KR100994286B1

KR100994286B1 - Toy gun gearbox with a manual launch capability

Info

Publication number: KR100994286B1
Application number: KR1020100035015A
Authority: KR
Inventors: 전춘병
Original assignee: 전춘병
Priority date: 2010-04-15
Filing date: 2010-04-15
Publication date: 2010-11-18

Abstract

PURPOSE: A gear box for a toy gun with a manual shooting function is provided to shoot toy bullet by manually operating a cylinder and piston even a motor, a gear and a switch are out of order. CONSTITUTION: A gear box for a toy gun with a manual shooting function comprises a manual shooting device. The manual bayonet lock is composed of a loading bar(50) and a releasing part(60). The loading bar and the releasing part have stopping sills(10,20), a bottom protrusion(30), a stopping piece(40) and jaws(51,52). When a cylinder(105) and a piston(103) are reversed, an internal compression spring(104) of the piston is compressed in order to shoot a bullet.

Description

Toy gun gearbox with a manual launch capability.

The present invention consists of a switch, a motor, a cylinder and a piston, a compression spring, a trigger, a firing mode switching elevating member, and a slide member. A formed upper locking jaw, a rear locking jaw formed at the rear of the piston, and a lower locking jaw formed in the rack gear portion at the lower portion of the piston, and forming a locking portion at the upper portion of the firing mode switching lifting member so as to be caught by the locking portion, Compression springs in the piston are compressed by reversing the cylinder and the piston caught by the locking jaws of the loading member, respectively, by configuring the loading member and the release portion having a plurality of locking jaws in front so as to be caught by the upper locking jaw and the rear locking jaw. When the lower locking jaw of the piston is caught by the catching part of the lifting mode switching member, and the lower catching jaw is released from the catching part by the release part, the piston Advance into the cylinder to generate compressed air to fire the toy bullets manually so that the gearbox for toys operated by conventional batteries can be operated manually without the battery or when the battery is exhausted. The present invention relates to a gearbox of a toy gun with a manual firing function, in which a cylinder and a piston are manually operated to fire a toy bullet.

In general, the gearbox 100 of the conventional toy gun is disclosed in Japanese Patent Laid-Open Publication No. 2005-121300, "Fire Mode Replacement Device for an Electric Air Gun," as shown in FIG. As described above, the piston 103 and the piston 103 which are driven by the gears 102a, 102b, 102c, 102d, which are configured in plural and engaged with each other to be driven by the motor M connected to the switch 101, the piston 103 A cylinder 105 having a compression spring 104 inserted therein and the piston 103 are moved back and forth in the cylinder 105 to generate compressed air, which is operated by external operation to operate the piston. It is installed between the 103 and the switch 101 and is connected to the slide member 107 interlocked with the switch 101 and the trigger 106 to be installed to switch the firing mode to safety, single shot, firing mode Launch mode switching lifting member 108 is provided for the toy It is configured to launch the Al (300).

However, in order to drive the motor M of the gearbox 100 of the toy gun, a battery (not shown) is required, and the battery (not shown) is discharged after being used and left for a predetermined time to discharge the battery (not shown). Is unable to drive the motor (M), so that the gears (102a, 102b, 102c, 102d) and the piston (103) interlocked with the motor (M) of the gearbox (100) of the toy gun There was a problem that can not fire the toy bullets 300 can not be reversed.

In addition, when the motor (M), the gears (102a, 102b, 102c, 102d), the switch, which is a configuration of the gear box 100 of the toy gun is broken, the toy gun (not shown) is not discharged There was a problem that can not fire the toy bullet 300 by driving the gearbox 100.

In addition, the loading member having a plurality of locking jaw and the front, rear locking jaw, locking portion, the lower locking jaw in the gearbox 100 of the conventional toy gun to manually fire the toy bullet 300 There was a problem that the gearbox of the toy gun is not provided.

In order to solve the above problems, the present invention, the upper catching jaw formed in the upper front of the cylinder, the rear catching jaw formed in the rear upper portion of the piston to operate the gearbox of the toy gun manually, the rack gear in the lower part of the piston Forming a lower locking jaw in the upper portion, forming a locking portion in the upper portion of the firing mode switching elevating member so as to be caught in the locking portion, and a loading member having a plurality of locking jaws formed in the front to be caught by the upper locking jaw and the rear locking jaw. When the cylinder and the piston which are respectively caught by the locking jaws of the loading member are reversed, the compression spring in the piston is compressed, the lower locking jaw of the piston is caught by the locking portion of the lifting mode switching member, and the lower locking jaw is released from the locking portion. The piston moves forward into the cylinder to generate compressed air, which causes the toy bullet to be fired manually. New manual firing function that allows the toy gearbox operated by the battery to be operated without a battery or when the battery is consumed manually, and fires a toy bullet by manually operating a cylinder and a piston even when the motor, switch and gear fail. The purpose of the present invention is to provide a gearbox of a toy gun equipped with a.

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In order to achieve the above object, the piston 103 is driven by the gears (102a, 102b, 102c, 102d) which are composed of a plurality of gears to be driven by the motor (M) connected to the switch 101 and installed in engagement with each other, and The piston 103 is inserted therein, the cylinder 105 having the compression spring 104, and the piston 103 is moved back and forth in the cylinder 105 to generate compressed air, and by external operation Launch mode switching lifting and lowering is installed between the piston 103 and the switch 101 and connected to the slide member 107 interlocked with the switch 101 and the trigger 106 to switch the firing mode In the gearbox 100 of the toy gun provided with a member 108 and configured to fire the toy bullet 300, the opening 11 formed on the gearbox 100 of the toy gun and the cylinder 105 The upper locking jaw 10 is formed in front of the), the The rear locking jaw 20 is formed at the rear upper portion of the stone 103 and the rack gear portion 103a formed at the lower portion of the piston 103 and the lower locking jaw 30 at the lower rear of the piston 130. It is formed, the engaging portion 40 is formed on the upper portion of the firing mode switching lifting member 108 to be caught by the lower locking jaw 30, is inserted into the opening 11 and the upper locking jaw (10) and Back and front of the loading member 50 having a plurality of locking jaws (51, 52) and the front lower surface of the firing mode switching lifting member 108 in front and rear so as to be caught by the rear locking jaw 20, respectively A release part 60 which slides forward and a lower part of the release part 60 are connected to the rear upper part of the trigger 106 to be driven; The front and rear of the loading member 50 is installed in abutment, the safety switch 70 installed in the upper front of the cylinder 105 inside the gear box 100 of the toy gun, and the safety switch 70 It is characterized in that it is provided to turn on and off the drive of the motor (M).

In addition, the lower front of the release unit 60 "

Slide groove portion 61 formed in the shape of ", and the lower surface of the slide groove portion 61 is installed to slide on the upper surface of the protrusion 108a protruding to the front of the firing mode switching elevating member 108, the Pushing the front surface of the slide groove 61 forward with the stepped jaw 106a formed on the rear upper portion of the trigger 106 and the raised step 106a so as to be caught by the front inner side surface of the slide groove 61. The lower surface of the protrusion 108a is separated from the slide groove 61 and moved to the rear lower surface of the release part 60 so that the firing mode switching elevating member 108 is lowered and the stepped 106a. As the lowering of the release portion (60) is reversed backwards and the projection (108a) is inserted into the upper surface of the slide groove (61) is configured to raise the firing mode switching elevating member (108);

A moving hole 108b formed through a central portion of the firing mode shifting elevating member 108 and a front of the release unit 60 are inserted into the moving hole 108b so that the lower surface and the lower surface of the moving hole 108b are inserted. The upper surfaces of the slide groove portion 61 are configured to be in contact with each other and slide, the stepped portion 106a formed on the rear upper portion of the trigger 106 to be caught by the front inner side surface of the slide groove portion 61, and the stepped portion 106a. When the front surface of the slide groove 61 is pushed forward by the rise of), the lower surface in the moving hole 108b is separated from the slide groove 61 to release the upper surface of the slide groove 61. Moved to the rear of the unit 60, the firing mode switching lifting member 108 is lowered, by the lowering of the step 106a, the release unit 60 is reversed backward and the moving hole 108b is the slide Inserted into the upper surface of the groove portion 61 to switch the firing mode It is characterized in that a steel member 108 increases.

In addition, a return spring 80 connected rearward to the front of the loading member 50, and the front of the return spring 80 is on the inner surface of the gear box 100 of the toy gun in front of the cylinder 105; It is characterized in that it is fixedly installed.

The present invention further includes a manual launching device comprising a front and rear locking jaw, a lower locking jaw, a locking portion, a loading bar having a locking jaw, and a release portion, in the gearbox of the toy gun. When the cylinder and the piston caught on the back are retracted, the compression spring in the piston is compressed, and the lower locking jaw of the piston is caught by the catch of the lifting mode switching member, and when the lower locking jaw is released by the release part, the piston By advancing into the pressurized air to fire the toy bullets manually, there is an effect that the conventional battery operated gearbox for a battery operated without a battery or manually operated when the battery is consumed.

In addition, the present invention has the effect of firing a toy bullet by manually operating the cylinder and the piston even when the motor, switch, and gear in the configuration of the conventional gearbox failure.

In addition, the present invention has the effect of extending the life of the gearbox life of the toy gun by operating the piston in the cylinder manually to the gearbox operated by a motor and a battery.

In addition, the present invention is provided with a safety switch in front of the loading member to prevent the motor from operating when the reloading member is retracted by the safety switch to the motor when the reloading member retracts the loading member and the piston manually And it is effective to prevent the failure of the gears, the switch.

1 is a schematic view showing a gearbox of a conventional toy gun.
Figure 2 is a schematic diagram showing the gearbox of the toy gun according to the invention.
3 and 4 is a schematic cross-sectional view showing a connection relationship between the cylinder and the piston and the firing mode switching member and the release portion and the trigger according to the present invention.
5 to 7 are schematic views showing the operation of the present invention.
8 is another embodiment showing a connection relationship between the firing mode switching member and the release unit according to the present invention.
9 is a use state according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic view showing a gearbox of a conventional toy gun, Figure 2 is a schematic view showing a gearbox of the toy gun according to the present invention, Figures 3 and 4 is a cylinder and piston and the firing mode switching lifting according to the present invention Figure 5 is a schematic cross-sectional view showing a connection relationship between the member and the release portion and the trigger, Figures 5 to 7 are schematic views showing the operation of the present invention, Figure 8 is another showing the connection relationship between the firing mode switching lifting member and the release portion according to the present invention 9 is an exemplary view, and Figure 9 is a state diagram used in accordance with the present invention.

Referring to the gearbox of the toy gun with a manual firing function according to the invention in detail with reference to Figures 2 to 9;

In general, the gearbox 100 of the toy gun is configured to be driven by a motor (M) connected to the switch 101 and the piston 103 is driven by the gears (102a, 102b, 102c, 102d) installed in engagement with each other It is composed of

In addition, the piston 103 is inserted therein and consists of a cylinder 105 having a compression spring 104.

The piston 103 is moved back and forth in the cylinder 105 to generate compressed air.

In addition, the firing mode switching lifting member 108 is installed between the piston 103 and the switch 101 is operated by an external operation.

The firing mode switching elevating member 108 is configured to be connected to the switch 101 and the slide member 107 interlocked with the trigger 106 is installed to switch the firing mode in a single shot and a single shot.

The firing mode is composed of a single shot mode and a continuous shooting mode.

Therefore, the gearbox of the toy gun with a manual firing function according to the present invention, the upper locking jaw 10, the rear locking jaw 20, the lower locking jaw 30, the locking portion 40, the loading The member 50, the locking projections 51 and 52, and the release part 60 are comprised.

An opening 11 is formed in an upper surface of the gearbox 100 of the toy gun.

The upper locking jaw 10 is formed in front of the cylinder 105 is configured.

The upper catching jaw 10 is caught in the catching jaw 51 formed in front of the loading member 50 to be described later, the toy bullet 300 loaded in a magazine (not shown) to be inserted into the toy gun is the cylinder It is configured to be provided in front of 105.

The rear catching jaw 20 is formed on the rear upper portion of the piston (103).

The rear catching jaw 20 is configured to catch the catching jaw 52 formed on the rear side of the loading member 50 to be described later to reverse the piston 103.

The rack gear part 103a formed below the piston 103 is formed.
The lower locking jaw 30 is formed in the lower rear of the piston (103).

The lower locking jaw 30 is configured to be caught by the engaging portion 40 formed of the firing mode switching lifting member 108 to be described later to the loading member 50.

The upper portion of the firing mode switching elevating member 108 is formed with a locking portion 40 is configured to be caught by the lower locking jaw (30).

The loading member 50 is moved forward and backward at the upper portion of the gear box 100 of the toy gun, and both of the loading member 50 in the opening 11 formed in the upper portion of the gear box 100 of the toy gun. The jaws 51 and 52 are inserted to engage the upper locking jaw 10 of the cylinder 105 and the rear locking jaw 20 of the piston 103.

It is composed of a return spring 80 connected to the rear of the loading member 50 in front.
In addition, the front of the return spring 80 is configured to be fixed to the inner surface of the gear box 100 of the toy gun in front of the cylinder 105 upper.

The return spring 80 is for restoring the elastic force of the return spring 80 to the original position where the loading member 50 is reversed.

The release unit 60 is configured to release the firing mode switching lifting member 108 in conjunction with the trigger 106.

In addition, the lower front of the release unit 60 "

It consists of a slide groove 61 formed in the shape of ".
The lower surface of the slide groove 61 is installed to slide on the upper surface of the protrusion 108a protruding to the front of the firing mode switching member 108, so as to be caught by the front inner side surface of the slide groove 61 It consists of the stepped 106a formed in the upper back part of the trigger 106.
When the trigger 106 is rotated, the front surface of the slide groove 61 is pushed forward by the elevation of the stepped portion 106a formed at the rear upper portion of the trigger 106, and the lower surface of the protrusion 108a. Is separated from the slide groove 61 is moved to the rear lower surface of the release unit 60 is the firing mode switching member 108 is lowered.
As the stepped portion 106a descends, the release part 60 is retracted backward and the protrusion 108a is inserted into the upper surface of the slide groove 61 so that the firing mode switching member 108 is raised.

As shown in FIG. 8, it is comprised by the moving hole 108b formed in the center part of the said firing mode switching elevating member 108. As shown in FIG.
The front of the release unit 60 is inserted into the moving hole 108b so that the lower surface in the moving hole 108b and the upper surface of the slide groove 61 come into contact with each other and slide.
The stepped portion 106a is formed on the rear upper portion of the trigger 106 so as to be caught by the front inner side surface of the slide groove portion 61.
When the trigger 106 is rotated, when the front surface of the slide groove 61 is pushed forward by raising the stepped portion 106a formed at the upper rear of the trigger 106, the lower portion in the moving hole 108b. The surface is separated from the slide groove 61 is moved to the rear of the release unit 60 from the upper surface of the slide groove 61, the firing mode switching member 108 is lowered.
In addition, the lower portion of the step (106a), the release portion 60 is reversed backward and the moving hole (108b) is inserted into the upper surface of the slide groove 61, the firing mode switching member 108 is raised It is done.

That is, as shown in FIGS. 5 to 7, when the piston 103 is retracted by being caught by the rear catching jaw 20 on the catching jaw 52 formed at the rear of the loading member 50, the piston 103 is shown. The compression spring 104 in the rear of the compression is based on the inner surface of the gear box, the lower locking jaw 30 of the piston 103 is the locking portion of the firing mode switching lifting member 108 (40).

On the other hand, the lower surface of the slide groove 61 formed in the lower front of the release unit 60 is installed to slide on the upper surface of the protrusion 108a protruding to the front of the firing mode switching member 108, the slide The stepped portion 106a is formed on the rear upper portion of the trigger 106 so as to be caught by the front inner side surface of the groove portion 61.
When the trigger 106 is rotated, the front surface of the slide groove 61 is pushed forward by the elevation of the stepped portion 106a formed at the rear upper portion of the trigger 106, and the lower surface of the protrusion 108a is When the separation from the slide groove 61 is moved to the rear lower surface of the release unit 60 and the firing mode switching member 108 is lowered, the engaging portion 40 of the firing mode switching lifting member 108 When the lower engaging jaw 30 of the piston 103 is released, the piston 103 is moved forward by the elastic force of the compression spring 104 installed at the rear of the piston 103. Compressed air is generated in the cylinder 105 so that compressed air is injected into the nozzle 105a of the cylinder 105 to move the toy bullet 300 provided in front of the nozzle 105a forward. Barrel 105b installed in front of the nozzle 105a ) And pop out of the barrel 105b.

On the other hand, the safety switch 70 is installed to be in contact with the front and rear of the loading member 50, is configured to be installed in the upper front of the cylinder 105 inside the gear box 100 of the toy gun.
The safety switch 70 is configured to be provided to turn on and off the drive of the motor (M).

The safety switch 70 is kept on when the front surface of the loading member 50 is in contact. The safety switch 70 is configured to be off when the front surface of the loading member 50 is separated from the safety switch 70. do.

When the loading member 50 is retracted, the safety switch 70 cuts off the power of a battery (not shown) to the motor M, and manually retracts the loading member 50 and the piston 103 from the motor. This is to prevent the operation of the motor M, the gears 102a, 102b, 102c, and 102d and the switch 101 by preventing the operation of the M.

As such, the gears 102a, 102b, 102c and 120d interlocked with the motor M driven by the power of the battery (not shown) and the piston 103 in the cylinder 105 are driven to drive the cylinder. An air pressure is generated in the piston 103 to blow out the air pressure to the nozzle 105a of the cylinder 105, so that the toy bullet 300 provided in front of the nozzle 105a is opened. Manually retracting the piston 103 to the loading member 50 to the motor-driven toy gun gearbox 100 configured to fire through 105b), thereby advancing the piston 103 into the cylinder 105. To generate air pressure in the cylinder 105 to fire the toy bullet 300 through the barrel 105b.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims and their equivalents.

10: upper locking jaw 20: rear locking jaw 30: lower locking jaw 40: locking 50: loading member 51, 52: locking jaw 60: release 70: safety switch 80: return spring 100: toy gun gear box 101: Switch 102a, 102b, 102c, 102d: Gear 103: Piston 104: Compression Spring 105: Cylinder 106: Trigger 107: Slide member 108: Launch mode switching lifting member 300: Bullet for toy M M: Motor

Claims

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A piston 103, which is driven by gears 102a, 102b, 102c, and 102d, which are composed of a plurality and engaged with each other and driven by a motor M connected to the switch 101, is inserted therein. And a cylinder 105 having a compression spring 104 and the piston 103 are moved back and forth in the cylinder 105 to generate compressed air, and are operated by external operation to operate the piston 103 and Is installed between the switch 101 and connected to the slide 101 and the sliding member 107 interlocked with the trigger 106 is provided with a firing mode switching lifting member 108 installed to switch the firing mode toys In the gearbox 100 of the toy gun configured to fire the bullet 300,
The opening 11 is formed in the upper gearbox 100 of the toy gun, and the upper locking jaw 10 is formed in front of the cylinder 105, the rear locking jaw 20 in the upper rear of the piston 103 ) Is formed and the rack gear portion (103a) formed in the lower portion of the piston 103, and the lower locking jaw 30 is formed in the lower rear of the piston 130, so as to be caught by the lower locking jaw (30) A catching part 40 is formed at an upper portion of the firing mode switching elevating member 108, and inserted into the opening 11 so as to be caught by the upper catching jaw 10 and the rear catching jaw 20, respectively, to move backward. A loading unit 50 having a plurality of locking jaws 51 and 52 at the back and a release unit 60 which slides back and forth in contact with a lower surface of the front surface of the firing mode switching elevating member 108 and the release unit; A lower portion of the 60 is configured to be driven in connection with a rear upper portion of the trigger 106;
The front and rear of the loading member 50 is installed in abutment, the safety switch 70 installed in the upper front of the cylinder 105 inside the gear box 100 of the toy gun, and the safety switch 70 Gear box of the toy gun with a manual firing function, characterized in that it is provided to turn on and off the drive of the motor (M).

The method of claim 2,
In the lower front of the release unit 60 "

Slide groove portion 61 formed in the shape of ", and the lower surface of the slide groove portion 61 is installed to slide on the upper surface of the protrusion 108a protruding to the front of the firing mode switching elevating member 108, the Pushing the front surface of the slide groove 61 forward with the stepped jaw 106a formed on the rear upper portion of the trigger 106 and the raised step 106a so as to be caught by the front inner side surface of the slide groove 61. The lower surface of the protrusion 108a is separated from the slide groove 61 and moved to the rear lower surface of the release part 60 so that the firing mode switching elevating member 108 is lowered and the stepped 106a. As the lowering of the release portion (60) is reversed backwards and the projection (108a) is inserted into the upper surface of the slide groove (61) is configured to raise the firing mode switching elevating member (108);
A moving hole 108b formed through a central portion of the firing mode shifting elevating member 108 and a front of the release unit 60 are inserted into the moving hole 108b so that the lower surface and the lower surface of the moving hole 108b are inserted. The upper surfaces of the slide groove portion 61 are configured to be in contact with each other and slide, the stepped portion 106a formed on the rear upper portion of the trigger 106 to be caught by the front inner side surface of the slide groove portion 61, and the stepped portion 106a. When the front surface of the slide groove 61 is pushed forward by the rise of), the lower surface in the moving hole 108b is separated from the slide groove 61 to release the upper surface of the slide groove 61. Moved to the rear of the unit 60, the firing mode switching lifting member 108 is lowered, by the lowering of the step 106a, the release unit 60 is reversed backward and the moving hole 108b is the slide Inserted into the upper surface of the groove portion 61 is the firing mode switching win Gearbox of a toy gun with a manual firing function, characterized in that the steel member 108 is raised.

The method of claim 2,
A return spring 80 connected rearward to the front of the loading member 50, and the front of the return spring 80 is fixed to the inner side of the gear box 100 of the toy gun in the upper front of the cylinder 105 Gearbox of the toy gun with a manual firing function characterized in that it is installed.