RU2703374C1 - Valve mechanism for airguns (versions) - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to airguns. Valve mechanism comprises valve, unloading bushing, valve stem, sealing elements, spring and plug. When the firing trigger is depressed, the trigger strikes the valve stem, the valve moves away from the sealing element and compresses the spring. Air is directed to the gun barrel. In one version, through the longitudinal hole in the body of the valve, air passes into the cavity of the valve and unloading bushing, than forces from air pressure acting on the valve are leveled. In the second version, air enters the barrel through the longitudinal bypass channel in the valve body. In the third version, an elastic bushing is used to compensate forces acting on the valve. Valve actuation force can be adjusted by means of compression spring of compensating sleeve by plug.

EFFECT: possibility of obtaining arbitrary force of valve opening at any diameter of valve passage opening.

3 cl, 6 dwg

Description

The invention relates to valve mechanisms of actuators operating with short-term supply of high-pressure gas, mainly for pneumatic weapons and weapon simulators.

To assess the novelty of the claimed solution, we consider a number of well-known technical devices of a similar purpose, characterized by a combination of features similar to the claimed device.

Known valve mechanism for pneumatic weapons according to the patent of the Russian Federation No. 2169331, comprising a housing, a valve with a stem and a seat with a seal, which is characterized in that the seat is made in the form of a housing and a sleeve, between which the seal is located, and is a rigidly assembled element. In this valve mechanism, the sleeve on the seal side has a hard stop in the seat housing and is flared on the other, and the surfaces of the seat housing and bushings in contact with the seal are made with a profile identical to that of the seal. The seat body, sleeve and seal are a rigidly assembled element. In the process, the valve mechanism of the pneumatic weapon briefly opens, cutting off a portion of gas for firing by hitting the valve stem. The disadvantage of this valve mechanism is that to produce a shot it is necessary to overcome the force of the gas pressure on the valve in the gas cylinder by hitting the rod. Since the energy of the shot is directly proportional to the energy expended to initiate the shot, a lot of effort is needed to hit the rod.

Known valve mechanism of pneumatic weapons according to the patent of the Russian Federation No. 2532011, comprising a housing with a valve located therein, a rod, a spring, a plug, a screw, a sealing ring located between the housing and a gas cylinder, which is characterized in that the stem and valve are made separately from each other , while the rod is in contact with the valve and is a locking element of the cross-section made between the valve and the rod to move gas from the internal cavity between the valve and the plug after the hammer is hit on the rod. In this valve mechanism, after hitting the stem, the pressure in the internal cavity is less than the pressure in the gas cylinder. The method of short-term high-pressure gas supply, implemented in this valve mechanism, consists in connecting a gas cylinder with compressed gas to a valve mechanism body connected with a drain hole and a bypass hole, closing the drain hole with a valve, and the passage section between the rod and the inner surface of the valve is closed by the stem, due to gas pressure and the pressure of the spring associated with the rod and located in the inner cavity of the valve, they strike the stem to reset and the gas pressure from the inner cavity of the valve through the orifice to the bypass hole, which leads to the valve opening the drain hole by replacing the gas pressure force acting on the valve closure with the gas pressure force to open it, briefly temporarily release gas through the open drain hole and the bypass hole, return the valve and the stem to its original position to close the bypass valve with the valve, and the bore - rod, due to the pressure of the gas coming from the inner cavity of the valve and giving lazy springs. This technical solution provides a reduction in shock energy along the stem, however, its disadvantage is the ability of the valve mechanism to work only when the case is directly connected to a gas cylinder with compressed gas, which narrows the scope of the valve mechanism.

Known valve mechanism for supplying high pressure gas in pneumatic weapons according to the patent of the Russian Federation No. 2646967, comprising a body, valve, rod, and the rod is a locking element of the passage section, which is designed to move gas after impact on the outer end of the rod, and a bypass hole, which is characterized in that the housing is made in the form of a storage cylinder with an opening for supplying compressed gas from an external gas source, a sleeve provided with a sealing ring is installed on one side of the housing, in which a valve is installed with the formation in the closed position of the valve of the cavity between the valve and the sleeve, the bypass hole is located on the other side of the body, the inner end of the stem and the spring are installed in the valve hole, the bore is made between the outer end of the stem and the sleeve with the possibility of gas outlet to the atmosphere, and between the valve and the sleeve wall and there are gaps between the valve and the inner end of the stem. In this valve mechanism, the sleeve is fixed in the housing using a threaded sleeve with a gap between the outer end of the stem and the threaded sleeve. The way the valve mechanism works is to create a high gas pressure in the internal cavity of the housing equipped with a bypass hole and a bore, close the bore by a valve, and the bore with a rod, strike the outer end of the rod to relieve gas pressure through the bore cross-section, which leads to the replacement of the gas pressure force acting on the closing of the valve, the gas pressure force to open it, release gas through the bypass hole, return the valve and stem to the original position, closing the bypass valve with the valve, and the passage section through the rod. The body is made in the form of an accumulating cylinder, which is sealed with a sleeve provided with a sealing ring, into which the valve is installed to form a cavity between the valve and the sleeve in the closed position of the valve, the inner end of the stem and the spring are installed in the valve hole, the bypass hole and the passage section are separated from each other high-pressure gas is supplied to the internal cavity of the housing through the compressed gas supply hole from an external gas source; gas is discharged when it hits the rod from the floor between the valve and the sleeve and the holes in the valve through the cross-section made in the form of a gap between the outer end of the stem and the sleeve, with the possibility of gas escape into the atmosphere, when the valve returns to its original position, the gas filling the cavity between the valve and the sleeve is made through the gap between the valve and wall of the sleeve, and filling gas holes in the valve through the gap between the inner end of the rod and the valve. The sleeve is fixed in the housing using a threaded sleeve, which has a gap between the outer end of the stem and the threaded sleeve, which is a continuation of the bore.

This technical solution, as the closest to the declared technical essence and the achieved result, was adopted as its prototype

The disadvantage of this device, as well as all other known valves for similar purposes, is due to their feature, which consists in the fact that the valve capacity is primarily determined by its diameter. The larger the diameter of the valve, the greater the force constantly acts on its closure and the greater the momentum must be transmitted to the valve stem to the hammer. Thus, with an increase in the diameter of the valve, it is necessary to increase the weight of the hammer and / or the force of the valve spring. With the excess of a certain diameter, the weight of the hammer and the force of the cocking spring become excessive. Such a spring is difficult, sometimes impossible, to cock, excessive hammer weight destroys the valve structure, hammer shock transfers excessive vibrations to the entire system in which the valve is installed

The objective of the invention is to overcome this technical contradiction due to the fact that in the claimed device the force that needs to be applied to the valve to open it does not depend on its diameter, but is chosen arbitrarily. Thus, the main restriction on the power of the device in which this valve is installed is removed.

The essence of the claimed technical solution is expressed in the following set of essential features, sufficient to solve the technical problem indicated by the applicant and obtain the technical result provided by the invention.

According to a first independent aspect of the invention, a valve mechanism for pneumatic weapons, comprising a housing, inside which a valve with an element blocking the passage opening and a bypass hole is placed, is characterized in that the valve has a stem, the free end of which extends beyond the housing, a head part that locks the cross section, which is designed to move gas after impact on the outer end of the rod, and divides the valve mechanism in its closed position into a low pressure zone, which cut the air bypass channel is connected to the barrel of the rifle, and the high pressure zone, which is connected through the bypass channel from high pressure sources, in addition, the valve has a tail part, the free end of which interacts with a spring supported by an airtight stopper, while the through cavity of the tail part is communicated with a low pressure zone, while the tail part is covered by a movable sleeve, one end of which is located in the high pressure zone, and the opposite end interacts with the fixed seal ring, providing sealing of this zone relative to the unloading sleeve, mounted on the tail of the valve with the possibility of movement relative to it, while the movable sleeve is provided with a fixed covering enveloping it, ensuring its sealing relative to the housing.

According to a second independent aspect of the invention, a valve mechanism for pneumatic weapons, comprising a housing, inside of which a valve with an element blocking the passage opening and a bypass hole is placed, is characterized in that the valve has a stem, the free end of which extends beyond the housing, a head part that locks the cross section, which is designed to move gas after impact on the outer end of the rod, and divides the valve mechanism in its closed position into a low pressure zone, which cut the air bypass channel is connected with the barrel of the rifle, and the high pressure zone, which is connected through the bypass channel from high pressure sources, in addition, the valve has a tail part spring-loaded relative to the body, the through cavity of which is in communication with the low pressure zone, and the air bypass channel is made in in the form of a sleeve, the through hole of which is in communication with the through cavity of the tail of the valve, while the tail is covered by a movable sleeve, one end of which is placed in the high pressure zone, and against opolozhny end interacts with the fixed reinforced sealing ring providing a seal with respect to the zone unload sleeve fastened to the tail of the valve movable relative thereto, wherein the sliding sleeve is provided with its covering seal fixedly reinforced, it ensures sealing relative to the housing.

According to a third independent aspect of the invention, a valve mechanism for pneumatic weapons, comprising a housing, inside of which a valve with an element blocking the passage opening and a bypass hole is placed, is characterized in that the valve has a stem, the free end of which extends beyond the housing, a head part that locks the cross section, which is designed to move gas after impact on the outer end of the rod, and divides the valve mechanism in its closed position into a low pressure zone, which A bypass hole is connected to the barrel of the rifle, and a high pressure zone, which is connected through the air bypass channel from high pressure sources, in addition, the valve has a tail part spring-loaded relative to the body, a through cavity communicating with the low pressure zone, while the tail part is covered by a movable a sleeve, which is made of elastic material, one end of which is placed in the high pressure zone, and the opposite end interacts with the end of the unloading sleeve, mounted on the tail second valve part movably relative thereto, wherein the sliding sleeve is provided with its covering seal fixedly reinforced, it ensures sealing relative to the housing.

The claimed combination of essential features of the invention in all three of its variants, combined by a single inventive concept, ensures the achievement of a technical result, which consists in the fact that multidirectional forces act on the valve in the claimed design. The valve is pressed against the sealing element of the bore with a force directly proportional to the surface area of the valve head and inversely proportional to the total area of the valve body and the expansion sleeve of the valve. By changing the ratio of the areas of these areas, you can get an arbitrary force to open the valve for any diameter of the valve bore.

The essence of the claimed technical solution is illustrated by the drawing, on which in FIG. 1 shows a section through a valve in a first embodiment when closed; FIG. 2 also in the open state at the time of the shot, on physical. 3 - valve according to the second embodiment of its execution in the closed state, in FIG. 4 - also in the open state at the time of the shot, in FIG. 5 is a section through the valve in the third embodiment when it is closed; FIG. 6 - also in the open state at the time of the shot.

In the figures, the positions indicated:

1. Valve stem

2. Channel bypass air into the barrel of the rifle.

3. Sealing element made of polymer, made in the form of a ring

4. Valve head

5. Low pressure zone

6. High pressure zone

7. Bypass channel, through which air from the pressure vessel enters the valve mechanism 8. Movable sleeve

9. Rubber seal ring

10. clearance

11. Valve discharge sleeve

12. Valve cavity bypass hole

13. Valve spring

14. Rubber seal ring

15. Valve housing

16. Valve body

17. Valve bore

18. The cavity in the tail of the valve

19. Cork.

The claimed valve mechanism operates as follows.

In the closed state of the valve mechanism, air from the high pressure tank (not shown conventionally in the drawing x) enters the high pressure zone 6 through the bypass channel 7. Under the action of high air pressure, the movable sleeve 8 is shifted to the right of the valve head 4, choosing a gap 10 and its presses on the rubber ring of the seal 14, ensuring the tightness of the connection between the movable sleeve 8 and the unloading sleeve 11. In this case, the rubber ring of the seal 9 ensures the tightness of the connection between the valve body 16 and the movable second sleeve 8.

The advantage of this valve sealing scheme is the lack of friction between the valve body and the rubber rings 9 and 14, which increases sharply with increasing pressure and reduces the valve opening speed and violates the uniformity of our valve mechanism.

At the time of the shot, the rifle drummer hits the valve stem 1, while the valve moves to the right, the tightness between nodes 4 and 3 is broken and air through the hole 17 begins to flow into the low pressure zone 5 and then into the rifle barrel through the bypass channel 2. When fired, it also breaks the tightness of the connection of elements 8 and 11, as a result of which compressed air begins to flow into the cavity of the valve 18 and at the same time through the hole 12 into the barrel of the rifle.

The presence of the cavity of the valve 18 leads to equalization of pressure and reduces the action of the forces applied to the valve caused by air pressure on the cross-sectional area of the valve body 16 and the cross-sectional area of the discharge sleeve 11. Thus, the closing process of the valve is accelerated and shock loads between the parts of the valve body 16 are eliminated, spring 13 and plug 10, which cannot be avoided in the known valve mechanisms of other arrangements

After opening the valve under the influence of air on the cross-sectional area of the head part 4, as well as the action of the spring 13, the valve closes and is ready for the next shot. The spring 13 allows you to configure the valve mechanism, providing a constant amount of air entering the barrel of the rifle with a gradual decrease in pressure in the pressure vessel with each shot.

The difference between the second variant of the claimed mechanism is the location of the air bypass channel in the barrel of the rifle 2.

The valve spring 13 is located in the low pressure zone, which makes it possible to fine-tune it through the pressing of the sleeve 10. This adjustment affects the dynamics of the valve, adjusting the speed of its opening and closing and, as a consequence, the speed of the shot. Any adjustment in the claimed design can be carried out without disassembling the mechanism, which is impossible in known designs. The presence of the unloading sleeve 11 allows you to change the ratio of the areas and the corresponding multidirectional forces acting on the valve and, as a result, to achieve an arbitrary force to open the valve at a given diameter of the passage opening 17.

The difference of the third variant of the claimed mechanism is that the tail part is covered by a movable sleeve 8, which is made of elastic material, one end of which is placed in the high pressure zone, and the opposite end interacts with the end face of the unloading sleeve 11. Under the action of high air pressure, the movable sleeve 8 of elastic material (caprolon, fluoroplastic, etc.) is shifted to the right of the head part of the valve 4, choosing a gap 10 and presses it directly to the unloading sleeve, ensuring tightness is connected I between the movable sleeve 8 and unload sleeve. In this embodiment, the use of a rubber seal ring 14 is not required, which increases the reliability and durability of the product.

The claimed device can be implemented using well-known equipment, technical and technological means and is intended for pneumatic weapons and weapon simulators.

Claims (3)

1. Valve mechanism for pneumatic weapons, comprising a housing, inside of which there is a valve with an element locking the passage hole, and a bypass hole, characterized in that the valve has a rod, the free end of which extends beyond the body, a head part that locks the passage section, which is designed to move gas after impact on the outer end of the rod, and divides the valve mechanism in its closed position into a low pressure zone, which is connected to the barrel through an air bypass channel wakes, and a high-pressure zone, which is connected through the bypass channel from high-pressure sources, in addition, the valve has a tail part, the free end of which interacts with a spring supported by an airtight stopper, while the through cavity of the tail part is in communication with the low-pressure zone, while the tail part is covered by a movable sleeve, one end of which is placed in the high-pressure zone, and the opposite end interacts with a motionlessly fixed o-ring, providing sealing of this area They are relative to the unloading sleeve, mounted on the tail of the valve with the possibility of movement relative to it, while the movable sleeve is provided with a motionlessly fixed seal covering it, ensuring its sealing relative to the body. 2. Valve mechanism for pneumatic weapons, comprising a housing, inside of which there is a valve with an element locking the passage opening, and a bypass hole, characterized in that the valve has a rod, the free end of which extends beyond the housing, a head part that locks the passage section, which is designed to move gas after impact on the outer end of the rod, and divides the valve mechanism in its closed position into a low pressure zone, which is connected to the barrel through an air bypass channel wakes, and a high-pressure zone, which is connected through the bypass channel from high-pressure sources, in addition, the valve has a tail part spring-loaded relative to the housing, whose through cavity is in communication with the low-pressure zone, and the air bypass channel is made in the form of a sleeve, the through-hole of which is communicated with a through cavity of the tail of the valve, while the tail is covered by a movable sleeve, one end of which is placed in the high-pressure zone, and the opposite end interacts with the fixed a sealing ring, which provides sealing of this zone relative to the unloading sleeve, mounted on the tail of the valve with the possibility of movement relative to it, while the movable sleeve is provided with a motionlessly fixed seal covering it, ensuring its sealing relative to the housing. 3. Valve mechanism for pneumatic weapons, comprising a housing, inside of which there is a valve with an element locking the passage opening, and a bypass hole, characterized in that the valve has a rod, the free end of which extends beyond the housing, a head part that locks the passage section, which is designed to move gas after impact on the outer end of the rod, and divides the valve mechanism in its closed position into a low pressure zone, which is connected through a bypass hole to the barrel of screws and, and a high-pressure zone, which is connected through the air bypass channel from high-pressure sources, in addition, the valve has a tail part spring-loaded relative to the housing, a through cavity of which is in communication with the low-pressure zone, while the tail part is surrounded by a movable sleeve made of elastic material, one end of which is located in the high pressure zone, and the opposite end interacts with the end of the unloading sleeve, mounted on the tail of the valve with the possibility of movement, relate no her, wherein the sliding sleeve is provided with its covering seal fixedly reinforced, it ensures sealing relative to the housing.

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