DETACHABLE DRIVING ASSEMBLY FOR A TOY GUN
A detachable driving assembly for a toy gun has a first casing containing a piston device and a second casing containing a gear set. The first casing and the second casing are detachably combined by a pin and a levering lock. The piston device has a piston body with a spring and a toothed rack formed under the piston body. The gear set mainly comprises a miter gear, a reduction gear and a half-toothed gear sequentially rotated by a motor to drive the piston device. The half-toothed gear has a periphery, multiple teeth partially formed on the periphery, and an idle area formed on a remainder of the periphery. Thereby, when the teeth engage with the toothed rack to run with the half-toothed gear, the piston device is driven to a compressed condition. When the half-toothed gear enters the idle area, the piston device is released to punch a projectile.
1. Field of the Invention
The invention relates to a driving assembly for a toy gun, and more particularly to a driving assembly that is detachable and efficient.
2. Description of Related Art
A conventional driving assembly of a toy gun mainly comprises a piston device and a power-transmitting device. The piston device and the power-transmitting device are co-operated and mounted within a pair of symmetrical casings to compose the toy gun. Therefore, the piston device and the power-transmitting device are not separable from each other after both devices are attached inside the toy gun.
When the toy gun is used over a long period of time, the power-transmitting device needs to be cleaned and repaired. With regard to the undetachable situation of the conventional driving assembly, repairing the toy gun is troublesome and time-consuming because the whole toy gun has to be disassembled. Moreover, the power-transmitting device is easily worn out because of abrasion and the piston device can no longer be activated precisely and powerfully.
The present invention has arisen to provide a detachable driving assembly for a toy gun to eliminate or obviate the drawbacks of the conventional driving assembly.
SUMMARY OF THE INVENTIONThe main objective of the present invention is to provide a detachable driving assembly that can be disassembled easily.
Another objective of the present invention is to provide a detachable driving assembly that transmits power efficiently.
Further benefits and advantages of the present invention will become apparent after a careful reading of the detailed description in accordance with the drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
A detachable driving assembly for a toy gun in accordance with the present invention comprises a first casing containing a piston device and a second casing containing a gear set. The first casing and the second casing are detachably combined by a pin and a levering block. The piston device has a piston body with a spring and a toothed rack formed under the piston body. The gear set mainly comprises a miter gear, a reduction gear and a half-toothed gear sequentially rotated by a motor to drive the piston device. The half-toothed gear has a periphery, multiple teeth partially formed on a first portion of the periphery, and an idle area formed on a second portion of the periphery. Thereby, when the teeth engage with the toothed rack, the piston device is driven by the gear set to a compressed condition. When the half-toothed gear enters the idle area, the piston device is released from the compressed condition.
With reference to FIGS. 1 to 3, a preferred embodiment of the detachably driving assembly in accordance with the present invention is adapted to be mounted on a gun body (10) and mainly comprises a first casing (20) containing a piston device and a second casing (30) containing a gear set.
The gun body (10) has a body (11) with a recess (12), a cover (102) mounted over the recess (12), a bottom, a front end and a rear end, a handle (14) formed under the bottom, a cassette (16) detachably mounted under the bottom at the front end to provide projectiles, i.e. BB bullets (162), into the recess (12). Because the gun body (10) and the cassette (16) are well-known for a person skilled in the field, redundant descriptions are avoided here. Moreover, a power supplier (142) is received inside the handle (14) to electrically drive the gear set inside the second casing (30).
With further reference to
The first casing (20) is mounted over the recess (12) of the gun body (10) and contains a piston body (22), a spring (24), an optional spring tube (242), a nozzle (26) and a driving shaft (28). The piston body (22) is received inside the first casing (20) at the front end and has a bottom and a toothed rack (222) formed on the bottom of the piston body (22). The spring (24) is clamped between the piston body (22) and the rear end of the first casing (20) to provide a restitution force to the piston body (22). To keep the spring (24) straight without bias, the spring tube (242) is attached at the rear end inside the first casing (20) to partially penetrate the spring (24). The nozzle (26) is mounted in front of the piston body (22), extended out of the first casing (20) via the front opening (202), and retractable to operationally reload shooting object (162) inside the gun body (10) (as shown in
The second casing (30) is received inside the recess (12) of the gun body (10) and is composed of two symmetrical shells. The second casing (30) has a top, a bottom, a front end, a rear end, a top slit defined in the top and a bottom slit defined in the bottom. The second casing (30) contains a gear set, a trigger (34), a switch (36) and a levering lock (38).
The gear set comprises a miter gear (322) driven by an electrical motor (not shown), a reduction gear (324), and a half-toothed gear (326). The reduction gear (324) is rotatably connected with the miter gear (322). The reduction gear (324) has a large gear (3242) engaged with the miter gear (322) and a small gear (3244) coaxially mounted on the large gear (3242) to engage with the half-toothed gear (326). Thereby, rotation speed of the miter gear (322) rapidly driven by the electrical motor (not shown) is reduced at the reduction gear (324). The half-toothed gear (326) is composed of a lower gear (3261) and an upper gear (3262) slightly larger than the lower gear (3261). The lower gear (3261) engages with the small gear (3244) to make the half-toothed gear (326) rotate with the reduction gear (324). The upper gear (3262) has a flat face, a driving block (3264), an annular periphery, multiple teeth (3266) partially formed on a first portion of the annular periphery, and an idle area formed on a second portion of the of the annular periphery. The driving block (3264) is formed on the flat face of the upper gear (3262) and operationally abuts with the inclined face of the enlarged block (282) on the driving shaft (28). The multiple teeth (3266) are formed on a half periphery of the upper gear (3262) and engage with the toothed rack (222) under the piston body (22). The remaining half of the periphery of the upper gear (3262) is the idle area and does not contact with the toothed rack (222). Thereby, when the half-toothed gear (326) rotates counterclockwise, the teeth (3266) drive the piston body (22) closer to the rear end of the first casing (20) to compress the spring (24). Meanwhile, the driving shaft (28) is pushed backward when the driving block (3264) moves in radian according to the rotation of the half-toothed gear (326). When the driving shaft (28) moves backward, the nozzle (26) also moves aside to allow the rising shooting object (162) to enter the gun body (10).
With further reference to
The trigger (34) is pivotally attached inside the second casing (30) and has a lower pushing bar (342) and an upper abutting block (344). The lower pushing bar (342) extends out of the second casing (30) via the bottom slit so that a user can pull the trigger to activate the toy gun. The upper abutting block (344) operationally touches the switch (36) when the lower pushing bar (342) is pulled.
The switch (36) is accommodated at the front end inside the second casing (30) and composed of a movable block (362) and a stationary block (364). When the trigger (34) is pulled to make the upper abutting block (344) push the movable block (362), the movable block (362) moves forward to touch the stationary block (364) to achieve an electrical connection. Then, the electrical motor (not shown) is activated to drive the gear set to shoot the shooting object (162).
With reference to
According to the foregoing description, the driving assembly in the present invention can be detached conveniently to separate the first and second casings (20, 30) so that the toy gun can be easily repaired.
Although the invention has been explained in relation to its preferred embodiment, many other possible modifications and variations can be made without departing from the spirit and scope of the invention as hereinafter claimed.
Claims
1. A detachable driving assembly for a toy gun, the detachable driving assembly comprising:
- a first casing (20) being cylindrical barrel and having a front end, a front opening (202), a rear end, a bottom, a bottom slit (204), a sheet (206) formed on the bottom at the rear end, and an abutting arm (208) extended from the bottom at the front end, wherein the first casing (20) comprises: a piston body (22) transversally received inside the first casing (20) and having a bottom and a toothed rack (222) formed on the bottom of the piston body (22); a spring (24) received inside the first casing (20) between the piston body (22) and the rear end of the first casing (20); a nozzle (26) retractably attached to piston body (22) at the front end of the first casing (20); and a driving shaft (28) movably attached under the piston body (22) and having a connecting end connected to the nozzle (26); a distal end opposite to the connecting end; an enlarged block (282) formed on the distal end and having an inclined face; and a resilient element extending between the driving shaft (28) and the front end of the first casing (20);
- a second casing (30) composed of two symmetrical shells and having a top, a bottom, a front end, a rear end, a top slit defined in the top and a bottom slit defined in the bottom, wherein the second casing (30) comprises: a gear set comprising a miter gear (322) adapted to be driven by an electrical motor; a reduction gear (324) rotatably connected with the miter gear (322) and composed of a large gear (3242) engaged with the miter gear (322) and a small gear (3244) coaxially mounted on the large gear (3242); and a half-toothed gear (326) rotatably connected to the reduction gear (324) and composed of a lower gear (3261) and an upper gear (3262) slightly larger than the lower gear (3261), wherein the lower gear (3261) engages with the small gear (3244) of the reduction gear (324) and the upper gear (3262) has: a flat face; an annular periphery; a driving block (3264) formed on the flat face to abut the inclined face of the enlarged block (282) on the driving shaft; multiple teeth (3266) partially formed on a first portion of the annular periphery to engage with the toothed rack (222) under the piston body (22); and an idle area formed on a second portion of the annular periphery;
- a trigger (34) pivotally attached inside the second casing (30);
- a switch (36) accommodated at the front end inside the second casing (30) and activated by the trigger (34); and
- a levering block (38) pivotally attached at the front end of the second casing (30) and having a pivotal axle attached to the second casing (30); a driven end (382); and a resting end (384) perpendicular to the driven end (382);
- wherein, the first casing (20) is pivotally mounted on the second casing (30) at the rear end of the first casing (20) by inserting the sheet (206) into the second casing (30) via the top slit and pivotally attaching the sheet (206) to the second casing (30); and
- wherein, the casing (20) is detachably mounted on the second casing (30) at the front end of the first casing (20) by clipping the levering block (38) with the abutting arm (208).
2. The detachable driving assembly as claimed in claim 1, wherein the levering block (38) further has a torsional spring (386) surrounding around the pivotal axle of the levering block (38) to provide a restitution force to the levering block (38).
3. The detachable driving assembly as claimed in claim 1, wherein the first casing (20) further has a spring tube (242) attached at the rear end inside the first casing (20) to partially penetrate the spring (24).
4. The detachable driving assembly as claimed in claim 2, wherein the first casing (20) further has a spring tube (242) attached at the rear end inside the first casing (20) to partially penetrate the spring (24).
5. The detachably driving assembly as claimed in claim 1, wherein the resilient element of the driving shaft (28) comprises:
- a hook (284) protruding down from the driving shaft (28); and
- a spring (286) secured between the hook (284) and an inner stub at the front end of the first casing to longitudinally extend under the driving shaft (28).
6. The detachable driving assembly as claimed in claim 4, wherein the resilient element of the driving shaft (28) comprises:
- a hook (284) protruding down from the driving shaft (28); and
- a spring (286) secured between the hook (284) and an inner stub at the front end of the first casing to longitudinally extend under the driving shaft (28).
7. The detachable driving assembly as claimed in claim 1, wherein the trigger (34) has a lower pushing bar (342) extending out of the second casing (30) via the bottom slit and an upper abutting block (344) operationally touching the switch (36) when the lower pushing bar (342) is pulled.
8. The detachable driving assembly as claimed in claim 1, wherein the switch has
- a stationary block (364); and
- a movable block (362) pushed by the upper abutting block (344) of the trigger (34) to contact the stationary block (364) to achieve an electrical connection to adapt to activate the electrical motor.
Type: Application
Filed: Dec 29, 2004
Publication Date: Jun 29, 2006
Inventor: Chen-Tang Chu (Fongyuan City)
Application Number: 11/023,561
International Classification: F41A 19/00 (20060101);