RU200564U1 - SHOOTING PNEUMATIC DEVICE - Google Patents

Abstract

The utility model relates to small arms pneumatic for games, in particular for playing airsoft. The technical result consists in increasing the strength of the gearbox housing of the small pneumatic device by installing a new design of the piston module, which provides a significant reduction in the load on the front wall of the gearbox housing due to the fact that the vector the load is directed not to tension, but to compression of the rear wall of the gearbox housing. The technical result is achieved by the fact that in a small pneumatic device containing a gearbox housing, inside of which there are a spring with a guide, a piston, a cylinder with a cylinder head, and a sector gear, while the piston is made with side protrusions and a comb for a sector gear, according to the formula of the utility model, a spring with a guide, a piston and a cylinder with a cylinder head are located in the piston module housing, which is made as a single part and consists of a front cylinder, a frame and a rear wall of the module with an internal projection with a through thread, the front cylinder is fastened to the cylinder head equipped with a damper, while the frame of the piston module housing is made with slots for free movement of the projections and the piston comb along the module housing, and the rear wall of the gearbox is fastened to the rear wall of the piston module frame using guide rod, screws and bearing. 1 wp cl, 4 dwg

Description

The utility model relates to small arms pneumatic for games, in particular for playing airsoft.

The known design of an air rifle with a compressor cylinder located under the receiver (RU 2038566, publ. 27.06.1995). The compressor cylinder is equipped with a spring-loaded figured ring, mounted with the possibility of turning it by a charging lever and a spring. The rifle is loaded with a bullet and the barrel is locked with a bolt with a protrusion. When the lever is retracted, the spring turns the ring clockwise, the ring presses on the lug of the bolt and turns the latter until the handle comes out of the transverse groove of the box, and the bolt moves back. After cocking the cylinder piston, the cocking lever is returned to its original position and the rifle is loaded.

The disadvantage of this design is the impossibility of practical use for playing airsoft, because a rifle is capable of injuring a person.

The closest analogue of the claimed device is a small-scale pneumatic device in the form of an air rifle containing a gearbox housing inside which a spring with a guide, a piston and a cylinder with a cylinder head are located (RU 102382, publ. 27.02.2011). During operation, the piston strikes the cylinder head, which transmits the impact impulse to the front wall of the gearbox housing. From frequent blows, the front wall of the gearbox housing is destroyed, which leads to its separation.

The main disadvantage of the known design is its low strength due to high shock loads on the front wall of the rifle gearbox housing, which leads to its destruction and separation.

The technical result consists in increasing the strength of the gearbox housing of the small pneumatic device by installing a new design of the piston module, which provides a significant reduction in the load on the front wall of the gearbox housing due to the fact that the load vector is directed not to tension, but to compression of the rear wall of the gearbox housing.

The technical result is achieved by the fact that in a small pneumatic device containing a gearbox housing, inside which there is a spring with a guide, a piston, a cylinder with a cylinder head, and a sector gear, while the piston is made with side protrusions and a comb for the sector gear, according to the useful formula models, a spring with a guide, a piston and a cylinder with a cylinder head are located in the housing of the piston module, which is made as a single piece and consists of a front cylinder, a frame and a rear wall of the module with an internal protrusion with a through thread, the front cylinder is fastened to the cylinder head equipped with a damper , wherein the frame of the piston module housing is made with grooves for free movement of the projections and the piston comb along the module housing, and the rear wall of the gearbox is fastened to the rear wall of the piston module frame using a guide rod, screws and a bearing.

The novelty of the claimed design lies in the fact that the cylinder head does not touch the front wall of the gearbox housing, unlike the prototype, but is rigidly attached to the piston module, transferring the load from the piston to the walls of the piston module. In this case, the rear wall of the module is attached to the rear wall of the gearbox using a screw that pulls the entire piston module to the gearbox housing.

The design of the piston module housing as a single piece allows the impulse to be transmitted when the piston strikes not to the front wall of the gearbox housing, but to the rear one. In this case, the load vector is not directed towards tension, i.e. to tear off the front wall of the gearbox housing from frequent and strong blows of the piston, and to compression.

The claimed device is illustrated by the following figures.

FIG. 1 - the piston module body in perspective.

FIG. 2 - assembled piston module before installing it into the gearbox housing in section.

FIG. 3 - gearbox housing with a piston module installed inside it.

FIG. 4 shows the fastening of the gearbox housing and the piston module in section.

The claimed device design includes the following elements:

1 - Piston module housing;

2 - Front cylinder of the piston module housing 1;

3 - the head of the front cylinder 2;

4 - the frame of the housing of the piston module 1;

5 - the rear wall of the housing 1 of the piston module;

6 - Piston module;

7 - Piston of module 6;

8 - Spring;

9 - Guide rod;

10 - Bearing;

11 - External screw;

12 - Sealing the head of the front cylinder 2;

13 - Damper;

14 - Lateral protrusions of the piston 7;

15 - the comb of the piston 7;

16 - Reducer housing;

17 - Sector gear;

18 - the front wall of the gearbox housing 16;

19 - Rear wall of the gearbox housing 16;

20 - Internal screw of the guide rod 9;

21 - Inner protrusion of the rear wall 5 of the housing of the module 6 with an internal thread;

22 - Nozzle head 3 of the front cylinder 2.

The piston module 6 is assembled in the following order.

From the side of the rear wall 5, a support bearing 10 is put on the inner protrusion 21, followed by a guide rod 9, which is fixed with an inner screw 20.

Spring 8, piston 7 is inserted into the piston module 6, orienting it so that the side projections 14 and the comb 15 fall into the corresponding grooves in the frame 4 of the piston module.

The head 3 of the front cylinder 2 with a seal 12 and a damper 13 is threadedly connected to the housing 1 of the piston module 6.

The assembled piston module 6 is placed in the gearbox housing 16 in the following order:

The piston module 6 is placed in the gearbox housing 16, consisting of two halves, left and right, so that the lateral protrusions 14 of the piston 7 coincide with the mating grooves in the walls of the gearbox (not shown), and close the gearbox housing 16, pulling its halves together screws (not shown).

Then, through the hole in the rear wall 19 of the gearbox housing 16, the outer screw 11 is screwed into the thread of the inner protrusion 21 of the rear wall 5 of the housing of the module 6, pulling the piston module 6 to the rear wall 19 of the gear housing 16.

Spring 8, when installing module 6, does not tend to straighten, because it is "locked" inside the piston module 6. The spring 8 rests against the bearing 10 at one end, and against the piston 7 with the other, and is compressed by the cylinder head 3 screwed into the front cylinder 2 of the piston module body 1.

Bearing 10 is required to compensate for the twisting of the spring 8 during its compression-extension (expansion). The guide rod 9, fixed with a screw 20, serves to prevent the spring 8 from bending during compression.

Before starting work, the piston 7 is in the front "dead center", resting on the head 3 of the front cylinder of the housing of the piston module 1. The device operates as follows.

When cocked, the electric motor (not shown) begins to rotate the sector gear 17, which, clinging to the comb 15 with its teeth, cocks the piston 7, compressing the spring 8.

The piston 7 with lateral protrusions 14 moves along the counter guides (not shown) along the side slots of the frame 4 of the housing 1 of the piston module 6. In this case, the comb 15 of the piston 7 and the teeth of the sector gear 17 are engaged along the lower groove.

At the end of cocking, the piston 7 comes to the rear "dead center", while the sector gear 17 continues to rotate, and then the piston 7 "breaks off".

Under the action of a straightening spring 8, the piston 7 moves forward, forcing air in the cylinder 2. The compressed air through the head 3 enters the nozzle 22 and further into the barrel (not shown).

At the end of the movement, the piston 7, under the action of inertial forces and the expanding spring 8, strikes the head 3 of the front cylinder 2 with force. The damper 13 partially dampens the impact energy. Since the rear wall 5 by the screw 11 is rigidly pulled to the rear wall 19 of the gearbox 16, the rest of the impact energy is transmitted from the head 3 through the front cylinder 2 rigidly fastened to it by means of a threaded connection and the frame 4 to the rear wall 5 of the piston module housing 1.

As a consequence, the load vector is not directed towards tension, i.e. to tear off the front wall of the gear housing 16 due to frequent and strong impacts, and to compress the rear wall 19 of the gear housing 16.

Since the head 2 of the front cylinder of the housing 1 of the piston module 6 is unscrewed from the housing 1 itself, it becomes possible to clean, lubricate the piston module 6, as well as replace and install internal parts, which increases the maintainability and manufacturability of the device.

Claims (2)

1. A small pneumatic device containing a gearbox housing, inside which there is a spring with a guide, a piston, a cylinder with a cylinder head, and a sector gear, wherein the piston is made with side protrusions and a comb for a sector gear, characterized in that the spring with a guide, the piston and the cylinder with the cylinder head are located in the piston module housing, which is made as a single piece and consists of a front cylinder, a frame and a rear wall of the module with an internal protrusion with a through thread, the front cylinder is fastened to the cylinder head equipped with a damper, while the piston housing frame The module is made with grooves for free movement of the projections and the piston comb along the module body, and the rear wall of the gearbox is fastened to the rear wall of the piston module frame using a guide rod, screws and a bearing. 2. Shooting pneumatic device according to claim 1, characterized in that the cylinder head is mounted on the piston module housing by means of a threaded connection.

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