1. Field of the Invention
The present invention relates to a combined launching device for simultaneously launching a plurality of spinning tops.
2. Description of Related Art
A traditional launching device for launching a spinning top is configured to launch only one spinning top from a spinning top holder. When a user plays a spinning-tops combat game alone, the user have to launch a first spinning top with a launching device and launch a second one immediately after the first one. There are two ways for launching two spinning tops alone. In one way, the user prepares two launching devices each loaded with a spinning top and launches a first spinning top with one of the launching devices and then launches a second one with the other launching device. In the other way, the user launches a first spinning top with a launching device and loads a second one in the same launching device to launch it.
Both the operations are troublesome, resulting in a time lag between the launch of a first spinning top and that of a second one. Such a time lag gives an advantage to the second spinning top and impairs the game.
Japanese Utility-Model Registration No. 3090580 discloses a launching device for simultaneously launching two spinning tops.
The launching device for simultaneously launching two spinning tops includes a housing accommodating two launching units in parallel, each of which launches a spinning top. Inserting two rack belts into the respective launching units and then pulling the two rack belts together can simultaneously launch two spinning tops.
Unfortunately, the launching device disclosed in Japanese Utility-Model Registration No. 3090580 has a complicated structure including two launching units and a special housing for accommodating the two launching units in parallel.
An object of the present invention is to provide a combined launching device with a simple structure for launching spinning tops.
In order to realize the above object, according to one aspect of the present invention, there is provided a combined launching device for launching spinning tops, including:
a first launching unit including a first casing, the first casing accommodating a first spinning top holder for holding a first spinning top and a first spinning mechanism, wherein the first spinning mechanism is operated to spin and launch the first spinning top by linearly and manually moving an operating member in a predetermined operating direction; and
a second launching unit including a second casing, the second casing accommodating a second spinning top holder for holding a second spinning top and a second spinning mechanism, wherein the second spinning mechanism is operated to spin and launch the second spinning top by linearly and manually moving an operating member in the predetermined operating direction,
wherein the first casing of the first launching unit has a first coupler, and the second casing of the second launching unit has a second coupler removably combined with the first coupler, and
the first launching unit is combined with the second launching unit such that the first and second spinning top holders face in the same direction and the predetermined operating direction of the operating member is the same for the first and second launching units.
Preferably, the operating member is a rack belt.
According to these configurations, two launching units can be separated for independent use of the individual launching units or the two launching units can be combined with each other for simultaneous launching of two spinning tops. The user can simultaneously launch two spinning tops and play a spinning-tops combat game alone with the combined launching units. This combined launching device has a simple structure.
Preferably, the first launching unit is combined with the second launching unit such that the rack belt is engaged with both of a pinion of the first spinning mechanism and a pinion of the second spinning mechanism.
According to this configuration, the combined launching units can be readily operated with one rack belt for simultaneous launching of two spinning tops.
Preferably, the first launching unit has both of the first coupler and the second coupler and the second launching unit has both of the first coupler and the second coupler.
According to this configuration, three or more launching units can be combined with each other. In the case of two launching units, these launching units can be disposed in any direction in the combined launching device.
The present invention will become more fully understood from the detailed description given hereinafter and the accompanying drawings, which are given by way of illustration only and thus are not intended to limit the present invention, wherein:
Embodiments of a combined launching device for launching spinning tops according to the present invention will now be described with reference to the accompanying drawings. The front, back, right, left, up, and down directions are indicated in
(Overall Structure)
In the combined launching device 1, each launching unit 2 is loaded with one spinning top 30.
The combined launching device 1 includes one rack belt 20. The rack belt 20 is introduced from the front launching unit 2 into the combined launching device 1 such that the front end of the rack belt 20 projects from the back launching unit 2. Pulling the rack belt 20 can simultaneously spin and launch the spinning tops 30 mounted in the launching units 2.
The combined launching device 1 can be separated into the two launching units 2 for independent use of the individual launching units 2.
(Partial Structures)
1. Launching Unit 2
In the present embodiment, the two launching units 2 have an identical structure. In the circumstances, the same reference numeral is used for identical elements of the two launching units 2 for avoiding redundancy in the description.
The launching unit 2 includes a casing 2a. The casing 2a is generally rectangular in top view. The casing 2a is open at the bottom (see
The casing 2a has a forward projection 3a at the front end. The projection 3a is positioned in the middle of the front end of the casing 2a in the transverse or horizontal direction and is narrower than the casing 2a in the transverse direction. The projection 3a has a rib 30a on each side in the transverse direction. The ribs 30a project outwardly in the transverse direction. The projection 3a functions as a coupler.
The casing 2a has a cutout 18a at the back end. The cutout 18a has substantially the same width as that of the projection 3a in the transverse direction. The cutout 18a is open to the bottom. A wall 18b is provided in front of the cutout 18a. The edges of the cutout 18a, the wall 18b, and the right and left walls define a recess 3b. The recess 3b functions as another coupler.
When the projection 3a of the back launching unit 2 is fitted into the cutout 18a of the front launching unit 2 from the bottom, the front face of the projection 3a of the back launching unit 2 comes in contact with the wall 18b of the front launching unit 2 and the right and left ribs 30a of the back launching unit 2 interlock with the right and left edges, respectively, of the cutout 18a of the front launching unit 2.
The two launching units 2 are thereby combined with each other. Releasing the projection 3a from the recess 3b causes the two launching units 2 to be separated from each other.
The projection 3a has a belt inlet 4a for the rack belt 20 and the wall 18b has a belt outlet 4b for the rack belt 20. When the two launching units 2 are combined with each other, the belt inlet 4a and belt outlet 4b of one launching unit 2 are aligned to the belt inlet 4a and belt outlet 4b of the other launching unit 2.
The casing 2a includes a disk spinning top holder 15 to be loaded with a spinning top 30. The spinning top holder 15 is mounted on the casing 2a around a rotating shaft 11. The spinning top holder 15 can idle around the rotating shaft 11. The spinning top holder 15 has two clicks 16 disposed symmetrically around the rotating shaft 11 on the bottom periphery. Each click 16 is arc-shaped in bottom view. The click 16 has a flat face 16a at the bottom end, a vertical face 16b at the head end in the rotating direction, and an inclined face 16c at the tail end in the rotating direction.
The casing 2a accommodates a spinning mechanism 10 for spinning the spinning top holder 15. The spinning mechanism 10 includes a pinion 12 and a clutch 13. The pinion 12 is fixed to the rotating shaft 11 and engageable with the teeth of the rack belt 20. The clutch 13 transmits rotative power from the pinion 12 to the spinning top holder 15.
The clutch 13 rotates together with the pinion 12. The clutch 13 is composed of a synthetic resin. The clutch 13 includes a hub 13a engaged with the rotating shaft 11 and two C-shaped protrusions 13b integrated with the hub 13a. Each protrusion 13b has a projection 13c. A cylinder 17 surrounding the clutch 13 is provided on the top periphery of the spinning top holder 15. The cylinder 17 has recesses 17a around the inner wall. The recesses 17a can be receive the projections 13c. Since each projection 13c is normally engaged with the recesses 17a, the rotation of the pinion 12 leads to the rotation of the clutch 13 and thus the rotation of the spinning top holder 15. An excess load leads to resilient deformation of the protrusion 13b, which precludes the power transmission from the pinion 12 to the clutch 13.
2. Spinning Top 30
In the present embodiment, two spinning tops 30 have an identical structure. In the circumstances, the same reference numeral is used for identical elements of two spinning tops 30 for avoiding redundancy in the description.
The spinning top 30 has two arc-shaped grooves 31 in the top face at the positions corresponding to the clicks 16 of the spinning top holder 15. In the present embodiment, the spinning top 30 has the arc-shaped grooves 31 with a tongue 32 inserted therein from the bottom; however, the spinning top 30 may have the arc-shaped grooves 31 without the tongue 32. The arc-shaped groove 31 is narrower at the side remote from the tongue 32. After the clicks 16 of the spinning top holder 15 are inserted into the clearances in the arc-shaped grooves 31 from the top, the spinning top 30 is rotated relative to the spinning top holder 15 such that the clicks 16 of the spinning top holder 15 are moved to the narrower sides of the arc-shaped grooves 31. A projection 16d on the inner face of the click 16 is then slid to the lower side of the upper wall of the spinning top 30, thereby the spinning top 30 is mounted in (held by) the spinning top holder 15.
3. Rack Belt 20
The rack belt 20 has teeth 21 on one side and a handle 22 at one end. The rack belt 20 is inserted into the combined launching device 1 through the belt inlet 4a of the casing 2a, so that the teeth 21 of the rack belt 20 are engaged with the pinions 12 of the two launching units 2.
(Use and Operation)
The operation of the combined launching device 1 with this structure will now be described.
After spinning tops 30 are mounted in the respective spinning top holders 15 of the two launching units 2, the rack belt 20 is introduced from the front launching unit 2 into the combined launching device 1 such that the front end of the rack belt 20 projects from the back launching unit 2, as shown in
The rotary power is then transmitted from the spinning top holders 15 to the spinning tops 30 via the clicks 16. When the teeth 21 of the rack belt 20 are detached from the pinions 12, the pinions 12 stop the rotation. Since the spinning tops 30 continue to rotate due to the inertial force, the tongue 32 of the spinning tops 30 collide with the inclined faces 16c, as shown in
As shown in
The embodiments of the present invention have been described above. It should be understood that the present invention be not limited to these embodiments and various modifications can be made within the scope of the invention.
For example, the projection 3a and the recess 3b are provided as couplers in the above embodiment. Instead, magnets can be used as couplers. Alternatively, one launching unit 2 may have a first suit of a projection and a recess as a coupler and the other launching unit 2 may have a second suit of a projection and a recess as another coupler such that the two launching units 2 are combined with each other by engaging the first suit of a projection and a recess with the second suit of a projection and a recess. Alternatively, one launching unit 2 may have a dovetail as a coupler and the other launching unit 2 may have a socket as another coupler such that the two launching units 2 are combined with each other by engaging the dovetail with the socket. In an alternative embodiment, one launching unit 2 has a semicircular plate as a coupler at the axis and the other launching unit 2 has a semicircular pocket as another coupler such that the two launching units 2 are combined with each other by relatively rotating the two launching units 2 around the axis.
This U.S. patent application claims priority to Japanese patent application No. 2015-245219 filed on Dec. 16, 2015, the entire contents of which are incorporated by reference herein for correction of incorrect translation.
Number | Date | Country | Kind |
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2015-245219 | Dec 2015 | JP | national |