NO116750B - - Google Patents

Description

Simulator for simulating fire from firearms.

The invention relates to a simulator for imitating firing

of weapons, preferably for simulating the firing of a small caliber automatic weapon, the device comprising a gas chamber with a gas pressure source and with an outlet as well as a reciprocating valve that cooperates with the outlet, which valve is moved to and from a position in which the chamber is placed in connection with the outlet to release pressurized gas and thereby form an iydstbt.

In the case of automatic fire, especially from small-caliber weapons, vj-1 the individual shots follow very closely one after the other, so that so-called serial bursts occur. Foot: to get as realistic an imitation as possible of such firing, the valve device must be able to change very quickly between closed and open position, and especially then move very quickly in the opening direction, as the speed with which the compressed gas is released and thereby the strength of the sound, will be directly dependent on the valve's movement speed in the opening direction.

The main purpose of the invention is to provide a shooting simulator which can provide a realistic imitation of outbreaks of fire,

. series

According to the invention, this is achieved by the valve being releasable in the opening ring and reversible. to the closed position with the help of a motor-driven rotating disk etc., on which there is a largely circular path continuous around the axis of rotation of the disk which, in cooperation with a movement transmission device connected to the valve, keeps the valve in the closed position, which path reaches m .;nst a step which forms another interruption in this and the disc's rotation momentarily releases the valve, and at least one return surface which successively transitions into the path and. when the disk rotates, the valve returns to the closed position.

The invention shall be described in more detail below with reference to the drawing. Fig. 1 schematically shows a shooting simulator according to the invention provided, with a movable valve shown in reverse, position in an outlet which is located around the valve device. Fig. 2 is an enlarged cross-section of the valve and outlet shown in Fig. 1.

In the drawing, 1 is a gas chamber which, through a channel 2, is connected to a compressed gas source k with a valve 3. In addition to the valve <, the channel 2 can be opened or closed using a magnetic valve J which is inserted in the channel and controlled electrically .

From the channel 2 at a place between the solenoid valve 5 and the gas chamber 1, a channel 6 leads to a compressed gas driven motor / which over a shaft 8 drives a rotatable disk 9, the periphery of which forms an essentially circular path with a step-shaped part lo, where the path first bends abruptly off and running almost radially a little inwards towards the center of the disc, then again bowing off and obliquely outwards and

over in the circular path. Kn throttle device 11 is inserted in channel 6 and serves to adapt the gas pressure to one suitable value for the engine "]. From the connection channel. somewhere between the pressure gas source k and the solenoid valve 5, another channel 12' extends to a chamber 13 as of a diaphragm lh is gas-tightly divided into two rooms. The connection between the compressed gas source h and the chamber 13 can be opened and closed, in addition to the valve 3, also by a two-way, electrically controlled solenoid valve 15 placed in the channel 12 and connected to an outlet channel 16. The solenoid valves 5 and 15 are controlled by an electric relay 18 connected to an electric current source 17, the two-way valve 15 being arranged so that it works in accordance with the pressure in the gas chamber 1 which is registered by a pressure sensitive relay 19.

The gas chamber 1 has in one wall an outlet opening 2o provided by two concentric bores 21 and 22 of different dimensions, the smaller bore 21 being closest to the chamber 1.

In the bore 21, a valve 23 is slidably arranged there

of a piston 2h which interacts with the larger bore 22 and a piston rod 25 which protrudes through a part 23a with a smaller diameter than the bore 21, so that the piston will have a pressure area: which will cause the gas pressure acting on the valve arrangement to shift this in the opening direction. Close to the stamp 2k is ; the piston rod provided with s.tyre ribs 26 which cooperate with the ^smaller bore 21- and also gears. steering fftr the valve rod 23. The stem-jpelet, 2h latches in the closed position against one end surface 27 situated between the bores 21 and 22. and is in it at the inner end in fomold to the !chamber fcrsynted with a conical surface 2$ which extends around I s,temple's yomcircle. In the part of the piston rod 25 that protrudes

out past the chamber there is a slot 29 with a comb 3o. The gap receives one end of an arm for a motion-transmitting device 32 which is rotatably mounted on the shaft 31 carried by the chamber, and comprises a roller 33 mounted on the other end of the arm, which roller is kept in contact with the path of the rotating t disk 9 by means of a tension spring 3_if which acts between the arm .'and a fixed part of the simulator. The transfer device 32 is anj

arranged so that it is blocked by a locking mechanism 35 consisting of a locking bolt 36 attached to a diaphragm 1<*>+ and a compression spring 37 which acts between the diaphragm and the wall of the chamber. ;The effect of the simulator will now be described. When the valve 3 on the compressed gas source is opened, compressed gas will flow through the connecting channel 2 to the solenoid valve 5 and through the channel 12 to the open two-way valve 15 into the chamber 13. Thereby, the diaphragm lh will be pressurized so that the force of the compression spring is overcome and the locking bolt 36 is pressed off the diaphragm ll+ to abut against the transfer device 32. This device will act over the cam 3° on the movable valve device 235 so that the piston 2h is held in a closed position in the outlet. The simulator is started by closing the electrical circuit through relay 18, whereby the solenoid valve 5 is opened and pressurized gas flows through the connection channel 2 into the gas chamber 1 and also through the line 6 into the motor 7> which is started and turns the part 9. The pressure in the chamber 1 acts on the pressure sensitive relay 19, so that this is closed when the predetermined pressure at which the desired detonation is to take place is achieved. The closing action of the relay causes the solenoid valve 15 to shut off the pressurized gas supply from the source h, and at the same time the outlet channel 16 is opened so that the pressurized gas in the chamber 13 flows out. When the gas pressure in the chamber 13 is reduced, the spring 37 acts on the diaphragm lh. and moves the locking bolt 36 away from abutment against the transfer device 32. When the steep surface in the step lo by turning the disc 9 passes the roller 33, the transfer device 32 is momentarily swung around the shaft 31 under the action of the tension spring 31*, and the device" against the cam 30 on the valve device ceases, so that the latter very quickly accelerates towards the open position, by the action of the gas pressure in the chamber. When the piston 2h moves away from the outlet 2o, the pressurized gas immediately passes the conical part of the piston and out through the outlet, thereby forming a In the opening position of the piston, good contact is made between the cam 3° for the valve device 23 and the transmission device 32. The rotatable disk 9 guides by continued rotation over the inclined surface in the step lo the roller 33 back to the sir-j

cular path, and thereby via the transmission 32 the valve device 23 to the closed position.

;Due to the pressure drop in the gas chamber 1, the pressure-controlled relay 19 will have broken the electrical connection to the two-way valve 15, which again opens the channel 12 and at the same time closes the outlet channel 16. The diaphragm will thus again be loaded by the gas pressure, and

the locking bolt 36 is pressed against the transfer device 32, so that the piston 2h is locked in the closed position in the outlet 2o. The rising pressure in the gas chamber again acts on the pressure-controlled relay 19, and the entire cycle described above repeats itself continuously until the simulator is stopped by breaking the electrical circuit using the relay 18.

Claims (1)

1. Simulator for simulating the firing of a weapon, preferably for simulating the firing of a small caliber automatic weapon, the device comprising a gas chamber with a gas pressure source and with an outlet as well as a reciprocating valve where cooperates with the outlet, which valve is moved to and from a position in which the chamber is placed in connection with the outlet to release pressurized gas and thereby form a sound barrier, characterized by the fact that the valve (23) is removable in the opening direction and returnable to closed position by means of a motor-driven rotating disk (9) etc. on which there is one about ; the axis of rotation of the disk continuing largely circular path as ; over a'| in cooperation with a movement control connected to the valve; fbringsofgan (32), keeps the valve in a closed position, which in its path has at least one step (lo) which forms another interruption in this jog when the disk rotates, momentarily releasing the valve; and at least one I I return fiat that successively runs! across the pitch and by ski- ! ven's rotation brings the valve back to the tji.1 closed position. j I 2. Simulator as specified in claim 1, characterized in that the simulator has one of the gas pressure in the gas chamber (1) in an affectable barrier (13, 15, 19, 35) as in the case of gas pressure below a certain level, the motion transmission member (32) keeps the said step (lo) locked against release in the opening direction.