CN109115056A - One kind being circumferentially arranged folding forming rod-type and injures first warhead sighting device - Google Patents
One kind being circumferentially arranged folding forming rod-type and injures first warhead sighting device Download PDFInfo
- Publication number
- CN109115056A CN109115056A CN201811031147.1A CN201811031147A CN109115056A CN 109115056 A CN109115056 A CN 109115056A CN 201811031147 A CN201811031147 A CN 201811031147A CN 109115056 A CN109115056 A CN 109115056A
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- CN
- China
- Prior art keywords
- diameter
- lag
- sighting device
- chassis
- warhead
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F42—AMMUNITION; BLASTING
- F42B—EXPLOSIVE CHARGES, e.g. FOR BLASTING, FIREWORKS, AMMUNITION
- F42B35/00—Testing or checking of ammunition
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F41—WEAPONS
- F41G—WEAPON SIGHTS; AIMING
- F41G1/00—Sighting devices
- F41G1/46—Sighting devices for particular applications
Abstract
Folding forming rod-type is circumferentially arranged the invention discloses one kind and injures first warhead sighting device, injures first warhead test aiming suitable for being circumferentially arranged folding forming rod-type.Sighting device includes optical sight shell, fixing seat, U-lag, rectangular guideway, connect shaft, positioning cylinder, chassis, characterized by further comprising object lens, condenser, image transferring lens and eyepiece group, wherein, the object lens, condenser, image transferring lens and eyepiece group form light path system from left to right, entire light path system is encapsulated in gun sight shell, U-lag indent is downwards, gun sight shell is connected by fixing seat and U-lag upper surface, rectangular guideway shape matches with U-lag and is located in U-lag inner concave and fits closely with inner concave, connection shaft upper end is located at rectangular guideway central lower and is connected with rectangular guideway, connection shaft lower end is located at center chassis upper surface and is connected with chassis, positioning cylinder upper surface is located at center chassis lower surface and is connected with chassis.It is injured under the big radius of damage experimental condition of first warhead being circumferentially arranged folding forming rod-type, first rum point is injured to folding forming rod-type using sighting device to aim at, it can be obviously improved and injure member shock precision, avoid missing the target at a distance, lifting test efficiency saves experimentation cost.
Description
Technical field
The invention belongs to ammunition experimental technique field, relates generally to a kind of sighting device more particularly to one kind is circumferentially arranged
Folding forming rod-type injures first warhead sighting device.
Background technique
With the development and application of advanced composite material (ACM) technology, insensitive Charge, for modern infantry fighting vehicles, bore ground
The strike difficulty of heavy wall target is increasing in bullet, guided bomb etc., in order to which heavy wall target efficient is injured in solving the problems, such as, Li Gang
Etc. propose one kind be circumferentially arranged folding forming rod-type injure first warhead (patent No.: 201518001744.0), the warhead
Meta structure is injured using new type foldable molding rod-type, this injures meta structure under warhead explosively loading, turns over, is folded into
Type finally in circumferentially formation there is big L/D ratio, height to injure first group than kinetic energy rod-type, this is injured first group's centering heavy wall target and has
Efficient striking capabilities, therefore new type foldable molding rod-type injures the further research promotion of first technology, by centering heavy wall target
Efficiently injure important technical support be provided.
Folding forming rod-type is circumferentially arranged to injure in first warhead development process, need to it is after molding injure first power into
Row examination, the examination are related to injuring member to the Penetration Ability of homogeneous steel plate and injure first Impact Initiation ability to shielding powder charge,
Especially for shielding powder charge Impact Initiation ability test in, it is desirable that injure member at certain radius of damage to shielding powder charge into
Its initiating ability to shielding powder charge is examined in row strike.In Impact Initiation test, need to adjust to injuring first rum point
It is whole, to guarantee that member after molding of injuring can hit shielding powder charge, since the type warhead proposes that the time is shorter, not yet occur special
Door is directed to the sighting device of the type warhead, and causing rod-type to injure member, (2m-3m) can be by the warp of experimenter at short distance
It tests to guarantee pointing accuracy, it is ensured that shielding powder charge can be hit by injuring member, and (6m or more) is due to injuring member at the big radius of damage
Size is smaller, flies larger compared with the difficulty for hitting shielding powder charge after remote, causes the probability to miss the target very high, in order to solve to ruin greatly
Hurt the pointing accuracy problem at radius, generally by the biggish shielding powder charge target missile of design size, but this method will be mentioned further
Target missile quality is risen, experimentation cost is increased.
Summary of the invention
For above situation, folding forming rod-type is circumferentially arranged the present invention provides one kind and injures first warhead aiming dress
It sets.
Sighting device provided by the invention, including optical sight shell (1), fixing seat (3), U-lag (7), rectangle are led
Rail (8), connection shaft (9), positioning cylinder (10), chassis (11), it is characterised in that further include object lens (2), condenser (4), turn
As mirror (5) and eyepiece group (6), object lens (2) diameter is greater than eyepiece group (6) diameter, and condenser (4) is equal with image transferring lens (5) diameter
And it is less than eyepiece group (6) diameter, object lens (2), condenser (4), image transferring lens (5) and eyepiece group (6) form optical path system from left to right
System, optical sight shell (1) are divided into leading portion, middle section and back segment three parts, object lens (2) diameter matched with leading portion housing inner diameter and
Before being encapsulated in piece housing, condenser (4) matches with middle housing internal diameter with image transferring lens (5) diameter and is encapsulated in middle housing
In, eyepiece group (6) diameter and back segment housing inner diameter match and are encapsulated in rear piece housing, each section of optical sight shell (1)
Between pass through round table-like shell transition;The fixing seat (3) is the connector that circular ring structure is welded with above rectangular base, fixed
The internal radius of seat (3) matches with optical sight shell (1) middle section outer diameter, and passes through screw for optical sight shell
(1) middle section and annulus fasten, and fixing seat (3) quantity is 3 and is evenly distributed with along optical sight shell (1) middle section length direction;Institute
State U-lag (7) indent downwards, fixing seat (3) rectangular base is fastened by screw and U-lag (7) upper surface, rectangular guideway
(8) shape matches with U-lag (7) and is located in U-lag (7) inner concave and fits closely with inner concave, and U-lag (7) side surface is deposited
The opposite sliding between U-lag (7) and rectangular guideway (8) is prevented in fastening screw;It is led with rectangle the connection shaft (9) upper end
Rail (8) lower surface center is connected by welding, and connection shaft (9) lower end and chassis (11) upper surface center are connected by welding,
Positioning cylinder (10) upper surface and chassis (11) lower surface center are connected by screw.
The light path system amplification factor is 4;Object lens (2) diameter is 40mm;Optical sight shell (1) central axis with
Chassis (11) upper surface is parallel;Positioning cylinder (10) diameter is 10mm-18mm, is highly 9mm.
Sighting device according to the present invention is filled before folding forming rod-type injures first warhead activation using aiming at
It sets and first rum point is injured to folding forming rod-type is adjusted, warhead is placed vertically, and use horizontal ruler adjustment fight
Portion is horizontal, and sighting device positioning cylinder (10) are inserted into warhead central tube, and chassis (11) are covered tightly with warhead upper end
Closely connected conjunction guarantees that light path system axis and warhead upper end cover are flat by fitting closely for chassis (11) and warhead upper end cover
Row, rotating light path system by connection shaft (9) makes its axis direction injure first median plane, and object lens by what needs aimed at
(2) first rum point is injured to rod-type and is aimed at by the observation in eyepiece group (6) towards run-home direction, adjust rod-type
Injure first rum point position.
Compared with existing method of sight, the beneficial effects of the present invention are: under the premise of not changing shielding size of powder charge, this hair
Bright proposed folding forming rod-type injures first warhead sighting device, can be to shielding powder charge of the radius of damage within 30m
It realizes that fine sight, aiming point and actual shock point tolerance are no more than 10cm, realize 0 off-target rate, greatly improves test effect
Rate saves experimentation cost.
Detailed description of the invention
Fig. 1 is circumferentially arranged folding forming rod-type and injures each component composition schematic diagram of first warhead sighting device;
Fig. 2 is circumferentially arranged folding forming rod-type and injures first warhead sighting device assembling schematic diagram;
1- optical sight shell in figure, 2- object lens, 3- fixing seat, 4- condenser, 5- image transferring lens, 6- eyepiece group, 7-U shape
Slot, 8- rectangular guideway, 9- connection shaft, 10- positioning cylinder, the chassis 11-.
Specific embodiment
Embodiment 1
The present invention is described in further detail with reference to the accompanying drawings and examples, it should be noted that the present invention not office
It is limited to following specific embodiments, all same transformation carried out on the basis of technical solution of the present invention are in protection scope of the present invention
It is interior.
In compliance with the above technical solution, as shown in Figure 1 and Figure 2, sighting device provided by the invention, including optical laying mirror shell
Body 1, fixing seat 3, U-lag 7, rectangular guideway 8, pedestal 9, it is characterised in that further include object lens 2, condenser 4, image transferring lens 5 and mesh
Microscope group 6,2 diameter of object lens are greater than 6 diameter of eyepiece group, and condenser 4 is equal with 5 diameter of image transferring lens and is less than 6 diameter of eyepiece group, object lens
2, condenser 4, image transferring lens 5 and eyepiece group 6 form light path system from left to right, and the amplification factor of light path system is 4, optical laying
1 material of mirror shell body is aluminium alloy, is divided into leading portion, middle section and back segment three parts, 2 diameter of object lens be 40mm and in preceding piece housing
Before diameter is matched and is encapsulated in piece housing, condenser 4 matches with middle housing internal diameter with 5 diameter of image transferring lens and is encapsulated in middle section shell
In body, 6 diameter of eyepiece group and back segment housing inner diameter match and are encapsulated in rear piece housing, 1 each section of optical sight shell it
Between pass through round table-like shell transition;3 material of fixing seat is steel, and shape is that the company of circular ring structure is welded with above rectangular base
Fitting, internal radius and the 1 middle section outer diameter of optical sight shell of fixing seat 3 match, and pass through screw for optical laying
1 middle section of mirror shell body and annulus fasten, and 3 quantity of fixing seat is 3 and, institute uniformly distributed along 1 middle section length direction of optical sight shell
Stating 7 material of U-lag is aluminium alloy, and downwards, 3 rectangular base of fixing seat is fastened indent by screw and 7 upper surface of U-lag,
8 shape of steel rectangular guideway matches with U-lag 7 and is located in 7 inner concave of U-lag and fits closely with inner concave, 7 side table of U-lag
There are fastening screws to prevent the opposite sliding between U-lag 7 and rectangular guideway 8 in face, and steel connects 9 upper end of shaft and rectangular guideway
8 lower surfaces center are connected by welding, and connection 9 lower end of shaft and 11 upper surface center of steel chassis are connected by welding, steel
10 upper surface of positioning cylinder and 11 lower surface center of chassis are connected by screw.
The light path system amplification factor that the object lens 2, condenser 4, image transferring lens 5 and eyepiece group 6 form from left to right is 4,
2 diameter of object lens is 40mm.
10 diameter of steel positioning cylinder is 10mm, is highly 9mm, 1 central axis of optical sight shell and chassis
11 upper surfaces are parallel.
Application method and working principle of the invention is as follows: before folding forming rod-type injures first warhead activation, using
Sighting device is injured first rum point to folding forming rod-type and is adjusted, and warhead is placed vertically, and uses horizontal ruler tune
Whole warhead is horizontal, and sighting device positioning cylinder 10 is inserted into warhead central tube, and chassis 11 and warhead upper end cover
It fits closely, guarantees that light path system axis and warhead upper end cover are flat by fitting closely for chassis 11 and warhead upper end cover
Row, rotating light path system by connection shaft 9 makes its axis direction injure first median plane, and object lens 2 by what needs aimed at
Towards run-home direction, by being observed in eyepiece group 6, first rum point is injured to rod-type and is aimed at, adjustment rod-type is injured
First rum point position.
The performance that the preferred embodiment of the invention is finally reached is: being circumferentially arranged by sighting device to powder charge bore 90mm
Folding forming rod-type is injured first warhead and is aimed at, and warhead central tube bore is, sighting range 8m, face
The shielding size of powder charge for injuring member is 0.5m × 0.5m, and test carries out 3 hairs altogether, and test result shows: it is aimed at by sighting device,
It is respectively 6cm, 5cm, 8cm that the type rod-type of being eventually folded to, which injures first rum point and aiming point distance, and error is less than 10cm, real
Existing 0 off-target rate, greatly improves test efficiency, saves experimentation cost.
Embodiment 2
The present invention is described in further detail with reference to the accompanying drawings and examples, it should be noted that the present invention not office
It is limited to following specific embodiments, all same transformation carried out on the basis of technical solution of the present invention are in protection scope of the present invention
It is interior.
In compliance with the above technical solution, as shown in Figure 1 and Figure 2, sighting device provided by the invention, including optical laying mirror shell
Body 1, fixing seat 3, U-lag 7, rectangular guideway 8, pedestal 9, it is characterised in that further include object lens 2, condenser 4, image transferring lens 5 and mesh
Microscope group 6,2 diameter of object lens are greater than 6 diameter of eyepiece group, and condenser 4 is equal with 5 diameter of image transferring lens and is less than 6 diameter of eyepiece group, object lens
2, condenser 4, image transferring lens 5 and eyepiece group 6 form light path system from left to right, and the amplification factor of light path system is 4, optical laying
1 material of mirror shell body is aluminium alloy, is divided into leading portion, middle section and back segment three parts, 2 diameter of object lens be 40mm and in preceding piece housing
Before diameter is matched and is encapsulated in piece housing, condenser 4 matches with middle housing internal diameter with 5 diameter of image transferring lens and is encapsulated in middle section shell
In body, 6 diameter of eyepiece group and back segment housing inner diameter match and are encapsulated in rear piece housing, 1 each section of optical sight shell it
Between pass through round table-like shell transition;3 material of fixing seat is steel, and shape is that the company of circular ring structure is welded with above rectangular base
Fitting, internal radius and the 1 middle section outer diameter of optical sight shell of fixing seat 3 match, and pass through screw for optical laying
1 middle section of mirror shell body and annulus fasten, and 3 quantity of fixing seat is 3 and, institute uniformly distributed along 1 middle section length direction of optical sight shell
Stating 7 material of U-lag is aluminium alloy, and downwards, 3 rectangular base of fixing seat is fastened indent by screw and 7 upper surface of U-lag,
8 shape of steel rectangular guideway matches with U-lag 7 and is located in 7 inner concave of U-lag and fits closely with inner concave, 7 side table of U-lag
There are fastening screws to prevent the opposite sliding between U-lag 7 and rectangular guideway 8 in face, and steel connects 9 upper end of shaft and rectangular guideway
8 lower surfaces center are connected by welding, and connection 9 lower end of shaft and 11 upper surface center of steel chassis are connected by welding, steel
10 upper surface of positioning cylinder and 11 lower surface center of chassis are connected by screw.
The light path system amplification factor that the object lens 2, condenser 4, image transferring lens 5 and eyepiece group 6 form from left to right is 4,
2 diameter of object lens is 40mm.
10 diameter of steel positioning cylinder is 18mm, is highly 9mm, 1 central axis of optical sight shell and chassis
11 upper surfaces are parallel.
Application method and working principle of the invention is as follows: before folding forming rod-type injures first warhead activation, using
Sighting device is injured first rum point to folding forming rod-type and is adjusted, and warhead is placed vertically, and uses horizontal ruler tune
Whole warhead is horizontal, and sighting device positioning cylinder 10 is inserted into warhead central tube, and chassis 11 and warhead upper end cover
It fits closely, guarantees that light path system axis and warhead upper end cover are flat by fitting closely for chassis 11 and warhead upper end cover
Row, rotating light path system by connection shaft 9 makes its axis direction injure first median plane, and object lens 2 by what needs aimed at
Towards run-home direction, by being observed in eyepiece group 6, first rum point is injured to rod-type and is aimed at, adjustment rod-type is injured
First rum point position.
The performance that the preferred embodiment of the invention is finally reached is: circumferentially being arranged by sighting device powder charge bore 203mm
Cloth folding forming rod-type is injured first warhead and is aimed at, and warhead central tube bore is, sighting range 12m, just
It is 0.5m × 0.5m to the shielding size of powder charge for injuring member, test carries out 3 hairs altogether, and test result shows: being taken aim at by sighting device
Standard, it is respectively 7cm, 8cm, 10cm that the type rod-type of being eventually folded to, which injures first rum point and aiming point distance, and error is less than
10cm realizes 0 off-target rate, greatly improves test efficiency, saves experimentation cost.
Claims (5)
1. one kind is circumferentially arranged folding forming rod-type and injures first warhead sighting device, including optical sight shell (1), fixation
Seat (3), U-lag (7), rectangular guideway (8), connection shaft (9), positioning cylinder (10), chassis (11), it is characterised in that further include
Object lens (2), condenser (4), image transferring lens (5) and eyepiece group (6), object lens (2) diameter are greater than eyepiece group (6) diameter, condenser (4)
It is equal with image transferring lens (5) diameter and be less than eyepiece group (6) diameter, object lens (2), condenser (4), image transferring lens (5) and eyepiece group (6)
Form light path system from left to right, optical sight shell (1) is divided into leading portion, middle section and back segment three parts, object lens (2) diameter with
Before leading portion housing inner diameter is matched and is encapsulated in piece housing, condenser (4) is matched with image transferring lens (5) diameter with middle housing internal diameter
And be encapsulated in middle housing, eyepiece group (6) diameter and back segment housing inner diameter match and are encapsulated in rear piece housing, and optics is taken aim at
Pass through round table-like shell transition between quasi- each section of mirror shell body (1);The fixing seat (3) is to be welded with annulus knot above rectangular base
The connector of structure, internal radius and optical sight shell (1) middle section outer diameter of fixing seat (3) match, and pass through screw
Optical sight shell (1) middle section and annulus are fastened, fixing seat (3) quantity is 3 and along optical sight shell (1) middle section
Length direction is uniformly distributed, and downwards, fixing seat (3) rectangular base passes through screw and U-lag (7) upper surface to U-lag (7) indent
Fastening, rectangular guideway (8) shape match with U-lag (7) and are located in U-lag (7) inner concave and fit closely with inner concave, U-shaped
There are fastening screws to prevent the opposite sliding between U-lag (7) and rectangular guideway (8), the connection shaft for slot (7) side surface
(9) upper end and rectangular guideway (8) lower surface center are connected by welding, in connection shaft (9) lower end and chassis (11) upper surface
The heart is connected by welding, and positioning cylinder (10) upper surface and chassis (11) lower surface center are connected by screw.
2. sighting device according to claim 1, it is characterised in that: the light path system amplification factor is 4.
3. sighting device according to claim 1, it is characterised in that: object lens (2) diameter is 40mm.
4. sighting device according to claim 1, it is characterised in that: optical sight shell (1) central axis with
Chassis (11) upper surface is parallel.
5. sighting device according to claim 1, it is characterised in that: positioning cylinder (10) diameter is 10mm-18mm,
Height is 9mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201811031147.1A CN109115056A (en) | 2018-09-05 | 2018-09-05 | One kind being circumferentially arranged folding forming rod-type and injures first warhead sighting device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201811031147.1A CN109115056A (en) | 2018-09-05 | 2018-09-05 | One kind being circumferentially arranged folding forming rod-type and injures first warhead sighting device |
Publications (1)
Publication Number | Publication Date |
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CN109115056A true CN109115056A (en) | 2019-01-01 |
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CN201811031147.1A Pending CN109115056A (en) | 2018-09-05 | 2018-09-05 | One kind being circumferentially arranged folding forming rod-type and injures first warhead sighting device |
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Citations (7)
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US6295754B1 (en) * | 1998-10-21 | 2001-10-02 | Rodney H. Otteman | Aiming Device with adjustable height mount and auxiliary equipment mounting features |
CN101421581A (en) * | 2006-04-10 | 2009-04-29 | 维克托尼克斯公司 | Can be installed in the attachment that is used for gun sight on the firearms |
CN201340227Y (en) * | 2009-01-13 | 2009-11-04 | 南通环球光学仪器有限公司 | Built-in laser optical sighting device |
CN201964844U (en) * | 2010-12-10 | 2011-09-07 | 钱建忠 | Optical system of the riflescope of novel reversed image system |
CN205958118U (en) * | 2016-08-26 | 2017-02-15 | 湖北久之洋红外系统股份有限公司 | Infrared night -vision sighting device |
CN206208114U (en) * | 2016-11-30 | 2017-05-31 | 江苏雷华防务科技有限公司 | A kind of sinperscope |
US20180058813A1 (en) * | 2016-08-24 | 2018-03-01 | Lightforce USA, Inc., d/b/a/ Nightforce Optics, Inc. | Self-Leveling Scope Mount and Method |
-
2018
- 2018-09-05 CN CN201811031147.1A patent/CN109115056A/en active Pending
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6295754B1 (en) * | 1998-10-21 | 2001-10-02 | Rodney H. Otteman | Aiming Device with adjustable height mount and auxiliary equipment mounting features |
CN101421581A (en) * | 2006-04-10 | 2009-04-29 | 维克托尼克斯公司 | Can be installed in the attachment that is used for gun sight on the firearms |
CN201340227Y (en) * | 2009-01-13 | 2009-11-04 | 南通环球光学仪器有限公司 | Built-in laser optical sighting device |
CN201964844U (en) * | 2010-12-10 | 2011-09-07 | 钱建忠 | Optical system of the riflescope of novel reversed image system |
US20180058813A1 (en) * | 2016-08-24 | 2018-03-01 | Lightforce USA, Inc., d/b/a/ Nightforce Optics, Inc. | Self-Leveling Scope Mount and Method |
CN205958118U (en) * | 2016-08-26 | 2017-02-15 | 湖北久之洋红外系统股份有限公司 | Infrared night -vision sighting device |
CN206208114U (en) * | 2016-11-30 | 2017-05-31 | 江苏雷华防务科技有限公司 | A kind of sinperscope |
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Application publication date: 20190101 |