Electromechanical reaction-time game toy

A competitive game toy for one or more players, dependent on personal reaction time and hand-eye coordination. Players manually trigger the driving of movable indicator arms along a path having successive intervals marked with award indicia of any desired game or sport, and also manually halt the indicator therealong. In a variant players manually trigger successive actuation of electrical indicator lights along such a path having intervals lighted thereby in accordance with movement of an electrical contactor therealong. The intervals are marked with award indicia of any desired game or sport, and may be point scores or instructions to add or delete turns or for simulated playing of a game or sport, such as baseball. The players striving to be awarded a high score or good play, try to stop at or light up path intervals bearing favorable indicia.

FIELD OF THE INVENTION 
This invention relates to a toy for playing a competitive game such as a 
simulated sport alone or with one or more opponents, and concerns 
especially a time-reaction toy having a manually triggered indicator that 
is also manually arrested for selecting points to be scored or plays to be 
made. 
BACKGROUND OF THE INVENTION 
Competitive game toys diverge toward two diverse classes, game boards with 
chance-related play determinants (e.g., dice, spinners) and complex 
structurally modeled simulations, such as car or horse races. A gap exists 
for game toys with which players may exercise an important physical skill 
to determine plays in simulated sports and game points otherwise. One such 
skill is hand-eye coordination; another is reaction rate. My competitive 
game toy is designed to improve such physical skills, while leaving 
considerable scope for mental prowess in playing a simulated sport or 
other game of skill. 
SUMMARY OF THE INVENTION 
In general, the objects of this invention are attained via drive means 
adapted to be manually triggered to traverse movable indicator means along 
at least one path divided into successive intervals, and stop means 
adapted to be manually actuated to halt the indicator therealong. The 
drive means is controlled by manual setting and releasing of trigger means 
and by manual actuation of the stop means, usually before the drive means 
has traversed the indicator means from end to end along such path. 
A primary object of the present invention is to improve each player's 
hand-eye coordination and rate of reaction. 
Another object of this invention is to provide a competitive game toy 
usable by either one player, two players, or even more than two players. 
A further object of the invention is to make such toy suitable for players 
of low, intermediate, and high physical skill levels by providing ready 
adjustability of the indicator traversing rate. 
Yet another object is to extend this invention to an electromechanical 
embodiment to supplement my previous development of a wholly mechanical 
embodiment. 
Other objects of this invention, together with methods and means for 
accomplishing the various objects, will be apparent from the following 
description and from the accompanying drawings of a preferred embodiment 
and variants thereof, which are presented here by way of example rather 
than limitation.

DETAILED DESCRIPTION OF THE INVENTION 
First embodiment 1 of the toy of this invention has housing 10 with 
rectangular parallelepipedal shape, flat top 11 and bottom 19, front 
sidewall 12, left endwall 14, rear sidewall 16, and right endwall 18. The 
housing contains much of the trigger means, and the drive means, indicator 
means, and stop means. 
FIG. 1 shows such housing in plan. Its top panel 11, mostly cut away here, 
is held at the corners by screws 27' (one visible) into underlying bores 
27 (shown in FIG. 2 and successive views). FIG. 2 shows the same housing 
with near wall 12 also mostly absent. 
Centered between front wall 12 and rear wall 16 is open-top track 25 of the 
drive means. The track is secured at its left end 24 to housing left wall 
14, leaving its right end 28 spaced near right wall 18. Support block 35 
of the trigger means is fixed in the left end of the track and carries 
trigger 30 thereon upright on pivot pin 33. The trigger extends in a 
crescent shape above the top of the housing, with its concave face or grip 
37 facing right, and biased clockwise toward the set position by torsion 
spring 36. Detent 38 at the lower right part of the trigger is adapted to 
fit (when set) into eye 48 of the drive means on intervening 
diamond-shaped part 50 of the indicator means, shown here at the right. 
At the left, in FIGS. 1 and 2, just outside the housing, is 
tension-adjustment knob 40 of the drive means, which is attached to 
control screw 42 (shown schematically) extending underneath the track 
somewhat less than half the track length to terminate in supporting 
journal 46 upstanding from bottom 19 of the housing. This screw is 
rotatable to adjust therealong the longitudinal location of sleeve 44, 
connected to one end of drive cable 40 (shown in broken lines). The cable 
is elastically extensible over at least part of its length, conveniently 
the part between the end of the adjustment screw and pulley 41 at the 
right. 
Under the right end of the track (FIGS. 1, 2) cable 40 wraps substantially 
a half turn about pulley 41 on support 43 upstanding from the bottom of 
the housing and offset between the track end and wall 16; then the cable 
extends obliquely for most of the housing length and wraps substantially a 
half turn about pulley 45, which is similarly mounted on upstanding 
support 47 at a somewhat higher level just underneath--and offset 
from--the left end of the track toward wall 12; and then the cable extends 
obliquely and nearly parallel to its previous oblique segment to wrap 
almost a half turn about small roller 58 mounted on upstanding support 59 
between free end 28 of the track and wall 18. 
The indicator means includes diamond-shaped winglike part 50, shown 
supported on slide 55 near rightmost end 28 of the track. Such winglike 
part extends laterally from above the track to and just past front and 
back sides 12 and 16 of the housing (FIG. 2), where it terminates in 
downturned pointer-like ends 52 and 56. Slide 55, inside the track, has 
affixed to it the end of cable 40 from about adjacent small roller 58. The 
opposite edge of the winglike part carries eye 48 into which detent 34 of 
the trigger means engages to set the trigger when the indicator is 
returned manually to the set position--stretching the extensible portion 
of the cable and thereby increasing the tension in it. 
At the extreme right in FIGS. 1, 2 are pair of shafts 63, 67 extending 
through respective sleeves 64, 68 from respective stop buttons 52, 56 at 
the outside to terminate at free ends 65, 69, where friction can be 
applied to cable 40 to halt its travel after trigger 30 has been pivoted 
by application of manual pressure to its grip 37, thereby lifting detect 
38 out of eye 48 on the near edge of the winglike means, freeing the 
extended cable to retract. 
FIG. 3 shows housing end 14, with adjustment knob 40, shown as making 
nearly a whole turn from LOW through "5" to HIGH on the adjacent scale, 
intended to correspond to full travel of slide 44 the length of screw 
42--which rotates as the knob is turned. Near the facing end, grip 37 of 
trigger 30 protrudes above the top 11 of the housing. Closer to the far 
end, indicator pointers 52 and 56, carried by winglike indicator part 50, 
closely flank sides 12 and 16. 
FIG. 4 shows the pulleys and the path of the cable thereabout in an endwise 
sectional view looking straight back down the track from the free end 28 
thereof. In this view, pulley 41 is lower and on the right, whereas pulley 
45 is at an intermediate level and on the left, while winglike part of the 
indicator means is above both pulleys. the sectioned top, bottom, and 
sides of the housing are shaded for plastic, although wood and metal would 
be acceptable housing compositions instead of or in addition thereto. 
FIG. 5 shows long side 12 of the toy housing in elevation. Visible 
paralleling top 11 and bottom 29 (closer to the former) is slot 21 through 
which the near end of the wing part protrudes and terminates in downturned 
pointer 22, below which is parallel game indicia panel 22--blank here. At 
the right of the view, near end 18 and between side 12 and the viewer, is 
stop means 62, and at the left of end 14 is cable length-adjustment knob 
60. Shown in broken lines at the left end of slot 21 is pointer 52, which 
is its alternative set position before the trigger is pressed. 
FIG. 6, which shows long side 16 in like manner as FIG. 5 shows long side 
12, is physically a mirror image of FIG. 2 but with most of the reference 
numerals different, of course. Thus, visible paralleling top 11 and bottom 
29 (closer to the former) is slot 29 through which the near end of the 
wing part protrudes and terminates in downturned end 56, which points 
toward parallel game indicia panel 26--blank here. At the left of the 
view, near end 18 and between side 16 and the viewer, is stop means 66, 
and at the right of end 14 is cable length-adjustment knob 60. Shown in 
broken lines at the right end of slot 29 is pointer 56, which is its 
alternative set position before the trigger is pressed. 
No special materials of construction are required in the practice of this 
invention. A rubber band or helical extension spring is suitable for the 
drive means. The part of the cable contacted by the stop means may be 
specially coated, cored, or wrapped for ease of stopping and for increased 
durability, and the ends of the stop means made rough or pointed, for 
example. Leather is durable and is readily halted by pointed stop means. 
Operation of the game toy, insofar as described, is readily understood. If 
the trigger is not set, a user of the toy holds the housing at the bottom 
or at the end near the trigger with one hand, takes the pointers between 
thumb and finger of the other hand and forces them--and the rest of the 
indicator means--back upstream, i.e., toward the end near the trigger, 
stretching and thereby tensioning the extensible part of the cable in the 
process. 
During the setting of the trigger, as the the eye on the slide of the 
indicator means encounters the curved edge of the trigger detent, the 
trigger will pivot against its spring bias suficiently to admit the eye to 
be engaged by the detent (or the trigger can be held open momentarily by 
the player's other hand) whereupon the bias then forces the detent into 
the eye, holding the drive means in the set or ready position. 
Whenever the user applies sufficient manual pressure to its concave grip, 
the trigger pivots and thereby releases the eye of the indicator means, 
whereupon the extended cable retracts so that the drive means traverses 
the indicator means rapidly toward the opposite end of the track. During 
the brief travel time of the triggered indicator means, the user may 
undertake to half it before the indicators reach the downstream end of 
their slots, by pressing one or both stop buttons so forcibly as to bind 
the cable against the roller. However, if the user's reaction time is too 
slow, the pointers may well reach the end of their path before the user 
succeeds in stopping them. Practice should speed up the reaction so as to 
enable the indicators to be halted sooner. 
The game aspects of the toy relate to the user's ability to halt the 
indicator means as it is driven by the drive means, so that the pointer(s) 
will point to a desirable outcome on the indicia panel(s) provided as 
award means just underneath and paralleling the pointer travel slot(s). 
Convenient division of the indicia panel(s) into at least about a half 
dozen and at most about a dozen intervals enables such indicia as game 
points, play steps, or other instructions to be identified with whatever 
indicia interval is pointed to by either particular pointer when halted by 
a player pressing on one or both stop buttons. 
FIGS. 7 and 8 show a first or "point score" embodiment, and FIGS. 9 and 10 
show a second or "baseball" embodiment of indicia panels for the 
respective front and rear sides of the game toy of this invention, it 
being understood that only one side need be used but that use of both 
sides enables a game to be made more intricate and, therefore, more likely 
to remain interesting. 
For each game one or more appropriate award means strips are selected by 
the player(s) and are secured in register with the indicia marks on the 
toy walls. Guides may be added on the walls to retain the panels in place. 
Alternatively, the backs of the panels or the receptive parts of the walls 
may be coated with a reusable adhesive, or both may be covered with mating 
"Velcro" strips or the like to permit frequent changing of such panels. 
One user may play in solitary competition or skill training, releasing the 
trigger, stopping the pointer(s), noting the award, resetting the trigger, 
and so on--using one or two indicia panels as may be preferred. 
Alternatively, two users may play against one another by passing the game 
toy back and forth between plays, usually only one play each if using only 
one award means indicia panel but usually more plays each if using two 
indicia panels. 
It will be understood that, when there is only one player, an added play 
(when awarded) may be taken simply by taking another turn with the same 
indicia panel or, if desired, with an available second indicia panel. 
Also, although a single indicia panel can be replaced by another between 
plays, it is distracting and slows the game to do so, so two indicia 
panels in place continuously are more convenient--except whenever the game 
in use is to be changed. 
FIG. 7 shows indicia panel 71A divided into eight separate intervals 
labeled "+5, -10, +1, +1 play, -1 play, +10, +20, -10." 
FIG. 8 shows indicia panel 71B having a dozen intervals: "-10, +5, -5, +2, 
-2, +10, -10, +2, -2, +5, -5, +10." 
Play using the award means of either or both of FIGS. 7 and 8 is apparent. 
With only the indicia panel of FIG. 7, a single player takes successive 
turns and preferably keeps a running point score. With the indicia panel 
of FIG. 8 added, the same player uses such second source of point scores 
when the first indicia panel awards another turn. When there are two (or 
more) players, they play the first panel alternately, resorting to the 
second panel before relinquishing the toy to the opponent only when 
awarded another turn on the first panel. 
FIG. 9 shows indicia panel 75A having indicia pertinent to the batter's 
situation in relation to pitches in baseball: "intentional walk, contact, 
wild pitch, strike, ball, contact, strike, ball, contact." Players will 
understand that "contact" means the bat struck the ball--the outcome of 
which is to be decided separately by another play on a second indicia 
panel, as in the next view, either by the same or a different player. 
It will be apparent that, where the game is baseball, the toy preferably 
has two award panels alongside two respective indicator paths, one with 
instructions simulating offensive play and another with instructions 
simulating defensive play. A lone player plays successively both offense 
and defense along the respective paths. Alternatively, when there are two 
players, they play respective offensive and defensive play-simulating 
instructions for a while. Usually the respective positions are reversed 
after every three outs, corresponding to team changes between batting and 
fielding. 
FIG. 10 shows indicia panel 75B with "contact" indicia: "home run, outfield 
fly, ground-rule double, ground out, single, pop fly, bunt safe, long 
single, bunt out, foul fly, triple, dropped foul." It will be understood 
that every fly is an out unless noted as dropped--when it is a single 
unless noted foul (when it is a strike, and play resumes on panel 75A). A 
runner on second base cannot score on an ordinary single or a ground-rule 
double--but runners on base advance two bases on a long single or a 
regular double. A game board showing a baseball diamond in plan can be 
furnished along with baseball player pieces, etc. 
It will be further apparent that this game toy can be adapted to other 
two-sided games, such as tennis or soccer, by appropriate changes in the 
indicia panels; and to many-sided games, as well, such as arbitrary 
journeys with various hazards and rewards. 
Regardless of whether a player is simply competing with the toy--so to 
speak--or himself or herself (when playing alone) or is competing against 
one or more other persons, the degree of difficulty can be selected by 
setting the tension adjustment knob appropriately. A high setting 
increases the tension and, thus, produces a more rapid rate of travel of 
the indicator pointers when triggered, thereby increasing the level of 
skill required to stop either one at a desired location along the award 
indicia. 
In addition to the all-mechanical embodiment just described, an 
electromechanical embodiment may be added or be substituted, in which some 
manual operations not involved in a reaction-time step can be performed 
electrically, such as the resetting of the moving mechanism. In addition, 
electrical indicator lights may be substituted for the moving pointer to 
indicate ambiguities that in each run--and have the advantage of avoiding 
ambiguities that may be encountered with pointer position when on the 
dividing line between two unlike reward indicia. 
FIGS. 11 through 15 show an electromechanical embodiment of this invention. 
Inasmuch as many of the component features of this second embodiment have 
close counterparts in the preceding embodiment, such corresponding 
features of this embodiment are designated in the text and/or in the 
drawing views by reference numerals greater by one hundred than the 
reference numerals for the counterpart features of the previous 
embodiment. Features having no such counterpart are designated by numbers 
in the 100 series for which no corresponding number less by one hundred 
was used in designating features of the previous embodiment. This enables 
unnecessary repetition to be minimized in the following description, it 
being understood that designation of like or analogous features by such 
pairs of numbers (e.g., cable 140 in this embodiment and cable 40 in the 
previous embodiment) is so self-explanatory as to require little or no 
further comment. 
FIG. 11 shows embodiment 101 of the competitive game toy of this invention 
from above, less the cover of housing 110, which is sectioned away to 
reveal the interior. Prominently visible are track 125 extending 
lengthwise from near one end to near the opposite end. The track is 
flanked by a pair of spaced contact strips 160, 160' to which winglike 
double-ended contactor 150 of movable indicator means extends from slide 
155 visible near left end 124 of the track, which has safety switches 172 
and 178 at its left and right ends, respectively. 
Spaced at intervals along each of opposite sides 112 and 116 of the housing 
is a row of visual indicators 160, conveniently in the form of spaced 
light-emitting diodes or LEDs. Continuous striplike rows of liquid-crystal 
display (LCD) can be substituted for the LEDs. Each LED has one lead to a 
short part of the length of contact strip 165, mounted offset from the 
near sidewall, and another (not shown) in contact with a strip of 
conductive foil (or equivalent electrical conductor--not separately shown 
here) on the inside of the sidewall. 
In general, a given pair of LEDs on opposite outside walls of the housing 
will light as double-ended contactor 150 passes by them or stops between 
them, as will become further apparent when the method of operation is 
discussed below. As shown in FIG. 12, above each row of indicator lights 
is indicia strip 171--one such strip on each outside wall of the 
housing--subdivided into successive parts or sections (wording omitted). 
Trigger 130 is visible above the left end of the housing in FIG. 12, and 
rotary switch 180 partially so just underneath it inside. Pair of stop 
buttons 162 and 166 are protruding from the opposite sidewalls near the 
upper corner at the opposite end, and stop switches 182 and 186 are just 
inside. 
As the electrical components are detailed in a later diagram, this view 
shows in addition to the foregoing only speed-control rheostat 147 inside 
the left end of the housing near external speed-control knob 149, 
pawl-release or reset solenoid 179 above ratchet gear 177 on the shaft of 
motor 170, and pair of series batteries 168 located above part of the 
contact strip near housing sidewall 116. 
As shown in one or both of FIGS. 11 and 12, cable 140 extends all the way 
from drive drum 141 located within housing end 118 to takeup storehouse 
151 located just inside opposite end 114 of the housing. Torsion spring 
152 at the latter end maintains the cable under enough tension to wind it 
about axle 153 in the storehouse whenever the toy is reset (motor off) 
while the cable is extended. Motor shaft 173 is supported in journals 175, 
and carries drive drum 141 onto which cable 140 is wound when the motor is 
actated to turn the drum. Pawl 176 overlies ratchet gear 177 and when 
engaged (by gravity and/or spring bias--reset solenoid off) prevents the 
withdrawn cable from being rewound by the tension of spring 152, as is 
considered further in the statement of operation below. Not shown here is 
a bias spring to assist gravity in maintaining pawl 176 engaged with 
ratchet gear 177 except when disengaged by its solenoid during resetting 
of the slide for another run. 
FIG. 13 shows in elevation what was the left end of housing 110 in the 
preceding two views of embodiment 101. Protruding from the top center is 
trigger button 130, and protruding from the sides are stop buttons 162 at 
the right and 166 at the left. Indicator lights 160 at the respective 
sides are barely visible. Prominent on near end 114 is speed-control knob 
149 with a scale from SLOW to FAST. 
FIG. 14 is a view, partly in section, looking in the opposite direction 
from just inside the opposite end. Components beyond the plane of the view 
are omitted in the interest of clarity. Drum 141 (shown less cable here) 
is supported on stand 149 and has motor shaft 173 extending through it. 
Stop buttons 162 and 166 and their respective solenoids 182 and 186 are 
visible at the upper corners. Reset solenoid 179 is located above pawl 176 
(engaged in gear 177). 
FIG. 15 shows schematically electrical components and diverse 
interconnections for embodiment 101 of FIGS. 11 through 14. Here movable 
components, such as the slide with its contactor and the contact arms of 
switches, are represented by solid lines in a given position (usually the 
normal position) and in broken lines in one or more other positions. At 
the upper left are pair of batteries 168 connected in series, and with a 
negative ground. Cable 140, shown horizontal, is flanked above and below 
by rows of ten LED's 160, one row above and one row below parallel 
horizontal contact strips 165. Each LED has two leads, one grounded and 
the other attached to an adjacent conductive portion of the nearby contact 
strip. Each of the contact strips has ten narrow non-conductive (unshaded) 
portions alternating with ten wide conductive (shaded) portions, one 
shaded portion per LED, between the opposite ends, where they terminate in 
wider non-conductive end portions. Winglike double-ended contactor 150 
extends from slide 155 into contact with both contact strips. Cable 140 is 
shown attached to the slide, but its ends are cut off, and the track is 
omitted entirely, for clarity of the view. 
The controls previously mentioned are located along the top of this view to 
the right of the batteries and are considered here from left to right. 
Upper and lower positive leads from the rightmost battery are in the motor 
circuit and reset circuit, respectively. The motor circuit includes 
hand-operated STOP buttons 162 and 166 and adjacent normally open (N.O.) 
switch arms adapted to be closed by solenoids 182 and 186, which are in 
the reset circuit, and to be reopened manually. Also in the motor circuit 
is speed-control 169 having resistor and knob 149 (with FAST-SLOW scale), 
connected to the lefthand READY terminal of three-position rotary switch 
180, which is actuated by TRIGGER pushbutton 130. The righthand READY 
terminal is connected to one side of the motor (winding not shown), and 
the other side is connected through the switch pivot of right safety 
switch 178 to the lower switch pivot of left safety switch 172, both shown 
in closed position, and to ground at the negative (-) battery terminal. It 
will be understood that each time that the manual TRIGGER pushbutton is 
depressed the rotary switch arm interconnects the next (clockwise 
direction) pair of its (six) opposed contacts into an appropriate circuit, 
indicated by the designations, RESET, READY, and RUN juxtaposed to the 
contacts. 
The upper switch arm of the left safety switch is connected, when the 
switch is in the illustrated closed position, to provide positive voltage 
between a positive battery terminal to the LEDs, as shown schematically 
here by a connection to cable 140 attached to slide 155 carrying contactor 
150. Such function is preferably performed by a flexible ribbon lead (not 
shown here) separate from the cable and having one end fixed to the switch 
contact and the other end moving along with the slide, in like manner as a 
moving printhead is conventionally powered on most computer printers. 
When the upper switch arm of the left safety or limit switch 172 is 
switched to its alternative left contact (by the slide at its left limit 
position) it closes the reset circuit to one end of the windings of STOP 
solenoids 182 and 186, whose other end is grounded. The same positive lead 
connects to the lefthand RESET terminal of trigger-actuated rotary swich 
180. The righthand reset terminal is connected to one end of the winding 
of pawl-lifting lifting solenoid 179, whose other end is grounded. 
The third pair, or RUN, terminals of the rotary switch are connected 
between the left or normally open contact of righthand safety switch 178 
(left RUN contact) and ground (right RUN contact). The safety switches 
themselves are shown in the normally closed (N.C.) vertical position and 
are opened by movement of slide 155 at the respective extremes of its 
travel along the track. 
Operation of this electromechanical embodiment of the invention is readily 
understood. At the end of a run, the next step is to reset the game toy 
for the next run, whether done soon afterward or deferred until a later 
playing session. It is assumed that one or both of the STOP buttons were 
depressed to stop the motor and the slide being pulled by it in the 
previous run, although if a long period of time has elapsed since the last 
previous run the slide preferably would have been stowed at the extreme 
right end of its travel, as recommended later in this specification. 
A play manually depresses the trigger pushbutton, thereby moving the rotary 
switch arm from the RUN position to the next or RESET position, whereupon 
the pawl-lifitng solenoid lifts the pawl from contact with the ratchet 
gear on the motor shaft, and the spring takes up the extended length of 
cable, moving the slide to the extreme left end of the track, there 
opening both switch arms of the safety switch, and thereby removing the 
positive voltage from the lights and applying it to the STOP switch 
solenoid to reclose the switch arms to restore the motor circuit up to the 
open READY terminals of the rotary switch. The lower switch arm is also 
opened by the slide at the extreme left position to break the motor 
circuit there as a precaution against starting up the motor before either 
the play--or the rest of the apparatus--is completely ready. 
To put the toy in a READY condition for the next run, the player then 
manually depresses the pushbutton again, connecting the motor circuit 
through the READY contacts of the rotary switch as far as the switch arm 
just opened by the slide at the left. When the player is ready, depressing 
the pushbutton again switches the rotary switch to bridge the RUN contacts 
and thereby complete the motor circuit irrespective of the open position 
of the left safety switch. As soon as the motor winds a bit of the near 
end of the cable the slide is pulled away from its extreme left position, 
closing both the upper and lower switch arms, removing the actuating 
voltage from the STOP solenoid (so the STOP buttons can be actuated 
manually) and completing the motor circuit independently of the RUN 
contacts. 
If a player allows the slide to travel to the extreme right end of the 
track, the right safety switch opens and thereby breaks the motor circuit. 
In normal play, however, the player breaks the motor circuit by depressing 
one or both of the STOP switches, whereupon the slide stops and its 
double-ended contactor completes the circuit to one LED on each side at a 
given position on each scale (which is read to determine a play or score, 
as in the previous embodiment). 
This may be the most likely condition for a player to leave the toy in at 
the end of a playing session, with only a pair of lights connected in the 
circuit. Alternatively, the player might switch to the RESET position, 
which energizes the STOP solenoid only. As a precaution against draining 
the battery, however, the player should stow the slide at the full extent 
of its RUN travel, without use of the STOP buttons. Such position removes 
all current drain from the batteries. If desired, a control device--not 
shown--can be added to disconnect the batteries after a given period of 
time in which no electrical actuation has occurred, to function as an 
automatic time-delay circuit-breaker. 
As only several volts are needed to power this embodiment of my game toy, 
and as the heaviest current drain--the motor--is on for the shortest time, 
and the lightest current drain--the lights--are normally on for the 
longest time, the batteries may be relatively small, such as in a 
pen-sized flashlight, although larger batteries can be used. Rechargeable 
batteries may be provided, along with a charging circuit, and a rectifier 
may be included for operation from a household electrical outlet, if 
desired. 
Preferred embodiments and variants of the reaction-time game toy of the 
present invention have been shown and described. Other changes may be made 
in such apparatus and procedures, as by adding or deleting, subdividing or 
combining, or otherwise modifying parts or steps, while retaining at least 
some of the many advantages and benefits of this invention--which itself 
is defined only in the following claims.