DE2953643C1 - Electric trigger device for firearms - Google Patents

Description

When the withdrawal force of the mechanical switch, its to close required force can be adhered to very precisely by the manufacturer and a has high return accuracy, for example set to a value of 1.5 daN is, this pull-off force can be maintained to within a few cN.

An embodiment of the invention is described with reference to the drawing. It shows F i g. 1 the electronic circuit of a release device, FIG. 2 a cross section through a mechanical switch, F i g. 3 a simplified Longitudinal section through the entire release device.

In Fig. list the entire electronic circuit on terminals 1, 2 connected to a voltage source 3, formed by a battery of 15V is. The circuit contains resistors 6, 10, 12, 13, 17 and 18, capacitors 7,8 and 14, a transistor 5, a diode 16, one formed by a thyristor electronic switch 11 and an electromagnet 9. The transistor 5 can after each shot is only released with a time delay in the switched-through state being controlled. If the transistor 5 is conductive, it charges the capacitor 8. the The ignition voltage required for the ignition of the electronic switch 11 is only then present on the capacitor 14 when the capacitor 8 is on a flawless Excitation of the electromagnet 9 sufficient voltage value is charged. The circuit contains a mechanical switch 15. If this is activated when the in F i g. 3 is closed, the electronic switch 11 switched through, the capacitor 8 discharges through the coil of the electromagnet 9, and the armature 91 of the electromagnet 9 actuates a release pawl. The electronic Circuit is arranged on a printed circuit board of 50 mm x 18 mm, which is after the The drawer principle is used in the trigger housing.

In FIG. 2 the mechanical switch 15 is shown. This Switch is mounted on a printed circuit board 23 of the electronic circuit. That Switch housing 24 is through a plate-shaped contact plate 25, which is a bolt-shaped has protruding part, the free end of which is passed through the conductor slot 23 and was flanged there, attached to the circuit board itself. The plate contact is circular in the example and consists of an electrically conductive material, such as brass or an alloy of copper or silver or a Gold alloy. On the surface of the plate-shaped contact 25 is an insulating ring 26 arranged, which consists of a plastic film with a maximum thickness of 35 micrometers. It can e.g. B. under the names "Tryafol" or "Mylafol" (registered trademarks) available material must be used. With a diameter of z. B. 8 mm of the plate contact 25, the ring 26 has an inner opening with a diameter of approximately 4 to 6 mm and an outer diameter of also 8 mm. The variation in the diameter of the Inner opening affects the trigger force for the shot. At the plate contact 25 facing away from the side of the insulating ring 26, a leaf spring 27 is arranged which forms the other contact of the mechanical switch 15. It is essentially circular disk-shaped with a diameter of 8 mm and has a connection lug 27 ', which protrudes through a slot in the housing 24 to the outside and with a conductor run the circuit board 23 is soldered. The leaf spring 27 consists of a material with a high modulus of elasticity, such as B. spring-hard tin bronze and is in the example 0.1mm thick. A housing cover 29 pushed into the housing 24 lies with a Annular surface on the leaf spring 27 and clamps the insulating ring 26 between the Contact plate 25 and the leaf spring 27 a.

In the housing cover 29 is a switch 15 in the axial direction Pin 30 slidably guided through the housing cover 29 with a Section protrudes to the outside and a section within the housing cover 29 has a larger diameter, so that it is captively connected to the switch 15 is. The outwardly protruding free end of the pin 30 is supported by one shown in FIG. 3 transmission pawl 36 shown actuated. The other end of the pin 30 points a convex surface 32. The radius of this surface 32 is approximately 4 mm. If now the pin 30 by pressing the trigger in the direction of the leaf spring 27 is moved, the convex surface 32 touches the leaf spring 27 at a point, and with further movement, the leaf spring 27 is in the direction of the surface of the Contact plate 25 bent. When the leaf spring 27 and the contact plate Touch 25, the switch 15 is closed and the shot is fired, like already in connection with FIG. 1 was described.

The surface 32 can also be produced with a different radius. The ratio between this radius and the diameter of the opening of the insulating ring 26 should be chosen so that the radius of the convex surface 32 is smaller than the radius of deflection of the leaf spring 27 in the direction of the surface of the Contact plate 25. The pin 30 is expediently made of electrically insulating, non-resilient material. The thickness of the ring 26 and the leaf spring 27 is shown in FIG i g. 2 shown greatly exaggerated for the sake of clarity In FIG. 3 is the entire device shown in section. A trigger tongue 31 used by the shooter when actuating the release device in the illustration of FIG. 3 to the right is moved, is attached to a trigger rod 32, which by means of a bearing bore 36 is pivotably mounted in a trigger housing 50. When pulling the trigger 31 strikes a screw 38 arranged at the rear end of the trigger rod 32 the free end 39 of a pivotably mounted by means of a bearing bore 42, as one-armed lever trained transmission pawl 40, which approximately with its middle Area on pin 30 of switch 15 presses. Through the in the lower part of the F i g. 3 visible adjusting screws 38,45,52 and 53 and springs 44, 53 can be of the Advance travel, the pull-in force and the pull-off force can be set. The pull-off force can be changed within wide limits, for example between a few cN and 1.5 daN.

In FIG. 3 is the electronic circuit of which only the circuit board 23, the capacitor 8 and the mechanical switch 15 are shown are, like a drawer in a manner not shown in the trigger housing 50 entered. The mechanical switch is below the circuit board 23. The Electromagnet 9 is connected to the electronic circuit with a plug connection. When the electromagnet 9 is excited, the armature 91 in FIG. 3 moved to the right and strikes the lower end of a release pawl 60 which has a retaining lever 70 releases, which releases the actual shooting process by lowering a nose 75.

The trigger device is for all handguns on the sport, Hunting, air pressure and crossbow sectors can be used. The mechanical part of the whole System must be adapted to the spatial dimensions of the weapon in question. That System can be used for new weapons and can also be easily installed in already existing weapons suitable. Upon request, pull-off forces higher than mentioned above be generated. This is done in the mechanical switch Another insulating ring is provided and / or the surface 32 of the pin 30 is given one other form.

In the exemplary embodiment, the ring 26 made of plastic film is unloaded Condition is 35 µm in thickness.

The film compresses a little under load, for example up to 15 µm. The one required to close the mechanical switch 15 on pin 30 Depending on the design of the switch 15, the force is expediently in a range of about 200 to 900 cN.

Claims (6)

Claims: 1. Electrical triggering device for firearms with a mechanical switch coupled to the trigger, which has a first (25) and a second contact (27) designed as a leaf spring. has, which are closely adjacent to one another at rest, with an actuator coupled to the trigger, the second contact against the first Contact can be pressed, insulating material is provided between the contacts and the second contact (27) is supported at a distance from the actuator, thereby characterized in that the actuating member is opposite to the second contact (27) movable pin (30), and that the support is made of an insulating film produced ring (26), which between the first (25) and the second (27) Contact is arranged and on which the two contacts rest in the idle state. 2. Apparatus according to claim 1, characterized in that the pin (30) on its second contact (2) adjacent area is rounded. 3. Apparatus according to claim 2, characterized in that the radius of curvature the rounding of the pin (30) is smaller than the radius of curvature by the Pin in the second contact (27) caused deformation. 4. Device according to one of the preceding claims, characterized in that that the film has a thickness of about 15 to 33 µm. 5. Device according to one of the preceding claims, characterized in that that several mechanical switches (15) are provided with different release forces are, which can optionally be used in the device. 6. Device according to one of the preceding claims, characterized in that that the mechanical switch is arranged on a printed circuit that Has plug contacts for insertion into the release device. The invention relates to an electrical triggering device for firearms with a mechanical switch coupled to the trigger, which has a first and has a second contact designed as a leaf spring, which in the idle state are closely spaced, with an actuator coupled to the trigger the second contact is pressable against the first contact, between the contacts Insulating material is provided and the second contact at a distance from the actuator is supported. In such a switch known from DE-OS 24 04 053 acts the actuating member on a contact spring, which is only clamped at one end is, so that the end of the spring facing away from the restraint, on which the actual Contact point is located, bends most when the switch is operated. Included the bending process takes place in a single plane. To a defined release force To reach the switch, an adjustment must be made in any case. This adjustment tends to change over time. The invention is based on the object of providing a direction of the entrance to create the type described, which allows a desired operating force set by the choice of the components of the switch sufficiently precisely so that no adjustment means are arranged on the switch to determine this actuation force if not a constant adjustment over a certain range is required. This object is achieved according to the invention in that the actuating member is a relative to the second contact movable pin, and that the support has a ring made of loose material film, which is between the first and the second contact is arranged and on which the two contacts in the idle state issue. In the invention, the leaf spring is therefore when the contact is closed not moved as a whole against the first contact, but rather it is moved by the pin the leaf spring is elastically deformed in the area of the point of impact of the pin or bulged, causing the switch to close. The advantage lies in the fact that there is a short way for the pin to close the switch can be easily realized and that nevertheless the switch against an unintentional Closing, for example as a result of vibrations, has a high level of security. In addition, the force that is required to close the switch can through the elastic properties of the leaf spring and the type of support of the Leaf spring are influenced. The thickness of the film and the Inside diameter of the ring the force required to close the switch in wide limits can be chosen. It can be advantageous to keep the pin in its second contact round off the adjacent area. It can be advantageous to use the radius of curvature on the pin smaller than the radius of curvature of the pin on the second Deformation caused by contact. The film is about 15 to 33 µm in one embodiment of the invention thick. This results in extremely short paths for the pin to close the switch, and this enables the release device in terms of preferred length, preferred force and to make the release force very versatile. In one embodiment of the invention there are multiple mechanical switches provided with different release force, which can optionally be used in the device can be used. For this purpose, the mechanical switch can preferably be printed on a Be arranged circuit having plug contacts with which they in the triggering device can be inserted. The advantage here is that the different Release forces can be chosen so that there is a change in the pull-off force Transition between different shooting sports is only required Replace mechanical switch without making any other changes to the release mechanism without changing the tension of any springs. Through this the transition between different trigger forces can be done very quickly by the shooter can be made, and it is not necessary to use the pull-off force a spring balance and, if necessary, still to be adjusted.