1. Related Applications
This application is one of the related co-pending U.S. patent applications as listed. Such cases have the same assignee as the current application and have been concurrently filed. The disclosures of the applications listed in Table 1 are incorporated by reference in their entirety.
2. Technical Field
The present disclosure relates to a human figure toy, more specifically, to a human figure toy having a movable nose.
3. General Background
Throughout the years, a wide variety of toy figures and dolls have been created for entertainment purpose. Such toy figures and dolls have assumed shapes replicating humans, human infants, animals as well as a variety of frictional characters. In their efforts to increase the amusement and entertainment value of such toy figures and dolls, practitioners in the art have created a variety of toy figures and dolls having movable features and articulated bodies and limbs.
U.S. Pat. No. 4,516,951 issued to Saigo et al. sets forth a movable toy animal having a toy figure resembling a bunny or the like supporting a motor driven internal movement mechanism. The movement mechanism is operatively coupled to a pair of movable ears and a movable nose. When operated, the ears and nose undergo a predetermined movement cycle.
U.S. Pat. No. 5,304,087 issued to Terzian et al. sets forth a SOFT STUFFED TOY WITH MANUALLY DRIVEN HEAD, EARS AND/OR TONGUE carried in a flexible sling with the head of the figure exposed. The head includes animatable ears driven by rotation of the head relative to the body. In addition, the protruding movable tongue is driven by an actuator that also provides rotation of the head relative to the body.
While the foregoing described related art devices have to some extent improved the art and have in some instances enjoyed commercial success, there remains nonetheless a continuing need in the art for evermore improved, interesting and amusing toys having movable components.
The disclosure relates to a human figure toy that has a moveable nose. In one exemplary embodiment, the toy includes a storage unit, two pressure sensors, and two hand portions. The storage unit stores a plurality of media files for providing audio questions and alternative answer options to the audio questions. Each of the two pressure sensors is associated with one of the alternative answer options to an audio question. Each of the hand portions includes a light conductive portion and a frame portion. The toy also includes two light sources, each of which is placed on one of the frame portions.
Additionally, the toy also includes a head portion that includes an aperture formed thereon. A reversible motor and a light source are secured within the head portion. A nose assembly that is driven by the reversible motor extends through the aperture. A processor controls the light sources to emit light after the media file finishes playing, prompting the user to press the hand portions to initiate one of the pressure sensors. The processor also controls the reversible motor to rotate in response to signals from one of the pressure sensors, driving the nose assembly to move back and forth.
Other features and advantages will be or become apparent to one of ordinary skill in the art upon examination of the accompanying drawings and detailed description. It is intended that all such additional features and advantages be included within this description, be within the scope of the present disclosure, and be protected by the accompanying claims.
The components of the drawings are not necessarily drawn to scale, the emphasis instead being placed upon clearly illustrating the principles of a human figure toy. Moreover, in the drawings, like reference numerals designate corresponding parts throughout several views.
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As will be better understood from the following description, the toy 100 also includes a first sensor means 500a, which is used for detecting a user's action to the toy 100. In the embodiment shown in
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A circular hole 353 is formed on the attachment means 350 and extends along the entire length of the attachment means 350. A pair of guide grooves 354 is formed on the inner circumferential surface of the circular hole 353. The guide grooves 354 are positioned opposite to each other and extend along the entire length of the circular hole 353.
A chamber 355 is formed on the flange portion side, extending from a first end surface 356 of the flange portion 351 toward the cylindrical portion, which forms two openings 357 on a cylindrical outer surface of the cylindrical portion 352 and a second surface 358 of the flange portion 351. The openings 357 are formed opposite to each other. The attachment means 350 also includes a pair of guide posts 359 formed opposite to each other on an outer circumferential surface of the flange portion 351.
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After the nose assembly 330 has been constructed, the attachment means 350 is slidably attached to the first rod 340. More specifically, the first rod 340 is received in the circular hole 353 of the attachment means 350 with the guide grooves 354 engaging with the guide ribs 343 respectively. The first rod 340 is pushed against the attachment means 350 by the spring force of the spring 360, and specifically, the side surface 344 of the flange 342 on the first rod 340 engages the first end surface 356 of the flange portion 351 of the attachment means 350.
After the nose assembly 330 has been constructed, the second rod 370 is attached to the attachment means 350 with the two long tabs 371 in a first position and the two short tabs 373 in a second position. More specifically, in the first position, the two long tabs 371 are received in the two openings 357 respectively with the two hook portions 373 engaging the second end surface 358 of the flange portion 351.
Because the long tabs 371 are slightly outwardly angled, the long tabs 371 are slightly deformed in the first position and a spring force that springs back the long tabs 371 to its original shape pushes the long tabs 371 tightly against edges of the openings 357, thereby preventing the long tabs 371 from disengaging the openings 357.
In the second position, the short tabs 373 contact the surface of the attachment means 350. The movement of the attachment means 350 is thus limited by the long tabs 371 and the short tabs 373, and as a result, the second rod 370 is held in position.
In one embodiment, the spring 360 may be a coil spring and is slightly compressed in the second rod 370. One end of the spring 360 engages one end of the first rod 340. The second rod 370 is thus biased to a furthest position relative to the first rod 340 and can slide along the guide ribs 343 of the fist rod 340. During sliding of the second rod 370, the spring 360 is compressed, which is used for absorbing shocks, such as shock generated when the toy 100 falls with the second rod 370 hitting the ground. As a result, significant damages to the toy 100 thus can be avoided.
After the nose assembly 330 has been attached to the threaded motor shaft 401, the second rod 370 extends through the aperture 311 on the housing 310. The guide posts 359 on the attachment means 350 are received in the guide grooves 322 on the support member 320, thereby limiting a rotation of the attachment means 350.
The thread engagement of the motor shaft 400 and the threaded bore 341, the engagement of the guide rib 343 and the guide groove 354, and the engagement of the guide post 359 and the guide groove 322 cooperate to constitute a rotation/translation conversion mechanism. Therefore, a rotation of the motor shaft 401 is converted into translation movement of the nose assembly 330 and the second rod 370 can thus move back and forth.
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The light sources 40 are two light emitting diodes, each of which is placed on one of the leg portions. The second sensor means 500b are two pressure sensors, each of which is placed on one of the leg portions. More specifically, in the embodiment shown in
The frame portion 601 includes a supporting surface 603 on which a chamber 604 is formed. One of the light sources 40 (not shown) is received in the chamber 604. The second pressure means 500b is shaped like a thin plate with an opening 501b formed thereon. The second pressure means 500b is placed on the supporting surface 603 with the opening 501b registered with the chamber 604, such that the light emitted by the light source 40 can be guided out.
The light conductive casing 602 is made of soft plastic material and includes a chamber (not shown), which is formed like a glove, such that the frame portion 601 can be enclosed in the light conductive casing 602. The light conductive casing 602 is light conductive for guiding out the light emitted by the light source 40.
The storage unit 10 stores a plurality of media files that are used for providing audio questions to a user. The audio questions can be math questions and common sense questions, among other types of questions. In one embodiment, audio questions provided by the media files provide alternative answer options, such as a question asking, “ . . . which do you think is the suitable answer, A or B”. Each of the alternative answer options to each audio question corresponds to one of the second sensor means 500b, respectively. Specifically, the user can select one answer option by initiating a second sensor means 500b. The relationship between the audio questions, the answer options and the second sensor means 500b are defined in a database stored on the storage unit 10. The database also defines which of the alternative answer options is the correct answer for each audio question.
The processing unit 20 is used for playing one of the media files in response to a signal from the first sensor means 500a. The processing unit 20 also controls the light sources 40 to emit light after one of the media files finishes playing. In one embodiment, the light sources 40 keep flashing in a predetermined pattern for a preset period, prompting the user to press the hand portion 600, such that one of the second sensor 500b means can be initiated. The content output unit 30 is used for outputting the media files in response to signals from the processing unit 20.
When initiated, one of the second sensor means 500b sends a signal to the processing unit 20. The processing unit 20 determines whether the user's response is correct according to the database on the storage unit 10. In one embodiment, the processing unit 20 generates a control signal that is used for controlling the motor 400 to rotate in a positive direction when the user's response is correct. When the user's response is incorrect, the processing unit 20 generates a control signal that is used for controlling the motor 400 to rotate in a negative direction.
The motor drive circuit 50 receives the control signals from the processing unit 20 and provides a series of motor drive pulses to the motor 400. The pulse counter 60 counts the number of the motor drive pulses generated by motor drive circuit 50. When the number of the motor drive pulses reaches a preset value, the pulse counter 60 sends a signal to the processing unit 20. The processing unit 20 reverses the motor 400 according to the signal from the pulse counter 60. The nose assembly 330, which is driven by the motor 400, can thus move back after reaching a limit position. In this embodiment, the motor 400 can continue running for a predetermined time after which the motor 400 stops running and awaits the next signal from the second sensor means 500b.
Although the present disclosure has been specifically described on the basis of an exemplary embodiment, the disclosure is not to be construed as being limited thereto. Various changes or modifications may be made to the embodiment without departing from the scope and spirit of the disclosure.
Number | Date | Country | Kind |
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200710123915.1 | Oct 2007 | CN | national |