WO2003106912A2

WO2003106912A2 - Co2 pocket gun

Info

Publication number: WO2003106912A2
Application number: PCT/TR2003/000051
Authority: WO
Inventors: Hakan Denizyaran
Original assignee: Hakan Denizyaran
Priority date: 2003-04-22
Filing date: 2003-06-10
Publication date: 2003-12-24
Also published as: WO2003106912A3; AU2003241265A1; AU2003241265A8; TR200300531A2

Abstract

The carbon dioxide pocket gun, which has been developed by this invention, is run with the carbon dioxide in one-way valve 12 gr. CO2 cylinder that may be loaded by the user personally and characterized by the main components such as one-way valve 12 gr. carbon dioxide cylinder, which is placed from the bottom side into the handle, the cylinder mechanism enabling to remove the cylinder through the pressure of carbon dioxide in tank, the firing mechanism involving the lever, trigger and the hammer arrangement, which functions inversely regarding to the known carbon dioxide guns, valve mechanism having the angular part and the ring, ball charger mechanism having the slide bold and the coupling part, enclosure, frame, side plate and the safety ratchet handle.

Description

C02 POCKET GUN

This invention, which has the mechanism that runs with one-way valve 12 gram C02 cylinder, ball charger mechanism and a specific firing mechanism to be worked differently from conventional C02 (carbon dioxide) gun mechanisms, concerns C02 pocket gun and functions to throw out the balls (BB) towards the target by means of using the gas pressure of carbon dioxide.

C02 guns run with carbon dioxide included in known non-returnable 12 gr. C02 cylinder are throwing the shots (or any other balls or similar objects), which have been placed into charger mechanisms depending on the power gained from the gas pressure of carbon dioxide.

In order to use the carbon dioxide found as being liquid form inside non-returnable 12 gr. C02 cylinders, which are widely produced and used as non-returnable form, the rivet on the rim side of those cylinders should be drilled with a part included in C02 gun, so carbon dioxide in such non- returnable 12 gr. C02 cylinder being as liquid form could be used accordingly.

The user should provide the screwed part, which is generally found under the gun handle and included in non-returnable, 12 gr. C02 cylinder turned around in order to drill the rivet of non-returnable 12 gr. C02, which is placed into cylinder housing of known C02 guns .

Such part, which is placed on one side of known C02 gun and turned by the user, pushes non-returnable 12 gr. C02 cylinder from the rear side towards the needle with gas canals on the other side of the gun. Therefore, the rivet of non-returnable 12 gr. C02 cylinder, which was pressed between two parts, is drilled with the needle having the gas canal of C02 gun so carbon dioxide inside the cylinder became usable accordingly.

Such system is also used in C02 guns run with all known 12 gr. C02 cylinders. However, there are some disadvantages of such system as follows:

1- Because of the screwed parts, which are used to press non-returnable 12 gr. C02 cylinder included in known C02 guns, they could be easily distinguished from the firing guns depending on artificial appearance.

2- In order to activate C02 gun, the user should remove the handle, which is covering the cylinder housing of C02 gun and replace such removed part in its place after known 12 gr. C02 cylinder was placed into cylinder housing. However, it is always noted that to drill the rivet of known 12 gr. C02 cylinder, the screwed part of C02 gun should be turned for a specified time of period. 3- The composed system enabling to drill the rivet of non-returnable 12 gr. C02 cylinders used in known 002 guns takes a specified place in 002 guns .

4- Depending on the matters as defined in above articles 1,2, and 3 in addition to the measurements of used firing mechanisms and ball (BB) charger mechanisms, those known C02 guns are in definite sizes therefore they are produced in the manner of not qualifying as C02 pocket gun.

By the purpose of this invention, it is intended to eliminate all above listed disadvantages.

In order to provide a clearer explanation of developed carbon dioxide pocket gun in scope of such invention, the explanatory figures are attached. The descriptions of such figures are as follows;

1- Sectional view of 002 pocket gun

2- Sectional view of the safety ratchet handle of 002 pocket gun' s cylinder pusher mechanism, when activated

3- Sectional view of 002 pocket gun' s cylinder pusher mechanism, when activated

4- Sectional view of attached cover of ball charger of 002 pocket gun, when unscrewed (except ball pusher part)

5- Sectional view of moving system of 002 pocket gun' s firing mechanism (hammer, lever and trigger)

6- Sectional view of storage tank (1)

7- Sectional view of ring (2)

8- View of conical spring (3)

9- View of ball (4) 10-Sectional view of gasket (5) 11-Sectional view of storage tank screw (6) 12-Sectional view of stroke component (7) 13-Sectional view of gasket (8) 14-Sectional view of storage tank cover (9)

15-Sectional view of cylindrical helix pressure spring (10)

16-Sectional view of barrel (11)

17-Sectional view of charger pipe (12) 18-Sectional part of angular part (13) 9-Sectional view of cylindrical helix pressure spring (14) 0-Sectional view of ball pusher part (15) 1-Sectional view of slide bold Part A (16.A) and slide bold Part B (16. B) 2-Sectional view of slide bold consisting of Part A and Part B (16) 3-Sectional view of coupling part (17) 4-Sectional view of charger cover (18) 5-Sectional view of enclosure (19) 6-Sectional view of support part of cylinder pusher mechanism (20) 7-View of cylindrical helix pressure spring (21) 8-View of cylindrical helix pressure spring (22) 9-Sectional view of cylinder pusher part (23) 0-Sectional view of bracket assembly (24) 1-Sectional view of cylinder pusher safety ratchet handle (25) 2-Sectional view of cylinder pusher coupling pin (26) 3-Sectional view of functional key part (27) 4-View of coupling pin of functional key (28) 5-View of side plate assembly bolts (29) 6-Sectional view of hammer (30) 7-View of cylindrical helix pressure spring (31) 8-Sectional view of sear (32) 9-View of cylindrical helix pressure spring (33) 0-Sectional view of trigger (34) 1-Sectional view of lever (35) 2-Sectional view of safety ratchet handle (36) 3-Sectional view of rear sight (37) 4-View of cylindrical helix pressure spring (38) 5-View of cylindrical pulling spring (39) 6-Assembly pins of firing mechanism (40) 7-Coupling pin of hammer-sear (41) 8-View of frame (42) 49-View of side frame (43)

In order to present a detailed explanation of carbon dioxide pocket gun, which was developed regarding to so-called invention, the parts included in illustrative figures were numbered separately and the relevant description of each part is as follows;

Part 1: storage tank (1)

Part 2: ring (2)

Part 3: conical spring (3)

Part 4: ball (4)

Part 5: gasket (5)

Part 6: storage tank screw (6)

Part 7: stroke component (7)

Part 8: gasket (8)

Part 9: storage tank cover (9)

Part 10: cylindrical helix pressure spring (10)

Part 11: barrel (11)

Part 12: charger pipe (12)

Part 13: angular part (13)

Part 14: cylindrical helix pressure spring (14)

Part 15: ball pusher part (15)

Part 16: slide bold (16)

Part 17: coupling part (17)

Part 18: charger cover (18)

PART 19: enclosure (19)

Part 20: support part of cylinder pusher mechanism (20)

Part 21: cylindrical helix pressure spring (21)

Part 22: cylindrical helix pressure spring (22)

Part 23: cylinder pusher part (23)

Part 24: bracket assembly (24)

Part 25: cylinder pusher safety ratchet handle (25)

Part 26: cylinder pusher coupling pin (26) Part 27 : functional key part (27 )

Part 28 : coupling pin of functional key ( 28 )

Part 29 : side plate assembly bolts (29 )

Part 30 : hammer ( 30 )

Part 31: cylindrical helix pressure spring (31)

Part 32: sear (32)

Part 33: cylindrical helix pressure spring (33)

Part 34: trigger (34)

Part 35: lever (35)

Part 36: safety ratchet handle (36)

Part 37: rear sight (37)

Part 38: cylindrical helix pressure spring (38)

Part 39: cylindrical pulling spring (39)

Part 40: Assembly pins of firing mechanism (40)

Part 41: Coupling pin of hammer-sear (41)

Part 42: frame (42)

Part 43: side plate (43)

Part 44: fixing screw (44)

C02 POCKET GUN MECHANISMS

Pertaining to this invention, carbon dioxide pocket gun is consisting of 4 mechanisms as follows;

Mechanism 1- CYLINDER MECHANISM

Mechanism 2- VALVE MECHANISM

Mechanism 3- FIRING MECHANISM

Mechanism 4- BALL CHARGER MECHANISM

DETAILED EXPLANATION OF THE MECHANISMS TO BE INCLUDED IN Cθ2 POCKET GUN

Mechanism - CYLINDER MECHANISM

The cylinder mechanism of 002 pocket gun is consisting of the parts enabling to activate one-way valve 12 gr. C02 cylinder (l.T.l) by replacing it into cylinder housing part (42.B) or to cease the relevant activity by removing it from the cylinder housing part (42.B) as well. Such cylinder mechanism of C02 pocket gun is definitely different from the cylinder mechanisms of all known 002 guns run with 12 gr. 002 cylinder (l.T.l) in respect of operating principle and the relevant design subject to such principle.

The cylinder mechanism used in 002 pocket gun is enabling the user to activate the gun in the manner of pushing one-way valve 12 gr. 002 cylinder (l.T.l) from the back always provided one part (25) from the lower group of 002 gun cylinder mechanism caused to work the other parts (20, 21, 22, 23, 24, 26, 27) in addition to the contributions of the other parts

(8 and 9) constituting the lower group of the mechanism or, in other words, it is run by the principle indicating to remove one-way valve 12 gr. 002 cylinder (l.T.l) from the gun subject to using the accumulated carbon dioxide pressure in gun's valve and significant contributions of the other parts (20,21,22,23,24,26,27).

The user, thanks to cylinder mechanism of 002 pocket gun, is able to dismantle or remove one-way valve 12 gr. 002 cylinder (l.T.l) into or from 002 pocket gun in a quicker way than the application in all other known 002 guns run with 12 gr. C02 cylinder.

Therefore, such advantage provides the user to gain the capability of using 002 pocket gun quicker than all known C02 guns run with 12 gr. 002 cylinder.

Such gun is also more similar to the arms (real guns) compared with all known 002 guns run with 12 gr. 002 cylinder depending on mentioned cylinder mechanism of 002 pocket gun.

The parts constituting the cylinder mechanism of C02 pocket gun are installed in 2 groups as being upper and lower groups as follows;

UPPER GROUP: It is consisting of the gasket taking part at the bottom part of the storage tank and the storage tank cover (9) in 002 pocket gun.

The mentioned parts constituting the upper group are the fixed parts of the cylinder mechanism of 002 pocket gun.

The upper group is one of the cylinder mechanism groups where one-way valve 12 gr. 002 cylinder (l.T.l) is ensured to activate by one-way valve of 12 gr. C02 cylinder (l.T.l) on the gasket, which is caused to open depending on pressing.

LOWER GROUP: The cylinder pusher mechanism pin (20) installed inside the bottom section of interior side of 002 pocket gun, cylinder pusher part (23), bracket assembly (24), cylinder pusher safety ratchet handle (25), functional key part (27) and cylindrical helix pressure springs (21), (22) placed into some of those parts and the pins (26) , (28) , which are used to assemble those parts, are constituting the lower group of the cylinder mechanism.

The parts forming the lower group such as the cylinder pusher mechanism pin (20), cylindrical helix pressure springs (21 and 22), cylinder pusher part (23), bracket assembly (24), cylinder pusher safety ratchet handle (25) and functional key part (27) are the movable parts of the cylinder mechanism of the pocket gun.

The lower group is the one used by the user during the operation of the cylinder mechanism.

While the mentioned lower group is keeping one-way valve 12 gr. 002 cylinder (l.T.l) inside the cylinder housing part (42.B) active, it also ensures this cylinder not to be ejected from the cylinder housing part (42.B) except the intention of the user.

The lower group is one of the cylinder mechanism groups, which activates one-way valve 12 gr. 002 cylinder (l.T.l) subject to a pressing pressure occurred by pushing this cylinder from the back or ceases the activity of such one-way valve 12 gr. 002 cylinder (l.T.l) by eliminating the pressing pressure.

A fixing screw (44) is used to fix the bracket assembly that is at the center of the cylinder pusher part on bottom place of the cylinder mechanism.

RUNNING PRINCIPLE OF CYLINDER MECHANISM:

To replace the one-way valve 12 gr. 002 cylinder (l.T.l) into cylinder housing part (42.B) of C02 pocket gun, the user opens the cylinder pusher safety ratchet handle (25) by pushing with his finger while holding 002 pocket gun with other hand from the top side.

The user causes the cylinder pusher part (23) opened spontaneously by pushing the functional key part (23) with his thumb. The user also returns the key part (27) affected by the cylindrical helix pressure spring (22) into its first position by releasing the key part (27) that he pushed with his thumb. The user, therefore, activated the cylinder mechanism and uncovered the inlet of cylinder housing (42.B).

The user holding 002 pocket gun should inverse it in opposite side of the regular using to place the cylinder. So one-way valve 12 gr. 002 cylinder (l.T.l) to be placed into the cylinder housing part (42.B) is kept without falling down. The user inserts one- way valve 12 gr. C02 cylinder (l.T.l), which is being held from the back side, into C02 pocket gun cylinder housing (42. B) until the valve would lean on to the gasket (8).

The user enables to shut off the cylinder pusher part (23) while turning off the cylinder pusher safety ratchet handle (25) of 002 pocket gun by means of the fingers of his other hand.

Upon such motion as defined, the user, who is providing the bracket assembly (24) on the cylinder pusher part (23) became in touch with the back of one-way valve 12 gr. 002 cylinder (l.T.l), brought the cylinder mechanism into off position simultaneously.

While the user continues to hold 002 pocket gun into the same position with his hand, he pushes the cylinder pusher safety ratchet handle

(25) hardly with his palm. Therefore, the rounded side of the cylinder pusher part (23) , which is under the cylinder pusher safety ratchet handle

(25), hits to the rounded side of functional key part (27) and pushes the functional key part until the catches (23. C and 27. D) sit on to each one.

When the catch of the cylinder pusher part (23) sit on to the functional key part's (27) catch, the functional key part (27) affected by the cylindrical helix pressure spring (22) is released and returns to first position. Depending on the integration of the catches of both parts (23 and 27), one-way valve of one-way valve 12 gr. 002 cylinder, which is pressed between the gasket (8) and bracket assembly (24) becomes into on position due to such squeezing effect.

One-way valve 12 gr. 002 cylinder (l.T.l) is connected onto the gasket (8) with the base surface of one-way valve's head part in the manner of providing no carbon dioxide leaking between them.

In such way, the user turns the cylinder mechanism off and activates one-way valve 12 gr. Co2 cylinder (l.T.l).

The user turns the cylinder pusher safety ratchet handle (25) on when one-way 12 gr. 002 cylinder (l.T.l) inside 002 pocket gun is required to remove .

The user holds his hand in appropriate position to catch one-way valve 12 gr. 002 cylinder (l.T.l) to be thrown out from the cylinder housing part (42. B) .

Then, the user releases cylinder pusher part (23) separating the catches from each other by pushing the functional key part (27) with his thumb. As a result of such release movement of cylinder pusher part (23), one-way valve 12 gr. C02 cylinder, which is pressed between the gasket (8) and the bracket assembly, becomes free. So in such a case, while one-way valve of one-way valve 12 gr. 002 cylinder is shutting off, the carbon dioxide that accumulated in valve of C02 pocket gun applies a definite amount of pressure to the cylinder (l.T.l).

While the pressure of carbon dioxide inside the valve of 002 pocket gun causes to push one-way valve 12 gr. C02 cylinder (l.T.l), at the same time, one-way valve 12 gr. C02 cylinder (l.T.l) pushes the cylinder pusher part (23), which is taking place over it, as well so such movement ensures the cylinder thrown out from the cylinder housing to the hand of the user.

Mechanism 2- VALVE MECHANISM

This mechanism of C02 pocket gun functions firstly to keep carbon dioxide, which was transferred from one-way valve 12 gr. 002 cylinder (l.T.l), to be accumulated and secondly supplies the required amount of carbon dioxide to the barrel (11) for the ball (BB) to be thrown out, subject to closing and opening movement of the ball (4) (of which the movable part) by means of the stroke component (7).

The valve mechanism of 002 pocket gun is consisting of the ring (2) placed into the ring housing (1.0) of storage tank, conical spring (3), ball (4) and the gasket (5) closing the ring housing part (l.C) through the storage tank screw (6).

RUNNING PRINCIPLE OF VALVE MECHANISM

Conical spring (3) inside the ring (2) compresses the ball (4) towards the hole at the center of the gasket (5) in the manner of preventing any possible leaking amount of carbon dioxide. The pressure of carbon dioxide accumulated in ring (2) also increases the compressing effect of the ball (4) to the gasket (5) .

The ring (2) keeps the ball (4) at the height level of the hole, which is at the center of the gasket (5) , through the protrusions included in one side of the ring's interior part. Therefore, any possibility of the ball not to release from conical spring (3) because of hitting movement of the stroke component (7) to the ball (4) is prevented accordingly.

The ball (4) provides carbon dioxide accumulated inside the ring (2) not to leak out of the storage tank (1) till to reach the required operational pressure.

By triggering of C02 pocket gun, hammer (30) hits to stroke component (7) and because of such hitting effect, the needle section of the stroke component also hits to the ball (4) . So the ball (4) leaves the gasket (5) suddenly for a moment depending on such effect. During such period, whole carbon dioxide (or any amount) included in valve passes to the interior section of the barrel through the stroke component (7). The ball (4) immediately re-closes the hole at the center of the gasket (5) so prevents the flow of carbon dioxide into the barrel from the valve through the stroke component (7) .

Mechanism - 3 FIRING MECHANISM

This mechanism ensures carbon dioxide, which accumulated inside the valve, transferred to the barrel (11) in any required amount by activating the valve of C02 pocket gun.

The firing mechanism of 002 pocket gun is consisting of stroke component (7), hammer (30), lever (35), trigger (34) and the springs (31,33,39) placed into such parts in any size and kind in addition to the pins (40,41) .

RUNNING PRINCIPLE OF FIRING MECHANISM

The hammer (30) included in firing mechanism of C02 pocket gun is run in opposite direction as being different from known 002 guns having the hammer firing mechanism.

The hammer (30) included in firing mechanism of 002 pocket gun has 2 significant duties. The first is to run the ball charger mechanism and the second is to execute the firing by hitting to the stroke component (7) .

In order to produce 002 pocket gun in the smallest size as possible as it can, it is also necessary for the components constituting the firing mechanism to take less place. By this purpose, the components should be installed closer to each other as possible as they can as well as to be made in smallest size. So, a slot is made on one side of the trigger (34) enabling to provide the sear (32) moved easily by taking-in and out.

In this way, the firing mechanism is activated by revolving the hammer (30) through the sear (32) with the lever (35) , which is run with the trigger (34) upon triggering (34) .

Mechanism 4: BALL CHARGER MECHANISM

This mechanism of C02 pocket gun ensures to keep the balls (BB) , which are to be thrown out to the target, and to transfer such balls into the barrel (11) sequentially and individually. Ball charger mechanism is consisting of 6 parts as being charger cover (18), charger pipe (12), angular part (13), cylindrical helix pressure spring (14), ball pusher part (15) and slide bold (16).

RUNNING PRINCIPLE OF BALL CHARGER MECHANISM

By opening the charger cover (18) , the user fills up 002 pocket gun with the balls in any specified numbers in the manner of placing them into the charger pipe (12) individually and sequentially.

The user inserts the ball pusher part (15) of which one side is installed with cylindrical helix pressure spring (14), into the charger pipe (12) .

While the user is controlling the ball pusher part (15) loaded with cylindrical helix pressure spring (14) pushing the balls, which are inside the charger pipe (12) with the finger of his hand holding 002 pocket gun, at the same time, he installs the charger cover (18) by screwing with other hand.

So, the user makes the balls (BB) to be thrown to the target ready in 002 pocket gun.

The balls are pushing each other depending on pushing effect of the cylindrical helix pressure spring (14) inside the charger pipe (12).

The first ball inside the other side of the charger pipe (12) takes its place in the manner of partially standing on both charger pipe (12) and the upper part of the slide bold (16) in connection with sliding into the hole at the lower part of charger pipe (12) through the angular part (13) .

Due to triggering of 002 pocket gun by the user, the hammer (30), which is activated also affects the slide bold, (16) to move.

While the hammer (30) is pushing the slide bold (16) with its other side, at the same time the slide bold is also pushing the cylindrical helix pressure spring (14) and the second ball affecting other coming balls by passing over the first ball (without touching) through the upper side of the slide bold.

Therefore, it is ensured the first ball set free by the second ball in addition to prevent the second ball entered into the barrel hole (11) partially that occurred depending on the opening movement of the slide bold (16) .

Otherwise, since the second ball shall enter into the barrel hole (11) following the first ball, it would not be possible for the slide bold (16) to shut off so the slide bold (16) affected by the cylindrical helix pressure spring (10) will squeeze the second ball at the entry of the hole on barrel (11) . In such case, it causes to decrease the relevant pressure depending on escaping of carbon dioxide, which was transferred to the barrel (11), from the hole partially.

While the hammer (30) is pushing the slide bold (16) until the sear (32) to be set free from the lever (35), the first ball, which stands on the slide bold (16) sliding from the lower hole of the charger pipe (12) through the angular part (13), falls into the barrel (11).

After the sear (32) had been set free from the lever (35), while the hammer (30) is hitting to the stroke component (7), the slide bold (16) returns to its initial position because of pushing effect of the cylindrical helix pressure spring (10) .

When the hammer ensures the firing by hitting to the stroke component (7) with its sharpen corners, the slide bold (16) shuts off and the second ball took its place on the slide bold (16) instead of the first ball and the first ball was thrown out to the target.

PART DESCRIPTIONS OF C02 POCKET GUN

Part 1 : STORAGE TANK (1)

This part (1) of 002 pocket gun, in specified sizes is consisting of 9 sections including the formation of the valve mechanism system and the arrangement enabling the carbon dioxide to be transferred from one-way valve 12 gr. 002 cylinder (l.T.l) to the valve mechanism.

The enclosure (19) is placed on one side of the storage tank (1) and the rear sight is screwed on upper part of storage tank.

SECTIONS OF STORAGE TANK (1)

Storage tank- section 1: Enclosure inlet section (l.A)

Storage tank- section 2: Storage tank screw inlet section (l.B)

Storage tank- section 3: Ring housing section (l.C)

Storage tank- section 4: Gasket housing section (l.D)

Storage tank- section 5: Washer housing section (l.E)

Storage tank- section 6: Column housing section (l.F)

Storage tank- section 7: Gas canal section (l.G)

Storage tank- section 8: Rear sight housing section (l.H)

Storage tank- section 9: Screw inlet hole section (1.1) DESCRIPTIONS OF SECTIONS OF STORAGE TANK (1)

Section 1 Storage Tank: Enclosure inlet section (l.A)

This part (l.A), which is taking part on one side of the storage tank, where the enclosure (19) part is placed on its outer side, in addition, storage tank screws inlet section (l.B) is taking place at its center, is the cylindrical section of storage tank (1) in specified sizes.

The enclosure inlet section (l.A) holds the enclosure part to be placed on it (19) .

Section 2 Storage tank: Storage tank screw inlet section (l.B)

The hole, which was drilled at the center of the enclosure inlet section (l.A) of the storing tank (1) up to the ring housing section (l.C), constitutes this section in specified sizes including the female screws. (1C) .

By making the diameter size of storing tank inlet section (l.B) bigger than the diameter size of ring housing section, a surface area is constituted on floor.

Storage screw inlet section (l.B) ensures the gasket (5) , which was placed in it, not to pass to the ring housing section (l.C) by providing the gasket leant on to such mentioned surface area. This section also enables to install the storage tank screw (6) by screwing into the ring housing section.

Section 3 Storage tank: Ring space section (l.C)

A dead hole, which was drilled at the point where the storing tank screw inlet section (l.B) is ended, up to relevant base of the storing tank (1) constitutes this part in specified sizes including the gas canal section (l.G) in its body.

The ring housing section (l.C) is the place where carbon dioxide transferred from one-way valve 12 gr. 002 cylinder was accumulated in the ring (2) after the assembly of so called 002 pocket gun.

The ring housing section (l.C) is the section where the ring (2), conical spring (3) and the ball (4) are placed.

The ring housing section (l.C) is holding some parts (2,3 and 4) enabling to constitute the valve system.

Section 4 Storage tank: Gasket housing section (l.D)

The gasket housing section (l.D) in specified sizes is the section, which is taking part under the storage tank (1) and constituted by the cavity starting from the point where the washer housing section (l.E) ended and the column section (l.F) is taking part at its center.

The gasket housing section (l.D) enables to replace the gasket (8) in it.

Section 5 Storage Tank: Washer housing section (l.E)

The washer housing section (l.E) is the section, which is constituted by the cavity starting from the under side of the storage tank (1) up to the gasket housing section (l.D), in specified sizes.

By making the diameter size of washer housing section (l.E) bigger than the diameter size of gasket space section (l.D), a surface area is constituted on floor.

Washer housing section (l.E) enables to replace the storing tank cover (9) in it.

Section 6 Storing tank: Column section (l.F)

The column section, which is constituted by the protrusion starting at the center of the gasket housing section (l.D) of the storage tank (1), is the cylindrical section (l.F) of the storage tank in specified sizes.

The gas canal section (l.G) takes part at the center of the column section (l.F) .

Such column section (l.F) is in sizes, which are longer than the gasket's (8) thickness but not to be in contact with the surface area of the solid part of one-way valve 12 gr. C02 cylinder (l.T.l).

The column section (l.F) is playing the role to fix the gasket (8), which was placed into the gasket housing section (l.D), by passing through the center of the gasket.

Section 7 Storage tank: Gas canal section (l.G)

The gas canal section (l.G), which is constituted by the hole starting from the center of the medium side of the column section (l.F) and comes to the interior side of the ring housing section (l.C), is in specified sizes.

The gas canal section (l.G) supplies carbon dioxide transferred from one-way valve 12 gr. 0O2 cylinder (l.T.l), into the ring housing section (l.C) .

Section 8 Storage tank: Rear sight housing section (l.H) Rear sight housing section (l.H), is constituted by the cavity extending to the screw inlet hole section (1.1) from the upper side of the storage tank (1) and involves the female screws, is in specified sizes.

By making the diameter size of rear sight housing section (l.H) bigger than the diameter size of screw inlet hole section (l.I), a surface area is constituted on floor.

The rear sight housing section (l.H) is in sizes of the diameter, which is capable to include the known bolt head that connects the storing tank with the frame and it ensures the bolt to function as required by leaning the bolt head to the surface area.

The rear sight housing section (l.H) is the section where the cylindrical helix pressure spring (38) is placed in.

The rear sight housing section (l.H) also ensures the rear sight (37), which is installed by screwing inside the rear sight housing section, adjusted properly by providing to move the rear sight by means of the coupling screws.

Section 9 Storage tank: Screw inlet hole section (1.1)

Screw inlet hole section (1.1), which is constituted by the hole starting at the point where the rear sight housing of the storage tank (1) ended (l.H) and enters to the outlet from the lower side, is in specified sizes .

Screw inlet hole section (l.I) ensures the known bolt to be inserted in it in order to provide the installation of the storage tank (1) to the frame (42) .

Part 2: RING (2)

The ring, which provides carbon dioxide, which was transferred from one way valve 12 gr. 002 cylinder (l.T.l) of 002 pocket gun into the ring housing section (l.C) accumulated also ensures the ball (4) stand at the center upon the hole on the medium side of the gasket (5), is consisting of 6 sections, which was cylindrically shaped with an interior hole.

Ring (2) is the part where the conical spring (3) and the ball (4) are placed in.

SECTIONS OF THE RING (2)

Section 1 ring: Convex section (2.A) Section 2 ring: Concave section (2.B) Section 3 ring: Countersunk section (2.C) Section 4 ring: Centering section (2.D)

Section 5 ring: Chamber section (2.E)

Section 6 ring: Canal section (2.F)

DESCRIPTIONS OF SECTIONS OF RING (2)

Section 1: Convex section (2.A)

The convex section (2.A) , which is constituted by the protrusions taking part on both cross sides of the outer wall of the ring (2), is in specified sizes.

The convex (2.B) section takes part among those protrusions constituting the convex part (2.A)

The canal section (2.F) takes part on the other side of the convex section (2.A) .

The convex section (2.A) ensures the ring (2) to stand at the center inside the ring housing section (l.C) of the storage tank (1).

Section 2: Concave section (2.B)

Concave section (2.B), which is taking part among the convex section (2.A) at the outer wall of the ring (2), is in specified sizes.

The concave section (2.B) ensures carbon dioxide, which was transferred to the ring housing section (l.C) of storage tank from one-way valve 12 gr. Co2 cylinder (l.T.l), strike to the surface so to decrease the pressure of carbon dioxide.

Section 3 : Countersunk section (2.C)

The countersunk section (2. C) , which starts at one side of the interior side of the ring (2) and continues to the centralizing section (2.D), is in specified sizes.

The countersunk part (2.C) eliminates the protrusions forming the centralizing part (2.D) in a definite rate so it ceases the contact of the protrusions with the gasket (5)

Section 4 : Centralizing section (2.D)

The centralizing section (2.D), which is constituted by the protrusions in definite numbers starting from the point where the countersunk part (2.C) ended up to the starting point of the chamber part (2.E) is in specified sizes.

The centralizing section(2.D) is the section where the ball (4) placed in. The ball (4) moves on those protrusions.

The centralizing section (2.D) provides the ball (4) stands at the same center with the hole at the medium part of the gasket (5) .

Section 5 : Chamber section (2. E)

The chamber section (2.E), which starts at the point where the centralizing section (2.D) of the ring (2) commenced and ends on the other side, is in specified sizes.

The chamber section (2.F) is the section where the conical (3) spring placed in (2. E) .

The chamber section (2.E) provides the required carbon dioxide, which shall give the motion to the ball(B.B.) to be thrown out to the target, accumulated inside the ring.

Section 6 : Canal section (2.F)

The canal section (2.F), which is constituted by the recess taking part on the convex section (2.A) at the other side of the ring (2), is in specified sizes.

The canal section (2.F) provides carbon dioxide, which was transferred to the ring housing section (l.C) of the storage tank from oneway valve 12 gr. C02 cylinder (l.T.l), accumulated inside the ring (2) by leaking.

Part 3 : CONICAL SPRING (3)

The conical spring (3) known in specified sizes, is one of the components of 002 pocket gun.

The conical spring (3) is the part, which was placed inside the ring (2).

The conical spring (3) provides the valve kept in off position until the required pressure level to be caught by covering the hole of the gasket (5) in the manner of pushing the ball (4) .

Part 4 : BALL (4)

The ball is the known bearing ball (4), which one of the components of 002 pocket gun.

The ball (4) is the movable part placed inside the ring (2) of 002 pocket gun.

After the valve assembly completed, the ball (4) covers the hole of the gasket (5) because of the conical spring (3) effect. Therefore, the ball (4) under the effect of the conical spring (3) shall keep the valve in off position until the required operating pressure to be obtained.

The ball (4) provides the valve opened suddenly and re-closed by returning to its first position due the pushing effect of the conical spring by moving the ball (4) in the manner of striking the needle section (7.A) of the stroke component to the ball (4).

The ball (4) ensures carbon dioxide, which was involved in the ring, to transfer or not to transfer to the barrel (11) through the stroke component (7) depending on the turning on or off movement of the valve.

Part 5: GASKET (5)

The gasket (5), which is produced by the soft tools, which are resistant to carbon dioxide, in shape of the circle with the hole at its center, is one of the angled parts of Co2 pocket gun providing impermeability, in specified sizes.

The gasket (5) prevents carbon dioxide, which will be raised from the coupling screws, to leak out of the storage tank (1) by being pressed between the floor surface of storage tank inlet screw section (l.C) and the storage tank screw support section (6.B).

The gasket (5) is the part where the ball (4) is inserted into the gasket's medium hole in any specified measure.

The gasket (5) prevents carbon dioxide to leak out of from between the coupling screws of the storage tank (1) and the storage tank screw (6) and from the point between the ball (4) and the gasket.

Part 6: STORAGE TANK SCREW

The storage tank screw (6) , which enables the gasket to function properly by pressing the gasket (5), besides, enables the stroke component to function through contacting the needle section (7.A) of the stroke component to the ball (4), is consisting of 5 sections, in specified sizes of C02 pocket gun.

The storage tank screw (6) is the part, which is installed to the storage tank (1) by screwing.

SECTIONS OF STORAGE TANK SCREW (6)

Section 1 storage tank screw: Coupling Section (6.A) Section 2 storage tank screw: Supporting Section (6.B) Section 3 storage tank screw: Gas discharging Section (6.C) Section 4 storage tank screw: Stroke component inlet Section (6.D)

IE Section 5 storage tank screw: Screwdriver canal Section (6.E)

DESCRIPTIONS OF SECTIONS OF STORAGE TANK SCREW (6)

Section 1 storage tank: Coupling Section (6.A)

The coupling section (6.A), which constitutes the upper side (outer) of the storage screw and where the male screws are on, is the cylindrical section (6.A) in specified sizes.

The coupling section (6.A) enables to assemble the storage tank screw -into the storage tank (1) by screwing.

Section 2 storage tank: Supporting section ( 6.B)

This section (6.B), which is constituted with the space on one side of the storage tank screw (6) including a gas discharging hole section (6.0) on its center, is in specified sizes.

The supporting screw section (6.B), which is constituted by the area taking part on one side of the storage screw inlet section (l.B) and with the gas discharging hole section (6.C) on its medium side, is in specified sizes (6.B) .

Such supporting section (6.B) enables to function the gasket (5) as required by squeezing the gasket between the surface area of the storage tank screw inlet section (l.B) and its place.

Section 3 storage tank screw: gas discharging hole section (6.C)

The gas discharging hole section (6. C) , which is constituted by the hole that starts from the medium side of the supporting section (6.B) of the storage screw (6) and opens inside the stroke component inlet section (6.D),is in specified sizes.

The gas discharging hole section (6.C) provides carbon dioxide, which occurs depending on the functions of the stroke component (7) and the ball (4), transferred to the stroke component gas transfer holes section (7.B).

Section 4 storage tank screw: stroke component inlet section (6.D)

Stroke component inlet section (6. D) , which constituted by the cavity, which starts from the other side of the storage screw (6) and continues to the point where the gas discharging hole section (6.C) commences, is in specified sizes.

By making the diameter size of stroke component inlet section (6.D) bigger than the diameter size of gas discharging hole section (6.0), a surface area is formed on floor. Stroke component inlet section (6.D)is the section where the needle part of the stroke component placed into the storage screw (6) entirely while the body section (7.C) is placed in any certain manner.

Stroke component inlet section (6.D) enables to function the stroke component (7) by moving inside the storage tank screw (6).

Section 5 Storage tank screw : Screwdriver canal section (6.E)

The screwdriver canal section (6. E) , which is constituted by the longitudinal recess, which was made on the other side of the storage tank screw(6), is in specified sizes.

The screwdriver canal section (6.E) enables to place the known screwdriver edge to be used to install the storage tank screw (6) into the storage tank (1) by screwing.

Part 7: STROKE COMPONENT (7)

The stroke component ( 7 ) , which enables the coupling of such two parts by taking place between the storage tank(l) and the barrel (11) of 002 pocket gun, also enables to transfer carbon dioxide into the barrel from the valve mechanism through the hammer (30, is consisting of 5 parts, in specified sizes.

SECTIONS OF STROKE COMPONENT (7) :

Section 1 Stroke component: Needle section (7.B)

Section 2 Stroke component: Gas transfer holes section (7.B)

Section 3 Stroke component : Body Section (7.C)

Section 4 Stroke component: Front Section (7.D)

Section 5 Stroke component : Barrel inlet Section (7.E)

DESCRIPTIONS OF SECTIONS OF STROKE COMPONENT (7)

Section 1 Stroke component: Needle Section (7.A)

The needle sectio (7.A) , which is constituted by the protrusion starting at the center of the medium point of one side of the stroke component (7), is in specified sizes.

The diameter size of the needle section (7.A) is smaller than the diameter size of the body section (7.C). Gas transfer holes section (7.B) is taking place around of the needle section.

The needle section is the section of the stroke component that hit to the ball, which was accelerated inside the stroke component inlet section (6.D) of the storage tank [ l .A) by striking the hammer (30) to the front section of the stroke component (7.D).

The needle section [ l .A) provides the valve opened and closed suddenly by hitting to the ball (4) .

Section 2 Stroke component: gas transfer holes section (7.B)

Gas transfer holes section (7.B), which is constituted by the holes that start on the surface of one side of the stroke component and open to the interior point of the barrel inlet section (7.E) also surround the needle section [ l . A) , is in specified numbers and sizes.

The gas transfer holes part (7.B) ensures to transfer carbon dioxide, which occurs following the function of the needle section (7.A), into the barrel (11) .

Section 3 Stroke component: Body section (7.0)

The body section [ l . C, which is between the needles section [ l . A) and the front section(6.D) of the stroke component (7), is the cylindrical section in specified sizes.

The body section (7.C) enables to place the stroke component (7) into the stroke component inlet section of the storage tank screw (6.D) in specified size.

Section 4 Stroke component: Front section (7.D)

The front section (7. D) , which starts on the other side of the stroke component (7) and ends at the point where the body section (7.0) commences is in specified sizes.

A cavity in specified sizes, which the charger pipe (12) could pass through properly, is taking place on the upper point of the front section (7.D) .

The front section (7.D) is the point to which the sharp edge of the hammer (30) strikes on.

The front section (7.D) also provides the stroke component (7) to function properly within the body section (7.0) by moving through the hammer (30) .

Section 5 Stroke component: Barrel inlet section (7.E) Barrel inlet section (7.E), which is constituted by the cavity starting at the medium point of the front section (7.D) of the stroke component (7), is in specified sizes.

Barrel inlet section (7.E) enables to place the barrel (11) into the stroke component (7) in specified manner.

Part 8: GASKET (8)

The gasket, which is produced by the soft tools resistant to carbon dioxide gas, provides impermeability, with the hole at the medium point of its center in shape of a circle, is an angled part of Co2 pocket gun in specified sizes.

The gasket (8) is the part where one-way valve of one-way valve 12 gr. C02 cylinder (l.T.l), which is opened by pressing on, is activated.

By preventing any carbon dioxide leaking from the point between oneway valve 12 gr. 002 cylinder (l.T.l) and its relevant one-way valve, the gasket (8) ensures to transfer carbon dioxide to the valve of 002 pocket gun in the manner of the best way.

Part 9: STORAGE TANK COVER (9)

The storage tank cover (9) is one of the components of C02 pocket gun, made of known washer, which was made of metal.

The storage tank cover (9) is the part, which is placed into the washer housing section (l.E) of the storage tank.

The storage tank cover (9) ensures to fix the gasket (8) by taking part between the washer housing section of the storage tank (l.E) and the frame (42) after C02 pocket gun assembled.

Part 10: CYLINDRICAL HELIX PRESSURE SPRING (10)

This part is the known cylindrical- helix pressure spring (10) of C02 pocket gun, in specified sizes.

The cylindrical helix pressure spring (10) is taking part between the slide bold (16) and the coupling part (17) .

The cylindrical helix pressure spring (10) ensures to function the slide bold (16) as required by pushing it properly.

Part 11: BARREL (11)

The barrel is the part of C02 pocket gun that is in specified sizes in shape of the known pipe (11) . A countersunk hole, which is connected to the hole inside the barrel, is taking place on barrel, in specified sizes.

The barrel (11) provides the ball(B.B.) thrown out to the target by involving such ball coming from the charger pipe (12) through the countersunk hole.

Part 12 : CHARGER PIPE (12)

The charger pipe is the part of C02 pocket gun that is in specified sizes in shape of known pipe (12) .

An open split (12.A), which is in specified sizes, is taking part on one side of the charger pipe (12). Such open split (12.A) is the split where the pusher section of the slide bold (16.A) is placed.

A covered split (12. B) is taking place (as being parallel to the open split (12.A)) under one side of the charger pipe (12). Such covered split (12.B) is the split, which was enlarged in specified sizes enabling the balls (B.B.) to fall down into the barrel (11) through the angular part (13).

The charger pipe (12) is the part where angular (13) part is placed into one side.

The charger pipe (12) ensures the balls, which are filled up, kept inside and transferred to the barrel (11) .

Part 13: ANGULAR PART (13)

The angular part (13), which provides to transfer the balls to the barrel (11) by being installed on one side of the charger pipe (12) of C02 pocket gun, is consisting of three sections, in specified sizes.

SECTIONS OF ANGULAR PART (13)

Section 1 Angular part: The section giving direction (13.A)

Section 2 Angular part: Body section (13.B)

Section 3 Angular part: Stopping base section (13.0)

DESCRIPTIONS OF SECTIONS OF ANGULAR PARTS (13)

Section 1 Angular part: The section giving direction (13.A)

The section giving direction (13.A), which is taking part on one side of the angular part (13) and made as inclined shape, is in specified sizes.

The section giving direction (13.A) is the section where the balls inside the charger pipe (12) contacts on it. The section giving direction (13.A) is enabling to move the ball, which contacted on angular part (13) , without being held.

Section 2 Angular part: Body section (13.B)

The body section (13. B), which is starting from where the section giving direction (13.A) of the angular part (13) ended and continues to the point where the stopping base section ended (13. C) from the point, is in specified sizes.

The upper edge of the body section (13.B)is in shape of plane and the lower edge is oval.

The body section (13.B) enables to install the angular part (13) at one side of the charger pipe (12) .

Section 3 Angular part: Stopping base (13.0)

The stopping base (13.C), which constitutes the other side by starting the point where the body section (13. B) of the angular part (13) ended, is in specified sizes.

The stopping base (13.C) is the section, which is supporting to the surface of one side of the charger pipe (12) .

The stopping base (13. C) enables to place the angular part (13) into charger pipe (12) in specified manner.

Part 14: CYLINDRICAL HELIX PRESSURE SPRING (14)

The cylindrical helix pressure spring is the known cylindrical- helix pressure spring (14) of C02 pocket gun, in specified sizes.

The cylindrical helix pressure spring (14) is installed to the ball pusher part (15) by placing the spring's other edge into the upper point of the spring housing section (15. B) of the ball pusher part.

The cylindrical helix pressure spring (14) is directly pushing the balls, which were inside the charger pipe, by its one edge.

Part 15: BALL PUSHER PART (15)

The ball pusher part (15) , which is enabling the user to control the cylindrical helix pressure spring (14) pushing the balls inside the charger pipe of 002 pocket gun, is constituted by 3 sections in specified sizes.

SECTIONS OF BALL PUSHER PART (15)

Section 1 Ball pusher part: The section to be held (15.A) Section 2 Ball pusher part: Spring housing section (15 B) Section 3 Ball pusher part: Collecting part (15. C) DESCRIPTIONS OF SECTIONS OF BALL PUSHER PART (15)

Section 1 ball pusher part : The section to be held (15.A)

The section to be held (15.A) is the section, which starts from one side of the ball pusher part (15) and continues up to the point where the spring housing section started, in specified sizes.

The section to be held (15.A) ensures the user to control the ball pusher part (15) by holding properly.

Section 2 ball pusher part: Spring housing section (15.B)

The spring housing section (15. B), which is starting at the point where the section to be held (15.A) of the ball pusher part (15) ended and continues to the starting point of the collecting section (15. C), is in specified sizes.

The spring housing section (15.B)is the section where the cylindrical helix pressure spring (14) is placed on it in specified manner.

The spring housing section (15.B) ensures to fix the cylindrical helix pressure spring (14) on ball pusher part (15) .

Section 3 ball pusher part: Collecting section (15.C)

The collecting section (15.0), which is starting at the point where the spring housing section (15. B) ended and constitutes the other side of the ball pusher part (15), is in specified sizes.

The collecting section (15.C) enables the cylindrical helix pressure spring (14) to function properly by being collected on such collecting section.

Part 16 : SLIDE BOLD (16)

The slide bold (16) , which enables the balls that were placed into the charger pipe (12) of C02 pocket gun to be transferred into the barrel (11) individually, is in specified sizes.

The slide bold (16) is consisted by entirely one part, which was made with the integration of 2 separate parts . '

The slide bold (16) is run with shutting on/off movement by means of the hammer (30) .

While the slide bold (16) was under the pushing effect of the cylindrical helix pressure spring on the barrel where it was placed (11) , it is in off position. During this first position, the slide bold (16) also covers the countersunk hole on barrel (11) .

So, the slide bold (16), after functioned properly, ensures carbon dioxide to leak out of the barrel at minimum level through countersunk hole.

SUB-PARTS CONSTITUTING THE SLIDE BOLD (16)

Sub-part 1 slide bold: SLIDE BOLD A PART (16.A) Sub-part 2 slide bold: SLIDE BOLD B PART (16. B) DESCRIPTIONS OF THE SUB-PARTS CONSTITUTING THE SLIDE BOLD (16) :

Sub-part 1 Slide bold: SLIDE BOLD PART A (16.A)

The slide bold Part A (16.A) in specified sizes, which enables the first ball to release by pushing the cylindrical helix pressure spring (14) and the balls inside the charger pipe (12) of the slide bold (16), is consisting of 3 sections.

SECTIONS OF PART A (16.A) OF THE SLIDE BOLD:

Section 1 of Slide Bold Part A: Pusher section (16.A.1)

Section 2 of Slide Bold Part A: Body section (16.A.2)

Section 3 of Slide Bold Part A: Paddle section (16.A.3)

DESCRIPTIONS OF SECTIONS OF SLIDE BOLD PART A (16.A) :

Section 1 of Slide Bold A: Pusher section (16.A.1)

The pusher section (16.A.1) in specified sizes, which starts at one side of the Slide Bold A part (16.A) and continues to the point where the split at its center started, is the section of Slide Bold A.

Following the assembly of C02 pocket gun, the lower edge of the pusher section (16.A.1) places on to the body section (13. B) of the angular part, which covers the open split (12.A) of the charger pipe.

In order to transfer the first ball into the barrel (11) properly by the slide bold (16), the pusher section (16.A.1) removes the second ball, which is under direct or indirect effect of the cylindrical helix pressure spring, from the covered split (12.B) of the charger pipe.

Section 2 of Slide Bold A: Body section (16.A.2)

The body section (16.A.2) in specified sizes, which is starting at the point where the pusher section (16.A.1) of Side Bold A part (16.A) ended and continues to the pedal section (16.A.3), is the section of the Slide Bold A.

The medium side of the body section (16.A) is split. After the assembly, the charger pipe (12) passes through such split. In such way, the proper function and the placement of the pusher section (16.A.1) are made possible.

The body section (16.A.2) complements the required sizes of the slide bold part A (16.A) .

Section 3 of Slide bold A part (16.A): Pedal section (16.A.3)

The pedal section in specified sizes, which constitutes the other side by starting at the point where the body section (16. .2) of the slide bold A part (16.A) ended is the section of Slide bold A part.

The pedal section (16.A.3) enables to install the slide bold A part(16.A) to the slide bold B part (16. B).

SLIDE BOLD PART B (16. B):

The slide bold part B in specified sizes, which enables the slide bold (16) to move by means of the hammer (30) and enables it to function properly by covering and uncovering the countersunk hole on the barrel (11), is consisting of two sections, is the part of the Slide Bold.

The slide bold part B(16.B) is the sub-part of which the front edge of the other side is connected by the other side of the hammer (30) .

The slide bold part B(16.B) is the sub-part of which the back edge of the other side is connected by one side of the cylindrical helix pressure spring (10) .

SECTIONS OF SLIDE BOLD B PART (16. B) :

Section 1 of Slide Bold Part B: Front Section (16.B.1)

Section 2 of Slide Bold Part B: Back Section (16.B.2)

Section 3 of Slide Bold Part B: Hole Section (16. B.3)

DESCRIPTIONS OF SECTIONS OF SLIDE BOLD PART B (16.B) :

Section 1 of Slide Bold B part: Front Section (16.B.1)

The front section, in specified sizes, which is starting at one side and continues to the back side (16.B.2) of the slide bold B part (16.B) is the cylindrical outer section (16.B.1) of the Slide bold B part (16. B).

The hole section (16.B.3) is taking place at the center of the medium edge of the front section (16. B.l). The front section (16. B.l) has a specified slope. So while the slide bold (16) is in off position, it is ensured that the ball, which stands on it, to avoid from the contact of the pusher part (16.A.1) by ensuring the ball to be extended from the charger pipe (12) in a specified manner.

When the slide bold (16) is in ON position, the front section (16. B.l) enables the ball, which is on it, to enter into countersunk hole on the barrel (11) by sliding easily.

Part 2 of Slide bold B part: Back section (16. B.2)

The back section (16. B.2) in specified sizes, which constitutes the other side by starting at the point where the front section of the slide bold B part (16. B) ended, is the cylindrical outer section (16. B.2) .

The hole, which constitutes the hole section (16. B.3) is passing through the back section (16. B.2).

A split where the charger pipe (12) could be inserted thoroughly is included on the upper edge of the back section (16. B.2).

The back section (16. B.2) is taking part between the other side of the hammer (30) and one side of the cylindrical helix pressure spring (10) .

The back section (16. B.2) enables the slide bold (16) to move by ensuring the hammer (30) and the cylindrical helix pressure spring (10) function properly.

Part 3 of Slide bold: The hole section (16. B.3)

The hole section in specified sizes, which is constituted by the hole, which is starting at the center of the medium edge of the front section (16. B.l) of the slide bold B part (16. B) and opens to the outside of the back section (16. B.2), is the hole section of the slide bold.

The hole section (16. B.3) enables to install the slide bold (16) by ensuring the barrel (11) to be passed through it.

Part 17. COUPLING PART (17)

The coupling part (17), in specified sizes where the barrel (11) and the charger pipe (12) are fixed into C02 pocket gun in any specified manner also which is run by removing and placing movement of the charger cover (18) on it, is consisting of 6 sections. The coupling part (17) is mounted on the frame of C02 pocket gun (42) by screwing after it had been placed in specified size into the enclosure (19) with other mounted parts (11, 12, 18) on it.

SECTIONS OF COUPLING PART (17)

Section 1 coupling part: Interior section (17.A)

Section 2 coupling part: Outer section (17. B)

Section 3 coupling part: Section with male screw (17. C)

Section 4 coupling part: Barrel assembly hole section (17.D)

Section 5 coupling part: Bolt hole section (17.E)

Section 6 coupling part: Ball outlet section (17. F)

DESCRIPTIONS OF SECTIONS OF COUPLING PART:

Section 1 Coupling part: Interior section (17.A)

The interior section (17.A) in specified sizes, which is starting at one side and continues to the point where the outer section (17. B) starts, is the section of the coupling part.

The upper edge of the interior section (17.A) was made straight by the purpose of a base to which the charger pipe (12) to be leant during the installation.

The lower edge of the interior section ( 17.A) is in shape of oval and the outer diameter sizes of the lower edge is at least smaller than the interior diameter sizes of the enclosure (19) . Therefore, the interior section (17.A) ensures the coupling part (17) to stand properly inside the enclosure (19) .

The barrel assembly hole section (17.D) is taking part under the edge, which was made straight, on the interior section (17.A).

The bolt hole (17.E) is taking place on the lower edge of the interior section (17.A).

The interior section (17.A) enables the coupling part (17) to place into the enclosure (19) in specified manner.

Section 2 Coupling part: Outer section (17. B)

The outer section (17. B) in specified sizes, which is starting at the point where the interior section (17.A) of the coupling part (17) ended and continues to the section with male screws (17. C), is the section of the coupling part. The diameter size of the outer section (17.B) is bigger than the diameter size of the section with male screw (17.C). Therefore, a surface area is constituted at the point where the section with male screw (17.C) started.

Such mentioned surface area is the point where the surface of one side of the charger cover (18), which was placed on the section with male screw, (17.0) leant on.

The outer section (17.B) is the section where the coupling part (17) to be remained out of the enclosure (19) in specified size, in order to make C02 pocket gun as small as possible.

The outer section (17.B) is the section where the charger pipe (12) to be mounted by placing it in specified size into the hole taking part on upper side.

The barrel assembly hole (17. D) and the ball outlet section (17. F) become together inside the outer section (17.B)

Part 3 Coupling part: the section with male screw ( 17. C)

The section with male screw (17. C) in specified sizes, which is starting at the point where the outer section (17.B) of the coupling part (17) ended and constitutes its other side, is the cylindrical section of the coupling part.

The diameter size of the section with male screw (17.C) is smaller than the diameter size of the outer section (17. B).

The male screws are taking part on the section with male screws (17. C) and this section involves the ball outlet (17. F) at the center of the medium point.

The section with male screws (17. C) enables to install and uninstall the charger cover (18) on coupling part (17) by screwing.

Section 4 Coupling part: barrel assembly hole section (17. D)

The barrel assembly hole section (17. D) in specified sizes, which is constituted by the hole starting on one side and continues up to the ball outlet section (17.F), is the section of the coupling part.

By making the diameter size of the barrel assembly hole section (17.D) bigger than the diameter size of the hole constituting the ball outlet section (17. F), a surface area is constituted at the floor. Therefore, it is ensured to install the barrel (11), which was placed on the barrel assembly hole section (17. D), into the coupling section (17) in specified size, by leaning on to such surface area on floor.

The barrel assembly hole section (17. D) enables to install the barrel (11) into the coupling part (17) in specified size.

Section 5 Coupling part : Bolt hole section (17. E)

The bolt hole section (17. E) in specified sizes, which is constituted by the hole to be opened into the barrel assembly hole section (17.D) from starting on the lower side of the interior section (17. ) of the coupling part (17) and involve the female screws, is the section of the coupling part.

The bolt hole section (17.E) is the section where the known bolt to be placed by screwing appropriately.

The bolt hole section (17. E) enables to install the coupling part

(17) on to C02 pocket gun frame (42) by screwing through the known bolt.

Section 6 Coupling part: Ball outlet section (17.F)

The ball outlet section (17.F), in specified sizes, which is starting from the point where the hole, which constitutes the barrel assembly hole section (17. D) of the coupling part (17), ended and to be opened towards the out of coupling part (17) from the center of the medium point of the section with male screw (17.C), is the section of the coupling part.

The diameter size of the ball outlet section (17.F) is smaller than the diameter size of the hole constituting the barrel assembly hole section (17.D) however; it is bigger than the diameter size of the ball (BB) to be thrown out to the target.

Ball outlet section (17. F) is the point where the ball(BB), which is thrown out to the target, goes out after the barrel (11) .

Part 18: CHARGER COVER (18)

The charger cover in specified sizes, which enables the balls to be placed into the charger pipe by the covering or uncovering the front side of the hole where the charger pipe (12) was placed into the coupling part (17) of C02 pocket gun partially and at the same time pushes the ball pusher part loaded with the cylindrical helix pressure spring, is the cylindrical part

(18) . The charger cover (18) is mounted or removed by screwing on the coupling part (17) .

The female screws are involved in definite numbers in the hole, which is starting from one side at the center of the medium point of the charger cover (18) and opens to the other side of the charger cover (18).

The charger cover (18) is mounted on to the section with male screws of the coupling part ( 17. C) by screwing through those female screws .

Part 19: ENCLOSURE (19)

The enclosure (19) in specified sizes enables to run and keep some parts (stroke component (7), barrel (11), hammer (30)) and also the charger mechanism, which was constituted in it, by taking part between the coupling part (17) and the storage tank of C02 pocket gun.

The lower side(19.C)of the outer side of the enclosure (19) is straight. The installation of the enclosure (19) can be executed after it was placed on the upper side of the frame (42) through the lower section (19. C) .

The upper side(19.E) of the outer side of enclosure (19) is oval.

The interior side (19.A) of the enclosure (19), has the longitudinal hole in specified size diameter.

The enclosure inlet part (l.A) of the storing tank is placed into the hole (19.A) at one side of the enclosure (19) and the interior part (17.A) of the coupling part is placed into the hole at the other side (19.A) .

A split (19. B) in specified sizes, which opens into the hole(19.A), which was made from the outer side towards inside, at one side of the lower section (19. C) of the enclosure (19) is taking part. By means of this split (19. B) , it is ensured the hammer (30) to function as required, by placing into the enclosure (19) partially.

The known foresight (19. F) constituting the shooting line of the user takes part above the upper side (19.E) of the outer side of the enclosure.

There is a hole (19.D) in specified sizes on the other side of the lower side (19. C) of the enclosure. Such hole (19. D) is in sizes allowing the known bolt, which connects the coupling part (17) with the frame (42,) to be passed through.

Part 20: CYLINDER PUSHER MECHANISM PIN (20)

The cylinder mechanism pin (20) in specified sizes, which fixes the safety ratchet handle (25) into its current position by pressing it from the topside by means of the cylindrical helix pressure spring (21) of C02 pocket gun.

The cylinder pusher mechanism pin (20) is one of the components constituting the cylinder mechanism of 002 pocket gun.

The cylinder pusher mechanism pin (20) is moving in the manner of falling down into other corner by raising up from one corner of the core section (25.A) depending on the movement of cylinder pusher safety ratchet handle (25) .

The diameter size of one side (20.A) of cylinder pusher mechanism pin (20) is made as bigger than the diameter size of the other side (20. B) . So, a surface area is made at the point where one side (20.A) of cylinder pusher part ended and other side (20. B) started.

The cylindrical helix pressure spring (21) is placed on the cylinder pusher mechanism pin (20) in the manner of providing one side (20.A) of the cylinder pusher mechanism pin leant on the surface area by one side of the spring.

The cylinder pusher mechanism pin (20) is inserted into the cylinder pusher mechanism pin housing (42.A) of the frame as specified after the cylindrical helix pressure spring was placed on properly.

Part 21 : CYLINDRICAL HELIX PRESSURE SPRING (21)

This part is the cylindrical helix pressure spring (21), which is the known part in specified sizes, used in 002 pocket gun.

The cylindrical helix pressure spring (21) is placed in the manner of one side to be leant on the surface area of one side of the cylinder pusher mechanism pin (20.A) .

The cylindrical helix pressure spring (21) enables to function the cylinder pusher mechanism pin (20) properly.

Part 22: CYLINDRICAL HELIX PRESSURE SPRING (22)

This part in specified sizes, is the known cylindrical helix pressure spring (22), hich is used in C02 pocket gun.

The cylindrical helix pressure spring (22) is the part to be placed on the spring housing section (27. G) of the functional key part.

The cylindrical helix pressure spring (22) ensures the functional key part (27) kept in its first position (off position) and functioned properly.

Part 23: CYLINDER PUSHER PART (23) The cylinder pusher part (23) in specified sizes, which enables oneway valve 12 gr. C02 cylinder (l.Tl)to be placed or removed into or from the cylinder housing section by covering and uncovering the front side of the cylinder housing section (42.B) of the frame of 002 pocket gun and additionally enables to function one-way valve 12 gr. C02 cylinder (1.T1), is consisting of 4 sections.

There is a hole involving female screws on the side part of the cylinder pusher part. Such hole enables to place the fixing screw into it.

SECTIONS OF THE CYLINDER PUSHER PART (23) :

Section 1 cylinder pusher part: Square section (23.A)

Section 2 cylinder pusher part: Screwed Section (23. B)

Section 3 cylinder pusher part: Notch Section (23. C)

Section 4 cylinder pusher part: Coupling Section (23.D)

DESCRIPTIONS OF SECTIONS OF CYLINDER PUSHER PART (23)

Section 1 Cylinder pusher part : Square section (23.A)

The square section (23 A) in specified sizes, which is constituted by the split to be opened towards the interior part by starting on top side of the cylinder pusher part (23), is the section of the cylinder pusher part.

The square section (23.A) enables the circle section (24.A) of the bracket assembly to be placed into it.

Section 2 cylinder pusher part: Screwed Section (23. B)

The screwed section (23.B)in specified sizes, which is constituted by the hole to be opened towards the outside from the lower side by starting from the center of the medium side of the square section (23. B) of the cylinder pusher part and includes the female screws, is the section of the cylinder pusher part.

The screwed section (23. B) enables the assembly bracket (24) to be installed into the cylinder pusher part (23) by screwing.

Section 3 Cylinder pusher part: Notch section (23. C)

This section (23. C) in specified sizes, which is constituted by the protrusion taking part on one side of the cylinder pusher part (23) , is the section of the cylinder pusher part.

There is a side, which was rolled, on the notch section (23. C) . Such rolled side enables the cylinder pusher part (23) pushed the functional key part (27) easily during the operation of the cylinder pusher mechanism. The notch section (23.0) enables to function the cylinder pusher part (23) providing the cylinder pusher part (23) fixed by the functional key part (27) .

Section 4 cylinder pusher part: Coupling section (23. D)

The coupling section (23. D) , which takes part on the other side of the cylinder pusher part (23) and have the split on its medium side, is in specified sizes.

There is a pin hole on such coupling part (23.D)

The coupling section (23. D) is the section where the core section (25.A) of the cylinder pusher safety ratchet handle was placed into the split at the center of it.

The coupling section (23. D) enables to place the cylinder pusher part (23) into the interior side (42. D) of the frame by means of the cylinder pusher coupling pin (26) .

Part 24: ASSEMBLY BRACKET (24)

The assembly bracket (24) , which pushes one-way valve 12 gr. 002 cylinder (l.T.1) through the direct contact from the back side of the cylinder by means of the components constituting the lower group of the cylinder mechanism of C02 pocket gun, is consisting of three sections in specified sizes.

The assembly bracket (24) enables one-way valve 12 gr. 002 cylinder (l.T.l) to be pushed from the back side by involving the shape of oval of such cylinder at the cylinder housing (42.B) without any deformation.

SECTIONS OF ASSEMBLY BRACKET (24) :

Section 1 assembly bracket: Circle section (24.A)

Section 2 assembly bracket: Adjustment section (24. B)

Section 3 assembly bracket: screwdriver canal section (24.0)

DESCRIPTIONS OF SECTIONS OF ASSEMBLY BRACKET (24)

Section 1 assembly bracket: Circle section (24.A)

The circle section (24. ) in specified sizes, which is starting at the upper side of the bracket assembly (24) and continues up to the point where the adjustment section started (24. B), is the cylindrical section. upper side of the circle section (24.A). Therefore, the circle part (24.A) could involve the oval shape of the back side of one-way valve 12 gr. C02 cylinder (l.T.l) as defined.

While the assembly bracket (24) is functioning, the circle section (24.A) enables not to deform the back side of one-way valve 12 gr. 002 cylinder (l.T.l) .

Section 2 assembly bracket: Adjustment section (24. B)

The adjustment section (24. B) in specified sizes, which constitutes the lower side by starting from the point where the circle section (24.A) ended and involves the male screws, is the section of assembly bracket.

The adjustment section (24. B) enables to assemble the assembly bracket (24) to the cylinder pusher part (23) by screwing and to move in screwed section (23. B) of the cylinder pusher part by means of the coupling screws.

Section 3 assembly bracket: Screwdriver canal section (24.0)

The screwdriver canal section (24.0) in specified sizes, which is constituted by the recess made in base of the assembly bracket (24), is the section of the assembly bracket.

Such screwdriver canal section (24.0) enables to install the assembly bracket (24) to the cylinder pusher part by screwing through the screwdriver, also to function it inside the screwed section of the cylinder pusher part (23. B) by moving downward and upward properly.

Part 25 : CYLINDER PUSHER SAFETY RATCHET HANDLE (25)

The cylinder pusher ratchet handle (25) in specified sizes, which enables the user to push the cylinder pusher part (23) by spending less power during the activating one-way valve 12 gr. Co2 cylinder (l.T.l) also to prevent any possible opening of the cylinder pusher part (23) depending on the operation of the key part (27) besides the control of the user, is consisting of two sections.

SECTIONS OF CYLINDER PUSHER SAFETY RATCHET HANDLE (25)

Section 1 cylinder pusher safety ratchet handle: Core section (25.A) Section 2 cylinder pusher safety ratchet handle: Handle section (25. B) DESCRIPTIONS OF SECTIONS OF CYLINDER PUSHER SAFETY RATCHET HANDLE (25)

Sectionl cylinder pusher safety ratchet handle: Core section (25.A) The core section (25.A) , in specified sizes, which is starting on one side of the cylinder pusher safety ratchet handle (25) and continues to the handle section (25. B) is the section of cylinder pusher safety ratchet handle.

The core section (25.A) seems as the circle with corners. Such mentioned corners enable the pin (20) of the cylinder pusher mechanism to function properly.

There is a pin hole at the middle side of the core section (25.A).

The core section (25.A) is the section of the cylinder pusher safety ratchet handle (25) , which is placed into the split at the coupling section (23.D) of the cylinder pusher part.

The core section (25.A) enables to install the cylinder pusher safety ratchet handle (25) into the interior side (42. D) of the frame by means of the cylinder pusher coupling pin (26) .

Section 2 cylinder pusher safety ratchet handle: Handle section (25. B)

The handle section (25. B) in specified sizes, which constitutes the other side by starting from the point where the core section (25.A) of the cylinder pusher safety ratchet (25) ended, is the section of cylinder pusher safety ratchet handle.

While one-way valve 12 gr. 002 cylinder (l.T.l) is being pushed from the back side through handle section (25. B), carbon dioxide pressure also comes out at the same time when one-way valve opens. In this regard, the power to be spent by the user increases or decreases depending on the length of the handle section (25. B).

When the cylinder pusher safety ratchet (25) is in first position (off position), it is prevented to activate the functional key part (27) besides the control of the user because the handle section (25. B) is longer than the handle section of the functional key part (27. E).

Handle section (25. B) ensures to activate the cylinder pusher part safety ratchet handle (25) .

Part 26: CYLINDER PUSHER PART COUPLING PIN (26)

The cylinder pusher part coupling pin in specified sizes, which the diameter sizes of both sides are smaller than the diameter size of its body, is the part of (26) Co2 pocket gun.

The diameter size of both sides of the cylinder pusher coupling pin (26)is fitting into the diameter sizes of the pin holes (42. C) , (43. C) to which this pin to be placed. The diameter size of the body of the cylinder pusher coupling pin (26) is in fitting into the diameter sizes of the pin holes (23,25) to which the parts to be inserted.

The cylinder pusher coupling pin (26) enables to install the cylinder pusher part (23) and the cylinder pusher safety ratchet (25) together into the interior section (42.D) of the frame.

Part 27: FUNCTIONAL KEY PART (27)

The functional key part (27) in specified sizes, which enables to open and close the cylinder pusher part (23) of C02 pocket gun, is consisting of 7 section.

The functional key part runs in two positions as being off and on.

The off position of the functional key part (27) is the first position. When the functional key(27) is in off position, the other side of the head section (27.A) is leaning on to the other part of the interior section (42.D) of the frame depending on minimum pushing effect of the pressed cylindrical helix pressure spring (22) .

The on position of the functional key part (27) is the second position. When the functional key part (27) is on position, the pushing effect of the cylindrical helix pressure spring (22) is at maximum level. The functional key part (27) keeps its on position (second position) for a specified period or just instantly depending on the pushing effect applied by the user or the pushing effect of the cylinder pusher part (23) .

When the functional key part (27) is on the second position, it returns immediately to its first position regarding to the effect of the cylindrical helix pressure spring (22) along with removing the pushing effect, which was applied on it.

The functional key part (27) is the movable part, which is opened by being pushed but returns to the first position depending on self-closing movement due to the cylindrical helix pressure spring (22) along with removing the pushing effect.

SECTIONS OF THE FUNCTIONAL KEY PART (27):

Section 1 functional key part: Lug section (27.A)

Section 2 functional key part: Head section (27. B)

Section 3 functional key part: Interior section (27. C)

Section 4 functional key part: Notch section (27. D) Section 5 functional key part: handle section (27. E)

Section 6 functional key part: outer section (27. F)

Section 7 functional key part: spring housing section (27. G)

DESCRIPTIONS OF SECTIONS OF FUNCTIONAL KEY PART (27)

Section 1 functional key part: Lug section (27.A)

The lug section (27.A) in specified sizes, which is starting on the upper side of the functional key part (27.A) and continues up to the head section (27. B, is in specified sizes.

The spring housing section (27. F) takes place on one side of the lug section (27.A) .

Other side of the lug section (27.A) ensures to keep the functional key part (27) at its first position by leaning on to the other side of the interior side (42.D) of the frame due to the effect of the cylindrical helix pressure spring (22).

Section 2 functional key part: head section (27. B)

The head section in specified sizes, which is starting at the point where the lug section (27.A) ended and continues up to the interior section (27. C) of the functional key part (27), is the section of functional key part.

There is a pin hole on the head section (27. B) .

The head section (27. B) enables to install the functional key (27) to interior side (42.D) of the frame by means of the functional key part coupling pin (28) .

Section 3 Functional key part: Interior section (27. C)

The interior section (27. C) in specified sizes, which is constituted by the recess, which is taking part on one side of the functional key part (27) and starting at the point where the head section (27. B) ended and continues up to the point where the notch section (27. D) started, is the section of interior section.

The interior section (27.0) provides the notch section (23. E) to be sit onto the notch section (27. D) of the functional key part by providing one side of the cylinder pusher part (23) to be placed into the interior section (27. C) .

Section 4 functional key part: Notch section (27. D) The notch section (27. D) in specified sizes, which is constituted by the protrusion starting from the point where the interior section (27. C) of the functional key part (27) ended, is the section of functional key part.

The side, which is starting from the lower side of the protrusion constituting the notch section (27. D) and towards the base of the functional key part (27), was rolled. Therefore, it is easily ensured to move the functional key part 827) by striking the rolled side, which is taking part on one side of the cylinder pusher part (23) , onto the rolled side of the functional key part (27), during the activation of the cylinder pusher mechanism.

The notch section (27. D) enables the functional key part (27) to fix the cylinder pusher part (23) depending on placing the notch section of the cylinder pusher part on the notch section.

Section 5 Functional key part: Handle section (27. E)

The handle section (27. E) in specified sizes, which is constituted by the protrusion taking part on the other side of the functional key part (27) , is the section of functional key part.

The handle section (27.E) enables the user to bring the functional key part (27) into the second position (on position) by activating the functional key part (27) by pushing.

Section 6 functional key part: Outer section (27. F)

The outer section (27. F) in specified sizes, which is taking part on the other side of the functional key part and starting at point where the handle section (27. E) ended and continues up to the point where the lug section (27.A) started, is a jagged section of functional key part.

The outer section (27. F), enables the hand of the user not to be disturbed by the functional key part (27) while holding the grid of C02 pocket gun.

Section 7 functional key part: Spring housing section (27. G)

The spring housing section (27. G) in specified sizes, which is constituted by the cavity taking part on one side of the head section

(27. B) of the functional key part (27), is the section of functional key part.

The spring housing section (27. G) enables the cylindrical helix pressure spring (22) to be placed in it. Part 28: FUNCTIONAL KEY PART COUPLING PIN (28)

The functional key part coupling pin (28) in specified sizes, which has the diameter size that the diameter size of both sides of the pin is the smaller than the diameter size of its body, is the pin of C02 pocket gun.

The diameter size of both sides of the functional key part coupling pin (28) is fitting into the diameter sizes of the pin holes (42.E) , (43.E) to which this pin to be placed.

The diameter size of the body of the functional key part coupling pin (28) is in fitting into the diameter sizes of the pin holes (23,25) of the functional key part to which this pin to be inserted.

The functional key part coupling pin (28) enables to install the functional key part (27) into interior section of (42. D) of the frame.

Part 29: ASSEMBLY SCREWS OF THE SIDE PLATE (29)

The assembly screws of the side plate (29) , in specified sizes are the known countersunk bolts of C02 pocket gun.

The assembly screws of the side plate (29) enables to install the side plate (43) on to the frame (42) by screwing.

Part 30: HAMMER (30)

The hammer (30) in specified sizes, which activates the slide bold (16) by being run by the trigger (34) indirectly, also ensures the firing by striking to the stroke component (7), is consisting of 6 sections of Co2 pocket gun.

SECTIONS OF HAMMER (30)

Section 1 hammer: head section (30.A)

Section 2 hammer: body section (30. B)

Section 3 hammer: Stopping section (30.C)

Section 4 hammer: 1^st spring housing section (30. D)

Section 5 hammer: sear housing section (30. E)

Section 6 hammer: 2^nd spring housing section (30.F)

DESCRIPTIONS OF SECTIONS OF HAMMER (30)

Section 1 hammer: head section (30.A) The head section (30.A) in specified sizes, which is starting on the upper side of the hammer (30) and continues up to the point where the body section (30. B) started, is the section having a split on its medium side.

The head section (30.A) is the section where the barrel (11), which is passed through this split entirely and the charger pipe (12) with the slide bold (16) partially, at the center of such head section (30.A), after the assembly of C02 pocket gun.

One side of the head section (30.A) is sharp and the other one is straight.

The Head section (30.A) enables the slide bold to function properly by pushing the slide bold (16) with the straight edge, also to ensure the firing by striking to the stroke component (7) with the sharp edge.

Section 2 hammer: Body section (30. B) .

The body section (30.B) in specified sizes, which is starting at the point where the head section (30.A) of the hammer (30) ended and ends at the lower side and where the sear housing (30.5) is taking part on the other side of the body section, is the section of the hammer.

The stopping section (30.0) and the 1^st spring housing section (30. D) are taking part on one side of the body section (30. B) .

There is the pin hole taking place on the sides of the body section (30. B), which enables to install the hammer (30) into the interior side (42. D) of the frame by means of the firing mechanism coupling pin (40) to be passed through the hammer(30).

The second spring housing section (30. F) takes place on the sear housing section (30. D) at the other side of the body section (30. B).

Section 3 Hammer: Stopping section (30.C)

The stopping section (30. C) in specified sizes, which is constituted by the recess taking part on one side of the hammer (30), is the section of the hammer.

By ensuring one side of the safety ratchet handle to be placed into the stopping section (30. C), the stopping section (30.0) enables to disconnect the hammer (30) from the stroke component (7) .

Section 4 hammer: 1^st spring housing sectio (30.D)

The 1^st spring housing section (30. D) in specified sizes, which is constituted by the recession taking part under the stopping section (30. C) of the hammer (30), is the section of the hammer. The 1^st spring housing section (30. D) enables the hook of the long side of the cylindrical helix pulling spring (39) to be placed in it.

Part 5 Hammer: Sear housing section (30. E)

The sear housing section (30.E)in specified sizes, which is taking part on the other side of the body section (30.B) of the hammer (30) and also having the split from one side up to the body section (30.B) at the medium side, is the section of the hammer.

There is a pin hole on the sear housing section (30. E) .

By placing the sear (32) into the sear housing section (30. E) , it enables the sear to be installed on hammer (30) by means of the hammer-sear coupling pin (41) .

Section 6 hammer: The 2^nd spring housing section (30. F)

The 2^nd spring housing section (30. F) in specified sizes, which is constituted by the cavity taking part on the sear housing section (30.D) at other side of the body section (30.A) of the hammer (30), is the section of the hammer.

The 2^nd spring housing section (30. F) enables the cylindrical helix pressure spring (31) to be placed in it.

Part 31: Cylindrical helix pressure spring (31)

This part is the cylindrical helix pressure spring (31), which is the known part in specified sizes, used in 002 pocket gun.

The cylindrical helix pressure spring(31) enables the sear(32) to return the first position after it functioned properly.

Part 32 : SEAR (32)

The sear in specified sizes, which is enabling hammer of C02 pocket gun to be moved, is consisting of 3 sections .

SECTIONS OF THE SEAR (32)

Section 1 sear: Top section (32.A)

Section 2 sear: Body section (32. B)

Section 3 sear: Stopping section (32. C)

DESCRIPTIONS OF SECTIONS OF THE SEAR (32)

Section 1 Sear: Top section (32.A) The top section (32.A) in specified sizes, which is constituted by the protrusion starting from the upper side of the sear (32) up to the body section (32. B), is the section of the sear.

The top section (32.A) enables the sear(32) to function by making the connection of the sear with the lever (35) .

Section 2 Sear: The body section (32. B)

The body section (32, B) in specified sizes, which is starting from the point where the top section (32.A) ended and constitutes the lower side of the sear, is the section of the sear.

There is a pin hole on the side of the body section (32. B) .

The body section (32. B) enables to mount the sear(32) to the hammer (30) by means of the hammer- sear coupling pin (41)

Section 3 Sear: Stopping section (32. C)

The stopping section in specified sizes, which is constituted by the protrusion taking part on one side of the body section of the sear, is the section of the sear.

The stopping section, (32.0) enables to keep the sear (32) in a certain position by leaning to the body section (30. B) inside the sear housing section (30.E) of the hammer under the effect of the cylindrical helix pressure spring.

Part 33: CYLINDRICAL HELIX PRESSURE SPRING (33)

This part is the known cylindrical helix pressure spring (33) in specified sizes of C02 pocket gun.

The cylindrical helix pressure spring (33) is placed on between the trigger (34) and the lever (35) by being squeezed in a certain manner.

The cylindrical helix pressure spring (33) enables to keep 2 parts in a certain position by taking part on between the trigger (34) and the lever (35) .

Part 34: TRIGGER (34)

The trigger in specified sizes, which is enabling the movement of the hammer (30) indirectly by the effect to be done to the lever, is consisting of 5 sections, of C02 pocket gun.

SECTIONS OF THE TRIGGER (34)

Section 1 trigger: Back section (34.A) Section 2 trigger: Intermediate section (34.B) Section 3 trigger: Spring housing section (34. C)

Section 4 trigger: Front section (34. D)

Section 5 trigger: Pulling section (34. E)

DESCRIPTIONS OF THE SECTIONS OF TRIGGER (34)

Section 1 Trigger: Back section (34.A)

The back section (34.A) in specified sizes , which is starting from the one side of the trigger (34) up to the point where the intermediate section (34.B) started and have the split at its medium side, is the section of the trigger.

The back section of the trigger (34.A) keeps the trigger (34), which is under the effect of the cylindrical helix pressure spring stand into a certain position by leaning onto the protrusion at the interior section of the frame (42.D) with its lower part.

The back section of the trigger (34.A) enables some parts (the trigger (34), lever (35), hammer (30)), which constitute the firing mechanism to function properly by ensuring the sear (32) to be entered into the split section during the motion of the trigger (34) .

Section 2 trigger: Intermediate section (34. B)

The intermediate section in specified sizes, which is starting at the point where the split at the medium side of the back section (34.A) of the trigger (34) ended and continues up to the protrusion, which constitutes the front section (34. C) of the trigger, is the section of the trigger.

The spring housing section (34. C) is taking part on the intermediate section (34. B) .

The pin holes are taking place on sides of the intermediate section (34. B) .

The intermediate section (34. B) enables to install the trigger (34. B) into interior section (42.D)of the frame through the coupling pin (40) of the firing mechanism.

Part 3 Trigger: spring housing section (34.C)

The spring housing section (34. C) in specified sizes, which is constituted by the cavity starting from the medium side of the upper point of the intermediate section (34. B) of the trigger (34), is the section of spring housing section. The spring housing section (34.C) enables to place the cylindrical helix pressure spring (33) into the trigger (34) and also enables to keep it during the operation of the trigger (34) .

Part 4 trigger: front section (34. D)

The front section (34. D) in specified sizes, which is constituted by the protrusion starting at the point where the intermediate section (34. B) ended and taking place at the other side of the trigger (34) is the section of trigger.

The lower side of the front section (34. D) is the section, which sits onto the trigger housing section (35. E) of the lever.

The front section (34.D) enables to function the lever (35) by affecting the trigger section (35.D) of the lever along by activating the trigger (34) .

Part 5 Trigger: pulling section (34. E)

The pulling section is the known section (34. E) having the cavity to where the finger of the person to be placed over one side, which is taking place at the lower side of the trigger (34) .

The pulling section (34.E) enables the user to activate the trigger (34) easily by means of a finger movement.

Part 35: LEVER (35)

The lever (35) in specified sizes, which is run through the trigger (34) of C02 pocket gun and enables the hammer (30) to function by contacting with the sear directly, is consisting of 5 sections, of 002 pocket gun.

SECTIONS OF THE LEVER (35)

Section 1 lever: Nose section (35.A)

Section 2 lever: Spring housing Section (35.B)

Section 3 lever: Holder Section (35. C)

Section 4 lever: Intermediate Section (35. D)

Section 5 lever: Trigger housing section (35. E)

DESCRIPTIONS OF SECTIONS OF LEVER (35)

Section 1 lever: Nose section (35.A)

The nose section (35.A) in specified sizes, which is taking part on one side of the lever and was rounded on the upper side of the point where the holder section (edge) (35. C) ended, is the section of the lever. The nose section (35.A) enables to function the hammer (30) by pulling down the sear (32) with the lever (35) along with pulling the trigger and enables the lever (35) to return to its first position by pushing the sear (32) towards the hammer (30) along with releasing the trigger (34) .

Section 2 lever: Spring housing section (35. B)

The spring housing section, (35.B) in specified sizes, which is constituted by the cavity taking place at the lower side of the handle section (35. C) of the lever (35), is the section of the lever.

The spring housing section (35. B) enables to place the cylindrical helix pressure spring (33) into the lever (35) in a specified size.

Section 3 lever: holder section (35. C)

The holder section (35) in specified sizes, which is starting from one side of the lever (35) and continues to the point where the intermediate section (35. D) started, is the section of the lever.

The upper side of the holder section edge (35.C) was rounded in a specified size. Such rounded side enables the sear to release at a final point, which is moving with the lower side of the edge of the holder section of the lever as the result of pulling the trigger, or enables the lever to return to its first position by pushing easily depending on striking to the sear as the result of releasing the trigger.

The spring housing section (35. B) is taking place on the lower side of the handle (35.0).

The holder section (35. C) ensures the lever to function properly.

Section 4 lever: Intermediate section (35.D)

The intermediate section (35. D) in specified sizes, which is starting at the point where the holder section (35.C)of the lever ended and takes part on the other side, is the section of the lever.

The trigger housing section (35.E) takes place under the handle section (35. D) on one side of the intermediate section (35. D).

On one side of the intermediate section (35. D), there is a pin-hole enabling to install the lever (35) to the interior section (42.D) of the frame (42.D) . The upper side of the other side of the intermediate section (35. D) was rounded in required sizes providing this side not to lean on to the enclosure (19) during the operation of the lever (35) .

The intermediate section (35. D) enables the lever to be installed to the interior section (42.D)of the frame through the coupling pin (40) of the firing mechanism (40) and operated.

Section 5 Lever: Trigger housing section (35. E)

The trigger housing section, (35. E) in specified sizes, which is taking part at the lower side as being parallel to holder section (35. C) of the lever (35) and is constituted by the protrusion, which is starting from the point where the intermediate section (35. D) ended and extending towards one side, is the section of the lever.

The trigger housing section (35. E) is the section where the lower side of the front section (34. D) of the trigger to be placed on.

The trigger housing section (35. E) enables the lever (35) to be rotated by means of the trigger (34) so functions properly.

Section 36: Safety ratchet handle (36)

The safety ratchet handle (36) in specified sizes, which is preventing the hammer (30) to cause firing by the striking to the stroke component (7) and also is preventing Co2 leakage from the valve by ceasing the connection of the hammer (30) with the stroke component (7) while activating one-way valve Co2 cylinder, is constituted by integrating 2 separate parts, of C02 pocket gun.

The safety ratchet handle (36) enables to use low-tension conical spring (3) in valve.

One of the parts (36.A), which constitutes the safety ratchet handle (36), is the eccentric part. In order to install the eccentric part into Co2 pocket gun, both sides have the protrusions with the lower diameter sizes than the eccentric body. One of the protrusions is placed into the hole at the interior side of the frame (42. U) and the other is placed into the other hole (43.U) included in side plate (43. U).

The protrusion of the eccentric part (36.A) , which is passing through the hole (42. U) at the interior side of the frame, is longer than the protrusion to be placed into the hole (43.U) included in side plate. The reason is that to enable the handle part (36. B) to be mounted to the eccentric part (36.A). Other part (36. B) constituting the safety ratchet handle (36), is the part, which enables the user to rotate the eccentric part, and remains in outside the frame (42) .

There is the hole, which enables the handle part (36. B) to be installed to the eccentric part (36.A), on the handle part (36. B) of the safety ratchet handle. After the long protrusion of the eccentric part (36.A) was passed through the hole at the center of the handle part (36. B), it would be welded to fix.

One side of the eccentric part (36.A) of the safety ratchet handle is sized in the manner of being placed into the stopping section (30. C) of the hammer .

Part 37: Rear sight (37)

This part (37), in specified sizes which enables the user to constitute the shooting line, is the part of Co2 pocket gun.

There is a split (37.A), which is used for shooting, on the upper side of the rear sight (37), is in specified sizes.

The male screws (37. B) , in specified sizes are at the lower part of the rear sight (37) .

The split of the rear sight (37.A) is enabling to rotate the rear sight by using a screwdriver.

The rear sight (37) is installed into the rear sight housing section (l.H) of Co2 pocket gun by screwing through the male screws (37. B) to be rotated.

The rear sight (37) is adjusted in direction of upward and downward by rotating into the rear sight housing section (l.H) of the storage tank by means of the coupling screws.

Part 38: Cylindrical helix pressure spring (38)

The cylindrical helix pressure spring (38) in specified size, which enables the rear sight (37), which was placed on 002 pocket gun, to be fixed by squeezing in the manner of pushing, is the part of 002 pocket gun.

The cylindrical helix pressure spring (38) is placed into the rear sight housing section(l.H) of the storage tank.

Part 39: Cylindrical helix pulling spring (39)

The cylindrical helix pulling spring (39), which has the hook of one side is longer than the other side, is the known cylindrical helix pulling spring (39), in specified sizes, of Co2 pocket gun. The cylindrical helix pulling spring (39) is mounted to the interior section (42.D) of frame by attaching the hook of the short side to the coupling pin of firing mechanism (40) and the hook of the long side to the 1^st spring housing section (30. D) of the hammer.

The cylindrical helix pulling spring (39) enables the hammer (30) functions properly.

Part 40: COUPLING PINS OF THE FIRING MECHANISM (40)

The coupling pins of the firing mechanism (40) in specified sizes, which enable to install the hammer (30), trigger (34) and the lever (35) to the interior section (42. D) of the frame and also the hook of the short side (39. B) of the cylindrical helix pulling spring to be placed on one of those pins, is the part of 002 pocket gun.

The coupling pins of the firing mechanism are the known pins having the smaller diameter sizes in both sides compared with the diameter size of the body.

Part 41: HAMMER-SEAR COUPLING PIN (41)

The hammer-sear coupling pin, which is the known pin (41) of Co2 pocket gun, is the cylindrical shaped part, in specified sizes, of Co2 pocket gun.

The hammer-sear coupling pin (41) enables to install the sear into the hammer (30) .

Part 42: Frame (42)

The frame (42) in specified sizes, which enables the mechanisms to be constituted by installing the movable parts in it through the pins and also enables to keep the other parts in its body, is consisting of 3 sections, of C02 pocket gun.

SECTIONS OF FRAME (42) :

Section 1 Frame: Outer section (42. G)

Section 2 Frame: Interior section (42. D)

Section 3 Frame: Cylinder housing section (42.B)

DESCRIPTIONS OF SECTIONS OF THE FRAME (42)

Section 1 frame: Outer section (42. G)

There is one hole with the female screw (42. H), which enables the storage tank(l) to be installed on one side of the upper point of the frame (42) and the hole (42.1), which is enabling the known bolt to be placed in it to install the coupling part (17), under the other side.

The hole, which constitutes the cylinder housing section, (42. B) starts on the outer section (42. G).

The holes ( 42. T), which are enabling the pins of the grip to be placed in at the side where the handle is, are taking part on the outer section (42. G) .

There is the split, which constitutes the interior section (42.D) between one side and the other side of the outer section (42.D.

The handle (42.J) is taking place at the lower side of the outer section (42. G). The handle (42. J) enables the user to hold the Co2 pocket gun by his hand.

The trigger guard (42. K) is taking place on the other side of the outer section (42. G). The trigger guard (42. K) is preventing to activate the trigger or to cause any damage by striking besides the control of the user.

Section 2 frame: Interior section (42.D)

The interior section (42. D) in specified sizes, which is constituted by the split starting from the point among both sides on the frame (42) and opens to the trigger guard (42.K) and the outside from the lower side of the handle (42. ), is the section of the frame.

The interior section (42. D) is enabling the mechanisms to be constituted by mounting the movable parts of Co2 pocket gun, in it.

There are the pin holes (42. L, 42. M, 42. N) to where one sides of the coupling pins (40) of firing mechanism to be placed to install the hammer (30), trigger (34) and the lever (35) on the upper side of the interior section (42. D) and the hole (42. U) where the eccentric part(36.A) of the safety ratchet handle to be placed in.

There is the pin hole (42.0), where one side of the coupling pin (40) of the firing mechanism to be placed in by the purpose of placing the hook of the cylindrical- helix pulling spring (39) on it, at the medium side of the interior section (42. D). The bolt hole (42. P), where the female screws are included enabling to install the side plate (43), is taking part under the pin hole (42.0) .

On one side at the lower part of the interior section (42. D), there is a pin hole ( 2. C) where one side of the cylinder pusher coupling pin (26) to be placed. There is cylinder pusher mechanism pin housing (42.A) at the full part on the side having the pin hole (42. C).

Pin hole (42.E) where one side of the functional key part coupling pin (28) placed, is taking place on the other side of the lower part of the interior section. (42. D)

There are the holes with female screws (42.R) (42. S) where the side frame assembly bolts (29) are placed by screwing on both sides where the split on the upper part of the interior section (42.D) ended.

A number of the sides in full parts without split at the interior section (42. D) have some protrusions (42. F) in specified sizes. The side frame (43) is mounted into the frame (42) by sitting the side plate (43) on those protrusions. Therefore, it is ensured not to prevent the operations of the parts at the interior section (42.D) due to any possible contact of the side frame (43) . After the side frame (43) was placed on mentioned protrusions (42.F), it would be installed into the frame (42) by means of the bolts (29) .

Section 3 frame: cylinder housing section: (42.B)

The cylinder housing section (42.B)in specified sizes, which is constituted by the hole starting from the upper side of the outer section (42. G) and opens towards the interior section (42. D) of the frame (42), is the section of the frame.

On the wall of the cylinder housing section (42.B) , there are the holes, which were drilled on the outer section (42.G) of the frame by the purpose of placing the grip pins in it.

While the cylinder housing section (42. B) is keeping one- way valve 12 gr. C02 cylinder (l.T.l), which was placed into the cylinder housing section, it centralizes the head section (l.B.5) of one-way valve solid part to the gasket housing section (l.D) of the storage tank.

Part 43: SIDE PLATE (43)

The side plate (43) in specified sizes, which is keeping the parts involved in the interior section (42.D) of the frame of C02 pocket gun , is the part of 002 pocket gun.

The holes of the pin and the bolts (43.0, 43. E, 43. L, 43.M, 43. N, 43.0, 43. P, 43.R,43.S), which are on the side plate(43) are at the same center with the holes of the pin and the bolts (42.0, 42.E, 2.L, 42.M, 42. N, 42.0, 42.P,42.R,42.S)at the interior side (42. D) of the frame. The countersunk were made in specified sizes in order to place the heads of the bolts (29) , which are used during the installation, into the holes (43. P, 43.R, 43. S) of the bolts taking place at the front side as being different from the back side of the side plate (43) .

Part 44: FIXING SCREW

The fixing screw (44) is taking part on the side of the cylinder pusher part (23) under the cylinder mechanism and enables the stability by squeezing the screwed section (24. B) of the assembly bracket (24).

ASSEMBLY OF C02 POCKET GUN:

The conical spring (3), is placed into the chamber section (2.E) of the ring in the manner of the conical side to be inserted into the centering section (2.D).

The ring (2) is placed into the ring housing section (l.C) of the storage tank, together with the conical spring (3) .

The ball (4) is sit on to the other side of the conical spring (3) inside the centering section (2.D) of the ring.

The gasket (5) is placed into the storage screw inlet section (l.B) in the manner of which the medium hole to be covered by the ball (4) .

The storage tank screw (6), is installed to the storage tank (1) by screwing through the screwdriver. The storage screw (6), which was tightening with the screwdriver, enables the gasket (5) to function properly.

Following the installation of the storage tank screw (6), the valve system of C02 pocket gun becomes operable.

After the known liquid adhesive in any specified amount had been applied into the gasket housing section (l.D), the gasket (5) is placed. Such known liquid adhesive fills up the spaces between the gasket housing section(l.D) and the gasket(5).

The storage cover (9) is placed into the washer housing section (l.E). Therefore, the assembly of the upper group of the cylinder mechanism is completed accordingly.

The known Allen bolt is placed into the rear sight housing section (l.H) of the storage tank.

The storage tank (1) is installed into its place on the frame by means of the known bolt, which was screwed into the hole with female screw (42.H) of the frame. After the cylindrical-helix pressure spring (38) had been placed into the rear sight housing section (l.H), the rear sight (37) is installed into the rear sight housing section (l.H) by screwing.

In order to constitute the safety ratchet handle (36) , the longer protrusion of the eccentric part (36.A) is passed through the hole (42. U) inside the interior section of the frame. After the eccentric part (36.A)had been placed into the interior section (42. D) of the frame, the handle part (36.B) is attached onto the protrusion, which was gone out of the other side of the frame. In such a way, the safety handle ratchet is prepared accordingly.

The coupling pins (40) of the firing mechanism and the pin of the cylindrical helix pulling spring (40) are placed into the pin holes of the frame (42. L) (42.M) (42.N) (42.0).

The cylindrical helix pressure spring (31) is placed into the 2^nd spring housing section (30. F) of the hammer.

The sear (32) is installed into the sear housing section (30. E) of the hammer by means of the hammer-sear coupling pin (41) . Therefore, the hammer (30) is installed accordingly.

After the hammer (30) and the trigger (34) had been placed on the pins (40) , the cylindrical-helix pressure spring (33) is placed into the spring housing section (34.0) of the trigger.

A space is created for the lever (35) by squeezing the cylindrical helix pressure spring (33) towards the trigger (34) with the edge of the screwdriver.

After the lever had been placed on the pin (40) in the manner of the notch section (35. E) of the lever to be on the lower side of the notch section (3 .D) of the trigger, the cylindrical helix pressure spring (33) is placed inside the spring housing section (35.B) of the lever.

Therefore, the cylindrical helix pressure spring (33), which was squeezed between the trigger (34) and the lever (35) in a specified tension, keeps both parts in required position by pushing.

After the longer hook (39.A) of the cylindrical helix pulling spring had been placed into the 1^st spring housing section (30. D) of the hammer, the side having the shorter hook is placed on to the pin (40) by pulling with the rave hook.

The hammer (30) is stretched in the manner of pulling the head section (30.A) by the assembler. Therefore, this movement of the hammer (30) enables to uncover the front side of the entry sectio (6. D) of the stroke component of the storage tank screw.

After the stroke component (7) had been placed into the stroke component inlet section (6.D) of the storage tank screw, the hammer (30) is released.

Therefore, the firing mechanism is prepared inside the interior section (42. D) of the frame.

The cylindrical helix pressure spring (21) is placed on the other side of the cylinder pusher mechanism pin (20) .

The cylinder pusher mechanism pin (20) is placed into the interior section (42. D) of the frame by inserting into the cylinder pusher mechanism pin housing section (42.A) of the frame by means of the part extending from the cylindrical helix pressure spring (21) .

The assembler, prepares the adjustment section (24. B) to be fitted for screwing by means of screwing it to the screwed section (23. B) of the cylinder pusher part by holding from the circle section (24.A) of the bracket assembly (24).

The adjustment section (24. B) of the bracket assembly is placed into the screwed section (23. B) of the cylinder pusher part entirely by rotating through the screwdriver canal section (24. C) by means of using the screwdriver.

Therefore, the circle section (24.A) of the bracket assemble is enabled to place into the square section (23.A) of the cylinder pusher part.

By ensuring the handle section (25. B) of the cylinder pusher safety ratchet handle to be placed on the lower side of the pusher part (23), the core section (25.A) of the cylinder pusher safety ratchet handle is placed into the split taking part on the medium side of the coupling section (23. D) .

The cylinder pusher coupling pin (26) is passed through the pin holes on the medium part of both parts (23) (25) .

The cylinder pusher mechanism pin (20) is pushed towards the inside the housing (42.A) by means of the upper side of the core section (25.A) of the cylinder pusher safety ratchet handle. In such way, it enables the pin (26), which is keeping both parts together, to align the pin hole ( 42.0) of the frame. By ensuring the placement of the pin (26) into the pin hole (42.C) by one side, both parts are ensured to take their places at the interior section (42. D) of the frame. The cylindrical helix pressure spring (22) is placed into the spring housing section (27. G) of the functional key part.

By placing the functional key part (27) into its place inside the frame with the cylindrical helix pressure spring (22) , the functional key part is enabled to take its first position.

The functional key part coupling pin (28) is passed through the pin hole of the functional key part. By inserting one side of the functional key part coupling pin (28) into the pin hole (42. E) of the frame, the functional key part (27. D) is ensured to be placed into the interior section (42. D) of the frame.

After the side plate (43) had been placed on the protrusions (42. F) at the interior section of the frame, it is installed to the frame (42) by means of the side plate coupling bolts (29) .

The barrel (11) is placed into the coupling part by inserting the side of the barrel having no countersunk hole into the barrel assembly hole section (17.D) of the coupling part until leaning to the surface area.

The body section (13.B) of the angular part is placed into the charger pipe (12) enabling the section giving direction (13.A) to function properly. After the stopping section (13. C) of the angular part had leant to the surface of one side of the charger pipe (12) , two parts (12) (13) are fixed into each other by dropping the known liquid adhesive onto the junction points.

The charger pipe is inserted into the hole (17.B) on the upper side of the outer section of the coupling part in the manner of ensuring the covered split section (12.B) of the charger pipe to be positioned in parallel to the countersunk hole of the barrel.

While the Slide Bold B part (16. B) is placed on the barrel (11) by means of the hole section (16. B.3), the charger pipe (12)passes through the inside the split on back section (16. B.2).

After the Slide Bold B part (16.B) had been placed on to the point between the barrel (11) and the charger pipe (12), two parts (11) (12) are placed into the known clamp in the manner of providing the coupling part (17) standing on bottom.

The charger pipe (12) is fixed on the coupling part (17) by dropping the known liquid adhesive on the inlet point of the hole where the coupling part (17) of the charger pipe (12) enters. After the known liquid adhesive got dry, the coupling part (17) involving the charger pipe (12), barrel (11) and the Slide Bold B part is removed from the inside the clamp to outside.

The Slide bold B part (16.B) is removed from the point between the barrel (11) and the charger pipe(12).

The cylindrical helix pressure spring (10) is placed on the barrel (11) in the manner of ensuring one side to be leant on to the surface of the coupling part (17) .

The other side of the back section (16. B.2) of the slide bold B part is placed on barrel (11) in the manner of ensuring it to be leant onto the other side of the cylindrical helix pressure spring (10) .

After the slide Bold A part (16.A) had been placed on to the slide bold B Part (16. B) by means of the pedal section (16. B), those parts are placed into the clamp to be welded.

By welding the integrated points of the Slide Bold A part (16.A) and slide bold B part (16. B), those parts are made as a whole. In such way, the slide bold(16) is constituted accordingly.

The charger cover (18) is placed on the coupling part (17) by screwing.

Coupling part (17) is placed in a hole which is on the other side of the enclosure (19) via cylindrical helix and ball pusher part (14) (15) along with the charger mechanism.

Both the screw hole on the coupling part (17.E) and the hole at the bottom of the enclosure (19. D) are aligned.

The assembly person needs to place the enclosure (19) via the hole that is on one side of the enclosure, to the storage tank enclosure (l.B) whilst holding the 002 pocket gun with one hand.

With this operation enclosure (19) is placed on top of the frame (42) .

By placing the enclosure (19) on top of the frame (42) the barrel (11) is also partially placed inside the hole which resides in the middle of the top part of the hammer, automatically. Known alien head screw is passed through the screw hole of the frame (42.1) as well as the hole which resides on the other side of the enclosure (19.D) and finally by screwing to the coupling part.

With this operation the assembly of the C02 pocket gun, is completed.

INSTRUCTIONS OF Cθ2 POCKET GUN USAGE:

The person, who is using the C02 pocket gun, needs to pull safety ratchet handle (36) which separates the hammer (30) from the stroke component (7) .

As the hammer's (30) pushing force is removed from the stroke component (7), the force of the conical spring (3), which is inside the valve mechanism, pushes the ball (4) to its first position.

The user pulls the safety ratchet handle (25) of the C02 pocket gun which in tern pushes the key part (27) which enables to open the cylinder pusher part (23) .

This enables to place the one way valve 12gr. C02 cylinder to be placed in the cylinder chamber (42. B) of the frame (42. ).

The user places the one way valve 12gr. 002 cylinder (l.T.l) in the cylinder chamber (42. B) by pushing the safety ratchet (36). Cylinder pusher part (23) enables the cylinder to be connected to the mechanism.

By pushing the cylinder safety ratchet (36) , by hand, the key part (27) and the cylinder pusher part closes the cylinder chamber. With this operation one way valve 12gr. 002 cylinder (l.T.l) becomes operational.

User opens the charger cover (18) by turning the same.

User takes out the ball pusher part (15) with the cylindrical helix pressure spring (14) from the charger pipe (12) .

Having filled the balls in the charger pipe (12), the user places ball pusher part (15) with the cylindrical helix pressure spring (14) into the charger pipe.

User closes the charger pipe (12) by means of turning. After this, ball pusher part (15) with the cylindrical helix pressure spring (14) pushes the balls which are in the charger pipe (12) to the angular part (13) .

By pulling the safety ratchet (36) the 002 pocket gun becomes operational and ready to be used.

Claims

CLAIMS - A Carbon dioxide pocket gun, which is characterized with the arrangement of cylinder mechanism, which is run with one-way valve 12 gr. carbon dioxide cylinder (l.T.l), enabling to push out the cylinder due to the pressure of carbon dioxide, which was accumulated in valve mechanism of Cθ2 pocket gun ; firing mechanism involving a hammer (30) configuration , which is functioning in opposite manner compared with the lever (35), trigger (34) and widely known carbon dioxide guns; a valve mechanism having the ring (2), ball charger mechanism involving the angular part (13) and slide bold (16) ; the coupling part (17), enclosure (19), frame (42), side plate (43) and a safety ratchet handle (36) as the main components. - As defined in Claim 1, a carbon dioxide pocket gun, which is characterized with the arrangement of upper group consisting of the gasket (8) taking place at the bottom part of the storage tank (1) and the storage tank cover (9) and the lower group consisting of cylinder pusher mechanism pin (29), cylinder pusher part (23), assembly bracket (24) cylinder pusher safety ratchet handle (25) , functional key part (27) and cylindrical helix pressure springs (21,22) and the pins (16 and 28). - As defined in Claim 1 or 2, a carbon dioxide pocket gun, which is characterized with the arrangement of the parts, which are the cylinder pusher mechanism pin (20) , cylindrical helix pressure springs (21 and 22) , cylinder pusher part (23) , assembly bracket (24), cylinder pusher safety ratchet handle (15) and the functional key part (27) involved in lower group of the cylinder mechanism, to be noticed as the movable parts. - As defined in Claim 1, 2 or 3, a carbon dioxide pocket gun, which is characterized with the movement of opening the cylinder pusher safety ratchet handle (25) due to pushing by the purpose of the placement of one-way valve 12 gr. 002 cylinder (l.T:l) into the cylinder housing of Co2 pocket gun and then to release the cylinder pusher part (23) depending on opening movement of the functional key part (27) by pushing. - As defined in Claim 1,2,3 or 4, a carbon dioxide pocket gun, which is characterized with the movement of opening the functional key part (27) by pushing and to position the functional key part (27) into its first position depending on the effect of the cylindrical-helix pressure spring (22) and therefore to uncover the front side of the cylinder housing section (42.B) by activating the cylinder mechanism. - As defined in Claim 1,2,3,4 or 5, a carbon dioxide pocket gun, which is characterized with the movement of inserting one-way valve of oneway valve 12 gr. C02 cylinder (l.T.l) into the cylinder housing section (42. B) of 002 pocket gun until it would lean on to the gasket (8). - As defined in Claim 1,2,3,4,5 or 6, a carbon dioxide pocket gun, which is characterized with the movement of closing the cylinder pusher part (23) by shutting off the cylinder pusher safety ratchet handle (25) and therefore shutting off the cylinder mechanism depending on the contact of the bracket assembly (24) to the back side of one-way valve 12 gr. Co2 cylinder (l.T.l). - As defined in Claim 1,2,3,4,5,6 or 7, a carbon dioxide pocket gun, which is characterized with the movement of pushing the functional key part (27) until the notches (23. C and 27. D) to be sit by striking the rolled side of the cylinder pusher part (23) to the rolled side of the functional key part (27) depending on the motion of the cylinder pusher safety ratchet handle (25) to be pushed strongly at the stage of closing. - As defined in Claim 1,2,3,4,5,6, 7 or 8, a carbon dioxide pocket gun, which is characterized by removing one way valve 12 gr. 002 cylinder

(l.T.l) inside 002 pocket gun with the movement of ensuring to release the cylinder pusher part (23) depending on the separation of the notches (23.0 and 27. D) from each other by pushing the functional key part (27) after opening the cylinder pusher safety ratchet handle

(25) . 0- As defined in Claim 1,2,3,4,5,6,7,8 or 9, a carbon dioxide pocket gun, which is characterized with the movement of releasing one-way valve 12 gr. C02 cylinder (l.T.l), which was squeezed between the gasket (8) and the assembly bracket as a result of releasing the cylinder pusher part (23), and taking out the cylinder (l.T.l) by the carbon dioxide pressure accumulated in the valve. 1-As defined in Claim 1,2,3,4,5,6,7,8,9 or 10, a carbon dioxide pocket gun, which is characterized by the arrangement of the fixing screw (44) enabling to fix the assembly bracket (24) on the side of the cylinder pusher part (23) on the lower side of the cylinder mechanism. -As defined in Claim 1 and 2, a carbon dioxide pocket gun, which is characterized by the arrangement of the storage tank (1) consisting of enclosure inlet section (l.A), storage tank inlet section (l.B), ring housing section (l.C), gasket housing section (l.D), washer housing section (l.E), column section (l.F), gas canal section (l.G), rear sight housing section (l.H) to where the rear sight to be placed by screwing on and the screw inlet hole; -As defined in Claim 1, a carbon dioxide pocket gun, which is characterized by the arrangement of the valve mechanism consisting of the ring (2), conical spring (3), ball (4) and the gasket (5) which is covering the front side of the ring housing section (l.C) by means of the storage tank screw(6); - As defined in Claim 1 and 13, a carbon dioxide pocket gun, which is characterized by the arrangement of the ring (2) shaped cylindrically with the hole at the center consisting of convex section (2.A), concave section (2.B), countersunk section (2.c), centering section (2.D), chamber section (2.E) and the canal section (2.F). -As defined in Claim 1,13 and 14, a carbon dioxide pocket gun, which is characterized by the arrangement of the convex section (2.A) of the ring (2) consisting of the protrusions taking part on two cross sides of the outer wall of the ring (2) and the concave section (2.B) among those protrusions; -As defined in Claim 1,13,14 and 15, a carbon dioxide pocket gun, which is characterized with the arrangement of the centering section (2. D) of the ring (2) consisting of the protrusions in various numbers starting from the point where the countersunk section (2.0) ended up to the beginning of the chamber section (2.E) . -As defined in Claim 1,13,14,15 and 16, a carbon dioxide pocket gun, which is characterized with the movement of the ball on the protrusions constituting the centering section of the ball (4) . -As defined in Claim 1,13,14,15,16 and 17, a carbon dioxide pocket gun, which is characterized with arrangement of the canal section (2. F) consisting of the recess taking part on the convex section (2.A) of the ring (2) . -As defined in Claim 1,13,14,15,16,17 and 18, a carbon dioxide pocket gun, which is characterized with the movements in such way that depending on shooting (34), the hammer(30) hits to the stroke component (7) then due to such hit movement, the needle section of the stroke component strikes to the ball (4) so in connection to the effect of this impact, the ball is separated from the gasket (5) instantly and during such period, carbon dioxide included in valve passes into the barrel (11) by means of the stroke component (7); and the ball (4) cuts the flow of carbon dioxide into the barrel (11) by means of the stroke component (7) passing through the valve by re- closing the hole at the center of the gasket (5) immediately due to the effect of the conical spring (3) . -As defined in Claim 1, a carbon dioxide pocket gun, which is characterized with the arrangement of the firing mechanism consisting of the stroke component (7), hammer (30), lever (35), trigger (34) and the springs (31,33,39) and the pins (40,41), which are placed into those parts. -As defined in Claims 1 and 20, a carbon dioxide pocket gun, which is characterized with the arrangement of the hammer (30) consisting of the head section (30.A), body section (30. B) , stopping section (30.0), 1^st spring housing section (30. D) , sear housing section (30. E) and the 2^nd spring housing section (30. F). -As defined in Claims 1,20 and 21, a carbon dioxide pocket gun, which is characterized with the arrangement of head section of the hammer (30.A) in shape of having a sharpen tip on one edge and a straight tip on the other edge with a split at the medium side. -As defined in Claims 1,20,21 and 22, a carbon dioxide pocket gun, which is characterized with the movement of the barrel (11) entirely and charger pipe (12) with the slide bold (16)partially, to be passed through the split at the head section (30.A) of the hammer(30). -As defined in Claims 1,20,21,22 and 23, a carbon dioxide pocket gun, which is characterized with the movement of firing to be ensured by the sharpen edge hitting to the stroke component (7) also by pushing the slide bold (16) with the straight side of the head section of the hammer (30) . -As defined in Claims 1,20,21,22,23 and 24, a carbon dioxide pocket gun, which is characterized with the arrangement of the body section (30. B) of the hammer (30) consisting of a stopping section (30. C) and the 1^st spring housing (30.D) on one side and the pin hole on the sides . -As defined in Claims 1,20,21,22,23,24 and 25, a carbon dioxide pocket gun, which is characterized with the arrangement of the stopping section (30. C) consisting of the recess taking part on one side of the hammer (30) . -As defined in Claims 1,20,21,22,23,24,25 and 26, a carbon dioxide pocket gun, which is characterized with the arrangement of the 1^st spring housing section (30. D) to be consisted of the recess taking part under the stopping section (30. C) of the hammer. -As defined in Claims 1,20,21,22,23,24,25,26 and 27, a carbon dioxide pocket gun, which is characterized with the arrangement of sear housing section (30. E) , which is taking part on the other side of the body section (30. B) of the hammer (30) with the split starting from one edge up to the body section (30.B) on the medium side of the sear housing section. -As defined in Claims 1,20,21,22,23,24,25,26,27 and 28, a carbon dioxide pocket gun, which is characterized with the arrangement of the sear housing section (30.E) of the hammer where the pin hole is taking part on. -As defined in Claims 1, 20,21,22,23,24,25,26,27,28 and 29, a carbon dioxide pocket gun, which is characterized with the arrangement of the 2^nd spring housing section (30. F) consisting of the cavity taking part on the sear housing section (30. D) on the other side of the body section (30.A) of the hammer (30). -As defined in Claim 1, 20,21,22,23,24,25,26,27,28,29 and 30 a carbon dioxide pocket gun, which is characterized with the arrangement of the sear (32) consisting of top section (32.A), body section (32. B) and the stopping section (32. C) . -As defined in Claims 1 and 20, a carbon dioxide pocket gun, which is characterized with the arrangement of the trigger (34 ) consisting of the back section (34.A), intermediate section (34. B), spring housing section (34.0), front section (34. D) and the pulling section (34. E). -As defined in Claims 1,20 and 32, a carbon dioxide pocket gun, which is characterized with the trigger back section (34.A), which is starting from one side of the trigger to the point where the intermediate section (34.B) started, with the split at the medium side. -As defined in Claims 1,20,32 and 33, a carbon dioxide pocket gun, which is characterized with the spring housing section (34. C) consisting of the cavity starting from the medium side of the upper side of the intermediate section(34.B) of the trigger(34). -As defined in Claim 1,20,32,33 and 34, a carbon dioxide pocket gun, which is characterized with the arrangement of the front section (34. D), which is taking part on the other side of the trigger (34) and is constituted by the protrusion starting at the point where the intermediate section (34. B) ended; -AS defined in Claim 1,20,32,33, 34 and 35, a carbon dioxide pocket gun, which is characterized with the movement of the lower side of the front section (34.D) to be sit on the trigger housing section (35. E) of lever; -AS defined in Claim 1 and 20, a carbon dioxide pocket gun, which is characterized with the arrangement of the lever (35) consisting of the nose section (35.A), spring housing section (35. B), handle section (37. C), intermediate section (35. D) and the trigger housing section (35. E) ; -AS defined in Claim 1, 20 and 37, a carbon dioxide pocket gun, which is characterized with the arrangement of the spring housing section (35. B) constituting of the cavity taking part on the lower side of the handle section (35. C) of the lever (35); -AS defined in Claim 1,20,37 and 38, a carbon dioxide pocket gun, which is characterized with the arrangement of the trigger housing section (35. E), which is taking part under the handle section (35. C) of the lever by being parallel to such handle section (35. C) and consisting of the protrusion, which is starting at the point where the intermediate section (35. D) ended and extending towards one side; -AS defined in Claim 1, a carbon dioxide pocket gun, which is characterized with the arrangement of the ball charger mechanism consisting of the charger cover ( 18), charger pipe (12), angular part (13), cylindrical helix pressure spring (14), ball pusher part(15) and the slide bold (16); -AS defined in Claim 1 and 40, a carbon dioxide pocket gun, which is characterized with the arrangement of the charger cover (18) in cylindrical shape, which has a hole at the center and the female screws also installed to the male screwed section (17. C) of the coupling part through those female screws. -As defined in Claim 1 and 40, a carbon dioxide pocket gun, which is characterized with the arrangement of an open split (12.A) taking part on the upper part of one side of the charger pipe (12) and a covered split (12.B) under the open split (as being parallel to the open split (12.A)) ; -As defined in Claim 1, 40 and 42, a carbon dioxide pocket gun, which is characterized with the arrangement of the covered split (12.B), which is made as an enlarged hole enabling the balls to be fallen down into the barrel (11) through the angular part (13) ; -As defined in Claim 1,40,42 and 43, a carbon dioxide pocket gun, which is characterized with the arrangement of the angular part to be placed into one side of the charger pipe (12) ; -As defined in Claim 1 and 40, a carbon dioxide pocket gun, which is characterized with the arrangement of the angular part, which is consisting of the section giving direction (13.A), body section (13.B) and the stopping section (13.C) ; -As defined in Claim 1,40 and 45, a carbon dioxide pocket gun, which is characterized with the arrangement of the section giving direction (13.A) of the angular part (13), which is taking part on the side of the angular part (13) and made inclined shape ; -As defined in Claim 1 and 40, a carbon dioxide pocket gun, which is characterized with the arrangement of the ball pusher part (15) is consisting of the holding section (15.A), spring housing section (15.B) and the collecting section (15.C); -As defined in Claim 1 and 40, a carbon dioxide pocket gun, which is characterized with the movement of the slide bold (16), which is opening and closing through the hammer (30), is in off position under the pushing effect of the cylindrical helix pressure spring (10) on the barrel (11) before activating the hammer (30) and covers the countersunk hole on the barrel (11) while on its first position; -As defined in Claim 1, 40 and 48, a carbon dioxide pocket gun, which is characterized with the arrangement of the slide bold to be constituted by the slide bold A part (16.A) and slide bold B part (16. B); -As defined in Claim 1,40,48 and 49 a carbon dioxide pocket gun, which is characterized with the arrangement of the slide bold A part (16.A) to be constituted by the pusher section (16.A.1), body section (16.A.2) and the pedal section (16.A.3); - As defined in Claim 1,40,48,49 and 50, a carbon dioxide pocket gun, which is characterized with the arrangement of the pusher section (16.A.1), which is starting at one side of the slide bold A part (16.A) and continues to the point where the split at its medium part started; -As defined in Claim 1,40,48,49 and 50, a carbon dioxide pocket gun, which is characterized with the arrangement of the body section

(16.A.2) having the split on its medium side, which starts at the point where the pusher section (16.A.1) of the A part (16.A) ended and continues to the pedal section (16.A.3); -As defined in Claim 1,40,48,49,50 and 51, a carbon dioxide pocket gun, which is characterized with the arrangement of the slide bold A part of the charger pipe (12) to be passed through the split; -As defined in Claim 1,40,48,49,50,51 and 52, a carbon dioxide pocket gun, which is characterized with the arrangement of the pedal section (16.A.3), which is starting at the point where the body section (16.A.2) of the slide bold A part ended and taking part on the other side and enabling to install the slide bold A part (16.A) to the slide bold B part (16. B); -As defined in Claim 1, 40, 48 and 49, a carbon dioxide pocket gun, which is characterized with the arrangement of the slide bold B part (16. B) to be constituted by the front section (16. B.l, back section (16. B.2) and the hole section (16. B.3); -As defined in Claim 1,40,48,49 and 55, a carbon dioxide pocket gun, which is characterized with the arrangement of the front section (16. B.l) to be constituted by the cylindrical outer section, which is starting on one side of the slide bold B part (16.B) and continues to the back section (16. B.2) also the hole section (16. B.3) to be taken part at the center of its medium side; -As defined in Claim 1,40,48,49 and 55, a carbon dioxide pocket gun, which is characterized with the arrangement of the back side (16.B.2)to be made in cylindrical shape, which starting from the point where the front section of the slide bold B (16.B) part ended and constitutes the other side also a split taking part on, where the charger pipe (12) to be passed through; -As defined in Claim 1,40,48, 49 and 55, a carbon dioxide pocket gun, which is characterized with the arrangement of the hole section, which is starting from the center of the medium side of the front section (16. B.l) of the slide bold B part (lδ.B)and opens to the outside from the back section (16. B.2) and the barrel (11) to be passed through; -As defined in Claim 1, a carbon dioxide pocket gun, which is characterized with the arrangement of the coupling part (17) to be constituted by the interior section (17.A), outer section (17.B), the section with male screw (17.C) barrel assembly hole section (17.D), bolt hole section (17. E) and the ball outlet section (17. F); -As defined in Claim 1, a carbon dioxide pocket gun, which is characterized with the arrangement of the enclosure of which the lower side (19.C) of the outer wall is in straight shape, the upper side (19. E) is made oval, the inside has the hole(19.A) throughout and having the split (19.B) to be opened to the hole which was made to the inside from the outer part on lower side, a hole ( 19. D) in specified sizes on the other side of the lower part (19.0) and the known foresight (19. F) enabling the user to constitute the shooting line taking part over the upper part (19.E) of the outer wall.

-As defined in Claim 1, a carbon dioxide pocket gun, which is characterized with the arrangement of the frame to be constituted by the outer section (42. G), interior section (42. D) and the cylinder housing section (42. B); -As defined in Claim 1, a carbon dioxide pocket gun, which is characterized with the arrangement of the side plate (43) which is keeping the parts inside the interior side (42.D) of the frame and involving the pin and bolt holes (43. C, 43. E, 43. , 43.M, 43. N, 43.0, 43. P, 43. R, 43. S), which are at the same center with the pin and bolt holes (42. C, 42. E, 42. L, 42.M, 42. N, 42.0, 42.P,42.R, 42. S) at the interior side (42. D) of the frame. -As defined in Claim 1 and 62, a carbon dioxide pocket gun, which is characterized with the arrangement of the countersunk, which is made in specified sizes enabling to place the heads of the bolts (29), which are used during the assembly, into the bolt holes (43.P,43.R, 43S)at the back side of the side plate (43); -As defined in Claim 1, a carbon dioxide pocket gun, which is characterized with the arrangement of the safety ratchet handle (36) to be constituted by the eccentric part (36.A) and handle part (36. B); -As defined in Claim 1 and 64, a carbon dioxide pocket gun, which is characterized with the arrangement of the eccentric part (36.A), of which the body is the eccentric and made as cylindrically, having the protrusions in lower diameter sizes than the size of the eccentric body on both sides and the placement of one of those protrusions into the hole (42.U) of the interior side of the frame and the other's into the hole (43.U) of the side plate. -As defined in Claim 1,64 and 65, a carbon dioxide pocket gun, which is characterized with the arrangement of the handle part (36. B), which the longer protrusion of the eccentric part (36.A) to be mounted into the hole at the medium part of mentioned handle part then fixed by welding.