WO2021027637A1 - 玩具车 - Google Patents
玩具车 Download PDFInfo
- Publication number
- WO2021027637A1 WO2021027637A1 PCT/CN2020/106837 CN2020106837W WO2021027637A1 WO 2021027637 A1 WO2021027637 A1 WO 2021027637A1 CN 2020106837 W CN2020106837 W CN 2020106837W WO 2021027637 A1 WO2021027637 A1 WO 2021027637A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- detection switch
- toy vehicle
- wheels
- detection
- toy
- Prior art date
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Classifications
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
- A63H17/00—Toy vehicles, e.g. with self-drive; ; Cranes, winches or the like; Accessories therefor
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
- A63H17/00—Toy vehicles, e.g. with self-drive; ; Cranes, winches or the like; Accessories therefor
- A63H17/26—Details; Accessories
- A63H17/36—Steering-mechanisms for toy vehicles
- A63H17/395—Steering-mechanisms for toy vehicles steered by program
Definitions
- the invention relates to the technical field of toys, in particular to a toy vehicle.
- the toy car is started to move forward through touch induction, the starting method is rigid and single, not intelligent, and is not conducive to children's operation and play.
- the present invention aims to solve at least one of the technical problems existing in the prior art. For this reason, the present invention proposes a toy car to solve the problem that the existing toy car has a rigid starting method and is not conducive to children's play.
- a toy vehicle includes: a vehicle body; wheels, the wheels are arranged on the vehicle body, the wheels include a driving wheel and a driven wheel, the driven wheel having an upper stop A driven wheel shaft on the vehicle body that can float up and down between the lower stop and the lower stop; a first detection switch, the first detection switch is provided on the vehicle body, and the driven wheel shaft is at the upper stop When the first detection switch is triggered when the driven axle is at the bottom stop, the first detection switch returns to the original position; the second detection switch is used to detect the rotation parameter of the wheel Driving part, the driving part is connected with the driving wheel to drive the driving wheel to rotate; the driving part is connected with the first detection switch and the second detection switch to control the toy vehicle by the detection result Driving.
- the startup mode is flexible, more intelligent, and functional, which can increase the playability and interactivity of the product, and is conducive to children's operation and play.
- the toy vehicle further includes a response element connected to the first detection switch and the second detection switch to control the response effect of the toy vehicle based on the detection result; wherein, the response element It is a light emitting part and/or a sounding part.
- At least one detection gear is connected to the axle of the driving wheel, and the second detection switch is set corresponding to the detection gear to detect the rotation parameter of the detection gear.
- the second detection switch is a sensor provided corresponding to the active wheel, and the sensor is used to detect the number of revolutions and the number of accelerations of the active wheel.
- the first detection switch includes two elastic blades that are always spaced apart. When the driven wheel shaft is at the upper stop position, the two elastic blades are pushed to contact to trigger the first detection switch, When the driven wheel shaft is located at the bottom stop, it is separated from the elastic blade.
- the driven wheel shaft is provided with a pressing block that is slidingly fitted on the vehicle body, so that the driven wheel shaft can float between the upper stop position and the lower stop position.
- the two elastic blades are spaced up and down, and one side of the elastic blade located on the lower side is arranged close to the driven axle.
- the elastic blade on the lower side is provided with a first protrusion, and the first protrusion abuts on the driven wheel shaft.
- the light emitting element is configured as a vehicle light of the toy vehicle.
- a touch area for controlling the power switch is provided on the vehicle body.
- Figure 1 is a schematic diagram of the structure of the toy car in the first embodiment of the present invention
- Figure 2 is a partial structural diagram of the toy car in the present invention.
- FIG. 3 is a schematic diagram of the structure of the driven wheel and the first detection switch in the present invention.
- FIG. 4 is a schematic diagram of the structure of the toy car in the second embodiment of the present invention.
- Fig. 5 is a structural schematic diagram 1 of the toy vehicle according to the third embodiment of the present invention.
- Fig. 6 is a second structural diagram of the toy vehicle according to the third embodiment of the present invention.
- the first detection switch 30 is the first detection switch
- the second detection switch 40 is the first detection switch
- Top stop a bottom stop b.
- a toy vehicle 100 includes: a vehicle body 10, wheels 20, a first detection switch 30, a second detection switch 40, and a driving component 50.
- the wheel 20 is provided on the vehicle body 10.
- the wheel 20 includes a driving wheel 21 and a driven wheel 22.
- the driven wheel 22 has a slave wheel that can float up and down between the upper stop a and the lower stop b. Wheel shaft 221. Since the driven wheel shaft 221 can float between the two stops, when the toy car 100 is suspended from the plane, the driven wheel shaft 221 moves down to the lower stop b due to gravity; when the toy car 100 contacts the plane, the driven wheel shaft 221 is moved up to the upper stop position a under the force from the plane, so the driven wheel 22 has two states of suspended and landed.
- the first detection switch 30 is provided on the vehicle body 10. The first detection switch 30 is triggered when the driven axle 221 is at the upper stop position a, and the first detection switch 30 returns to the original position when the driven axle 221 is at the lower stop position b. Therefore, the position of the driven wheel shaft 221 is detected by the first detection switch 30 to determine the state of the driven wheel 22 in response to the corresponding control of the toy vehicle 100.
- the second detection switch 40 is used to detect the rotation parameters of the wheel 20 to detect whether the toy car 100 is in a rotating state at this time, or to detect the rotating state of the wheel 20 in response to corresponding control of the toy car 100.
- the driving member 50 is connected with the driving wheel 21 to drive the driving wheel 21 to rotate, and the driving member 50 is connected with the first detection switch 30 and the second detection switch 40 to control the running of the toy vehicle 100 based on the detection result.
- the driving member 50 is connected with the first detection switch 30 and the second detection switch 40 to control the running of the toy vehicle 100 based on the detection result.
- the toy car 100 of the embodiment of the present invention by setting the first detection switch 30 and the second detection switch 40, a method is implemented to control the driving part 50 to drive the toy car by using the result of detecting the landing of the car and the rotation of the wheels as the command input signal.
- 100 driving mode, flexible starting mode, more intelligent, strong functionality can increase the playability and interactivity of the product, and is conducive to children's operation and play.
- the toy vehicle 100 further includes a response element 60 connected to the first detection switch 30 and the second detection switch 40 to control the response effect of the toy vehicle 100 based on the detection result.
- the detection result causes the light-emitting part 601 to produce a light effect, such as a flashing warning light, so as to make the whole car more gorgeous;
- the response part 60 is a sounding part (not shown), the detection result makes a sound
- the parts simulate sound effects, such as engine start sound, acceleration sound, and whistle sound, to attract children’s attention; when the response part 60 is a light-emitting part 601 and a sound part, it can produce both light and sound effects. Toys
- the overall car 100 is more interesting and more playable.
- the light-emitting element 601 is an LED lamp or a color-changing lamp to produce lights with different effects, with stable performance, easy installation and use, and beneficial to cost reduction.
- the light emitting element 601 is not limited to this, and will not be repeated here.
- the sound emitting element is a horn or a small speaker, which has a simple structure and low cost, which is beneficial to reduce the manufacturing cost of the toy vehicle 100.
- the sounding component is not limited to this, and will not be repeated here.
- the response member 60 may also be a vibrating member (not shown in the figure), for example, the vibrating member is a vibrating motor, so that the detection result can cause the toy vehicle 100 to produce a vibration effect.
- the vibrating member is not limited to this, and will not be repeated here.
- At least one detection gear 211 is connected to the axle of the driving wheel 21, and the second detection switch 40 is set corresponding to the detection gear 211 to detect the rotation parameters of the detection gear 211. That is, the second detection switch 40 determines the rotation parameters of the driving wheels 21 by detecting the rotation parameters of the detection gears 211, thereby solving the problem of difficulty in directly detecting the driving wheels 21.
- the detection process is stable and simple, and the detection results are accurate.
- the second detection switch 40 is a sensor provided corresponding to the active wheel 21, and the sensor is used to detect the number of revolutions and the number of accelerations of the active wheel 21. Therefore, by detecting the number of revolutions of the active wheels 21, the travel distance of the toy vehicle 100 can be detected. By detecting the number of accelerations of the active wheels 21, the state of the toy car 100 can be judged. For example, when the toy car 100 is quickly pushed, the second detection switch 40 sends a signal to the controller inside the toy car 100 to issue an instruction to accelerate. As a result, the driving member 50 drives the active wheels 21 to accelerate and enter the accelerated competition mode.
- the second detection switch 40 detects that the wheel 20 rotates without acceleration, and sends a signal to the controller inside the toy car 100 to issue a slow-moving command to drive
- the piece 50 drives the active wheels 21 to enter the slow rolling mode.
- the second detection switch 40 is an infrared sensor with high detection sensitivity and easy setting.
- the second detection switch 40 is not limited to an infrared sensor, and may also be other types of sensors, which will not be described here.
- the first detection switch 30 includes two elastic blades 31 that are always spaced apart.
- the driven axle 221 is located at the upper stop a, the two elastic blades 31 are pushed to contact with each other.
- the first detection switch 30 is triggered, and the driven axle 221 is separated from the elastic blade 31 when it is at the bottom stop b. In this way, it is detected whether the driven wheel 22 is on a plane.
- the weight of the driven wheel 22 causes the driven wheel shaft 221 to abut against the bottom of the vehicle, and the driven wheel shaft 221 Move down to the bottom stop b, and the two elastic blades 31 do not touch; if the toy car 100 is on a flat surface, the weight of the toy car 100 makes the bottom of the car downward, and the driven axle 221 moves up to the top stop a, and the two elastic blades The blade 31 is touched and triggered, and the first detection switch 30 is in an on state.
- the first detection switch 30 in this manner is simple in structure, low in cost, sensitive and flexible in triggering, and is beneficial to reducing the manufacturing cost of the toy vehicle 100.
- the driven axle 221 is provided with a pressing block 221a that is slidably fitted on the vehicle body 10, so that the driven axle 221 floats between the upper stop position a and the lower stop position b.
- the pressure block 221a is vertically slidably fitted on the car body 10. Through the guiding action of the pressure block 221a, the driven axle 221 can achieve stable floating at the upper stop position a and the lower stop position b, ensuring the stability and stability of the movement process. reliability.
- the two elastic blades 31 are spaced up and down, and one side of the elastic blade 31 located on the lower side is arranged close to the driven axle 221.
- the upper and lower elastic blades 31 do not contact and do not conduct; when the driven axle 221 is in the upper stop a, push the lower elastic blade 31 to move up, so that the two The elastic blade 31 contacts and conducts, turning on the first detection switch 30.
- the elastic blade 31 on the lower side is provided with a first protrusion 311, and the first protrusion 311 abuts on the driven axle 221.
- the first protrusion 311 makes the contact between the first protrusion 311 and the driven axle 221 more reliable, improves the sensitivity of the linkage between the driven axle 221 and the elastic blade 31, and facilitates the driving of the driven axle 221 when it floats up and down
- the two elastic blades 31 are triggered, thereby increasing the probability that the two elastic blades 31 are conducted.
- the light emitting element 601 is configured as a light of a toy car, and the light is in the most obvious part of the toy car 100, which can simulate the real state of the car driving, thereby improving the experience of the toy car 100.
- the light-emitting element 601 on the toy vehicle 100 is not limited to a vehicle light, for example, it can also be provided as a separate piece on the top of the toy vehicle 100, and the light-emitting element 601 may also be in other forms, which will not be described in detail here.
- the vehicle body 10 is provided with a touch area 11 for controlling the power switch. In order to realize the total power control of the entire toy car 100, unnecessary power waste is avoided.
- the touch area 11 is formed on the door of the toy vehicle 100, so that the operator can easily place his palms on the doors of the toy vehicle 100 when operating, so that the power can be turned on and off.
- the touch area 11 is not limited to being provided on the door of the vehicle, such as the rear or the front of the vehicle, but may also be other places, which will not be elaborated here.
- the driving member 50 is a driving mechanism composed of a motor and a gear to drive the driving wheels 21.
- the driving member 50 may also be other mechanisms, which will not be described here.
- a toy vehicle 100 includes a vehicle body 10, wheels 20, a first detection switch 30, a second detection switch 40, a driving part 50, and a response part 60.
- the wheel 20 includes a driving wheel 21 and a driven wheel 22.
- the vehicle body 10 is provided with an upper stop a and a lower stop b.
- the driven wheel 22 has a driven axle 221, and the driven axle 221 is at the upper stop a and the lower stop. Floating between bit b.
- the first detection switch 30 includes two elastic blades 31 with a constant interval.
- the elastic blades 31 are provided with first protrusions 311, and the driven wheel shaft 221 is provided with a pressing block 221a. When the driven wheel shaft 221 is floating up and down, it is pressed The first protrusion 311 on the block 221a causes the two elastic blades 31 to trigger and activate the first detection switch 30.
- the second detection switch 40 is an infrared sensor. At least one detection gear 211 is connected to the axle of the driving wheel 21. The second detection switch 40 is set corresponding to the detection gear 211 to detect the number of rotations and acceleration times of the driving wheel 21.
- the response member 60 is a light emitting member 601 and a sound emitting member, wherein the light emitting member 601 is provided as an independent member on the top of the front end of the vehicle body 10.
- the vehicle body 10 is provided with a touch area 11 for controlling the power switch, and the touch area 11 is provided on the vehicle door.
- the first detection switch 30, the second detection switch 40, and the response member 60 are all connected to the driving member 50 to control the running and response effects of the toy vehicle 100 based on the detection result.
- the mode is automatically selected by the detection results of the first detection switch 30 and the second detection switch 40.
- Mode 1 Slow rolling mode, push the toy car 100 to walk slowly on a flat surface by hand, the first detection switch 30 detects that the wheel has landed, and the second detection switch 40 detects that the active wheel 21 rotates slowly, and the detection result is obtained.
- the internal control of 100 issues instructions to cause the light emitting element 601 to emit the corresponding light and the sound element to play the corresponding sound effect.
- Mode 2 Accelerating competition mode: by quickly pushing the toy car 100 to accumulate energy, the first detection switch 30 detects that the wheel has landed, and the second detection switch 40 detects that the active wheel 21 has accelerated multiple times, and the detection result is obtained inside the toy car 100
- the control issues instructions, and the number of accelerations determines the distance traveled by the toy car 100 and the flashing frequency of the light-emitting element 601. Accelerating 3 times or more can make the car travel about 23 meters.
- the structure of the toy vehicle 100 in the second embodiment is shown.
- the structure of the toy vehicle 100 in the second embodiment is substantially the same as the structure of the toy vehicle 100 in the first embodiment, and the same parts will not be described.
- the structure of the toy vehicle 100 in the third embodiment is shown.
- the structure of the toy vehicle 100 in the third embodiment is substantially the same as the structure of the toy vehicle 100 in the first embodiment, and the same parts are not described again.
- the difference is that the light-emitting part 601 is arranged on the top of the toy vehicle 100 as an independent part.
- the present invention judges the state of the toy vehicle 100 through the two conditions of the second detection switch 40 and the first detection switch 30 to intelligently switch the function mode. 1.
- the elastic blade 31 When the elastic blade 31 is turned on, if the second detection switch 40 detects the active wheel 21, it will enter mode 1 and play the corresponding sound effect at the same time; the car will stop playing and enter the standby mode. 2.
- the switch of the elastic blade 31 When the switch of the elastic blade 31 is turned off, if the second detection switch 40 detects the active wheel 2, it will enter mode 2.
- the accumulated acceleration times determine the driving distance of the car; and the driving distance is determined by the second
- the switch 40 is detected to determine the number of turns of the driving wheel 2. It can be seen that the present invention can switch function modes intelligently, which increases the intelligence, playability and interactivity of the product.
- the description with reference to the terms “embodiment”, “example”, etc. means that the specific feature, structure, material or characteristic described in conjunction with the embodiment or example is included in at least one embodiment or example of the present invention .
- the schematic representation of the above-mentioned terms does not necessarily refer to the same embodiment or example.
- the described specific features, structures, materials or characteristics may be combined in any one or more embodiments or examples in a suitable manner.
Abstract
Description
Claims (10)
- 一种玩具车,其特征在于,包括:车体;车轮,所述车轮设在所述车体上,所述车轮包括主动车轮和从动车轮,所述从动车轮具有在上止位和下止位之间可上下浮动地设在所述车体上的从动轮轴;第一检测开关,所述第一检测开关设在所述车体上,所述从动轮轴在上止位时触发所述第一检测开关,所述第一检测开关在所述从动轮轴于下止位时恢复原位;第二检测开关,所述第二检测开关用于检测所述车轮的转动参数;驱动件,所述驱动件与所述主动车轮相连以驱动所述主动车轮转动;所述驱动件与所述第一检测开关、所述第二检测开关相连,以由检测结果控制玩具车的行驶。
- 根据权利要求1所述的玩具车,其特征在于,还包括响应件,所述响应件与所述第一检测开关、所述第二检测开关相连,以由检测结果控制玩具车的响应效果;其中,所述响应件为发光件和/或发声件。
- 根据权利要求1所述的玩具车,其特征在于,所述主动车轮的轮轴上连接至少一个检测齿轮,所述第二检测开关对应所述检测齿轮设置以检测所述检测齿轮的转动参数。
- 根据权利要求1所述的玩具车,其特征在于,所述第二检测开关为对应所述主动车轮设置的传感器,所述传感器用于检测所述主动车轮的转数及加速次数。
- 根据权利要求1所述的玩具车,其特征在于,所述第一检测开关包括两个常保持间隔的弹性叶片,在所述从动轮轴位于上止位时推动两个所述弹性叶片接触以触发所述第一检测开关,所述从动轮轴位于下止位时脱离所述弹性叶片。
- 根据权利要求1所述的玩具车,其特征在于,所述从动轮轴上设有滑动配合在所述车体上的压块,以使所述从动轮轴在所述上止位和所述下止位之间浮动。
- 根据权利要求5所述的玩具车,其特征在于,两个所述弹性叶片为上下间隔分布,位于下侧的所述弹性叶片的一侧靠近所述从动轮轴设置。
- 根据权利要求7所述的玩具车,其特征在于,位于下侧的所述弹性叶片上设有第一凸起,所述第一凸起止抵在所述从动轮轴上。
- 根据权利要求1-8中任一项所述的玩具车,其特征在于,所述发光件构造成所述玩具车的车灯。
- 根据权利要求1-8中任一项所述的玩具车,其特征在于,所述车体上设有用于控制电源开关的触摸区域。
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CN201910733655.2A CN110384937A (zh) | 2019-08-09 | 2019-08-09 | 玩具车 |
CN201910733655.2 | 2019-08-09 |
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CN110384937A (zh) * | 2019-08-09 | 2019-10-29 | 奥飞娱乐股份有限公司 | 玩具车 |
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