RU173473U1 - VALVE - Google Patents

Abstract

The invention relates to the design of valves used in semi-automatic pneumatic actuators for airsoft games. The objective of the utility model is to increase the effectiveness of the game of airsoft by increasing the number of shots that can be realized with one cycle of operation of the valve for airsoft. The technical result is achieved by using a valve containing a housing, inside which a rod is installed, which is inserted into a threaded nut with a sealing ring, a channel for discharging gas into the atmosphere located between the rod and the threaded nut, a bumper located on the rod, a threaded tee with a channel and a sealing a ring located above the rod, a gas supply channel, a gas movement channel.

Description

The invention relates to the design of valves used in semi-automatic pneumatic actuators for airsoft games.

The airsoft game time is determined by the time during which the weapon can be without recharging. The effectiveness of airsoft games in this case depends, inter alia, on the number of shots that a player can fire within the allotted time.

Nowadays, electro-pneumatic actuators for playing airsoft with a valve that works when interacting with a system of gears rotating from an electric motor are widespread. Power in this case is provided by batteries or accumulators (for example, http://airsoftsports.ru/catalog/brand/tokyo-marui/ - products of Tokyo Marui, RF patent No. 1188734, July 27, 2012).

The disadvantages of such designs is the need for increased flow of incoming compressed gas to organize the interaction of the electric and pneumatic parts of the weapon, which increases the valve response time with each shot, which as a result does not allow for a sufficient number of shots per game cycle and reduces its effectiveness. In addition, the response time may further increase at low temperatures due to the increased sensitivity of the entire device to environmental conditions.

Also common for playing airsoft is the use of actuators with mechanical (pneumatic) type valves. However, the common disadvantages of the known analogues is the length of the channels for the passage of gas, which increases its flow rate and also helps to increase the valve response time.

A known valve design of the pneumatic paintball marker SP ION 2005 (http://pikabu.ru/story/peyntbolnyiy_marker_423771), adopted as the closest analogue to the claimed solution, comprising a housing in which a piston rod having sealing inserts, a tee with channels and sealing inserts, a coupling bolt with a channel sealing inserts, located closer to the edge of the valve, gas supply channel.

The channel system of the specified valve is constructed in such a way that the incoming compressed gas passes through the channels located in each structural element, which complicates the design and increases the gas flow and time for the system to operate. When operating the valve, three hoses are required for supplying and discharging air, which leads to an additional increase in the length of the channels and an increase in the valve response time.

The objective of the utility model is to increase the effectiveness of the game of airsoft by increasing the number of shots that can be realized with one cycle of operation of the valve for airsoft.

The technical result of the utility model is to reduce the gas flow for the implementation of the shot when playing airsoft by reducing the length of the gas passage channels and valve response time.

The technical result is achieved by using a valve containing a housing, inside which a rod is installed, which is inserted into a threaded nut with a sealing ring, a channel for discharging gas into the atmosphere located between the rod and the threaded nut, a bumper located on the rod, a threaded tee with a channel and a sealing a ring located above the rod, a gas supply channel, a gas movement channel.

In the presence of a threaded tee with a channel, it is not necessary to use a coupling bolt with channels, which was a separate structural element of the closest analogue, which reduces the dimensions of the claimed design, the number and length of channels for gas passage, and also provides the ability to adjust the valve response time. The channel system in the structural elements allows you to use only two hoses for the valve to work instead of three according to the closest analogue, which also helps to reduce the length of the channels for gas passage. The presence of o-rings and a bumper ensures tightness of the structure to avoid uncontrolled gas leakage, which contributes to its more economical consumption.

According to the figure, the valve comprises a housing 1, inside which a rod 2 is installed, inserted into a threaded nut 3 with a sealing ring 4, a channel for discharging gas into the atmosphere 5, located between the rod 2 and the threaded nut 3, a bumper 6, located on the rod 2, a threaded tee 7 with a channel 8 and a sealing ring 9 located above the rod 2, a gas supply channel 10, a gas movement channel 11.

The valve body 1 is made of metal, for example, from aluminum D16T.

The sealing rings 4, 9 and the bumper 6 can be made, for example, of rubber, polyurethane.

The design of the valve does not involve the use of a battery, which makes it autonomous.

In the initial position, the rod 2 is in a free state. When compressed gas enters the gas supply channel 10, it simultaneously passes through the gas movement channels 11 and the channel 8 of the threaded tee 7. In these channels, a pressure appears that acts on the rod 2, which, in turn, seals the channel to discharge gas into the atmosphere 5 by means of a sealing ring 4. When the rod 2 is pressed, the bumper 6 seals the threaded tee 7 and blocks the gas passage through its channel 8. In this case, the compressed gas from the gas movement channel 11 is discharged into the atmosphere through the channel 5.

For the operation of this valve, compressed gas (compressed air or nitrogen) is used, which is also an advantage over valve designs that use carbon dioxide, which destroys elements of analog devices.

The inventive valve design allows in the event of failure of one of the elements to replace only this element without replacing the whole functional unit, which it is part of, which is an advantage.

Sealing the valve by means of sealing inserts made of polyurethane, which are always inside it, allows to ensure reliable operation of the valve at positive and negative ambient temperatures, also in high humidity conditions, which is another advantage of the claimed design.

Claims (1)

Valve, characterized in that it contains a housing inside which a rod is installed, which is inserted into a threaded nut with a sealing ring, a channel for discharging gas into the atmosphere located between the rod and the threaded nut, a bumper located on the rod, a threaded tee with a channel and a sealing ring located above the rod, gas supply channel, gas movement channel.

Images