CN208421404U - A kind of band number shows the binoculars of laser ranging function - Google Patents

Abstract

The utility model discloses the binoculars that a kind of band number shows laser ranging function, including objective lens unit, light splitting and coincidence prism system and eyepiece component, the light splitting and coincidence prism system are arranged between objective lens unit and eyepiece component；Light splitting and coincidence prism system include roof prism and composite prism, composite prism is composed of equal girdle prisms, right-angle prism A, right-angle prism B, and wherein right-angle prism A is identical as right-angle prism B shape and respectively symmetrically abuts against on two equal central planes for waiting girdle prisms；Or composite prism is composed of right-angle prism A, right-angle prism；Wherein a right-angle surface of right-angle prism is longer than the inclined-plane of right-angle prism A, on the inclined-plane which is abutted against to right-angle prism A.The utility model not only has the function of observation, and there are also the functions of laser ranging, can show the target signatures such as optical virtual front sight and measurement distance in visual field in a manner of character.

Description

A kind of band number shows the binoculars of laser ranging function

Technical field

The utility model relates to a kind of number display laser ranging binoculars, belong to technical field of optical instrument.

Background technique

Currently, laser ranging binoculars from optical-mechanical Performance, exist be not able to satisfy practical batch production and The problem of demand.The good product of performance, opto-mechanical mechanisms are complicated, and technology difficulty is big.Low-end product is full again since performance is too poor Foot not actual operation requirements.There are three types of erecting prisms used in laser ranging binoculars: general sieve prism, the other Chinese of Schmidt Prism and Abbe prism.In comparison, competent field angle is smaller when the identical material of general sieve prism, and spatial volume is slightly Greatly, so the product formed is more heavy.Schmidt's benhain prism volume compact, but optical energy loss is big, and aperture is done greatly More difficult, after Amici prism needed for compound upper laser ranging, structure is excessively complicated, while required space causes telescope to be made Variation of type, such as back protrusion etc., product becomes unsightly.The volume of Abbe prism between it is above-mentioned between the two, optics Performance is superior compared with the two, is mainly manifested in that competent field angle is big, and optical energy loss is small, but production technology is too complicated, leads to valence Lattice are expensive.

Therefore, it is necessary to be improved the prior art.

The existing erecting prism group for laser ranging binoculars, such as Fig. 1, Patent No. ZL201020133893.4, a kind of erecting prism group that can show optical virtual front sight and character information describe a kind of simple Conjunction as system.Usually by roof prism, isosceles prism composition, it plays the role of being front service system in the optical path (such as object lens) imaging is turned around, and the system (such as eyepiece) at rear is passed to.

The system is divided principle by using imaging len principle and prism facets, although having been able to show additional picture and text Information, but have the shortcomings that apparent two it is unconquerable.First is that the prism is supplied to the narrow space of display device, cause to show Show that visual field is small, the 1/3. of an only other optical path visual field is only only capable of displaying the character etc. of simple such as a line four figures, nothing Method realizes the picture and text showing of big visual field.Second is that spectro-film due to much deviateing normal incidence, causes system transmitance less than 35%, Show that brightness of image is extremely low, product is not available daytime.Imaging lens group narrow space, structure is simple, and image quality is poor, adds Graph text information is unintelligible, and character is caused to be difficult to see clearly.

Utility model content

The purpose of this utility model is precisely in order to overcoming the problems of the above-mentioned prior art and providing a kind of number display The binoculars of laser ranging function, making telescope not only has the function of observation, can also there is the function of laser ranging, can be with The mode of character shows the target signatures such as optical virtual front sight and measurement distance in visual field.Make at overview function and target information Reason machine and Display Realization are seamless spliced, become the perfect product of a combination.Due to mechanical-optical setup reasonability, technique letter It is single, it is suitable for producing in batches.

The purpose of this utility model is achieved by the following technical solution:

A kind of band number shows the binoculars of laser ranging function, including objective lens unit, light splitting and coincidence prism system System and eyepiece component, the light splitting and coincidence prism system are arranged between objective lens unit and eyepiece component；

The light splitting and coincidence prism system include roof prism and composite prism, the composite prism by equal girdle prisms, Right-angle prism A, right-angle prism B are composed, and wherein right-angle prism A is identical as right-angle prism B shape and respectively symmetrically is abutted against Two in equal girdle prisms are waited on central planes；Or the composite prism is composed of right-angle prism A, right-angle prism；It is wherein straight One right-angle surface of angle prism is longer than the inclined-plane of right-angle prism A, on the inclined-plane which is abutted against to right-angle prism A.

Further, the objective lens unit includes the first lens, the second lens and the third lens, and the first lens, second are thoroughly Mirror and the third lens are arranged in the same axial direction.

Further, the eyepiece component includes the 4th lens and the 5th lens, and the 4th lens and the 5th lens are same Axis is set up.

Further, when the composite prism is composed of equal girdle prisms, right-angle prism A, right-angle prism B,

The binoculars further include Projection Display component, and the Projection Display component includes display, imaging len A, plane mirror and imaging len B, display are arranged in above the reflection and transmission face of roof prism, and the image edge of display enters It penetrates optical axis and is reflected into imaging len A via the reflection and transmission face of setting roof prism, it is saturating to pass through imaging again by plane mirror Mirror B, which throws imaging to light splitting surface B, to be reflected；It is equipped with detector B in parallel above the reflection of equal girdle prisms and transmission plane, in right-angled edge The outside of mirror A is equipped with observation focal plane A, detector B and is imaged by emergent light axis A imaging, observation focal plane A by emergent light axis B, and two Person is intersected on light splitting surface A；Wherein light splitting surface A and light splitting surface B is that two equal central planes of girdle prisms is waited to be formed.

Further, the angle α of roof prism is 55 °~64 °；

The angle beta of right-angle prism is 27 °~32 °；

The angle δ of equal girdle prisms is 110 °~128 °.

Further,

Most preferably 60 ° of the angle α of roof prism；

Most preferably 30 ° of the angle beta of right-angle prism；

Most preferably 120 ° of angle δ of equal girdle prisms.

Further, the graph text information of superposition are as follows: figure, mark, symbol and text.

Further, when the composite prism is composed of right-angle prism A, right-angle prism, in the anti-of right-angle prism It penetrates and transmission plane top is equipped with detector B in parallel, transmissive display part is arranged in observation focal plane in the outside of right-angle prism A1.

Further, one in two optical paths of the bitubular of the binoculars fills in the position of detector B equity Upper ballistic device.

Another binoculars of the band number display laser ranging function of the utility model, including objective lens unit, divide Light and coincidence prism system and eyepiece component, the light splitting and the setting of coincidence prism system objective lens unit and eyepiece component it Between；

The light splitting and coincidence prism system include roof prism and composite prism, in the bitubular of binoculars, In the composite prism in one be composed of equal girdle prisms, right-angle prism A, right-angle prism B, wherein right-angle prism A with On the equal central planes of two of the girdle prisms such as right-angle prism B shape is identical and respectively symmetrically abuts against；It is wherein described in another cylinder Composite prism is composed of right-angle prism A, right-angle prism；Wherein a right-angle surface of right-angle prism is longer than right-angle prism A's Inclined-plane, on the inclined-plane which is abutted against to right-angle prism A.

The utility model object space incident ray enters object lens to roof prism, by reflection and transmission face with object space incident light axis Reflection is emitted using ridge rib reflective surface from the transmission plane of roof prism, by right-angle prism B, etc. girdle prisms, The composite prism that right-angle prism A is constituted.Light passes through light splitting surface B, reflects by reflection and transmission plane, reaches another light splitting surface A, it is seen that the light of light spectrum is emitted directly through light splitting surface A from right-angle prism A, reaches observation focal plane A along emergent light axis B；With It is reflected in the light of the laser by measured target reflection of ranging in light splitting surface A, is gone out from the reflection and transmission plane for waiting girdle prisms It penetrates, reaches detector B.Since optical path is reversible, the one of two optical paths of laser ranging binoculars may only be B pairs in detector Deng position load onto ballistic device, so that it may realize that laser is emitted from this branch object lens with collimated light beam.Prism group can be object in this way The visible images that mirror comes are transmitted to eyepiece and observe for eyes, and laser beam realizes ranging simultaneously.

Projection Display component, the incident ray of display pass through the reflection and transmission face of roof prism with display incident light axis Reflection reaches imaging len A, reflects using plane mirror, is imaged by imaging len B by the reflection and transmission of equal girdle prisms Face enters composite prism, is reflected to reflection and transmission plane in light splitting surface B, and be totally reflected to light splitting through face reflection and transmission plane Face A reaches observation focal plane A along emergent light axis B, and the light of this part of red spectrum passes through light splitting surface A19 and along object lens mirror The light of the visible light to come at the same image in observation focal plane A.Imaging len A and imaging len B presses optical imaging concept Design, can make the big visual field high resolution imaging of graph text information.

The binoculars with number display laser ranging function of the utility model, due to light splitting and coincidence prism system It shows that the visual field of projection is very big, such as uses dot matrix programable display part, can show any graph text information for thinking display.

The utility model is suitable for the observation and ranging of limited distance target and infinity target.

A kind of beneficial effect of the utility model is that this binoculars is to the same of visual light imaging light imaging observation When, an other laser beam is carried out and the mutually incoherent processing of visual light imaging light beam.The space structure of the utility model Feature also enables the utility model and the seamless combination of photoelectric display device, and being formed has collection observation, laser ranging, and graph text information is aobvious The multi-functional number display laser ranging binoculars in one such as show.When graph text information, which is shown, not to work, white-light visualization The complete visual field of window is not cut, and optical property is not lost.The system structure is compact, and optical path logic is simple and clear, part Processing technology is simple.

Another beneficial effect of the utility model is that the light splitting surface B of light splitting and coincidence prism system can cancel, by etc. Girdle prism, right-angle prism B are combined into right-angle prism, so simplified optical system, simplify Projection Display component, are directly seeing Transmissive display part can be further arranged by examining at focal plane A, display device can be LCD or OLED.It further forms in this way Laser ranging binoculars (also referred to as binocular).

Detailed description of the invention

Fig. 1 is the erecting prism group structural schematic diagram of the prior art.

Fig. 2 is the light splitting and coincidence prism system structure diagram of the utility model embodiment 1.

Fig. 3 is an exemplary diagram of the superposition graph text information of the utility model embodiment 1.

Fig. 4 is the optical system diagram of the utility model embodiment 1.

Fig. 5 is the structural schematic diagram of the binoculars of the embodiments of the present invention 1.

Fig. 6 is the optical system diagram for the binoculars that the embodiments of the present invention 2 simplify Projection Display component.

Fig. 7 is the structural schematic diagram for the binoculars that the embodiments of the present invention 2 simplify Projection Display component.

In figure: 1, right-angle prism A, 2, etc. girdle prisms, 3, right-angle prism B, 4, roof prism, 5, observation focal plane A, 6, display Device, 7, detector B, 8, imaging len A, 9, plane mirror, 10, imaging len B, 11, object space complex spectrum incident light axis, 12, emergent light axis A, 13, emergent light axis B, 14, display incident light axis, 15, roof prism reflection (internal reflection and external reflectance) it is saturating Penetrate face, 16, ridge rib reflecting surface, 17, light splitting surface B, 18, reflection and transmission plane, 19, light splitting surface A, the 20, first lens, 21, the Two lens, 22, the third lens, the 23, the 4th lens, the 24, the 5th lens, 25, right-angle prism, 6A1, transmissive display part, 7A1, ballistic device, 7A2, detector.

Specific embodiment

Embodiment 1

Referring to figs. 1 to 5, a kind of binoculars of band number display laser ranging function, including objective lens unit, Light splitting and coincidence prism system and eyepiece component, the light splitting and the setting of coincidence prism system objective lens unit and eyepiece component it Between；

Light splitting and coincidence prism system include roof prism 4 and composite prism, in the bitubular of binoculars, wherein one Composite prism in tin is composed of equal girdle prisms 2, right-angle prism A1, right-angle prism B 3, wherein right-angle prism A1 and right angle On the equal central planes of two of the girdle prisms 2 such as 3 shape of prism B is identical and respectively symmetrically abuts against；The wherein compound rib in another cylinder Mirror is composed of right-angle prism A1, right-angle prism 25；Wherein a right-angle surface 26 of right-angle prism 25 is longer than right-angle prism A1 Inclined-plane, which is abutted against on the inclined-plane of right-angle prism A1.

Image objects are observed to a distant place by objective lens unit, objective lens unit includes the first lens 20, the second lens 21 and the Two lens 22, the first lens 20, the second lens 21 and the third lens 22 are arranged in the same axial direction.

Light splitting and coincidence prism system, are shown in Fig. 2, in wherein one (namely in an optical path), including 4 He of roof prism Composite prism is set as being composed of equal girdle prisms 2, right-angle prism A1, right-angle prism B3, wherein right-angled edge by composite prism On the equal central planes of two of the girdle prisms 2 such as mirror A1 is identical as right-angle prism B3 shape and respectively symmetrically abuts against, light splitting surface is formed A19 and light splitting surface B17；It is equipped in 18 a distance of reflection and transmission plane away from equal girdle prisms 2 flat with reflection and transmission plane 18 Capable imaging len B10, and a plane mirror 9 and the imaging len A8 in mirror optical axis are set；Display 6 is set It sets above the reflection and transmission face 15 of roof prism 4, the image of display 6 is along incident light axis 14 via setting roof prism 4 Reflection and transmission face 15 is reflected into imaging len A8, is again thrown imaging to light splitting surface by imaging len B10 by plane mirror 9 B17 reflection；It is equipped with detector B7 in parallel above the reflection of equal girdle prisms 2 and transmission plane 18, is set on the outside of right-angle prism A1 There are observation focal plane A5, detector B7 to be imaged by emergent light axis A12, observation focal plane A5 is imaged by emergent light axis B13, the two phase It hands on light splitting surface A19.

The angle α of the utility model roof prism is 55 °~64 °；The angle beta of right-angle prism is 27 °~32 °；Equal girdle prisms Angle δ is 110 °~128 °.

Most preferably 60 ° of the angle α of the utility model roof prism；Most preferably 30 ° of the angle beta of right-angle prism；The angle δ of equal girdle prisms Most preferably 120 °.

The graph text information of the utility model superposition are as follows: figure, mark, symbol and text, as shown in Figure 3.Fig. 3 is in display The application special case of appearance.Two row text importings, upper row can be with angles of display or temperature, or height etc., can tape unit degree, or Inch.A line 4-digit number is shown below, can be to unit m or Y (code).

Visible light ray after the utility model is imaged by object lens enters roof prism 4 along optical axis 11, (interior by reflection Reflection and external reflectance) transmission plane 15 reflects, reflects using ridge rib reflecting surface 16, from the reflection of roof prism 4 (internal reflection and External reflectance) transmission plane 15 is emitted, by right-angle prism B3, etc. the composite prism that constitutes of girdle prisms 2, right-angle prism A1.Light Across light splitting surface B17, is reflected by reflection and transmission plane 18, reach another light splitting surface A19, it is seen that the light of light spectrum is direct It across light splitting surface A19, is emitted from right-angle prism A1, reaches observation focal plane A5 along emergent light axis B13；For ranging by being tested mesh The light for marking the laser of reflection is reflected in light splitting surface A19, is emitted from the reflection and transmission plane 18 for waiting girdle prisms 2, is reached detection Device B7.Since optical path is reversible, the one of two optical paths of laser ranging binoculars may only be in the position of detector B7 equity Load onto ballistic device 7A1, so that it may realize that laser is emitted from this branch object lens with collimated light beam.Prism group can come object lens in this way Visible images be transmitted to eyepiece for eyes observe, and simultaneously laser beam realize ranging.

The incident ray of display 6 is reflected with 6 incident light axis of display by the reflection and transmission face 15 of roof prism 4, is arrived It up to imaging len A8, is reflected using plane mirror 9, reflection and the transmission plane by equal girdle prisms 2 is imaged by imaging len B10 18 enter composite prism, are reflected to reflection and transmission plane 18 in light splitting surface B17, and be totally reflected to through face reflection and transmission plane 18 Up to light splitting surface A19, the light of this part of red spectrum passes through light splitting surface A19 and the visible light that comes along object lens mirror Light images in observation focal plane A5 simultaneously.Imaging len A8 and imaging len B10 is designed by optical imaging concept, can make picture and text The big visual field high resolution imaging of information.

Eyepiece component, including the 4th lens 23 and the 5th lens 24, the 4th lens 23 and the 5th lens 24 are in same axial direction Upper setting.4th lens 23, the 5th lens 24 are designed by optical imaging concept, can be different structure type.Pass through eyepiece Component can simultaneously to objective lens unit observed at the red image light of visible images and display 6.

Composite prism in another cylinder is composed of right-angle prism A1, right-angle prism 25, referring to the explanation of embodiment 2.

Embodiment 2

Referring to shown in Fig. 6 to Fig. 7, a kind of band number shows the binoculars of laser ranging function, including objective lens unit, Light splitting and coincidence prism system and eyepiece component, light splitting and coincidence prism system are arranged between objective lens unit and eyepiece component；

Light splitting and coincidence prism system include roof prism 4 and composite prism, and composite prism is by right-angle prism A1, right-angled edge Mirror 25 is composed；Wherein a right-angle surface 26 of right-angle prism 25 is longer than the inclined-plane of right-angle prism A1, which is leaned on It connects on the inclined-plane of right-angle prism A1.

Fig. 7 is the structural schematic diagram of the binoculars of the simplification Projection Display component of the utility model, and Fig. 6 is bitubular prestige The optical system diagram of remote mirror, for an optical path therein.

Image objects are observed to a distant place by objective lens unit, which includes the first lens 20,21 and of the second lens Second lens 22, the first lens 20, the second lens 21 and the third lens 22 are arranged in the same axial direction.

Light splitting and coincidence prism system, are shown in Fig. 6, including roof prism 4 and composite prism, set composite prism to by straight Angle prism A1, right-angle prism 25 are composed, and only form light splitting surface A19, and light splitting surface B17 can cancel；In right-angle prism 25 Reflection and 18 top of transmission plane are equipped with detector B7 in parallel, and in the outside of right-angle prism A1, transmissive display is arranged in observation focal plane Part 6A1, display device can be LCD or OLED.

Display device can show graph text information are as follows: figure, mark, and symbol, text, as shown in Figure 3.

The utility model be imaged by object lens after visible light ray along optical axis roof prism 4, reflected by reflecting surface 15, then It reflects, is emitted from reflection (the internal reflection and external reflectance) transmission plane 15 of roof prism 4, by straight by ridge rib reflecting surface 16 The composite prism that angle prism 25, right-angle prism A1 are constituted.Light reach light splitting surface A19, it is seen that the light of light spectrum directly through Light splitting surface A19 is emitted from right-angle prism A1, and the observation focal plane of setting transmissive display part 6A1 is reached along emergent light axis；For The light of the laser by measured target reflection of ranging is reflected in light splitting surface A19, the reflection and transmission plane from right-angle prism 25 18 outgoing, reach detector B7.Since optical path is reversible, the one of two optical paths of laser ranging binoculars may only detected Load onto ballistic device 7A1 in the position of device B7 equity, so that it may realize that laser is emitted from this branch object lens with collimated light beam.Such prism The visible images that group can come object lens are transmitted to eyepiece and observe for eyes, and laser beam realizes ranging simultaneously.

Display 6A1 is directly arranged at focal plane, can make the big visual field high resolution imaging of graph text information.

Eyepiece component, including the 4th lens 23 and the 5th lens 24, the 4th lens 23 and the 5th lens 24 are in same axial direction Upper setting.4th lens 23, the 5th lens 24 are designed by optical imaging concept, can be different structure type.Pass through eyepiece Component can simultaneously to objective lens unit observed at the red image light of visible images and display 6.

Claims (8)

1. the binoculars that a kind of band number shows laser ranging function, it is characterised in that: including objective lens unit, light splitting and conjunction As prism system and eyepiece component, the light splitting and coincidence prism system are arranged between objective lens unit and eyepiece component；

The light splitting and coincidence prism system include roof prism (4) and composite prism, and the composite prism is by waiting girdle prisms (2), right-angle prism A (1), right-angle prism B (3) are composed, and wherein right-angle prism A (1) is identical as right-angle prism B (3) shape And two for respectively symmetrically abutting against equal girdle prisms (2) wait on central planes.

2. the binoculars that band number according to claim 1 shows laser ranging function, it is characterised in that: the object Mirror assembly includes the first lens (20), the second lens (21) and the third lens (22), the first lens (20), the second lens (21) and The third lens (22) are arranged in the same axial direction.

3. the binoculars that band number according to claim 1 shows laser ranging function, it is characterised in that: the mesh Mirror assembly includes the 4th lens (23) and the 5th lens (24), and the 4th lens (23) and the 5th lens (24) are set in the same axial direction It sets.

4. the binoculars that band number according to claim 1 to 3 shows laser ranging function, it is characterised in that: When the composite prism is composed of equal girdle prisms (2), right-angle prism A (1), right-angle prism B (3),

The binoculars further include Projection Display component, and the Projection Display component includes display (6), imaging len A (8), plane mirror (9) and imaging len B (10), display (6) are arranged on the reflection and transmission face (15) of roof prism (4) The image of side, display (6) is reflected into imaging via the reflection and transmission face (15) of setting roof prism (4) along incident light axis (14) Imaging is thrown to light splitting surface B (17) by imaging len B (10) again by plane mirror (9) and is reflected by lens A (8)；In isosceles Detector B (7) are equipped in parallel above the reflection of prism (2) and transmission plane (18), are equipped with observation in the outside of right-angle prism A (1) Focal plane A (5), detector B (7) are imaged by emergent light axis A (12) imaging, observation focal plane A (5) by emergent light axis B (13), and two Person is intersected on light splitting surface A (19)；Wherein light splitting surface A (19) and light splitting surface B (17) is two equal central planes shapes for waiting girdle prisms (2) At.

5. the binoculars that band number according to claim 4 shows laser ranging function, it is characterised in that:

The angle α of roof prism is 55 °~64 °；

The angle beta of right-angle prism is 27 °~32 °；

The angle δ of equal girdle prisms is 110 °~128 °.

6. the binoculars that band number according to claim 5 shows laser ranging function, it is characterised in that:

Most preferably 60 ° of the angle α of roof prism；

Most preferably 30 ° of the angle beta of right-angle prism；

Most preferably 120 ° of angle δ of equal girdle prisms.

7. the binoculars that band number according to claim 4 shows laser ranging function, it is characterised in that: superposition Graph text information are as follows: figure, mark, symbol and text.

8. the binoculars that a kind of band number shows laser ranging function, it is characterised in that: including objective lens unit, light splitting and conjunction As prism system and eyepiece component, the light splitting and coincidence prism system are arranged between objective lens unit and eyepiece component；

The light splitting and coincidence prism system include roof prism (4) and composite prism, in the bitubular of binoculars, wherein The composite prism in one is composed of equal girdle prisms (2), right-angle prism A (1), right-angle prism B (3), wherein right angle On the equal central planes of two of the girdle prisms (2) such as prism A (1) is identical as right-angle prism B (3) shape and respectively symmetrically abuts against；Its In the composite prism in another cylinder be composed of right-angle prism A (1), right-angle prism (25)；Wherein right-angle prism (25) A right-angle surface (26) be longer than the inclined-plane of (1) right-angle prism A, which is abutted against to the inclined-plane of (1) right-angle prism A On.