C0632C ( 13X40" )
Engine Lathe
OPERATION MANUAL
BE SUBJE('T r<> AL1-ERATION \VITI-I< >LIT N()TICE
CUITIO� DATE: 9/12/2000
CONTENTS
APPLICATION------ -------- -·---------- 1
MAIN TECHNICAL SPECIFICATION-- ------------------ 1
HOISTING AND INSTALLATION-----·---- ----- -- 2
DRIVING SYSTEM -------------------- ----- 4
BEARING LIST------------------�------------ 7-
LUBRICATION------------- - -------------- - - - 9
ELECTRICAL SYSTEM EXPLANATION- ------------- 11
CONTROL------------------------- ---- ----- 12
ACCESSORIES --------·---... ·-- -.. -·------ ----
BREAK-IN PROCEDURE --·- ... ·-----------·- ------------
ADJUSTMENTS - - --------------------�-------
DAMAGEBALE PARTS - - ---------------- - ----- --- --
17
18
18
_& WARNING ,., ·, I r • � . '
1. Read and understand the entire instruction manual before operating machine.
2. Always wear approved safety glassed /face shields while using this machine,
:. 3. Before operating the· machine, remove tie, rings, watches, either Jewelry, and roll up sleeves above the elbows. Remove all loose clothing and confine long hair. Do -not wear gloves.
'�4. Keep the floor arouAd the-machine clean and free of scrap.material, oil and grease .
5. Keep machine guards in place at all limes when the machine is in use. If removed for maintenance pu(pose, use extreme caution and replace the .guards immediately
6 Do not over reach. Ma intain a balanced stance at all times so that you do not faJI or Lean against blades or .otbe.r.movlng parts.
'-- 7. Make all machine adjustments or maintenance with the machine unplugged from the power source.
8 . Use the right tool. Don't force a tool or attachment to do a Job which ii was no designed for.
9. Replace warning labels if they become obscured or removed.
10. Make certain the mc,tor swi tch is In the OFF position before conne·cting the machine t0 the power supply.
11. Give .your work undivided attention. Looking aro.und, carrying on a conversation, and!" l'iorse-play" are careless acts that can result in
· serious injuil/:· -, 1 I · ::.
:1,2. Keep visit0'rs'a' s!lfe·dlsfanee from the work area.
l - ·-,.:. ;.·
13. Use recommended accessories; improper-accesso�es rrray.be J
hazardous. 1 I
I I .
14. Make a habit of checking to see that • keys and adjusting' wrencnes are _I
removed before turning on the machine
15. Never attempt any ope.ration or adjustment if the procedure ls not understood.
16 . Keep fingers .a�y.::'from--
'.re�qly]qg parts and c.uttir_ig tool�lf.ile it);.'W-!!f3tip{t
- J .
17. Never force the cutting action.
18 . Do no t attempt to adjust or remove tools during operation.
19. Always keep cutters sharp.
20. Always use identi.cal replacement parts when servicing.
21. Failure to comply with all of these warnings may cause serious injury,
APPLICATION
This machi
ne is a small-scale universal engine lathe. It can perform various turning as well
as boring, drilling, grooving and other operations, it can also be used for turning metric threads
and English threads.
The machine is characterized by a simple construction, ah easy operation, large spindle hole
and small space occupation. It is used in the instrument industry and repairing workshops and is
suitable for metal manufacturing in single piece, small and medium batch production.
MAIN TECHNICAL SPECIFICATION
1. Main Specification
Max. Swing dia. over bed
Max. Swing dia. ·over gap Max. Swing over cross slide
Max. Distance between centers
2. Headstock
Dia. of spindle hole
Taper of spindle b0re
Range o f spindle speeds (9 step�)
(18 steps)
,_,;Change Gears and Feed Box
Threads which can be cut
Longitudinal feed range per spindle revolutron
Cross feed range per spindle revolution
Lead screw pitch
Cross screw pitch
Cross feed per division on Its dial
4. Tool Post and Saddle
Tool post screw pitch
Tool post feed per division on its dial
. 1 .
13" (320 mm)
18" (450 mm) __
7" (178mm)
40'' (1000mm)
1 1/2 '' (38mm)
M. T. No. 5
7 5-1400r . p.m.
65-1810r.p.m,
Imperial 32 kinds, 4-60 T . P I.
Metric 32 kinds: 0.4-7mm
40 kinds, 0.0021-0.0508inch/rev
(0.0527-1.2912 mm/r-ev.)
40 kinds, 0.0006-0.0136ihch/rev
(0.014-0.3448 mm/rev. )
BT .P.I (3mm)
1 0T.P.I (2.5mm)
0.001 '' (0.02mm)
1,0T,P.1(2.5mm)
0.001 '' (0.02mm)
Max. Rotary angle of tool post Tool slide travel Cr'6ss slide travel Saddle travel
5. Tailstock
Dia, of taflstock quill Taper of tailstock quill bore Max. Travel of lailstock qulll
6. Motor
Motor frequency Motor power Motor voltage
7. Lathe size and weight Overall dimensions (LxWxH) Net weight Cross weight
HOISTING AND INSTALLATION
1 Finish removing the wooden crate from around the lathe 2. Unbolt the lathe from the shipping crate bottom.
9Cf 3 • (76mm)
5 118"(130mm) 34" (860mm)
1 114" (3.2mm) M.T.No.3
4" C 1 00mm)
50/60 Hz 2HP(1.5KW)
220V/380V
1730X700X1285mm
3. Choose a location for the lathe that ls dry, has good lighting, and has enough room to be able lo service the lathe on all four sides. The fixed dimension of the machine Is shown in Fig. _ _
4. Sling lathe as shown In tl'le hoisting ct,art Fig. 1 when it is transporting. Wilh adequate lifting equipment, slowly raise the lathe off the shipping crate bottom. Be sure that the suspension rope is through space between three rods and bed. Adjust the hoisting balance by sliding the saddle. Make sure lathe is balanced before moving.
5. To avoid twisting the bed. the lathe's location must be absolutely Oat and level. Check for a level condition I.Ising a machinist's precision level on the bed way both front to back and side to side
6 . Clean all surfaces off anti-rust oll using .a mild commerci.al solvent. kerosene or diesel fuel. Do not use paint thinner, gasoline. or lacquer thinner. These will damage painted surfaces. Cover all cleaned surfaces With a light film of 20# maohlne oil.
7. Remove the change gear cover. Clean all components of the change gear assembly and coat all gears with heavy, non-slinging grease Replace cover.
. 2 .
L
·1
,,.n
t
Fig. 1 HOISTING CHART
''-'
�-�--
T t
Fig. 2 FIXING DIMENSIONS FOR LATHE STAND CABINETS
- 3 -
DRIVING SYSTEM (Fig. 3)
The list of main gears, guide screws and clearance nuts in the machine driving system
Part No. of Modulus PrP.ssur e
Parts No
Descrip tion teeth or or pitch angle Material Notes
thread
1 Gear 42 M2 20° 45 2 Gear 23 M2 20° 45 3 Gear '47 M2 20° 45 4 Gear 36 M2 20° 45 5 Gear 55 M2 20° 45
I
6 Gear 31 M2 20° 45 -
7 Gear 45 M2 20° 45 8 Gear 58 M2 20° 45
Head-9 Gear 2 1 IV12 20° 45
stock 10 Gear 45 M2 20° 45 11 Gear 59 IV12 20° 45 12 Gear 46 M2 20° 45 13 Gear 83 M2 20° 45
14 Paired 45 M2 20° 45 Gear 40 M2 20° 45
15 Paired 40 M2 20° 45 Gear 45 M2 20° 45
16 Gear 24 M2.25 20° 45 17 Gear 16 M2.75 20° 45 18 ·Gear 18 M2.75 20° 45
. . Triplicate 18 M2.25 20° 45 19 Gear 18 M2.75 20° 45 2 piece-
18 M2.25 20° 45 20 Gear 20 M2.75 20° 45 21 Gear 28 M2.25 20° 45
Feed-22 Gear 27 M2.25 20° 45 23 Gear 21 M2.25 20° 45
box 24 Gear 21 M2.25 20° 45 25 Palred 30 M2.25 20° 45
Gear 18 M2.25 20° 45 26 Gear 22 M2.25 20° 45 27 Paired 15 M2.25 20° 45
Gear 22 M2.25 20° 45 28 Gear 23 M2.25 20° 45
I 29 Gear 17 M2.25 20° 45 30 Gear 15 M2 25 20° 45
..,__
. 4
Part No. of
Modulus Pressure Parts Description tee.th or Material Notes No or pitch angle
thread
31 Gear 11 M2 20° 45 32 Rack M2 20° 45
33 Leadscrew Single
3mm 20° 45 thread
34 Half nut Single
3mm 20° ZQSn thread 6 -6-3
35 Worm Single
Ms2 20° 45 thread
36 Worm Gear 24 Ms2 20° ZQSn 6-6-3
37 Gear 12 M2 20° 45
........ 38 Gear 50 M2 20° ZQSn 6-6-3
Apron 39 Pinkm 25 M2 20° 45
40 Nut Single 3mm 20°
ZQSn left hand thread 6 - 6 -3 thread
41 Screw Single 3'mm 20° 45 thread
42 Gear 14 M2 20° 45
43 Gear 51 M2 20° 45
44 Gear 13 M2 20° 45
45 Gear 25 M2 20° 45
46 Gear 48 M2 20° 45
Top- 47 Screw Single
3mm 20° 45 Leff hand
thread thread·
'Slide 48 Screw Nut Single
3mm 20° 45
left hand thread thread
49 Serew Single
2.5mm 20° 45 Tail- thread
stock 50 Screw Nut Single
2.5mm 20• ZQSn
thread 6 -6-3
Gear 22 M1.25 20° 45
Gear 2A M1.25 20° 45
Gear 26 M1.25 2 0° 45
Change Gear 44 M1.25 20° 45
gear Gear 48 M1 25 20° 45
Gear 52 M1.25 20° 45
Gear 127(120) M1 25 20° 45 Paired geaF
. 5 -
O'l
711 -L'_ _' _l l _)
105
� 60105 .
I 11 r� ,i, • Q Jl Jl
49 50 L� � J. �
r -I 1, i
789 ll -l
<PlJO 1, ,:, 4c
r -r 1 " �I ' . ,, ".LJJ
.::r:::1 -J .r:::::::::t ., � ' I �
Q
2 -80103
-
1J ::T ..
"r ..
; '
r
12 ; 1,(,1 j 11 f3
Jl ::.J O i--
L(sl
24 ]li,1 * 22
23 U� 19 20 21 P.
1511 v.1,
· -·
u� ll.!l 28 2o ' � � ' 111"[ 29,.
v !22. 5 t: • ,,.-, :
0, ·:.r Q �
i,
Jl � " ,:i ;.; r
27 3l 18
19
' _J • =:I �,�
. ,,., 48
I J 1 ....
333�
3(��vl'� -
37
�
3
\ �
36 . , .. ' ·11c 39 JC
i.'') _.4]" 38 �· qA 42- � J 40:::'.I ' ....
-L !.a"' t,\ (I 1,=a f4 '7l i� 46
F lg. 3 DRIVING SYSTEM
_[ -
½.-J �
-
�
'--' r,
'-' r,
BEARING LIST (Fig. 4)
-
Type Name Specification Qty' Installation -
60104 Single row ball bearing
20X42X12 1 with shield
60105 Si•,gle row ball bearing 25X47X12 1
with shield
104 Single row ball bearing 20X42X12 1
105 Single row ball bearing 25X47X15 2
204 Single row ball bearing 20X47X14 1
304 Single row ball bearing 20X52X15 1 Headstock
Single row taper roller .
07211 55X100X22 1 hearina
07212 Single row taper roller 60X110X22 1
bearino
102 Si
r.gle row ball bearing 15x32x9 3
103 Single r,:,,v ball bearing 17x35x10 8
7000103 Single row ball bearing 17X35X8 1
Sing le row pillow block Feed box
8103 17X30X9 1 bearing
8104 Sing le row pillow block
20�35x10 1 bearing
8101 Single row pillow block 12X26X9 2 bearina
8102 Single row pillow block 15X28X9 2
Carriage bearina
8101 Single row. p[lfow block 12X26X9 1 Tailstock bearlna
60103 Single row ball bearing 17X35X10 2
Change with shield Qear
• 7 .
0 .. "'
N
� ;:;
� � 0
<t
J [ ] [
. -
--� � -
"'
change gea1
•
�1
. 8 .
z 0 j:: ii; 0
" Q.
<, z
0:: � w
al
�
"- ,2) u.
.._
LUBRICATION
�· Head stock - Oil must be up to indicator Mark In oll sight glass (1,Fig 5) . Top off with Shell Turbo T-68 or equiv_!9r-• Fill by removing plug with -an 8mm hex wrench (2, Flg. 5). To drairi. remove drain plug on 11 " ,eft side of head stock (3, Fig. 5). Drain oil completely and refill after the first three months of operation. Then change oil In the heads1ocK annually,
• Feed box Input Shaft - Remove the change gear cover and lubricate ball oiler to oil the feed box input shaft (•I. Fig. 5) with the oil gun using 20# machine oil. Oil once day.
• Feed box - Oil must be up to indicator mark in oil sight glass (6, Fig. 5). Top off with Shell Turbo T-68 or equivalent. Fill by removing plug (5, Fig. 5) with an 8mm hex wrench. To drain, remove drain plug (7, Fig. 5) with an 8mm hex wrench. Drain oil completely and refill after the first three months of operation. Then, change oil in the feed box annually.
• Apron - 011 must be up to indicator mark ir oil sigl11 glass (fronl of apron- 9, Fig. 5). Top off with Shell Turbo T-68. or equival9nt. Remove 011 cap (10. Fig. 5) on top of apron to fill. To drain, remove drain ;,lug on bottom of apron Drain oil comple\ely and refill after the first three months or operation, Then, change oil In the apron annually.
• Leadscrew/Feed Rod · Lubricate ball oiler (11, Fig. 5) on leadscrew/feed rod bracket and ball oiler (8, Fig, 5) on left side of the leadscrew bracket with 20# machine oil once daily.
• Tailstock -Lubricate ball oiler (12, Fig. 5) end cover wilh 20# machine oil once dally .
._. • Carriage - Lubricate two ball oilers ( 13. Fig. 5) with 20# machine oil once daily .
• Compound Rest· Lubricate one ball oiler (14, Fig 5) with 20# machine oil once daily.
• Cross slide- Lubricate three ball oilers (15, Fig. 5) with 20# machine oil once dally.
• Apron handwheel - Lubricate the ball oiler (16, Fig. 5) to oil the cross slide handwheel shaft and the ball oHer ( 17, Fig. 5) to oil the apron handwheel shaft with 20# machine oil once dai ly.
. 9 .
·• Ii II� l :i I 1 I' I.! 11
,.
7 t
I
• •
I
.I.
• J'
Fig. 5 LUBIRCATION CHART
. l O .
ELECTRICAL SYSTEM EXPLAINATION
• The machine should be wired correctly according to order
• Electrical control box is located behind the headstock
• Power is connected properly when pulling up on the forward-reverse lever causes the spindle
to rotate counter-clockwise as viewed from the tailstock
• The machine must be connected to ground or ground wire
...__ • Please read the wiring diagram (1, Flg. 6) before maintain the electrical apparatus.
• Water proof seal(2, Fig. 6) 1s for protecting electrical apparatus
11
Fi,,. 6 ELECTRICAL BOX DISPLAY
. 1 l .
·--1 ,.
CONTROLS
1. Control Panel - located on front of headstock. A. Emergency Stop Switch (1, Fig. 7 ) - depress to stop all machine functions. Twist to
restart B. Jog Switch (2, Fig. 7 ) - depress. and release to•advance spindle momentarily. C. Power indicator Light (3, Fig. 7) - Ill when lathe can be c� <::rated.
2. H�d$tock Spe,ed Change Levers (4,5, Fig. 7) - located .on front of head:.tock at the top. Move levers left or rfght to desired spindle speed.
3. Feeding/Threading Direction Selection Lever (6, Fig. 7) - located on front lower bottom left of the headstock. Arrows indicate saddle travel direction by feed rod or lead screw when the chuck is rotating in forward direction
4. Feed Rate/Threading Pitch Sele.ctor �ever- one lever (7, Fig. 7) and the other lever (8, F ig .__,, 7) that located on the front of the gearbox. Change two levers to right position a_ccordlng to feed rate list on change gear co-.:er to·meet your required feed rate when feeding led by feed rod. Change two levers according 16 threading list under the levers to meet your required screw pitch when threading led b� lead screw, meanwhile you have to check the change gear connection position. Change the lever left or right for position of1 , 2, 3. 4and 5. Be- sure t.o
pull and change the levers_ left or right for position of A, B, C, O, E, I and II . 5. Feed/Threading Selector Lever (8, Fig. 7) - located on the front of the gearbox. Move the
lever to left to activate feed rod. Move the levet to the right to active lead screw. Change the lever left or right for position of M and S.
. .
6. Lon gitudinal Traverse Hand Wheel (9, Fig. 7) - located on the apron assembly. Rotate hand wheel clockwise to move the apron assembly toward tailstock (right). Rotate the wheel counter-clockwise to move the apron assembly toward the headstock (left).
7. Feed Selector (10, Fig. 7) - located in the center froni of the apron assembly. To push the lever down activates the cross feed function. To pull the lever up activates-the longitudinal function.
8. Half Nut Engage Lever (Thread Cutting) (11, Fig. 7) - located on front ofthe apron. Move �e lever down to engage. Move the lever up to disengage.
9. Threading Olal (12, Fig . 7) - located on the right side of the apron. The threading dial chart specifies at which point a thread can be entered using the threading dial.
10. Forward/Reverse Selector ( 13, Fig.'7) - located on the right side bottom of the apron. Pull lever up for counter-clockwise spindle rotation (forward). Push lever down for cioc,kwise spindle rotation (reverse). Al neutral position the spindle remains Idle.
11. Cross Traverse Handwheel (14, Fig. 7) · located above the apron assembly. Clockwise rotation make.s the cross slide toward the rear of the machine.
1'. Carriage Lock (15, Fig. 7)' - square head screw loca�ed on top rear of carriage body. Turn clockwise and tighten to lock. Turn counter-clockwise and loosen to unlock. Caution: carriage lock screw must. be unlocked before engaging in I011gitudinal feeding.
- l 2 .
13'. Tool Post Clamping Lever (16, Fig. 7) - located on top of the tool po,sl. Rot11te counter-clockwise \o loosen and clockwise to tighten.
14, Compound Rest Lock (17, Flg. 7)- hex socket cap screw located on the side of compound rest. Tum clockwise to lock ·and counter-clockwise to unlock.
15. Compound Rest Traverse Handwheel (18, Fig·. 7) - located on the e1;1_d of the top slide. Rotate clockwis'e moves forward,
17. Tailatock Quill Clamping lever (19, Fig.-7) - located on the tailst�. 1:.ift up to lock the sleeve. Push down lever fo unlock.
18. Tallstock tlamplng Lever (20, Fig. 7) - located on the tailstock. Lift 1;1p lever to lock, Push down the lever to unlock,
19 . Tallstock Quill Traverse Handwheel (21, Fig. 7) - located on the rear of tailstock. Rotate clockwise to advance the quill. Rotate counter-clockwise to retract the quill.
\....i. Tallstock Adjustment (22. Fig. 7) - two hex socket cap screws located on the taifi;tock base are used to set off the tailstock for cutting tapers. Loosening one screw while tightening the other one to adjust the tailstock,
Fi1:1. 7 MACHINE OPERATION LEVERS
. 1 3 .
Feature:
.:[--.·� (f ;�,- ... \.. ' ::1.J -.�\.:._;,
.1 -
•.· •;.,JS ..,;r c.� - "! - .• ... ·-i .. j j s
,.
I . . . # I ' 1 ,. • 1 .j, f I
.. CJ ·1� ·.·-· ,_ ._ .. __ �;
"'
.. j ,�-----· .,. ·J .. [ • -- · -•• \J, L-�- :-.: �t � ._ � r . . _...,_ � , --- · , __
INNER STRUCTURE
Fig. 8 FEED BOX
• •
CHANGING LEVERS
, .. -
• 40 kinds of feed rates can be provlded while automatic feeding shown in Fig. 9 or In Fig. 10.
• 32 kinds oi imperial threading oan be provided by changing two levers and by exchanging
once two change gears and by replacing four change gears shown in Fig. 11
• 32 kinds of metric threading can also be provided by changing two levers and by exchanging
once two change gears shown in Fig. 12. �
l 4
. ..__.
./\/WWI/Ir Feed Rote Table ·�••O
POSITION El llJ Al E4 El (.'J (::4 AS DS l]j
�-SIi JW,, U .0508 0. 0452 0, 0•107 0.0360 0.0320 0.0�88 O, 0Zti1 0. Ol·18 (I 0208 o. 0168
t o. 0138 0,0123 0.()110 0.0099 0.0092 0.0079 0. 007 J 0.0068 0.0056 0. 00,15
SI JW,, (), 0.251 0.0226 Q.0203 o. 0180 0. OlBO o.014•1 0.01 32 0,0124 0. 0104 0,0084
" -t ll.0069 0. 0061 0. 0055 0. ()049 o. 00•16 0.0030 .o. 0036 0 . 0034 o. 0028 0,0022 0, 00,12 .
>Mr Q . 0127 0.0113 3. 0102 0. 0090 0.0086 o. 0072 0.0066 0.0062 o. 0052 �II ll. U028 o.oon o.ooio 0. 001 I
,.__ J_ 2ll 0,1)0]1 o. 0025 0.0018 0.0017 i. !!OL4
.,, -'Mr 11.00G4 0 _!.1h 0.0050 o. 0045 0,0040 U.0036 0.0033 0.0031 0.0026 0.0021
�,.-10.0 017 0. 1016 0.0014 o. 0012 o. 0011 o. 0010 0.0010 0.0008 0.0007 0.0006
Feed Rn1c Table lllll\/'Q
PO!>ITII):, E2 1'3 /\1 Ell 1,1 c., C4 AS DS BS
I. 29 l2 !. lil72 1.ons 0.9221 0.8208 0. i3'76 o. 6640 o. 6328 0.5272 0. ·1216 ' 0. 1138 r
�II l r o. lll�9 o. 1804 0, L715 o. 1431
:� . o. 3!,03 0. 3113 0. 2R(M 0.2603 o. 233;1
.-\,\'r (), •.fil 0 . 57:l& (J.5161 0.461 2 0. -1101 0. 3688 0.3320 0.3161 o. 2636 (1. 2108
� o. 1 762 0. 1567 0.1,10 2 o. 1252 o. 1166 0. \000 0.0902 0. 0858 0.0715 0.0569 o. 1582 0. L3L8 0 . I 064 -'Mr o. 322ij 0.2868 0. 2582 0. 2306 0.2052 0. 1844 0. 1660
SIi l 0. 0701 o. 0626 Q.0583 0. <JnOO O.M61 0.0429 0. CJ.358 u. 023•1
' 0 0876 0. 07.8
:H
:� . I
.ANv- (I llil I 0. 1-13� 0. 129] 0 . I 153 0. 1026 0.0�22 O.OR30 0.0791 0.0659 0.0527
.. -�- 0. 0441 0. 0089 (l. 0351 0. 03 I 3 0. 029:1 0. 0250 0.0260 o, 0214 o. 0179 0.0142
Fig. 9 -::EO RATE TABLE(LEADSCREW BT.P.I, CROSS FEED. SCREW 10 T.P.1)
.. A/vV0/V\·
f1( l"'. 1V� ' l
I' • ,u .ANv- l, t•;u�
;[ . I '}' 0.0116
�1 J,/,/y I) IJZ:i I
� ll 110f8
\If '-JW,r \I 111:1
.It.
J _ c!). UU3 I
�I -'Mr 11 lltlll,1
I 0. !10li
.A.fN.1-.Mr POSITl(IN bl
1-ec'll Rale foble
l:J ., ·- 1,-1 El c; I) 0 Ii IO. 0·107 o U�GO O, 0�2{) 11, 1/:!!IN 0 0 I JI 0.0:!:!6 II ()Qf<i 1 1 1 111.i ll 1/03() fJ, U056 U. OOl5
s
0.0109 0.0097 0. 0090 'I ll[lt,' 0, 112! )3 1).0180 0 . OlflO ll II I I •I
II, 110'1·1 0.0049 (). 004fi IJ Ol l'JO I:�. (\IV� (I, 00!1(1 11. OOSH 0 IJ072
0.0027 0. 00:t 1 0, Oll:W II 0111� 0.0050 0. 0045 0.00�(1 0. (J(J'.16 O.OOM 0. 0012 0. 001 I 0 1 101 0
Feed Rate Table
Al E'.4 El CJ
t� �II -'N!r I. 29l2 I 1-172 L.0328 0.9224 I). 8208 U 73,6
-
:f O, o HK l} :tOb•I u. 2760 o. 2464 O.i:!96 u. J�68
Jo/'N- Cl. 6 !fit I). 6T36 0 6164 0,-1612 0. •110·1 {/, '.1688
IH SI 'l 0. l i1 I o Lan u. 1 380 u. 1232 (J. I I IH " n��,1
oil" �II .ANv- 0 .l�2ij ,1. �sr,s u. 2582 II. t.306 0. 2052 0. I H� I
1�1·: l ( I MG" ll 0766 0 06!10 11,0616 0 . 057 � u. 0111.i.1.2
SI -'Mr o. lul-1 II, I 13• 1 o. 1291 0, I 153 o. 1 0!6 11. 11�22
t 0.1>131 o: 0383 0. 03<15 0.0308 0.0287 O. ll216
C4 AS
(). 026•1 0. 11�•1$ o. d(/7() 0.0066
o. U 132 0. til?1 0.0035 o. no:13 o. 01166 ii. V0&2 o. 001'1 0.0017 0.0033 o. 00:11
0. I 190 0.0008
C4 AS
0. 66•10 0.6328 0. 17.76 0. 168'8 o.�310 0 :1164 O.USS8 0. I)� 1-1 0. 1660 0 15112 0.0-1-11 0.0122 0. 0830, ll. 0791 3.022]( 0. 0211
ino:WQ DS BS
01120� O.Clt6S o. oo;;, 000-14 "· 010 1 o.oo�i
O.UU28 (I, 0022 O.OU02 0, 00·12 0. OUl·l U.001 1 o. 01126 I), 0021 0.000, 0.0006
ffunl Q
DS 0.5272
0. 1108 0.2£36 0. 070•1 o. 1 '.Jlij 0. O:l'i2 O, (l\;59 () 0176
BS
l ), 1216 o. 1120 0.2�,
0.056Q
o. 10M O.Ot80 U.0527 0. 0141)
Fig. 10 FEED RATES TABLE(LEADSCREW 3mm, CROSS FEED SCREW 2.5mm)
. 1 5 .
-
l,IETRJC THaEAf) TABLE INCH THRE-AO TABLE
� B4 C4 C3 C2 AA 02 E4 A2 E2 -------I A2 A3 ft4 CJ C3 C3
O'l f i z
. 24 24 24 22 24 26
Ml 0.4 OA5 0.5 0.6 0.7 0.75
MIi 4 4112 5 51/2 6 61/2 I
Mn 0.8 0.9 1 1.2 1.25 1.A 1.5 115 Ml 8 9 10 11 12 13 r l
71 ,481 .
1. 21 48 48 48 44 48 52
Ml 1.6 1.8 2 2.25 2.4 2,5 2.8 3 3.S
... MIi 16 18 20 22 24 26
- MIi 3.2 3.6 4 4.$ 4,8 5 5.8 6 7 201 Ml 32 36 I 40 44 48 52 .·ll z, I
P,g.12 THREAD CUTTlNG TABLE
\
AS B4 24 24
7 71/2
14 15
48 48
28 30
56 I so
"T1 -· (0
.... ....
--t :I: ;;o m
)> 0 -z
(j)
�-
OJ rm -
r-
0 en n
;tJ m
:!: 0,
;--i :u -
\
•
� ,fii tN f..1
.$ .:: IS o
� �--� . -:.,,, = �lE§ 9 N 1_,.., - - ... J_ - ... __ ,..,c::z
: 1:1;j_ �; ;j:�I
:;, � tt.,..; - s: � I - - -- �
-i:- �:e.::. $::::Q l:. � t;;:; - �o.� - - �-- - ,� ...,Ii;; ..... - ..,...._ ::::: 0, u
� - -> - ..,, g:: l!&'. ::. � :
� I
:i< -· - �
I� ff;1
l� ti � 2!
tl " $ ., ;::: I 3: ,.. ,.. = -
t: � ij ·=
e ;:e
e � ;l � C
� C; �
:;- � ..,. �
r::
.::
ti<
- t"""l -: 0 '"'1 n .....
� � � c:, �· ..., "" � .... - .... �
0- .... ... ,_ ....
- .... c:: ; � � -'" ;;: ,.., ....
ACCESSORIES
'--- Fig.13 STANDARD ACCESSORIES FOR THE MACHINE (shown in Fig. 13)
1. tool rest wrench
• 2. wrench for 3-jaw chuck
3. dead ce.nts,s M fNO.3#
4. reverse jaws kr 3 -jaw chuck
5. center slee·.e 3#-5#
Fig. 14
SPECIAL ACCESSORIES (shown in Fig. 14) 1. indexlble cutting tool sets 2. steady resl 3. 4-jaw Independent chuck 4. face plate
- 1 7 -
6.oil gun
7.open-ended wrench sets
8.hex wrench sets
9 screw driver set
1 0 .stool box
5 rotation center 6 drill chucl< with arbor 7.follow rest
BREAK�NPROCEDURE
• During manufacturing and testing, th.is lathe has b.een operated at low spindle speed range for three hours.
• The machine is equipped with 2 V-belts between the motor pulley and the rear pulley. It is advisable to check the tension before starting the machine. The belts should be depressed about 1/2 inch or 12mm by normal finger pressure.
• To allow time -for the gears and bearings to break-in and run smoothly, do not run the lathe above 800 R.P.M for the first six hours of operation and use
ADJUSTMENTS
After a period of t ime, wear in some of the mo.ving components may need to be adjusted. • Saddle
1 Loosen four hex nuts round on the bottom rear of the cross slide and back off one full turn eaoh
2 Turn each of the four set screws with a hex wrench until a slight resistance Is felt Do not over lighten these screws
3. Move the carriage with the hand wheel and determine 1f the drag fs to your preference. Readjust the setting screws as to achieve the desired drag.
4 Hold the socket set screw firmly with a hex wrench and tighten the hex nut ta lock the setting screw in place.
5. Move the carriage again and adjust again if necessary. Note: over adjustment will cause excessive premature wear of the gibs.
• Cross Slide
If the cross slide is loo loose, follow procedure below to tighten. 1- Loosen the rear gib screw approximately one tum. 2 . Tighten the front gib screw a quarter turn. Turn lhe cross slide handwnee( to see if the
cross slide is still loose. If tt is still loose, tighten the front screw a btt more and try again. 3. When the ?ross slide Is properly adjusted, tighten the rear gib screw. Do not over tighten
This will cause premature wear on the gib and mating parts. • Compound Rest
Follow the same procedure as the cross slide adJustmeni to adjust the compound rest. • Tailstock
If the handle will not lock the tallstock, follow the procedure below 1. Lower the handle to unlocked position.
1 8 .
2. Slide the tailstock to an area that allows access to the underside of the tallstock. 3. Tighten tailstock clamping bolt 1/4 turn. Test for proper locking. Repeat as necessary.
• Tailstock Off-Set Follow the procedure below to off-set the .tailstock to cut shallow tapers: 1. Lock ta'ilstock in position by raising locking handle (20. Fig. 7). 2. Alternately IL and tighten front and rear hex socket cap screw (22, Fig. 7).
• Clearance of Cross Slidt! Adjustment
Adjust the cl,-arance of cross feed nu1s on the "!ddle as fo, .. v:1 1g: rotate the screw (1) until the slide moves\'> th a slight drag. (Flg. 15)
'--' • Chuck and Faceplate Mounting
The connection· bet.ween spindle and chuck or faceplate ls made by D -Cam Lock structure
'according to China National Standard GB5900.3-86 (similar to ISO 702/11-1975).
Fig, 15 Adjust the Clearance of Cross Feed Nut
-
\Nhen mot. mg, pu1 U·a three pull pin of chuck or faceplate into the three holes (F
i
g 16) on th.e spindle face end. Then turn the three ·cams witli the help of square head wrench when turning the cams clockwise, the chuck or faceplate will be locked. When turning the cams counter-clockwise to certain point, the chuck or faceplate can be detached.
. 1 9 .
olflC� 1n •
Fig. 16 Chuck or Faceplate Locking Structure
NO.
1
2
DAMAGEABLE PARTS
Name Material
Cross Feed Nut ZQSn6-6-3
Half Nut ZQSn6-6-3
Qty'
1
1
,. e
7 7
Notes
5104
4003
,. - ,A.
3(]
IY6-7Hdep12 11 �b
¢12 .&.o,s j J..loo,ej A I
0 5XA5• /' I
_r-�
"' "'
'1"'
i; 0 • •I �O
� ui Xi
.
( \ \'·"
.. -�
6 3
'l 0.06 A
e-e
J i--· I
' 5-20 .
25.5.8.
Appendix Fig. 1 Cross Feed Nut Material ZQSn6-6-3
. 2 0
,, IX45
I,
"' ie
�- 1 :e ..
'9
-
WI
U)
&-
?I 0
•• � & &
'
.•
�- w ' ' ' '
-
-
' ' '·� ' .
5 "'i
1"-"'
30'°"'
40
--;--
'x----, ' '-" I
,, -�--
��
I �
4-<P 3
-- .,, a. "' I;; & -
V
," '
Appendix Fig. 2 Half Nut Material ZQSn6-6-3
· 2 I .
15