CN113551558A - Digital sighting telescope - Google Patents

Abstract

The invention discloses a digital sighting telescope which comprises a sighting telescope body, wherein a plurality of adjusting knobs are arranged on the sighting telescope body, a first transmission gear is arranged on each adjusting knob, an encoder is arranged on the sighting telescope body on one side of each adjusting knob, a second transmission gear is arranged on a main shaft of the encoder, and the second transmission gear is meshed with the first transmission gear; the adjusting knob is provided with a rotation limiting part and a free rotating part, the first transmission gear is connected between the rotation limiting part and the free rotating part in a sliding mode, and when the first transmission gear slides to the rotation limiting part, the first transmission gear is located on the rotation limiting part of the adjusting knob in the circumferential direction of the adjusting knob; when the first transmission gear slides to the free rotation part, the first transmission gear can rotate freely at the free rotation part of the adjusting knob. The invention can digitize the adjustment quantity, improves the accuracy after adjustment, and simultaneously can drive the adjusting knob to rotate to a required position, thereby improving the shooting efficiency.

Description

Digital sighting telescope

Technical Field

The invention belongs to the technical field of sighting telescope, and particularly relates to a digital sighting telescope.

Background

Sighting scopes, and in particular telescopic scopes, have been invented for a wide variety of purposes in competition, hunting and military activities because they can target objects clearly and accurately. Because the flight path of the bullet is a parabolic track, and then the bullet hits a remote target due to the influence of the environment such as wind on the flight path, the bullet is not easy to hit, a shooter needs to measure the distance of the target, calculate the trajectory, and adjust the adjusting knob of the sighting telescope as necessary. However, the shooter must remove the eye from the target seen by the scope and adjust the eye little by little with the adjustment knob, and the entire adjustment process is time-consuming and labor-consuming. Shooting has entered the intelligent era, has had many intelligent equipment such as intelligent range finding, intelligent ballistic calculation APP, but these intelligent equipment and gun sight are all independent each other, no matter how advanced intelligence is, and the gun sight is never directly linked together. In practice, the target is often mobile, the shooting opportunity can be vanished in the short term, no device is provided, the shooter can directly and instantly see the adjustment quantity of each adjusting knob of the sighting telescope in real time from the display screen, no device is provided, the data of intelligent equipment can be directly related with the adjustment quantity of the sighting telescope, so that the intelligent calculation result is directly reflected as the current adjustment quantity and the required adjustment quantity of each adjusting knob of the digital sighting telescope, the misoperation of precision equipment cannot be caused, and the shooting efficiency is greatly reduced in the prior art.

Disclosure of Invention

The present invention is directed to a digital sighting telescope, which solves the above problems of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

a digital sighting telescope comprises a sighting telescope body, wherein a plurality of adjusting knobs are arranged on the sighting telescope body, a first transmission gear is arranged on each adjusting knob, an encoder is arranged on the sighting telescope body on one side of each adjusting knob, a second transmission gear is arranged on a main shaft of the encoder, and the second transmission gear is meshed with the first transmission gear; the first transmission gear is movably mounted on the adjusting knob, a rotation limiting part and a free rotating part are arranged on the circumferential surface of the adjusting knob, the free rotating part is located at one end, away from the sighting telescope body, of the rotation limiting part, the first transmission gear is connected between the rotation limiting part and the free rotating part in a sliding mode, when the first transmission gear slides to the rotation limiting part, the first transmission gear is located at the rotation limiting part of the adjusting knob in the circumferential direction of the adjusting knob, and at the moment, the first transmission gear is meshed with the second transmission gear; when first drive gear slided to the free rotation portion, first drive gear and second drive gear separation, first drive gear can carry out the free rotation at the free rotation portion of adjust knob.

Further preferably, one end of the first transmission gear is provided with a mounting groove, and the first transmission gear is sleeved on the adjusting knob through the mounting groove.

More preferably, at least three elastic positioning mechanisms are arranged on the inner wall of the mounting groove, all the elastic positioning mechanisms can synchronously slide between the rotation limiting part and the free rotation part, and all the elastic positioning mechanisms can freely rotate on the free rotation part of the adjusting knob; when first drive gear slided to rotatory spacing portion, first drive gear realized the location at rotatory spacing portion through all elastic locating mechanism, and when first drive gear slided to the free rotation portion, all elastic locating mechanism rotated along adjust knob's circumferencial direction and connect in adjust knob's free rotation portion.

Still further preferably, the rotation limiting part comprises at least three first spherical grooves, and all the first spherical grooves are uniformly distributed on the circumferential surface of the adjusting knob; the free rotating part comprises at least three second spherical grooves, all the second spherical grooves are uniformly distributed on the circumferential surface of the adjusting knob, every two adjacent second spherical grooves are communicated through a circumferential sliding groove, all the circumferential sliding grooves and all the second spherical grooves are combined into a circular ring taking the central shaft of the adjusting knob as a circular shaft, and the depth of each second spherical groove is greater than that of each circumferential sliding groove; every second spherical recess all corresponds the setting with a first spherical recess, and through axial spout intercommunication between every second spherical recess and the first spherical recess that corresponds, the degree of depth of second spherical recess and the degree of depth of first spherical recess all are greater than the degree of depth of axial spout.

Still further preferably, any one of the first spherical grooves is communicated with the corresponding axial sliding groove through a first arc-shaped transition groove, and the depth of the arc-shaped transition groove gradually decreases from the corresponding first spherical groove to the corresponding axial sliding groove.

It is further preferable that any one of the second spherical grooves is communicated with the adjacent circumferential sliding groove through a second arc-shaped transition groove, and the depth of each second arc-shaped transition groove gradually decreases from the corresponding second spherical groove to the corresponding circumferential sliding groove.

More preferably, the elastic positioning mechanism comprises T-shaped grooves, T-shaped positioning pieces and springs, all the T-shaped grooves are uniformly distributed on the inner wall of the mounting groove, one T-shaped positioning piece is connected in each T-shaped groove in a sliding mode, one end of each T-shaped positioning piece is a spherical head structure extending out of each T-shaped groove, and the spherical head structures are connected between the rotation limiting portion and the free rotation portion in a sliding mode in a matched mode; each spring is arranged between the other end of one T-shaped positioning piece and the inner bottom surface of the T-shaped groove.

More preferably, the digital sighting telescope further comprises a semicircular hoop, two semicircular hoops positioned on one side of the adjusting knob are mounted on the sighting telescope body, and the two semicircular hoops are locked on the sighting telescope body through bolts; the encoder is arranged on the semicircular hoop.

Has the advantages that: the invention can transmit the adjustment quantity of each adjusting knob of the sighting telescope to the encoder through the gear, then digitalizes the adjustment quantity in time through the encoder, and simultaneously can slide the first transmission gear to the position where the adjusting knob can freely rotate after the adjustment is finished, thereby avoiding mistaken touch of the first transmission gear, further influencing the adjustment precision, improving the accuracy after the adjustment.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the first transmission gear of the present invention when the rotation limiting portion of the knob is adjusted;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a schematic view of the first transmission gear of the present invention in adjusting the freely rotatable portion of the knob;

fig. 5 is an enlarged schematic view of a portion B in fig. 4.

In the figure: 1-a sighting telescope body; 2-adjusting knob; 201-a first spherical recess; 202-a second spherical recess; 203-circumferential sliding groove; 204-a first arcuate transition slot; 205-a second arcuate transition slot; 206-axial runner; 3-a first transmission gear; 4-an encoder; 5-a second transmission gear; 6-T-shaped positioning pieces; 7-a spring; 8-semicircular clamping hoop.

Detailed Description

The technical solutions in the embodiments will be described clearly and completely with reference to the accompanying drawings, and the described embodiments are only a part of the embodiments, but not all embodiments, and all other embodiments obtained by those skilled in the art without creative efforts will belong to the protection scope of the present solution based on the embodiments in the present solution.

Example (b):

as shown in fig. 1-5, the present embodiment provides a digital sighting telescope, which includes a sighting telescope body 1, a plurality of adjusting knobs 2 are disposed on the sighting telescope body 1, for example, the existing patents with application numbers of CN201621147257.0 or CN202022263025.4 are all used for aiming the sighting telescope body more accurately, each adjusting knob 2 is provided with a first transmission gear 3, an encoder 4 is mounted on the sighting telescope body 1 on one side of each adjusting knob 2, a second transmission gear 5 is mounted on a main shaft of the encoder 4, the second transmission gear 5 is meshed with the first transmission gear 3, when the adjusting knob 2 needs to be adjusted, the adjusting knob 2 can be driven to rotate only by rotating the first transmission gear 3, so as to adjust the precision, meanwhile, the first transmission gear 3 can also drive the second transmission gear 5 to synchronously rotate, the second transmission gear 5 rotates to drive the main shaft of the encoder 4 to rotate, the amount of adjustment is thus read by the encoder 4, so that the angular adjustment is digitized; the first transmission gear 3 is movably arranged on the adjusting knob 2, a rotation limiting part and a free rotating part are arranged on the circumferential surface of the adjusting knob 2, the free rotating part is positioned at one end of the rotation limiting part far away from the sighting telescope body 1, the first transmission gear 3 is connected between the rotation limiting part and the free rotating part in a sliding way, when the first transmission gear 3 slides to the rotation limit portion, the first transmission gear 3 is positioned at the rotation limit portion of the adjustment knob 2 in the circumferential direction of the adjustment knob 2, when the first transmission gear 3 rotates, the adjusting knob 2 can be driven to rotate synchronously, and the part between the axial rotation limiting part and the free rotation part is not limited, so that the first transmission gear 3 can conveniently slide between the rotation limiting part and the free rotation part, and at the moment, the first transmission gear 3 is meshed with the second transmission gear 5, and the first transmission gear 3 and the second transmission gear 5 can conveniently transmit with each other; when the first transmission gear 3 slides to the free rotation part, the first transmission gear 3 is separated from the second transmission gear 5, so as to avoid the mutual transmission influence between the first transmission gear 3 and the second transmission gear 5, the first transmission gear 3 can freely rotate on the free rotation part of the adjusting knob 2, and the first transmission gear 3 is preferentially rotated in the circumferential direction of the adjustment knob 2 at this time, that is, when the first transmission gear 3 is located on the free rotation part of the adjusting knob 2, the first transmission gear 3 is rotationally connected to the adjusting knob 2, and at this time, the rotation of the first transmission gear 3 does not drive the adjusting knob 2 to rotate, so that the constraint of the first transmission gear 3 on the adjusting knob 2 is removed, even if the first transmission gear 3 is touched by mistake and takes place to rotate, can not drive adjust knob 2 and rotate, produce a protection mechanism to adjust knob 2.

It should be noted that, the encoder in this embodiment may digitize the adjustment, and if the digitized data is embodied, the information generated by the encoder may be transmitted to a terminal at a mobile phone end, or the like, or a display may be disposed on the scope body 1, and the information generated by the encoder is directly embodied through the display, which are mature prior art and will not be described in detail.

The invention can transmit the adjustment quantity of each adjusting knob of the sighting telescope to the encoder through the gear, then digitalizes the adjustment quantity in time through the encoder, and simultaneously can slide the first transmission gear to the position where the adjusting knob can freely rotate after the adjustment is finished, thereby avoiding mistaken touch of the first transmission gear, further influencing the adjustment precision, improving the accuracy after the adjustment.

It needs to be further explained in this embodiment, one end of the first transmission gear 3 is provided with a mounting groove, and the first transmission gear 3 is sleeved on the adjusting knob 2 through the mounting groove, so that the first transmission gear 3 is in sufficient contact with the adjusting knob 2, and further, the interaction between the first transmission gear 3 and the adjusting knob 2 is more stable.

In this embodiment, it should be further described that at least three elastic positioning mechanisms are disposed on the inner wall of the mounting groove, all the elastic positioning mechanisms can synchronously slide between the rotation limiting portion and the free rotation portion, and all the elastic positioning mechanisms can freely rotate on the free rotation portion of the adjusting knob 2; when first drive gear 3 slides to rotatory spacing portion, first drive gear 3 realizes the location at rotatory spacing portion through all elastic locating mechanism, and then drives adjust knob 2 rotatoryly, and when first drive gear 3 slided to the free rotation portion, all elastic locating mechanism rotated the free rotation portion who connects in adjust knob 2 along adjust knob 2's circumferencial direction.

It should be further described in this embodiment that the rotation limiting portion includes at least three first spherical grooves 201, and if the first spherical groove 201 corresponds to one ball, the size of the first spherical groove 201 is preferably just half of the size of the ball, and certainly, may be smaller than half of the size of the ball, but in this embodiment, the first spherical groove 201 is preferably half of the size of the ball, the opening of the groove is always in an enlarged shape, so as to facilitate the sliding in and out of the elastic positioning mechanism, and all the first spherical grooves 201 are uniformly distributed on the circumferential surface of the adjusting knob 2; the free rotation part comprises at least three second spherical grooves 202, all the second spherical grooves 202 are uniformly distributed on the circumferential surface of the adjusting knob 2, every two adjacent second spherical grooves 202 are communicated through a circumferential sliding groove 203, all the circumferential sliding grooves 203 and all the second spherical grooves 202 are combined into a circular ring taking the central shaft of the adjusting knob 2 as a circular shaft, so that the first transmission gear 3 can conveniently slide in the circular ring, and the depth of each second spherical groove 202 is greater than that of each circumferential sliding groove 203, so that the second spherical grooves 202 serve as a turning point and can conveniently slide to the first spherical grooves 201 when needed; each second spherical groove 202 is arranged corresponding to one first spherical groove 201, and each second spherical groove 202 is communicated with the corresponding first spherical groove 201 through an axial sliding chute 206, so that the second spherical groove 202 can be conveniently and quickly found when the first transmission gear 3 slides in the circular ring, so that, by sliding the axial runner 206 towards the first spherical recess 201, the depth of the second spherical recess 202 and the depth of the first spherical recess 201 are both greater than the depth of the axial runner 206, the axial sliding groove 206 can be used as a channel only during sliding, the positioning of the first transmission gear 3 in the first spherical groove 201 cannot be affected, the first transmission gear 3 can automatically slide to the axial sliding groove 206 when sliding to the second spherical groove 202 in the circular ring does not need to be worried about, and then guarantee that first drive gear 3 can all keep relative stability in spacing portion of rotation and free rotation portion.

It should be further explained in this embodiment, all communicate through the excessive groove 204 of first arc between arbitrary first spherical recess 201 and the axial chute 206 that corresponds, the degree of depth of the excessive groove 204 of arc diminishes from the first spherical recess 201 that corresponds to the axial chute 206 that corresponds gradually, and then make the elastic positioning mechanism light more when sliding from first spherical recess 201 to axial chute 206, that is to say when needs adjust knob 2, need exert oneself a little, guarantee that the elastic positioning mechanism is fixed a position in first spherical recess 201, after the adjustment, then can be light withdraw from first spherical recess 201 with the elastic positioning mechanism.

It should be further described in this embodiment that any one of the second spherical grooves 202 is communicated with the adjacent circumferential sliding groove 203 through the second arc-shaped transition groove 205, and the depth of each second arc-shaped transition groove 205 is gradually reduced from the corresponding second spherical groove 202 to the corresponding circumferential sliding groove 203, so that the elastic positioning mechanism is easier to slide from the second spherical groove 202 to the circumferential sliding groove 203, and when the elastic positioning mechanism is located in the second spherical groove 202, the sliding to the circumferential sliding groove 203 is easier than the sliding to the axial sliding groove 206, and the elastic positioning mechanism is easier to maintain the released state.

In this embodiment, it should be further described that the elastic positioning mechanism includes T-shaped grooves, T-shaped positioning members 6 and springs 7, all the T-shaped grooves are uniformly distributed on the inner wall of the mounting groove, each T-shaped groove is connected with one T-shaped positioning member 6 in a sliding manner, one end of each T-shaped positioning member 6 is a spherical head structure extending out of the T-shaped groove, and the spherical head structures are connected between the rotation limiting portion and the free rotation portion in a sliding manner in a matching manner; every spring 7 all install with between the other end of a T type setting element 6 and the interior bottom surface of T type recess for T type setting element 6 elastic connection is in T type recess, changes the flexible of T type setting element 6 according to the slip on adjust knob 2, and guarantees first transmission gear 3 and adjust knob 2's stable connection.

In this embodiment, it should be further described that the digital sighting telescope further includes a semicircular clamp 8, two semicircular clamps 8 located on one side of the adjusting knob 2 are installed on the sighting telescope body 1, and the two semicircular clamps 8 are locked on the sighting telescope body 1 through bolts; the encoder 4 is arranged on the semicircular hoop 8, and the encoder 4 is assembled and disassembled.

Finally, it should be noted that: the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A digital sighting telescope comprises a sighting telescope body (1), wherein a plurality of adjusting knobs (2) are arranged on the sighting telescope body (1), and the digital sighting telescope is characterized in that each adjusting knob (2) is provided with a first transmission gear (3), an encoder (4) is arranged on the sighting telescope body (1) on one side of each adjusting knob (2), a main shaft of each encoder (4) is provided with a second transmission gear (5), and the second transmission gears (5) are meshed with the first transmission gears (3); the first transmission gear (3) is movably mounted on the adjusting knob (2), a rotation limiting part and a free rotation part are arranged on the circumferential surface of the adjusting knob (2), the free rotation part is located at one end, far away from the sighting telescope body (1), of the rotation limiting part, the first transmission gear (3) is connected between the rotation limiting part and the free rotation part in a sliding mode, when the first transmission gear (3) slides to the rotation limiting part, the first transmission gear (3) is located at the rotation limiting part of the adjusting knob (2) in the circumferential direction of the adjusting knob (2), and at the moment, the first transmission gear (3) is meshed with the second transmission gear (5); when the first transmission gear (3) slides to the free rotation part, the first transmission gear (3) is separated from the second transmission gear (5), and the first transmission gear (3) can freely rotate on the free rotation part of the adjusting knob (2).

2. The digital sighting telescope according to claim 1, wherein one end of the first transmission gear (3) is provided with a mounting groove, and the first transmission gear (3) is sleeved on the adjusting knob (2) through the mounting groove.

3. The digital sighting telescope according to claim 2, wherein the inner wall of the mounting groove is provided with at least three elastic positioning mechanisms, all the elastic positioning mechanisms can synchronously slide between the rotation limiting part and the free rotation part, and all the elastic positioning mechanisms can freely rotate on the free rotation part of the adjusting knob (2); when first drive gear (3) slide to rotatory spacing portion, location at rotatory spacing portion is realized through all elastic locating mechanism to first drive gear (3), and when first drive gear (3) slide to the free rotation portion, all elastic locating mechanism rotate along the circumferencial direction of adjust knob (2) and connect in the free rotation portion of adjust knob (2).

4. The digital sighting telescope according to claim 3, wherein the rotation limiting part comprises at least three first spherical grooves (201), and all the first spherical grooves (201) are uniformly distributed on the circumferential surface of the adjusting knob (2); the free rotation part comprises at least three second spherical grooves (202), all the second spherical grooves (202) are uniformly distributed on the circumferential surface of the adjusting knob (2), every two adjacent second spherical grooves (202) are communicated through a circumferential sliding groove (203), all the circumferential sliding grooves (203) and all the second spherical grooves (202) are combined into a circular ring taking the central shaft of the adjusting knob (2) as a circular shaft, and the depth of each second spherical groove (202) is greater than that of each circumferential sliding groove (203); each second spherical groove (202) is correspondingly arranged with one first spherical groove (201), each second spherical groove (202) is communicated with the corresponding first spherical groove (201) through an axial sliding groove (206), and the depth of each second spherical groove (202) and the depth of each first spherical groove (201) are larger than the depth of each axial sliding groove (206).

5. The digital sighting telescope according to claim 4, wherein any one of the first spherical grooves (201) is communicated with the corresponding axial sliding groove (206) through a first arc-shaped transition groove (204), and the depth of the arc-shaped transition groove (204) is gradually reduced from the corresponding first spherical groove (201) to the corresponding axial sliding groove (206).

6. The digital sighting telescope according to claim 4, wherein any one of the second spherical grooves (202) is communicated with the adjacent circumferential sliding grooves (203) through a second arc-shaped transition groove (205), and the depth of each second arc-shaped transition groove (205) is gradually reduced from the corresponding second spherical groove (202) to the corresponding circumferential sliding groove (203).

7. The digital sighting telescope according to any one of claims 3-6, wherein the elastic positioning mechanism comprises T-shaped grooves, T-shaped positioning pieces (6) and springs (7), all the T-shaped grooves are uniformly distributed on the inner wall of the mounting groove, one T-shaped positioning piece (6) is connected in each T-shaped groove in a sliding manner, one end of each T-shaped positioning piece (6) is of a spherical head structure extending out of the T-shaped groove, and the spherical head structures are connected between the rotation limiting part and the free rotation part in a sliding manner in a matching manner; each spring (7) is arranged between the other end of one T-shaped positioning piece (6) and the inner bottom surface of the T-shaped groove.

8. The digital sighting telescope according to claim 1, characterized in that the digital sighting telescope further comprises a semicircular clamp (8), two semicircular clamps (8) are mounted on the sighting telescope body (1) and located on one side of the adjusting knob (2), and the two semicircular clamps (8) are locked on the sighting telescope body (1) through bolts; the encoder (4) is arranged on the semicircular hoop (8).

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