https://www.sohu.com/picture/325741011
俄最先进空空导弹生产线曝光,美女纯手工装配,战斗力如何?
2019-07-09 18:38:00
0 0
1/9
据俄媒报道,2019年7月7日,分管国防军事工业的俄罗斯副总理尤里·鲍里索夫视察了库尔干州,参观了库尔干仪器公司。这家公司承担了俄罗斯新型武器装备的研发生产工作,其中就包括了俄罗斯空天军新一代格斗导弹RVV-MD。这款导弹于2015年底投产,主要配备给苏-57、苏-35、苏-30SM和米格-31等主力战斗机使用。
0 0
2/9
RVV-MD是俄罗斯在著名的R-73红外格斗导弹的基础上大幅度改进而来,又被称为R-74。其气动外形和控制舵面跟R-73几乎一致,但内部采用了很多新技术,比如换装了全新的双波段红外成像导引头,改进了飞行控制和稳定系统,机动性、抗干扰能力都有明显提高,可大离轴甚至越肩发射,达到了第四代格斗导弹的技术水平。
0 0
RVV-MD导弹总装生产线仍然依赖人工装配,图为正在整理线缆的年轻美女工人,颜值还是非常不错的。这些线缆是连接导弹控制组件的重要零件,实时传输控制信号。看起来这个工位技术含量并不高,一张垫桌子的纸、一个装接头的纸盒,就是美女们装配线缆所需要的全部“家当”了。
0 0
正在装配的RVV-MD弹体中段,应该是战斗部或控制计算机部分。RVV-MD全弹重量为100公斤,长度约2.9米,战斗部重约8公斤,迎头射程超过20公里,作战高度从海平面到2万米。图中后方可以看到圆形的工装夹具,用于导弹的最终组装和检测。导引头部件全程都戴着红色保护罩,防止刮花受损。
0 0
这个试验台架用于测试导弹的导引头和飞行控制组件,其中连接了七八根不同的线缆和管路,有的是输出电信号的,有的是用来给导引头提供制冷的。电脑显示屏右边,部分管线很粗放地缠绕在钣金夹具上,电钻边上还有一个红色塑料桶,估计是给导弹测试时提供冷却水源的,十分简单粗放。
0 0
激光陀螺仪,恐怕是导弹上最精密昂贵的零件之一了,用来感知飞行姿态、速度、加速度等数据。作为数据输入源,加计陀螺的数据精度极高,稍有偏差就会造成严重后果。
0 0
7/9
等待组装的气动舵面。R-73采用了很复杂的气动外形设计,但本质上还是跟美制AIM-9L类似的鸭翼布局。导弹最前端是风标传感器;然后是固定的端板,用于产生涡流;再是后掠三角形全动鸭翼;最后是带有活动翼面的梯形主翼。R-73是世界上第一种可以大离轴发射的格斗导弹,这套气动布局很成功,因此RVV-MD就没有做过多改动。
0 0
8/9
等待安装外壳和气动组件的RVV-MD导弹。
Https://www.sohu.com/picture/325741011
Russia's most advanced air-to-air missile production line is exposed, beauty is hand-assembled, how is the combat effectiveness?
2019-07-09 18:38:00
0 0
1/9
According to Russian media reports, on July 7, 2019, Russian Deputy Prime Minister Yuri Borisov inspected the defense military industry visited Kurgan and visited Kurgan Instruments. The company undertook the R&D and production of new Russian weapons and equipment, including the Russian Air Force's new generation of fighting missile RVV-MD. The missile was put into production at the end of 2015 and is mainly used for the main fighters such as Su-57, Su-35, Su-30SM and MiG-31.
0 0
2/9
RVV-MD is a substantial improvement of Russia's famous R-73 infrared fighting missile, also known as R-74. Its aerodynamic shape and control rudder surface are almost identical to the R-73, but many new technologies are used internally, such as the replacement of a new dual-band infrared imaging seeker, improved flight control and stability system, maneuverability and anti-jamming capability. Both have been significantly improved, and can be launched off-axis or even over the shoulder, reaching the technical level of the fourth-generation combat missile.
0 0
The RVV-MD missile assembly line still relies on manual assembly. The picture shows the young beauty workers who are finishing the cables. The value is still very good. These cables are important parts that connect the missile control components and transmit control signals in real time. It seems that the technical content of this station is not high, a piece of paper on the table, a carton with a connector, is all the "home" that the beauty needs to assemble the cable.
0 0
The middle section of the RVV-MD body being assembled should be the warhead or control computer section. The RVV-MD has a total weight of 100 kilograms, a length of about 2.9 meters, a warhead weighing about 8 kilograms, a head-on range of more than 20 kilometers, and a combat altitude of from sea level to 20,000 meters. A circular fixture is visible at the rear for the final assembly and inspection of the missile. The seeker unit is wearing a red protective cover throughout the process to prevent scratching.
0 0
This test rig is used to test the missile's seeker and flight control components, which connect seven or eight different cables and pipes, some for outputting electrical signals, and some for cooling the seeker. On the right side of the computer display, some of the pipelines are wrapped extensively on the sheet metal fixture. There is also a red plastic bucket on the side of the drill. It is estimated that the cooling water source is provided for the missile test, which is very simple and extensive.
0 0
Laser gyro is probably one of the most sophisticated and expensive parts on the missile, used to sense data such as flight attitude, speed, and acceleration. As a data input source, the accuracy of the data of the gyro is extremely high, and a slight deviation will have serious consequences.
0 0
7/9
Aerodynamic rudder surface waiting to be assembled. The R-73 uses a very complex aerodynamic shape design, but is essentially a duck wing layout similar to the American AIM-9L. The front end of the missile is a weathervane sensor; then a fixed end plate for generating eddy currents; a swept-triangular full-motion canard; and finally a trapezoidal main wing with a movable airfoil. The R-73 is the world's first combat missile that can be launched off-axis. This aerodynamic layout is very successful, so the RVV-MD has not been changed too much.
俄最先进空空导弹生产线曝光,美女纯手工装配,战斗力如何?
2019-07-09 18:38:00
0 0
1/9
据俄媒报道,2019年7月7日,分管国防军事工业的俄罗斯副总理尤里·鲍里索夫视察了库尔干州,参观了库尔干仪器公司。这家公司承担了俄罗斯新型武器装备的研发生产工作,其中就包括了俄罗斯空天军新一代格斗导弹RVV-MD。这款导弹于2015年底投产,主要配备给苏-57、苏-35、苏-30SM和米格-31等主力战斗机使用。
0 0
2/9
RVV-MD是俄罗斯在著名的R-73红外格斗导弹的基础上大幅度改进而来,又被称为R-74。其气动外形和控制舵面跟R-73几乎一致,但内部采用了很多新技术,比如换装了全新的双波段红外成像导引头,改进了飞行控制和稳定系统,机动性、抗干扰能力都有明显提高,可大离轴甚至越肩发射,达到了第四代格斗导弹的技术水平。
0 0
RVV-MD导弹总装生产线仍然依赖人工装配,图为正在整理线缆的年轻美女工人,颜值还是非常不错的。这些线缆是连接导弹控制组件的重要零件,实时传输控制信号。看起来这个工位技术含量并不高,一张垫桌子的纸、一个装接头的纸盒,就是美女们装配线缆所需要的全部“家当”了。
0 0
正在装配的RVV-MD弹体中段,应该是战斗部或控制计算机部分。RVV-MD全弹重量为100公斤,长度约2.9米,战斗部重约8公斤,迎头射程超过20公里,作战高度从海平面到2万米。图中后方可以看到圆形的工装夹具,用于导弹的最终组装和检测。导引头部件全程都戴着红色保护罩,防止刮花受损。
0 0
这个试验台架用于测试导弹的导引头和飞行控制组件,其中连接了七八根不同的线缆和管路,有的是输出电信号的,有的是用来给导引头提供制冷的。电脑显示屏右边,部分管线很粗放地缠绕在钣金夹具上,电钻边上还有一个红色塑料桶,估计是给导弹测试时提供冷却水源的,十分简单粗放。
0 0
激光陀螺仪,恐怕是导弹上最精密昂贵的零件之一了,用来感知飞行姿态、速度、加速度等数据。作为数据输入源,加计陀螺的数据精度极高,稍有偏差就会造成严重后果。
0 0
7/9
等待组装的气动舵面。R-73采用了很复杂的气动外形设计,但本质上还是跟美制AIM-9L类似的鸭翼布局。导弹最前端是风标传感器;然后是固定的端板,用于产生涡流;再是后掠三角形全动鸭翼;最后是带有活动翼面的梯形主翼。R-73是世界上第一种可以大离轴发射的格斗导弹,这套气动布局很成功,因此RVV-MD就没有做过多改动。
0 0
8/9
等待安装外壳和气动组件的RVV-MD导弹。
Https://www.sohu.com/picture/325741011
Russia's most advanced air-to-air missile production line is exposed, beauty is hand-assembled, how is the combat effectiveness?
2019-07-09 18:38:00
0 0
1/9
According to Russian media reports, on July 7, 2019, Russian Deputy Prime Minister Yuri Borisov inspected the defense military industry visited Kurgan and visited Kurgan Instruments. The company undertook the R&D and production of new Russian weapons and equipment, including the Russian Air Force's new generation of fighting missile RVV-MD. The missile was put into production at the end of 2015 and is mainly used for the main fighters such as Su-57, Su-35, Su-30SM and MiG-31.
0 0
2/9
RVV-MD is a substantial improvement of Russia's famous R-73 infrared fighting missile, also known as R-74. Its aerodynamic shape and control rudder surface are almost identical to the R-73, but many new technologies are used internally, such as the replacement of a new dual-band infrared imaging seeker, improved flight control and stability system, maneuverability and anti-jamming capability. Both have been significantly improved, and can be launched off-axis or even over the shoulder, reaching the technical level of the fourth-generation combat missile.
0 0
The RVV-MD missile assembly line still relies on manual assembly. The picture shows the young beauty workers who are finishing the cables. The value is still very good. These cables are important parts that connect the missile control components and transmit control signals in real time. It seems that the technical content of this station is not high, a piece of paper on the table, a carton with a connector, is all the "home" that the beauty needs to assemble the cable.
0 0
The middle section of the RVV-MD body being assembled should be the warhead or control computer section. The RVV-MD has a total weight of 100 kilograms, a length of about 2.9 meters, a warhead weighing about 8 kilograms, a head-on range of more than 20 kilometers, and a combat altitude of from sea level to 20,000 meters. A circular fixture is visible at the rear for the final assembly and inspection of the missile. The seeker unit is wearing a red protective cover throughout the process to prevent scratching.
0 0
This test rig is used to test the missile's seeker and flight control components, which connect seven or eight different cables and pipes, some for outputting electrical signals, and some for cooling the seeker. On the right side of the computer display, some of the pipelines are wrapped extensively on the sheet metal fixture. There is also a red plastic bucket on the side of the drill. It is estimated that the cooling water source is provided for the missile test, which is very simple and extensive.
0 0
Laser gyro is probably one of the most sophisticated and expensive parts on the missile, used to sense data such as flight attitude, speed, and acceleration. As a data input source, the accuracy of the data of the gyro is extremely high, and a slight deviation will have serious consequences.
0 0
7/9
Aerodynamic rudder surface waiting to be assembled. The R-73 uses a very complex aerodynamic shape design, but is essentially a duck wing layout similar to the American AIM-9L. The front end of the missile is a weathervane sensor; then a fixed end plate for generating eddy currents; a swept-triangular full-motion canard; and finally a trapezoidal main wing with a movable airfoil. The R-73 is the world's first combat missile that can be launched off-axis. This aerodynamic layout is very successful, so the RVV-MD has not been changed too much.