DE1815518C - Mounting of the reversing system in a telescopic sight for firearms - Google Patents

Description

1 2

The invention relates to a holder of the reversing cross holder not with simple means in Lüng & -

systems in a telescopic sight for firearms can be made adjustable with direction. Consequently

a reversing system tube, which by means of a could with the relevant VorverötTerung none

Give a snug fit on the Fornrohrkörper adjacent annular stimulus in the direction of the invention.

Extension pivotable on all sides in the telescope body 5 Some exemplary embodiments of the invention are

is mounted, and a spring that describes the tube radially below with reference to the drawing,

against adjustment attached to the telescope body It shows

screws pushes. F i g. 1 a longitudinal section through part of a,

In rifle scopes for firearms, namely so- rifle scope of known type with the orfindungs- j

probably those with a fixed, as well as with a variable reversing system support according to an er,

Magnification, inverting lens systems are the most exemplary embodiment,

that sit in an inverted system tube. F i g. 2 to 4 cross-sections along lines 2-2, 3-3 The inverting system tube is usually represented by one of and 4-4 in FIG. 1, j ringför- F i g with a snug fit on the telescope body. 5 a perspective view of the migen extension pivoted on all sides in the telescope pressure and retaining spring 15 according to this embodiment body and is radially counter-shaped by a spring,

Adjusting screws attached to the telescope body FIG. 6 shows a partial section of a telescope according to I. FIG

printed. This means that the setting of the reverse is another embodiment of the retaining spring,

systems in this way possible in the lateral and vertical directions, F i g. 7 shows a partial section similar to FIG. 6 with a

that in every position play and dead gear avoided ao further AusfUhrungsform the retaining spring and j

will. F i g. 8 is a view taken along line 8-8 of FIG. 7 y

In a known holder of this type is for in the direction of the outer wall of the telescope body.
Securing the reversing system against unintentional In F i g. 1, a part of a conventional long-distance longitudinal displacement is provided, a threaded pin which is firmly connected to the telescope tube body 10 in its central region of the illustration body. It is assumed that at the right end of the peg-shaped end an objective must be fitted carefully into a corresponding telescope body and an eyepiece must be attached to the left end of the hole in the erecting system barrel of the telescope body. Due to this fixed lengthwise connection, none of these imaging systems is shown in the drawing, as the installation and parallax adjustment of the remote are shown, as their attachment and general design as well as other optical adjustment processes are relatively well known.
Complicated and in some telescope constructions require an offset of the pin in the longitudinal direction in the interior of the telescope body in relation to the 10. An adjustment of the smaller diameter than the inner diameter of the inversion system in the longitudinal direction of the telescope is telescope body 10 and with a conical or otherwise extremely complicated in this arrangement, 35 enlarged part 12 at its rear, ie left end, since it requires the entire telescope to be dismantled. The maximum dimension of part 12 is chosen so that the pin or its retaining bushing is selected so that it has an outer diameter at its end that allows a snug fit in the distance.

The object of the invention is to guide this known shark tube body 10 so that a circular 13

improvement in such a way that no special 40 designated support point is created around which the

Cones »1 imvedHssijje.i T-. Reduction of the reverse holding tube when the relevant

systems in the longitudinal direction is required and that the opposite end of tube 11 can rotate,

also an easy adjustability of the reversal As can be seen, the tube 11 can be with this

systems is made possible in the longitudinal direction. Arrangement in the longitudinal direction in the telescope body

For this purpose, according to the invention, the so- 45 10 is shifted without losing its stock position.

why to radial pressing the reversing system loses connection with this.

The spring required for the adjusting screws. Several lenses 14 are attached to the tube 11,

drawn, in such a way that the spring on the one hand at 15, 16 with corresponding air gaps, the single-

Telescope body, on the other hand, is attached to the tube. borrowed to illustrate any erecting lens

By attaching both spring ends in this way, 50 systems-suitable construction will be used. the

the reversing system tube both against the longitudinal number of lenses and the construction of the

Shifts, as well as against rotational movements, form within the system and its optical properties

half of the telescope secured, but is still not part of the invention. Purpose of the

For the purpose of setting the lateral and height deviation, it is merely an arrangement in the tube 11

radially around the ring-shaped enlargement on a conventional reversing system attached to it.

Pivotable end. put. It is also assumed that the reverse

This holder can be used in a simple way in system for both a telescope with fixed magnification

Make the longitudinal direction adjustable, because it is only possible to

required, the fastening screws can be determined accordingly.

60 The side and height adjustment screws 17 and 18

add because the annular extension of the tube lead through corresponding housing 19 and 20, respectively

a longitudinal versphicbung no resistance is attached to the outside of the telescope body 10 and thus

opposed. are arranged so that the adjusting screws 17 and 18

It is known to hold the crosshairs in perpendicular to each other, with their inner

a telescope on the one hand on the telescope body and 65 ends on the outside of the free part of the reversing system tube

on the other hand springs II attached to the cross-wire reverb rest. The telescope body 10 has

to use. However, because of openings 21 and 22, this arrangement can have a much larger diameter

the lack of longitudinal flexibility of the thread knife than the screws 17 or 18 for receiving

³ «

the inner ends of these very steals. As can be seen, screwed. When the screws 32 are tightened If the penetration screws 17 or 18 are turned, the spring body 26 is pressed firmly against the inside, inwards or outwards to the corresponding side wall of the shaped tube body 10, while the borrowed displacement of the free end of the tube U GehUu.se 19 and 20 at the same time against the outer and thus causes the conventional 5 wall of the Fornrohrkörpeni 10 to be pressed, where-practice required side and height adjustment by the length of the spring device 25 and the the reverse system bracket. Tube II in the telescope body 10 in the longitudinal direction Ei .ίο spring device that is fixed with the general. By goringfUgigos solving the Ziller 25 is designated, according to the one shown in FIG. 1 screws. 32 housings 19 and 20 can be used |; to 5 illustrated embodiment constructed iq as well as the entire reversing system in the context of 'and.' consists of a generally cylindrical space between the screws 3 is slotted to slide the free end of the telescope body. To encompass the distance between the tube 11 radially and to allow a snug fit in the see adjusting screws 17 and 18 and the interior of the telescope body. The 15 openings 21 and 22 are to be dug so that the Maximai spring device sits in the telescope body 10 in all areas of this displacement of the length is exhausted compared to the Gehliusen 19 and 20. The can.

Body 26 is designed so that a spring after the tube II and the spring device finger 28 are inserted in the longitudinal direction of the opposite side of the gap in the telescope body 10, the opposite side of the body is extended to the rear, »o with the The free end of the finger 28 is shaped so that the free end of the tube 11 is formed against the ends of the inwardly bent flange 29 which presses the adjusting screws 17 and 18. The finger 28 is placed in a correspondingly designed slot 3 ″ in such a position that its pressure on the wall of the tube 11 engages. The body 26 generally exerts on a line that bisects the winch on both sides of the gap 27 in the vicinity of the angle between the adjusting screws, so that its edges, via threaded holes 31/31 for opening at both points of contact, consistently hold the screws 32 / 32, which is exerted even pressure in the longitudinal direction,
of the adjusting screws 17 and 18 through the housing. Although not shown, it is obvious, 19 and 20 and through the openings 33/33 in the wall that the rotatable reversing system of the telescope body 10 described here lead. The openings 33 30 with any conventional reticle have a much larger diameter than can be turned. The throat plate in the screw 33, so that the two do not touch, and the tube U either at the front end in the first are preferably elliptical in the longitudinal direction of the image plane or in the rear part in the second image telescope body. As can be seen, the telescope plane can be attached. In addition, the Köiper 26 of the spring device with the aid of 35 can also use the Strichplat '. in the second picture the screw 32 can be firmly mounted against the telescope body 10 level in the telescope body,
be attracted. On the other hand, if it is desired to move all three desired bodies 7H in the longitudinal direction in the telescope, as can be seen, with the spring device 25 in the described arrangement, then such a shifting function is made up of: '-circulation after loosening the screws 32 due to the 4 "system, prevention of the rotation of the Uii'k · ^ ·" rural widened openings 33 in limited tfn · r-ystiuis and elimination of slack between the circumference possible. Since the system for optical adjustment and the side and height adjustment screws, the required longitudinal shift is normally only nui F i g. 6 shows another embodiment, which is previously slightly, the spring device described with reference to 33, in which the spring recesses are not very large. The tube 11 45 body 26 ″ is rotated 180 ° and the finger 28α is with the inner ends of the screws on top of the tube 11. This finger is attached to the tube M with 32 covering holes 34 of a relatively large diameter - a rivet 29./ and provided so that the inner ends of the tensioned so that the free end of the tube 11 on screws 32 the displacement of the tube 11 does not place the ends of the adjusting screws 17 and 18, interfere. The device functions in the same way. When assembling the erecting system in the telescope as the previously described embodiment, the spring body 26 is placed on the front end of which it fulfills the three above-mentioned tasks. The tube 11 is pushed and the flange 29 of the spring. FIGS. 7 and 8 show a further guide finger 28 inserted into the slot 30. So come the form of the spring device, which all the desired holes 31/31 over the openings 34 in the tube II 55 functions with a longitudinally adjustable reversal. Then the body 6 is met as far as the system of the type described herein. When pressed so that the tube U together with the embodiment form, the spring device comprises a spring device pushing flat, elongated spring 35 into the telescope body 10, which leaves one at one end, where both are arranged so that there is an upwardly bent lip 26 which is received in threaded holes 31/31 opposite the openings 33 60 slot 30 of the tube II. Disappear that. The housings 19 and 20 are then in the opposite hands of the spring 35 is brought from a position shown, in which the adjustment or several screws 37 cn the wall ties remote screws 17 and 18 through the openings 2! or 22 tubular body 10 held. The screws 37 reach and reach the outer surface of the tube 11 through the openings 38 in the wall of the femoral tube. Then the screws 32 can through the 65 body 10 a. These openings are extended in oil openings 31a into the relevant housing and from the development of the telescope body, in order to allow them to be inserted longitudinally of the reversing device 10 through the openings 33 in the telescope body and to be systematically inserted into the threaded holes 31.

It will be understood that the lip 36 can be secured by a rivet or other suitable means the spring 35 on the tube 11 can be replaced and that the spring 35 instead of the flat one shown Leaf spring can just as well consist of a suitable wire spring.

Claims (5)

Patent claims: 1. Holder of the reversing system in a telescopic sight for firearms with a reversing system tube which is mounted pivotably on all sides in the telescope body by means of an annular extension resting on the telescope body with a snug fit, and a spring which presses the tube radially against adjusting screws attached to the telescope body, characterized in that the spring (28 , 28 a, 35) is attached on the one hand to the telescope body (10) and on the other hand to the tube (11). 2. Holder according to claim 1, characterized in that the fastening device (32, 33; 37, 38) of the spring on the telescope body (10) is longitudinally adjustable. 3. Holder according to claim 1 or 2, characterized in that the spring as an elongated Spring element is formed. 4. Holder according to claim 3, characterized in that one end (29,36) of the Spring element (29,35) is angled and in a corresponding slot (30) of the tube (11) intervenes. 5. Holder according to claim 3 or 4, characterized in that the spring element (28.28 α) designed as a tongue on a longitudinally split, generally cylindrical body (25) which surrounds the tube (11) and with the telescope body (10) in an adjustable manner is screwed. 1 sheet of drawings