utility model, the press section Part 301 assumes diamond in shape, and is conducive to the aesthetics for promoting product.

Preferably, the switch button of programming Educational toy robot provided by the utility model, the linking arm 303 are equipped with Two, using least structure setting, is conducive to reduce production cost, and can guarantee 301 uniform force of pressing component, have Conducive to the validity for ensureing that pressing component 301 resets, be conducive to further promote user experience.

Preferably, the switch button of programming Educational toy robot provided by the utility model, the linking arm 303 are distinguished It is connected to the opposite side of the pressing component 301, to ensure the structural stability of pressing component 301.

Preferably, the switch button of programming Educational toy robot provided by the utility model, the pressing component 301 Trailing flank has groove 305, it is possible to reduce unnecessary materials advantageously reduce production cost.

Referring to Figure 2 together, Fig. 4, Fig. 5, further, programming Educational toy robot provided by the utility model opens Button is closed, is equipped in the rearmost flute 305 of the pressing component 301 and contradicts column 304, the conflict column 304 is for triggering product Internal derailing switch.

Specifically, the switch button of programming Educational toy robot provided by the utility model, the conflict column 304 are set to The middle part of pressing component 301 advantageously ensures that user's push button to guarantee 303 uniform force of pressing component 301 and linking arm When usage experience.

Preferably, the switch button of programming Educational toy robot provided by the utility model, the linking arm 303 are item Shape is conducive to the toughness for increasing the linking arm 303.

More preferably, the switch button of programming Educational toy robot provided by the utility model, the linking arm 303 is in folding It is linear.The utility model uses the linking arm 303 of broken-line type structure, keeps the flexibility of linking arm 303 bigger, is not likely to produce fracture The case where, while the pressing feeding space of pressing component 301 is also increased, be conducive to further promote user experience.

Also referring to Fig. 1, Fig. 2, Fig. 6, further, a kind of programming Educational toy robot provided by the utility model Mobile mechanism, including two wheels 500 and at least one idler wheel component 410, the wheel 500 and idler wheel component 410 are set to Program the bottom end of Educational toy robot, two 500 Parallel Symmetric of wheel settings, the installing position of the idler wheel component 410 Set idler wheel component 410 not conllinear with two wheels 500.The utility model is matched by wheel 500 with roller structure, with Wheel 500 is used as main drive part, using simple idler wheel mechanism, to provide mobile and support function, simple structure, manufacture Cost is more cheap, is suitable for low speed planar movement.

Preferably, the mobile mechanism of programming Educational toy robot provided by the utility model, the idler wheel component 410 wrap Ball 401 and slot rolling 402 are included, the ball 401 is installed in slot rolling 402, using the side of slot rolling 402,401 sliding-rolling of ball Formula is more simple, both ensure that the changeability of the product direction of motion, also ensures mobile stationarity, and is conducive to further Reduce production cost.

Further, the mobile mechanism of programming Educational toy robot provided by the utility model, further includes bottom plate 403, The ball 401 and slot rolling 402 are set on bottom plate 403.

Specifically, the mobile mechanism of programming Educational toy robot provided by the utility model, the bottom plate 403 are equipped with Two through-holes 404 for the wheel 500 rotation.The wheel 500 of the utility model is not installed directly on bottom plate 403, The through-hole 404 that bottom plate 403 is equipped with is cooperated for the wheel 500 stretching with the idler wheel component 410.

Preferably, the mobile mechanism of programming Educational toy robot provided by the utility model, the idler wheel component 410 are One, the idler wheel component 410 is distributed with the through-hole 404 in equilateral triangle, and the utility model uses class Three-wheel type structure, can With the simplification structure compared with limits, be conducive to further decrease production cost.

Preferably, the mobile mechanism of programming Educational toy robot provided by the utility model, the ball 401 are plastic cement The solid ball 401 of material guarantees the mobile stationarity of product to provide enough support forces.

Further, the mobile mechanism of programming Educational toy robot provided by the utility model, the wheel 500 is more It drives wheel 500.Two wheels 500 are used in the present embodiment, i.e., using double modes driven, the rotation of two wheels 500 can lead to Control to be crossed to keep apart, the utility model can realize that the steering of product is mobile by the rotation speed difference between two wheels 500, Effective plane motion control is advantageously ensured that, thus with the lower cost competitiveness of product in market.

Further, the mobile mechanism of programming Educational toy robot provided by the utility model, the bottom of the ball 401 The plane that end and the bottom end of the wheel 500 are constituted is parallel with the plane where the bottom plate 403, to guarantee that the utility model is flat The mobile stationarity in face.

Referring to Figure 6 together, Fig. 7, preferably, the moving machine of programming Educational toy robot provided by the utility model Structure, the bottom plate 403 is equipped with the cover board 405 for loading and unloading ball 401, in order to safeguard and assemble.

Further, the mobile mechanism of programming Educational toy robot provided by the utility model, the cover board 405 and bottom Plate 403 is using being threadedly coupled, and using in the present embodiment is screw connection, and dismounting is more convenient, is conducive to further decrease life Produce cost.

Referring to Fig. 8, further, the utility model provides a kind of wheel 500 for programming Educational toy robot, including The axle center of wheel hub (unlabeled in figure), wheel rim (unlabeled in figure) and spoke (unlabeled in figure), the wheel hub is just equipped with fillet Rectangular-shaped axis hole 501, the spoke are made of at least two U-brackets 502, and the open end of the U-bracket 502 and wheel rim are solid Fixed, the arc bottom end of the U-bracket 502 is fixed with wheel hub.The utility model passes through round rectangle shape axis hole 501, Ke Yizheng Anti- two move to rotation, and convenient for disassembly and assembly, and the setting of multiple U-brackets 502 had not only improved the mechanical property of product, but also cut Subtract materials, may advantageously facilitate the lightweight of product and the lower resistance movement of wheel 500 itself.

Preferably, the wheel 500 of programming Educational toy robot provided by the utility model, the U-bracket 502 are 4 A, the stability of spoke architecture at 4 is best, and the mechanical property of wheel 500 itself is also preferable.

Specifically, the wheel 500 of programming Educational toy robot provided by the utility model, the U-bracket 502 is with institute It centered on stating axis hole 501, is uniformly and symmetrically distributed, to ensure uniform force, improves the bearing capacity and service life of product.

Further, the wheel 500 of programming Educational toy robot provided by the utility model, further includes wheel shaft, described The rounded rectangle in the cross section of wheel shaft, the wheel shaft are matched with the axis hole 501.

Also referring to Fig. 1, Fig. 2, further, the wheel of programming Educational toy robot provided by the utility model 500, the other end of the rounded rectangle in one end of the axis hole 501, the axis hole 501 is equipped with counterbore 503.

Further, the wheel 500 of programming Educational toy robot provided by the utility model, one end of the wheel shaft is set There is threaded hole 504.

Specifically, the wheel 500 of programming Educational toy robot provided by the utility model, the wheel shaft and wheel hub use Be screwed connection.The wheel shaft of the utility model is inserted into one end of the rounded rectangle of the axis hole 501, the axis hole 501 it is another For installing screw, screw matches the counterbore 503 of one end with the threaded hole 504 of wheel shaft, be anchored on wheel 500 itself can On wheel shaft, and it is easy to disassemble, it is advantageously implemented children education.

In the present embodiment, the wheel 500 of programming Educational toy robot provided by the utility model, the wheel hub, wheel Rim and spoke are plastic cement material and are integrally formed, and in order to manufacture, are conducive to produce in batches.

Further, the wheel 500 of programming Educational toy robot provided by the utility model, further includes tire, described Tire is installed on the wheel rim；Specifically, the wheel 500 of programming Educational toy robot provided by the utility model, described Tire is rubber tyre, grabs ground frictional force for damping and offer.

Please continue to refer to Fig. 2, further, it is additionally provided in the control mainboard 110 and starts switch 113, the starting is opened 113 are closed to match with the switch button 301.

Further, it is additionally provided with LED light 132 on the induction subplate 130, for showing the operating status of product in real time, And the lighting effects of different colours are provided, to increase user experience, be conducive to improve the competitiveness of product in market.

Further, programming Educational toy robot provided by the utility model further includes loudspeaker (not shown), The loudspeaker is installed in the bottom of rack 100, to play intelligent sound or music, is conducive to the people for improving product human-computer interaction Property and diversification, and then promote good user experience.

In conclusion the utility model is wirelessly connected mobile terminal by radio frequency mainboard or other controllers, use are photosensitive Sensor makes this product realize that tracking light source is moved, and using ultrasonic distance-measuring sensor by preceding object ranging, makes this Product realize can automatic avoiding obstacles, the infrared sensor for monitoring bottom surface path, with realize this product can from It is dynamic to seek diameter movement.The utility model structure is simple, and product is light, vdiverse in function, and intelligence degree is higher, and the utility model Main member concentrate and be installed in rack, compact-sized and simple, compact is easy to carry.

It is understood that for those of ordinary skills, can with technical solution according to the present utility model and The design of its utility model is subject to equivalent substitution or change, and all these changes or replacement all should belong to appended by the utility model Scope of protection of the claims.

Claims (10)

1. a kind of programming Educational toy robot, including rack, which is characterized in that further include battery, driving mechanism, moving machine Structure, control mainboard, radio frequency mainboard, induction subplate, the battery, driving mechanism, radio frequency mainboard, induction subplate and control mainboard electricity Property connection and be assembled in rack, the rack is installed in mobile mechanism, the control mainboard be equipped with ultrasonic distance measurement Sensor and photosensitive sensor, the induction subplate are equipped with infrared sensor.

2. programming Educational toy robot according to claim 1, which is characterized in that the induction subplate is set to frame ground Portion, the infrared sensor are set to the bottom of induction subplate.

3. programming Educational toy robot according to claim 1, which is characterized in that the driving mechanism include motor and The transmission mechanism that motor movement is exported, the transmission mechanism couple with the motor.

4. programming Educational toy robot according to claim 3, which is characterized in that the transmission mechanism includes main driving Wheel, first gear, second gear, third gear, the 4th gear, the 5th gear and the 6th gear, the main drive wheel and first Gear is integrally formed, and the second gear and third gear are integrally formed, and the 4th gear and the 5th gear are integrally formed, institute It is coaxial to state main drive wheel, first gear, second gear, third gear, the 4th gear, the 5th gear, the 6th gear are coaxial, 4th gear is engaged with first gear, and the 5th gear is engaged with second gear, the 6th gear and third gear Engagement.

5. programming Educational toy robot according to claim 1, which is characterized in that further include shell, on the shell Equipped with switch button, the switch button includes pressing component and connecting component, and the connecting component includes fixing component and company Arm is connect, one end of the linking arm is fixed in fixing component, and the other end of the linking arm is fixedly connected with pressing component.

6. programming Educational toy robot according to claim 3, which is characterized in that the mobile mechanism includes two vehicles Wheel and at least one idler wheel component, the idler wheel component includes ball and slot rolling, and the ball is installed in slot rolling, the wheel The bottom end of programming Educational toy robot, two wheel Parallel Symmetric settings, the idler wheel component are set to idler wheel component Installation position and two wheels it is not conllinear.

7. programming Educational toy robot according to claim 6, which is characterized in that the wheel includes wheel hub, wheel rim And spoke, the axle center of the wheel hub are just equipped with round rectangle shape axis hole, the spoke is made of at least two U-brackets, the U The open end of shape bracket is fixed with wheel rim, and arc bottom end and the wheel hub of the U-bracket are fixed.

8. programming Educational toy robot according to claim 1, which is characterized in that be additionally provided with and open in the control mainboard Dynamic switch.

9. programming Educational toy robot according to claim 2, which is characterized in that be additionally provided on the induction subplate LED light.

10. programming Educational toy robot according to claim 1, which is characterized in that it further include loudspeaker, the loudspeaking Device is installed in the bottom of rack.