Abstract:
A toy gripping machine including a machine base covered with a transparent covering to hold candies, a suspension arm assembly movably mounted on the machine base inside the transparent covering and having a grab controlled to grip the candies, a control arm assembly controlled to adjust the elevation of the suspension arm assembly, a driving arm assembly controlled to turn the suspension arm assembly horizontally and to open/close the grab in gripping the candies, and a stop bar assembly controlled to open the passage between a sloping slide way and an outlet for permitting the caught candies to be delivered out of the machine base.

Description:
BACKGROUND OF THE INVENTION 
     The present invention relates to a toy gripping machine played to grip candies by means of controlling the position of a suspension arm assembly and operating a grab. 
     Various toy gripping machines have been disclosed for gripping a variety of toys. These toy gripping machines commonly have a fixed suspension arm and a grab suspended from the suspension arm and controlled to grip toys. 
     SUMMARY OF THE INVENTION 
     It is one object of the present invention to provide a toy gripping machine which can be technically operated to adjust the elevation and angular position of the suspension arm in gripping candies. It is another object of the present invention to provide a toy gripping machine which has a transparent covering to hold candies on the inside for showing. It is still another object of the present invention to provide a toy gripping machine which is inexpensive to manufacture. According to the preferred embodiment, the toy gripping machine comprises a machine base covered with a transparent covering to hold candies, a suspension arm assembly movably mounted on the machine base inside the transparent covering and having a grab controlled to grip the candies, a control arm assembly controlled to adjust the elevation of the suspension arm assembly, a driving arm assembly controlled to turn the suspension arm assembly horizontally and to open/close the grab in gripping the candies, and a stop bar assembly controlled to open the passage between a sloping slide way and an outlet for permitting the caught candies to be delivered out of the machine base. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 is a perspective view of a toy gripping machine according to the present invention; 
     FIG. 2 is an exploded view of the toy gripping machine shown in FIG. 1; 
     FIG. 3 is a bottom view of the upper casing of the machine base of the toy gripping machine shown in FIG. 1; 
     FIG. 4 is a side view of the driving arm assembly of the toy gripping machine shown in FIG. 1; 
     FIG. 5 is a top view of the driving arm assembly of FIG. 4 in operation; 
     FIG. 6 is a side view showing the control arm assembly of the toy gripping machine of the present invention in operation; 
     FIG. 7 shows the suspension arm assembly driven by the driving arm assembly according to the present invention; and 
     FIG. 8 shows the stop bar assembly operated according to the present invention. 
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
     Referring to FIGS. 1, 2, 3, and 4, a toy gripping machine in accordance with the present invention is generally comprised of a transparent covering 1, a machine base 2, a suspension arm assembly 3, a control arm assembly 4, a driving arm assembly 5, and a stop bar assembly 6. The transparent covering 1 encloses the top of the base 2 to hold candies on the inside, having two downward hooks 11 bilaterally disposed at the bottom and respectively hooked on the machine base 2. The machine base 2 is comprised of a bottom casing 22 and an upper casing 21 supported on the bottom casing 22. The upper casing 21 comprises a vertical axle housing 211, a vertical through hole 212, two retaining holes 213 for engagement with the downward hooks 11 of the transparent covering 1, a front opening 214, a control arm mounting hole 215, and a stop bar mounting hole 216. The bottom casing 22 comprises a sloping slide way 221 and an outlet 222 in communication with the sloping slide way 221. The suspension arm assembly 3 is mounted on the vertical axle housing 211 of the upper casing 21, and is comprised of a hollow suspension arm 31, a link 32, a movable pawl 33, a compression spring 34, and an ornamental disk 35. The suspension arm 31 is comprised of two symmetrical frames 311, each frame 311 having a fixed pawl 312 at the top end, a raised portion 313 and a recessed portion 314 at the bottom end. The ornamental disk 35 is mounted on the suspension arm 31 at the front side. The link 32 is shaped like the number &#34;7&#34; and inserted into the hollow suspension arm 31, and includes a coupling hole 321 at the front end coupled with the movable pawl 33, which acts with the fixed pawls 312 of the frames 311 of the hollow suspension arm 31, a bottom coupling portion 322 around the periphery of the bottom end, and a return spring 323 at the top end. The control arm assembly 4 comprises a control arm 41, a link 42, and an actuating arm 43. The control arm 41 is inserted through the control arm mounting hole 215, having a coupling portion 411 at the bottom end coupled to one end of the link 42. The link 42 is coupled between the control arm 41 and the actuating arm 4, having a transverse pivot 421 in the middle pivotably mounted in the bottom casing 22. The actuating arm 43 has one end coupled to the link 42, a transverse pivot 431 in the middle pivotably mounted in the upper casing 21, and a front end terminating in a substantially U-shaped coupling portion 432 for coupling to the suspension arm assembly 3. The driving arm assembly 5 comprises a link 51, a coupling head 52, a connecting arm 53, a holder arm 54, and a driving arm 55. The holder arm 54 and the driving arm 55 are respectively extended out of the front opening 214 of the upper casing 21 for operation by hand. The link 51 comprises a coupling rod 511 in the middle revolvably connected between the upper casing 21 and the bottom casing 22, a front guide rod 512, and two elongated guide slots 513 longitudinally disposed at two opposite ends. The coupling head 52 is mounted around the suspension arm 31, having two opposite raised portions 521 and two opposite recessed portions 522 bilaterally disposed at one end and respectively engaged with the recessed portions 314 and raised portions 313 of the frames 311 of the suspension arm 31, and an elongated guide slot 523 at an opposite end movably coupled to the front guide rod 512 of the link 51. The coupling arm 53 comprises an upright guide rod 533 at the front end for movement in the elongated guide slot 523 of the coupling head 52, an upright pivot 531 at the rear end pivotally engaged in a hole (not shown) inside the upper casing 21, and a half-round hole 532 at the bottom end of the pivot 531. The holder arm 54 comprises a front coupling portion 542 at the front end, an upright handle 545 at the rear end, an arched transverse sliding groove 543 near the front coupling portion 542 for the sliding of the front guide rod 512 of the link 51, a transverse pivot 541 disposed near the upright handle 545 and pivotably mounted inside the upper casing 21, and two longitudinal slots 544 for coupling the coupling rod 511 of the link 51 and a front coupling rod 551 of the driving arm 55. The front coupling rod 551 of the driving arm 55 has a half-round top end inserted through one longitudinal slot 544 of the holder arm 54 and fitted into the half-round hole 532 of the coupling arm 53, and a circular bottom end revolvably coupled to the bottom casing 22. The stop bar assembly 6 comprises a stop bar 62 inserted through the stop bar mounting hole 216 of the upper casing 21, an end cap 61 fastened to the top end of the stop bar 62 outside the upper casing 21, and a spring coil 63 mounted around the bottom end of the stop bar 62 and stopped against the bottom casing 22. 
     Referring to FIG. 5, the driving arm assembly 5 is coupled to the suspension arm assembly 3, and controlled to turn the suspension arm assembly 3 horizontally in the vertical axle housing 211 of the upper casing 21. When the driving arm 55 is moved leftward, the coupling arm 53 is turned rightward, causing the link 51 to be turned leftward. When the link 51 is turned leftward, the coupling head 52 is turned leftward, and therefore the suspension arm assembly 3 is turned in one direction. On the contrary, when the driving arm 44 is moved rightward, the suspension arm assembly 3 is turned in the reversed direction. 
     Referring to FIG. 6, when the control arm 41 is depressed, the link 42 forced to turn the actuating arm 43, causing the coupling portion 432 of the actuating arm 43 moved downwards. When the coupling portion 432 of the actuating arm 43 is moved downwards, the suspension arm 31 is relatively lowered to compress the compression spring 34. When the control arm 41 is released, the compression spring 34 323 automatically pushes the suspension arm 31 back to its former position. 
     Referring to FIG. 7, the front coupling portion 542 of the holder arm 54 is Coupled to the bottom coupling portion 322 of the link 32. When the upright handle 545 is depressed, the link 32 is lifted to turn the movable pawl 33 toward the fixed pawls 312 for gripping candies. 
     Referring to FIG. 8, when candies are caught by the pawls 33 and 312 of the suspension arm assembly 3 and put in the the vertical through hole 212, the caught candies move through the sloping slide way 221 and stopped in place by the stop bar 62 of the stop bar assembly 6. When the stop bar 62 is depressed, the passage between the sloping slide way 221 and the outlet 222 is opened for permitting the caught candies to move from the sloping slide way 221 to the outlet 222. 
     It is to be understood that the drawings are designed for purposes of illustration only, and are not intended as a definition of the limits and scope of the invention disclosed.