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*********************************************
This document is a captured Iraqi military record.
It is provided in its original form to include Iraqi
classification markings (i.e. Top Secret, Secret, etc.). 
These classification markings are NOT U.S. Government markings.
*********************************************

Automatic Detection Device

Filename:ln179-95.wp1

	Part 1
	Automatic Detection Device G.S.B.-1M 


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(A few hand written notes)
Abd AlRazak
Moyeed Eid Ali, (illegible signature)
File number 1 notebook number 69
notebook number 61
N4 Riyad notebook (wheel) A53

































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Internal notes for the type purposes 
Number 14 
Manual for the technical and operational use of chemical devices 
and equipment
Seventh book, first, second and third parts
Chemical surveillance equipment and devices
Automatic detection device GSB-1M
Automatic detection device GSB-11
Automatic detection device HSI-12
First printing February 1983
Organization and supply agency chemical type directorate

































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Table of Contents

Purpose of the Device, Technical specifications and components			2
Purpose of the device										2
Components										2
Technical specifications and packaging							3
Working principles										4
Gas line											5
Electric circuits										6
Poisonous material detection circuits							7
Regulation circuits										9
Radiation detection circuits									10
Voltage altering circuits										11
Technical description of the device								12
General structure of the device								12
Photoelectric cell block										16
Tape pulling system										18
Dropper											19
Scaled cylinder										20
Rotating pipe										22
Filter											24
Air amount gauge										25
Air suction system										26
Voltage alternator										27
Relay block										29
Battery box											30
Detection tools kit										32
Maintenance kit										33
Marking and packaging										33
Security precaution										35
Operating tool kit										35










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Preparing the device for work			36
Using the device			44
Technical maintenance of the device			49
Technical maintenance procedures			52
Examining the technical condition of the device			60
Storing the device			62
Possible breakdowns and how to repair them			64
General information on breakdown repair, part exchange, 
and unit organizing			66






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Purpose			73
Components			73
Technical Specifications			73
Operation Theory			75
Gas Cycle			75
Optical System			77
Electrical Cycle			78
Feeding Cycle			78
Control Cycle			79
Detection Cycle			80
Thermal Cycle			81
Summary Description for Device Design			83
Electronic - Electric Assembly			89
Droppers			90
Rotating Pump			91
Sending and Receiving Roles			91
Air Scale 			92
Opening for Air Entrance and Protective Gaskets			92
Speed of Transferred Signals			93
Battery Box			94
Detecting Material Kit			95
Packaging and Marking			96
Safety Precautions			98
Accessory Tools with the Device			98
Preparing the Device for Operation			98
Procedures for Preparing the Device for Operation			99
Measuring the Drop Volume			105





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Operating the Air Heater			106
Protective Gasket Components			106
Examining the Gas Passage Tightness			106
Using Instructions			107
Periodical Maintenance			110
Testing the Cleanness of the Droppers			111
Testing the Device Accessories			111
Washing the Rotary Pump			111
Cleaning the Electric Engine Assembly			111
Adjusting the Tape Tightness			112
Oiling the Device			113
Testing the Shock Absorbants			113
Testing the Batteries			114
Charging the Batteries			114
Changing the Solutions			116
Examining the Technical Condition of the Device			117
Moving and Storing the Device			118
Using the Maintenance Kit			119
Possible Malfunctions and How to Fix Them			121
Detecting Material Kit			123



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Introduction			130
Purpose of the Device			131
Technical Specifications			131
Device Components			135
Functions and Components of the Device			137
General Idea of the Device Function			137
The Main Parts for Operating the Device			138
General Structure			140
Functions of the Parts			146
Air Suction System			149
Tape Pulling System and Operating the Droppers			152
The Droppers			156
Photoelectric Cell			158
Thermal Calibration System			158
Programming System			163
Measuring Devices			165
Device Efficiency Testing System			166
Control Panel and Light Signals			169
General Idea on the Device Structure			169
Transferred Signals Mass			173
Power Supply Units (25 Volts)			173
Power Supply Units (127/220 Volts)			181
Power Supply Units (12 Volts)			184
Detection Tools Kit			185
Maintenance Kit			186
Marking and Sealing			187






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Safetly Precautions			188
Device Installation Procedure			189
Preparing the Device to Work			190
Operating Principle			196
Testing the Technical Condition of the Device			198
Possible Breakdowns and Malfuntions and Repairing Procedures			204
Technical Maintenance and Callibration			208
Procedures for Moving, Storing and Oiling the Device			212












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Automatic Detection and Warning Device G.S.B.- 1M 
(Handwritten sentence: Old kaz 69 cycle, exists in the  
cycle)

Technical description and usage instruction for the device
This notebook is to study the structure of the device, how to use 
it and how to apply the technical maintenance. It also covers the 
storage procedure for the device. The notebook is divided into two 
sections:

The first section covers the method of operation and the 
components of the device, the second section covers the theory of 
the device function, the technical maintenance and the storing 
procedures. Before using this device, please read this notebook 
very carefully. 



























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Part 1: Technical Description

1.  	The purpose of the device, components, technical 
specifications, and packaging:  
	The purpose of the device:  
	This device is used to test the air continuously in order to 
detect the existence any poisonous material and/or any 
radioactive material. The device produces audio and optical 
signals when detecting any poisonous material or radiation.  

(handwritten sentence, mostly illegible however we can read the 
following words,-preservation factors, sodium cyanide, chloride)

Device Components:
The device consists of the following parts:  
First	Control unit						1 unit
Second	Transferred signals mass			1
Third	Battery box						2
Fourth	Battery connection wire			1
Fifth	Optical transferred signal block wire		1
Six 	Solution box (handwritten)




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Sixth	Maintenance kit				1
Seventh	Detection tools kit				2
Eighth	Detection tape					2
Ninth	Bundles box					1
Tenth	Instruction and usage notebook		1
Eleventh	Service records					1

C.  	Technical and packaging specifications:
	First:  	Device sensitivity to nuclear radiation is 0.1 
Roentgens/hour minimum.
	Second:  	The photoelectric system pointer vibration during a 
period of 8 hours of continuous work is less 
than + or - 20% of the pointing variation by 
using the flame when placing or removing the 
testing optical filter.  
	Third:  	The device works at a temperature between -30 and +40 
degrees Centigrade 
	Fourth:  	Continuous operating time of the device without break: 
 
		1. 	By using one filling of detecting material in 8 
hours.
		2. 	Without charging the power supply (batteries kh-10) 
from 6 to 8 hours.
	Fifth:  	One person operates the device.  Time necessary for 
filling the device with detecting material 
does not exceed 10 minutes.
		Operating time for the device filled with detecting 
material is approximately 30 seconds.
	Sixth:  	Time for one operating cycle when there is no signal 
for poisonous material is 4 minutes and 45 
seconds + or - 30 seconds. When there is a 
signal for poisonous material the cycle is 
repeated every (45 + or - 20) seconds of its 
appearance. The time for the exceptional cycle 
is 4 to 8 seconds.
	Seventh:	The position of the device is vertical and allows a 
slope of 45 degrees. 





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	Eighth:  	Drop volume when temperature is between 20 + or - 5 and 
40 degrees Centigrade equals 0.15 + or - 0.02 
milliliter.  
But when the temperature changes from 20 + or - 5 to 30 degrees 
Centigrade, the drop volume becomes 0.15 + or - 0.05 milliliter.  
	Ninth:  	Amount of air entering a full device equals 1.5 
liters/minute + or - 15%..
	Tenth:  	Optical signal could be seen at night on a straight 
line for 50 meters.
	Eleventh:	The audio signal can be heard for 5 meters when the 
cycle is working on the same average as the 
engine.  
	Twelfth: 	The device is completely isolated from dust and dirt.  
	Thirteenth:	The device is mounted on shock absorbants 
(suspension) on wheels so it can move on 
the road.
	Fourteenth:	The device weight is 10 Kiligrams and with batteries 
18 Kilograms.
2. 	Working Principles:
The device depends on the principle of measuring light intensity.
When dripping the moistened reagents on the detecting tape which 
is contaminated by air, a chemical reaction takes place and a 
colored spot appears on the tape.  
The intensity of the color on the tape (the amount of darkness on 
the tape) is in direct proportion with the poisonous material 
concentration in the air, the intensity of the color also is 
influenced by other factors (heat, air absorption rate by the 
tape, the drop size...etc.).
When the device works the light falls from the source onto the 
tape then is reflected from the tape to the photoelectric cell, 
causing the photoelectric cell to light and thus expressing the 
photoelectric block of the device.
The photoelectric block works when enough darkening happens to the 
photoelectric cell, and that happens when the tape becomes dark as 
a result of changing the light filter when calibrating the device.
When the photoelectric cell operates it sends an audio and optical 
signal through the electronic block. The device works continuously 
by pulling the air from the moistened tape





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during a limited period of time (4 minutes and 30 seconds), 
automatically after that the tape pulling unit changes the 
moistened part of the tape with the dry one and moistens it with 
reagents while the tape is moving. Therefore a complete cycle of 
the device is approximately 4 minutes and 30 seconds. During this 
time, if there is any poisonous material in the air existing in a 
concentration equal to or more than the sensitivity of the device, 
the device will give the signals. The time of the signal interval 
is dependent on the poisonous material concentration. For example, 
if the concentration is low the signal will be sent two to four 
minutes apart. But if the concentration of the poisonous material 
is high the signals will appear within the first minutes of the 
device cycle i.e. one minute apart. 
Detecting the radiation takes place by using a gaseous gauge type 
CTC-5. 
When radiation exists electric currents will turn on the audio and 
optical signals. The device detection for radiation for radiation 
is completely separate from the device detection of the poisonous 
material. Both the radiation detection cycle and the chemical 
detection cycle are completely separate.

A. 	The Gas Line:
	Figure number 1 shows the air passage through the gas line. 
	The air is pulled from the atmosphere to the device by a 
rotating pump (10) through the inlet opening on the cover 
of the device. After that the air will pass through the 
protective gasket (4) which contains filter (6) type 
(Latin symbols) and the chlorine -treated gaskets (5), 
then through the air amount gauge (3). After that the air 
goes through a reaction chamber (7) which is considered a 
part of the photoelectric block (2). 
	In the reaction chamber the reagent coming from the dropper (1) 
on the detection tape (11) absorbs the air and goes 
through the precipitation tank (8) in which the drops and 
the reagents are mixed together and go to the absorbent 
filter (9) through a flexible tube. The filter protects 
the pump from the remains of the poisonous material and 
the reagents which is carried by the air currents. The 
air is expelled from the filter to the inner cavity of 
the device by pump (10). 





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	Figure Number 1: The Gas Line
The following are the parts of the gas line: 1 the dropper, 2 the 
photoelectric block, 3 the air amount measuring gauge, 4 
protective gaskets, 5 chlorine treated gaskets, 6 filter type, 7 
reaction chamber, 8 precipitation container, 9 absorbent filter, 
10 rotating pump, 11 detecting tape. 

B.  	Electric Cycle:
	Figure number 2 shows the electric circuit.
	The electric circuit contains the following circuits: The 
poisonous material detecting circuit, the device control 
circuit, the radiation detection circuit and the voltage 
altering circuits. 


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	First: 	Poisonous material detection circuit:
		Includes an active photoelectric cell (Cyrillic text), 
a reference photoelectic cell (Cyrillic text), 
lighting bulb for the photoelectric cells, 
(Cyrillic text), valve (Cyrillic text), relay 
(Cyrillic text), yellow light bulb (Cyrillic 
text), audio signal (amplifier) (Cyrilic text).
		When the device operates a light beam falls from the 
light bulb (13) (figure number 6) on the 
detection tape. The light is then reflected from 
the tape through the light filter (4) to 
illuminate the active photoelectric cell (14). 
The standard photoelectric cell (1)is 
illuminated by the same light bulb through the 
transparent glass (15) and the light filter 
(17). 
		The springs of the separators (shields) (2,16) are 
fixed so that the light beam falling on the 
photoelectric cell is always less than the light 
beam reflected from the moistened tape and 
falling on the active photoelectric cell (in the 
absence of the poisonous material spots on the 
tape). 
		Through the above mechanism a negative voltage is 
formed on the valve (Cyrillic text) (figure 
number 2) which leads to preventing electric 
current from going through (closed valve).
		If poisonous material exists in the air, orange color 
spots are formed on the tape at the air suction 
point. That will lead to darkening the active 
photoelectric cell, and as a result a change in 
the photoelectric unit of the device and an 
increase of the voltage on the valve lattice 
causing it to glow. 
		Since the voltage increase on the valve lattice is in 
direct proportion with the darkening of the 
active photoelectric block (darkening of the 
tape) and since the glow voltage is a constant 
amount for the valve, that means that the glow 
will take place when there is a complete 
darkening on the tape. 




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		To neutralize this darkness (lack of light) light 
filters are used for adjustment (8 and 9) 
(figure number 6). One of them works when the 
temperature is between 30 and 35 degrees 
Centigrade, and the other works when the 
temperature is between 35 and 40 degrees 
Centigrade. These two filters are used to adjust 
the device when preparing it for work. 
		When the valve glows the current going through it will 
operate the relay (Cyrillic text) (figure number 
2), the relay then is connected automatically 
through connection points 4 and 5. The divided 
dual valve is used to return the negative 
current back to the valve (Cyrillic text) 
through the relay (Cyrillic text) and the 
battery. 
		When operating the relay (Cyrillic text) it connects 
points 6 and 7. Condenser (Cyrillic text) 
discharges the time relay to 7 volts (if it was 
charged to that amount) through resistance 
(Cyrillic text) and the battery (Cyrillic text). 
At the same time contact points 4 and 5 connect 
the relay supply circuit (Cyrillic text) and 
operate the latter.
		Through contact points 4 and 5 of the relay (Cyrillic 
text) voltage reaches the yellow light (Cyrillic 
text) and to the connecting points (Cyrillic 
text) to the transferred signal block. As a 
result of disconnecting points 3 and 4 the 
charging process of the condenser (Cyrillic 
text) will stop. Through the connecting points 6 
and 7, resistance (Cyrillic text) of the relay-
charging circuits is connected to resistance 
(Cyrillic text). 
		When operating the relay block (Cyrillic text) 
connecting points 7 and 8 are separated and when 
they are separated the negative circuits of the 
valve (Cyrillic text) are broken. That would 
lead to the production of another glow and would 
connect points 4 and 5 and produce electric 
supply to the audio signal. 
		After that the relay block (Cyrillic text) is closed 
when changing the circuit by contact points 7 
and 8 of the relay (Cyrillic text) or manually 
by pushing the valve (Cyrillic text) button. If 
order to increase the stability of the light 
block of the valve lattice (Cyrillic text), the 
ground should be connected through the condenser 
(Cyrillic text) voltage. 


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	Second: Device regulation circuit:
	Includes the time relay, the regulatory relay (2 - P sub 1), 
circuit alternator button (3 - KH sub 6), electric engine 
(3 - M sub 2) for the tape pulling unit and lights 
(Cyrillic text) to test the cycle change. 
	The time relay block consists of valve (Cyrillic text), 
resistance charge (2 - R sub 1 and 2 - R sub 4), charging 
capacitor (2 - C sub 1) and the controlling resistance (2 
- R sub 2). Condenser (2 - C sub 1) is charged when there 
is no signal for poisonous material through resistance (2 
- R sub 4) to the glow voltage of the valve (Cyrillic 
text) in a time of 4 minutes and 45 seconds. 
	When the poisonous material signal appears, resistance (2 - R 
sub 4) is connected with resistance (2 - R sub 1) as 
explained before. As a result fixed time R sub C (to 
charge condenser (2 - C sub 1)) decreases to 
approximately one minute. 
	When the charge of the condenser reaches the voltage necessary 
for the valve (Cyrillic text), it glows. 
	The relay (2 - P sub 1) operates using the negative current of 
the valve and connects points 6 and 7 automatically. And 
when points 4 and 5 of relay (2 - P sub 1) are connected 
the remaining charge of condenser (2 - C sub 1) is taken. 
The voltage is sent through points 6 and 7 of the relay 
to the electric engine (3 - M sub 2) to the green light 
(Cyrillic text) and to socket (Cyrillic text) for light 
(Cyrillic text) of the transferred signal block. Through 
the electric engine work period by the handle a 
consecutive closure of the key at the beginning and when 
shifting the lower key (3 - B sub 4) the negative circuit 
of the valve (Cyrillic text) is broken to avoid false 
alarm. 
	The power supply circuit of the electric engine (3 - M sub 2) is 
connected to the signal lights (Cyrillic text) and 
(Cyrillic text) in the case of presence of poisonous 
material. 
	After a short period of time when changing the upper key (3 - B 
sub 5) the voltage is disconnected from relay (2 - P sub 
1). After that the lower key (3 - B sub 4) returns to its 
original position and breaks the power supply circuit to 
the electric engine (3 - M sub 2) and lights (Cyrillic 
text) and connects the power supply circuit of the 
negative pole of valve (Cyrillic text) the electric block 
returns to the original condition, and a new working 
cycle starts.






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	In the absence of poisonous material, the normal working cycle 
of the device is 4 minutes and 45 seconds approximately. 
When the poisonous material signals appear, this time 
becomes approximately one minute (because of the decrease 
of the fixed time P sub C of the condenser charging 
circuit of the time relay condenser) after that the 
circuit is exchanged.
	When necessary the working cycle can be changed manually by 
pushing button (3 - K sub H6) which directs the voltage 
to the regulatory stage (2 - P sub 1). 
	The divided dual valve (Cyrillic text) will cause the return of 
the valve current (Cyrillic text) through the battery. 
Third:
	Radioactive material detection circuit
	The circuit includes the gas gauge (Cyrillic text) and the 
electronic amplifier of the semiconducting valves 
(Cyrillic text), the lights (Cyrillic text) and the audio 
signals (3 - 3B sub 1). 
	In the case of the presence of radiation in the air an 
intermittent charge affects gauge (Cyrillic text) and an 
alternate current goes through the gauge circuit. With 
the aid of the identical electric transformer (1 - T sub 
P2) the small alternate current at the semiconducting 
valves (Cyrillic text) to a constant current enough to 
operate the relay (1 - P sub 1). 
	Using connecting points of the relay 6 and 7 the light signal 
supply circuit (Cyrillic text) is connected. And by using 
connecting points 4 and 5 the audio signal supply circuit 
(3 - 3 B sub 1) is connected, the necessary sensitivity 
of the radioactive detector is arranged by the changing 
resistance (1 - R sub 4). 
	Batteries (Cyrillic text) are used as a power source for the 
device. 
	The following units are supplied with power directly from the 
battery: The valve glow unit (Cyrillic text), the 
photoelectric cell light (Cyrillic text), spotlights 
(Cyrillic text), transferred signal block lights 
(Cyrillic text), consumption gauge light (Cyrillic text) 
which is opened by button (3 - K sub H2), light (Cyrillic 
text) which is necessary for night operations and which 
will be turned on by button (3 -B sub 3), electric engine 
(3 - M sub 1) of the rotating pump, electric engine (3 - 
M sub 2) for the tape pulling unit. 







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	The voltage of the batteries is tested by volt meter (Cyrillic 
text), by connecting it with the different circuits by 
three buttons.
	When pushing one of the three buttons (2K sub H4, 3K sub H3, 3K 
sub H1) the volt meter measures the voltage of light 
(Cyrillic text) and the valve glow (Cyrillic text) and 
also in general it measures the voltage of all the 
batteries. Resistances (3 - R sub 2, 3 - P sub 1) to 
protect from shortage when pushing two of the three 
buttons at once by mistake. 
	Switch (3 - B sub 1) is used to operate the device and supply 
the voltage. Resistance (3 - R sub 3) is used to regulate 
the pump production. The photoelectric cells, valve 
(Cyrillic text) time relay, radioactive detection 
material, and audio amplifier is supplied with 
electricity from the batteries by the voltage 
transformer.
Fourth
	The voltage transformer circuits: 
	Include the generator block, the trivalve (Cyrillic text), high 
voltage rectifier. At the high voltage coil of the 
electric transformer (1 - T sub P1) the low voltage 
increases at the generator block and rectifies by the 
silicon dual valve (Cyrillic text). The rectified voltage 
is filtered through condensers (1 - C sub 4, 1 - C sub 3) 
and resistance (1 - R sub 5) then settles between 380 and 
400 volts using gas stabilizer (Cyrillic text). 
	Resistance (1 - R sub 5) is usually chosen based upon the amount 
of the rectified voltage. The first section of 
resistances (1 - R sub 9 /1 - R sub 6) from which 
different voltages will be taken to feed the following 
blocks: 400 volts are sent directly with regulator 
(Cyrillic text) to supply gauge (Cyrillic text), from the 
resistance (1 - R sub 7) we take 110-120 volts to supply 
the negative pole for valve (Cyrillic text) and from 
resistances (1 - R sub 9, 1 - R sub 8) we take +40 volts 
and -40 volts to supply the photoelectric block (Cyrillic 
text) consecutively. Condenser (1 - C5) is considered the 
energy combining point in the negative pole supply 
circuit of valve (Cyrillic text). The energy combining 
process during the period in which the valve is blocked 
(closed) (The condenser charge continues for 
approximately 8 seconds). 





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	When operating the photoelectric unit the valve glow and 
intermittent discharge of the condenser takes place 
through valve (Cyrillic text) and the relay coil 
(Cyrillic text). During the discharge period of the 
condenser the relay (Cyrillic text) operates and 
automatically connects as indicated above. Resistance 
(Cyrillic text) limits the negative pole currents within 
the limits. Condenser (Cyrillic text) is used to connect 
the resistance with the ground. 
	The voltage is taken from the second section which consists of 
the resistances (Cyrillic text) to supply the time relay, 
and voltage used to supply the valve charging circuits 
(positive pole) (Cyrillic text) is taken from resistance 
(1 - R sub 12), 150 volts is taken from resistance (R - 
14) to supply the negative pole of the valve (Cyrillic 
text).
	Condenser (1 - C sub 7) ia considered energy combining point at 
the supply circuit of the valve (Cyrillic text) negative 
pole.
	Resistance (1 - R sub 16) will control the negative pole current 
of valve (Cyrillic text), while resistance (1 - R sub 2 ) 
will control the breaker work.
	To charge the batteries using the side methods, we use socket 
(Cyrillic text) and the dual valve (Cyrillic text) in 
case the device is not connected through the "wheel" from 
the side network, a counter supply for the device can 
take place through the dry battery from the side network. 

3. The technical description of the device:
	A.	General structure of the device:
		Figures (3, 4, 5) show the general shape of the device 
structure. The device body is made of aluminum alloy 
resistant to dust and dirt. On the device cover bottles 
number 2 and 3 are placed and used to observe and 
control the detecting lights and to measure the air 
amounts. Air enters the device through opening 1 which 
exists on the device cover, it exits through the outlet 
at the bottom of the device beside button number 8. At 
the cover of the device there is the air volume 
regulator number 10.



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On the left side of the device and downward is located the 
operating switch number 9, and the alternative cycle switch number 
8 which is used to operate the tape pulling system manually. Also 
there are two sockets (holes) upper and lower. The voltage wire is 
connected with the lower socket number 7, the transferred signal 
block wire is connected with the upper socket. 
On the right side of the device there is button (5) which is used 
to switch the light bulb of the air volume gauge. (figure number 
3, an outside view of the device)





































1. Air entrance opening 
2. Observation glass for the air gauge
3. Spotlight observation glass
4. Device legs
5. Light switch for air gauge
6. Socket for the transferred signal block
7. Supply socket
8. Alternative cycle button
9. Operating switch
10. Air regulation lever

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On each side of the device there are four small legs which are 
used to keep the device in place and also used to absorb vibration 
when placing the device in the cycle 
On the inside of the cover there is the amplifier (11), changing 
resistance to regulate the air volume (12), drop size gauge and a 
cleaning pick (13), springs (14), the device light gasket (15). 
The inside panel of the device is fixed on the frame by joints, on 
the front sides of the inside panel there is the sending wheel 
(16), the voltage scale (17), photoelectric cell block (19), gas 
gauge (20), radioactive signal light (21), alternative cycle light 
(22), poisonous material signal light (23), receiving wheel (34), 
chlorinated box (42), air volume gauge (43), dropper (44), dropper 
holder (45), also there is the signal cancellation button (29), 
safety fuse holder (31), buttons (37,38, 39) to test the voltage 
supply, switch (40) operates the light and the switch of the 
device, switch (41) operates the audio signal (illustration)






























Figure number 4: General view of the device with the lid open

11. Amplifier
12. Resistance to regulate the air volume
13. Drop volume measure and cleaning pick
14. Spring restrainer
15. Light bulb gasket
16. Sending wheel
17. Voltage meter
18. Dropper arm
19. Photoelectric cell block
20. Gas gauge
21. Radioactive material signal light
22. Alternative cycle test lights
23. Poisonous material signal light
24. Inside panel

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25. Regulation spring handle
26. Regulation spring
27. Photo cell light
28. Light filter change block
29. Poisonous material signal cancellation button
30. Tightener
31. Tape tightening wheel
32. Safety fuse holder
33. Tightening mechanism
34. Receiving wheel
35. Tape tightening mechanical arm
36. Tighening regulation nut
37. Photoelectric cell block lighting supply test button
38. Valve voltage test button
39. Test button for battery voltage
40. Device light operating switch
41. Audio signal switch
42. Chlorinated box
43. Air volume gauge
44. Dropper
45. Dropper holder.


On the back side of the inside panel of the device there are: 

46. Transformer block
47. Rotary pump
48. Dropper operating unit
50. Absorbant filter
52. Trilateral valve
53. Gasket for the lights of the air gauge
57. Tape pulling system regulator with electric engine
61. Relay block
62. Relay block holder hand switch

Underneath holder number 62 on the main access of the regulator 
there is handle number 60 which regulates the consecutive 
operation of the switch. 

























Figure number 5: General view of the back side of the device panel
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B. 	Photoelectric cell block: 
	Figure number 6 shows the photoelectric cells.
	Light comes from light bulb 15) in two beams. The first one 
goes to the standard photoelectric cell (1). The other beam 
goes through the lens (12) to the detecting tape (5) then 
reflects of the active photoelectric cell (14). The light 
going to the standard photoelectric cell is regulated by the 
regulating spring (2) with the measuring wheel (3). When 
calibrating the photoelectric cell in the factory and when 
adjusting it after repair we use spring (16).
	The spring scale (2) is divided into two sections, ruler 
scale and manual scale. 
	One rotation by the manual scale (100 sections) equal one 
section on the ruler scale. To read the measure on the ruler 
scale take the left side of the scaled wheel. Each 
photoelectric cell is placed in a tight chamber.





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	Figure number 6: Photoelectric cell block:
Key:
1. Standard photoelectric cell
2. regulation spring
3. Graduated wheel for the regulation spring 
4. Light filter
5. Detection tape
6. Entrance opening
7. Cross plates
8. Normal light filter
9. Summer light filter
10. Protective glass
11. Light filter changing block
12. Lens
13. Light
14. Active photoelectric cell
15. Transparent glass
16. Calibration spring
17. Light filter



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	Light filters (4) and (17) in addition to their regular 
function (absorption of certain section of the light beam 
spectrum) are used for securing the retention. 
	In front of the standard photoelectric cell additional 
transparent glass (15) is fixed in order to reduce and insure 
equal light for the photoelectric cell.
	The photoelectric cell body is painted with a certain paint 
in order to avoid the effect of moisture on the photoelectric 
cell work. At the lower part of the photoelectric cell block, 
between the tight transparent glass (10) and the light filter 
(4) sits the upper parts of the reaction chamber, the 
analyzed air enters the upper parts of the reaction chamber 
through nipple (6). During the working time the device 
absorbs the air from the upper parts of the reaction chamber 
to the lower parts through the detection tape and combines 
with the reagent solution on the tape.  The lower part of the 
chamber is used to tighten the tape to the photoelectric cell 
block.
	The entrance opening which exists at the lower part of the 
chamber is surrounded with three central protrusions which 
help to direct the tape to the photoelectric block and also 
help to reduce the air suction from the sides. 
	Also in the opening there is a cross shaped plate to prevent 
the tape from curving during air suction. During the tape 
movement the moving part of the chamber moves downward by a 
lever system releasing the tape.
	Between the condensing lens (12) and the protective glass 
(10) there is the light filter exchange block (11) with two 
levers to change the filters. The lower lever is used to 
regulate the photoelectric block of the device when the air 
temperature reaches 35 degrees Centigrade and the upper lever 
is used when the air temperature exceeds 35 degrees 
Centigrade.
C. 	Tape pulling system:
	The regulator with the exchange rate of 1:337 (figure number 
5) is considered to be the main part of the system. The 
regulator operates the electric motor (Cyrillic text) which 
operates the tape pulling system and handles, this motor has 
two external axes. One is the main (57) and the other is 
small (58).




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	On the main axis there are the following: 
	Tape tightening block (56), dropper operating rod (54), and 
the switch (60).
	When the main axis rotates handle (54) lifts the rods (59) 
upwards which operates the dropper and that in turn will lift 
the arm (18) which will enter at the dropper rod head. After 
handle (54) moves out away from the rod (49), the rod moves 
down under the effect of the pulsator taking with it arm (18) 
to the original position.
	The detecting solution drips on the tape, after that handle 
(56) will squeeze the tape tightening arm. Meanwhile the 
moving section of the reaction chamber moves down.
	Under the effect of the tape tightening wheel (31) the 
released detecting tape moves, and as a result the moving 
parts of the chamber move downwards for a distance of 16 
millimeters. 
	The small axis (48) rotates the tape tightening wheel. The 
receiving wheel axis rotates through a friction device with 
teeth (59) on which the used tape is wound. 
	The friction device ensures the tape tightness at all times. 
Before shutting down the electric motor of the tape pulling 
system the tightening mechanism goes to its original position 
therefore the tape is tightened once again.
	Handle (60) is used to turn the switch which operates the 
tape pulling system.
D.: 	The Dropper:
	The dropper shown in figure number 7 is used to drip a 
certain dose of the reagent (0.15 approximately) on the 
detecting tape. 
	The dropper consists of: The body (3), the cover (2), the 
piston and the end of the dropper (12), with the hose (11). 
In the lower part of the dropper body there is a flexible 
gasket (7) which has a direct opening and the walls are 
exactly enough for the head of the piston, so if the head of 
the piston goes through the opening it closes it firmly. The 
gasket is fixed on ring (8) and between ring(8) and nipple 
(10) sits valve (9) which prevents air movement into the 
dropper when the piston moves up. The dropper piston consists 
of the bar (1), the director (4) which is mounted freely on 
the valve bar (5) and attached to ring (6).




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	During the piston movement up the valve (5) opens the opening 
on the lower part of the director (4) and moves in the 
detecting solution under the piston.
	When moving the piston downwards valve (5) pushes the 
director by the pressure of the detecting solution underneath 
and that in turn will lead to pushing the solution underneath 
the piston. At the moment of closing the opening in gasket 
(7) using the end of the bar one dose of the detecting 
solution will fall. The drop is sent from the dropper by the 
hose (11) and ejected from the end of the dropper through 
opening (12).
E. 	Graduated Cylinder (measuring the drop size): 
	The cylinder is used (figure number 8) to measure the drop 
size.
	On the cylinder there are four lines for different sizes of 
the drop. 
	The red lines (4 and 6) indicate the permissible size of the 
drop (0.13 to 0.17 milliliter) when using the device at the 
positive temperature, the black line (3) indicate the 
permissible size of the drop when using the device in a 
temperature between 0 and 30 degrees Centigrade, and line (3) 
indicates the normal size of the drop (0.15 milliliter) when 
preparing the device for work. 
	Opening (2) prevents the possibility of forming an air bubble 
when measuring the drop size and allows the trapped air to 
escape through it.








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	Figure number 7: Dropper:
1. Bar
2. Cover
3. Body
4. Director
5. Valve
6. Ring
7. Gasket
8. Ring
9. Valve
10. Nipple
11. Hose
12. The end of the dropper



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I: Rotating Pump:
The rotating pump is used to suck air through the gas pipe line. 
(Figure number 9) shows general view of the pump. 































	Figure number 8 graduated cylinder (measuring the drop size)

1. Cylinder body
2. Air outlet
3. Black line for. 0.2 milliliter size
4. Red line for 0.17 milliliter 
5. Black line for the normal drop size 0.15 milliliter
6. Red line for 0.13 milliliter drop size






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	Figure number 9: Rotary Pump

1. Electric motor (Cyrillic text)
2. The body
3. Pump
4. Rotary
5. Cavities
6. Pressure nuts
7. Cover
8. Cup


The pump consists of the electric motor (1), the body (2), the 
pump (3), the rotors (4), cavities (5), and the cup (8). 
The body (2) is connected with the electric motor (1) by four 
springs. The rotor rotates in a central chamber on the pump axis. 
This chamber is closed from the bottom by cover (7) and pressure 
nut (6). The rotating movement moves from the electric motor to 
the rotor by a pulsating connection. The pump works in an oil bath 
therefore the oil is poured in the cup until the line on the 
inside of the cup (1.5 to 2 milliliters approximately).

Note: The units are equipped with the device without adding oil in 
the pump therefore the cup should be filled with oil before using 
the device. 




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F: 	Suction Filter:
	The suction filter (figure number 10) is used to purify the 
air from the remains of both poisonous material and reagents 
that can cause dirt and oxidation of the rotary pump. 
	The filter body (3) is filled with active charcoal (5) to 2/3 
of the volume. The rest of the volume is filled with dry 
silicon gel (4), the filter is covered with cover (1) and 
tightened by gasket (8). To avoid dirt in the air pipes and 
pump the accessories have to be changed every 100 working 
hours, these accessories are located between the two networks 
(2) and (6) including the cotton gasket (7) and the gasket 
(10) which is tightened by pulsator (9).





































	(Figure number 10) Suction Filter:
1. Cover
2. Upper network
3. Pump body
4. Dry silicon gel
5. Activated charcoal
6. Lower network\
7. Cotton gasket
8. Rubber gasket
9. Pulsator
10. Gasket


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G. 	Air Volume Gauge:
	This gauge is used to measure the amount of analyzed air 
passing through the detecting tape (figure number 11). The 
gauge consists of a body (1) which is a cylinder made of 
"organic" glass and a cork (2). The two nipples (3) are 
connected to the body by springs. The air coming through the 
final opening of the body will raise the cork to a certain 
level and can be controlled by observing the cork level. When 
the air volume reaches 1.5 liters per minute the cork will 
rise up so that its upper level is equal to a line indicated 
on the body. 
	A light bulb (53) (figure number 5) is used to illuminate the 
device for ease of use. The light bulb is fixed on the inside 
middle panel of the device.































	Figure number 11: Air Gauge
1. Body
2. Cork
3. Nipple
4. Scale (for measuring)




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H. 	Outside Air Suction Compartment:
	This compartment is fixed on the front side of the device and 
is considered to be the beginning of the gas line.
	(Figure number 12) Shows the compartment which is considered 
to be a moveable part (non attached). In it there is a 
special filter for smoke (7). There is also the chlorination 
box (5).
	The chlorination box consists of the bottom three which is 
attached to the nipple (9) on a hole by a nut (1) and a 
washer (2) which helps the accurate alignment of the part 
with the air entrance opening on the device cover (6) and the 
body (8).
	In order to secure the chlorination box with the bottom there 
is a rubber gasket (4). The compartment is connected with the 
air gauge by a short pipe.





























	(Figure number 12): Outside Air Suction Compartment
1. Nut
2. Washer
3. Bottom
4. Rubber gasket
5. Chlorination box
6. Bottom
7. Special smoke filter
8. Body
9. Device front


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I. 	Voltage Transformer:
	Figure number 13 and 14 show the outside view of the voltage 
transformers which consist of: 
	First. The low voltage transformer from the batteries into a 
high voltage to supply the electric circuit of the device 
includes the following element:
	1. 	The generator transformer block (2)
	2. 	Trilateral valve (14) 
	3. 	Voltage rectifier
	4. 	Alternating resistances (3 and 9)
	5. 	Charging capacitors (6 and 8) and other elements.
	Second. Radioactive material signal amplifier, and it 
includes:
	1. 	Voltage coordination transformer (1)
	2. 	Trilateral valves (11, 12, 13)
	3. 	Relay (5)
	4. 	Alternating resistance (10) and other elements.

The transformer block is connected by the electric circuits 
directly through a connecting unit (7). The transformer block is 
fixed on the front of the device by four nuts and covered with a 
protective cover. One of the nuts should be stamped by wax.




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	(Figure number 13) Voltage Transformer (top view):

1. Voltage coordinator transformer; 2. Generator block 
transformer; 3. Alternating resistance; 4. Voltage rectifier; 5. 
Radioactive material detector relay; 6. Charging capacitor; 7. 
Connection; Charging capacitor; 9. Alternating resistance to the 
relay; 10. Alternating resistance for the radioactive material 
detection
























	Figure number 14: Voltage transformer top view

11. Trilateral valve (Cyrillic text); 12. Trilateral valve 
(Cyrillic text); 13. Trilateral valve for radioactive detector 
amplifier (Cyrillic text); 
14. Trilateral valve for the generator block (Cyrillic text)


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K. 	Relay Block
	Relay block (15) is used for the automatic operation of the 
device. It consists of the directing relay (1), the signal 
relay (2,3,6), a valve (4) charging capacitor (5), connecting 
unit (7), silicon valves and other elements. 
	The relay block is attached to the front of the device by 
four nuts, coverred with a protective cover. One of the nuts 
is stamped by wax. 



































	(Figure number 15): The Relay Block:
1. The directing relay
2. The poisonous material signal relay (2 - P sub 3),
3. Poisonous material signal relay_ (2 - P sub 4)
4. Valve (Cyrillic text)
5. Charging capacitor
6. Poisonous material signal relay (2 - P sub 2)
7. Connecting unit
L. The Transferred Signal Block:

The transferred signal block is used to transfer the light signals 
for certain distances, see (figure number 16). 
The relay signal block consists of the body and cover (1), three 
signal light bases (2,3,4), sockets (5). 
Light bulb (2) for radioactive material detection, light bulb (3) 
for poisonous material detection, light bulb (4) for the 
alternative cycle



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	The light bulb covers are colored by the following colors: 
red, yellow, green respectively.
	The voltage is connected to the block through a certain 
socket by a connecting wire which comes with the device. 
M. 	The Battery Box:
	The battery box (figure number 17) is used to supply the 
device with electricity. The box consists of two sections, an 
upper section and a lower section. In the upper section of 
the box (1) there is one detection kit. The box is carried by 
(this text is completed in the next page after the 
description of figure number 16 and 17). 


































	(Figure number 16) Portable Signal Block:
1. Body and cover
2. Radioactive material signal light (red)
3. Poisonous material signal light (yellow)
4. Alternative cycle signal light
5. Socket (Cyrillic text)





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	(Figure number 17) Battery Box

1. The upper section of the box with the cover
2. Needle sockets to connect the power supply to the device 
(Cyrillic text)
[sic: There is no number 3.]
4. Needle sockets to charge the batteries from the side 
(auxiliary) network (Cyrillic text)
5. Cover
6. Connecting wire
7. Slide
8. Body
9. Diagram for connecting the batteries
10. Dual valve made of silicon
11. Fasteners


The box can be carried by lever (2) or by belts attached to the 
fasteners (11) or by the belts at fasteners (11) which are located 
on the two sides of the box. Inside the box (8) there are eight 
batteries type (KH-10). 
The batteries are connected together by slides (7) and connected 
at the same time to the socket by wires (6). There are two sockets 
located on the front of the box. One is five pronged and is used 
for supply and the second is three pronged and used to charge the 
batteries from the cycle.
Inside the box there is the dual valve (10) which is used to 
charge the battery directly from the cycle. At the box bottom 
there is a liquid discharge hole for excess water and battery 
solution. 
The cover (5) protects the sockets from dirt. The cover is fixed 
on the body of the box by the fasteners if the socket is connected 
by the supply wire. The boxes and the batteries are placed in the 
cycle (KZ-69) in a specific place at the bottom of the cycle and 
fastened by the fasteners.


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N. 	Detection Tool Kit: One box of the detection tool kit is 
enough to recharge the device three times. Each charge is 
enough to operate the device for eight hours continually. The 
kit (figure number 18) contains the following: 




























	Figure number 18: Detection tools kit components
1. Dry reagent (No.1)
2. Bottle to prepare the reagent
3. Reagents (No. 203)
4. Cotton
5. Detecting tape
6. Nylon gaskets
7. Chlorination box
8. Ampule cutting knife
9. Special smoke filter
10. Dry reagent (No. 2)
11. Reagent (No. 204)


	First. 	Reagents No. 204 (11), dry reagent No. 1 (1), dry 
reagents No. 2 (10), considered the main component 
of the detecting solution. 
	Second. 	Reagent No. 203 (3) is used to wash the dropper and 
the reaction chamber front and the glass bottle 
which is used to prepare the detecting solution.
	Third. 	Detecting tape (5) made of cotton cloth. The 
poisonous material is combined with the detecting 
solution on the tape.



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		4.	The chlorine included in the chlorine container (7) 
is used to work with toxic agents.
		5.	The smoke filter (9) is used to stop the components 
which can mix with the air, such as smoke, gas, 
acid vapors, etc.). If such components fall on the 
tape, the apparatus can show a wrong indication 
that the toxic agents are present.
		6.	Knife (8) to cut off the ampoules with detecting 
agents.
		7.	Cotton (4) to wipe off the chemical reaction 
chamber.
		8.	Inserts made of nylon (6) which are used to cover 
the special lid (2) which stops the detecting 
solvent before dropping inside and protects the 
detector before the dirt.

Remarks.

	In addition to all detection methods and items listed above, 
we also use colored papers which are utilized to adjust the 
GSB - 10 apparatus. 

s.	The replenishment items and devices.

	The replenishment items and devices consist of the following:
	A can of oil AMG - 10 - 2 pieces. Key number 3 - 1 piece. A 
big screwdriver (0.2 X 175) - 1 piece. An ending piece of the 
pipette - 3 pieces. A light bulb - 3 pieces. Pliers L = 150 - 
1 piece. Bed number 8 - 1 piece. A plug - 2 pieces. Special 
key number 1 - 1 piece. Special key number 2 - 1 piece. The 
cleaning device - 1 piece. The insulation of the chlorine 
container - 5 pieces. The pipette insulation - 5 pieces. The 
valve of the pipette - 5 pieces. The filter insulation - 5 
pieces. Insert 25 in diameter - 20 pieces. Electric bed EA - 
3 - 4 pieces. Lamp MH - 11 - 2 pieces. Lamp MH - 14 - 4 
pieces. The safety cord - 5 pieces. A valve - 1 piece. The 
lamp exchanging device number 4 - 1 piece.

4.	Conclusion. 
	
	The apparatus is painted from outside with a special paint 
which has a protective color. The serial mark is located on 
the apparatus, on the boxes, charges as well as on the 
movable indicator gadget. This mark consists of the following 
items:
	1.	The symbol of the factory which made the apparatus.

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	2.	The name of the apparatus.
	3.	The number of the apparatus.
	4.	The number of the class.
	5.	The year of production.

	The sign should be placed on the box, written in black 
letters and it should be water and smear - resistant. It 
should read as follows:

	ASB - (m) apparatus number .........class number........
	The following inscription should be also placed on the 
apparatus:
	Height.... Proceed with caution. Weight....
	Or it should have a name written in the middle (( Y  )).
	It is necessary to cover the apparatus with a cover made of 
nylon, 0.2 millimeters thick when it is supposed to be 
stored. The nylon will protect it before humidity. In order 
to absorb the humidity and the steam under the cover, we need 
to insert the cotton bags which contain about 150 grams of 
the silicon gel per bag. When the cotton bags are inserted, 
you should apply pressure on the cover to remove the excess 
air and seal the ends of the cover. The apparatus should be 
packed in a box to protect it and to transport it. 

	The entire apparatus with all necessary attachments include 
the following items:
	the apparatus itself, the charging box, the connecting wires, 
the detecting device, the replenishment parts, the 
operational record, the instruction and maintenance manual 
and the list of contents.












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