CN220959824U - Mounting structure of thermal imaging sighting telescope - Google Patents

Abstract

The utility model discloses a mounting structure of a thermal imaging sighting telescope, which comprises a sighting telescope, a gun seat and clamping strips arranged on the sighting telescope, wherein clamping shells are circumferentially arranged on the gun seat in a rotating manner, the clamping strips are embedded in the clamping shells and deflect to a stop position, symmetrically arranged pin rods are movably arranged on the gun seat, the pin rods are inserted into the clamping strips and the clamping shells at the stop position to lock the sighting telescope, and a button is arranged on the gun seat. According to the mounting structure of the thermal imaging sighting telescope, the sighting telescope is inserted into the gun seat, so that the clamping strips are embedded into the clamping shell, and then the sighting telescope is rotated by 90 degrees, so that the clamping strips reaching the stop position and connected into a whole are transversely inserted and locked with the pin rod of the clamping shell; when the gun is unlocked, the button enables the two pin rods to be pulled out of the first boring hole and the second boring hole, so that the sighting telescope is deflected back to a default position, and then the sighting telescope is pulled out of the gun seat, so that the sighting telescope can be quickly disassembled and assembled.

Description

Mounting structure of thermal imaging sighting telescope

Technical Field

The utility model relates to the technical field of sighting telescope installation, in particular to an installation structure of a thermal imaging sighting telescope.

Background

The sighting telescope is typically mounted to the firearm and is used to assist in sighting the firearm, and the sighting telescope is mounted to a box cover or barrel of the firearm by a mounting structure.

According to publication (bulletin) No.: CN110332853B, publication (bulletin) day: 2021-12-17 discloses a firearm sighting telescope, which comprises a sighting telescope body, the sighting telescope body comprises a lens cone, the both ends of the lens cone are respectively provided with a front protection end cover and a rear protection end cover, lenses are respectively arranged in the front protection end cover and the rear protection end cover, two first arc plates are fixedly arranged on the outer side of the lens cone, second arc plates are respectively arranged on the tops of the two first arc plates, connecting blocks are respectively fixedly arranged on the tops of the two second arc plates, transverse plates are respectively fixedly arranged on the tops of the two connecting blocks, two baffle plates are respectively fixedly arranged on the bottoms of the transverse plates, rubber pads are respectively fixedly arranged on one sides of the two baffle plates, which are close to each other, and the other sides of the two rubber pads are respectively contacted with one side, which is away from each other, of the front protection end cover and the rear protection end cover.

According to publication (bulletin) No.: CN210119162U, publication (bulletin) day: 2020-02-28, a mounting structure of a thermal imaging sighting telescope is disclosed, comprising a gun connecting seat, a fixed stop block, a sliding mounting piece, a locking bolt, a connecting seat, a damping mechanism and the thermal imaging sighting telescope; the lower end of the gun connecting seat is connected with the gun mounting seat, and the gun connecting seat is provided with a dovetail-shaped bulge; the fixed stop block is arranged on the gun connecting seat and is provided with a blind hole; the connecting seat comprises a mounting plate, a connecting plate and a sighting telescope fixing seat; the mounting plate and the sighting telescope fixing seat are respectively arranged at the upper end and the lower end of the connecting plate, and a sliding groove matched with the dovetail-shaped bulge is arranged at the bottom of the mounting plate; the thermal imaging sighting telescope is arranged on the sighting telescope fixing seat; the damping mechanism comprises a sliding rod, a spring and a supporting plate; one end of the sliding rod extends into the blind hole, and the other end of the sliding rod is connected with the supporting plate; the spring is sleeved on the slide bar. The sighting telescope is simple to install and convenient to replace, vibration of the sighting telescope when being shot by a gun is reduced, the service life of the sighting telescope is prolonged, and the sighting shooting precision is ensured.

In the prior art including the above patent, since the sighting telescope needs to be frequently detached and replaced to adapt to different environments in the use process, in the prior art, when the sighting telescope is installed, the sighting telescope is usually inserted in a preset position on a firearm in a sliding manner and is screwed down and fixed by matching with a nut, but the nut needs to consume tools and time when being unscrewed, so that the dismounting speed of the sighting telescope is reduced.

Disclosure of utility model

The utility model aims to provide a mounting structure of a thermal imaging sighting telescope, which solves the problem that tools and time are consumed when the sighting telescope is mounted in a traditional manner.

In order to achieve the above object, the present utility model provides the following technical solutions: the mounting structure of the thermal imaging sighting telescope comprises the sighting telescope, a gun seat and clamping strips arranged on the sighting telescope, wherein clamping shells are circumferentially arranged on the gun seat in a rotating manner, and the clamping strips are embedded in the clamping shells and deflect to a stop position;

The gun seat is movably provided with symmetrically arranged pin rods, and the pin rods are inserted into clamping bars and clamping shells at the stop positions to lock the sighting telescope;

The gun seat is provided with a button, and the button drives the two pin rods to be away from each other so as to unlock the sighting telescope.

Preferably, the sighting telescope is fixedly provided with a column base, and the clamping strip is fixedly arranged on the column base;

the gun seat is provided with a column groove, and the column seat circumferentially rotates in the column groove.

Preferably, a movable block is movably arranged in the column groove, a second elastic piece and a telescopic rod are fixedly arranged between the movable block and the clamping shell, and the second elastic piece is annularly arranged on the outer side of the telescopic rod.

Preferably, a butt joint rod frame is fixedly arranged on the clamping shell, symmetrically arranged clamping blocks are fixedly arranged in the column groove, and an arc groove is formed in the column seat;

the butt-joint rod frame is separated from the clamping block so that the clamping block is inserted into the arc groove.

Preferably, a rotating shaft is fixedly arranged on the clamping shell, a first elastic piece is fixedly arranged on the rotating shaft and is abutted to the column groove, and a guide groove is formed in the column groove;

the clamping shell moves downwards to enable the movable block to slide in the guide groove.

Preferably, a plate frame is arranged on the gun seat in a sliding manner, the pin rod is fixedly arranged on the plate frame, and the plate frame is fixedly provided with a contact receiving head;

and the button is fixedly provided with a touch head which abuts against the contact so as to enable the symmetrically arranged pin rods to be away from each other.

Preferably, a third elastic piece is fixedly arranged between the plate frame and the gun seat, and a fourth elastic piece is fixedly arranged between the button and the gun seat.

Preferably, the butt joint is fixedly arranged on the butt joint rod frame, a butt joint groove is formed in the clamping block, and the butt joint groove are in butt joint fit;

A fifth elastic piece is fixedly arranged between the clamping block and the column groove.

In the technical scheme, the mounting structure of the thermal imaging sighting telescope provided by the utility model has the following beneficial effects: the sighting telescope is inserted into the gun seat so that the clamping strips are embedded into the clamping shell, and then the sighting telescope is rotated by 90 degrees, so that the clamping strips reaching the stop position and connected into a whole are transversely inserted and locked by the pin rod of the clamping shell; when the gun is unlocked, the button enables the two pin rods to be pulled out of the first boring hole and the second boring hole, so that the sighting telescope is deflected back to a default position, and then the sighting telescope is pulled out of the gun seat, so that the sighting telescope can be quickly disassembled and assembled.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings required for the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic view of a gun mount and a telescope according to an embodiment of the present utility model;

FIG. 2 is a schematic view of an explosion bottom structure of a gun mount and a sighting telescope according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram of a cross-sectional structure of a gun mount portion according to an embodiment of the present utility model;

fig. 4 is a schematic diagram of a shell structure according to an embodiment of the present utility model;

FIG. 5 is an enlarged schematic view of the structure of FIG. 2 at A;

FIG. 6 is an enlarged schematic view of the structure of FIG. 3 at B;

Fig. 7 is an enlarged schematic view of the structure at C in fig. 3.

Reference numerals illustrate:

1. A gun seat; 11. a sighting telescope; 21. a column base; 211. a column groove; 22. clamping strips; 23. a clamping shell; 231. a rotating shaft; 232. a first elastic member; 24. a movable block; 241. a guide groove; 25. a second elastic member; 251. a telescopic rod; 26. a plate frame; 261. a pin rod; 262. a first bore; 263. a second bore; 264. a third elastic member; 265. a contact receiving terminal; 27. a button; 271. a touch head; 272. a fourth elastic member; 28. a butt joint rod frame; 281. butt joint; 29. a clamping block; 291. a fifth elastic member; 292. a butt joint groove; 293. an arc groove.

Detailed Description

In order to make the technical scheme of the present utility model better understood by those skilled in the art, the present utility model will be further described in detail with reference to the accompanying drawings.

As shown in fig. 1-7, a mounting structure of a thermal imaging sighting telescope comprises a sighting telescope 11, a gun base 1, and a clamping strip 22 arranged on the sighting telescope 11, wherein a clamping shell 23 is circumferentially arranged on the gun base 1 in a rotating manner, and the clamping strip 22 is embedded in the clamping shell 23 and deflects to a stop position;

The gun seat 1 is movably provided with symmetrically arranged pin rods 261, and the pin rods 261 are inserted into clamping bars 22 and clamping shells 23 at the stop positions to lock the sighting telescope 11;

A button 27 is provided on the gun mount 1, the button 27 driving the two pins 261 away from each other to unlock the scope 11.

Specifically, as shown in fig. 1, 3, 5 and 6, the clamping shell 23 and the clamping strip 22 are respectively provided with a first boring 262 and a second boring 263, the pin 261 is inserted into the first boring 262 and the second boring 263, and the sighting telescope 11 at the default position is kept vertical to the gun base 1. The sighting telescope 11 is inserted into the gun seat 1 so that the clamping strip 22 is embedded into the clamping shell 23, and then the sighting telescope 11 is rotated by 90 degrees, so that the clamping strip 22 reaching the end position and connected into a whole and the clamping shell 23 are transversely inserted and locked by the pin 261; when unlocked, the button 27 causes the two pins 261 to be pulled out of the first and second bores 262, 263 to deflect the sight 11 back to the default position, and then the sight 11 is pulled out of the gun mount 1 to enable quick assembly and disassembly of the sight 11.

As a further provided embodiment of the present invention, the sighting telescope 11 is fixedly provided with a column base 21, and the clamping strip 22 is fixedly arranged on the column base 21;

The gun seat 1 is provided with a column groove 211, and the column seat 21 circumferentially rotates in the column groove 211.

Specifically, as shown in fig. 2 and 3, the column base 21 has a columnar shape. The cylindrical seat 21 is matched with the cylindrical groove 211 to provide a circular space required by the rotation of the clamping shell 23.

As still another embodiment of the present invention, a movable block 24 is movably disposed in the column groove 211, and a second elastic member 25 and a telescopic rod 251 are fixedly installed between the movable block 24 and the clamping shell 23, where the second elastic member 25 is annularly disposed outside the telescopic rod 251.

Specifically, as shown in fig. 3 and fig. 4, the telescopic rod 251 is arc-shaped, a damping ring is disposed in the telescopic rod 251, and the telescopic rod 251 and the damping ring are of the prior art, which is not described herein, and the second elastic member 25 is specifically a tension spring. By deforming the second elastic member 25 during the deflection of the latch 23, when the latch 23 loses the locking of the pin 261, the second elastic member 25 is restored to cooperate with the damping ring during the deformation so as to slowly return the latch 23 to the default position.

As another embodiment of the present invention, a butt rod frame 28 is fixedly installed on the clamping shell 23, symmetrically arranged clamping blocks 29 are fixedly installed in the column groove 211, and an arc groove 293 is formed on the column seat 21;

the butt-joint rod frame 28 is separated from the clamping block 29 so that the clamping block 29 is inserted into the arc groove 293.

Specifically, as shown in fig. 2, 3, 5 and 7, the docking bar rack 28 is inserted into the fixture block 29 in a default state. The abutting rod frame 28 is separated from the clamping block 29 in the deflection process of the clamping shell 23, meanwhile, the clamping block 29 is inserted into the arc groove 293, and in the rotation process of the column base 21, the clamping block 29 slides in the arc groove 293.

As still another embodiment of the present invention, a rotating shaft 231 is fixedly installed on the clamping shell 23, a first elastic member 232 is fixedly installed on the rotating shaft 231, the first elastic member 232 is abutted against the column groove 211, and a guide groove 241 is formed in the column groove 211;

the latch 23 moves down to slide the movable block 24 in the guide groove 241.

Specifically, as shown in fig. 4 and 7, the first elastic member 232 is specifically a spring. During the process of extruding the clamping shell 23 to move downwards through the clamping strip 22, the first elastic piece 232 is deformed, and meanwhile, the movable block 24 moves downwards along with the clamping shell 23 synchronously.

As still another embodiment of the present invention, the gun base 1 is slidably provided with a plate frame 26, the pin 261 is fixedly installed on the plate frame 26, and the plate frame 26 is fixedly installed with the contact receiving terminal 265;

A contact 271 is fixedly mounted on the button 27, and the contact 271 abuts against the contact 265 to move the symmetrically arranged pins 261 away from each other.

Specifically, as shown in fig. 3, 6 and 7, the symmetrically arranged buttons 27 are manually pressed so that the touch heads 271 on both sides of the buttons 27 press the receiving contacts 265 to move the two ledges 26 away from each other.

As still another embodiment of the present invention, a third elastic member 264 is fixedly installed between the plate frame 26 and the gun base 1, and a fourth elastic member 272 is fixedly installed between the button 27 and the gun base 1.

Specifically, as shown in fig. 3, 6 and 7, the third elastic member 264 is specifically a spring, the fourth elastic member 272 is specifically a spring, and the moment of the fourth elastic member 272 is greater than the moment of the third elastic member 264. During the pressing of the two ledges 26 by the buttons 27, both the third elastic member 264 and the fourth elastic member 272 are kept deformed.

As still another embodiment of the present invention, the butt joint 281 is fixedly installed on the butt joint rod rack 28, the butt joint groove 292 is formed on the clamping block 29, and the butt joint 281 and the butt joint groove 292 are in butt joint fit;

A fifth elastic member 291 is fixedly installed between the latch 29 and the column groove 211.

Specifically, as shown in fig. 3, 6 and 7, the fifth elastic member 291 is specifically a spring, and the fifth elastic member 291 is deformed in a default state. The fifth elastic member 291 is restored to be deformed by the disengagement of the docking head 281 from the docking groove 292 to drive the insertion of the latch 29 into the arc groove 293.

Working principle: the sighting telescope 11 is inserted into the gun seat 1 so that the clamping strip 22 is embedded into the clamping shell 23, and then the sighting telescope 11 is rotated by 90 degrees, so that the second elastic piece 25 is deformed, and the clamping strip 22 and the clamping shell 23 which reach the end position and are connected into a whole are transversely inserted and locked by the pin 261; during unlocking, the symmetrically arranged buttons 27 are manually pressed, so that the touch heads 271 at two sides of the buttons 27 press the touch receiving heads 265 to separate the two grills 26 from each other, the pin rods 261 on the two grills 26 are pulled out of the first boring holes 262 and the second boring holes 263 to enable the sighting telescope 11 to deflect back to a default position, and then the sighting telescope 11 is pulled out of the gun base 1 to realize quick assembly and disassembly of the sighting telescope 11.

While certain exemplary embodiments of the present utility model have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the utility model, which is defined by the appended claims.

Claims (8)

1. The mounting structure of the thermal imaging sighting telescope comprises a sighting telescope (11) and a gun seat (1), and is characterized by further comprising a clamping strip (22) arranged on the sighting telescope (11), wherein a clamping shell (23) is circumferentially arranged on the gun seat (1) in a rotating manner, and the clamping strip (22) is embedded in the clamping shell (23) and deflects to a stop position;

The gun seat (1) is movably provided with symmetrically arranged pin rods (261), and the pin rods (261) are inserted into clamping bars (22) and clamping shells (23) at the stop positions to lock the sighting telescope (11);

The gun seat (1) is provided with a button (27), and the button (27) drives the two pin rods (261) to be away from each other so as to unlock the sighting telescope (11).

2. The mounting structure of the thermal imaging sighting telescope according to claim 1, wherein a column base (21) is fixedly mounted on the sighting telescope (11), and the clamping strip (22) is fixedly mounted on the column base (21);

the gun seat (1) is provided with a column groove (211), and the column seat (21) circumferentially rotates in the column groove (211).

3. The mounting structure of the thermal imaging sighting telescope according to claim 2, wherein a movable block (24) is movably arranged in the column groove (211), a second elastic piece (25) and a telescopic rod (251) are fixedly arranged between the movable block (24) and the clamping shell (23), and the second elastic piece (25) is annularly arranged outside the telescopic rod (251).

4. The mounting structure of the thermal imaging sighting telescope according to claim 2, characterized in that a butt-joint rod frame (28) is fixedly mounted on the clamping shell (23), symmetrically arranged clamping blocks (29) are fixedly mounted in the column groove (211), and an arc groove (293) is formed in the column seat (21);

The butt-joint rod frame (28) is separated from the clamping block (29) so that the clamping block (29) is inserted into the arc groove (293).

5. A mounting structure of a thermal imaging sighting telescope according to claim 3, characterized in that a rotating shaft (231) is fixedly mounted on the clamping shell (23), a first elastic piece (232) is fixedly mounted on the rotating shaft (231), the first elastic piece (232) is abutted against a column groove (211), and a guide groove (241) is formed in the column groove (211);

The clamping shell (23) moves downwards so that the movable block (24) slides in the guide groove (241).

6. The mounting structure of the thermal imaging sighting telescope according to claim 1, characterized in that a plate frame (26) is slidably arranged on the gun base (1), the pin rod (261) is fixedly arranged on the plate frame (26), and a contact receiving head (265) is fixedly arranged on the plate frame (26);

A touch head (271) is fixedly arranged on the button (27), and the touch head (271) is abutted against the contact (265) so as to enable the symmetrically arranged pin rods (261) to be far away from each other.

7. The mounting structure of a thermal imaging sighting telescope according to claim 6, characterized in that a third elastic member (264) is fixedly mounted between the plate frame (26) and the gun base (1), and a fourth elastic member (272) is fixedly mounted between the button (27) and the gun base (1).

8. The mounting structure of the thermal imaging sighting telescope according to claim 4, characterized in that a butt joint (281) is fixedly mounted on the butt joint rod frame (28), a butt joint groove (292) is formed in the clamping block (29), and the butt joint (281) is in butt joint with the butt joint groove (292);

a fifth elastic piece (291) is fixedly arranged between the clamping block (29) and the column groove (211).