CN101862541A - Remote control toy top - Google Patents

Abstract

The present invention provides a remote control toy top which limits the rotation time for driving a motor to rotate with a high speed. Furthermore the number of operation times can be limited so that the time of high-speed rotation can not be used randomly. Nervousness is brought for controlling the toy top. The remote control toy top (A) is obtained through combining a toy top (1) and a remote controller (2) which causes the action and shape change of the toy top (1). The motor (18) is configured in the toy top (1). The control signal transmitted from the remote controller is used for controlling the rotation direction and rotation direction of the motor (18). The rotation of a gyroaxis (24) of the toy top (1) is linked with the rotation of the motor (18). The remote controller (2) is provided with a plurality of operation parts (33) for operating the control signal, and is provided with a control part (60) which controls the transmission of the control signal based on the operation of the operation parts (33).

Description

Remote control toy top

Technical field

The present invention relates to the Long-distance Control toy top, more specifically, relate to the Long-distance Control toy top that can the acting characteristic of the toy top of rotation be changed with operated from a distance.

Background technology

In the past, the applicant had proposed to change with operated from a distance the remote control toy top (for example patent documentation 1) of the acting characteristic of toy top.This Long-distance Control toy top is made of the remote controller of the action form of toy top and Long-distance Control toy top, the rotation axis body and the motor interlock of above-mentioned toy top are rotated, the control signal that utilization sends from above-mentioned remote controller is controlled the direction of rotation and the rotary speed of the positive and negative rotation of said motor, the feasible rotation that can control the rotation axis body of toy top with remote controller repeatedly, attack opponent's toy top, perhaps avoid adversary's attack.

Patent documentation 1: TOHKEMY 2005-185548 communique

Summary of the invention

The problem to be solved in the present invention

Above-mentioned remote control toy top can be controlled the direction of rotation and the rotary speed of motor repeatedly, owing to can use this function repeatedly, even also can recover the opportunity of mistaken operation, therefore the problem that exists is: the necessity to the line operate of planning opportunity to go forward side by side might experience not strong, can't carry out the recreation of having a sense of urgency, and the problem that exists is: if proceed to play under the state that improves rotary speed, then toy top can fly out from game table.

Problem of the present invention is to provide a kind of remote control toy top to solve the problems referred to above, the rotational time that restriction is rotated motor at a high speed, and limit manipulable number of times, make and arbitrarily to use this opportunity of rotating at a high speed, bring nervous sense can for the control of toy top.

The method of dealing with problems

For addressing the above problem, Long-distance Control toy top of the present invention comprises toy top and makes the combination of the remote controller that the action form of this toy top changes with operated from a distance,

In above-mentioned toy top, dispose motor,

Above-mentioned toy top comprises the gyroaxis with the rotation of said motor interlock,

Above-mentioned remote controller comprises a plurality of operating portions and sends the rotation control signal of direction of rotation of control said motor based on the operation of this operating portion and the control part of the speed control signal of the rotary speed of control said motor,

Be provided with the restraint device that control time of motor is limited in certain hour according to above-mentioned speed control signal.

In addition, comparatively preferably, the control part of above-mentioned remote controller monitors the transmission situation of above-mentioned speed control signal, based on monitoring that the result judges whether to send this speed control signal.

In addition, comparatively preferably, in above-mentioned remote controller, be provided with the trigger mechanism of giving rotation and launching to above-mentioned toy top.

And above-mentioned remote controller also can have at operation apparatus for initializing with the supervision initializes of the speed control signal of above-mentioned control part during above-mentioned trigger mechanism.

Comparatively it is desirable to, the control part of above-mentioned remote controller possesses the counter that the transmission number of times of above-mentioned speed control signal is counted, and does not send this speed control signal when count value surpasses set-point.

Comparatively preferably, above-mentioned toy top has based on the rotation control signal that sends from the control part of above-mentioned remote controller and speed control signal and generates motor drive signal that drives said motor and the control loop of controlling the rotation of this motor.

Comparatively preferably, in the control loop of above-mentioned toy top, comprise timer, constitute above-mentioned restraint device.

Comparatively preferably, above-mentioned rotation control signal comprises the command signal that makes right rotation of said motor low speed or anticlockwise, and above-mentioned speed control signal comprises the signal that said motor is rotated at a high speed.

Be preferably, above-mentioned remote controller comprises the infrared light-emitting diode that the control signal with above-mentioned control part is transformed to infrared ray and sends, the switch that above-mentioned a plurality of operating portion has a plurality of action buttons and moves respectively according to this action button push, above-mentioned control part generates above-mentioned rotation control signal and above-mentioned speed control signal corresponding to the action of this switch, above-mentioned toy top comprises: receive the ultrared light receiver that sends from above-mentioned infrared light-emitting diode; Based on the infrared ray that receives, drive the motor driver of said motor based on the motor drive signal that generates by above-mentioned control loop; Battery.

The effect of invention

According to the present invention, can realize the Long-distance Control toy top, because the time that can change the rotary speed of motor is limited within a certain period of time, therefore become important the opportunity of operation, and can eliminate toy top from game table this problem that flies out.

According to an embodiment of the invention, owing to monitor the transmission situation of speed control signal,, therefore can not arbitrarily carry out the transmission of speed control signal based on monitoring that the result judges whether to send this speed control signal, the recreation of nervous sense can be arranged.

According to an embodiment of the invention, give the trigger mechanism that rotation is launched owing in remote controller, be provided with to toy top, therefore can launch toy top, and can control the action of the toy top of being launched with a remote controller.

According to an embodiment of the invention, because by the emission toy top, the supervision result of speed control signal is initialised, therefore do not need to press the such action button of SR, do not have and forget that situation about pressing takes place, can be reliably with the remote controller initialization.

Description of drawings

Fig. 1 is the stereogram that shows the structure of Long-distance Control toy top of the present invention.

Fig. 2 is the exploded perspective view that shows the structure of toy top.

Fig. 3 is the exploded perspective view that shows the gyro main body structure.

Fig. 4 A to Fig. 4 C is front view, side view and the rearview of remote controller.

Fig. 5 A and Fig. 5 B are the block diagrams of toy top and remote controller.

Fig. 6 A and Fig. 6 B are the key diagrams with the corresponding control signal of push of action button.

Fig. 7 is the flow chart of the use form of the above-mentioned remote control toy top of explanation.

Fig. 8 A and Fig. 8 B are the planes that shows the action form of toy top.

Label declaration

1 toy top

2 remote controllers

3 trigger mechanisms

4 gameboards

18 motors

33 operating portions

24 gyroaxis

50 control loops

60 control parts

A Long-distance Control toy top

The specific embodiment

Fig. 1 shows an example of Long-distance Control toy top of the present invention, this Long-distance Control toy top A is made of toy top 1 and remote controller 2, bring rotation for toy top 1 with the trigger mechanism 3 that is arranged on the remote controller 2, be emitted on the gameboard 4, can make itself and other toy top on gameboard 4, carry out game.

Wherein, above-mentioned trigger mechanism 3 is made of known trigger mechanism and gets final product, and in known trigger mechanism, tooth bar band (rack belt) 5 is inserted remote controllers 2, can carry out work by pulling out operation, give rotation can for toy top 1.

And gameboard 4 possesses upper surface and is bent into the specular recreation face of concave surface 6, and the rotary speed highland of toy top 1 is rotated, and will move to peripheral direction on recreation face 6, and the rotary speed of toy top 1 is low, will be to central mobile on recreation face 6.Toy top 1 can not stop on one point and can move on recreation face 6, and contacts with other toy tops, just can be deciding if flown out from gameboard 4 by the toy top that flicked.

As shown in Figure 2, toy top 1 second the attacking ring 14, the axle collar 12, first is attacked ring 13 and second attack ring 14 locking components 15 that are fixed on the gyro body 10 and constitute of toy top of attacking ring 13, attacking the opponent from the below by gyro body 10, the lower cover 11 that covers the bottom of gyro body 10, the metal axle collar 12, from first of beam attack opponent's toy top.As shown in Figure 3, gyro body 10 has lower house 16 and upper shell 17, the control substrate 22 that portion accommodates motor 18 within it, the switch substrate 20, the upper surface that dispose power switch 19 disposes light receiver 21 is formed with the accommodation section 16a that holds button cell 23 in lower house 16.

And, being fixed with the more flat gyroaxis of front end 24 at the rotating shaft of motor 18, the leading section of this gyroaxis 24 connects lower house 16, and is outstanding downwards from the bottom surface of lower cover 11.In addition, locking component 15 is formed by the material with light transmission with upper shell 17, can arrive light receiver 21 so that be radiated at the infrared ray of toy top 1.

Shown in Fig. 4 A to Fig. 4 C, remote controller 2 constitutes can hold the handle part 31 of the Lower Half of device body 30 with one hand, holds battery 32 in handle part 31, disposes the action button 33 that can carry out push above handle part 31.This action button 33 is by the first action button 33a of motor 18 right rotations that are used to make toy top 1 and be used to make the second action button 33b of its anticlockwise to constitute, and disposes infrared light-emitting diode 34 at the leading section of device body 30.

If this remote controller 2 is carried out the operation of push button 33, the control signal of motor 18 rotations of toy top 1 is sent from infrared light-emitting diode 34 with infrared mode, but if another action button 33 is pressed by next action button 33 limits in the limit, then control signal can change, and makes the rotary speed of motor 18 improve.

Then, in remote controller 2, dispose the trigger mechanism 3 that brings initial rotation to toy top 1.This trigger mechanism 3 is made of known trigger mechanism and gets final product, in known trigger mechanism, be formed with the inserting hole 35 (35a that connect about top with device body 30,35b), if tooth bar band 5 is inserted any one of leading to these two inserting holes 35, then not shown gear and slotting logical tooth bar band 5 engagements, operation by pull tooth bar band 5 makes this gear rotation, make and get in touch with this gear, feasible swivel plate 40 rotation at a high speed that is configured in the back side of device body 30, if tooth bar band 5 is pulled out from device body 30 fully, then not shown ratchet embeds gear, and rotation moment of swivel plate 40 is stopped.

At above-mentioned swivel plate 40 outstanding two holding plates 41 that keep toy top 1 that are formed with, by make swivel plate 40 rotations with tooth bar band 5, can make toy top 1 rotation at a high speed that keeps by holding plate 41, if swivel plate 40 stops rapidly, then toy top 1 can be because inertia continues rotation, break away from from holding plate 41, independently be rotated.

In addition, in trigger mechanism 3,, then can make swivel plate 40 right rotations,, then can make swivel plate 40 anticlockwises if pull out the tooth bar band of inserting logical inserting hole 35b if pull out the tooth bar band of inserting logical above-mentioned inserting hole 35a.

Fig. 5 A and Fig. 5 B are the block diagrams of representing toy top 1 and the summary of the electrical structure of remote controller 2 respectively.

Toy top 1 by: receive the ultrared light receiver 21 that sends from remote controller 2; Generate the control loop 50 of the rotation of the motor drive signal of CD-ROM drive motor 18 and control motor 18 based on the infrared ray that receives; Motor driver 51 based on motor drive signal CD-ROM drive motor 18; Motor 18; Button cell (battery) 23 constitutes.

Above-mentioned control loop 50 is based on the rotation control signal D1, the D2 that send from remote controller 2 described later, generate motor drive signal MD1, MD2, make motor 18 low speed rotation (being also referred to as normal rotation in this specification), but if inbound pacing control signal V1, V2, then make built-in motor 18 rotation at a high speed (being also referred to as reinforcement (turbo) rotation in this specification), and timer 52 is started, if return normal rotation through then finishing to strengthen rotation preset time (for example 1 second).

Remote controller 2 is by first switch SW 1 and the second switch SW2 that are respectively ON by the operation of push button 33a and 33b; Corresponding with the action of this switch SW 1 and SW2, the control part 60 of the control signal of the rotation of the motor 18 of generation Long-distance Control toy top 1; Control signal is converted to the infrared light-emitting diode 34 that infrared ray sends; Battery 32 constitutes.

Above-mentioned control part 60 generates the rotation control signal D1 with 18 right rotations of first switch SW, 1 indication motor, generates the rotation control signal D2 with 18 anticlockwises of second switch SW2 indication motor, sends with infrared ray.The control loop 50 that receives the toy top 1 of this rotation control signal D1 (D2) generates the motor drive signal MD1 (MD2) that is made of the pulse-like signal of ON/OFF repeatedly (following it is called normal signal), control motor 18 makes its low speed (if the ratio of ON/OFF is 1: 1, then the rate of starting is 50%) rotation (with reference to Fig. 6 A).

Then, shown in Fig. 6 B, if make a switch SW 1 (SW2) carry out the operation (following this operation be called strengthen operation) of push button 33 for making another switch SW 2 (SW1) under the state of ON for ON, then control part 60 switches to speed control signal V1 (V2) with rotation control signal D1 (D2) and sends.

The control loop 50 that receives the toy top 1 of this speed control signal V1 (V2) makes the motor drive signal MD1 (MD2) that generated by rotation control signal D1 (D2) be changed to the signal that continues the ON state (below be called strengthen signal) from the normal signal of pulse type, rotates the reinforcement rotation of (starting rate 100%) from the Status Change of the normal rotation that makes the motor low speed rotation continuously for making motor.

Then, from normal signal when strengthening signal and changing, control loop 50 starts built-in timer 52, if through preset time (for example 1 second), then strengthen signal and be changed to normal signal, return normal rotation from strengthening rotation, rotary speed is from returning low speed at a high speed.

In addition, the control part 60 of remote controller 2 comprises the counter 61 of the inferior counting number that will strengthen operating, control part 60 is programmed the count value that is designed to counter 61 and surpasses set-point (for example 3) and ignore this reinforcements operation when strengthening operating, and can not strengthen arbitrarily operating.

In addition, in Fig. 5 B, when label SW3 represents tooth bar band 5 insertion remote controllers 2, engage with tooth bar band 5 and be ON and the switch that is configured in trigger mechanism 3, pulling out tooth bar band 5, when switch SW 3 is OFF, control part 60 resets counter 61, with remote controller 2 initialization.

Next, based on the use form of the above-mentioned Long-distance Control toy top of the flowchart text of Fig. 7 A.

After making the power supply of toy top 1 and remote controller 2 be ON, tooth bar band 5 is fully inserted the inserting holes 35 of device bodies 30, make toy top 1 remain on holding plate 41, toy top 1 is set on remote controller 2.

Next, keep remote controller 2, make the recreation face 6 of toy top 1, carry out the operation of pull tooth bar band 5 with the another hand with strength in the face of gameboard 4 with a hand.Because interrelate with the pull operation of tooth bar band 5, the toy top 1 that the holding plate 41 that swivel plate 40 rotates, so be arranged on swivel plate 40 is at a high speed kept rotates integratedly with swivel plate 40.If tooth bar band 5 pulls out fully from the inserting hole 35 of device body 30, then swivel plate 40 can stop rapidly, therefore because the toy top 1 that inertia rotates breaks away from while rotate from holding plate 41, drops on the recreation face 6 of gameboard 4, and continuation is rotated on recreation face 6.At this moment, switch SW 3 is OFF, and control part 60 is with counter 61 reset (step ST1).

Then, the toy top 1 of emission is in the rotation on the specular recreation face of concave surface 6 that is bent into of gameboard 4, but because the front end of gyroaxis 24 forms more flatly, toy top 1 vertically erects owing to the gyro effect, therefore the angle of the leading section of gyroaxis 24 contacts with recreation face 6, the leading section periphery of gyroaxis 24 can be brought into play the function of trundle, and toy top 1 describes to move (revolution) circular-arcly on recreation face 6 while rotating.The rotating speed of toy top 1 is high more, and this moves can describe big more circular arc.

Under this state, the control part 60 of remote controller 2 is waited for push button 33 (step ST2).If push button 33, then advance to step ST3, judge that what press is which action button 33 among the first action button 33a, the second action button 33b.

If press the first action button 33a, then advance to step ST4, control part 60 sends the rotation control signal D1 of indication motor 18 right rotations, the control loop 50 that receives the toy top 1 of this rotation control signal D1 generates the motor drive signal MD1 of the pulse type pattern corresponding with the pattern of rotation control signal D1 in receiving rotation control signal D1, make motor 18 right rotations.On the other hand, if press the second action button 33b, then advance to step ST5, control part 60 sends the rotation control signal D2 of indication motor 18 anticlockwises, the control loop 50 that receives the toy top 1 of this rotation control signal D2 generates the motor drive signal MD2 of the pulse type pattern corresponding with the pattern of rotation control signal D2 in receiving rotation control signal D2, make motor 18 anticlockwises.

In addition, toy top 1 initially rotate to be right rotation the time if motor 18 right rotations, then gyroaxis 24 is with the rotary speed right rotation of motor 18, the rotary speed of toy top 1 integral body increases, therefore shown in Fig. 8 A, can move to revolution counterclockwise with bigger diameter, to the outer side shifting of recreation face 6, therefore can attack opponent's at a distance toy top 1 '.On the other hand, toy top 1 initially rotate to be right rotation the time, if motor 18 anticlockwises, then gyroaxis 24 anticlockwises, therefore shown in Fig. 8 B, toy top 1 moves to the clockwise direction revolution, can from inverse attack opponent's toy top 1 '.Like this, make motor 18 when the direction identical with the initial rotation of toy top 1 rotated, toy top 1 moves with bigger diameter revolution, make motor 18 when the direction different with the initial rotation of toy top 1 rotated, can make the revolution direction of toy top 1 change ground and on recreation face 6, move, can control from which direction attack opponent's toy top 1 '.

Then, control part 60 is at (motor 18 rotation during) during the push button 33, judge whether to have carried out to strengthen operation (step ST6), when strengthening operating, advance to step ST12, whether decision operation button 33 becomes OFF, strengthening operating and making action button 33 advance to step ST13 under the situation of OFF, the transmission of finishing control signal finishes the driving of the motor 18 of toy top 1, be back to step ST2, wait for push button 33 once more.

In sending rotation control signal D1 (perhaps D2), when having carried out strengthening operation, counter 61 countings are increased (step ST7), advance to step ST8, judge whether the number of times of strengthening operation surpasses given number of times.When surpassing given number of times (being set in this example three times), judge that the reinforcement operation is invalid, advance to step ST12, whether decision operation button 33 becomes OFF, if not OFF then is back to step ST6, continuing to send rotation control signal D1 (perhaps D2) is OFF up to action button 33.

In step ST8, do not surpass given number of times if strengthen the number of times of operation, then advance to step ST9, control part 60 is changed into speed control signal V1 (perhaps V2) with rotation control signal D1 (perhaps D2), sends.The control loop 50 of the toy top 1 of inbound pacing control signal V1 (perhaps V2) changes to the reinforcement signal with motor drive signal MD1 (perhaps MD2) from normal signal, but because the rotation of motor 18 is identical with the direction of initial rotation, compare further high speed rotation when then motor 18 is with normal signal, therefore the rotary speed of toy top 1 integral body increases, move with faster and bigger diameter revolution, outer side shifting to recreation face 6, if the rotation of motor 18 is different with the direction of initial rotation, compare the direction variation that makes revolution with bigger diameter when then toy top 1 is with normal signal.

With motor drive signal MD1 (perhaps MD2) change to strengthen signal after, advance to step ST10, judge whether strengthen operation finishes, then advance to step ST11 if strengthen EO, speed control signal V1 (perhaps V2) is become again into rotation control signal D1 (perhaps D2), advance to step ST12, whether decision operation button 33 becomes OFF, if not OFF then returns step ST6, judge whether to have carried out to strengthen operation once more, if strengthen operating the rotation control signal D1 (perhaps D2) that then continues to send under this state, then advance to step ST7 if carried out strengthening operation, counter 61 countings are increased, in step ST8, then advance to step ST9 above given number of times if strengthen the number of times of operation, control part 60 is changed into speed control signal V1 (perhaps V2) with rotation control signal D1 (perhaps D2) and is sent, if surpass given number of times, then advance to step ST12, whether decision operation button 33 becomes OFF, and sending rotation control signal D1 (perhaps D2) is OFF (with reference to Fig. 6 B) up to action button 33.

In addition, in Fig. 6 B, by operating period of next action button 33 (switch SW 1 or SW2 are ON during), it is the reinforcement operation of ON that the operation of only once pressing another action button 33 makes switch SW 2 or SW1, but in operating period by next action button, can repeatedly press another action button rotation control signal is changed into speed control signal, make it strengthen rotation, this can learn from flow chart.

As mentioned above, the rotation of set motor 18 on the toy top 1 by rotation on the recreation face 6 that is controlled at gameboard 4, can make the toy top 1 that moves on recreation face 6 tops revolution limit outer side shifting to recreation face 6, perhaps move to the center, perhaps make the revolution direction opposite, the action form of toy top 1 is freely changed, but because make the control signal (reinforcement signal) of motor 18 high speed rotations will become the control signal (normal signal) of rotating again into normal from sending through certain hour, therefore must plan making its opportunity of rotating at a high speed, number of times to rotation is at a high speed counted, if the result of counting surpasses given number of times, even then operate it is rotated at a high speed, therefore can't arbitrarily improve rotation, can't with " if failure can have again " etc. so easily idea play, can concentrate on enjoying the recreation of having a sense of urgency.

In addition, in above-mentioned remote controller, by by the operation of next action button the time, pressing another action button, control part judges that the player has carried out strengthening operation for motor is rotated at a high speed, but also can be by pressing next button twice at short notice, control part judges that the player has carried out strengthening operation, and the reinforcement action button that right rotation uses, the reinforcement action button that anticlockwise is used perhaps also can be set.

Claims (9)

1. Long-distance Control toy top, it comprises toy top and makes the combination of the remote controller that the action form of described toy top changes with operated from a distance, wherein,

In described toy top, dispose motor,

Described toy top possesses the gyroaxis with described motor interlock rotation,

Described remote controller possess a plurality of operating portions and send based on the operation of described operating portion the described motor of control direction of rotation rotation control signal and control the control part of speed control signal of the rotary speed of described motor,

Be provided with the restraint device that control time of motor is limited in certain hour according to described speed control signal.

2. Long-distance Control toy top according to claim 1 is characterized in that, the control part of described remote controller monitors the transmission situation of described speed control signal, based on monitoring that the result judges whether to send described speed control signal.

3. Long-distance Control toy top according to claim 1 and 2 is characterized in that, is provided with the trigger mechanism of giving rotation and launching to described toy top in described remote controller.

4. Long-distance Control toy top according to claim 3 is characterized in that, described remote controller has at operation apparatus for initializing with the supervision initializes of the speed control signal of described control part during described trigger mechanism.

5. Long-distance Control toy top according to claim 2, it is characterized in that, the control part of described remote controller possesses the counter that the transmission number of times of described speed control signal is counted, and does not send described speed control signal when count value surpasses set-point.

6. Long-distance Control toy top according to claim 1 and 2, it is characterized in that described toy top has the rotation control signal and the speed control signal that send based on the control part from described remote controller and generates motor drive signal that drives described motor and the control loop of controlling the rotation of described motor.

7. Long-distance Control toy top according to claim 6 is characterized in that the control loop of described toy top possesses timer, constitutes described restraint device.

8. Long-distance Control toy top according to claim 5 is characterized in that described rotation control signal comprises the command signal that makes right rotation of described motor low speed or anticlockwise, and described speed control signal comprises the signal that described motor is rotated at a high speed.

9. Long-distance Control toy top according to claim 6, it is characterized in that, described remote controller possesses the infrared light-emitting diode that the control signal with described control part is transformed to infrared ray and sends, the switch that described a plurality of operating portion has a plurality of action buttons and moves respectively according to described action button push, described control part generates described rotation control signal and described speed control signal corresponding to the action of described switch

Described toy top possesses: receive the ultrared light receiver that sends from described infrared light-emitting diode; Based on the infrared ray that receives, drive the motor driver of described motor based on the motor drive signal that generates by described control loop; Battery.

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