CN210004873U - multifunctional sighting telescope debugging tool - Google Patents

Abstract

The utility model provides an multi-functional gun sight debugging frock, it is inaccurate to be used for solving current gun sight debugging frock debugging result, the use degree of difficulty is big, use trouble problem, include the horizontal base that sets up on testing platform through the support level, be provided with the ready-package eyepiece with the axle center on the horizontal base in proper order, treat debugging gun sight and collimator, be provided with on the horizontal base and contact and with treating debugging gun sight top and be perpendicular mutually, be used for treating the clamping mechanism that the debugging gun sight extruded the location, still be provided with on the horizontal base and contact with the testing gun sight top and be used for detecting whether the gun sight is levelled and whether be in the mechanism of examining of the vertical state of level of assurance gun sight parting line, the utility model discloses increased the ready-package eyepiece before treating debugging gun sight, conveniently debug semi-manufactured goods, can make through the clamping mechanism who sets up on the gun sight to treat that debugging gun sight through the both hands principle and effectively press from both sides tightly by splint, liberated.

Description

multifunctional sighting telescope debugging tool

Technical Field

The utility model belongs to the technical field of the gun sight debugging device and specifically relates to a gun sight debugging frock of kinds of multi-functional guns is applied to the debugging and the detection of gun sight.

Background

The origin of the sighting telescope, or optical sighting device, has been difficult to examine. It is said that, at least in europe of the 16 th century, attempts have been made to secure spectacle lenses in the stock. It is well documented that, prior to the 19 th century, firearms have had telescopic sighting devices available for sighting in low light conditions. The sighting telescope can be divided into a holographic sighting telescope, an inner red and green point sighting telescope and a laser sighting telescope. Aiming scopes developed to date are mainly classified into the following three major categories: telescope type sighting telescope, collimation type sighting telescope, reflection type sighting telescope. Telescopic and reflex scopes are the most popular of these. The two types of sighting telescope are mainly used in daytime and are also called white light sighting, and a night sighting telescope for night sighting is also provided, wherein a night vision device is added on the two types of sighting telescope, and the sighting telescope can be divided into a low-light sighting telescope and an infrared sighting telescope according to the type of the night vision device (the sighting telescope can be divided into an active infrared type and a thermal imaging type).

The main core component of existing sighting telescope debugging and detection is the collimator. The existing detection tool mainly comprises a collimator, a base and a V-shaped block for debugging, and is shown in a combined figure 6.

The main disadvantages of the existing tool are as follows: 1. the effect of v-block is the location gun sight, but presss from both sides tightly mainly by the hand, when crowded adjusting handle wheel and turn round the circle, the shake takes place for the staff easily, and the gun sight probably takes place to remove, causes the debugging result inaccurate.

2. Whether the division in the sighting telescope is parallel to the adjusting screw position of the telescope body or not is mainly realized by extruding the adjusting screw to see that the division walking is completed, so that the difficulty is high for a primary user.

3. For the semi-finished sighting telescope without the ocular, ocular lenses must be taken to observe the division.

4. The base sets up for the slope, leads to the V-arrangement piece when fixing a position the gun sight, causes the gun sight gliding easily, needs people or many people to hold the gun sight, and is very troublesome.

SUMMERY OF THE UTILITY MODEL

The utility model provides an multi-functional gun sight debugging frocks to solve the current gun sight debugging frocks debugging result inaccurate, use the degree of difficulty big, use troublesome problem, in order to reach the purpose of carrying out accurate debugging to the gun sight differentiation.

The technical scheme of the utility model is realized like this:

multi-functional gun sight debugging frock, include and set up the horizontal base on testing platform through the support level, be provided with ready-package eyepiece with the axle center on the horizontal base in proper order, treat debugging gun sight and collimator, be provided with on the horizontal base and contact and with treat that debugging gun sight is mutually perpendicular with treating the debugging gun sight, a clamping mechanism for treating debugging gun sight and carrying out the extrusion location, still be provided with on the horizontal base and contact with the gun sight top of treating debugging and be used for detecting the gun sight and whether lay flat with the mechanism of examining that guarantees that the gun sight division line is in horizontal vertical state.

, optimizing the technical scheme, the ready-mounted eyepiece is fixedly arranged on the horizontal base through a supporting seat.

optimizing technical scheme, the sighting telescope to be debugged is arranged on the horizontal base through the second supporting seat fixedly arranged on the horizontal base through two bottom end faces, the top end of the second supporting seat is provided with a V-shaped placing groove, and the sighting telescope to be debugged is positioned and arranged in the V-shaped placing groove.

step optimization technical scheme is advanced, clamping mechanism includes that the bottom face contacts with the bottom face of treating the debugging gun sight and is used for realizing treating the splint that the debugging gun sight top was fixed a position, through round pin axle and splint articulated mutually and installation piece and the screw thread setting on horizontal base of bottom setting are used for realizing compressing tightly the screw rod of operation to the splint at splint not with the end of treating debugging gun sight contact, and the bottom screw thread of screw rod is provided with the extrusion piece.

step of optimizing technical scheme, the splint include respectively with treat that the debugging gun sight top contacts with splint and second splint, the third splint that the intersection of splint and second splint formed with screw rod threaded connection, the round pin axle sets up in third splint middle part.

, optimizing the technical proposal, wherein the splint is made of plastic material.

step of optimization technical scheme, examine flat-bed machine and construct including the bottom and wait to debug the sight looks extrusion contact the clamp plate, through the end of bearing setting at the clamp plate be used for making the clamp plate can around the pivoted locating lever, set up at the locating lever bottom and with horizontal base looks fixed fourth supporting seat, set up the locating cap in the locating lever bottom and the fixed pressure spring that sets up between clamp plate and locating cap, set up on the top face of clamp plate and be used for detecting whether the clamp plate is in the horizontality and then detect out and wait to debug the sight whether level that is in the horizontality.

, optimizing the technical scheme, the parallel light tube is fixed on the horizontal base through a third support seat.

By adopting the technical scheme, the beneficial effects of the utility model are that:

the utility model discloses the ready-package eyepiece has been increased before waiting to debug the gun sight, convenient debugging semi-manufactured goods, can make splint treat the debugging gun sight through the clamping mechanism who sets up on the gun sight and effectively press from both sides tightly through lever principle, liberated both hands, avoided the problem that the staff centre gripping influences the gun sight debugging result, can treat the debugging gun sight through the clamp plate in the aspect of the flat-bed machine structure of examining of increase and press and hold, be the horizontally when guaranteeing the gun sight observation in the aspect of in addition, whether the graticule that detects again has the deflection, make the utility model discloses a detect more standardized, intelligent.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only the embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive labor.

Fig. 1 is a front view of the present invention;

fig. 2 is a partial top view of the present invention;

fig. 3 is a schematic structural view of the clamping mechanism of the present invention;

fig. 4 is a schematic structural view of the leveling mechanism of the present invention;

fig. 5 is a schematic structural view of the second support seat of the present invention;

fig. 6 is a schematic structural diagram of a conventional sighting telescope detection tool.

The device comprises a horizontal base 1, a horizontal base 2, a support 3, a quick-mounting eyepiece 4, a th supporting seat 5, a second supporting seat 6, a sighting telescope to be debugged, a 7 third supporting seat 8, a collimator, a 9 clamping mechanism 91, a clamping plate 911, a th clamping plate 912, a second clamping plate 913, a third clamping plate 92, an installation block 93, a pin shaft 94, a screw rod 95, an extrusion block 10, a leveling mechanism 101, a fourth supporting seat 102, a positioning rod 103, a positioning cap 104, a pressure spring 105, a pressure plate 106 and a level device.

Detailed Description

The technical solution in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of , but not all embodiments.

kinds of multi-functional gun sight debugging frocks, combine shown in fig. 1 to 5, include through support 2 level setting horizontal base 1 on testing platform, be provided with ready-package eyepiece 3, treat debugging gun sight 6 and collimator 8 with the axle center on horizontal base 1 in proper order.

The quick-mounting ocular 3 is fixedly arranged on the horizontal base 1 through a th supporting seat 4.

Treat that debugging gun sight 6 sets up on horizontal base 1 through the fixed second supporting seat 5 that sets up on horizontal base 1 of two bottom end faces, and the top of second supporting seat 5 is provided with the V-arrangement standing groove, treats that debugging gun sight 6 location sets up in the V-arrangement standing groove.

The horizontal base 1 is provided with a clamping mechanism 9, the clamping mechanism 9 is in contact with the upper part of the sighting telescope 6 to be debugged, is perpendicular to the sighting telescope 6 to be debugged and is used for extruding and positioning the sighting telescope 6 to be debugged, the clamping mechanism 9 comprises a clamping plate 91, the bottom end surface of which is in contact with the bottom end surface of the sighting telescope 6 to be debugged and is used for positioning the top end of the sighting telescope 6 to be debugged, an installation block 92, the bottom end of which is hinged to the clamping plate 91 through a pin shaft 93, the installation block 92 is arranged on the horizontal base 1, and a screw 94, the screw is arranged at the end, which is not in contact with the sighting telescope 6 to be debugged.

The clamp plate 91 comprises a th clamp plate 911 and a second clamp plate 912 which are respectively contacted with the top end of the sighting telescope 6 to be debugged, the th clamp plate 911 and the second clamp plate 912 are intersected to form a third clamp plate 913 in threaded connection with the screw 94, and the pin shaft 93 is arranged in the middle of the third clamp plate 913.

The utility model discloses well splint 91 is plastic material splint to ensure to step up stably and can not treat debugging gun sight 6 and cause the damage.

The horizontal base 1 is also provided with a leveling mechanism 10 which is in contact with the upper part of the sighting telescope 6 to be debugged, and the leveling mechanism 10 is used for detecting whether the sighting telescope is laid flat so as to ensure that a sighting telescope division line is in a horizontal and vertical state. Leveling is to ensure that a debugging person keeps the sighting telescope flat when using the sighting telescope, namely the UP surface of the sighting telescope is vertical to a vertical line, and a division line of the sighting telescope is horizontal and vertical.

The leveling mechanism 10 comprises a pressing plate 105, the bottom end of which is in pressing contact with the sighting telescope 6 to be debugged, a positioning rod 102, a fourth supporting seat 101, a positioning cap 103 and a pressure spring 104, wherein the positioning rod 102 is arranged at the end of the pressing plate 105 through a bearing and used for enabling the pressing plate 105 to rotate around, the fourth supporting seat 101 is arranged at the bottom end of the positioning rod 102 and fixed with the horizontal base 1, the positioning cap 103 is arranged at the bottom end of the positioning rod 102, the pressure spring 104 is fixedly arranged between the pressing plate 105 and the positioning cap 103, the pressing plate 105 is parallel to the horizontal base 1, is arranged on the top end face of the pressing plate 105 and used for detecting whether the pressing plate 105 is in a horizontal state and further detecting whether the sighting telescope 6 to be debugged is in the horizontal state, and the.

Since the positioning rod 102 is disposed on the pressing plate 105 through a bearing, the pressing plate 105 can rotate around the positioning rod 102, so that the leveling mechanism 10 can rotate to a working position without affecting the work when not in use.

The collimator 8 is fixedly arranged on the horizontal base 1 through a third supporting seat 7.

The working principle of the utility model is as follows.

The utility model discloses when treating debugging gun sight 6 and pressing from both sides tight location, twist and move adjusting screw 94, will drive third splint 913 and th splint 911 and second splint 912, take place to rotate (0 lever principle) around round pin axle 94 between, need treat when debugging gun sight 6 centre gripping is tighter promptly, upwards not hard up screw 94 a little, need treat when debugging gun sight 6 centre gripping is more pine, twist downwards a little and move screw 94.

The utility model discloses treating debugging gun sight 6 and carrying out level detection time measuring, pressure spring 104 presses clamp plate 105 to treating debugging gun sight 6 on, and the spirit level 106 of setting can detect out whether clamp plate 105 is in the horizontality, ensures that clamp plate 105 upper surface is the level after, just can guarantee that the lower surface also is the horizontally, and then guarantees that the face of contact with clamp plate 105 on the gun sight UP face is the horizontally.

After the quick-mounting ocular 3, the sighting telescope 6 to be debugged, the collimator 8, the clamping mechanism 9 and the leveling mechanism 10 are sequentially assembled and arranged on the horizontal base 1, the sighting telescope differentiation is debugged. Then observing the sighting telescope, if the division of the sighting telescope is coincident or parallel with the division of the collimator, the division of the sighting telescope is positive and qualified; if the division of the sighting telescope is not coincident or parallel with the division of the collimator, the division of the sighting telescope is unqualified.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The multifunctional sighting telescope debugging tool is characterized by comprising a horizontal base (1) horizontally arranged on a detection platform through a support (2), wherein a quick-mounting eyepiece (3), a sighting telescope (6) to be debugged and a collimator (8) are sequentially and coaxially arranged on the horizontal base (1), a clamping mechanism (9) which is in contact with the upper portion of the sighting telescope (6) to be debugged, perpendicular to the sighting telescope (6) to be debugged and used for extruding and positioning the sighting telescope (6) to be debugged is arranged on the horizontal base (1), and a leveling mechanism (10) which is in contact with the upper portion of the sighting telescope (6) to be debugged and used for detecting whether the sighting telescope is leveled so as to ensure that a sighting telescope division line is in a horizontal and vertical state is further arranged on the horizontal base (1).
2. 2. The kinds of multi-functional sighting telescope debugging frock of claim 1, characterized in that, the ready-to-mount eyepiece (3) is fixed to the horizontal base (1) through the supporting seat (4).
3. 3. The kinds of multi-functional sighting telescope debugging frock of claim 1, characterized in that, the sighting telescope (6) of awaiting debugging sets up on the horizontal base (1) through the second supporting seat (5) that both bottom end faces were fixed, the top of second supporting seat (5) is provided with the V-arrangement standing groove, the sighting telescope (6) of awaiting debugging sets up in the V-arrangement standing groove.
4. 4. The kinds of multifunctional sighting telescope debugging tooling of claim 1, wherein the clamping mechanism (9) comprises a clamp plate (91) with a bottom end surface in contact with the bottom end surface of the sighting telescope (6) to be debugged for positioning the top end of the sighting telescope (6) to be debugged, a mounting block (92) hinged to the clamp plate (91) through a pin shaft (93) and with a bottom end arranged on the horizontal base (1), and a screw rod (94) with a thread arranged at the end of the clamp plate (91) not in contact with the sighting telescope (6) to be debugged for realizing the pressing operation of the clamp plate (91), wherein the bottom thread of the screw rod (94) is provided with an extrusion block (95).
5. 5. The kinds of multi-functional gun sight debugging frock of claim 4, characterized in that, the splint (91) include the splint (911) and the second splint (912) that contact with the gun sight (6) top of waiting to debug respectively, splint (911) and second splint (912) meet and form the third splint (913) with screw rod (94) threaded connection, round pin axle (93) set up in the middle part of third splint (913).
6. 6. The kinds of multi-functional gun sight debugging frock of claim 4 or 5, characterized in that, the splint (91) is the plastic splint.
7. 7. The kinds of multifunctional sighting telescope debugging tooling of claim 1, wherein the leveling mechanism (10) comprises a pressing plate (105) with a bottom end in pressing contact with the sighting telescope (6) to be debugged, a positioning rod (102) arranged at end of the pressing plate (105) through a bearing and used for enabling the pressing plate (105) to rotate around, a fourth supporting seat (101) arranged at the bottom end of the positioning rod (102) and fixed with the horizontal base (1), a positioning cap (103) arranged at the bottom end of the positioning rod (102), and a pressure spring (104) fixedly arranged between the pressing plate (105) and the positioning cap (103), wherein is arranged on the top end surface of the pressing plate (105) and used for detecting whether the pressing plate (105) is in a horizontal state and further detecting whether the sighting telescope (6) to be debugged is in a horizontal state.
8. 8. The kinds of multi-functional gun sight debugging tool of claim 1, wherein the collimator (8) is fixed to the horizontal base (1) by a third support seat (7).

Images