CN113916048B - Gas regulating mechanism for gas-guide type firearm - Google Patents

Abstract

The invention discloses a gas regulating mechanism for an air-guide type firearm, which is realized by a regulator, has the advantages of simplest structure, less number of parts and convenient and quick adjustment. The air guide device comprises an air guide hoop of an air guide firearm, wherein an air guide hoop air vent is formed in the air guide hoop, the air guide device further comprises an adjuster, the adjuster is provided with an inner hole, the air guide hoop is provided with an outer circle, the adjuster is in clearance fit with the outer circle of the air guide hoop, the adjuster is provided with air vent holes of different apertures, the end part of the adjuster is provided with a positioning arm, the end part of the positioning arm is provided with an elastic positioning protrusion, the air guide hoop is provided with a plurality of positioning pits corresponding to the elastic positioning protrusion, the elastic positioning protrusion is used for being matched with the positioning pits under the action of elastic force to limit the circumferential position of the adjuster, so that the air guide hoop air vent is just opposite to one of the air vent holes of the adjuster, and different air release speeds are formed.

Description

Gas regulating mechanism for gas-guide type firearm

Technical Field

The invention relates to the technical field of firearms, in particular to a gas regulating mechanism for a gas-guide type firearm.

Background

In order to ensure the shooting reliability and the shooting frequency of the air-guide type firearm under different environmental conditions, the continuous fire advantage of the firearm is exerted, the service life of the firearm is ensured, and different shooting energies are often required to be regulated through the air regulator in the shooting process.

Conventional firearm regulation mechanisms generally consist of a gas regulation mechanism and a positioning mechanism. The gas regulating mechanism is used for controlling the air inflow or the air release amount to adapt to the energy requirement of the firearm. The positioning mechanism is used to limit the movement (typically rotation) of the gas regulating structure to avoid shifting the gas regulating mechanism under non-operating conditions. Therefore, the regulator of the traditional firearm often needs to be composed of a plurality of parts, such as a regulator plate body, a regulator trip spring, a trip pin and the like. Often, the structure of the gas regulator is complex, the assembly is inconvenient, and elastic elements such as a latch spring of the regulator are easy to lose functions due to long-term working at high temperature, thereby affecting the reliability of the regulator.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the gas regulating mechanism for the gas-guide type firearm, wherein the gas regulating mechanism and the positioning mechanism are realized by the regulator, and the gas regulating mechanism has the advantages of simplest structure, less number of parts and convenient and quick adjustment.

The purpose of the invention is realized in the following way:

a gas regulating mechanism for a gas-guiding firearm comprises a gas-guiding hoop of the gas-guiding firearm, wherein a gas-guiding hoop gas vent/holes are arranged on the gas-guiding hoop,

the air guide device comprises an air guide hoop, and is characterized by further comprising an adjuster, wherein the adjuster is provided with an inner hole, the air guide hoop is provided with an outer circle, an air guide hoop air vent is arranged on the outer circle of the air guide hoop through clearance fit of the inner hole, the adjuster is axially positioned on the air guide hoop, a plurality of adjuster air vents with different apertures are arranged on the adjuster, the aperture of one adjuster air vent is greater than or equal to the aperture of the air guide hoop air vent, the aperture of the other adjuster air vents is smaller than the aperture of the air guide hoop air vent, the end part of the adjuster is provided with a positioning arm, the end part of the positioning arm is provided with an elastic positioning protrusion, a plurality of positioning pits are arranged on the air guide hoop corresponding to the elastic positioning protrusion, and the elastic positioning protrusion is used for being matched with the positioning pits under the action of elasticity to limit the circumferential position of the adjuster, so that the air guide hoop air vent is opposite to one of the adjuster air vents, and different air release speeds are formed.

Preferably, the regulator is made of elastic materials, so that the positioning arm has elasticity, and the bulge at the end part of the positioning arm forms an elastic positioning bulge.

Preferably, a T-shaped groove is arranged below the regulator and is used for being matched and fixed with the bottom edge of the cartridge case, and the regulator is rotated by pulling the cartridge case.

Preferably, the air guide hoop air holes are symmetrically arranged.

Preferably, two positioning arms are symmetrically arranged at the end part of the regulator.

Due to the adoption of the technical scheme, the invention has the following beneficial effects:

the gas regulating mechanism and the positioning mechanism of the regulator are all completed by one part, the structure is simplest, the number of parts is minimum, the positioning mechanism is exposed, the working temperature is lower, the problem of failure at high temperature can be effectively avoided, and in addition, the regulator has the characteristics of convenience and rapidness in adjustment.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention; 1-gas regulator, 101- (for mating with a gas block) bore, 102-locating arms, 103-locating protrusions, 104-regulator bleed holes, 105-T slots.

Fig. 2 is a schematic view of the air guide structure of the present invention, for conveniently showing the fitting relation of the air regulator, wherein the 2-air guide, 201- (on the air guide, which is fitted with the regulator) cylindrical surface, 202-air guide air vent, 203-positioning pit.

Fig. 3 is a schematic view of the present invention installed with a gas guide cuff, 1-gas regulator, 2-gas guide cuff, 203-locating recess.

FIG. 4 is a cross-sectional view of the present invention in the bleed position with the air guide mechanism in the energy maximum position. Wherein the 1-gas regulator, the 2-gas guide hoop and the 202-gas guide hoop are provided with vent holes.

FIG. 5 is a cross-sectional view of the present invention in the bleed hole position with the air guide mechanism in the neutral energy position. Wherein the 1-gas regulator, the 2-gas guide hoop, the 104-regulator bleed hole and the 202-gas guide hoop bleed hole. The arrow is the direction of movement of the pyrotechnic gas.

FIG. 6 is a cross-sectional view of the present invention in the bleed hole position with the air guide mechanism in the minimum energy position. Wherein the 1-gas regulator, the 2-gas guide hoop, the 104-regulator bleed hole and the 202-gas guide hoop bleed hole. The arrow is the direction of movement of the pyrotechnic gas.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

The structure of the regulator 1 of this embodiment is shown in fig. 1, where two positioning arms 102 are provided, and positioning protrusions 103 are provided in front of the positioning arms. The thickness of the positioning arm is controlled to have certain elasticity. Two pairs of 4 regulator bleed holes 104 are provided in the regulator. Optimally, the scheme is provided with the T-shaped groove 105 below the regulator, and when the regulator is hotter or the manual force can not finish the regulation, the bottom edge of the cartridge case can be clamped into the T-shaped groove, and the cartridge case is pulled to regulate.

An outer circle 201 is arranged on the air guide hoop 2 and matched with the inner hole 101 of the regulator, one or more air guide hoop air release holes 202 are arranged on the outer circle 201, the diameter of each air release hole is determined by the minimum energy of the air guide mechanism, and the air release holes can be optimally and symmetrically arranged on the left side and the right side of the air guide mechanism. More than 2 positioning pits are provided in front of the air guide for cooperation with positioning protrusions 103 on the regulator, as shown in fig. 2.

After the regulator is in place, as shown in fig. 3, the regulator 1 can be rotated on the air guide hoop 2 about the outer circumferential axis. The pilot hole 202 and the regulator hole 104 are located on a single cross section, and the locating boss 103 is located in a locating recess 203 on the pilot. When the adjuster rotates, the positioning protrusion 103 needs to deform the positioning arm 102 to release from the positioning pit 203, so that the adjuster has certain positioning capability and can not rotate except manual adjustment.

The regulator is provided with bleed holes with different sizes, and for convenience of explanation, the bleed holes are respectively number 1 bleed holes and number 2 bleed holes.

When the regulator is in the position shown in fig. 4, the air guide hoop air release hole 202 is blocked by the regulator, and the mechanism cannot release air, so that all the gunpowder gas introduced by the air guide mechanism is used for pushing the automaton at the moment, and the energy provided by the air guide mechanism is maximum.

When the regulator is in the position shown in fig. 5, the bleed hole 202 of the air guide hoop is aligned with the bleed hole No. 1 on the regulator, and because the diameter 104 of the bleed hole No. 1 on the regulator is smaller than the diameter 202 of the bleed hole on the air guide hoop, the amount of bleed is determined by the bleed hole 104 of the regulator, the amount of bleed is smaller at this time, and a part of gunpowder gas escapes from the bleed hole, at this time, the energy which can be provided by the air guide mechanism is smaller than that in the state of fig. 4.

When the regulator is in the position shown in fig. 6, the bleed hole 202 of the air guide hoop is aligned with the bleed hole No. 1 on the regulator, and because the diameter 104 of the bleed hole No. 1 on the regulator is larger than the diameter 202 of the bleed hole on the air guide hoop, the bleed amount is determined by the bleed hole 202 of the air guide hoop, the bleed amount is maximum at this time, and more gunpowder gas escapes from the bleed hole than in the state of fig. 5, and at this time, the energy which can be provided by the air guide mechanism is smaller than in the state of fig. 5.

The regulator is integrally processed by a material with certain elasticity, such as spring steel or other alloys, and is provided with an inner hole for being matched with the air guide hoop, one or more positioning arms are arranged, protrusions are arranged on the positioning arms for positioning, and more than two pits are arranged at corresponding positions on the air guide hoop and are matched with the protrusions on the positioning arms. One or more air release holes are arranged on the air guide hoop, one or more air release holes are also arranged at the corresponding positions of the regulator, and after the diameters of the air release holes are matched, the energy regulation of the air guide mechanism can be realized through different combinations.

Finally, it is noted that the above-mentioned preferred embodiments are only intended to illustrate rather than limit the invention, and that, although the invention has been described in detail by means of the above-mentioned preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the invention as defined by the appended claims.

Claims (4)

1. The utility model provides a gas adjustment mechanism for air-guide type firearm, includes the air guide hoop of air-guide type firearm, be equipped with a/group air guide hoop bleed hole on the air guide hoop, its characterized in that:

the air guide device comprises an air guide hoop, and is characterized by further comprising an adjuster, wherein the air guide hoop is provided with an inner hole, the air guide hoop air discharging holes are positioned on the outer circle, the adjuster is in clearance fit on the outer circle of the air guide hoop through the inner hole and is axially positioned on the air guide hoop, the adjuster is provided with a plurality of/a group of adjuster air discharging holes with different apertures, wherein the aperture of one/a group of adjuster air discharging holes is larger than or equal to the aperture of the air guide hoop air discharging holes, the aperture of the other adjuster air discharging holes is smaller than the aperture of the air guide hoop air discharging holes, the end part of the adjuster is provided with a positioning arm, the end part of the positioning arm is provided with an elastic positioning protrusion, a plurality of/a group of positioning pits are arranged on the air guide hoop corresponding to the elastic positioning protrusion, and the elastic positioning protrusion is used for being matched with the positioning pits under the action of elasticity to limit the circumferential position of the adjuster, so that the air guide hoop holes are opposite to one of the adjuster air discharging holes to form different air discharging speeds;

the T-shaped groove is arranged below the regulator and is used for being matched and fixed with the bottom edge of the cartridge case, and the regulator is rotated by pulling the cartridge case.

2. A gas regulating mechanism for a gas-guided firearm as set forth in claim 1, wherein: the regulator is made of elastic materials, so that the positioning arm has elasticity, and the bulge at the end part of the positioning arm forms an elastic positioning bulge.

3. A gas regulating mechanism for a gas-guided firearm as set forth in claim 1, wherein: the air guide hoops are symmetrically arranged in the air vent holes.

4. A gas regulating mechanism for a gas-guided firearm as set forth in claim 1, wherein: two positioning arms are symmetrically arranged at the end part of the regulator.

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