KR102371388B1 - A magnifying glass for guns - Google Patents

Abstract

The present invention relates to a magnifying glass for a gun. More specifically, the magnifying glass for a gun can us a small, lightweight and compact 3x magnifying glass assembly as a magnifying sight, thereby accurately aiming at a distant object at 3x magnification, can be linked with a personal weapon scope, thereby increasing operational efficiency through reduction of combat load, can have the surfaces of an eyepiece and an objective lens coated with an anti-fog coating, thereby securing the field of view even under conditions such as humid weather and the temperature difference between the interior and the exterior, can have the 3x magnifying glass assembly fastened to a mount assembly in a hinge type, thereby facilitating easier left and right switching for both left and right-handed shooters, can have the lens assembly of an optical system as a combination of a prism, the objective lens, and the eyepiece, thereby aiming at a target at a distance of 400 m when the magnifying glass is used for a human target, and can minimize distortion, thereby enabling precise aiming, can change the distance between the objective lens and the eyepiece while rotating the adjustment ring of the eyepiece clockwise or counterclockwise, thereby adjusting the focus according to the eyesight of a user, and enabling a glasses wearer to correct the difference in vision without glasses, can have a vertical correction dial and a horizontal correction dial mounted on an upper part and side parts of a 3x magnifying glass body to have left and right and up and down optical-axis correction functions, thereby securing the field of view of the magnifying glass through an optical-axis alignment function, and can secure a focus distance of 68 mm, thereby minimizing risk factors for the safety of the user due to the recoil of the firearm when the same fires.

Description

A magnifying glass for guns

The present invention uses a small and light compact 3x magnifying glass assembly as a magnifying scope, so that it is possible to accurately aim a distant object at 3x magnification, as well as to improve effective operational operability by reducing combat load. , By applying anti-fog coating on the surface of the eyepiece and objective lens, visibility can be secured even under conditions of indoor and outdoor temperature difference and wet weather. By fastening it, it is easy to change the left and right sides for both left and right use, and by configuring the lens assembly of the optical system by combining a prism, an objective lens, and an eyepiece, a 400m distance target when applying a magnifying scope based on a human target This aiming is possible, as well as distortion is minimized, enabling precise aiming. By rotating the adjustment ring of the eyepiece clockwise or counterclockwise, the distance between the objective lens and the eyepiece is changed to adjust the focus according to the user's eyesight. Of course, glasses wearers can use it without glasses by correcting the difference in visual acuity, and by installing vertical and horizontal correction dials on the upper and side parts of the 3X magnifying glass body, respectively, the left and right and up and down optical axis correction functions are improved. Therefore, it is possible to secure the field of view of the magnifying glass through the alignment function of the optical axis, and to minimize the risk to the user's safety due to the recoil of firearms when shooting, a technology related to the magnifying scope for firearms that can secure a focal distance of 68mm am.

A sight refers to a telescope for sighting, and it is a device that attaches to a firearm such as a rifle to see a distant target in a larger size and accurately aim it. Here, a rifle is a personal firearm that shoots shoulder-to-shoulder using a bullet in a barrel with a steel wire, and can accurately hit a target with precise aiming.

Aiming a rifle like this is usually done by aligning the line of sight towards the target, which is an important step in determining the accuracy of shooting.

However, since the sight and the scale itself are very small, and even a slight vibration can disturb the alignment, the shooter needs a high level of concentration to align the line of sight.

In addition, if you pay too much attention to the line of sight alignment, your gaze is focused on the sight and the scale itself rather than the target or the situation ahead, and the field of view becomes narrow. It takes a relatively long time.

Therefore, in order to solve this problem, a sight was conventionally attached to the rifle. These sights add coordinate lines or points to the principle of a telescope, and do not require a separate line of sight alignment.

In order to change the magnification in the prior art, since the entire scope that has been aimed at the zero point needs to be replaced, there are disadvantages in that it is inconvenient and time consuming to perform the zero aim again after replacing the scope.

In addition, in the case of the conventional case, it is possible to accurately aim a distant object at 3x magnification, as well as interlock with a personal weapon sight to improve effective operational operability through reduction of combat load, even under conditions of indoor and outdoor temperature difference and wet weather. It is possible to secure a field of view, and it is easy to change the left and right sides for both left and right use, and when a magnifying scope is applied based on a human target, it is possible to aim at a target at a distance of 400 m, as well as to achieve precise aiming with minimal distortion. As well as being able to adjust the focus according to the user's eyesight, there is still no magnifying scope for a firearm that can be used by a spectacle wearer by correcting the difference in visual acuity without glasses.

Therefore, as a magnifying sight, it is possible to accurately aim a distant object at 3x magnification using a small and light compact 3x magnifying glass assembly, as well as interlock with a personal weapon scope to improve effective operational operability through reduced combat load, and eyepiece. Because anti-fogging coating is applied to the surface of the objective lens and indoor/outdoor temperature difference, it is possible to secure the field of view even under humid weather conditions. And it is easy to convert left and right, and the lens assembly of the optical system is composed of a combination of a prism, an objective lens, and an eyepiece. This is minimized to enable precise aiming, and by rotating the adjustment ring of the eyepiece clockwise or counterclockwise, the distance between the objective lens and the eyepiece is changed so that the focus can be adjusted according to the user's eyesight. The wearer can use it without glasses by correcting the difference in visual acuity, and since the vertical and horizontal correction dials are mounted on the upper and side parts of the 3X magnifying glass body, respectively, it has left and right and up and down optical axis correction functions. There is an urgent need to develop a magnifying scope for firearms that can secure the visibility of the magnifying glass.

KR 10-1068290 (2011. 09. 21)

Accordingly, the present invention was conceived to solve the above problems, and by using a small and light compact 3x magnifying glass assembly as a magnifying scope, it is possible to accurately aim a distant object at 3x magnification, as well as efficient operational operability through reduced combat load It aims to provide a magnifying scope for firearms that can be linked with a personal weapon scope for improvement.

Another object of the present invention is to provide an anti-fog coating on the surface of the eyepiece and the objective lens, thereby providing a magnifying scope for firearms that can secure visibility even under conditions of indoor and outdoor temperature difference and humid weather.

Another object of the present invention is to provide a magnifying scope for a firearm that is easy to convert between left and right sides for both left and right use by fastening the 3x magnifying glass assembly to the mount assembly in a hinge type (hinge type).

Another object of the present invention is to configure the lens assembly of the optical system by combining a prism, an objective lens, and an eyepiece, so that when a magnifying scope is applied based on a human target, it is possible to aim at a target at a distance of 400 m, as well as minimize distortion to achieve precise aiming. It is to provide a magnifying scope for firearms that can be used for firearms.

Another object of the present invention is to change the distance between the objective lens and the eyepiece while rotating the adjusting ring of the eyepiece clockwise or counterclockwise, so that the focus can be adjusted according to the user's eyesight, as well as the glasses wearer It is to provide a magnifying scope for firearms that can be used through correction of visual differences without the need for a magnifying scope for firearms.

Another object of the present invention is to mount a vertical correction dial and a horizontal correction dial respectively on the upper and side parts of the 3X magnifying glass body, so that it has left and right and upper and lower optical axis correction functions. It is to provide a magnifying scope for firearms with a magnifying scope for firearms.

Another object of the present invention is to provide a magnifying scope for firearms capable of securing a focal distance of 68mm in order to minimize a risk to the user's safety due to recoil of a firearm during shooting.

The magnifying scope for a firearm according to a preferred embodiment of the present invention for achieving the above object forms the skeleton of a 3x magnifying glass assembly, a cylindrical 3x magnifying glass body, and the 3x magnifying glass body It is located on the front side, It has a function of focusing by changing the distance between the objective lens and the eyepiece while rotating the adjustment ring mounted on the end of the eyepiece in a clockwise or counterclockwise direction. an eyepiece including 3 eyepieces, a vertical correction dial mounted on the upper part of the 3x magnifying glass body to correct vertical optical axes, and a horizontal correction dial mounted on the side surface of the 3x magnification magnifying glass body to correct left and right optical axes; A fastening projection mounted on one side of the lower side of the 3 magnification magnifying glass body to be fitted and coupled to the mount assembly, located on the back side of the 3 magnification magnifying glass body, and having a function of magnifying the object and being close to the object, the first objective lens , a second objective lens, a first prism, a second prism, and a 3 magnification magnifying glass assembly comprising an objective unit including a third objective lens; A hinge-type mount that allows the fastening protrusions of the 3 magnification magnifying glass assembly to be fitted into a plurality of fastening grooves, and a hinge (hinge) that is fastened with the 3 magnification magnifying glass assembly to convert left and right sides for both left and right use, and the a mount assembly including a mount body coupled to the hinged mount by a hinge (hinge); It is mounted inside the body of the 3x magnifying glass, and is composed of a combination of a prism, an objective lens, and an eyepiece, and when a magnifying scope is applied based on a human target, a target at a distance of 400 m or more is aimed with minimal distortion, and the eyepiece and the objective an optical system comprising a lens assembly composed of parts; It is characterized in that it includes.

In the present invention, the material of the 3 magnification magnifying glass assembly and the mount assembly is characterized in that it includes a metal material treated with a special alloy aluminum material to prevent corrosion.

In the present invention, the mount assembly is characterized in that it can be rotated by 90° to the side by mounting a 3 magnification magnifying glass assembly, and includes preventing it from arbitrarily operating during shooting.

In the present invention, the optical system includes a lens assembly including an eyepiece and an objective, receiving light emitted by the target for the first time and forming an image, greatly magnifying the target, and first and second lenses A first objective lens and a second objective lens to which are bonded, a first prism and a second prism separated from the second objective lens by a predetermined distance and coupled to face each other, and refracting and dispersing light; A third objective lens spaced apart from the first and second prisms by a predetermined distance, a first eyepiece and a second lens spaced apart from the third objective lens by a predetermined distance, to which the first and second lenses are joined 2 eyepieces, and a third eyepiece that is separated from the second eyepiece by a predetermined distance and observes the image of the object with direct eye contact with the scope; It is characterized in that it includes.

In the present invention, the front radius of curvature R1 of the first objective lens is 38.65, the rear radius of curvature R2 of the first objective lens is -26.00, and the diameter D of the first objective lens is 5.5 mm , the front radius of curvature of the second objective lens is -26.00, the rear radius of curvature of the second objective lens is -88.00, the diameter of the second objective lens is 1.0 mm, and the radius of curvature of the first prism is ∞, a diameter of 30.73 mm, a radius of curvature of the second prism is ∞, a diameter of 52.49 mm, a front radius of curvature of the third objective lens is -18.4, and a rear radius of curvature of the third objective lens is 18.4, the diameter of the third objective lens is 1.0 mm, the front radius of curvature of the first eyepiece is -40.5, the rear radius of curvature of the first eyepiece is 23.5, and the diameter of the first eyepiece is 1.0 mm, the front radius of curvature of the second eyepiece is 23.5, the rear radius of curvature of the second eyepiece is -18.44, the diameter of the second eyepiece is 10.0 mm, and the front curvature of the third eyepiece is The radius is 36.50, the rear radius of curvature of the third eyepiece is -42.00, and the third eyepiece has a diameter of 7.5 mm.

In the present invention, the anti-fogging coating material is coated on the surface of the eyepiece and the objective lens by a vacuum deposition method to ensure visibility even under conditions of indoor and outdoor temperature difference and humid weather; characterized by including.

In the present invention, the magnifying scope for firearms is characterized in that it includes a possibility to secure an eye point distance of 68mm in order to minimize a risk to the user's safety due to the recoil of the firearm when shooting toward the target.

As described above, the present invention's magnifying scope for firearms has the following effects.

First, the present invention uses a small and light compact 3x magnifying glass assembly as a magnifying scope, so that it is possible to accurately aim a distant object at 3x magnification, as well as to link with a personal weapon scope to improve effective operational operability through reduced combat load. can

Second, the present invention provides an anti-fogging coating on the surface of the eyepiece and the objective lens, so that visibility can be secured even under conditions of indoor and outdoor temperature difference and humid weather.

Third, in the present invention, by fastening the 3x magnifying glass assembly to the mount assembly in a hinge type (hinge type), it is easy to convert the left and right sides into both left and right sides.

Fourth, the present invention configures the lens assembly of the optical system by combining a prism, an objective lens, and an eyepiece, so that when a magnifying scope is applied based on a human target, it is possible to aim at a target at a distance of 400 m, as well as minimize distortion for precise aiming. can

Fifth, the present invention changes the distance between the objective lens and the eyepiece while rotating the adjustment ring of the eyepiece in a clockwise or counterclockwise direction, so that the focus can be adjusted according to the user's eyesight, as well as allowing the wearer of glasses to wear glasses without glasses. It can be used through correction of visual acuity difference.

Sixth, the present invention has a vertical correction dial and a horizontal correction dial respectively on the upper and side parts of the 3X magnifying glass main body, so that it has left and right and upper and lower optical axis correction functions. .

Seventh, according to the present invention, it is possible to secure an eye point distance of 68 mm in order to minimize a risk to the user's safety due to the recoil of the firearm during shooting.

1 is a view showing the configuration of a magnifying sight for a firearm according to an embodiment of the present invention.
Figure 2 is a view showing the cross-sectional configuration of the magnifying scope for a firearm according to an embodiment of the present invention.
Figure 3 is a view showing a 3x magnifying glass assembly of the configuration of the magnifying scope for a firearm according to an embodiment of the present invention.
4 is a view showing a mount assembly in the configuration of a magnifying scope for a firearm according to an embodiment of the present invention.
5 is a view showing the arrangement according to the configuration of the optical system among the configurations of the magnifying sight for a firearm according to an embodiment of the present invention.

Hereinafter, referring to preferred embodiments of the present invention together with the accompanying drawings, it is as follows. In describing the present invention, when it is determined that a detailed description of a related known technology or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof The description will be omitted, and the terms to be described later are terms defined in consideration of the functions in the present invention, and since these may vary depending on the intention or custom of the user or operator, the definition is for a firearm with a water temperature control function for each extraction step of the present invention It should be made based on the content throughout this specification describing the magnifying scope.

Hereinafter, a magnifying scope for a firearm according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The inventor's gun magnifying scope is a 3x magnifying glass assembly 10, 3x magnifying glass body 11, eyepiece 12, adjusting ring 13, vertical correction dial 14, horizontal correction dial 15, fastening protrusion (16), object portion 17, mount assembly 20, fastening groove 21, hinged mount 22, hinge (hinge) 23, mount body 24, optical system 30, First objective lens 31 , second objective lens 32 , third objective lens 35 , first eyepiece 36 , second eyepiece 37 , third eyepiece 38 , first It is composed of a prism 33 , a second prism 34 , and a magnifying scope 40 for firearms.

1 is a view showing the configuration of a magnifying sight for a firearm according to an embodiment of the present invention, FIG. 2 is a view showing a cross-sectional configuration of a magnifying scope for a firearm according to an embodiment of the present invention, and FIG. 3 is the present invention It is a view showing a 3x magnifying glass assembly among the configurations of a magnifying scope for firearms according to an embodiment of the present invention. is a diagram showing the arrangement according to the configuration of the optical system among the configurations of the magnifying sight for a firearm according to an embodiment of the present invention.

1 to 5, the present inventor's magnifying scope 40 for firearms constitutes the skeleton of the 3x magnifying glass assembly 10, and the 3x magnifying glass body 11 in the form of a cylindrical shape, and the 3x magnifying glass The first eyepiece and the second eyepiece 36 and 37 are positioned on the front side of the main body 11 and rotated clockwise or counterclockwise while the adjustment ring 13 mounted on the end of the eyepiece 12 is rotated. An eyepiece ( 12), a vertical correction dial 14 mounted on the top of the 3x magnifying glass body 11 to correct the vertical optical axis, and a horizontal correction mounted on the side of the 3x magnifying glass body 11 to correct the left and right optical axes A dial 15, a fastening protrusion 16 mounted on one lower side of the 3 magnification magnifying glass body 11 to be fitted and coupled to the mount assembly 20, and the 3 magnification magnifying glass body 11 located on the back side and has a function of magnifying the object and is on the side close to the object, and the first objective lens 31, the second objective lens 32, the first prism 33, the second prism 34, and the third objective lens a 3 magnification magnifying glass assembly 10 composed of an objective unit 17 including a 35; A hinge-type mount 22 that allows the fastening protrusion 16 of the 3 magnification magnifying glass assembly 10 to be fitted into the plurality of fastening grooves 21, and the 3 magnification magnifying glass assembly 10 to be fastened to the left and right sides A mount assembly (20) comprising a hinge (hinge) (23) that allows the left and right sides to be converted into a )Wow; It is mounted inside the 3x magnifying glass body 11, and is composed of a combination of prisms 33, 34, objective lenses 31, 32, 35, and eyepieces 36, 37, 38, and is based on a human target. An optical system 30 including a lens assembly including an eyepiece and an objective, which minimizes distortion to a target at a distance of 400 m or more when a magnifying sight is applied; to provide

The function of each technical means constituting the magnifying scope for the gun of the present invention will be described as follows.

The 3 magnification magnifying glass assembly 10 forms the skeleton of the 3 magnification magnifying glass assembly 10, and the 3 magnification magnifying glass body 11 in the form of a cylindrical shape, and the 3 magnification magnifying glass body 11 are located on the front side, and the eyepiece ( 12) by changing the distance between the first eyepiece and the second eyepiece 36, 37 and the third eyepiece 38 while rotating the adjusting ring 13 mounted on the end of the clockwise or counterclockwise direction An eyepiece 12 including a first eyepiece 36, a second eyepiece 37, and a third eyepiece 38 having a function of giving and focusing, and the 3x magnifying glass body 11 A vertical correction dial 14 mounted on the upper part of the to correct the vertical optical axis, a horizontal correction dial 15 mounted on the side of the 3x magnifying glass body 11 to correct the left and right optical axes, and the 3x magnifying glass body ( 11) is mounted on one side of the lower side of the fastening protrusion 16 to be fitted and coupled to the mount assembly 20, and is located on the back of the 3 magnification magnifying glass body 11, is on the side close to the object, and magnifies the object and an objective unit 17 including a first objective lens 31 , a second objective lens 32 , a first prism 33 , a second prism 34 , and a third objective lens 35 . will include

Here, the material of the 3 magnification magnifying glass assembly 10 is a metal material that is corrosion-preventing with a special alloy aluminum material.

The mount assembly 20 includes a hinged mount 22 that allows the fastening protrusions 16 of the 3 magnification magnifying glass assembly 10 to be inserted into and seated in the plurality of fastening grooves 21, and the 3 magnification magnifying glass assembly 10 ) and a hinge (hinge) 23 that allows the left and right sides to be converted for both left and right use, and the mounting body 24 that is coupled to the hinged mount 22 by the hinge (hinge) 23 will include

Here, the material of the mount assembly 20 is a metal material that is corrosion-preventing with a special alloy aluminum material.

In addition, the mount assembly 20 can be rotated to the side by 90° by mounting the 3 magnification magnifying glass assembly 10, so that it is not arbitrarily operated when shooting.

The optical system 30 is mounted inside the 3x magnifying glass body 11, and is composed of a combination of prisms 33, 34, objective lenses 31, 32, 35, and eyepieces 36, 37, 38. and a lens assembly that minimizes distortion of a target at a distance of 400 m or more when a magnifying scope is applied based on a human target.

Here, the optical system 30 includes a lens assembly including an eyepiece 12 and an objective unit 17, receiving the light emitted by the target object for the first time to form an image, and greatly magnifying the target object, The first objective lens 31 and the second objective lens 32 to which the first and second lenses are bonded, and the second objective lens 32 are spaced apart from each other by a predetermined distance and are coupled to face each other, The first prism 33 and the second prism 34 for refracting and dispersing the , spaced apart from the third objective lens 35 by a predetermined distance, the first eyepiece 36 and the second eyepiece 37 to which the first and second lenses are bonded, and the second eyepiece ( 37) and the third eyepiece 38, which is separated by a predetermined distance, and observes the image of the object with the direct eye on the sight.

In addition, the front radius of curvature R1 of the first objective lens 31 is 38.65, the rear radius of curvature R2 of the first objective lens 31 is -26.00, and the diameter of the first objective lens 31 ( D) is 5.5 mm, the front radius of curvature of the second objective lens 32 is -26.00, the rear radius of curvature of the second objective lens 32 is -88.00, and the diameter of the second objective lens 32 is is 1.0 mm, the radius of curvature of the first prism 33 is ∞, the diameter is 30.73 mm, the radius of curvature of the second prism 34 is ∞, and the diameter is 52.49 mm, the second The front radius of curvature of the third objective lens 35 is -18.4, the rear radius of curvature of the third objective lens 35 is 18.4, the diameter of the third objective lens 35 is 1.0 mm, and the first eyepiece The front radius of curvature is -40.5, the rear radius of curvature of the first eyepiece is 23.5, the diameter of the first eyepiece is 1.0 mm, the front radius of curvature of the second eyepiece is 23.5, and the second eyepiece The rear radius of curvature is -18.44, the diameter of the second eyepiece is 10.0 mm, the front radius of curvature of the third eyepiece is 36.50, the rear radius of curvature of the third eyepiece is -42.00, and the third eyepiece The diameter of the lens is 7.5 mm.

In addition, the first objective lens 31, the second objective lens 32, the first prism 33, the second prism 34, the third objective lens 35, the first eyepiece 36, the first The material of the second eyepiece 37 and the third eyepiece 38 is glass, the first objective lens 31 is BK7, the second objective lens 32 is F2, the first prism 33 is LAK8, The second prism 34 is indicated by LAK8, the third objective lens 35 is indicated by BK7, the first eyepiece 36 is indicated by FDS90, the second eyepiece 37 is indicated by BK7, and the third eyepiece 38 is indicated by SK16. will become

Looking at the optical principle applied to the optical system 30, first, in order to shorten the time for the user to check the image when the user observes the front through the eyepiece 12 between shooting, the size of the exit pupil is 5 mm or more, Second, in order to minimize the risk factor to the user's safety due to the recoil of the firearm during shooting, the eye point distance should be secured at 68mm. Third, when the eyepiece 12 is rotated clockwise or counterclockwise, the distance between the objective lenses 31, 32, 35 and the eyepieces 36, 37, 38 is changed to focus on the user's eyesight. that can be adjusted.

In addition, looking at the principle of correcting the aiming point, if the aiming point of the magnifying sight 40 is not located in the center of the lens by observing the eyepiece 12, turn the vertical compensation dial 14 and the horizontal compensation dial 15 to turn the magnifying sight By moving the aiming point of (40), the aiming point is positioned at the center of the lens.

In addition, an anti-fogging coating (not shown) is vacuum applied to the surfaces of the eyepieces 36, 37, 38 and the objective lenses 31, 32, 35 to secure visibility even under conditions of indoor and outdoor temperature difference and humid weather. It is coated by evaporation method.

Here, the vacuum deposition method is a physical vapor deposition (PVD) method for forming a uniform thin film, such as sputtering, e-beam evaporation, thermal evaporation, and laser molecular beam. It is deposited by any one coating method among deposition method (L-MBE, Laser Molecular Beam Epitaxy) and pulsed laser deposition (PLD) to be surface treated. In addition, a chemical vapor deposition (CVD) method may be used.

As described above, the magnifying sight 40 for firearms can secure a focal distance of 68mm in order to minimize a risk to the user's safety due to the recoil of the firearm when shooting toward the target.

In addition, the magnifying sight 40 for the gun was designed and manufactured in consideration of optical factors such as magnification, resolution, field of view, distortion, and focal length.

Looking at the criteria for the meaning and characteristics of the optical element, first, the magnification should be 3.0 times or more. Second, the distortion is a phenomenon in which the front image (straight line) seen through a magnifying glass looks bent, and in general, the magnifying glass composed of a lens and a prism can be designed stably so that there is no distortion in the optical system for the magnifying glass, but the prism A magnifying glass composed of only lenses without a magnifying glass may cause relatively distortion, so it should be designed and manufactured with a stable structure composed of a prism and a lens, and the distortion rate should be less than 2%. Third, the field of view is a matter in which the range that a user can see through a magnifying glass is displayed in units of angles. The wider the field of view, the more forward view can be observed, and the field of view must be 7° or more. Fourth, the resolution is the ability to discriminate the details of the object to be observed as images, and it was designed and manufactured to 13″ or less.

As described above, since the magnifying scope for firearms can be applied to a normal firearm, its application target is wide.

The present invention is not limited to the above embodiment, and that various modifications and changes can be made without departing from the technical spirit of the present invention, it will be understood by anyone skilled in the art.

10: magnification magnifying glass assembly 11: 3 magnification magnifying glass body
12: eyepiece 13: adjustment ring
14: vertical compensation dial 15: horizontal compensation dial
16: fastening protrusion 17: object part
20: mounting assembly 21: fastening groove
22: hinged mount 23: hinge (hinge)
24: mount body 30: optical system
31: first objective lens 32: second objective lens
33: first prism 34: second prism
35: third objective lens 36: first eyepiece
37: second eyepiece 38: third eyepiece
40: magnifying scope for firearms

Claims (7)

In the magnifying scope for firearms,
The 3 magnification magnifying glass body, which forms the skeleton of the 3 magnification magnifying glass assembly, and the 3 magnification magnifying glass body in the form of a cylinder, are located on the front side of the 3 magnification magnifying glass body, and rotate the control ring mounted on the end of the eyepiece in a clockwise or counterclockwise direction while rotating It has a function of focusing by changing the distance between the lens and the eyepiece, and an eyepiece including a first eyepiece, a second eyepiece, and a third eyepiece, and is mounted on the upper part of the body of the 3x magnifying glass to set the upper and lower A vertical correction dial for correcting the optical axis, a horizontal correction dial mounted on the side of the 3x magnifying glass body to correct the left and right optical axes, and a fastening protrusion mounted on the lower side of the 3x magnifying glass body to be fitted and coupled to the mount assembly; , located on the back of the body of the 3x magnifying glass, on the side close to the object, and having a function of magnifying the object, including a first objective lens, a second objective lens, a first prism, a second prism, and a third objective lens a 3 magnification magnifying glass assembly comprising an objective part;
A hinge-type mount that allows the fastening protrusions of the 3 magnification magnifying glass assembly to be fitted into a plurality of fastening grooves, and a hinge (hinge) that is fastened with the 3 magnification magnifying glass assembly to convert left and right sides for both left and right use, and the a mount assembly including a mount body coupled to the hinged mount by a hinge (hinge);
It is mounted inside the body of the 3x magnifying glass, and is composed of a combination of a prism, an objective lens, and an eyepiece. It includes a lens assembly including a part, the first objective lens and the second objective lens to which the first and second lenses are joined, the first objective lens and the second objective lens are combined to form an image by first receiving the light emitted by the target object, greatly magnifying the target object A lens, a first prism and a second prism that are separated from the second objective lens by a predetermined distance and are coupled to face each other, refracting and dispersing light, and a predetermined distance from the first prism and the second prism A third objective lens spaced apart by , a first eyepiece and a second eyepiece spaced apart from the third objective lens by a predetermined distance, to which the first and second lenses are joined, and the second eyepiece and a predetermined distance a third eyepiece that is separated by a distance of , and observes the image of an object with direct eye contact with the scope; Including, the front radius of curvature (R1) of the first objective lens is 38.65, the rear radius of curvature (R2) of the first objective lens is -26.00, and the diameter (D) of the first objective lens is 5.5 mm , the front radius of curvature of the second objective lens is -26.00, the rear radius of curvature of the second objective lens is -88.00, the diameter of the second objective lens is 1.0 mm, and the radius of curvature of the first prism is ∞ , a diameter of 30.73 mm, a radius of curvature of the second prism is ∞, a diameter of 52.49 mm, a front radius of curvature of the third objective lens is -18.4, and a rear radius of curvature of the third objective lens is 18.4 , the diameter of the third objective lens is 1.0 mm, the front radius of curvature of the first eyepiece is -40.5, the rear radius of curvature of the first eyepiece is 23.5, and the diameter of the first eyepiece is 1.0 mm and the front radius of curvature of the second eyepiece is 23.5, the rear radius of curvature of the second eyepiece is -18.44, the diameter of the second eyepiece is 10.0 mm, and the front radius of curvature of the third eyepiece is 36.50, the radius of curvature of the rear surface of the third eyepiece is -42.00, and the diameter of the third eyepiece is 7.5 mm; A magnifying scope for firearms, characterized in that it includes a. The method of claim 1,
The material of the 3x magnifying glass assembly and the mount assembly is a special alloy aluminum material and a metal material that has been treated to prevent corrosion. The method of claim 1,
The mount assembly can be rotated by 90° to the side by mounting a 3x magnifying glass assembly, and a magnifying scope for firearms, characterized in that it includes not being arbitrarily operated when shooting. delete delete The method of claim 1,
An anti-fogging coating material coated on the surface of the eyepiece and the objective lens by a vacuum deposition method to ensure visibility even under conditions of indoor and outdoor temperature difference and humid weather; A magnifying scope for firearms, characterized in that it includes. The method of claim 1,
The magnifying scope for firearms is a magnifying scope for firearms, characterized in that it can secure a focal distance of 68mm in order to minimize a risk to the user's safety due to recoil of the firearm when shooting toward the target.

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