Sankyo Home Security System 11AR User Guide

Optimum Reliability in Motion Control  
SERVO DRIVE TYPE  
OPERATION AND MAINTENANCE MANUAL  
ALPHA SERVO DRIVE INDEX  
11AR  
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0=Single phase 200 to 230VAC for 7AR & 9AR  
1=Three phase 200 to 230VAC for 11AR & 15AR  
2=Three phase 380 to 480VAC for 11AR & 15AR  
f: Controller  
Type of controller  
Availability:  
0=Standard  
x=Special requirements  
g: Cable  
Type of cables  
Availability:  
0=3 meters length, w/o conduit  
1=5 meters length, w/o conduit  
2=10 meters length, w/o conduit  
3=15 meters length, w/o conduit  
4=3 meters length, w/ conduit  
5=5 meters length, w/ conduit  
6=10 meters length, w/ conduit  
7=15 meters length, w/ conduit  
Y=Connectors Only  
h: Control Software  
Type of control software  
Availability:  
0=Standard  
x=Special requirements  
I: Special Instructions  
Include the symbol X in case of special orders  
No symbols= Standard  
2
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Safety Precautions  
S ymbols to ensure the safe and proper use of the Variax  
The following symbols are used this manual where safety precautions must be observed. Read  
and understand the meanings of these symbols to ensure the safe and proper use of Variax.  
Failure to obey these precautions can cause machine problems, accidents, or other unexpected  
behavior.  
Indicates a potentially hazardous situation, which may result  
in death or serious injury.  
Warning  
Indicates a potentially hazardous situation, which may result  
in minor or moderate personal injury or damage to the  
equipment.  
Caution  
Meaning of symbols  
In general, this symbol alerts you to an action or operation that you  
must not do.  
General prohibition  
Do Not Touch  
In general, this symbol alerts you to the possibility of damage  
to you or your equipment.  
General  
Warning  
Electrical  
Hazard  
Pinch Point  
High  
Temperature  
This symbol alerts you to actions that are reserved for  
qualified service personnel only  
Electrical Grounding  
Mandatory Action  
3
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Contents  
PREFACE  
SAFETY PRECAUTIONS  
SAFETY PRECAUTIONS  
3
SYMBOLS TO ENSURE THE SAFE AND PROPER USE OF THE VARIAX  
3
1. OPERATING THEORY  
6
2. HANDLING YOUR SANDEX  
7
2.1 IDENTIFYING ALPHA SERVO LAYOUT  
7
3. TRANSPORTATION AND ENVIRONMENT  
8
3.1 SHIPPING CONDITION  
3.2 TEMPERATURES  
3.3 MOISTURE  
8
8
8
8
3.4 DUST  
4. INSTALLATION  
10  
4.1 CASING MAIN BODY  
4.2 DRIVER  
10  
10  
4.2.1  
4.2.2  
STORAGE CONDITIONS  
INSTALLATION SITE  
10  
11  
11  
12  
13  
4.2.3 ORIENTATION  
4.2.4 WIRING THREE PHASE 200VAC  
4.2.5 WIRING THREE PHASE 400VAC  
4.3 CONTROLLER  
4.3.1 MOUNTING THE MP940  
4.3.2 CONNECTION OF PERIPHERAL DEVICES  
14  
16  
14  
15  
4.4 WIRING  
4.4.1 I/O CIRCUITS  
4.4.2 CONTROLLER I/O CONNECTIONS  
17  
18  
5.OPERATION  
19  
5.1 SETTING ENCODER ZERO POSITION  
19  
19  
20  
21  
22  
5.2 SETTING ZERO POSITION (STARTING POSITION)  
5.3 I/O TIMING CHART WHILE IN J OG MODE  
5.4 I/O TIMING CHART WHILE IN AUTOMATIC MODE  
5.5 INDEXING TIME VS. STOPS CHART  
4
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5.6 DATA SWITCH SETTINGS  
22  
6. HANDLING PROCEDURES FOR THE OUTPUT SHAFT  
23  
6.1 TABLE TYPE OUTPUT  
23  
7. LUBRICATION  
24  
4.5 PURPOSE OF LUBRICATION  
24  
24  
25  
25  
7.2 OIL SELECTION PRECAUTIONS  
7.3 LUBRICATING OIL VISCOSITYS  
7.4 RECOMMENDED LUBRICATING OIL  
8. FILLING AND REPLACING LUBRICATING OIL  
26  
8.1 REFILLING LUBRICATING OILS  
8.2 OIL REPLACEMENT SCHEDULE  
26  
26  
9. LUBRICATION GREASES  
27  
9.1 SUPPLYING LUBRICATING GREASE  
27  
10. REPAIRS AND MAINTENANCE  
28  
10.1 YASKAWA DRIVER AND CONTROLLERDISPLAY CODES  
10.2 TROUBLESHOOTING PROCEDURES (1)  
10.3 TROUBLESHOOTING PROCEDURES (2)  
29  
31  
32  
5
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Unit 2  
Handling your Sandex  
1. Operating theory  
SANDEX units operate based on the following principal. A globoidal cam is mounted onto the input  
shaft. This cam interlocks with the turret portion of the output shaft. The turret has cam followers along  
its perimeter, which are in contact with the tapered ribs on the cam. This contact or pressure is called  
the preload. Turning the input shaft rolls the cam followers along the rib surfaces thereby rotating the  
turret according to the curve of the cam. The turret is motionless when the ribs are parallel with the  
edges of the cam although the cam followers stay in motion.  
Two of three cam followers are always kept pressed against the tapered ribs to ensure an accurate  
transmission of rotation. Any backlash or movement between the tapered rib surfaces and cam  
followers can cause vibrations, noise, and also damage the cam and cam follower surfaces. Backlash  
can be completely eliminated by rotating the eccentric flange that holds the input shaft, and minimizing  
the distance between the input and output shaft.  
Explanation of terms used with indexing equipment  
TERM  
Number of stops  
DEFINITION  
The number of stops determined by the customer’s programming.  
A predetermined number of stops have been programmed into the  
controller (1-16) CW or CCW.  
Index angle  
The index angle is dependant on the number of stops.  
Dynamic Torque output  
rating(Top)  
The maximum torque that can be applied on the output shaft  
during indexing phases. Directly related to machine life.  
6
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Unit 2  
Handling your Sandex  
2. Handling your SANDEX  
Over 90% of the mechanical failures reported with roller gear cam equipment comes from careless  
or improper handling. Improper handling not only reduces the life of your SANDEX unit, it can also  
affect the performance of both the SANDEX unit and your machine.  
2.1 Identifying Alpha Servo layout  
Roller Drive  
Servomotor  
Fixed hollow flange  
Installation surface  
for indexing table.  
Installation for  
fixed table.  
Servomotor  
mounting bracket  
Oil cap  
Oil gauge  
*Drain  
Mounting hole  
at W-surface  
2.2 Handling your Alpha Servo  
(1) Torsion and deflection within the rotation transmission system  
(2) Frictional torque within the rotation transmission system  
(3) Frequent load charge  
(4) Usage under rust stimulant conditions such as water, acid, or alkali  
(5) Usage in dusty areas  
(6) Electrical currents  
(7) Improper maintenance and repairs  
(8) Mounting areas with insufficient rigidity  
7
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Unit 3  
Transportation and environment  
3. Transportation and Environment  
3.1 Shipping condition  
(1) All SANDEX products are thoroughly inspected after the final assembly. Only those  
products that pass this inspection are shipped.  
(2) Before shipped, each SANDEX unit is filled with lubrication oil in accordance to the  
customer’s operating speed and environment.  
(3) A rust preventative solution is applied to the input /output shafts, key, and mounting  
surface. Vinyl tape is also used extensively to protect your SANDEX unit from  
scratches while transporting.  
Remove the rust preventative solution with a light oil or thinner. Be careful not to let the  
light oil or thinner contact the oil seal. Never use thinner on or near the plastic sight gauge.  
This may cause severe clouding of the material.  
3.2 Temperatures  
(1) For use between -20 to 0 degrees Celsius, (-4 to 32°F) use a lubricating oil with a lower  
viscosity than the recommended oil. This is because the dynamic viscosity of the  
lubricating oil rises in low temperatures and may not allow proper speed acceleration.  
(2) For use between 40 to 70 degrees Celsius, (104 to 158°F) use lubricating oil with a  
higher viscosity than the recommended oil. This is because the dynamic viscosity of the  
lubricating oil lowers in higher temperatures and reduce the life of the equipment.  
(3) For use between 70 to 100 degrees Celsius, (158 to 212°F) replace the oil seal and O-ring  
with a heat resistant synthetic rubber.  
3.3 Moisture  
Rust may occur in storage or if the main machine is washed with water. Water does not  
have to come directly into contact with the unit to cause rust. Moisture, condensation, and  
other sources of humidity can also cause rust.  
To use under these conditions, the mounting surfaces and shafts of the unit must be  
painted, or otherwise rust proofed. Applying mineral oil or grease to the mounting surfaces  
has a rust preventative effect and should always be practiced.  
In addition, if the unit is directly subject to water, the sealing devices on the input and  
output must be changed to a waterproof construction.  
3.4 Dust  
SANDEX units are generally built resistant to dust. This is because the roller gear cam  
mechanism is enclosed within its own housing, and then sealed off at the input and output  
with an oil seal. However, depending on the amount of dust or other foreign particles, the  
8
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Unit 3  
Transportation and environment  
oil seal may wear and thereby cause oil leaks. This is particularly evident when chemicals  
are used. Chemicals can also cause and or accelerate rust and corrosion. When using  
your SANDEX unit in dusty areas, you should consider using protective covers made from  
stainless steel or plastic.  
If the location for your SANDEX unit is very dusty, the air outlet in the oil  
fill port may become an entrance into the housing. Placing an air filter over  
this port should prevent dust from entering the housing. Electrical currents  
If electricity passes through the SANDEX unit, minute dimples can occur on the cam  
followers and roller gear cam, as well as on the rolling surfaces and members of the  
bearings.  
Electrolytic corrosion” is where electrical sparks actually melt away the surfaces of  
the rolling members. Electrolytic corrosion is a current-based effect. Therefore, it can  
occur under less than one volt of electrical power.  
If your SANDEX unit may be subject to electrical currents, make sure to insulate it.  
Electrolytic corrosion, if allowed to persist, will increase the amount of vibration and noise,  
and eventually render your SANDEX unit useless. Always insulate the table and unit from  
welding applications or other automated machinery that use large amounts of electrical  
current.  
When linking the motor with the input system, consider using rubber couplings instead  
of metal types. Rubber provides more insulation. Other measures that can prevent  
electrolytic corrosion include using V-belts and timing belts.  
9
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Unit 4  
Installation  
4. Installation  
Another crucial factor to the performance of your SANDEX unit is the operating environment. Make an  
early review of the location for your SANDEX unit and take any corrective actions necessary.  
4.1 Casing main body  
(1) Always use the lifting bolt holes provided on the housing of your SANDEX unit. Do not lift  
the unit using the input or output shafts as this can affect the precision of the equipment, or  
worse, affect the life of the machine.  
(2) Each SANDEX unit has oil fill, drain and sight gauge ports. The unit should be mounted for  
easy maintenance access to these ports.  
(3) To ensure that your SANDEX unit is mounted accurately in the best possible position, make  
sure the housing, shaft dimensions, and mounting holes comply with drawing specifications.  
Also check the mounting area for perpendicularity and flatness. If the mounting surface has  
any scratches, burrs, debris, or paint, use an oilstone or emery paper to remove it. Next,  
clean the mounting surface and apply a light coat of grease or mineral oil to prevent rust  
and scratches. You may now mount your SANDEX unit. Never install the unit in a position  
not specified for your particular product.  
(4) Align your peripheral equipment with the input and output shafts on the SANDEX unit to  
ensure the best possible mounting position.  
Apply Loctite 242 or equivalent screw locking solution to the mounting bolts, and tighten to  
the specified torque with a torque wrench. (Tightening torque: DIN 8.8)  
(5) The foundation for your SANDEX unit must be rigid enough to withstand vibrations from  
other machines. The foundation is crucial to the precision and life of your SANDEX unit.  
To ensure maximum performance mounts your SANDEX unit on a foundation that is  
smooth, flat, hard, and free from vibration.  
The standard operating temperature range for SANDEX units is between 0 to 40 degrees  
Celsius (32 to 104°F). For usage outside of this range, follow the tips below.  
4.2 Driver  
The SGDH servo amplifiers are base-mounted. Incorrect installation will cause  
problems. Follow the installation instructions below.  
4.2.1 Storage Conditions  
Store the servo amplifier within the following temperature range, as long as it is  
stored with the power cable disconnected. -20 to 85°C (-4 to 185°F)  
10  
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Unit 4  
Installation  
4.2.2 Installation Site  
The following precautions apply to the installation site  
Situation  
Installation Precaution  
Design the control panel size, unit layout, and cooling  
m ethod so the tem perature around the servo am plifier  
does not exceed 55°C (131°F).  
Installation in a Control Panel  
Minim ize heat radiated from the heating unit as well as  
any tem perature rise caused by natural convection so  
the tem perature around the servo am plifier does not  
exceed 55°C (131°F).  
Installation Near a Heating Unit  
Installation Near a Source of  
Vibration  
Install a vibration isolator beneath the servo am plifier to  
avoid subjecting it to vibration.  
Corrosive gas does not have an im m ediate effect on the  
servo am plifier, but will eventually cause electronic  
com ponents and contactor-related devices to  
m alfunction. Take appropriate action to avoid corrosive  
gas.  
Installation at a Site Exposed to  
Corrosive Gas  
Do not install the servo am plifier in hot and hum id  
locations or locations subject to excessive dust or iron  
powder in the air.  
Other Situations  
4.2.3 Orientation  
Install the servo amplifier perpendicular to the wall as shown in the figure. The servo  
amplifier must be oriented this way because it is designed to be cooled by natural convection  
or by a cooling fan. Secure the servo amplifier using the mounting holes. The number of  
holes varies (from two to four) with the frame size of the servo amplifier.  
11  
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Unit 4  
Installation  
4.2.4 Wiring Three Phase 200VAC  
12  
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Unit 4  
Installation  
4.2.5 Wiring Three Phase 400VAC  
13  
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Unit 4  
Installation  
4.3Controller  
4.3.1 Mounting the MP940  
1. Insert the two mounting tabs on the bottom of the MP940 into the mounting holes  
on the lower right side of the SGDH.  
2. Pressing in the direction of the arrows, insert the mounting tabs on the top of the  
MP940 into the mounting holes on the top right side of the SGDH.  
3. Insert the MP940 module fixing spring into the hole on the top of the SGDH.  
top of  
5. Mount the bottom spring in the same manner as in step 4. Refer to the  
following diagrams when mounting the MP940 to a servo amplifier. There are  
two kinds of mounting springs; they differ in shape according to the servo  
amplifier capacity.  
14  
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Unit 4  
Installation  
4.3.2 Connection of Peripheral Devices  
Switch Box Or PLC  
Motor power, and encoder are standard cables that are supplied by Sankyo America  
Inc. The I/O connections are made by one of two options (see 4.4.2). The source power  
cables will be supplied by the customer.  
15  
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Unit 4  
Installation  
4.4 Wiring  
1.) Power Supply Connector Cable  
Supplies DC +24V 400mA power supply to the MP940 module. The  
connectors use a screw-mount terminal block BL3, 5/3F-AU (Weidmuller,  
Inc.).  
Pin#  
3
Signal Name  
+24V  
Name  
+24VDC input  
2
1
GND  
FG  
0V  
Frame ground  
2.) Input Cable Preparing Procedure  
Use a twisted pair with a wire size of AWG#24 to AWG#20 when connecting the  
24VDC power supply and MP940 Module power supply connector.  
16  
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Unit 4  
Installation  
4.4.1 I/O Circuits  
17.4-28.8VDC  
5.3mA rated  
current  
24V 100mA  
output load  
signals  
17  
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Unit 4  
Installation  
4.4.2 Controller I/O connections  
The pigtail cable, and the cable with terminal  
block are available options for your connection  
Note: N/A connections are not  
needed for the Alpha Servo  
application.  
18  
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Unit 5  
Operation  
5.Operation  
Generally, automated machinery using SANDEX units are complicated in design. This is based on the  
large number of linkage involved. Such machinery generally uses the cams and linkages for obtaining  
overlapped movements. However, one will almost always encounter interference problems if he operates  
the equipment prematurely. To avoid this type of problem, the input drive should be test turned by hand,  
as each component is mounted.  
5.1 Setting encoder zero position  
F n 0 0 0  
a) Press the DSPL/SET key to select the auxiliary function mode.  
b) Select the user constant Fn008. Press the or cursor key to select the digit to set, and  
then press the or cursor key to change the number.  
F n 0 0 8  
c) Press the DATA/ENTER key for the following display to appear.  
P G L C 1  
d) Using the cursor key change this  
value to  
P G L C 1  
e) When the display reads “PGCL5” press the DISPL/SET key then the display will flash  
“done” for one second then return to “PGCL5”.  
d o n e  
f) Reset the 24VDC power to finish the absolute encoder’s setup operation.  
5.2 Setting zero position (starting position)  
The Sankyo Alpha series index drive is equipped with a servomotor as part of our standard  
package. Manual adjustment for positioning and timing purposes of the indexing drive can  
easily be accomplished by using the jog feature. After entering jog mode and locating zero  
position (starting point) exit jog mode. Once the jog mode has been exited the zero position  
will be established. Once this method has been completed please do not enter the jog mode  
unless you wish to reset the zero position.  
19  
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Unit 5  
Operation  
5.3 I/O timing chart while in jog mode  
A) Input Signals  
1) Servo ON: This signal will activate the driver and await user commands. If there are no errors  
the ready output signal will also be activated.  
2) Auto/Jog: This signal will cause the controller to go into jog mode and await a start signal.  
3) Start: While in jog mode this signal will start the rotation of the motor’s output shaft. When  
this signal is not present the motor will stop rotating.  
4) CW/CCW: This signal will cause the servomotor to jog in a counterclockwise (CCW)  
direction. When this signal is not activated the motor will jog in a clockwise (CW) direction.  
B) Output Signals  
1) Ready: This signal will be activated when there are no errors, and the drive is on.  
2) Alarm: This signal will be activated whenever there is an alarm present in the drive.  
3) Busy: This signal will be activated whenever the drive senses movement of the motor.  
20  
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Unit 5  
Operation  
5.4 I/O timing chart while in automatic mode  
C) Input Signals  
1) Servo ON: This signal will activate the driver and await user commands.  
If there are no errors the ready output signal will also be activated.  
2) Auto/Jog: This signal is not activated causing the controller to begin auto mode and  
await a start signal.  
3) Start: While in auto mode this signal will start the preprogrammed motion that was  
written by Sankyo America. Each of these units will be programmed in accordance  
with the customer’s specifications.  
4) CW/CCW: This signal will cause the servomotor to execute the preprogrammed  
motion in a counterclockwise (CCW) direction. When this signal is not activated the  
motion will rotate in a clockwise (CW) direction.  
21  
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Unit 5  
Operation  
5.5 Indexing time vs. stops chart  
Index time- # Stops chart  
3.5  
3.0  
2.5  
2.0  
1.5  
1.0  
0.5  
0.0  
1
2
3
4
5
6
7
8
9
10  
11  
12  
13  
14  
15  
16  
# Stops  
5.6 Data switch settings  
Data  
Index Angle  
[degree]  
360  
Index time  
[sec]  
Program#  
Stops  
3 bit 2 bit  
1bit  
0bit  
On  
On  
On  
On  
On  
On  
On  
On  
0
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
9
10  
11  
12  
13  
14  
15  
16  
3.172  
1.636  
1.124  
0.868  
0.714  
0.612  
0.539  
0.484  
0.441  
0.407  
0.379  
0.356  
0.336  
0.319  
0.305  
0.292  
180  
120  
90  
72  
On  
On  
On  
On  
On  
On  
60  
51.42857  
45  
On  
On  
On  
On  
On  
On  
On  
On  
On  
On  
40  
36  
9
10  
11  
12  
13  
14  
15  
On  
On  
32.72727  
30  
27.69230  
25.71428  
24  
On  
On  
On  
On  
On  
On  
22.5  
22  
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Unit 6  
Handling Procedures  
6. Handling procedures for the output shaft  
The output shaft on an indexing drive is subject to momentous torque during starting  
and stopping. Therefore, the shaft must be torsionally rigid. To maintain positioning  
accuracy, the output shaft must have minimal run out. The run out on a standard SANDEX  
is within 0.02 mm (.0008 ).  
Note  
The SANDEX is designed to show accuracy as it stops. When aligning shafts, do so after  
repeated indexing and make sure the shaft is in a dwell.  
There are different handling methods for various configurations of the final turret. The  
following indexing drive handling procedures also apply for roller drives and oscillating  
drives.  
6.1 Table type output  
(1) Table type output sections have a broader mounting surface than flange type output.  
Tables can be mounted easily and accurately.  
(2) To accurately position work stations on the table, enlarge the hole in the center of the  
table from 0.1 to 0.2 mm (.004 .008 ). Align the table. Then, tighten the bolts and  
drive locating pins into place. Our recommendation of size of bolts and tighten torque is  
as following.  
Mounting bolts  
Tighten torque  
Recommended knock pin  
Size  
6-M6  
6-M6  
6-M8  
6-M10  
Place  
Hole depth  
7AR  
9AR  
11AR  
15AR  
13.5 N· m  
13.5 N· m  
34 N· m  
P.C.D. 85  
P.C.D. 120  
P.C.D. 150  
P.C.D. 210  
12 mm  
12 mm  
16 mm  
20 mm  
67.5 N· m  
(3)  
The center of output shaft has a fixed flange with a hole in it. This fixed flange is suitable  
for directly mounting fixed tables. A hole can be drilled in the mounting base in line with  
the center of the output shaft for concealing wiring and plumbing.  
Through-hole  
Fixed table  
Indexing Table  
Table-type  
Mounting  
b
23  
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Unit 7  
Lubrication  
7. Lubrication  
Lubrication is an effective and vital means for maintaining the life of your SANDEX unit.  
Lubrication can minimize wear by reducing friction between rolling members, removing friction heat,  
and preventing rust on rolling surface. The statistical life of the SANDEX unit is based on rolling  
fatigue. However, these statistics are valid only when wear, vibration, and mechanical seizure are kept  
at a minimum.  
Improper lubrication over any of these areas can cause frictional wear in a very short time.  
On the other hand, proper lubrication using incorrect grades of lubricating oils, such as low viscosity  
oil, can cause temperature rises and lower the dynamic viscosity of the lubricant. This means that the  
minimum dynamic viscosity necessary for forming an oil film cannot be obtained, thereby allowing the  
two surfaces to directly come into contact and cause frictional wear.  
It is vitally important that proper lubrication procedures be implemented according to actual  
operating conditions.  
4.5 Purpose of lubrication  
(a)  
To prevent friction between pure slipping members.  
(b)  
To prevent abrasion by forming an oil film between two surfaces, thereby inhibiting  
direct contact between both surfaces.  
(c)  
To extend the fatigue life of the material by introducing boundary based on oil film  
formation, thereby relieving Hertz stress.  
(d)  
(e)  
(f)  
To prevent local temperature rises by transmitting and removing friction heat.  
To prevent dirt and other foreign particles from entering the housing.  
To prevent rust by using the oil film to keep the surface from direct exposure to the  
atmosphere.  
7.2 Oil selection precautions  
(1) Lubrication is a vital factor to ensure maximum performance from your unit. The  
selection of lubricating oils is equally important. Improperly selected oils can lower  
the precision of the unit, and reduce its operating life. When selecting an oil, always  
give full consideration to actual operating conditions.  
(2)  
When selecting oils, choose good quality gear oil with pressure additives, a strong  
oil coating quality, rust inhibiting properties, and steady oxidation. (A pressure  
additive is a specially formulated chemical composition that improves lubrication  
performance.)  
(3)  
Never mix oils of different manufacturers even if they are used for the same purpose.  
This is because each manufacturer may use pressure additives with different  
compositions.  
24  
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Unit 7  
Lubrication  
(4)  
(5)  
Viscosities differ according to the operating speed and size of the indexing drive  
involved. Choose the proper viscosity from the following table.  
The viscosity you choose should also meet the ambient temperature requirements of  
your SANDEX unit. The following table gives the viscosity for a standard  
temperature range from 0 to 40 degrees Celsius(32 104°F). Consult Sankyo for  
usage outside of this range.  
7.3 Lubricating oil viscosity’s  
INPUT SHAFT  
ROTATING  
SPEED (rpm)  
0~20  
20~100  
100~200 200~300 300~400 400~600  
600~  
150  
VISCOSITY  
(cSt/40°)  
680  
460  
320  
220  
220  
150  
Note  
If your operating speed falls between two viscosity grades, use the higher viscosity grade.  
7.4 Recommended lubricating oil  
LUBRICATING OIL LEVELS  
VISCOSITY  
(cSt/40°)  
Esso Standard Oil  
Spartan EP680  
Spartan EP480  
Spartan EP320  
Spartan EP220  
Spartan EP150  
Spartan EP68  
Shell Oil  
Mobil Oil  
Mobil Gear 636  
Mobil Gear 636-633  
Mobil Gear 632  
Mobil Gear 630  
Mobil Gear 629  
Mobil Gear 626  
>680  
680~460  
460~320  
320~220  
220~150  
150~68  
Shell Omala Oil 680  
Shell Omala Oil 460  
Shell Omala Oil 320  
Shell Omala Oil 220  
Shell Omala Oil 150  
Shell Omala Oil 68  
25  
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Unit 8  
Filling and replacing lubricating oil  
8. Filling and replacing lubricating oil  
Lubrication is a crucial factor for maintaining the operating life of your SANDEX unit.  
These units feature a high level of precision, and a resistance to friction. However, improper  
lubrication can reduce the life of the unit. When filling the unit with oil, make sure to prevent foreign  
particles such as drilling chips, dust, or water from entering the unit.  
Before filling with new oil, clean the area around the oil filling port. Also, always use clean fresh oil.  
8.1 Refilling lubricating oils  
(1)  
To add lubricating oil, remove the oil fill plug. (On standard drives, this plug is a  
hexagonal PT plug and has a small air-bleeding hole in it.) Allow sufficient time for  
the oil to settle in the housing for an accurate filling.  
(2)  
On standard SANDEX units, the oil fill level and drain plugs are designed so not to  
protrude from the mounting plane. However, operation at high speeds may cause oil  
to spurt from the air-bleeding hole in the plug. Also, it may be difficult to refill and  
drain oil if a table is mounted on the output shaft.  
8.2 Oil replacement schedule  
First time After 1000 hours of operation  
Thereafter Every 3000 hours of operation  
Note  
For use under the above hours, replace once every year.  
26  
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Unit 9  
Lubricating greases  
9. Lubrication greases  
SANDEX units use an oil bath lubricating system. In certain mounting positions, the bearings sit  
above the oil level. In this case, a sealed lubricating device is installed exclusively for the bearings and  
grease nipples are attached wherever grease must be reapplied. Note, your SANDEX has already been  
greased prior to initial operation. Apply grease every 2000 to 4000 hours of operation.  
9.1 Supplying lubricating grease  
(1)  
If the mounting position of the Alpha index output flange is horizontal, parallel to  
the ground, grease needs to be applied to the bearing by the grease fitting supplied  
on the output stationary flange.  
Grease nipples  
(2)  
Supply 5 to 30 g per shot according to the SANDEX model you are using. Old  
grease will fall into the oil basin and will be drained when the lubricating oil is  
replaced.  
Recommended lubricating greases  
MAKER  
Esso Standard Oil  
Shell Oil  
LUBRICATING GREASE LABELS  
Beacon 2, Q2 ; Lystan 2, EP2  
Alvania 2, EP2  
Mobil Oil  
Mobilax Grease 2, EP2  
27  
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Unit 11  
Repairs and maintenance  
10. Repairs and maintenance  
One of the advantages of the SANDEX unit is that it is easy to handle. However, improper use can affect  
the life and performance of your SANDEX unit. The following items explain basic repair and maintenance  
procedures.  
(1)  
Periodically, check for backlash in the input and / or output systems. Backlash that goes  
unnoticed may develop even further over the years. Check for red rust as this indicates the  
occurrence of fretting corrosion. Re-tighten any locations where red rust appears.  
(2)  
(3)  
(4)  
(5)  
Running your SANDEX unit without oil will cause internal damages. Note, overfilling can  
be the cause of abnormal temperature rises and oil leaks.  
Replace lubricating oils every 3000 operating hours. Note, for operating hours less than  
this, replace the oil once every year.  
Supply lubricating grease every 2000 to 4000 operating hours. For 23AD,  
supply a shot of 20 to 30 g. For smaller models, supply approximately 5 to 10 g.  
The Sigma II driver is supplied with a Toshiba, ER3 V, 3.6V, 1000mAH battery.  
The driver is also equipped with a battery light. This light should be checked  
as a general maintenance item, and when illuminated the battery will need  
replaced.  
28  
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Unit 11  
Repairs and maintenance  
10.1 Yaskawa Driver and Controllerdisplay codes  
Display Value  
A.-  
Description  
Normal Operation  
A.02  
A.03  
A.04  
A.05  
A.10  
A.30  
A.32  
A.40  
A.41  
A.51  
A.71  
A.72  
A.73  
A.74  
A.7A  
A.81  
A.82  
A.83  
A.84  
A.85  
A.86  
A.b1  
A.b2  
A.Bf  
A.C1  
A.C8  
Parameter Breakdown  
Main Circuit Encoder Error  
Parameter Setting Error  
Servomotor and Amplifier Combination Error  
Overcurrent or Hat Sink Overheated  
Regeneration Error Detected  
Regenerative Overload  
Overvoltage  
Undervoltage  
Overspeed  
Overload: High Load  
Overload: Low Load  
Dynamic Break Overload  
Overload of Surge Current Limit Resistor  
Heat Sink Overheated  
If any of these errors occur  
please contact:  
Sankyo America Inc.  
(937) 498-4901  
Absolute Encoder Backup Error  
Encoder Checksum Error  
Absolute Encoder Battery Error  
Absolute Encoder Data Error  
Absolute Encoder Overspeed  
Encoder Overheated  
Reference Speed Input Read Error  
Reference Torque Input Read Error  
System Alarm  
Servo Overrun Detected  
Absolute Encoder Clear Error and Multiturn  
Limit Setting Error  
A.C9  
Encoder Communications Error  
Encoder Parameter Error  
A.CA  
29  
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Unit 11  
Repairs and maintenance  
A.Cb  
A.CC  
A.d0  
Encoder Echoback Error  
Multiturn Limit Disagreement  
Position Error Pulse Overflow  
Power Line Open Phase  
If any of these errors occur  
please contact:  
A.F1  
CPF00  
CPF01  
A.91  
Digital Operator Transmission Error  
Digital Operator Transmission Error  
Overload Warning  
Sankyo America Inc.  
(937) 498-4901  
A.92  
Regenerative Overload Warning  
Option Board Error  
A.E?  
30  
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Unit 11  
Repairs and maintenance  
10.2 Troubleshooting procedures (1)  
NATURE OF PROBLEM  
ASSUMED CAUSE  
CORRECTION  
BACKLASH IN OUTPUT SHAFT  
Small amount along perimeter Insufficient preload between cam  
Adjust eccentric flange on input shaft  
of cam  
and cam follower  
Large amount on certain  
part(s) of cam  
Replace cams, reduce load on output  
shaft  
Cam flaking  
Large amount on certain  
part(s) of turret  
Replace turret, reduce load on output  
shaft  
Cam follower flaking  
Large amount at one place on Crack in outer diameter of cam  
Replace turret, attach torque limiter on  
output shaft  
turret  
follower  
Large amount at one place on  
turret  
Replace turret, attach torque limiter to  
output shaft  
Damaged cam follower  
Eccentric wear on outer diameter  
of cam follower  
Replace turret, increase oil viscosity by  
one grade  
Changes every index  
PLAY IN OUTPUT SHAFT  
Play in thrust direction only  
Apply loctite to screw threads and  
re-tighten  
Loose output flange  
Worn bearings  
Play in thrust and radial  
directions  
Check sealing device and lubrication  
Play in thrust and radial  
directions  
Play in thrust and radial  
directions  
Tighten nut, review load in thrust  
direction  
Enlarge tightening length, review  
ambient temperatures  
Loose tightening nut  
Creep wear on shaft  
PLAY IN INPUT SHAFT  
Tighten flange on inside of eccentric  
flange  
Tighten flange on inside of eccentric  
flange  
Play in thrust direction only  
Insufficient preload on bearings  
Bearing has gap in thrust direction  
Worn bearings  
Play in thrust and radial  
directions  
Play in thrust and radial  
directions  
Improve lubrication sealing device  
Play in thrust and radial  
directions  
Enlarge tightening length, review  
ambient temperatures  
Creep wear on shaft  
NOISE  
Loud noises, continuous  
Noise from lip section of oil seal  
Noise from entire unit  
Supply lubricant, replace sealing device  
Check Servo Tuning section in Yaskawa  
Drive manual, of contact Sankyo  
America for assistance.  
Loud continuous noise caused  
by vibration.  
Roughly machined cam track  
surface  
Correct cam, increase viscosity of  
lubricating oil  
Loud noises, intermittent  
Rotating components touch each  
other  
Loud noise, intermittent  
Low noise, continuous  
Low noise, intermittent  
Check mounted component  
Worn input shaft bearings  
Replace bearings, check lubrication  
Replace cams, reduce load on output  
shaft  
Cam flaking  
Replace turret, reduce load on output  
shaft  
Check tightening section of mounted  
components  
Low noise, intermittent  
Low noise, Intermittent  
Cam follower flaking  
Loose rotating components  
31  
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Unit 11  
Repairs and maintenance  
10.3 Troubleshooting procedures (2)  
NATURE OF PROBLEM  
VIBRATION  
ASSUMED CAUSE  
CORRECTION  
Backlash, torsion, deflection in  
input system  
Output rotating section  
Check input drive system  
Output rotating section  
Output rotating section  
Output rotating section  
Output rotating section  
Output rotating section  
Loose linkage in input system  
Rotation lag in input system  
Insufficient motor power  
Clutch brake timing  
Cam flaking  
Change linkage elements, tighten bolts  
Change rotation transmission component  
Increase motor power rating  
Adjust timing cam  
Replace cam, reduce load on output shaft  
Rotating components are  
physically unbalanced  
Input rotating section  
Input rotating section  
Residual vibration  
Balance components  
Rotating components are eccentric Align centers  
Insufficient torsional rigidity in  
output system  
Increase rigidity of output system  
Momentum in output system is too  
intense  
Residual vibration  
Select a larger indexing drive model  
Increase rigidity of mounting base  
Overall  
Frame deformity  
TEMPERATURE RISE  
Entire housing  
Heat caused by agitation  
Rotating speed too high  
Too much preload  
Check lubrication oil level and viscosity  
Adjust eccentric flange  
Check lubrication  
Bearing burnout  
Cam, cam follower burnout  
Bearing burnout  
OIL LEAKAGE  
Insufficient lubrication  
Check lubrication  
Input/output shaft  
Broken sealing device  
Broken O-ring  
Replace sealing device, install dust cover  
Replace parts  
Flange surface  
Oil plug  
Lubricating oil splashes  
Change oil plug part number  
Starting hole for tapping goes all  
the way through  
Mounting hole surface  
Apply sealant to mounting  
BROKEN SHAFT  
Input shaft  
Damage due to material fatigue  
Shock load  
Reduce overhanging load  
Output shaft  
Key shaft  
Rust  
Install torque limiter on output shaft  
Change friction linkage  
Fretting corrosion  
Ambicient conditions  
Apply rust inhibitor or paint surface  
32  
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10655 State Route 47, P.O. Box 4338  
Sidney, Ohio 45365-4338  
Telephone: (937) 498-4901  
Fax: (937) 498-9403  
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