SOV - 9K35 Strela-10 [kód NATO: SA-13 Gopher]

9К35 Стрела-10
     
Název:
Name:
9K35 Strela-10 9K35 Strela-10
Originální název:
Original Name:
9К35 Стрела-10
Kategorie:
Category:
protiletadlový raketový systém blízkeho dosahu short range anti-aircraft missile system
Výrobce:
Producer:
DD.MM.1976-DD.MM.19RR Moskevská konstrukční kancelář přesného strojírenství A. E. Nudelmana, Moskva /
Období výroby:
Production Period:
DD.MM.1976-DD.MM.RRRR ?
Vyrobeno kusů:
Number of Produced:
?
Prototyp vyroben:
Prototype Built:
DD.01.1973 9K35 Strela-10SV
Složení:
Composition:
 
Střela / Munice:
Missile / Ammunition:
9M31 (9K31 Strela-1)

9M37

možnosť používať novšie rakety 9M37M a 9M333
Odpalovací / Palebné prostředky:
Launch / Firing Means:
3 x 9A34
1 x 9A35
Prostředky velení, řízení a průzkumu:
Command, Control and Surveillance Means:
PU-12 (PU-12M)
Prostředky technického zabezpečení:
Technical Support Means:
9V915 (technická ošetřovna)
9V839 (kontrolní a skušební stanice)
9I111 (vonkajší napájací zdroj)
Výcvikové prostředky:
Training Means:
9F624 (trenažér)
9F75 (zariadenie pre kontrolu operátora)
9F22 (imitátor vzdušného cieľa pro rádiový zameriavač)


9F83 (rozměrovo-hmotnostní ekvivalent rakety)
9F918 (učebno-výcviková raketa)
Mobilita:
Mobility:
samohybný mobile
Uživatelské státy:
User States:





Bez rozdielu verzií:































Bez rozdielu verzií:


























Poznámka:
Note:
Verzie:
9K35 Strela-10SV (vývojová verzia, prototypy)
9K35 Strela-10 (sériová verzia)
9K35M Strela-10M (modenizovaná verzia s raketou 9M37M)
9K35M2 Strela-10M2
9K35M3 Strela-10M3 (modernizovaná verzia s rakerou 9M333)
9K35M3-K Strela-10M3-K (verzia používajúca kolesový podvozok BTR-60)
9K35M4 Strela-10M4 Gjurza (ruská modifikácia predsatvená v roku 2001)
Strela-10T (bieloruská modifikácia)
Strela-10MJ (Juhoslovanská modifikácia, SAVA M-90)
....
Version:
9K35 Strela-10SV (prototype)
9K35 Strela-10 (serial production)
9K35M Strela-10M (with missile 9M37M)
9K35M2 Strela-10M2
9K35M3 Strela-10M3 (modernization with missile 9M333)
9K35M3-K Strela-10M3-K (wheeled chassi BTR-60)
9K35M4 Strela-10M4 Gyurza (Russion modidication)
Strela-10T (belorussian modification)
Strela-10MJ (Yugoslavian modification, SAVA M-90)
....
Zdroje:
Sources:
archív autora
URL : https://www.valka.cz/SOV-9K35-Strela-10-kod-NATO-SA-13-Gopher-t6616#521879 Version : 0




The self-guiding warhead of the 9M3xx series rocket itself without data from the 9V385 rocket launcher cannot detect whether it has captured the target or the interference. In the case of the S-10, a signal on the position of the optical sensor relative to the missile axis is fed to the operator's optical sight. The operator sees it in the sight as a small ring in the axis of the sight. If it decides to shoot the target, it must send a signal to detach the warhead - only then will the operator find out if the warhead captured the target. If it has captured what it had, the ring in the sight remains on the captured target, if it detects interference, the ring follows the interference and deviates from the target. The ZONA signal is not generated until this moment - either the target is in the launch area, the warhead has captured the target and the shooter presses the trigger to fire the missile and overruns the computer, or the warhead did not capture the target, and it is necessary to lock and re-capture the target. If no ZONE signal is present, the missile is not fired even if the target is captured by the warhead.
Then it is possible to launch a rocket only in manual mode. In this case, however, the ZONA signal is generated by the 9V385 missile launcher by pressing the trigger when the warhead is released and not by the 9S86 device. The operator also gives overruns manually.


Another case may occur if the operator optically intercepted the target, 9S86 is active, but SNH detected interference while the ZONA signal is present - (rangefinder evaluated the launch area - the missile is fired for interference. As SNH has the ability to deviate from the optical axis of the missile ( sight and rangefinder) by + - xxx degrees (I'm not sure.


The operator must be prepared for various situations and make operational decisions about the method of shooting.


The manual firing mode was used mainly in training shots with sharp ammunition, as the training target (FLG-5000, COP-65, partly also LIC) has a small RL reflecting area and it is uncertain whether the level of the reflected rangefinder signal from the target is sufficient to determine the necessary data for the calculation of the firing range. At the same time, the operator practiced setting the overrun in a real situation.
URL : https://www.valka.cz/SOV-9K35-Strela-10-kod-NATO-SA-13-Gopher-t6616#140641 Version : 0
9S86 - The launch area evaluation device automatically evaluates the data required to determine the launcher's over-run angles at the time of missile launch and blocks the missile from being fired at the target if the target is outside the effective range of the complex.


The basis of the apparatus is a coherent-pulse radar rangefinder operating in the millimetre band, the antenna of which is placed between the missile launchers. It is capable of measuring the distance to the target from 30 to 10300 m with a maximum error of less than 100 m and the radial velocity of the target with a maximum error of less than 30 m/s. The data are processed by a computer which evaluates the launch area boundary with a maximum error of 300-600 m and calculates the over-run angles of the missile launch with mean errors of max. 0.1-0.2 degrees.


Whether the target is in the launch area is indicated to the operator by the "ZONE" indicator which lights up in the sight. In the case of firing in automatic mode, when the trigger is pulled, the 9S86 system automatically takes control of the cradle and moves the cradle by calculated angles of elevation in the time between the trigger pull and the actual launch of the missile.


The entire system can be disconnected and the rocket can be fired at the target in manual mode without cooperation with this system.


Since it is an active radar, its use in combat has a debunking effect on the 9K35M complex's position in the field.
URL : https://www.valka.cz/SOV-9K35-Strela-10-kod-NATO-SA-13-Gopher-t6616#140609 Version : 0
From the Macedonian army...
SOV - 9K35 Strela-10 [kód NATO: SA-13 Gopher] -


URL : https://www.valka.cz/SOV-9K35-Strela-10-kod-NATO-SA-13-Gopher-t6616#85794 Version : 0
...
SOV - 9K35 Strela-10 [kód NATO: SA-13 Gopher] - Kubánská Strela-10

Kubánská Strela-10
URL : https://www.valka.cz/SOV-9K35-Strela-10-kod-NATO-SA-13-Gopher-t6616#93813 Version : 0
9K35 Strela-10
SOV - 9K35 Strela-10 [kód NATO: SA-13 Gopher] -


SOV - 9K35 Strela-10 [kód NATO: SA-13 Gopher] -


SOV - 9K35 Strela-10 [kód NATO: SA-13 Gopher] -


URL : https://www.valka.cz/SOV-9K35-Strela-10-kod-NATO-SA-13-Gopher-t6616#104317 Version : 0
9K35 Strela-10 / SA-13 Gopher
SOV - 9K35 Strela-10 [kód NATO: SA-13 Gopher] -


URL : https://www.valka.cz/SOV-9K35-Strela-10-kod-NATO-SA-13-Gopher-t6616#140165 Version : 0
This is a response to a discussion with one user, this discussion has since been deleted. So I've merged a few of my posts, complete with quotes from my former teacher's textbook. Therefore, some of the information may seem confusing.[/color

Citace :

ANTITRACKET ROCKET SET 9K35M3, VA LM 2000: To confirm the reliability of target tracking, an electrical intercept check signal (the "INPUT" signal) is briefly connected to the input of the head's modulation envelope amplifier, confirming the target has been intercepted, after the self-guided warhead has been de-armed from the 9V385M device. If the signal from the target is strong enough, then the warhead continues to track the target (a moving mark in the field of view of the optical sight continuously tracks the target).


The UVOD signal has nothing to do with the ZONE signal. It is generated in the launcher and provides an automatic interruption of tracking interference up to a certain intensity. However, it can also cause the target to be lost (if its value is less than the UVOD value) or it can continue to allow interference tracking (if the interference value is greater than the UVOD value).

Citace :

K35M3 ANTILIETADL ROCKET COMPLETE, VA LM 2002: The 9S86 system measures the oblique range of the target and evaluates the radial velocity of the target. Information on the target's angular velocity is passed from the homing head to this device. Based on this information, the limits of the launch area ("ZONE") are evaluated, compared to the actual target range, and when the Dbo < Dc < Ddo inequality is met, a "ZONE" signal is issued (the upper left bulb in the field of view of the otic sight is illuminated). This informs the operator that the target is in the firing area.


Dbo - distance min. of the launch area boundary
Dc - measured target distance
Ddo - distance of the maximum launch area boundary

The information about the angular velocity of the target from the SNH is additional information for the needs of the target parameter assessment and will be reflected in the calculations only for targets flying on the parameter boundary. In case the 9S86 device is switched off, the set is not able to calculate the launch area parameters only on the basis of the SNH data as it lacks the target range data and therefore the ZONE signal is generated automatically by the 9V385 missile launcher regardless of the target position and it depends on the operator to judge the situation.

Citace :

K35M3, VA LM 2002:The 9S86 system simultaneously analyses the magnitude and sign of the radial velocity of the target. If the radial velocity of the target is greater than - 140 m.s-1, a " NAZAD" (departure) signal is issued to the missile via the 9V385M3 device to switch the autopilot mode of operation.
Another signal to switch the autopilot mode of operation "NIZ" (NLC) is produced by the attitude angle transmitter (+20° interlock switch in the attitude drive microswitch block).
In the presence of a "ZONE" signal and if no "NORTHCOM" signal is issued from the radar interrogator, the operator will issue a "FIRE" command via the 9V385M to the rocket and launcher actuators by pressing the "DOWN - PUSK" button to the second position. On the rocket, the on-board power supply and the dust generator of the roll stabilization block are switched on. A power supply proportional to the size of the overruns is connected to the launcher actuators. The actuators work off this size and rotate the launcher to the specified angles. The 9S86 system switches to "equivalent". Approximately 1.1s after the "Launch" command is issued, a signal is issued from the 9V385M to lock the launcher actuators and signal the ignition of the rocket motor pyrocircuits, followed by rocket flight. An audible signal of approximately 5 Hz can be heard in the headphones, indicating the passage of the "Launch" signal.
After the rocket has been fired and the "DOWN - PUSK" button has been released, a command is issued from the 9V385M3 to empty the unused coolant gas tanks. The evaporator is unlocked
.

The on-board power supply is only switched on when the ZONE signal is generated. If there is no ZONA signal, the rocket does not have an on-board power supply operating, and would not be able to continue operating in the event of a launch.
URL : https://www.valka.cz/SOV-9K35-Strela-10-kod-NATO-SA-13-Gopher-t6616#140683 Version : 0
One photo of the 9M37 self-guided rocket and container from IDET 19xx?.
SOV - 9K35 Strela-10 [kód NATO: SA-13 Gopher] - Sorry za kvalitu skenovania

Sorry za kvalitu skenovania
URL : https://www.valka.cz/SOV-9K35-Strela-10-kod-NATO-SA-13-Gopher-t6616#216904 Version : 0
AH-64 Apache versus S-10. US Army′s Training and Support Center, Fort Stewart, Georgia 04.03.1997 počas výcviku bojového rozpoznávania (ASCIET - All Service Combat Identification Evaluation Test).
SOV - 9K35 Strela-10 [kód NATO: SA-13 Gopher] - http://www.defenseimagery.mil

http://www.defenseimagery.mil
URL : https://www.valka.cz/SOV-9K35-Strela-10-kod-NATO-SA-13-Gopher-t6616#317654 Version : 0
01.05.2022
An interesting improvised weapon has been spotted in Ukraine, consisting of a chassis and a 9K35 magazine. The Strela-10 rocket launcher has been removed from the weapon and replaced with two 20-barrel B-8M1 rocket launchers loaded with 80mm unguided S-8 or AR-8 rockets. This improvised rocket launcher is characterized by its short range and inaccuracy.
Source:
twitter.com
defence24.pl
defence-ua.com
SOV - 9K35 Strela-10 [kód NATO: SA-13 Gopher] -


SOV - 9K35 Strela-10 [kód NATO: SA-13 Gopher] -


SOV - 9K35 Strela-10 [kód NATO: SA-13 Gopher] - Přestavbou prošlo minimálně pět vozidel.

Přestavbou prošlo minimálně pět vozidel.
URL : https://www.valka.cz/SOV-9K35-Strela-10-kod-NATO-SA-13-Gopher-t6616#696074 Version : 0
Russian Strela-10 missile kit destroyed by Ukrainian suicide drone.
URL : https://www.valka.cz/SOV-9K35-Strela-10-kod-NATO-SA-13-Gopher-t6616#735382 Version : 0

This post has not been translated to English yet. Please use the TRANSLATE button above to see machine translation of this post.

URL : https://www.valka.cz/SOV-9K35-Strela-10-kod-NATO-SA-13-Gopher-t6616#739305 Version : 0

Diskuse

A few months ago a modeller from Spain asked me for materials for the chassis of these fighting machines. I have only the material for the classic version of the MTLB tractor, which is currently used as the chassis for this air defense vehicle. Some of the springs are at http://www.pvo.webz.cz/s10instr.htm. Their location is not obvious, so I am drawing attention to them in this form.
Personally I intend to elaborate and place here a bit more detailed description of PLRK S-10M, but time is very short...
This spring is not there
SOV - 9K35 Strela-10 [kód NATO: SA-13 Gopher] -


URL : https://www.valka.cz/SOV-9K35-Strela-10-kod-NATO-SA-13-Gopher-t6616#21494 Version : 0
Somewhere on the Net I found some nice springs of the combat vehicle 9A34/35
(Buko1 note: based on the 9S16 passive system antennas it is a 9A35 vehicle)
-
SOV - 9K35 Strela-10 [kód NATO: SA-13 Gopher] -


URL : https://www.valka.cz/SOV-9K35-Strela-10-kod-NATO-SA-13-Gopher-t6616#81361 Version : 0
Link somehow doesn't work Sad. But to have some change I'm buying , good tractor for the field xixi. I poore, i weed pulls xixi
URL : https://www.valka.cz/SOV-9K35-Strela-10-kod-NATO-SA-13-Gopher-t6616#322921 Version : 0

This post has not been translated to English yet. Please use the TRANSLATE button above to see machine translation of this post.

me to pari ? Smile muzes kupovat Smile
URL : https://www.valka.cz/SOV-9K35-Strela-10-kod-NATO-SA-13-Gopher-t6616#322954 Version : 0

This post has not been translated to English yet. Please use the TRANSLATE button above to see machine translation of this post.

LaughingLaughingLaughingLaughingLaughingCool
URL : https://www.valka.cz/SOV-9K35-Strela-10-kod-NATO-SA-13-Gopher-t6616#322956 Version : 0
I didn't know you or wade were selling PLRK Strela-10 under the pseudonym "Luke Saivera"!


I am led to believe that the advert states, among other things:


Web: forum.valka.cz/viewtopic.php/t/6616



F.
URL : https://www.valka.cz/SOV-9K35-Strela-10-kod-NATO-SA-13-Gopher-t6616#322957 Version : 0
and if only in one Smile just click on the whole section "armoured trucks" or whatever it is called, we are listed there several times (for which I thank Mr. L.S. very much and appreciate it !)
URL : https://www.valka.cz/SOV-9K35-Strela-10-kod-NATO-SA-13-Gopher-t6616#322958 Version : 0
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