CN105268196A - Wireless remote control toy - Google Patents

Abstract

Provided is a wireless remote control toy, comprising a first power building block, an electric control unit, and a remote controller. The first power building block comprises a first transmission shaft and a first motor. When the first motor is driven, the first transmission shaft is driven to rotate. The electric control unit is electrically connected with the first motor. The remote controller comprises a storage module storing a control application program, a processing module executing the control application program, an input module used for a user to control an application program, a display module which displays a programmable control interface of the control application program, and a bluetooth communication module. The programmable control interface is used for a user to preset a plurality of control instructions executed in a time interval. When the bluetooth communication module sends continuous control instructions to the electric control unit, the electric control unit can drive the first motor, so that the first transmission shaft rotates according to the continuous control instructions in the time interval.

Description

Radio-control toy

Technical field

The present invention relates to a kind of toy, particularly relate to a kind of radio-control toy.

Background technology

General one percussion part pulls the trigger the mechanical figures imitating movement of football player of a toy ball, and it must aim at this toy ball just can make this toy ball be pulled the trigger, and thus fault rate is high.For mechanical figures imitating movement of football player shown in Fig. 1, it mainly comprises a body combined by multiple building blocks 101, and is controlled by a remote controller (not shown) and the power building blocks group 102 driving this body 101 movement, and two ball-moving arms 103 be hubbed on front side of body 101.Described ball-moving arm 103 is in body 101 traveling process, swings to push toy ball (not shown) and moves.

But when player exercises remote controller controls the game of above-mentioned Soccer robot, need ongoing operation remote controller, Soccer robot just can continue to carry out action (advance or play football).If player's shut-down operation remote controller, then this Soccer robot does not just have any action.Therefore, be necessary to seek different remote control modes, playing to make Soccer robot to provide higher entertainment effect and excitement.

Summary of the invention

The object of the present invention is to provide a kind of radio-control toy.

Radio-control toy of the present invention comprises first power building blocks, an ECU and a remote controller.These the first power building blocks comprise first power transmission shaft and first motor, when this first motor is driven, this first power transmission shaft can be driven to rotate.This ECU is electrically connected with this first motor.This remote controller comprises the memory module that stores an operating application program, the processing module of this operating application program of execution, one manipulates the input module of this operating application program for user, the display module of a programmable operation and control interface of this operating application program of display, and a bluetooth communication module, wherein this programmable operation and control interface is with being set in advance in a time interval the multiple continuous manipulation instruction performed for this user, when this bluetooth communication module sends described continuous manipulation instruction to this ECU, this ECU can be made to drive this first motor, thus this first power transmission shaft is made to rotate according to described continuous manipulation instruction in this time interval.

Radio-control toy of the present invention, this programmable operation and control interface comprises an edit pattern and a play mode, under this edit pattern, this user utilizes layout when this programmable operation and control interface corresponding to this time interval multiple to set described continuous manipulation instruction respectively, then, under this play mode, this first power transmission shaft rotates according to the manipulation instruction of layout time each in this time interval.

Radio-control toy of the present invention, also comprise the wheel building blocks that second power building blocks and two are arranged at these first and second power building blocks respectively rotationally, wherein these the second power building blocks comprise a second driving shaft and second motor be electrically connected with this ECU, described building blocks of taking turns are connected with this first and second power transmission shaft respectively, when this second motor is driven, this second driving shaft can be driven to rotate, when this bluetooth communication module sends described continuous manipulation instruction to this ECU, this ECU can be made in this time interval according to described this first motor of continuous manipulation order-driven and the second motor, thus this first power transmission shaft and second driving shaft is driven, two take turns building blocks to make this and rotate according to described continuous manipulation instruction in this time interval.

Radio-control toy of the present invention, also comprises a moulding building blocks be combined in above these first and second power building blocks.

Radio-control toy of the present invention, this programmable operation and control interface comprises an edit pattern and a play mode, under this edit pattern, this user utilizes layout when this programmable operation and control interface corresponding to this time interval multiple to set described continuous manipulation instruction respectively, then, under this play mode, described building blocks of taking turns rotate according to the manipulation instruction of layout time each in this time interval.

Radio-control toy of the present invention, during described under this edit pattern, to belong to a direction controlling capable for layout, it can preset the described manipulation instruction relevant to direction controlling for this user, and the described manipulation instruction relevant to direction controlling is selected from by an instruction of going ahead, one is walked instruction backward, original place rotate instruction, original place rotate instruction, an antecurvature instruction left and an antecurvature instruction to the right to the right left forms group.

Radio-control toy of the present invention, also comprises convolution building blocks and two the first runner building blocks.These convolution building blocks comprise two rotating shafts, a gear train be connected with described rotating shaft, one forms the driving lever of interlock with this gear train, a percussion part that can move forward and backward, the elastic parts of this percussion part of connection, a base portion, two to be extended forward by these base portion both sides and to define the extension of a spatial accommodation with this base portion, 3rd motor, a driving gear affixed with the 3rd motor, a reduction gearing being engaged in this driving gear, a drive link be meshed with this reduction gearing, two tooth sectors being engaged in two end opposite of this drive link, two lay respectively at described extension and are connected between described tooth sector and described rotating shaft with the trace of axis of rotation described in interlock, wherein said trace has two and is formed at the one end near this base portion respectively and the connection gear being engaged in described tooth sector respectively, and two are formed at the other end respectively and are engaged in the end gear of described rotating shaft respectively, described trace, described connection gear and described end gear coaxial rotating are with axis of rotation described in interlock, and this driving lever is sheathed on this drive link, and forms coaxial interlock with this drive link.Described first runner building blocks are arranged at this convolution building blocks rotationally.When this bluetooth communication module sends described continuous manipulation instruction to this ECU, this ECU can be made in this time interval according to described continuous manipulation order-driven the 3rd motor, thus after this driving gear of drive rotates, this reduction gearing of meeting interlock, this drive link, described tooth sector and described trace, make when with described rotating shaft generation, yearning inward turning turns described first runner building blocks mutually respectively, can will be positioned at that these convolution building blocks are outer and this convolution building blocks taken in by the ball touched, or when described first runner building blocks produce oppositely towards inner rotary with described rotating shaft respectively, can with described axis of rotation, thus this ball being arranged in the spatial accommodation of these convolution building blocks is thrown and throw away.

Radio-control toy of the present invention, this programmable operation and control interface comprises an edit pattern, during described wherein under this edit pattern, layout belongs to one and inhales ball and penetrate ball control lines, and it can preset for this user and describedly control relevant manipulation instruction with inhaling ball or penetrate ball.

Radio-control toy of the present invention, also comprise the second runner building blocks that two are arranged at these convolution building blocks rotationally, wherein each second runner building blocks is coaxial with other the first runner building blocks each, and being convexly equipped in the upper and lower sides of one of them corresponding extension respectively, described second runner building blocks and described first runner building blocks are synchronized with the movement.

Radio-control toy of the present invention, also comprises a moulding building blocks be combined in above these the first power building blocks.

Beneficial effect of the present invention is: player can be allowed to preset with the programmable operation and control interface of the operating application program of running gear and manipulate instruction continuously, make this radio-control toy can according to manipulating instruction continuously, in this time interval, automatically carry out various action (as advance, retrogressing etc.), thus there is high entertainment effect and excitement.

Accompanying drawing explanation

Fig. 1 is the three-dimensional combination figure of general football robot;

Fig. 2 is functional block diagram, and a preferred embodiment of radio-control toy of the present invention is described;

Fig. 3 is three-dimensional combination figure, and the assemblies such as the moulding building blocks group in the preferred embodiment of radio-control toy of the present invention, the first power building blocks, the second power building blocks, wheel building blocks and convolution building blocks are described, one of them ball is recovered in these convolution building blocks by outside;

Fig. 4 is stereogram, illustrates that the composite state Specifications of building blocks taken turns by this preferred embodiment one power building blocks and two;

Fig. 5 is stereogram, and this power building blocks internal structure of this preferred embodiment is described;

Fig. 6 is stereogram, and convolution building blocks, two first runner building blocks of this preferred embodiment are described, and the composite state Specifications of two the second runner building blocks;

Fig. 7 is stereogram, and the internal structure of these convolution building blocks of this preferred embodiment is described;

Fig. 8 is schematic diagram, and the inner interstructural start relation of these convolution building blocks of this preferred embodiment is described;

Fig. 9 is operation screen schematic diagram, and the edit pattern of the programmable operation and control interface of the remote controller in this preferred embodiment is described; And

Figure 10 is operation screen schematic diagram, and the play mode of the programmable operation and control interface of the remote controller in this preferred embodiment is described.

Detailed description of the invention

Below in conjunction with drawings and Examples, the present invention is described in detail.

Consult Fig. 2 to Figure 10, a preferred embodiment of radio-control toy of the present invention comprises first power building blocks 1, second power building blocks 2, the wheel building blocks 120 being arranged at these the first power building blocks 1, the wheel building blocks 220 being arranged at these the second power building blocks 2, convolution building blocks 3, two the first runner building blocks 511, 512, two the second runner building blocks 521, 522, a ball 81, one is combined in this first and second power building blocks 1, moulding building blocks 82 above in the of 2, guiding building blocks 6, a battery case 7 (see Fig. 5), an ECU 4, and a remote controller 9.

These the first power building blocks 1 comprise first power transmission shaft 12 and first motor 11, when this first motor 11 is by driving, this first power transmission shaft 12 can be driven to rotate.In like manner, these the second power building blocks 2 comprise a second driving shaft 22 and second motor 21, when this second motor 21 is by driving, this second driving shaft 22 can be driven to rotate (as shown in Figure 5, but second driving shaft 22 is at opposite side, so do not show second driving shaft 22 in Figure 5).

As shown in Fig. 6 to 8, these convolution building blocks 3 comprise two rotating shafts 35, a gear train 36 be connected with described rotating shaft 35, one forms the driving lever 37 of interlock with this gear train 36, a percussion part 38 that can move forward and backward, the elastic parts 39 of this percussion part 38 of connection, one base portion 30, two to be extended forward by these base portion 30 both sides and to define the extension 32 of a spatial accommodation 33 with this base portion 30, 3rd motor 31, a driving gear 361 affixed with the 3rd motor 31, a reduction gearing 362 being engaged in this driving gear 361, a drive link 363 be meshed with this reduction gearing 362, two tooth sectors 364 being engaged in two end opposite of this drive link 363, two lay respectively at described extension 32 and are connected between described tooth sector 364 and described rotating shaft 35 with the trace 365 that rotating shaft described in interlock 35 is rotated.Described trace 365 has two and is formed at the one end near this base portion 30 respectively and the connection gear 366 being engaged in described tooth sector 364 respectively, and two are formed at the other end respectively and are engaged in the end gear 367 of described rotating shaft 35 respectively.Described trace 365, described connection gear 366 rotate with rotating shaft described in interlock 35 with described end gear 367 coaxial rotating.This driving lever 37 is sheathed on this drive link 363, and forms coaxial interlock with this drive link 363.

First runner building blocks 511,512 and second runner building blocks 521,522 are arranged at this convolution building blocks 3 all rotationally.Each second runner building blocks 521,522 and each other the first runner building blocks 511,512 coaxial, and be convexly equipped in the upper and lower sides of one of them corresponding extension 32 respectively.Described second runner building blocks 521,522 and described first runner building blocks 511,512 are synchronized with the movement.

As shown in Fig. 3,6, this moulding building blocks group 82 is detachable to be liftoffly combined in above these first and second power building blocks 1,2, and user can be allowed to select the building blocks of all styles of with hobby, and gives the rein to imagination to have assembled.

As shown in Figure 2, this ECU 4 is electrically connected with this first motor 11, second motor 21 and the 3rd motor 31.When this first motor 11 is driven by this ECU 4, this first power transmission shaft 12 can be driven to rotate.When this second motor 21 is driven by this ECU 4, this second driving shaft 22 can be driven to rotate.When the 3rd motor is driven by this ECU 4, this driving gear 361 can be driven to rotate.

This remote controller 9 comprises a processing module 91, storing this operating application program 900 of memory module 90, execution of an operating application program (APP) 900 and supplies user to manipulate the display module 93 (as LCD module etc.) of the input module 92 (as touch-control module etc.) of this operating application program 900, a programmable operation and control interface 901 (referring to Fig. 9) of this operating application program 900 of display, and a bluetooth communication module 94.In the present embodiment, this remote controller 9 can be such as the running gear such as intelligent mobile phone or tablet PC.After this operating application program 900 installed by this remote controller 9 and this processing module 91 performs this operating application program 900, this display module 93 can present this programmable operation and control interface 901 and operate under an edit pattern or a play mode for user.

As shown in Figure 9, under this edit pattern, this programmable operation and control interface 901 comprise layout when having multiple time layout district, first toolbar 903 and second toolbar 904.In the present embodiment, time described, layout can be divided into capable 907, one of direction controlling further and inhales ball/penetrate ball control lines 908 and quick (Turbo) control lines 909.

During each of this direction control lines 907, layout can set a manipulation instruction relevant to direction controlling for user, as gone ahead, walking backward, original place rotation left, original place rotation to the right, antecurvature or antecurvature to the right left.That is, direction controlling capable 907 time layout in the manipulation instruction that sets can manipulate the rotation direction (forward or reverse) of the first motor 11 and the second motor 21, thus make moulding building blocks 82, first power building blocks 1, second power building blocks 2, convolution building blocks 3, first runner building blocks 511,512 and second runner building blocks 521,522 etc. produce various dissimilar motion together, as gone ahead, walking backward, left original place rotate, to the right original place rotate, antecurvature or antecurvature to the right left.

During this suction ball/penetrate each of ball control lines 908, layout can set one with inhaling ball or penetrate ball for user and control relevant manipulation instruction.That is, this suction ball/penetrate ball control lines 908 time layout in the manipulation instruction that sets can manipulate the rotation direction (forward or reverse) of the 3rd motor 31, thus make convolution building blocks 3, first runner building blocks 511,512 and second runner building blocks 521,522 etc. produce the action of inhaling ball or penetrating ball.

That is, radio-control toy of the present invention can according to the continuous manipulation instruction preset, make ECU 4 in this time interval according to described continuous manipulation order-driven the 3rd motor 31, thus after this driving gear 361 of drive rotates, this reduction gearing 362 of meeting interlock, this drive link 363, described tooth sector 364 and described trace 365, make when described first runner building blocks 511, 512 respectively with described rotating shaft 35 produce mutually yearn for inward turning turn time, can will be positioned at that these convolution building blocks 3 are outer and this convolution building blocks 3 taken in by the ball 81 touched, or when described first runner building blocks 511, 512 when producing oppositely towards inner rotary with described rotating shaft 35 respectively, can rotate with described rotating shaft 35, thus this ball 81 being arranged in the spatial accommodation 33 of these convolution building blocks 3 is thrown and throw away.

During each of this quick control lines 909, whether layout will be able to accelerate setting further at the motion mode of this direction control lines 907 setting for user.

This first toolbar 903 comprise a BlueTooth button 9031, Edit button 9032, deposit button 9033, broadcasting/pause button 9034, broadcasting speed button 9035 and one leave (return to last layer) button 9036.This BlueTooth button 9031 in order to being be in linking bluetooth or the non-linking status of bluetooth between the bluetooth communication module 94 of display remote controller 9 and this ECU 4, and can linking to cut off or obtain link for clicking.This Edit button 9032 enters editing mode with for layout when clicking to make described.The continuous manipulation instruction of (namely having preset) edited by this deposit button 9033 in order to store user.This broadcast button 9034 manipulates instruction continuously in order to play or to suspend user's one section of having preset.This leaves button 9036 and gets back to last layer picture, as desktop etc. in order to exit this operating application program (APP) 900.

This second toolbar 904 comprises an instruction 9041, of going ahead and walks instruction 9042, original place rotate instruction 9043, the antecurvature instruction of original place rotate instruction 9044, to the right left 9045, antecurvature instruction 9046, backward left to the right and inhale ball instruction 9047, and penetrate ball instruction 9048 and an assisted instruction 9049.

When user wants to preset one section of continuous manipulation instruction, it can click the Edit button 9032 on programmable operation and control interface 901, and during to make described, layout enters editing mode.Then, time layout when user is just by towing to the instruction in the second toolbar 904 in layout district, the manipulation instruction needed for layout during each of this time interval is set to direction controlling capable 907, inhale ball/penetrate ball control lines 908 or fast control lines 909 time layout in.Such as, as shown in Figure 9, if wish, this radio-control toy was gone ahead at first second, then layout (counting from the left side) when needing the instruction 9041 of going ahead of the second toolbar 904 to be towed to first of direction controlling capable 907; If wish, this radio-control toy was walked backward at second second, then need the second toolbar 904 to walk layout when instruction 9042 tows to second of direction controlling capable 907 backward; If wish, this radio-control toy is antecurvature to the right at the 3rd second, then layout when needing the antecurvature instruction 9046 of the second toolbar 904 to be towed to the 3rd of direction controlling capable 907 to the right; If wish, this radio-control toy inhaled ball at the 4th second, then layout when needing the suction ball instruction 9047 of the second toolbar 904 to tow to suction ball/penetrate the 4th of ball control lines 908; If wish the quick anticlockwise at the 5th second of this radio-control toy, layout when then needing the rotate instruction of original place left 9043 of the second toolbar 904 to be towed to the 5th of direction controlling capable 907, and will speed up layout when instruction 9049 tows to the 5th of quick control lines 909; If wish, this radio-control toy penetrated ball at the 6th second, then need the second toolbar 904 to penetrate layout when ball instruction 9048 tows to suction ball/penetrate the 6th of ball control lines 908.

Then, broadcasting speed is selected and after clicking broadcast button 9034 when user clicks broadcasting speed button 9035, the bluetooth communication module 94 of remote controller 9 just can include this section of bluetooth signal manipulating instruction continuously and be sent to this ECU 4 by one, make this ECU 4 drive this first motor 11, second motor 21 and the 3rd motor 31 to manipulate instruction forward or reverse continuously according to this section at this time interval, the continuous manipulation instruction thus making radio-control toy of the present invention can preset according to user emulates the football game mode of mechanical figures imitating movement of football player.Meanwhile, this programmable operation and control interface 901 also can be transformed into play mode.Such as, as shown in Figure 10, because user selects to play with four speeds, so during the execution of the manipulation instruction of layout when completing first, can show in broadcasting number of seconds viewing area 906 in programmable operation and control interface 901 and play to 0.25 second at present, and as in playing time layout instruction frame 905 shown in, layout when it moves to second group by layout when first group, represents the manipulation command content by layout during broadcasting second group.That is, in the present embodiment, the continuous manipulation instruction that radio-control toy of the present invention can preset according to Figure 10, sequentially carried out advancing in 1.5 seconds, retreat, right curved, inhale ball, anticlockwise fast, and penetrate the action of ball, thus there is high entertainment effect and excitement.And along with the raising (namely this time interval is longer) of the complexity of described continuous manipulation instruction, obviously this kind of unprecedented entertainment effect and excitement also can along with increases.

In sum, radio-control toy of the present invention can allow player preset with the programmable operation and control interface of running gear and manipulate instruction continuously, make this radio-control toy can according to manipulating instruction continuously, automatically various action (as the ball that advances, retreats, turns, inhales, penetrating ball etc.) is carried out in this time interval, thus there is high entertainment effect and excitement, so really object of the present invention can be reached.

Claims (10)

1. a radio-control toy, is characterized in that, comprises:

First power building blocks, comprise first power transmission shaft and first motor, when this first motor is driven, this first power transmission shaft can be driven to rotate;

An ECU, is electrically connected with this first motor; And

A remote controller, comprise the memory module that stores an operating application program, the processing module of this operating application program of execution, one manipulates the input module of this operating application program for user, the display module of a programmable operation and control interface of this operating application program of display, and a bluetooth communication module, wherein this programmable operation and control interface is with being set in advance in a time interval the multiple continuous manipulation instruction performed for this user, when this bluetooth communication module sends described continuous manipulation instruction to this ECU, this ECU can be made to drive this first motor, thus this first power transmission shaft is made to rotate according to described continuous manipulation instruction in this time interval.

2. radio-control toy according to claim 1, it is characterized in that, this programmable operation and control interface comprises an edit pattern and a play mode, under this edit pattern, this user utilizes layout when this programmable operation and control interface corresponding to this time interval multiple to set described continuous manipulation instruction respectively, then, under this play mode, this first power transmission shaft rotates according to the manipulation instruction of layout time each in this time interval.

3. radio-control toy according to claim 1, it is characterized in that, also comprise the wheel building blocks that second power building blocks and two are arranged at these the first power building blocks and the second power building blocks respectively rotationally, wherein these the second power building blocks comprise a second driving shaft and second motor be electrically connected with this ECU, described building blocks of taking turns are connected with this first power transmission shaft and second driving shaft respectively, when this second motor is driven, this second driving shaft can be driven to rotate, when this bluetooth communication module sends described continuous manipulation instruction to this ECU, this ECU can be made in this time interval according to described this first motor of continuous manipulation order-driven and the second motor, thus this first power transmission shaft and second driving shaft is driven, rotate according to described continuous manipulation instruction in this time interval to make described building blocks of taking turns.

4. radio-control toy according to claim 3, is characterized in that, also comprises a moulding building blocks be combined in above these the first power building blocks and the second power building blocks.

5. radio-control toy according to claim 3, it is characterized in that, this programmable operation and control interface comprises an edit pattern and a play mode, under this edit pattern, this user utilizes layout when this programmable operation and control interface corresponding to this time interval multiple to set described continuous manipulation instruction respectively, then, under this play mode, described building blocks of taking turns rotate according to the manipulation instruction of layout time each in this time interval.

6. radio-control toy according to claim 5, it is characterized in that, during described under this edit pattern, to belong to a direction controlling capable for layout, it can preset the described manipulation instruction relevant to direction controlling for this user, and the described manipulation instruction relevant to direction controlling is selected from by an instruction of going ahead, one is walked instruction backward, original place rotate instruction, original place rotate instruction, an antecurvature instruction left and an antecurvature instruction to the right to the right left forms group.

7. radio-control toy according to claim 3, is characterized in that, also comprises:

Convolution building blocks, comprise two rotating shafts, a gear train be connected with described rotating shaft, one forms the driving lever of interlock with this gear train, a percussion part that can move forward and backward, the elastic parts of this percussion part of connection, a base portion, two to be extended forward by these base portion both sides and to define the extension of a spatial accommodation with this base portion, 3rd motor, a driving gear affixed with the 3rd motor, a reduction gearing being engaged in this driving gear, a drive link be meshed with this reduction gearing, two tooth sectors being engaged in two end opposite of this drive link, two lay respectively at described extension and are connected between described tooth sector and described rotating shaft with the trace of axis of rotation described in interlock, wherein said trace has two and is formed at the one end near this base portion respectively and the connection gear being engaged in described tooth sector respectively, and two are formed at the other end respectively and are engaged in the end gear of described rotating shaft respectively, described trace, described connection gear and described end gear coaxial rotating are with axis of rotation described in interlock, and this driving lever is sheathed on this drive link, and forms coaxial interlock with this drive link, and

Two the first runner building blocks, are arranged at this convolution building blocks rotationally;

When this bluetooth communication module sends described continuous manipulation instruction to this ECU, this ECU can be made in this time interval according to described continuous manipulation order-driven the 3rd motor, thus after this driving gear of drive rotates, this reduction gearing of meeting interlock, this drive link, described tooth sector and described trace, make when with described rotating shaft generation, yearning inward turning turns described first runner building blocks mutually respectively, can will be positioned at that these convolution building blocks are outer and this convolution building blocks taken in by the ball touched, or when described first runner building blocks produce oppositely towards inner rotary with described rotating shaft respectively, can with described axis of rotation, thus this ball being arranged in the spatial accommodation of these convolution building blocks is thrown and throw away.

8. radio-control toy according to claim 7, it is characterized in that, this programmable operation and control interface comprises an edit pattern, during described wherein under this edit pattern, layout belongs to one and inhales ball/penetrate ball control lines, and it can preset for this user and describedly control relevant manipulation instruction with inhaling ball or penetrate ball.

9. radio-control toy according to claim 7, it is characterized in that, also comprise the second runner building blocks that two are arranged at these convolution building blocks rotationally, wherein each second runner building blocks is coaxial with other the first runner building blocks each, and being convexly equipped in the upper and lower sides of one of them corresponding extension respectively, described second runner building blocks and described first runner building blocks are synchronized with the movement.

10. radio-control toy according to claim 1, is characterized in that, also comprises a moulding building blocks be combined in above these the first power building blocks.