CN204181047U - One is learnt to walk children's footwear - Google Patents

Abstract

One is learnt to walk children's footwear, be made up of shoes and electronic toy, described electronic toy comprises toy body, control system (CPU), drive circuit module, power supply, signal receiving device, infrared induction obstacle avoidance apparatus, gravity sensing system, motor, delay circuit and voice system, described voice system comprises first set voice system, second cover voice system and the 3rd cover voice system, three cover voice systems are all provided with delay circuit, voice system and motor are controlled by delay circuit, described shoes are provided with the sender unit of electronic toy, sender unit switch-linear hybrid is between sole and shoe-pad, described signal receiving device is arranged on electronic toy, signal receiving device is electrically connected with control system (CPU), control system (CPU), infrared induction obstacle avoidance apparatus, voice system, motor is electrically connected with drive circuit module, drive circuit module provides power by power supply.This children's footwear of learning to walk can improve the speed of toddler.

Description

One is learnt to walk children's footwear

Technical field

The utility model relates to a kind of shoes, particularly a kind of children's footwear that can help toddler.

Background technology

At present, market there is one to learn to walk children's footwear, it is the footwear back of footwear children's footwear being arranged on mother, toddler is driven by the step of mother, be a kind of passive methods of learning to walk of children, also have some to add music function in the inside of footwear, attract child to learn to walk with this, but these children's footwears all can not allow children produce enough enjoyment and power, therefore learn to walk slower.

Utility model content

The technical problems to be solved in the utility model is to provide and a kind of attracts children, increases the enjoyment of children, autonomous and can improve the children's footwear of learning to walk of speed of learning to walk in allowing children be at play.

In order to solve above technical problem, the utility model by the following technical solutions:

One is learnt to walk children's footwear, and be made up of shoes and electronic toy, described electronic toy comprises toy body, control system (CPU), drive circuit module, power supply, signal receiving device, infrared induction obstacle avoidance apparatus, gravity sensing system, motor, delay circuit and voice system, described voice system comprises first set voice system, second cover voice system and the 3rd cover voice system, three cover voice systems are all provided with delay circuit, voice system and motor are controlled by delay circuit, described gravity sensing system and the 3rd is overlapped voice system and is electrically connected, described shoes are provided with the sender unit of electronic toy, sender unit switch-linear hybrid is between sole and shoe-pad, described signal receiving device is arranged on electronic toy, signal receiving device is electrically connected with control system (CPU), control system (CPU), infrared induction obstacle avoidance apparatus, voice system, motor is electrically connected with drive circuit module, and drive circuit module provides power by power supply.

Wherein, the shape of described toy body is arranged to the animals shaped of provided with wheels, and wheel is rotated by driven by motor.

Wherein, the delay time of described first set voice system is set to 5 seconds.

Wherein, the delay time of the second described cover voice system is set to 10 seconds.

Wherein, the delay time of the 3rd described cover voice system is set to 10 seconds.

Wherein, the receiving range of described signal receiving device is set to 1-1.5 rice.

The beneficial effects of the utility model are: utilize electronic toy to allow children produce curiosity and interest, by the prompting of electronic toy, to play and to combine with learning to walk, and allow children there is no learning to walk of pressure in happy play activity, greatly increase the speed of toddler.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation;

Fig. 2 is the utility model circuit theory schematic diagram;

Fig. 3 is sender unit circuit diagram;

Fig. 4 is the utility model signal receiving device structure chart;

Fig. 5 is utility model works schematic diagram.

In figure, 1, shoes; 2, electronic toy; 3, toy body; 4, control system (CPU); 5, drive circuit module; 6, power supply; 7, signal receiving device; 8, infrared induction obstacle avoidance apparatus; 9, gravity sensing system; 10, motor; 11, delay circuit; 12, voice system; 13, first set voice system; 14, the second cover voice system; 15, the 3rd cover voice system; 16, sender unit.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is further described:

As Fig. 1, Fig. 2, shown in Fig. 3 and Fig. 4: one is learnt to walk children's footwear, and be made up of shoes 1 and electronic toy 2, electronic toy 2 comprises toy body 3, control system (CPU) 4, drive circuit module 5, power supply 6, signal receiving device 7, infrared induction obstacle avoidance apparatus 8, gravity sensing system 9, motor 10, delay circuit 11 and voice system 12, voice system 12 comprises first set voice system 13, second cover voice system 14 and the 3rd cover voice system 15, three cover voice systems are all provided with delay circuit 11, voice system 12 and motor 10 are controlled by delay circuit 11, gravity sensing system 9 is electrically connected with first set voice system 13, shoes 1 are provided with the sender unit 16 of electronic toy 2, sender unit switch-linear hybrid is between sole and shoe-pad, signal receiving device 7 is arranged on electronic toy 2, signal receiving device 7 is electrically connected with control system (CPU) 4, control system (CPU) 4, infrared induction obstacle avoidance apparatus 8, voice system 12, motor 10 is electrically connected with drive circuit module 5, and drive circuit module 5 provides power by power supply 6.

In the utility model, the shape of toy body 3 is arranged to the animals shaped of provided with wheels, the shape of such as frog, increases the curiosity of children, and wheel is driven by motor 10 and rotates.

In the utility model, sender unit 16 and signal receiving device 7 all adopt model to be infrared transmitter and the receiver of 38KHZ, and command range, within 10 meters, returns to previous position when toy goes to 8 ~ 10 meters.The signal emission angle of transmitter, within the scope of +/-15 degree, launches one and same coding signal by omnidirectional's rotating mechanism 360 degree.The Signal reception angle of receiver is within the scope of 45 degree.Receiving terminal accepts the signal of remote controller by the receiver of 8 fixed-directions.Logic control chip is responsible for the signal receiving diverse location, and is the direction of transmitter according to the direction that signal power selects signal the strongest, controls toy accordingly to signal source motion in the other direction.But when signal is lower than setting limit value, return to a position until acknowledge(ment) signal is higher than limit value.

Operation principle of the present utility model is as follows:

As shown in Figure 5: by child's step constantly step on and lift pin to close and trigger signal generating means switch, shake control electronic toy stop and advance, the receiving range of signal receiving device 7 is set to 1-1.5 rice.When stepping on ground, enabling signal emitter switch, A, H, G receive signal, and control system (CPU) 4 controls motor by drive circuit module 5 and starts working, and H signal is the strongest, and toy moves to D direction.When lifting pin, signal generation apparatus switch disconnects, signal receiving device 7 signal stops, if child lift pin to step on ground time be less than delay circuit 11 set the machine operation time time, when being namely less than 5 seconds, motor 10 can work on, when the time that child does not lift pin with stepping on exceedes the machine operation time of delay circuit 11 setting, namely, time more than 10 seconds, motor 10 quits work.

When child catch up with toy constantly lift pin walk time, toy is under inertia force effect, start gravity sensing system 9, gravity sensing system 9 controls motor 10 and ceaselessly rotates, toy can ceaselessly be run forward always, while toy moves forward, first set voice system 13 circuit ON, the time of first set voice system 13 circuit ON is controlled by delay circuit, sends the sound of encouraging child.

Signal source remains unchanged, when running into obstacle, infrared induction obstacle avoidance apparatus 8 starts to start, barrier reflection causes C, D, E to receive reflected signal, A, H, G and C, D, E may receive signal, but the signal of H is the strongest, direction of advance or D, automated randomized direction B, F motion to not having signal of toy.Once varying motion direction, the receiver that can receive signal source direction also changes.Such as: toy runs into obstacle to the motion of F direction, and cause A, H Received signal strength, A is stronger than H, moves to E direction.But, when toy along E move exceed range of signal or signal more weak time, then return according to rightabout A, until the signal received exceedes minimum restriction.

When child is lazy do not walk time, when namely delay time was more than 10 seconds, the second cover voice system 14 circuit ON, the time of the second cover voice system 14 circuit ON is controlled by delay circuit 11, sends musical sound or other encourage child to continue the language caught up with.

Ground is left when toy is taken in one's arms by child, bottom toy, the module of infrared emitting and acceptance does not have signal, and during 10 second of time remaining, 3rd cover voice system 15 circuit is connected, give the alarm sound: require that child is put it and got off to continue race, or prodding method roars of laughter child is put it and got off to keep the field, or flighty sound.

In sum, one of the present utility model is learnt to walk children's footwear, can reach the electronic toy making toddlers constantly go to chase front to loiter, and will play to combine with learning to walk, and improves the enjoyment and speed of learning to walk.

Be only optimum embodiment of the present utility model above, but the utility model is not limited thereto, the changes that any person skilled in the art can think of all should fall into protection domain of the present utility model.

Claims (6)

1. to learn to walk a children's footwear, be made up of shoes and electronic toy, it is characterized in that: described electronic toy comprises toy body, control system (CPU), drive circuit module, power supply, signal receiving device, infrared induction obstacle avoidance apparatus, gravity sensing system, motor, delay circuit and voice system, described voice system comprises first set voice system, second cover voice system and the 3rd cover voice system, three cover voice systems are all provided with delay circuit, voice system and motor are controlled by delay circuit, described gravity sensing system and the 3rd is overlapped voice system and is electrically connected, described shoes are provided with the sender unit of electronic toy, sender unit switch-linear hybrid is between sole and shoe-pad, described signal receiving device is arranged on electronic toy, signal receiving device is electrically connected with control system (CPU), control system (CPU), infrared induction obstacle avoidance apparatus, voice system, motor is electrically connected with drive circuit module, and drive circuit module provides power by power supply.

2. one according to claim 1 is learnt to walk children's footwear, it is characterized in that: the shape of described toy body is arranged to the animals shaped of provided with wheels, and wheel is rotated by driven by motor.

3. one according to claim 1 is learnt to walk children's footwear, it is characterized in that: the delay time of described first set voice system is set to 5 seconds.

4. one according to claim 1 is learnt to walk children's footwear, it is characterized in that: the delay time of the second described cover voice system is set to 10 seconds.

5. one according to claim 1 is learnt to walk children's footwear, it is characterized in that: the delay time of the 3rd described cover voice system is set to 10 seconds.

6. one according to claim 1 is learnt to walk children's footwear, it is characterized in that: the receiving range of described signal receiving device is set to 1-1.5 rice.