CN108801052B - Aiming lens for red point gun and use method thereof - Google Patents

Abstract

The invention provides a sighting telescope for a red dot type gun and a using method thereof, wherein the sighting telescope for the red dot type gun comprises a telescope body, a bracket body, a trajectory adjusting device, a wind deflection adjusting device, a battery pack and a variable point adjusting device, wherein the telescope body is arranged above the bracket body, a gap is arranged between the telescope body and the bracket body, and the right end of the telescope body is connected with the bracket body through a ball head screw; the left end of the mirror body is provided with a mirror body adjusting block, the left end of the bracket body is provided with an adjusting hole, the mirror body adjusting block is inserted into the adjusting hole, and the trajectory adjusting device and the wind deflection adjusting device are arranged at the side of the mirror body adjusting block; the battery pack and the variable point adjusting device are embedded in the mirror body. According to the invention, the connecting screw between the lens body and the bracket body in the traditional red dot type sighting telescope is changed into the ball screw connection, the ball at the lower end of the ball screw is in spherical sliding fit with the bracket body, and the ballistics direction and the windage direction of the lens body are adjusted by taking the ball screw as a fulcrum, so that the sighting direction of the whole sighting telescope is adjusted.

Description

Aiming lens for red point gun and use method thereof

Technical Field

The invention relates to a sighting telescope for a red-point gun, in particular to a sighting telescope for a red-point gun with a larger adjusting range in windage yaw and ballistic directions and a using method thereof.

Background

At present, the structure of the sighting telescope for the domestic and foreign red point gun is shown in fig. 1, and mainly comprises a reflecting lens 1-1, a lens body 1-2, a battery box 1-3, a bracket body 1-4, a ballistic adjusting screw 1-5, a wind deflection adjusting screw 1-6, a variable point hand wheel 1-7, a bracket clamping strip 1-8, a connecting screw 1-9 and a protective cover 1-10, wherein the working principle is as follows: the purpose of adjusting the mirror body 1-2 is achieved by adjusting the trajectory adjusting screw 1-5 and the wind deflection adjusting screw 1-6, so that the position of the mirror body 1-2 is changed relative to the support body 1-4, and a shooter can observe the red dot image in the reflecting lens 1-1 according to the position change of the mirror body to change the direction of the gun, thereby achieving the required shooting direction according to the wind speed and trajectory. However, since the adjusting range of the ballistic adjusting screw 1-5 and the wind deflection adjusting screw 1-6 is limited by the small outer diameter, the screw pitch of the screw thread is small, the adjusting accuracy in the adjusting process can not be ensured, and since the battery box 1-3 is arranged at the rear side of the reflecting lens 1-1, the optical fiber penetrating from the variable-point hand wheel 1-7 is partially shielded, the effective view field range of the reflecting lens is affected, and the shooting requirement of a part of firearms can not be met.

Disclosure of Invention

The invention aims to solve the technical problem of providing the sighting telescope for the red point gun and the use method thereof, which can greatly increase the displacement of the telescope body in the ballistic direction and the windage yaw direction, and the whole course can reach 3.2 degrees, so that the sighting telescope has stable adjustment performance, high precision, clear and consistent hand feeling, improves the durability and the reliability of products and ensures the smoothness of adjustment. The battery box is arranged in the mirror body, so that shooting requirements of guns and crossbows are completely met, the appearance is more in line with the current aesthetic appearance, meanwhile, the design and processing of the mirror body are simplified, and the cost is reduced.

In order to solve the technical problems, the embodiment of the invention provides a sighting telescope for a red dot gun, which comprises a telescope body, a bracket body, a trajectory adjusting device, a wind deflection adjusting device, a battery pack and a variable dot adjusting device, wherein the telescope body is arranged above the bracket body, a gap is arranged between the telescope body and the bracket body, and the right end of the telescope body is connected with the bracket body through a ball head screw;

the left end of the mirror body is provided with a mirror body adjusting block, the left end of the bracket body is provided with an upward protruding mounting block, the mounting block is provided with an adjusting hole, the mirror body adjusting block is inserted into the adjusting hole, the front side, the rear side, the upper side and the lower side of the mounting block are respectively provided with a mounting hole communicated with the adjusting hole, the wind deflection adjusting device comprises a wind deflection adjusting screw and a wind deflection adjusting spring group, and the wind deflection adjusting screw and the wind deflection adjusting spring group are respectively arranged in the mounting holes at the front side and the rear side of the adjusting hole and respectively abutted with the front end face and the rear end face of the mirror body adjusting block;

the trajectory adjusting device comprises a trajectory adjusting screw and a trajectory adjusting spring set, wherein the trajectory adjusting screw and the trajectory adjusting spring set are respectively arranged in mounting holes at the upper side and the lower side of an adjusting hole and respectively abutted with the upper end face and the lower end face of the mirror body adjusting block;

the battery compartment is arranged on the mirror body, and the battery pack is embedded in the battery compartment;

the variable point adjusting device comprises a variable point hand wheel and an LED, the LED is powered by the battery pack, the variable point adjusting device is embedded in the mirror body, and the lower part of the variable point hand wheel is positioned in a gap between the mirror body and the bracket body; and a reflecting lens is arranged above the right end of the mirror body, and light rays emitted by the LED are emitted to the reflecting lens from the variable point adjusting device.

The right end bottom of the mirror body is provided with an upward extending threaded hole, the right end upper portion of the support body is provided with a downward extending ball head hole corresponding to the threaded hole, a ball head pressing ring is fixedly arranged at the bottom of the ball head hole, an inner ring of the ball head pressing ring is a spherical surface, the upper end of the ball head screw is a screw rod in threaded connection with the threaded hole, the lower end of the ball head screw is a ball head arranged in the ball head hole, and the lower portion of the ball head is matched with the spherical surface of the inner ring of the ball head pressing ring.

The wind deflection adjusting spring set comprises a wind deflection adjusting spring screw, a wind deflection adjusting spring and a wind deflection adjusting spring stop block, wherein the wind deflection adjusting screw and the wind deflection adjusting spring stop block are respectively abutted with the front end face and the rear end face of the mirror body adjusting block;

the ballistic adjusting spring set comprises a ballistic adjusting spring screw, a ballistic adjusting spring and a ballistic adjusting spring stop block, wherein the ballistic adjusting screw and the ballistic adjusting spring stop block are respectively abutted with the upper end face and the lower end face of the mirror body adjusting block.

The battery pack comprises a battery box, a battery, a negative electrode reed, a positive electrode reed and a battery base, wherein the positive electrode reed and the negative electrode reed are fixedly connected to the battery base, the battery base is arranged at the rear of the battery box and is fixedly connected with the mirror body, the battery is arranged in the battery box, the positive electrode and the negative electrode of the battery are respectively contacted with the positive electrode reed and the negative electrode reed, the battery box is detachably connected with the mirror body through screws, and two power lines respectively connected with the positive electrode reed and the negative electrode reed extend out from the side of the battery base;

the variable point adjusting device comprises a variable point hand wheel, an LED seat, an LED, a rotary wheel, a differentiation wire, a differentiation seat, a variable point seat and reflecting glass, wherein a variable point light through hole is formed in the mirror body, the variable point seat is fixedly connected with the mirror body below the variable point light through hole, the upper part of the variable point hand wheel is coaxially sleeved on the outer side of the lower part of the variable point seat, the lower part of the variable point hand wheel is positioned at a gap between the mirror body and the support body, the inner lower side of the variable point seat is hollow and integrally formed with a central shaft extending downwards, the differentiation seat, the rotary wheel and the LED seat are sequentially sleeved on the central shaft from top to bottom, and the differentiation wire is fixedly paved on the lower end surface of the differentiation seat, and the LED seat is fixedly connected with the central shaft;

the rotary wheel is provided with an eccentric shaft, the rotary wheel is fixedly connected with the differentiation seat relatively through the eccentric shaft, one side of the rotary wheel opposite to the eccentric shaft is provided with a radial shaft, and the outer end of the radial shaft is inserted into the variable-point hand wheel; a reflective glass fixedly connected with the mirror body is arranged above the variable-point optical fiber via hole, a protective cover is arranged above the reflective glass, and a protective glass is arranged at the right end of the protective cover;

the LED lamp is characterized in that a plurality of red dot images are arranged on the differentiation wire, differentiation seat holes corresponding to the red dot images one to one are arranged on the differentiation seat, LED mounting holes for accommodating LEDs are arranged on the LED seat, variable dot seat holes are arranged on the variable dot seat corresponding to the LED mounting holes, light rays emitted by the LEDs sequentially pass through the LED mounting holes, the red dot images on the differentiation wire, the differentiation seat holes, the variable dot seat holes and the variable dot light ray through holes, are reflected to the protective glass by the reflecting glass, then partial light rays after direct irradiation by the reflecting glass are reflected to eyes of a shooter through the reflecting lens, and the other partial light rays are emitted from the reflecting lens.

Further, a fixing pin is arranged on the left end face and the right end face of the battery compartment, a clamping groove is arranged at the left end and the right end of the battery box respectively, and the battery box is limited in the battery compartment through the matching of the fixing pin and the clamping groove.

The ballistic trajectory adjusting screw and the wind deflection adjusting screw are provided with shooting distance scales on the outer end face.

Preferably, the trajectory adjusting screw comprises a screw outer ring, a screw inner ring, a push rod and a spring pin, wherein the screw outer ring is fixedly arranged in the mounting hole, one end of the screw outer ring is provided with an end face, a push rod through hole for the push rod to pass through is formed in the end face, a circle of tooth slot is formed in the inner ring surface of the other end of the screw outer ring, one end of the push rod is in threaded connection with the screw inner ring, the other end of the push rod passes through the push rod through hole and then is in butt joint with the mirror body adjusting block 32, the screw inner ring is sleeved in the screw outer ring, and the spring pin is arranged in the screw inner ring and is inserted into the tooth slot after extending to the outer side of the screw inner ring in the radial direction.

The structure of the wind deflection adjusting screw is the same as that of the ballistic trajectory adjusting screw.

Preferably, a closed rubber is arranged at the left side of the mirror body adjusting hole.

The side lower part of the support body is connected with a support holding strip, and a chute is formed by surrounding the support holding strip and the lower part of the support body. The sighting telescope for the red point gun is arranged on a sliding rail on the gun through a sliding groove.

The invention also provides a using method of the sighting telescope for the red-point gun, which comprises the steps of assembling the sighting telescope for the red-point gun, ballistically adjusting and wind deflection adjusting, wherein,

the assembling step of the sighting telescope for the red point gun comprises the following specific steps of:

(1-1) mounting of Battery pack

(1-1-1) fixedly mounting the positive electrode reed and the negative electrode reed on a battery base, leading out a power line from the positions of the positive electrode reed and the negative electrode reed, and fixedly mounting the battery base at the rear end of a battery compartment;

(1-1-2) arranging fixing pins at the left end face and the right end face of the battery bin;

(1-1-3) mounting the battery in a battery case;

(1-1-4) inserting a battery box carrying a battery from the front end of a battery compartment until a clamping groove on the battery box is clamped and limited by a fixing pin, correspondingly contacting the positive electrode reed and the negative electrode reed with the positive electrode and the negative electrode reed, and fixedly connecting the battery box with the mirror body by using a locking screw;

(1-2) installation of a variable Point adjustment device

(1-2-1) fixedly connecting the differentiation wire to the lower end surface of the differentiation seat;

(1-2-2) the differentiation seat, the rotary wheel and the LED seat are sequentially sleeved on the central shaft of the variable point seat from top to bottom, the differentiation seat and the rotary wheel rotate relative to the central shaft, and the LED seat is fixedly connected with the central shaft;

(1-2-3) mounting a radial shaft on a turret;

(1-2-4) sleeving the variable point hand wheel from the lower part of the variable point seat, and inserting a radial shaft into a radial hole on the inner ring surface of the variable point hand wheel;

(1-2-5) connecting the power line with the LED in the LED seat after penetrating through the hole on the self-changing point seat;

(1-2-6) fixedly connecting the upper part of the variable point seat in the component obtained in the step (1-2-5) with the lens body and locating below the variable point light through hole on the lens body;

(1-2-7) fixedly arranging reflective glass and a protective cover on the mirror body above the variable-point light through hole, and then installing protective glass at the front end of the protective cover;

(1-3) connection of the mirror body and the bracket body

(1-3-1) penetrating the ball screw upwards from the lower end of the ball hole on the bracket body to the position, in the ball hole, of the ball screw;

(1-3-2) rotating the ball screw to enable a screw rod at the upper part of the ball screw to be in threaded connection with a threaded hole at the bottom of the right end of the mirror body, and meanwhile ensuring that a gap is reserved between the mirror body and the bracket body, wherein a variable point hand wheel is positioned between the mirror body and the bracket body and is not blocked in rotation;

(1-3-3) screwing the ball head pressing ring from the lower end of the ball head hole, screwing the ball head pressing ring with the ball head hole, and pressing the ball head screw;

(1-4) installation of wind deflection adjusting device

The wind deflection adjusting spring stop block, the wind deflection adjusting spring and the wind deflection adjusting spring screw are sequentially arranged in the mounting hole at the rear side of the adjusting hole, the wind deflection adjusting screw is arranged in the mounting hole at the front side of the adjusting hole, and the wind deflection adjusting screw and the wind deflection adjusting spring stop block are respectively abutted with the front end face and the rear end face of the mirror body adjusting block;

(1-5) installation of ballistic adjustment device

The ballistic regulating spring stop block, the ballistic regulating spring and the ballistic regulating spring screw are sequentially arranged in the mounting hole at the lower side of the regulating hole, the ballistic regulating screw is arranged in the mounting hole at the upper side of the regulating hole, and the ballistic regulating screw and the ballistic regulating spring stop block are respectively abutted with the upper end face and the lower end face of the mirror body regulating block;

(1-6) mounting of bracket clip strips

The bracket clamping strip is fixedly arranged on the lateral side of the lower part of the bracket body through a screw, and a chute is formed by surrounding the bracket clamping strip and the lower part of the bracket body;

(1-7) mounting of the Enclosed rubber sheet

And installing the closed rubber skin at the left end of the adjusting hole so as to seal the adjusting hole.

Wherein, the ballistic trajectory adjustment step is: the ballistics adjusting screw is rotated, and the mirror body adjusting block moves up and down under the pushing of the ballistics adjusting screw, so that the mirror body is driven to move up and down by taking the ball head of the ball head screw as a fulcrum, and the ballistics angle is adjusted;

the wind deflection adjusting step comprises the following steps: the wind deflection adjusting screw is rotated, and the mirror body adjusting block moves forwards and backwards under the pushing of the wind deflection adjusting screw, so that the mirror body is driven to move forwards and backwards by taking the ball head of the ball head screw as a pivot, and the wind deflection angle is adjusted.

The technical scheme of the invention has the following beneficial effects:

1. according to the invention, the connecting screw between the lens body and the bracket body in the traditional red dot type sighting telescope is changed into the ball screw connection, the ball at the lower end of the ball screw is in spherical sliding fit with the bracket body, and the ballistics direction and the windage direction of the lens body are adjusted by taking the ball screw as a fulcrum, so that the sighting direction of the whole sighting telescope is adjusted.

2. According to the invention, the ballistic trajectory adjusting screw and the wind deflection adjusting screw with smaller outer diameters in the sighting telescope for the traditional red-spot gun are canceled, and the integrated ballistic trajectory adjusting screw and the wind deflection adjusting screw are adopted, so that the regulation resistance limit of the traditional internal structure is completely eliminated, the regulation range of wind deflection and ballistic trajectory is enlarged, the original 1 degree is improved to 3.2 degrees or more, and the regulation accuracy in the regulation process is improved.

3. The battery pack is arranged in the inner cavity of the lens body, the partial shielding of light rays transmitted from the variable-point hand wheel is eliminated, and the effective view field range of the transmitting lens is increased, so that the shooting range of the sighting telescope for the red-point gun is correspondingly enlarged, the requirements of shooting adjustment quantity and view field under any condition are met, and a user can achieve the purpose of shooting under any environment.

Drawings

FIG. 1 is a schematic view of a conventional sighting telescope for a red-spot gun according to the background of the invention;

reference numerals illustrate:

1-1, a reflective lens; 1-2, a mirror body; 1-3, a battery box; 1-4, a bracket body; 1-5, ballistic adjusting screws; 1-6, wind deflection adjusting screws; 1-7, a variable-point hand wheel; 1-8, a bracket holding strip; 1-9, connecting screws; 1-10, a protective cover.

FIG. 2 is a front view of a first embodiment of the present invention;

FIG. 3 is a cross-sectional view of the first embodiment;

FIG. 4 is an enlarged view of a cross-sectional view of the structure at the ball screw in the first embodiment;

FIG. 5 is an enlarged view showing a sectional view of a structure at a mirror body adjusting block in the first embodiment;

fig. 6 is a schematic structural diagram of a battery pack according to the first embodiment.

Reference numerals illustrate:

1. a reflective lens; 2. a mirror body; 3. a brightness key; 4. a protective cover; 5. a protective glass; 6. ball screw; 7. ball pressing ring; 8. a variable point seat; 9. a differentiation seat; 10. differentiating the silk; 11. a rotary wheel; 12. an LED seat; 13. a variable-point hand wheel; 14. a radial shaft; 15. a negative electrode reed; 16. a battery; 17. a battery case; 18. a locking screw; 19. a battery base; 20. a positive electrode reed; 21. a fixing pin; 22. a power line; 24. a bracket body; 25. a bracket clamping strip; 26. sealing the rubber leather; 27. wind deflection adjusting spring screws; 28. a wind deflection adjusting spring; 29. wind deflection adjusting spring stop block; 30. a ballistic adjusting screw; 31. a wind deflection adjusting screw; 32. a mirror body adjusting block.

Detailed Description

In order to make the technical problems, technical solutions and advantages to be solved more apparent, the following detailed description will be given with reference to the accompanying drawings and specific embodiments.

As shown in fig. 2 and 3, the invention provides a sighting telescope for a red dot gun, which comprises a telescope body 2, a bracket body 24, a trajectory adjusting device, a wind deflection adjusting device, a battery pack and a variable dot adjusting device, wherein the telescope body 2 is arranged above the bracket body 24, a gap is arranged between the telescope body 2 and the bracket body 24, and the right end of the telescope body 2 is connected with the bracket body 24 through a ball screw 6.

The ball screw 6 in this embodiment is the structure that is most easy to implement the technical solution of the present invention, and may be replaced by other connection structures, as long as one end can be fixedly connected with the mirror body or the support body, and the other end can be universally connected with the support body or the mirror body.

The left end of the mirror body 2 is provided with a mirror body adjusting block 32, the upper end face and the lower end face of the mirror body adjusting block 32 are parallel, and the front end face and the rear end face are parallel.

The left end of the support body 24 is provided with an upward protruding mounting block, the mounting block is provided with a square adjusting hole (the size of the adjusting hole determines the adjusting range of the mirror adjusting hole) penetrating through the mounting block, the mirror adjusting block 32 is inserted into the adjusting hole, and the front side, the rear side, the upper side and the lower side of the mounting block are respectively provided with a mounting hole communicated with the adjusting hole. A closed rubber 26 is mounted on the left side of the adjustment hole.

The wind deflection adjusting device comprises a wind deflection adjusting screw 31 and a wind deflection adjusting spring set, wherein the wind deflection adjusting screw 31 and the wind deflection adjusting spring set are respectively arranged in mounting holes at the front side and the rear side of an adjusting hole and respectively abut against the front end face and the rear end face of the mirror body adjusting block 32; the trajectory adjusting device comprises a trajectory adjusting screw 30 and a trajectory adjusting spring set, wherein the trajectory adjusting screw 30 and the trajectory adjusting spring set are respectively arranged in mounting holes at the upper side and the lower side of the adjusting hole and respectively abutted with the upper end face and the lower end face of the mirror body adjusting block 32.

The battery compartment is arranged at the bottom of the mirror body 2 and close to the bracket body, and the battery pack is embedded in the battery compartment.

The variable point adjusting device comprises a variable point hand wheel 13 and an LED, the LED is powered by a battery pack, the variable point adjusting device is embedded in the mirror body 2, and the lower part of the variable point hand wheel 13 is positioned in a gap between the mirror body 2 and the bracket body 24; the upper right end of the mirror body 2 is provided with a reflecting lens 1, and light rays emitted by the LEDs are emitted to the reflecting lens 1 from the variable point adjusting device.

As shown in fig. 4, the bottom of the right end of the mirror body 2 is provided with an upwardly extending threaded hole, the upper part of the right end of the support body 24 is provided with a downwardly extending ball head hole corresponding to the position of the threaded hole, the lower section of the ball head hole is an internal thread screwed with the ball head pressing ring, the upper section is an internal spherical surface hole, the bottom thread of the ball head hole is connected with the ball head pressing ring 7, the inner ring of the ball head pressing ring 7 is a spherical surface, the upper end of the ball head screw 6 is a screw rod screwed with the threaded hole, the lower end of the ball head is a ball head arranged in the ball head hole, and the lower part of the ball head is matched with the inner ring spherical surface of the ball head pressing ring 7.

As shown in fig. 5, the wind-deflection adjusting spring group includes a wind-deflection adjusting spring screw 27, a wind-deflection adjusting spring 28, and a wind-deflection adjusting spring stopper 29, and the wind-deflection adjusting screw 31 and the wind-deflection adjusting spring stopper 29 are respectively abutted against the front and rear end surfaces of the mirror body adjusting block 32.

The ballistic adjusting spring group comprises a ballistic adjusting spring screw, a ballistic adjusting spring and a ballistic adjusting spring stop, wherein the ballistic adjusting screw 30 and the ballistic adjusting spring stop are respectively abutted with the upper end face and the lower end face of the mirror body adjusting block 32.

As shown in fig. 6, the battery pack includes a battery case 17, a battery 16, a negative electrode reed 15, a positive electrode reed 20, and a battery base 19, wherein the positive electrode reed 20 and the negative electrode reed 15 are fixedly connected to the battery base 19, the battery base 19 is disposed at the rear of the battery case 17 and is fixedly connected to the mirror body 2, the battery 16 is disposed in the battery case 17, and the positive electrode and the negative electrode of the battery 16 are respectively contacted with the positive electrode reed 20 and the negative electrode reed 15, and the battery case 17 is detachably connected to the mirror body 2 through a locking screw 18. Two power lines 22 respectively connected with the positive electrode reed 20 and the negative electrode reed 15 extend out of the side of the battery base 19. By the above structure, after the locking screw 18 is loosened, the positive electrode reed 20 gives a pushing force to the front side of the battery case 17, so that the battery case 17 is ejected out relative to the battery compartment, and the battery case 17 is taken out conveniently.

In this embodiment, a fixing pin 21 is respectively disposed on the left and right end surfaces of the battery compartment, a clamping groove is respectively disposed at the left and right ends of the battery box 17, and the battery box 17 is limited in the battery compartment by the cooperation of the fixing pin 21 and the clamping groove.

As shown in fig. 3, the variable point adjusting device includes a variable point hand wheel 13, an LED seat 12, an LED, a rotary wheel 11, a differentiation wire 10, a differentiation seat 9, a variable point seat 8 and reflective glass, a variable point light via hole is formed in the mirror body 2, the variable point seat 8 is fixedly connected with the mirror body 2 below the variable point light via hole, the upper portion of the variable point hand wheel 13 is coaxially sleeved on the outer side of the lower portion of the variable point seat 8, the lower portion of the variable point hand wheel 13 is positioned at a gap between the mirror body 2 and a bracket body 24, a central shaft which is hollow and integrally formed in the lower side of the variable point seat 8 and extends downwards is sequentially sleeved on the central shaft from top to bottom, the differentiation seat 9, the rotary wheel 11 and the LED seat 12 are fixedly paved on the lower end surface of the differentiation seat 9, and the LED seat 12 is fixedly connected with the central shaft.

The rotary wheel 11 is provided with an eccentric shaft, the rotary wheel 11 is fixedly connected with the differentiation seat 9 relatively through the eccentric shaft, one side of the rotary wheel 11 opposite to the eccentric shaft is provided with a radial shaft 14, and the outer end of the radial shaft 14 is inserted into the variable-point hand wheel 13; the upper side of the variable point optical fiber via hole is provided with reflecting glass fixedly connected with the mirror body 2, the upper side of the reflecting glass is provided with a protective cover 4, and the right end of the protective cover 4 is provided with protective glass 5.

The LED lamp is characterized in that a plurality of red dot images are arranged on the differentiation wire 10, differentiation seat holes corresponding to the red dot images one by one are arranged on the differentiation seat 9, LED mounting holes for accommodating LEDs are arranged on the LED seat 12, variable dot seat holes are arranged on the variable dot seat 8 at positions corresponding to the LED mounting holes, and after the light rays emitted by the LEDs sequentially pass through the LED mounting holes, the red dot images on the differentiation wire 10, the differentiation seat holes, the variable dot seat holes and the variable dot light ray through holes, the light rays are reflected to the protective glass 5 by the reflecting glass, then part of the light rays which are directly irradiated through the reflecting glass 5 are reflected to eyes of a shooter through the reflecting lens 1, and the other part of the light rays are emitted from the reflecting lens 1.

Through the structure, the power line 22 passes through the through hole on the variable point seat 8 and then is connected with the LED, and the power supply is supplied to the LED through the battery; when the variable point is adjusted, the variable point hand wheel 13 is firstly shifted, the variable point hand wheel 13 drives the rotary wheel 11 to rotate around the central shaft through the radial shaft 14, the rotary wheel 11 drives the differentiation seat 9 to synchronously rotate through the eccentric shaft, and the differentiation wire 10 also rotates along with the rotation, so that different red point images on the differentiation wire 10 correspond to the LED mounting holes, and the variable point adjustment is realized. The brightness key 3 is embedded at the rear side of the mirror body 2 and used for adjusting the brightness of the LED (the principle is the same as that of the flashlight, a load circuit is arranged among the brightness key 3, the LED and the battery, and the voltage at two ends of the LED is changed by adjusting the load of the load circuit so as to adjust the brightness of the LED).

The variable point adjusting device in this embodiment may adopt other existing conventional structures in addition to the structure shown in fig. 6.

In this embodiment, the trajectory adjusting screw 30 includes a screw outer ring, a screw inner ring, a push rod and a spring pin, the screw outer ring is fixedly installed in the installation hole, one end of the screw outer ring is provided with an end face and a push rod through hole through which the push rod passes is provided on the end face, a circle of tooth slot is provided on the inner ring surface of the other end of the screw outer ring, one end of the push rod is in threaded connection with the screw inner ring, the other end of the push rod passes through the push rod through hole and then is in butt joint with the mirror body adjusting block 32, the screw inner ring is sleeved in the screw outer ring, and the spring pin is arranged in the screw inner ring and is inserted with the tooth slot after extending to the outer side of the screw inner ring in the radial direction.

The structure of the windage adjustment screw 31 is the same as the structure of the ballistic adjustment screw 30.

The ballistic adjusting screw 30 and the windage adjusting screw 31 in this embodiment may have other conventional structures than those described above.

The moving distance of the ballistic adjusting screw 30 is determined according to the number and the pitch of tooth grooves, and the outer end face of the ballistic adjusting screw can be engraved with shooting distance data, so that rapid and accurate shooting can be achieved only by setting the scale data as the actual shooting distance during shooting. The moving distance of the wind deflection adjusting screw 31 is determined according to the number of tooth grooves and the screw pitch, the outer end face of the wind deflection adjusting screw can be engraved with shooting distance data, and when shooting, rapid and accurate shooting can be achieved by setting the scale data as the actual shooting distance.

The side below of the support body 24 is connected with a support holding strip 25, and a chute is formed by surrounding the support holding strip 25 and the lower part of the support body 24. The sighting telescope for the red point gun is arranged on a sliding rail on the gun through a sliding groove.

The invention also provides a using method of the sighting telescope for the red-point gun, which comprises the steps of assembling the sighting telescope for the red-point gun, ballistically adjusting and wind deflection adjusting, wherein,

the assembling step of the sighting telescope for the red point gun comprises the following specific steps of:

(1-1) mounting of Battery pack

(1-1-1) fixedly mounting the positive electrode reed 20 and the negative electrode reed 15 on the battery base 19, and leading out the power line 22 from the positive electrode reed 20 and the negative electrode reed 15, and then fixedly mounting the battery base 19 on the rear end of the battery compartment;

(1-1-2) fixing pins 21 are provided at the left and right end surfaces of the battery compartment;

(1-1-3) mounting a battery 16 (button cell) in a battery case 17;

(1-1-4) the battery box 17 carrying the battery 16 is inserted from the front end of the battery compartment until the clamping groove on the battery box 17 is clamped and limited by the fixing pin 21, at this time, the positive electrode and the negative electrode of the battery 16 are correspondingly contacted with the positive electrode reed and the negative electrode reed, and then the battery box 17 is fixedly connected with the mirror body 2 by the locking screw 18.

(1-2) installation of a variable Point adjustment device

(1-2-1) fixedly connecting the differentiation wire 10 to the lower end surface of the differentiation seat 9;

(1-2-2) the differentiation seat 9, the rotary wheel 11 and the LED seat 12 are sequentially sleeved on the central shaft of the variable point seat 8 from top to bottom, the differentiation seat 9 and the rotary wheel 11 rotate relative to the central shaft, and the LED seat 12 is fixedly connected with the central shaft;

(1-2-3) mounting a radial shaft 14 on the rotary wheel 11;

(1-2-4) sleeving the variable point hand wheel 13 from below the variable point seat 8, and inserting a radial shaft 14 into a radial hole on the inner ring surface of the variable point hand wheel 13;

(1-2-5) the power line 22 is connected with the LED in the LED seat 12 after passing through the hole on the variable point seat 8;

(1-2-6) fixedly connecting the upper part of the variable point seat 8 in the component obtained in the step (1-2-5) with the mirror body 2 and locating below the variable point light through hole on the mirror body 2;

(1-2-7) reflecting glass and a protective cover 4 are fixedly arranged on the mirror body 2 above the variable-point light through hole, and then protective glass 5 is arranged at the front end of the protective cover 4.

(1-3) connection of the mirror body and the bracket body

(1-3-1) penetrating the ball screw upwards from the lower end of the ball hole on the bracket body to the position, in the ball hole, of the ball screw;

(1-3-2) rotating the ball screw to enable a screw rod at the upper part of the ball screw to be in threaded connection with a threaded hole at the bottom of the right end of the mirror body, and meanwhile ensuring that a gap is reserved between the mirror body and the bracket body, wherein the variable point hand wheel 13 is positioned between the mirror body and the bracket body and is not blocked in rotation;

and (1-3-3) screwing the ball head pressing ring from the lower end of the ball head hole, screwing the ball head pressing ring with the ball head hole, and pressing the ball head screw.

(1-4) installation of wind deflection adjusting device

The wind deflection adjusting spring stop 29, the wind deflection adjusting spring 28 and the wind deflection adjusting spring screw 27 are sequentially installed in the installation hole at the rear side of the adjusting hole, the wind deflection adjusting screw 31 is installed in the installation hole at the front side of the adjusting hole, and the wind deflection adjusting screw 31 and the wind deflection adjusting spring stop 29 are respectively abutted with the front end face and the rear end face of the mirror body adjusting block 32.

(1-5) installation of ballistic adjustment device

The ballistic regulating spring stop block, the ballistic regulating spring and the ballistic regulating spring screw are sequentially installed in the installation hole at the lower side of the regulating hole, the ballistic regulating screw 30 is installed in the installation hole at the upper side of the regulating hole, and the ballistic regulating screw 30 and the ballistic regulating spring stop block are respectively abutted with the upper end face and the lower end face of the mirror body regulating block 32.

(1-6) mounting of bracket clip strip 25

The bracket holding strip 25 is fixedly arranged at the lateral side of the lower part of the bracket body 24 through a screw, and forms a chute with the lower part of the bracket body 24.

(1-7) installation of the Enclosed rubber sheet 26

A sealing rubber 26 is mounted to the left end of the adjustment aperture to close the adjustment aperture.

The ballistic trajectory adjustment step is: the ballistic adjusting screw 30 is rotated, and the mirror body adjusting block 32 moves up and down under the pushing of the ballistic adjusting screw 30, so that the mirror body 2 is driven to move up and down by taking the ball head of the ball head screw 6 as a fulcrum, and the ballistic angle is adjusted.

The wind deflection adjusting step comprises the following steps: the wind deflection adjusting screw 31 is rotated, and the mirror body adjusting block 32 moves back and forth under the pushing of the wind deflection adjusting screw 31, so that the mirror body 2 is driven to move back and forth by taking the ball head of the ball head screw 6 as a pivot, and the wind deflection angle is adjusted.

The foregoing describes only a preferred embodiment of the present invention, and other alternatives are possible. For example: the structure of the ball screw and the ball pressing ring is not necessarily adopted between the mirror body and the bracket, and the connecting mechanism similar to the shaft connector can be utilized, so that the effects of supporting and moving can be achieved.

While the foregoing is directed to the preferred embodiments of the present invention, it will be appreciated by those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present invention, and such modifications and adaptations are intended to be comprehended within the scope of the present invention.

Claims (7)

1. The sighting telescope for the red point gun is characterized by comprising a telescope body, a bracket body, a trajectory adjusting device, a wind deflection adjusting device, a battery pack and a variable point adjusting device, wherein the telescope body is arranged above the bracket body, a gap is arranged between the telescope body and the bracket body, and the right end of the telescope body is connected with the bracket body through a ball screw;

the left end of the mirror body is provided with a mirror body adjusting block, the left end of the bracket body is provided with an upward protruding mounting block, the mounting block is provided with an adjusting hole, the mirror body adjusting block is inserted into the adjusting hole, the front side, the rear side, the upper side and the lower side of the mounting block are respectively provided with a mounting hole communicated with the adjusting hole, the wind deflection adjusting device comprises a wind deflection adjusting screw and a wind deflection adjusting spring group, and the wind deflection adjusting screw and the wind deflection adjusting spring group are respectively arranged in the mounting holes at the front side and the rear side of the adjusting hole and respectively abutted with the front end face and the rear end face of the mirror body adjusting block;

the trajectory adjusting device comprises a trajectory adjusting screw and a trajectory adjusting spring set, wherein the trajectory adjusting screw and the trajectory adjusting spring set are respectively arranged in mounting holes at the upper side and the lower side of an adjusting hole and respectively abutted with the upper end face and the lower end face of the mirror body adjusting block;

the battery compartment is arranged on the mirror body, and the battery pack is embedded in the battery compartment;

the variable point adjusting device comprises a variable point hand wheel and an LED, the LED is powered by the battery pack, the variable point adjusting device is embedded in the mirror body, and the lower part of the variable point hand wheel is positioned in a gap between the mirror body and the bracket body; a reflecting lens is arranged above the right end of the mirror body, and light rays emitted by the LEDs are emitted to the reflecting lens from the variable point adjusting device;

the upper part of the right end of the support body is provided with a ball head hole which extends downwards, a ball head pressing ring is fixedly arranged at the bottom of the ball head hole, the inner ring of the ball head pressing ring is a spherical surface, the upper end of the ball head screw is a screw rod which is in threaded connection with the threaded hole, the lower end of the ball head screw is a ball head arranged in the ball head hole, and the lower part of the ball head is matched with the spherical surface of the inner ring of the ball head pressing ring;

the wind deflection adjusting spring set comprises a wind deflection adjusting spring screw, a wind deflection adjusting spring and a wind deflection adjusting spring stop block, and the wind deflection adjusting screw and the wind deflection adjusting spring stop block are respectively abutted with the front end face and the rear end face of the mirror body adjusting block;

the ballistic adjusting spring set comprises a ballistic adjusting spring screw, a ballistic adjusting spring and a ballistic adjusting spring stop block, wherein the ballistic adjusting screw and the ballistic adjusting spring stop block are respectively abutted with the upper end face and the lower end face of the mirror body adjusting block;

the battery pack comprises a battery box, a battery, a negative electrode reed, a positive electrode reed and a battery base, wherein the positive electrode reed and the negative electrode reed are fixedly connected to the battery base, the battery base is arranged at the rear of the battery box and is fixedly connected with the mirror body, the battery is arranged in the battery box, the positive electrode and the negative electrode of the battery are respectively contacted with the positive electrode reed and the negative electrode reed, the battery box is detachably connected with the mirror body through screws, and two power lines respectively connected with the positive electrode reed and the negative electrode reed extend out from the side of the battery base;

the variable point adjusting device comprises a variable point hand wheel, an LED seat, an LED, a rotary wheel, a differentiation wire, a differentiation seat, a variable point seat and reflecting glass, wherein a variable point light through hole is formed in the mirror body, the variable point seat is fixedly connected with the mirror body below the variable point light through hole, the upper part of the variable point hand wheel is coaxially sleeved on the outer side of the lower part of the variable point seat, the lower part of the variable point hand wheel is positioned at a gap between the mirror body and the support body, the inner lower side of the variable point seat is hollow and integrally formed with a central shaft extending downwards, the differentiation seat, the rotary wheel and the LED seat are sequentially sleeved on the central shaft from top to bottom, and the differentiation wire is fixedly paved on the lower end surface of the differentiation seat, and the LED seat is fixedly connected with the central shaft;

the rotary wheel is provided with an eccentric shaft, the rotary wheel is fixedly connected with the differentiation seat relatively through the eccentric shaft, one side of the rotary wheel opposite to the eccentric shaft is provided with a radial shaft, and the outer end of the radial shaft is inserted into the variable-point hand wheel; a reflective glass fixedly connected with the mirror body is arranged above the variable-point optical fiber via hole, a protective cover is arranged above the reflective glass, and a protective glass is arranged at the right end of the protective cover;

the LED lamp is characterized in that a plurality of red dot images are arranged on the differentiation wire, differentiation seat holes corresponding to the red dot images one to one are arranged on the differentiation seat, LED mounting holes for accommodating LEDs are arranged on the LED seat, variable dot seat holes are arranged on the variable dot seat corresponding to the LED mounting holes, light rays emitted by the LEDs sequentially pass through the LED mounting holes, the red dot images on the differentiation wire, the differentiation seat holes, the variable dot seat holes and the variable dot light ray through holes, are reflected to the protective glass by the reflecting glass, then partial light rays after direct irradiation by the reflecting glass are reflected to eyes of a shooter through the reflecting lens, and the other partial light rays are emitted from the reflecting lens.

2. The aiming device for the red spot type gun according to claim 1, wherein the left end face and the right end face of the battery compartment are respectively provided with a fixing pin, the left end and the right end of the battery box are respectively provided with a clamping groove, and the battery box is limited in the battery compartment through the matching of the fixing pins and the clamping grooves.

3. The sighting telescope for the red-spot gun according to claim 1, wherein the ballistic adjusting screw comprises a screw outer ring, a screw inner ring, a push rod and a spring pin, the screw outer ring is fixedly installed in the installation hole, one end of the screw outer ring is provided with an end face, a push rod through hole for the push rod to pass through is formed in the end face, a circle of tooth socket is formed in the inner ring surface of the other end of the screw outer ring, one end of the push rod is in threaded connection with the screw inner ring, the other end of the push rod is in butt joint with the mirror body adjusting block after passing through the push rod through hole, the screw inner ring is sleeved in the screw outer ring, and the spring pin is arranged in the screw inner ring and is inserted into the tooth socket after extending to the outer side of the screw inner ring in the radial direction.

4. The aiming tee of claim 1, wherein a closed rubber is mounted to the left side of the adjustment aperture.

5. The aiming device for a red dot type gun according to claim 1, wherein a bracket clamping strip is connected to the side lower part of the bracket body, and a chute is formed by surrounding the bracket clamping strip and the lower part of the bracket body.

6. The method for using the sighting telescope for the red-spot gun according to any one of claims 1 to 5, comprising the steps of assembling the sighting telescope for the red-spot gun, ballistic adjusting and wind deflection adjusting, wherein the assembling step of the sighting telescope for the red-spot gun comprises the following specific steps:

(1-1) mounting of Battery pack

(1-1-1) fixedly mounting the positive electrode reed and the negative electrode reed on a battery base, leading out a power line from the positions of the positive electrode reed and the negative electrode reed, and fixedly mounting the battery base at the rear end of a battery compartment;

(1-1-2) arranging fixing pins at the left end face and the right end face of the battery bin;

(1-1-3) mounting the battery in a battery case;

(1-1-4) inserting a battery box carrying a battery from the front end of a battery compartment until a clamping groove on the battery box is clamped and limited by a fixing pin, correspondingly contacting the positive electrode reed and the negative electrode reed with the positive electrode and the negative electrode reed, and fixedly connecting the battery box with the mirror body by using a locking screw;

(1-2) installation of a variable Point adjustment device

(1-2-1) fixedly connecting the differentiation wire to the lower end surface of the differentiation seat;

(1-2-2) the differentiation seat, the rotary wheel and the LED seat are sequentially sleeved on the central shaft of the variable point seat from top to bottom, the differentiation seat and the rotary wheel rotate relative to the central shaft, and the LED seat is fixedly connected with the central shaft;

(1-2-3) mounting a radial shaft on a turret;

(1-2-4) sleeving the variable point hand wheel from the lower part of the variable point seat, and inserting a radial shaft into a radial hole on the inner ring surface of the variable point hand wheel;

(1-2-5) connecting the power line with the LED in the LED seat after penetrating through the hole on the self-changing point seat;

(1-2-6) fixedly connecting the upper part of the variable point seat in the component obtained in the step (1-2-5) with the lens body and locating below the variable point light through hole on the lens body;

(1-2-7) fixedly arranging reflective glass and a protective cover on the mirror body above the variable-point light through hole, and then installing protective glass at the front end of the protective cover;

(1-3) connection of the mirror body and the bracket body

(1-3-1) penetrating the ball screw upwards from the lower end of the ball hole on the bracket body to the position, in the ball hole, of the ball screw;

(1-3-2) rotating the ball screw to enable a screw rod at the upper part of the ball screw to be in threaded connection with a threaded hole at the bottom of the right end of the mirror body, and meanwhile ensuring that a gap is reserved between the mirror body and the bracket body, wherein a variable point hand wheel is positioned between the mirror body and the bracket body and is not blocked in rotation;

(1-3-3) screwing the ball head pressing ring from the lower end of the ball head hole, screwing the ball head pressing ring with the ball head hole, and pressing the ball head screw;

(1-4) a wind deflection adjusting spring stop block, a wind deflection adjusting spring and a wind deflection adjusting spring screw of the wind deflection adjusting device are sequentially arranged in an installation hole at the rear side of the adjusting hole, the wind deflection adjusting screw is arranged in an installation hole at the front side of the adjusting hole, and the wind deflection adjusting screw and the wind deflection adjusting spring stop block are respectively abutted with the front end face and the rear end face of the mirror body adjusting block;

(1-5) installation of ballistic adjustment device

The ballistic regulating spring stop block, the ballistic regulating spring and the ballistic regulating spring screw are sequentially arranged in the mounting hole at the lower side of the regulating hole, the ballistic regulating screw is arranged in the mounting hole at the upper side of the regulating hole, and the ballistic regulating screw and the ballistic regulating spring stop block are respectively abutted with the upper end face and the lower end face of the mirror body regulating block;

(1-6) mounting of bracket clip strips

The bracket clamping strip is fixedly arranged on the lateral side of the lower part of the bracket body through a screw, and a chute is formed by surrounding the bracket clamping strip and the lower part of the bracket body;

(1-7) mounting of the Enclosed rubber sheet

And installing the closed rubber skin at the left end of the adjusting hole so as to seal the adjusting hole.

7. The method of using a red spot gun sight according to claim 6, wherein the trajectory adjustment step is: the ballistics adjusting screw is rotated, and the mirror body adjusting block moves up and down under the pushing of the ballistics adjusting screw, so that the mirror body is driven to move up and down by taking the ball head of the ball head screw as a fulcrum, and the ballistics angle is adjusted;

the wind deflection adjusting step comprises the following steps: the wind deflection adjusting screw is rotated, and the mirror body adjusting block moves forwards and backwards under the pushing of the wind deflection adjusting screw, so that the mirror body is driven to move forwards and backwards by taking the ball head of the ball head screw as a pivot, and the wind deflection angle is adjusted.