Information
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Patent Grant
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6573465
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Patent Number
6,573,465
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Date Filed
Tuesday, January 29, 200222 years ago
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Date Issued
Tuesday, June 3, 200321 years ago
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Inventors
-
Original Assignees
-
Examiners
Agents
- Schweitzer Cornman Cross & Bondell LLP
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CPC
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US Classifications
Field of Search
US
- 200 4
- 200 5 R
- 200 6 A
- 200 17 R
- 200 18
- 200 332
- 200 335
- 200 4304
- 250 221
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International Classifications
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Abstract
A contact switch for a kinetic activity amusement game has a base, a universal joint connected to the base and a contact bumper connected to a ball of the universal joint. A electrically conductive coil spring has one end connected to the ball of the universal joint and a second end retained by the base. An electrode has contact portions disposed radially around the coil spring. A power source is connected between the coil spring and the electrode forming a potential electrical circuit. Displacement of the contact bumper by kinetic energy of a game ball causes displacement of the coil spring and contact of the coil spring with the contact surfaces of the electrode closing the circuit.
Description
FIELD OF THE INVENTION
The invention pertains to the field of contact switches, and in particular, to contact switches for kinetic activity amusement games.
BACKGROUND OF THE INVENTION
Kinetic activity amusement games, such as pin ball and the like, typically include a game board having a playing surface with a plurality of deflectors and obstacles attached thereto, one or more game balls, and means to urge the game balls onto and within the game board.
Such amusement games also typically include electronic contact switches having bumper portions responsive to impact by a game ball rolling on the game board such that when a game ball impacts the contact switch with sufficient energy, the contact switch is temporarily closed, completing an electrical circuit through the switch. The closed state of the contact switch can serve to increment a game score, or can serve some other game-related purpose such as initiating a sound or a secondary kinetic activity in the game board.
Such contact switches typically include means to bias the switch into a rest position (usually an electrically “open” condition), such that after an impact of the switch by a game ball and the subsequent rebound of the game ball, the contact switch returns to the rest (i.e., open) position.
SUMMARY OF THE INVENTION
The present invention pertains to a contact switch for a kinetic activity amusement game, such as described above. The kinetic activity amusement game has a game board with a playing surface upon which a game ball may roll. The contact switch has a contact bumper portion located above the playing surface of the game board, which contact bumper is removably connected to a universal joint having a ball mounted within a complementary socket located within an interior space of the game board. The contact bumper is responsive to impact by a game ball rolling on the game board—approaching from any angle—such that when a game ball impacts the contact bumper with sufficient kinetic energy, the contact bumper deflects (i.e., rotates about the universal joint) and the contact switch is temporarily closed, completing an electrical circuit through the switch. The closed state of the contact switch can serve to increment a game score, or can serve some other game-related purpose such as initiating a sound or a secondary kinetic activity in the game board.
The contact switch includes an electrically conductive coil spring having a first end connected to the ball of the universal joint and a second end in contact with a base. An electrode has contact portions disposed in a circular pattern around the coil spring between the two ends of the coil spring. When the contact switch is in a rest position, the coil spring is in a substantially at-rest condition, and the contact portions of the electrode are disposed substantially concentrically around a longitudinal axis of the coil spring and are spaced radially outwardly from an outside surface of the coil spring.
A power source is connected between the coil spring and the electrode. In the rest position, the contact switch is in an “open” condition. When a game ball impacts the contact bumper, the contact bumper is deflected thereby rotating the ball of the universal joint and distorting the coil spring. When the contact bumper and ball of the universal joint deflect a predetermined distance (angle), the coil spring contacts the contact portions of the electrode thereby completing (i.e., “closing”) the circuit comprising the power source the coil spring and the electrode.
A semi-rigid elongated biasing element, such as a wire element, extends from the ball of the universal joint and contacts the base portion. The biasing element is substantially aligned with the longitudinal axis of the coil spring, when the contact switch is in the rest position. The biasing element is in a substantially at-rest condition when the contact switch is in the rest position and is in a distorted condition when the switch is in the closed condition, whereby the biasing element serves to bias the contact switch toward the rest position.
After the game ball rebounds from the contact bumper, the coil spring and/or the biasing element serve to return the switch to the rest position (i.e., the “open” condition), with the contact bumper and biasing element substantially aligned with the longitudinal axis of the coil spring.
BRIEF DESCRIPTION OF THE DRAWINGS
For a complete understanding of the above and other features of the invention, reference shall be made to the following detailed description of the preferred embodiments of the invention and to the accompanying drawings, wherein:
FIG. 1
is a perspective view of a kinetic activity amusement game having a contact switch constructed according to the present invention,
FIG. 2
is a cross-sectional elevational view of a contact switch constructed according to the present invention,
FIG. 3
is an exploded assembly view of a kinetic activity amusement game having a contact switch constructed according to the present invention, showing the contact bumper and plug alternately insertable within an opening in the game board, and
FIG. 4
is a cross-sectional elevational view of a contact switch constructed according to the present invention, showing the plug inserted within the recess of the game board.
DETAILED DESCRIPTION OF THE INVENTION
Referring to
FIGS. 1& 2
, the present invention is a contact switch
10
suitable for use with a kinetic activity amusement game
12
having a game board
14
forming a playing surface
16
upon which a game ball
18
may roll and impact and deflect a contact bumper
20
of the contact switch
10
. The amusement game
12
may suitably be of the type disclosed in the co-pending U.S. utility patent application of Matthias Doepner, et al., entitled “Game Board Structure for Construction Toy Set,” filed concurrently with the present application.
The contact switch
10
of the present invention includes a base
23
connected to the game board
14
, and a universal joint
22
having a ball element
24
rotatably mounted within a socket
26
located within an interior portion of the game board
14
. The contact bumper
20
includes a body portion
28
and a stem
30
projecting (downwardly) from said body portion
28
. The ball element
24
of the universal joint
22
includes a stem-receiving recess
32
sized and shaped to closely removably receive the stem
30
of the contact bumper
20
, such that the contact bumper can be removably connected to the universal joint
22
.
To attach the contact bumper
20
to the universal joint
22
, the stem
30
is extended through a preferably circular opening
33
in an outside (i.e., playing) surface
34
of the game board
14
and is removably inserted into the stem-receiving recess
32
of the ball element
24
.
An electrically conductive coil spring
36
has a first (upper) end
38
connected to the ball element
24
of the universal joint
22
and has a second (lower) end
40
retained by the base
23
, preferably within a recess
42
thereof. Preferably, the ball element
24
includes a spring-retaining projection
44
having a base
46
with a first diameter and an end portion
47
with a second diameter. The first and second diameters of the spring-retaining projection
44
are greater than and less than an inside diameter of the coil spring
36
, respectively. The first end
38
of the coil spring
36
is disposed around the spring-retaining projection
44
of the ball such that an extreme end portion
48
of the first end
38
of the coil spring abuts the base
46
of the spring-retaining projection. Preferably, the end portion
47
of the spring-retaining projection
44
is sized and shaped to closely fit within the coil spring.
The spring-retaining projection
44
serves to substantially fix the first end
38
of the coil spring
36
with respect to the ball element
24
of the universal joint such that movement of the ball element
24
will induce necessary movement in the first end
38
of the coil spring
36
. The recess
42
in the base
23
preferably closely receives the second end
40
of the coil spring
36
therein to substantially prevent the movement of the second end
40
with respect to the base
23
.
When the ball element
24
of the universal joint
22
is displaced from a rest position (i.e., as shown in FIG.
2
), the first end
38
of the coil spring
36
is displaced radially outwardly relative to the longitudinal axis of the coil spring when in the rest position. When displaced from the rest position, the coil spring
36
is distorted from its elastically “at-rest” shape.
The coil spring
36
preferably serves to bias the contact switch
10
toward a rest position (i.e., as shown in FIG.
2
). In the rest position, a longitudinal axis of the coil spring
36
is preferably substantially aligned with longitudinal axes of the contact bumper
20
(and its stem
30
) and the stem-receiving recess
32
of the ball element
24
of the universal joint
22
.
The contact switch
10
includes an electrode
50
having electrical contact portions
52
affixed to the base
23
and disposed in a substantially circular pattern intermediate the first and second ends
38
,
30
of the coil spring
36
. The contact portions
52
are preferably in the form of a contiguous annular contact ring
36
, however the contact portions
52
can be discrete contact elements (not shown) in electrical contact with one another and the electrode
50
. When the contact switch
10
is in the rest position (FIG.
2
), the contact portions
52
are disposed substantially concentrically with the longitudinal axis of the coil spring
36
and are disposed radially outwardly from an outside surface
54
of the coil spring.
The contact switch
10
also includes a power source (not shown) connected between the electrode
50
and the coil spring
36
, forming a potential electrical circuit between the power source, the coil spring
36
and the electrode
50
. An electronic game component of any suitable type can be included in the circuit.
When in the rest position, as shown in
FIG. 2
, the circuit of the contact switch
10
is in an electrically “open” condition. When a game ball
18
rolling on the game board
14
impacts the contact bumper
20
, the contact bumper
20
is displaced thereby rotating the ball element
24
of the universal joint and displacing (and distorting) the coil spring
36
. If the game ball
18
impacting the contact bumper
20
has sufficient kinetic energy, the switch
10
is displaced into a “closed” condition wherein the coil spring
36
is in electrical contact with one or more of the contact portions
52
of the electrode
50
thereby completing the electrical circuit.
As set forth above, the closed state of the contact switch
10
can be used in the amusement game
12
to increment a game score, or can serve some other game-related purpose.
Preferably an elongated semi-rigid biasing element, such as a wire element
60
, extends from the spring-retaining projection
44
of the ball element
24
substantially parallel to the longitudinal axis of the coil spring
36
when the switch
10
is in the rest position. When the contact switch
10
is in the rest position, the biasing element
60
is in a substantially elastically “at-rest” condition, and when the contact switch
10
is in the “closed”. condition, the biasing element
60
is in a elastically distorted condition. Thus, the biasing element
60
preferably serves to bias the contact switch
10
into the rest position whereby, after the game ball
18
rebounds from the contact bumper
20
, the coil spring
36
and/or the biasing element
60
serve to return the switch to the rest position (i.e., the “open” condition) with the contact bumper
20
and biasing element
60
substantially aligned with the longitudinal axis of the coil spring
36
.
Preferably, the coil spring
36
can rotate relative to the ball element
24
or the base
23
about the longitudinal axis of the coil spring
36
. Thus, the assembly of the contact bumper
20
and the ball element
24
can rotate about an axis substantially parallel to a longitudinal axis of the coil spring
36
without inducing substantial torsion in said coil spring
36
, which reduces or eliminates the possibility that the contact switch
20
will be damaged by intentional or unintentional rotation of the contact bumper
20
relative to the base
23
by the user.
Referring to
FIG. 3
, as disclosed in the co-pending application of Matthias Doepner, et al. mentioned above, an amusement game
12
suitable for the present invention may be altered by the user into one of a number of configurations, some of which may not require a working contact switch
10
, or the contact bumper
20
thereof. Therefore, as described above, the contact bumper
20
is removably attached to the universal joint
22
, such that it may be removed from the game board as desired by the user. However, the removal of the contact bumper
20
creates an open recess
64
in the game board
14
. Such recesses are undesirable in kinetic activity amusement games involving game balls
18
rolling on a playing surface because, as can be appreciated, the game balls
18
can be undesirably deflected by or retained in the recess
64
.
Referring to
FIG. 4
, the contact switch
10
includes a preferably circular plug
68
sized and shaped to be closely received within the opening
32
and recess
64
in the game board
14
. The plug
68
preferably has a planar top surface
70
which, when the plug
68
is inserted within the opening
32
and recess
64
, is substantially co-planar with the playing surface of the game board
14
. Preferably, the plug
68
has a stem
72
sized and shaped to be closely received within the stem-receiving recess
32
of the ball element
24
of the universal joint
22
.
It should be understood, of course, that the specific form of the invention herein illustrated and described is intended to be representative only, as certain changes may be made therein without departing from the clear teachings of the disclosure. Accordingly, reference should be made to the following appended claims in determining the full scope of the invention.
Claims
- 1. A contact spring switch for a game board, comprising:a base a universal joint a contact bumper connected to the universal joint an electrically-conductive coil spring having an outside surface and having a first end connected to said universal joint and a second end in contact with said base an electrode having contact portions disposed intermediate said first and second ends of said coil spring, in a substantially circular pattern when said switch is in said rest position, said contact portions of said electrode being spaced radially outwardly from said outside surface of said coil spring, substantially concentric to a longitudinal axis of said coil spring a power source connected between said coil spring and said electrode said switch having an open condition wherein said switch is in said rest position and having a closed condition wherein said coil spring is in contact with one of said contact portions of said electrode, and said coil spring biasing said switch in said rest position.
- 2. A contact spring switch as in claim 1, whereina semi-rigid, elongated biasing element having a first end connected to said universal joint and a second end in contact with said base said biasing element being substantially aligned with said longitudinal axis of said coil spring, when said switch is in a rest position, and said biasing element biasing said switch in said rest position.
- 3. A contact spring switch as in claim 2, whereinsaid contact bumper comprises a body portion and a stem portion projecting from said body portion said universal joint comprises a ball element and a socket, said ball element includes a stem receiving recess sized and shaped to closely and removably receive said stem of said contact bumper, and said contact bumper is removably attachable to said ball via said stem and said stem receiving recess.
- 4. A contact spring switch as in claim 3, whereinsaid base has a substantially planar outside surface with an opening therein said stem of said contact bumper extends through said opening when said contact bumper is attached to said ball element of said universal joint a plug is insertable in said opening when said contact bumper is removed from said ball portion said plug has a body portion sized and shaped to be closely removably received within said opening in said outside surface of said base, and said body portion has an outside surface that is substantially co-planar with said outside surface of said base when said plug is inserted in said opening.
- 5. A contact spring switch as in claim 1, whereinsaid universal joint comprises a ball element and a socket, said ball element includes a spring-retaining projection in contact with said first end of said coil spring said spring-retaining projection has a shoulder portion defined by a base portion with a first diameter and an end portion having a second diameter less than said first diameter said first diameter of said spring-retaining projection is greater than an inside diameter of said coil spring and said second diameter of said spring-retaining projection is less than said inside diameter of said coil spring said coil spring is disposed around said end portion of said spring-retaining projection with an end face of said first end of said spring in contact with said shoulder portion of said spring-retaining projection, and said base has a spring-retaining recess with a diameter greater than said outside surface of said coil spring, said second end of said coil-spring is disposed within said spring-retaining recess.
- 6. A contact spring switch as in claim 5, wherein an assembly of said contact bumper and said ball of said universal joint can rotate about an axis substantially parallel to said longitudinal axis of said coil spring without inducing substantial torsion in said coil spring.
US Referenced Citations (19)