RU184755U1 - Device for adjusting optical instruments - Google Patents

Abstract

The utility model relates to the field of optoelectronic instrumentation. The device for aligning optical devices comprises a bracket for mounting the optical channel located in the device body and quotation screws installed in the device body in contact with the bracket, a hole is made in the wall of the bracket around which a protrusion is made, in the cavity of which a hollow volumetric elastic element of rubber-like material, and on the wall of the housing of the device made a protrusion at an indirect angle in two mutually perpendicular planes, while the hollow elastic element the cop together with the bracket is worn on the protrusion of the device body without the possibility of rotation and is fixed on it with a fastening element. The technical result consists in reducing the complexity of manufacturing the device, reducing its weight and dimensions and in expanding the possibilities of placing the device in the device. 4 s.p. f-ly, 3 ill.

Description

The utility model relates to the field of optoelectronic instrumentation and can be used in devices containing one or more optical channels, in which it is required to tilt and hold the optical channels in a certain position during setup or operation, for example, to align the optical axis of the device relative to the aiming axis small arms.

A device for aligning a laser simulator of shooting small arms set 9F838, manufactured by JSC "Oil Refinery", Novosibirsk (Set 9F838. Operation manual AL2.890.019 RE, 2015, p. 25, 62). In the case of the simulator, mounted on the barrel of the weapon, there are three optically unconnected emitting channels. To coordinate the optical axes of the emitter’s radiating channels with respect to the aiming axis of the small arms, the entire simulator’s body with radiating channels is tilted in two planes with screws. The housing is kept from being knocked down when firing blank cartridges using one flat steel spring and two coil springs.

The disadvantage of this design is the large mass of the device, which provides an inclination of the entire device body with radiating channels due to the presence of powerful steel springs and fastening elements of these springs.

A device for aligning optical devices according to the patent of the Russian Federation No. 2279109, IPC G02B 7/00. The device comprises an inner and outer case, quotation screws with heads installed in the outer case, and springs, which are fixed at one end to the inner case, and their other ends are fixed at the outer case. The front side of the inner case is connected in a vertical line with the front side of the outer case by means of a flat spring made in the form of a plate, the plane of which is perpendicular to the longitudinal horizontal axis of the optical device, while the rear parts of the side surfaces of the inner case are flat and quotation, are located at an angle to each other, so that the apex of the corner faces the outer casing and is on a vertical line, in turn, the quote screws rest their ends in quotes Meth surface through flat washers and mounted perpendicularly quotation surfaces, wherein each end of quotation screws is designed as a ball pin whose diameter is larger than the diameter hole washer.

An optical channel is located in the inner case, which, when aligning the device, is tilted with respect to the outer case (the case of the device).

The disadvantage of this device is:

1. A large number of metal parts, which leads to an increase in mass and the complexity of manufacturing the device.

2. The complexity of the layout of the devices due to the structural restrictions on the ratio of the angle between the quotation surfaces to prevent jamming of the inner case between the quotation screws.

The technical problem is to obtain the following technical results: reducing the complexity of manufacturing the device for alignment, reducing its weight and dimensions and expanding the possibilities of placing the device in the device.

The specified technical results are achieved as follows. The device for aligning optical devices, as well as the prototype, contains a bracket (in the prototype — an internal case) for attaching the optical channel and quotation screws installed in the device’s body in two mutually perpendicular planes in contact with the bracket. Unlike the prototype, the device has the following: a hole is made in the wall of the bracket around which a protrusion is made, in the cavity of which a hollow volumetric elastic element made of rubber-like material is rotated; a protrusion is made in the wall of the device’s body at an indirect angle in two mutually perpendicular planes, while the hollow elastic element, together with the bracket, is put on the protrusion of the device’s body without the possibility of rotation and is fixed on it with a fastening element.

The elastic support can be made of rubber-like materials having the necessary hardness depending on the operating conditions, for example, polyurethane, silicone and other materials. Elastic polyurethane VytaFlex60 (PSR 0360) has a hardness of 60 according to Shore-A, frost resistance up to minus 40 ° С, heat resistance up to 60 ° С.

The protrusion on the wall of the bracket can be performed inside the bracket or from its outer side. The protrusion on the wall of the housing of the device is performed at an indirect angle to the wall in two mutually perpendicular planes to ensure that the bracket is pressed against the quotation screws. The magnitude of the angles depends on the range of movement of the bracket and the distance from the center of the hollow elastic element to the quotation screws and can practically range from 84 to 89 angular degrees. The protrusion shape of the housing of the device and the inner landing surface of the elastic element may have a rectangular, oval or other non-circular shape.

The outer surface of the landing elastic element may have a cylindrical shape with one flat or more, and the inner landing surface of the protrusion of the bracket may have a cylindrical shape with corresponding areas under the flats, in addition, they may also have a rectangular or other shape. These surfaces in shape and size are selected so as to exclude the possibility of turning the elastic element relative to the protrusion of the device body and the protrusion of the bracket.

Adjustment screws are equipped with position locks if necessary. The hollow elastic element is fixed to the protrusion of the device case, for example, with a screw with a washer or nut.

An example of a specific implementation of the device shown in the drawings.

In FIG. 1 shows a general view of an optical device with two optical channels and with an integrated device for aligning the device, FIG. 2 is a section AA, in FIG. 3 section BB.

In the drawings, the numbers indicate: the mechanism for attaching the body to the barrel of the weapon 1, the adjustment screws 2, the body 3, the tabs 4, 5, the hole 6, the elastic element 7, the bracket 8, the washer 9, the screw 10, the protective glasses 11, the optical channels 12.

The device for aligning optical devices comprises a bracket 8 located in the device body 3, with which two quotation screws 2 in the form of translational adjustment screws passing through the housing 3 are in contact in two mutually perpendicular planes on both sides.

An opening 6 is made in the wall of the bracket 8, around which a protrusion 4 is made at a distance from it into the bracket 8, forming a cavity. In the cavity of the protrusion 4 of the bracket 8 is placed a hollow elastic element 7 of polyurethane in the form of an inverted glass. The outer landing surface of the elastic element 7 and the inner landing surface of the protrusion 4 of the bracket 8 are cylindrical with two flats and platforms for such flats and sizes corresponding to each other, which excludes the turning of the elastic element 7 during the translational movement of the quote screws 2 and the rotation of the bracket 8.

A protrusion 5 is made in the housing 3 of the device at angles a and b to its wall in two mutually perpendicular planes. The magnitude of the angles a and b depends on the range of movement of the bracket 8 and the distance from the center of the hollow elastic element 7 to the quotation screws 2 and is 87 and 86.5 angular degrees, respectively.

The elastic element 7, fixed in the protrusion 4 of the bracket 8, together with the bracket 8, is put on the protrusion 5 of the housing 3 through the hole 6 and fixed on it by the screw 10 with the washer 9. The protrusion 5 of the housing 3 and the inner seating surface of the elastic element 7 are rectangular in shape and correspond to each other dimensions, which also exclude the possibility of turning the elastic element 7 on the protrusion 5 of the housing 3.

On the bracket 8 are fixed two optically unconnected matched optical channels 12 (radiating channels). In the housing 3 there are windows for the passage of optical radiation with protective glasses 11.

The device operates as follows. To coordinate the optical axes of the device relative to the aiming axis of small arms, the operator, using the mechanism 1 for attaching the housing to the barrel of the weapon, fixes the device on the barrel of the weapon or on another seat, for example, on a guide bar. Observes the target position through the standard sight mounted on the weapon (not shown in the drawings), the position of the center of the radiation spot of one of the optical channels 12. If the center of the radiation spot does not coincide with the aiming point on the target, the direction of the optical axes of the optical channels 12 of the device is changed using case 3 of the device is a device for aligning optical devices. To this end, by rotating the corresponding quotation screws 2, the bracket 8 is moved in two mutually perpendicular directions relative to the housing 3.

The optical channels 12 are inclined together with the bracket 8 relative to the housing 3, which is rigidly connected through the mounting mechanism 1 with a regular sight, and this inclination compensates for the mismatch of the center of the radiation spot with the aiming point on the target. The elastic element 7, being the axis of rotation of the bracket 8, constantly presses the bracket 8 against the quotation screws 2 due to the initial inclination to the wall of the housing 3 and its internal elasticity and provides a power circuit between them and the bracket 8.

The overall dimensions of the protective glasses 11 on the housing 3 are performed taking into account the maximum inclination of the bracket 8 to avoid "killing" the radiation of the optical channels 12.

The proposed device for aligning optical devices can be used in devices with one or more emitting and receiving channels. The device does not contain complex metal parts (various springs, ball trunnions) and is not laborious to assemble, has small dimensions and weight, and allows its elements to be rationally and compactly placed when arranging the optical device.

Verification of the proposed device was carried out on experimental samples of an optical device - a laser firing simulator. The bracket with two radiating channels is fixed in the simulator case using a three-dimensional elastic element made of polyurethane. The tests showed the convenience of alignment and stable retention of the optical channels in the desired position while matching the optical axis of the simulator relative to the aiming axis of small arms.

Thus, in comparison with the prototype, the proposed utility model allows to reduce the complexity of manufacturing a device for aligning optical devices, to reduce its weight and dimensions, and also allows you to place the device in the device, taking into account the ergonomic requirements for the operation of devices with firearms.

Claims (5)

1. A device for aligning optical devices, comprising a bracket for mounting the optical channel located in the device body and installed in the device body quotation screws in contact with the bracket, characterized in that a hole is made in the wall of the bracket around which a protrusion is made in the cavity of which is placed the possibility of turning a hollow volumetric elastic element of rubber-like material, and on the wall of the housing of the device a protrusion is made at an indirect angle in two mutually perpendicular planes, while the hollow elastic element together with the bracket is worn on the protrusion of the device body without the possibility of rotation and is fixed on it with a fastener. 2. The device according to claim 1, characterized in that polyurethane is used as a rubber-like material. 3. The device according to p. 1, characterized in that the protrusion on the wall of the bracket is made inside the bracket. 4. The device according to p. 1, characterized in that the protrusion of the housing of the device and the inner landing surface of the elastic element have a rectangular shape. 5. The device according to p. 1, characterized in that the outer landing surface of the elastic element has a cylindrical shape with flats, and the inner landing surface of the protrusion of the bracket has a cylindrical shape with corresponding areas under the flats.

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