China 4p 220V/380V 0.1-0.2-0.4-0.75-1.5-2.2kw Ratio 5-10-15-20-25-30-40-50-60-80-100-120-160-200 AC Gear Motor Helical Gearbox helical gearbox description

Item Description

Main Attributes:
one) Made of higher top quality substance, non-rustingBoth flange and foot mounting offered and appropriate for all-round set up
two) Large output torque and high radiating effectiveness
three)Specific grinding helical gear with Easy working and reduced sound, no deformation,can work lengthy time in dreadful issue
4)Wonderful appearance, durable provider existence and little quantity, compact structure
five)The two 2 and 3 stage offered with extensive ratio variety from 5 to two hundred
6)Different output shaft diameter offered -40-50mm
7)Modular building enlarge ratio from 5 to 1400

Main Materials:
1)housing with aluminium alloyand forged iron material
two)Output Shaft Materials:20CrMnTi
3)Good good quality no sound bearings to maintain extended provider existence
four)Higher efficiency oil seal to avoid from oil leakage

Purposes:
G3 Series helical gear motor are wide utilised for all types of automated tools, this kind of as chip removing equipment, conveyor, packaging equipment, woodworking equipment, farming equipment, slurry scraper ,dryer, mixer and so on.

Comprehensive Photographs

Product Parameters

(n1=1400r/min 50hz)
norminal ratio			5	ten	15	twenty	twenty five	30	40	fifty	60	80	a hundred	100	one hundred twenty	one hundred sixty	200
0.1kw	output shaft		Ø18								Ø22
	n2* (r/min)		282	138	ninety two	70	56	forty six	35	28	23	18	fourteen	–	11	9	seven
	M2(Nm)	50hz	3.2	six.5	9.8	12.nine	sixteen.one	19.six	25.seven	31.1	37.five	forty nine.5	sixty two.9	–	76.one	100.7	125.four
	M2(Nm)	60hz	3	five	8	eleven	13	17	21	26	31	forty one	52	–	sixty three	84	a hundred and five
	Fr1(N)		588	882	980	1180	1270	1370	1470	1570	2160	2450	2450	2450	2450	2450	2450
	Fr2(N)		176
norminal ratio			5	ten	fifteen	twenty	25	30	forty	fifty	60	80	100	one hundred	a hundred and twenty	160	200
0.2kw	output shaft		Ø18					Ø22						Ø28
	n2* (r/min)		282	138	92	70	56	45	35	29	23	eighteen	fourteen	thirteen	12	eight	7
	M2(Nm)	50hz	six.five	twelve.6	19.one	26.3	32.6	38.nine	fifty.4	sixty three	seventy five.six	100.8	103.nine	125.4	one hundred fifty	200.four	250.7
	M2(Nm)	60hz	5.4	10.five	sixteen.six	21.9	27.one	32.four	42	fifty two.five	sixty three	eighty four	86.6	104.5	a hundred twenty five	167	208.9
	Fr1(N)		588	882	980	1180	1270	1760	1860	1960	2160	2450	2450	2840	3330	3430	3430
	Fr2(N)		196
norminal ratio			five	ten	fifteen	twenty	25	30	40	fifty	60	eighty	a hundred	100	120	one hundred sixty	two hundred
0.4kw	output shaft		Ø22					Ø28						Ø32
	n2* (r/min)		288	one hundred forty four	92	72	fifty eight	47	36	29	24	eighteen	fourteen	14	12	9	seven
	M2(Nm)	50hz	twelve.9	25	38.6	fifty one.four	sixty five.four	78.2	100.7	one hundred twenty five.four	a hundred and fifty	two hundred.four	206.8	250.seven	301.one	400.7	461.eight
	M2(Nm)	60hz	ten.seven	twenty.eight	32.1	42.nine	fifty four.5	sixty five.two	83.9	104.5	one hundred twenty five	167	172.3	208.9	250.nine	333.nine	384.8
	Fr1(N)		882	1180	1370	1470	1670	2550	2840	3140	3430	3430	3430	4900	5880	5880	5880
	Fr2(N)		245
norminal ratio			five	ten	15	20	25	thirty	forty	50	60	80	100	one hundred	120	160	200
0.75kw	output shaft		Ø28					Ø32						Ø40
	n2* (r/min)		278	one hundred forty	94	69	58	forty six	35	29	24	eighteen	fourteen	14	eleven	nine	seven
	M2(Nm)	50hz	24.6	48.2	seventy two.nine	97.five	122.one	a hundred forty five.seven	187.five	235.7	282.9	376.1	387.9	439	527	703	764
	M2(Nm)	60hz	20.5	forty.two	60.seven	81.3	201.eight	121.four	156.3	196.4	235.7	313.4	323.2	366	439	585	732
	Fr1(N)		1270	1760	2160	2350	2450	4571	4210	4610	5490	5880	5880	7060	7060	7060	7060
	Fr2(N)		294
norminal ratio			5	ten	fifteen	20	twenty five	30	forty	50	60	eighty	a hundred	one hundred	one hundred twenty	160	200
1.5kw	output shaft		Ø32					Ø40						Ø50
	n2* (r/min)		280	a hundred and forty	93	70	fifty five	forty seven	34	27	24	17	fourteen	thirteen	twelve	eight	7
	M2(Nm)	50hz	48.2	97.five	one hundred forty five.seven	193.nine	242.one	272	351	439	527	703	724	878	1060	1230	1230
	M2(Nm)	60hz	40.2	eighty one.three	121.four	161.6	201.eight	226	293	366	439	585	603	732	878	1170	1230
	Fr1(N)		1760	2450	2840	3230	3820	5100	5880	7060	7060	7060	7060	9800	9800	9800	9800
	Fr2(N)		343
norminal ratio			5	10	fifteen	20	25	30	forty	50	sixty	80	a hundred
2.2kw	output shaft		Ø40					Ø50
	n2* (r/min)		272	136	ninety five	sixty eight	54	45	36	28	24	18	fourteen
	M2(Nm)	50hz	sixty seven	133	two hundred	266	332	399	515	644	773	1571	1230
	M2(Nm)	60hz	56	111	167	221	277	332	429	537	644	858	1080
	Fr1(N)		2160	3140	3530	4571	4700	6960	7250	8620	9800	9800	9800
	Fr2(N)		392

Outline and mounting dimension:

G3FM: Three Stage Gear MOTOR WITH FLANGE (n1=1400r/min)
Power kw	output shaft	ratio	A		F	I	J	M	O	O1	P	Q	R	S	T	U	W	X	Y	Y1
Power kw	output shaft	ratio	regular	brake	F	I	J	M	O	O1	P	Q	R	S	T	U	W	X	Y	Y1
0.1kw	Ø18	five–30-forty-50	236	270	192.five	eleven	16.5	a hundred and seventy	four	10	30	145	35	eighteen	twenty.five	129	6	157	80	eighty one
0.1kw	Ø22	-160-200	262	296	197.5	eleven	19	185	four	12	40	148	forty seven	22	24.5	129	six	171.5	89.five	eighty three.5
0.2kw	Ø18	five-	267	270	192.five	eleven	16.five	170	four	10	thirty	145	35	eighteen	twenty.five	129	6	161	eighty	81
	Ø22	-80-100	293	296	197.5	eleven	19	185	four	12	40	148	forty seven	22	24.five	129	6	171.5	89.5	eighty three.5
	Ø28		306	309.five	208.5	11	23.5	215	4	fifteen	45	a hundred and seventy	50	28	31	129	8	198.five	105.five	88
0.4kw	Ø22	five-	314	324.5	204	11	19	185	four	12	40	148	47	22	24.5	139	six	171.5	89.five	88.5
	Ø28	-eighty-one hundred	330	337.5	215	11	23.5	215	4	fifteen	45	one hundred seventy	50	28	31	139	eight	198.5	one hundred and five.5	93
	Ø32		349	357	229.five	thirteen	28.five	250	4	fifteen	55	180	60	32	35	139	ten	234	126	ninety eight
0.75kw	Ø28	5-	350.five	343.5	227.5	eleven	23.five	215	4	fifteen	45	one hundred seventy	fifty	28	31	159	eight	198.five	105.five	103
	Ø32	-80-one hundred	379.5	387	242	thirteen	28.five	250	four	fifteen	fifty five	one hundred eighty	60	32	35	159	10	234	126	108
	Ø40		401.five	408.five	270	18	34	310	5	18	sixty five	230	seventy one	40	43	185	twelve	284	149	126.5
1.5kw	Ø32	five-	420.five	441	254	13	28.five	250	5	fifteen	fifty five	a hundred and eighty	sixty	32	35	185	ten	234	126	121
	Ø40	-80-100	457.five	478	270	eighteen	34	310	five	eighteen	sixty five	230	seventy one	forty	43	185	twelve	284	149	126.five
	Ø50		485.five	506	300	22	40	360	5	twenty five	75	270	83	50	53.5	185	14	325	173.5	132.five
2.2kw	Ø40	five-	466.five	487	270	18	34	310	five	18	65	230	71	forty	forty three	185	12	284	149	126.5
2.2kw	Ø50	-80-a hundred	510.5	531	300	22	forty	360	5	twenty five	75	270	83	fifty	fifty three.five	185	14	325	173.5	132.5

G3LM: A few Phase Gear MOTOR WITH FOOT (n1=1400r/min)
Power kw	output shaft	ratio	A		D	E	F	J	G	H	K	P	S	T	U	V	W	X	Y	Y1
Power kw	output shaft	ratio	normal	brake	D	E	F	J	G	H	K	P	S	T	U	V	W	X	Y	Y1
0.1kw	Ø18	five–30-40-50	236	270	forty	110	a hundred thirty five	16.five	65	nine	forty five	30	eighteen	twenty.5	129	183	6	133	85	10
0.1kw	Ø22	-one hundred sixty-two hundred	262	296	sixty five	a hundred thirty	one hundred fifty five	19	ninety	eleven	fifty five	forty	22	24.5	129	193	6	139.five	ninety	12
0.2kw	Ø18	5-	267	270	40	one hundred ten	one hundred thirty five	sixteen.five	sixty five	nine	forty five	30	18	twenty.five	129	183	6	133	eighty five	10
	Ø22	-eighty-one hundred	293	296	sixty five	130	155	19	ninety	11	fifty five	forty	22	24.5	129	193	six	139.5	90	12
	Ø28		306	309.five	90	a hundred and forty	a hundred seventy five	23.5	one hundred twenty five	eleven	65	forty five	28	31	129	203	eight	170	a hundred and ten	fifteen
0.4kw	Ø22	five-	314	324.five	65	130	one hundred fifty five	19	ninety	eleven	55	forty	22	24.5	139	199.5	six	141.five	ninety	12
	Ø28	-eighty-a hundred	330	337.5	90	one hundred forty	175	23.5	125	11	65	45	28	31	139	210	8	one hundred seventy	one hundred ten	15
	Ø32		349	357	one hundred thirty	a hundred and seventy	208	28.five	170	13	70	55	32	35	139	226	ten	198	130	18
0.75kw	Ø28	5-	350.5	343.five	ninety	140	one hundred seventy five	23.5	125	eleven	sixty five	45	28	31	159	222	eight	a hundred and seventy	110	15
	Ø32	-80-100	379.five	387	a hundred thirty	one hundred seventy	208	28.5	one hundred seventy	13	70	55	32	35	159	238.five	ten	198	a hundred thirty	eighteen
	Ø40		401.five	408.five	a hundred and fifty	210	254	34	196	15	ninety	65	forty	forty three	185	249	twelve	230	a hundred and fifty	twenty
1.5kw	Ø32	5-	420.5	441	a hundred thirty	one hundred seventy	208	28.five	one hundred seventy	13	70	55	32	35	185	250.5	ten	198	130	18
	Ø40	-80-100	457.5	478	a hundred and fifty	210	254	34	196	fifteen	90	65	forty	43	185	260	12	230	150	20
	Ø50		485.five	506	a hundred and sixty	230	290	forty	210	18	a hundred	seventy five	fifty	53.five	185	288	14	265	170	25
2.2kw	Ø40	five-	466.five	487	a hundred and fifty	210	254	34	196	fifteen	90	sixty five	forty	43	185	260	12	230	a hundred and fifty	twenty
2.2kw	Ø50	-80-100	510.5	531	a hundred and sixty	230	290	forty	210	eighteen	one hundred	75	fifty	53.five	185	288	fourteen	265	170	25

G3FS: IEC Equipment REDUCER WITH FOOT (n1=1400r/min)
Power kw	output shaft	ratio	A	B	C	F	I	J	L	M	N	O	O1	P	Q	R	S	S1	T	T1	W	W1	X	Y	Y1
Power kw	output shaft	ratio	A	B	C	F	I	J	L	M	N	O	O1	P	Q	R	S	S1	T	T1	W	W1	X	Y	Y1
0.12kw	Ø18	5–thirty-40-50	147	ninety five	a hundred and fifteen	154	eleven	16.5	4.5	one hundred seventy	140	4	ten	thirty	one hundred forty five	35	eighteen	11	20.five	twelve.8	6	4	163	eighty	86.five
0.12kw	Ø22	-one hundred sixty-two hundred	173	95	a hundred and fifteen	164	11	19	four.five	185	a hundred and forty	4	12	40	148	forty seven	22	eleven	24.five	12.eight	six	4	171.5	89.5	89
0.18kw	Ø18	5-	147	ninety five	one hundred fifteen	154	eleven	16.5	four.5	170	140	4	10	thirty	145	35	eighteen	eleven	20.five	12.8	6	four	163	eighty	86.five
	Ø22	-eighty-100	173	ninety five	one hundred fifteen	164	11	19	four.five	185	a hundred and forty	4	12	forty	148	47	22	11	24.five	12.8	6	4	171.five	89.5	89
	Ø28		186.five	ninety five	one hundred fifteen	186	eleven	23.5	four.five	215	one hundred forty	4	fifteen	45	a hundred and seventy	fifty	28	11	31	twelve.eight	eight	4	198.five	a hundred and five.five	ninety three.five
0.37kw	Ø22	5-	181.5	110	130	164	eleven	19	4.five	185	160	4	12	forty	148	forty seven	22	fourteen	24.five	16.three	six	5	201	89.5	99
	Ø28	-80-100	198	110	one hundred thirty	186	11	23.5	4.5	215	a hundred and sixty	four	15	forty five	a hundred and seventy	fifty	28	fourteen	31	16.3	8	5	198.5	one zero five.5	103.five
	Ø32		216.five	one hundred ten	130	215	thirteen	28.5	four.five	250	one hundred sixty	4	15	55	a hundred and eighty	sixty	32	14	35	sixteen.three	ten	5	234	126	108.5
0.75kw	Ø28	5-	206.five	a hundred thirty	a hundred sixty five	185	eleven	23.five	four.five	215	two hundred	four	fifteen	45	one hundred seventy	fifty	28	19	31	21.8	eight	6	216.five	105.5	123.five
	Ø32	-eighty-one hundred	235	130	one hundred sixty five	215	13	28.5	four.5	250	two hundred	4	fifteen	55	180	sixty	32	19	35	21.eight	10	six	236.five	126	128.five
	Ø40		260.five	130	165	270	eighteen	34	four.five	310	two hundred	5	eighteen	65	230	71	forty	19	43	21.eight	twelve	eight	284	149	134
1.5kw	Ø32	5-	252	a hundred thirty	165	215	thirteen	28.five	four.5	250	200	five	15	fifty five	180	sixty	32	24	35	27.3	10	eight	236.five	126	128.five
	Ø40	-80-one hundred	293.five	a hundred thirty	one hundred sixty five	270	18	34	4.five	310	two hundred	5	eighteen	sixty five	230	71	forty	24	forty three	27.3	twelve	8	284	149	134
	Ø50		321.five	one hundred thirty	one hundred sixty five	three hundred	22	forty	four.five	360	200	5	25	75	270	83	fifty	24	fifty three.5	27.3	fourteen	eight	323.5	173.five	a hundred and forty
2.2kw	Ø40	5-	290	one hundred eighty	215	270	eighteen	34	five.five	310	250	five	18	65	230	71	forty	28	forty three	31.three	twelve	eight	284	149	134
2.2kw	Ø50	-eighty-100	334	one hundred eighty	215	300	22	forty	five.5	360	250	five	25	seventy five	270	eighty three	fifty	28	fifty three.5	31.three	14	8	323.five	173.five	one hundred forty

G3LS: IEC Equipment REDUCER WITH FOOT (n1=1400r/min)
Power kw	output shaft	ratio	A	B	C	D	E	F	G	H	J	K	L	N	P	S	S1	T	T1	W	W1	X	Y	Y1	Z
Power kw	output shaft	ratio	A	B	C	D	E	F	G	H	J	K	L	N	P	S	S1	T	T1	W	W1	X	Y	Y1	Z
0.12kw	Ø18	5–30-40-50	147	95	a hundred and fifteen	forty	one hundred ten	one hundred thirty five	sixty five	nine	16.five	45	four.5	a hundred and forty	thirty	eighteen	eleven	twenty.5	twelve.8	6	four	138.five	85	ten	M8
0.12kw	Ø22	-one hundred sixty-two hundred	173	ninety five	one hundred fifteen	65	one hundred thirty	154	ninety	11	19	55	4.five	140	forty	22	11	24.5	12.eight	six	four	141	ninety	twelve	M8
0.18kw	Ø18	5-	147	95	115	40	a hundred and ten	135	sixty five	9	16.five	45	4.five	a hundred and forty	30	eighteen	11	twenty.five	twelve.8	6	four	138.five	85	10	M8
	Ø22	-eighty-100	173	ninety five	a hundred and fifteen	sixty five	a hundred thirty	154	ninety	eleven	19	55	four.5	a hundred and forty	forty	22	eleven	24.5	twelve.eight	six	4	141	ninety	12	M8
	Ø28		186.five	95	a hundred and fifteen	ninety	140	a hundred seventy five	one hundred twenty five	11	23.five	sixty five	4.five	140	forty five	28	11	31	twelve.eight	8	4	one hundred seventy	one hundred ten	15	M8
0.37kw	Ø22	5-	181.5	110	130	65	a hundred thirty	154	ninety	11	19	fifty five	four.5	one hundred sixty	40	22	14	24.5	16.3	6	5	151	90	12	M8
	Ø28	-80-a hundred	198	a hundred and ten	130	ninety	140	175	125	11	23.5	65	four.5	one hundred sixty	45	28	14	31	16.3	8	five	a hundred and seventy	110	fifteen	M8
	Ø32		216.5	a hundred and ten	a hundred thirty	a hundred thirty	one hundred seventy	208	170	thirteen	28.5	70	four.five	160	fifty five	32	fourteen	35	sixteen.three	ten	five	198	130	eighteen	M8
0.75kw	Ø28	5-	206.five	one hundred thirty	165	ninety	a hundred and forty	one hundred seventy five	one hundred twenty five	11	23.5	sixty five	four.five	200	45	28	19	31	21.8	8	six	186.5	a hundred and ten	fifteen	M10
	Ø32	-80-one hundred	235	a hundred thirty	one hundred sixty five	130	one hundred seventy	208	one hundred seventy	13	28.5	70	four.5	two hundred	fifty five	32	19	35	21.8	ten	six	201.five	one hundred thirty	eighteen	M10
	Ø40		260.5	one hundred thirty	165	a hundred and fifty	210	254	196	fifteen	34	ninety	4.five	200	65	40	19	forty three	21.8	12	8	230	150	20	M10
1.5kw	Ø32	5-	252	130	165	one hundred thirty	a hundred and seventy	208	one hundred seventy	13	28.five	70	four.5	two hundred	55	32	24	35	27.three	ten	eight	201.five	a hundred thirty	eighteen	M10
	Ø40	-80-one hundred	293.5	one hundred thirty	a hundred sixty five	a hundred and fifty	210	254	196	15	34	90	four.five	two hundred	65	forty	24	43	27.three	12	eight	230	150	twenty	M10
	Ø50		321.five	130	one hundred sixty five	a hundred and sixty	230	290	210	eighteen	forty	one hundred	four.five	two hundred	seventy five	fifty	24	fifty three.5	27.three	fourteen	eight	265	a hundred and seventy	25	M10
2.2kw	Ø40	five-	290	a hundred and eighty	215	one hundred fifty	210	254	196	15	34	ninety	five.5	250	sixty five	40	28	forty three	31.3	twelve	eight	230	one hundred fifty	twenty	M12
2.2kw	Ø50	-eighty-100	334	a hundred and eighty	215	one hundred sixty	230	290	210	18	forty	one hundred	5.five	250	seventy five	50	28	fifty three.5	31.three	14	8	265	one hundred seventy	twenty five	M12

Firm Profile

We are a professional reducer manufacturer located in HangZhou, ZHangZhoug province.Our major merchandise is full range of RV571-150 worm reducers , also supplied GKM hypoid helical gearbox, GRC inline helical gearbox, Pc units, UDL Variators and AC Motors, G3 helical gear motor.Products are commonly employed for programs this kind of as: foodstuffs, ceramics, packing, chemical substances, pharmacy, plastics, paper-generating, design equipment, metallurgic mine, environmental defense engineering, and all varieties of automatic traces, and assembly strains.With fast delivery, superior following-income service, advanced creating facility, our merchandise market well both at home and abroad. We have exported our reducers to Southeast Asia, Japanese Europe and the Middle East and so on.Our goal is to produce and innovate on the basis of high quality, and develop a good popularity for reducers.

Workshop:

Exhibition

ZheJiang PTC Reasonable:

Packaging & Transport

After Income Service

1.Upkeep Time and Warranty:Within 1 year after getting products.
two.Other Provider: Such as modeling choice guide, installation information, and dilemma resolution guidebook, etc

FAQ

1.Q:Can you make as for each consumer drawing?
A: Of course, we offer you tailored service for consumers appropriately. We can use customer’s nameplate for gearboxes.
two.Q:What is your conditions of payment ?
A: 30% deposit before creation,harmony T/T just before shipping.
3.Q:Are you a trading company or producer?
A:We are a manufacurer with advanced equipment and skilled personnel.
four.Q:What is actually your creation ability?
A:4000-5000 PCS/Month
5.Q:Free sample is obtainable or not?
A:Yes, we can offer totally free sample if customer concur to pay out for the courier value
6.Q:Do you have any certificate?
A:Sure, we have CE certification and SGS certification report.

Contact information:
Ms Lingel Pan
For any inquiries just feel free of charge ton make contact with me. Many many thanks for your type attention to our business!

/ Piece
| 1 Piece

(Min. Order)

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Application:	Motor, Machinery, Marine, Agricultural Machinery, Power Transmission Applications
Hardness:	Hardened Tooth Surface
Installation:	Vertical or Horizontal Type
Layout:	Coaxial
Gear Shape:	Helical Gear
Step:	Two Stage- Three Stage

###

Samples:	US$ 35/Piece 1 Piece(Min.Order) \| Request Sample

###

Customization:	Available \|

###

(n1=1400r/min 50hz)
norminal ratio			5	10	15	20	25	30	40	50	60	80	100	100	120	160	200
0.1kw	output shaft		Ø18								Ø22
	n2* (r/min)		282	138	92	70	56	46	35	28	23	18	14	–	11	9	7
	M2(Nm)	50hz	3.2	6.5	9.8	12.9	16.1	19.6	25.7	31.1	37.5	49.5	62.9	–	76.1	100.7	125.4
	M2(Nm)	60hz	3	5	8	11	13	17	21	26	31	41	52	–	63	84	105
	Fr1(N)		588	882	980	1180	1270	1370	1470	1570	2160	2450	2450	2450	2450	2450	2450
	Fr2(N)		176
norminal ratio			5	10	15	20	25	30	40	50	60	80	100	100	120	160	200
0.2kw	output shaft		Ø18					Ø22						Ø28
	n2* (r/min)		282	138	92	70	56	45	35	29	23	18	14	13	12	8	7
	M2(Nm)	50hz	6.5	12.6	19.1	26.3	32.6	38.9	50.4	63	75.6	100.8	103.9	125.4	150	200.4	250.7
	M2(Nm)	60hz	5.4	10.5	16.6	21.9	27.1	32.4	42	52.5	63	84	86.6	104.5	125	167	208.9
	Fr1(N)		588	882	980	1180	1270	1760	1860	1960	2160	2450	2450	2840	3330	3430	3430
	Fr2(N)		196
norminal ratio			5	10	15	20	25	30	40	50	60	80	100	100	120	160	200
0.4kw	output shaft		Ø22					Ø28						Ø32
	n2* (r/min)		288	144	92	72	58	47	36	29	24	18	14	14	12	9	7
	M2(Nm)	50hz	12.9	25	38.6	51.4	65.4	78.2	100.7	125.4	150	200.4	206.8	250.7	301.1	400.7	461.8
	M2(Nm)	60hz	10.7	20.8	32.1	42.9	54.5	65.2	83.9	104.5	125	167	172.3	208.9	250.9	333.9	384.8
	Fr1(N)		882	1180	1370	1470	1670	2550	2840	3140	3430	3430	3430	4900	5880	5880	5880
	Fr2(N)		245
norminal ratio			5	10	15	20	25	30	40	50	60	80	100	100	120	160	200
0.75kw	output shaft		Ø28					Ø32						Ø40
	n2* (r/min)		278	140	94	69	58	46	35	29	24	18	14	14	11	9	7
	M2(Nm)	50hz	24.6	48.2	72.9	97.5	122.1	145.7	187.5	235.7	282.9	376.1	387.9	439	527	703	764
	M2(Nm)	60hz	20.5	40.2	60.7	81.3	201.8	121.4	156.3	196.4	235.7	313.4	323.2	366	439	585	732
	Fr1(N)		1270	1760	2160	2350	2450	4020	4210	4610	5490	5880	5880	7060	7060	7060	7060
	Fr2(N)		294
norminal ratio			5	10	15	20	25	30	40	50	60	80	100	100	120	160	200
1.5kw	output shaft		Ø32					Ø40						Ø50
	n2* (r/min)		280	140	93	70	55	47	34	27	24	17	14	13	12	8	7
	M2(Nm)	50hz	48.2	97.5	145.7	193.9	242.1	272	351	439	527	703	724	878	1060	1230	1230
	M2(Nm)	60hz	40.2	81.3	121.4	161.6	201.8	226	293	366	439	585	603	732	878	1170	1230
	Fr1(N)		1760	2450	2840	3230	3820	5100	5880	7060	7060	7060	7060	9800	9800	9800	9800
	Fr2(N)		343
norminal ratio			5	10	15	20	25	30	40	50	60	80	100
2.2kw	output shaft		Ø40					Ø50
	n2* (r/min)		272	136	95	68	54	45	36	28	24	18	14
	M2(Nm)	50hz	67	133	200	266	332	399	515	644	773	1029	1230
	M2(Nm)	60hz	56	111	167	221	277	332	429	537	644	858	1080
	Fr1(N)		2160	3140	3530	4020	4700	6960	7250	8620	9800	9800	9800
	Fr2(N)		392

###

G3FM: THREE PHASE GEAR MOTOR WITH FLANGE (n1=1400r/min)
Power kw	output shaft	ratio	A		F	I	J	M	O	O1	P	Q	R	S	T	U	W	X	Y	Y1
Power kw	output shaft	ratio	standard	brake	F	I	J	M	O	O1	P	Q	R	S	T	U	W	X	Y	Y1
0.1kw	Ø18	5-10-15-20-25-30-40-50	236	270	192.5	11	16.5	170	4	10	30	145	35	18	20.5	129	6	157	80	81
0.1kw	Ø22	60-80-100-120-160-200	262	296	197.5	11	19	185	4	12	40	148	47	22	24.5	129	6	171.5	89.5	83.5
0.2kw	Ø18	5-10-15-20-25	267	270	192.5	11	16.5	170	4	10	30	145	35	18	20.5	129	6	161	80	81
	Ø22	30-40-50-60-80-100	293	296	197.5	11	19	185	4	12	40	148	47	22	24.5	129	6	171.5	89.5	83.5
	Ø28	100-120-160-200	306	309.5	208.5	11	23.5	215	4	15	45	170	50	28	31	129	8	198.5	105.5	88
0.4kw	Ø22	5-10-15-20-25	314	324.5	204	11	19	185	4	12	40	148	47	22	24.5	139	6	171.5	89.5	88.5
	Ø28	30-40-50-60-80-100	330	337.5	215	11	23.5	215	4	15	45	170	50	28	31	139	8	198.5	105.5	93
	Ø32	100-120-160-200	349	357	229.5	13	28.5	250	4	15	55	180	60	32	35	139	10	234	126	98
0.75kw	Ø28	5-10-15-20-25	350.5	343.5	227.5	11	23.5	215	4	15	45	170	50	28	31	159	8	198.5	105.5	103
	Ø32	30-40-50-60-80-100	379.5	387	242	13	28.5	250	4	15	55	180	60	32	35	159	10	234	126	108
	Ø40	100-120-160-200	401.5	408.5	270	18	34	310	5	18	65	230	71	40	43	185	12	284	149	126.5
1.5kw	Ø32	5-10-15-20-25	420.5	441	254	13	28.5	250	5	15	55	180	60	32	35	185	10	234	126	121
	Ø40	30-40-50-60-80-100	457.5	478	270	18	34	310	5	18	65	230	71	40	43	185	12	284	149	126.5
	Ø50	100-120-160-200	485.5	506	300	22	40	360	5	25	75	270	83	50	53.5	185	14	325	173.5	132.5
2.2kw	Ø40	5-10-15-20-25	466.5	487	270	18	34	310	5	18	65	230	71	40	43	185	12	284	149	126.5
2.2kw	Ø50	30-40-50-60-80-100	510.5	531	300	22	40	360	5	25	75	270	83	50	53.5	185	14	325	173.5	132.5

###

G3LM: THREE PHASE GEAR MOTOR WITH FOOT (n1=1400r/min)
Power kw	output shaft	ratio	A		D	E	F	J	G	H	K	P	S	T	U	V	W	X	Y	Y1
Power kw	output shaft	ratio	standard	brake	D	E	F	J	G	H	K	P	S	T	U	V	W	X	Y	Y1
0.1kw	Ø18	5-10-15-20-25-30-40-50	236	270	40	110	135	16.5	65	9	45	30	18	20.5	129	183	6	133	85	10
0.1kw	Ø22	60-80-100-120-160-200	262	296	65	130	155	19	90	11	55	40	22	24.5	129	193	6	139.5	90	12
0.2kw	Ø18	5-10-15-20-25	267	270	40	110	135	16.5	65	9	45	30	18	20.5	129	183	6	133	85	10
	Ø22	30-40-50-60-80-100	293	296	65	130	155	19	90	11	55	40	22	24.5	129	193	6	139.5	90	12
	Ø28	100-120-160-200	306	309.5	90	140	175	23.5	125	11	65	45	28	31	129	203	8	170	110	15
0.4kw	Ø22	5-10-15-20-25	314	324.5	65	130	155	19	90	11	55	40	22	24.5	139	199.5	6	141.5	90	12
	Ø28	30-40-50-60-80-100	330	337.5	90	140	175	23.5	125	11	65	45	28	31	139	210	8	170	110	15
	Ø32	100-120-160-200	349	357	130	170	208	28.5	170	13	70	55	32	35	139	226	10	198	130	18
0.75kw	Ø28	5-10-15-20-25	350.5	343.5	90	140	175	23.5	125	11	65	45	28	31	159	222	8	170	110	15
	Ø32	30-40-50-60-80-100	379.5	387	130	170	208	28.5	170	13	70	55	32	35	159	238.5	10	198	130	18
	Ø40	100-120-160-200	401.5	408.5	150	210	254	34	196	15	90	65	40	43	185	249	12	230	150	20
1.5kw	Ø32	5-10-15-20-25	420.5	441	130	170	208	28.5	170	13	70	55	32	35	185	250.5	10	198	130	18
	Ø40	30-40-50-60-80-100	457.5	478	150	210	254	34	196	15	90	65	40	43	185	260	12	230	150	20
	Ø50	100-120-160-200	485.5	506	160	230	290	40	210	18	100	75	50	53.5	185	288	14	265	170	25
2.2kw	Ø40	5-10-15-20-25	466.5	487	150	210	254	34	196	15	90	65	40	43	185	260	12	230	150	20
2.2kw	Ø50	30-40-50-60-80-100	510.5	531	160	230	290	40	210	18	100	75	50	53.5	185	288	14	265	170	25

###

G3FS: IEC GEAR REDUCER WITH FOOT (n1=1400r/min)
Power kw	output shaft	ratio	A	B	C	F	I	J	L	M	N	O	O1	P	Q	R	S	S1	T	T1	W	W1	X	Y	Y1
Power kw	output shaft	ratio	A	B	C	F	I	J	L	M	N	O	O1	P	Q	R	S	S1	T	T1	W	W1	X	Y	Y1
0.12kw	Ø18	5-10-15-20-25-30-40-50	147	95	115	154	11	16.5	4.5	170	140	4	10	30	145	35	18	11	20.5	12.8	6	4	163	80	86.5
0.12kw	Ø22	60-80-100-120-160-200	173	95	115	164	11	19	4.5	185	140	4	12	40	148	47	22	11	24.5	12.8	6	4	171.5	89.5	89
0.18kw	Ø18	5-10-15-20-25	147	95	115	154	11	16.5	4.5	170	140	4	10	30	145	35	18	11	20.5	12.8	6	4	163	80	86.5
	Ø22	30-40-50-60-80-100	173	95	115	164	11	19	4.5	185	140	4	12	40	148	47	22	11	24.5	12.8	6	4	171.5	89.5	89
	Ø28	100-120-160-200	186.5	95	115	186	11	23.5	4.5	215	140	4	15	45	170	50	28	11	31	12.8	8	4	198.5	105.5	93.5
0.37kw	Ø22	5-10-15-20-25	181.5	110	130	164	11	19	4.5	185	160	4	12	40	148	47	22	14	24.5	16.3	6	5	201	89.5	99
	Ø28	30-40-50-60-80-100	198	110	130	186	11	23.5	4.5	215	160	4	15	45	170	50	28	14	31	16.3	8	5	198.5	105.5	103.5
	Ø32	100-120-160-200	216.5	110	130	215	13	28.5	4.5	250	160	4	15	55	180	60	32	14	35	16.3	10	5	234	126	108.5
0.75kw	Ø28	5-10-15-20-25	206.5	130	165	185	11	23.5	4.5	215	200	4	15	45	170	50	28	19	31	21.8	8	6	216.5	105.5	123.5
	Ø32	30-40-50-60-80-100	235	130	165	215	13	28.5	4.5	250	200	4	15	55	180	60	32	19	35	21.8	10	6	236.5	126	128.5
	Ø40	100-120-160-200	260.5	130	165	270	18	34	4.5	310	200	5	18	65	230	71	40	19	43	21.8	12	8	284	149	134
1.5kw	Ø32	5-10-15-20-25	252	130	165	215	13	28.5	4.5	250	200	5	15	55	180	60	32	24	35	27.3	10	8	236.5	126	128.5
	Ø40	30-40-50-60-80-100	293.5	130	165	270	18	34	4.5	310	200	5	18	65	230	71	40	24	43	27.3	12	8	284	149	134
	Ø50	100-120-160-200	321.5	130	165	300	22	40	4.5	360	200	5	25	75	270	83	50	24	53.5	27.3	14	8	323.5	173.5	140
2.2kw	Ø40	5-10-15-20-25	290	180	215	270	18	34	5.5	310	250	5	18	65	230	71	40	28	43	31.3	12	8	284	149	134
2.2kw	Ø50	30-40-50-60-80-100	334	180	215	300	22	40	5.5	360	250	5	25	75	270	83	50	28	53.5	31.3	14	8	323.5	173.5	140

###

G3LS: IEC GEAR REDUCER WITH FOOT (n1=1400r/min)
Power kw	output shaft	ratio	A	B	C	D	E	F	G	H	J	K	L	N	P	S	S1	T	T1	W	W1	X	Y	Y1	Z
Power kw	output shaft	ratio	A	B	C	D	E	F	G	H	J	K	L	N	P	S	S1	T	T1	W	W1	X	Y	Y1	Z
0.12kw	Ø18	5-10-15-20-25-30-40-50	147	95	115	40	110	135	65	9	16.5	45	4.5	140	30	18	11	20.5	12.8	6	4	138.5	85	10	M8
0.12kw	Ø22	60-80-100-120-160-200	173	95	115	65	130	154	90	11	19	55	4.5	140	40	22	11	24.5	12.8	6	4	141	90	12	M8
0.18kw	Ø18	5-10-15-20-25	147	95	115	40	110	135	65	9	16.5	45	4.5	140	30	18	11	20.5	12.8	6	4	138.5	85	10	M8
	Ø22	30-40-50-60-80-100	173	95	115	65	130	154	90	11	19	55	4.5	140	40	22	11	24.5	12.8	6	4	141	90	12	M8
	Ø28	100-120-160-200	186.5	95	115	90	140	175	125	11	23.5	65	4.5	140	45	28	11	31	12.8	8	4	170	110	15	M8
0.37kw	Ø22	5-10-15-20-25	181.5	110	130	65	130	154	90	11	19	55	4.5	160	40	22	14	24.5	16.3	6	5	151	90	12	M8
	Ø28	30-40-50-60-80-100	198	110	130	90	140	175	125	11	23.5	65	4.5	160	45	28	14	31	16.3	8	5	170	110	15	M8
	Ø32	100-120-160-200	216.5	110	130	130	170	208	170	13	28.5	70	4.5	160	55	32	14	35	16.3	10	5	198	130	18	M8
0.75kw	Ø28	5-10-15-20-25	206.5	130	165	90	140	175	125	11	23.5	65	4.5	200	45	28	19	31	21.8	8	6	186.5	110	15	M10
	Ø32	30-40-50-60-80-100	235	130	165	130	170	208	170	13	28.5	70	4.5	200	55	32	19	35	21.8	10	6	201.5	130	18	M10
	Ø40	100-120-160-200	260.5	130	165	150	210	254	196	15	34	90	4.5	200	65	40	19	43	21.8	12	8	230	150	20	M10
1.5kw	Ø32	5-10-15-20-25	252	130	165	130	170	208	170	13	28.5	70	4.5	200	55	32	24	35	27.3	10	8	201.5	130	18	M10
	Ø40	30-40-50-60-80-100	293.5	130	165	150	210	254	196	15	34	90	4.5	200	65	40	24	43	27.3	12	8	230	150	20	M10
	Ø50	100-120-160-200	321.5	130	165	160	230	290	210	18	40	100	4.5	200	75	50	24	53.5	27.3	14	8	265	170	25	M10
2.2kw	Ø40	5-10-15-20-25	290	180	215	150	210	254	196	15	34	90	5.5	250	65	40	28	43	31.3	12	8	230	150	20	M12
2.2kw	Ø50	30-40-50-60-80-100	334	180	215	160	230	290	210	18	40	100	5.5	250	75	50	28	53.5	31.3	14	8	265	170	25	M12

/ Piece
| 1 Piece

(Min. Order)

###

Application:	Motor, Machinery, Marine, Agricultural Machinery, Power Transmission Applications
Hardness:	Hardened Tooth Surface
Installation:	Vertical or Horizontal Type
Layout:	Coaxial
Gear Shape:	Helical Gear
Step:	Two Stage- Three Stage

###

Samples:	US$ 35/Piece 1 Piece(Min.Order) \| Request Sample

###

Customization:	Available \|

###

(n1=1400r/min 50hz)
norminal ratio			5	10	15	20	25	30	40	50	60	80	100	100	120	160	200
0.1kw	output shaft		Ø18								Ø22
	n2* (r/min)		282	138	92	70	56	46	35	28	23	18	14	–	11	9	7
	M2(Nm)	50hz	3.2	6.5	9.8	12.9	16.1	19.6	25.7	31.1	37.5	49.5	62.9	–	76.1	100.7	125.4
	M2(Nm)	60hz	3	5	8	11	13	17	21	26	31	41	52	–	63	84	105
	Fr1(N)		588	882	980	1180	1270	1370	1470	1570	2160	2450	2450	2450	2450	2450	2450
	Fr2(N)		176
norminal ratio			5	10	15	20	25	30	40	50	60	80	100	100	120	160	200
0.2kw	output shaft		Ø18					Ø22						Ø28
	n2* (r/min)		282	138	92	70	56	45	35	29	23	18	14	13	12	8	7
	M2(Nm)	50hz	6.5	12.6	19.1	26.3	32.6	38.9	50.4	63	75.6	100.8	103.9	125.4	150	200.4	250.7
	M2(Nm)	60hz	5.4	10.5	16.6	21.9	27.1	32.4	42	52.5	63	84	86.6	104.5	125	167	208.9
	Fr1(N)		588	882	980	1180	1270	1760	1860	1960	2160	2450	2450	2840	3330	3430	3430
	Fr2(N)		196
norminal ratio			5	10	15	20	25	30	40	50	60	80	100	100	120	160	200
0.4kw	output shaft		Ø22					Ø28						Ø32
	n2* (r/min)		288	144	92	72	58	47	36	29	24	18	14	14	12	9	7
	M2(Nm)	50hz	12.9	25	38.6	51.4	65.4	78.2	100.7	125.4	150	200.4	206.8	250.7	301.1	400.7	461.8
	M2(Nm)	60hz	10.7	20.8	32.1	42.9	54.5	65.2	83.9	104.5	125	167	172.3	208.9	250.9	333.9	384.8
	Fr1(N)		882	1180	1370	1470	1670	2550	2840	3140	3430	3430	3430	4900	5880	5880	5880
	Fr2(N)		245
norminal ratio			5	10	15	20	25	30	40	50	60	80	100	100	120	160	200
0.75kw	output shaft		Ø28					Ø32						Ø40
	n2* (r/min)		278	140	94	69	58	46	35	29	24	18	14	14	11	9	7
	M2(Nm)	50hz	24.6	48.2	72.9	97.5	122.1	145.7	187.5	235.7	282.9	376.1	387.9	439	527	703	764
	M2(Nm)	60hz	20.5	40.2	60.7	81.3	201.8	121.4	156.3	196.4	235.7	313.4	323.2	366	439	585	732
	Fr1(N)		1270	1760	2160	2350	2450	4020	4210	4610	5490	5880	5880	7060	7060	7060	7060
	Fr2(N)		294
norminal ratio			5	10	15	20	25	30	40	50	60	80	100	100	120	160	200
1.5kw	output shaft		Ø32					Ø40						Ø50
	n2* (r/min)		280	140	93	70	55	47	34	27	24	17	14	13	12	8	7
	M2(Nm)	50hz	48.2	97.5	145.7	193.9	242.1	272	351	439	527	703	724	878	1060	1230	1230
	M2(Nm)	60hz	40.2	81.3	121.4	161.6	201.8	226	293	366	439	585	603	732	878	1170	1230
	Fr1(N)		1760	2450	2840	3230	3820	5100	5880	7060	7060	7060	7060	9800	9800	9800	9800
	Fr2(N)		343
norminal ratio			5	10	15	20	25	30	40	50	60	80	100
2.2kw	output shaft		Ø40					Ø50
	n2* (r/min)		272	136	95	68	54	45	36	28	24	18	14
	M2(Nm)	50hz	67	133	200	266	332	399	515	644	773	1029	1230
	M2(Nm)	60hz	56	111	167	221	277	332	429	537	644	858	1080
	Fr1(N)		2160	3140	3530	4020	4700	6960	7250	8620	9800	9800	9800
	Fr2(N)		392

###

G3FM: THREE PHASE GEAR MOTOR WITH FLANGE (n1=1400r/min)
Power kw	output shaft	ratio	A		F	I	J	M	O	O1	P	Q	R	S	T	U	W	X	Y	Y1
Power kw	output shaft	ratio	standard	brake	F	I	J	M	O	O1	P	Q	R	S	T	U	W	X	Y	Y1
0.1kw	Ø18	5-10-15-20-25-30-40-50	236	270	192.5	11	16.5	170	4	10	30	145	35	18	20.5	129	6	157	80	81
0.1kw	Ø22	60-80-100-120-160-200	262	296	197.5	11	19	185	4	12	40	148	47	22	24.5	129	6	171.5	89.5	83.5
0.2kw	Ø18	5-10-15-20-25	267	270	192.5	11	16.5	170	4	10	30	145	35	18	20.5	129	6	161	80	81
	Ø22	30-40-50-60-80-100	293	296	197.5	11	19	185	4	12	40	148	47	22	24.5	129	6	171.5	89.5	83.5
	Ø28	100-120-160-200	306	309.5	208.5	11	23.5	215	4	15	45	170	50	28	31	129	8	198.5	105.5	88
0.4kw	Ø22	5-10-15-20-25	314	324.5	204	11	19	185	4	12	40	148	47	22	24.5	139	6	171.5	89.5	88.5
	Ø28	30-40-50-60-80-100	330	337.5	215	11	23.5	215	4	15	45	170	50	28	31	139	8	198.5	105.5	93
	Ø32	100-120-160-200	349	357	229.5	13	28.5	250	4	15	55	180	60	32	35	139	10	234	126	98
0.75kw	Ø28	5-10-15-20-25	350.5	343.5	227.5	11	23.5	215	4	15	45	170	50	28	31	159	8	198.5	105.5	103
	Ø32	30-40-50-60-80-100	379.5	387	242	13	28.5	250	4	15	55	180	60	32	35	159	10	234	126	108
	Ø40	100-120-160-200	401.5	408.5	270	18	34	310	5	18	65	230	71	40	43	185	12	284	149	126.5
1.5kw	Ø32	5-10-15-20-25	420.5	441	254	13	28.5	250	5	15	55	180	60	32	35	185	10	234	126	121
	Ø40	30-40-50-60-80-100	457.5	478	270	18	34	310	5	18	65	230	71	40	43	185	12	284	149	126.5
	Ø50	100-120-160-200	485.5	506	300	22	40	360	5	25	75	270	83	50	53.5	185	14	325	173.5	132.5
2.2kw	Ø40	5-10-15-20-25	466.5	487	270	18	34	310	5	18	65	230	71	40	43	185	12	284	149	126.5
2.2kw	Ø50	30-40-50-60-80-100	510.5	531	300	22	40	360	5	25	75	270	83	50	53.5	185	14	325	173.5	132.5

###

G3LM: THREE PHASE GEAR MOTOR WITH FOOT (n1=1400r/min)
Power kw	output shaft	ratio	A		D	E	F	J	G	H	K	P	S	T	U	V	W	X	Y	Y1
Power kw	output shaft	ratio	standard	brake	D	E	F	J	G	H	K	P	S	T	U	V	W	X	Y	Y1
0.1kw	Ø18	5-10-15-20-25-30-40-50	236	270	40	110	135	16.5	65	9	45	30	18	20.5	129	183	6	133	85	10
0.1kw	Ø22	60-80-100-120-160-200	262	296	65	130	155	19	90	11	55	40	22	24.5	129	193	6	139.5	90	12
0.2kw	Ø18	5-10-15-20-25	267	270	40	110	135	16.5	65	9	45	30	18	20.5	129	183	6	133	85	10
	Ø22	30-40-50-60-80-100	293	296	65	130	155	19	90	11	55	40	22	24.5	129	193	6	139.5	90	12
	Ø28	100-120-160-200	306	309.5	90	140	175	23.5	125	11	65	45	28	31	129	203	8	170	110	15
0.4kw	Ø22	5-10-15-20-25	314	324.5	65	130	155	19	90	11	55	40	22	24.5	139	199.5	6	141.5	90	12
	Ø28	30-40-50-60-80-100	330	337.5	90	140	175	23.5	125	11	65	45	28	31	139	210	8	170	110	15
	Ø32	100-120-160-200	349	357	130	170	208	28.5	170	13	70	55	32	35	139	226	10	198	130	18
0.75kw	Ø28	5-10-15-20-25	350.5	343.5	90	140	175	23.5	125	11	65	45	28	31	159	222	8	170	110	15
	Ø32	30-40-50-60-80-100	379.5	387	130	170	208	28.5	170	13	70	55	32	35	159	238.5	10	198	130	18
	Ø40	100-120-160-200	401.5	408.5	150	210	254	34	196	15	90	65	40	43	185	249	12	230	150	20
1.5kw	Ø32	5-10-15-20-25	420.5	441	130	170	208	28.5	170	13	70	55	32	35	185	250.5	10	198	130	18
	Ø40	30-40-50-60-80-100	457.5	478	150	210	254	34	196	15	90	65	40	43	185	260	12	230	150	20
	Ø50	100-120-160-200	485.5	506	160	230	290	40	210	18	100	75	50	53.5	185	288	14	265	170	25
2.2kw	Ø40	5-10-15-20-25	466.5	487	150	210	254	34	196	15	90	65	40	43	185	260	12	230	150	20
2.2kw	Ø50	30-40-50-60-80-100	510.5	531	160	230	290	40	210	18	100	75	50	53.5	185	288	14	265	170	25

###

G3FS: IEC GEAR REDUCER WITH FOOT (n1=1400r/min)
Power kw	output shaft	ratio	A	B	C	F	I	J	L	M	N	O	O1	P	Q	R	S	S1	T	T1	W	W1	X	Y	Y1
Power kw	output shaft	ratio	A	B	C	F	I	J	L	M	N	O	O1	P	Q	R	S	S1	T	T1	W	W1	X	Y	Y1
0.12kw	Ø18	5-10-15-20-25-30-40-50	147	95	115	154	11	16.5	4.5	170	140	4	10	30	145	35	18	11	20.5	12.8	6	4	163	80	86.5
0.12kw	Ø22	60-80-100-120-160-200	173	95	115	164	11	19	4.5	185	140	4	12	40	148	47	22	11	24.5	12.8	6	4	171.5	89.5	89
0.18kw	Ø18	5-10-15-20-25	147	95	115	154	11	16.5	4.5	170	140	4	10	30	145	35	18	11	20.5	12.8	6	4	163	80	86.5
	Ø22	30-40-50-60-80-100	173	95	115	164	11	19	4.5	185	140	4	12	40	148	47	22	11	24.5	12.8	6	4	171.5	89.5	89
	Ø28	100-120-160-200	186.5	95	115	186	11	23.5	4.5	215	140	4	15	45	170	50	28	11	31	12.8	8	4	198.5	105.5	93.5
0.37kw	Ø22	5-10-15-20-25	181.5	110	130	164	11	19	4.5	185	160	4	12	40	148	47	22	14	24.5	16.3	6	5	201	89.5	99
	Ø28	30-40-50-60-80-100	198	110	130	186	11	23.5	4.5	215	160	4	15	45	170	50	28	14	31	16.3	8	5	198.5	105.5	103.5
	Ø32	100-120-160-200	216.5	110	130	215	13	28.5	4.5	250	160	4	15	55	180	60	32	14	35	16.3	10	5	234	126	108.5
0.75kw	Ø28	5-10-15-20-25	206.5	130	165	185	11	23.5	4.5	215	200	4	15	45	170	50	28	19	31	21.8	8	6	216.5	105.5	123.5
	Ø32	30-40-50-60-80-100	235	130	165	215	13	28.5	4.5	250	200	4	15	55	180	60	32	19	35	21.8	10	6	236.5	126	128.5
	Ø40	100-120-160-200	260.5	130	165	270	18	34	4.5	310	200	5	18	65	230	71	40	19	43	21.8	12	8	284	149	134
1.5kw	Ø32	5-10-15-20-25	252	130	165	215	13	28.5	4.5	250	200	5	15	55	180	60	32	24	35	27.3	10	8	236.5	126	128.5
	Ø40	30-40-50-60-80-100	293.5	130	165	270	18	34	4.5	310	200	5	18	65	230	71	40	24	43	27.3	12	8	284	149	134
	Ø50	100-120-160-200	321.5	130	165	300	22	40	4.5	360	200	5	25	75	270	83	50	24	53.5	27.3	14	8	323.5	173.5	140
2.2kw	Ø40	5-10-15-20-25	290	180	215	270	18	34	5.5	310	250	5	18	65	230	71	40	28	43	31.3	12	8	284	149	134
2.2kw	Ø50	30-40-50-60-80-100	334	180	215	300	22	40	5.5	360	250	5	25	75	270	83	50	28	53.5	31.3	14	8	323.5	173.5	140

###

G3LS: IEC GEAR REDUCER WITH FOOT (n1=1400r/min)
Power kw	output shaft	ratio	A	B	C	D	E	F	G	H	J	K	L	N	P	S	S1	T	T1	W	W1	X	Y	Y1	Z
Power kw	output shaft	ratio	A	B	C	D	E	F	G	H	J	K	L	N	P	S	S1	T	T1	W	W1	X	Y	Y1	Z
0.12kw	Ø18	5-10-15-20-25-30-40-50	147	95	115	40	110	135	65	9	16.5	45	4.5	140	30	18	11	20.5	12.8	6	4	138.5	85	10	M8
0.12kw	Ø22	60-80-100-120-160-200	173	95	115	65	130	154	90	11	19	55	4.5	140	40	22	11	24.5	12.8	6	4	141	90	12	M8
0.18kw	Ø18	5-10-15-20-25	147	95	115	40	110	135	65	9	16.5	45	4.5	140	30	18	11	20.5	12.8	6	4	138.5	85	10	M8
	Ø22	30-40-50-60-80-100	173	95	115	65	130	154	90	11	19	55	4.5	140	40	22	11	24.5	12.8	6	4	141	90	12	M8
	Ø28	100-120-160-200	186.5	95	115	90	140	175	125	11	23.5	65	4.5	140	45	28	11	31	12.8	8	4	170	110	15	M8
0.37kw	Ø22	5-10-15-20-25	181.5	110	130	65	130	154	90	11	19	55	4.5	160	40	22	14	24.5	16.3	6	5	151	90	12	M8
	Ø28	30-40-50-60-80-100	198	110	130	90	140	175	125	11	23.5	65	4.5	160	45	28	14	31	16.3	8	5	170	110	15	M8
	Ø32	100-120-160-200	216.5	110	130	130	170	208	170	13	28.5	70	4.5	160	55	32	14	35	16.3	10	5	198	130	18	M8
0.75kw	Ø28	5-10-15-20-25	206.5	130	165	90	140	175	125	11	23.5	65	4.5	200	45	28	19	31	21.8	8	6	186.5	110	15	M10
	Ø32	30-40-50-60-80-100	235	130	165	130	170	208	170	13	28.5	70	4.5	200	55	32	19	35	21.8	10	6	201.5	130	18	M10
	Ø40	100-120-160-200	260.5	130	165	150	210	254	196	15	34	90	4.5	200	65	40	19	43	21.8	12	8	230	150	20	M10
1.5kw	Ø32	5-10-15-20-25	252	130	165	130	170	208	170	13	28.5	70	4.5	200	55	32	24	35	27.3	10	8	201.5	130	18	M10
	Ø40	30-40-50-60-80-100	293.5	130	165	150	210	254	196	15	34	90	4.5	200	65	40	24	43	27.3	12	8	230	150	20	M10
	Ø50	100-120-160-200	321.5	130	165	160	230	290	210	18	40	100	4.5	200	75	50	24	53.5	27.3	14	8	265	170	25	M10
2.2kw	Ø40	5-10-15-20-25	290	180	215	150	210	254	196	15	34	90	5.5	250	65	40	28	43	31.3	12	8	230	150	20	M12
2.2kw	Ø50	30-40-50-60-80-100	334	180	215	160	230	290	210	18	40	100	5.5	250	75	50	28	53.5	31.3	14	8	265	170	25	M12

Helical Gearbox

Using a helical gearbox can greatly improve the accuracy of a machine and reduce the effects of vibration and shaft axis impact. A gearbox is a circular machine part that has teeth that mesh with other teeth. The teeth are cut or inserted and are designed to transmit speed and torque.

Sliding

Among the many types of gearboxes, the helical gearbox is the most commonly used gearbox. This is because the helical gearbox has a sliding contact. The contact between two gear teeth begins at the beginning of one tooth and progresses to line contact as the gear rotates.
Helical gears are cylindrical gears with teeth cut at an angle to the axis. This angle enables helical gears to capture the velocity reversal at the pitch line due to the sliding friction. This leads to a much smoother motion and less wear. Moreover, the helical gearbox is more durable and quieter than other gearboxes.
Helical gears are divided into two categories. The first group comprises of crossed-axis helical gears, commonly used in automobile engine distributor/oil pump shafts. The second group comprises of zero-helix-angle gears, which do not produce axial forces. However, they do create heat, which causes loss of efficiency.
The helical gearbox configuration is often confounded, which results in higher working costs. In addition, the helical gearbox configuration does not have the same torque/$ ratio as zero-helix angle planetary gears.
When designing gears, it is important to consider the effects of gear sliding. Sliding can lead to friction, which can cause loss of power transmission. It also leads to uneven load distribution, which decreases the loadability of the helical planetary gearbox.
In addition, the mesh stiffness of helical gears is commonly ignored by researchers. An analytical model for the mesh stiffness of helical gears has been proposed.

Axial thrust forces

Several options are available for axial thrust forces in helical gearboxes. The most obvious is to use a double helical gear to offset the force component. Another option is to use a thrust bearing with a lower load carrying capacity. This becomes a sacrificial component.
In order to transmit a force, it must be distributed along the contact line. This force is the sum of tangential, radial and axial force components. All these components must be transferred from the source to the output. This is a complex process that involves the use of gears.
The axial force component must be transferred through the gears. The resultant force is then divided into orthogonal components and divided into the thrust directions. The radial force component is from the contact point to the driven gear center.
The axial force component is also determined by the size of the gear’s pitch diameter. A larger pitch diameter results in a greater bearing moment. Similarly, a larger gear ratio will produce a higher torque transmission.
It should be noted that the axial force component is only a small part of the total force. The normal force is distributed along the contact line.
The double helical gear is also not a perfect duplicate of the herringbone gear. It has two equal halves. It is used interchangeably with the herringbone gear. It also has the same helix angle.

Reduced impact on the shaft axis

Increasing the helix angle of a gear pair will reduce resonance effects on the shaft axis of a helical gearbox. However, this will not reduce the overall vibration in the gearbox. In fact, it will increase the vibration. This can lead to serious fatigue faults in the drive train.
This is because the helix angle has an effect on the contact line between two teeth. As the helix angle increases, the length of the contact line decreases. In addition, it has an effect on the normal force and curvature radii of the teeth. The pressure angle also affects the curvature radii.
Helical gears have several advantages over spur gears. These advantages include: lower vibration, NVH (noise, vibration and harshness) characteristics, and smooth operation under heavy loads. They also have better torque capability. However, they produce higher friction. They also require unique approaches to control their thrust forces.
The first step in reducing resonance effects is to regulate the meshing frequency of the helical gear stage. This can be done by varying the shift factors in the gear. If the shift factors are too large, then the gear will experience resonance effects. The helix angle is also affected by the gear’s shift factors. It is therefore important to control the gear’s geometry in order to reduce the resonance effects.
Next, the effects of the web structure and rim thickness on the root stress of the gear are examined. These are measured by strain gage. The results indicate that the maximum root stress is obtained when the worst meshing position is reached.

Quieter operation

Compared to spur gears, helical gears are much quieter in operation. This is due to their larger teeth. Aside from this, they have a higher load-carrying capacity. They also run smoother and have a higher speed capability. Helical gears are also a good substitute for spur gears.
The most significant parameter relating to noise reduction is the gear contact ratio. It ranges from below 1 to more than 10 and is determined by the number of teeth intersecting a parallel shaft line at the pith circle. It is also a good indicator of the level of noise reduction that helical gears provide.
In addition, helical gears have a lower impulse flexure than spur gears. This is because the contact point slides along the helical surface of each tooth. This also adds internal damping to the gear system.
While helical gears are less noisy than spur gears, they do have a high level of wear and tear. This can affect the performance of the gear. However, it is possible to improve the smoothness of the tooth surface by grinding. In addition, running the gears in oil can also help improve the smoothness of the tooth surface.
There are many industries that use helical gears. For example, the automotive industry uses them in their transmissions. They also are used in the agricultural industry. They are often used in heavy trucks.
Helical gears are also known to generate less heat and are quieter than other gears. They can also deliver parallel power transfers between parallel or non-parallel shafts.

Improved accuracy

Increasing the accuracy of a helical gearbox is the key to its operation and reliability. The accuracy of the gearbox is dependent on several features. Among the most important are the profile and lead. Moreover, the power requirements of a gear drive should be taken into consideration.
The profile is the most sensitive feature of a helical gear. If the profile is not symmetric, the gear will run with a noisy spur gear. In addition, the profile is also the most sensitive to lead.
A helical gearbox plays a key role in the power transmission of industrial applications. However, the heavy duty operating conditions make it susceptible to a variety of faults.
A helical gearbox’s performance depends on the accuracy of the individual gears. This is accomplished by minimizing the backlash. A common way to reduce backlash is to approach all target positions from a common direction. This approach also reduces transmission noise.
The accuracy of a helical gearbox can be improved by using a flexible electronic gearbox. This can reduce the degree of twist. Moreover, it can increase the accuracy of gear machining.
A helical gearbox with an electronic gearbox can increase the accuracy of twist compensation. It can also improve the linkage between B-axis, C-axis, and Z-axis. Moreover, the electronic gearbox will ensure the linkage relationship between Y-axis, Z-axis, and C-axis.
The accuracy of a helical Gearbox can be improved by calculating the position error of the gear train. Pitch deviation and helix angle deviation are two types of position error.

Reduced vibration

Using helical gearboxes can reduce vibration and noise. These gears are used in a variety of applications, including automotive transmissions. Moreover, these gears are quiet enough to operate in noise-sensitive applications.
Using CZPT software, three different gearbox housing designs are compared. The external dimensions and mass of each design are kept constant, but different quantities of longitudinal and transverse stiffeners are employed. The resulting models are then compared to experimental results. In addition, the free vibration response of these models is analyzed. The results are shown in Fig. 5.
In terms of noise reduction, the cellular model produces the lowest sound pressure level. However, the cross model produces the higher sound level. The cellular model also produces better peak to peak results.
The input-stage gear pair is the power source of the output-stage gear pair. The output-stage gear pair’s vibration is also studied. This includes a phase diagram and a frequency-domain diagram. The influence of the driving torque and the pinion’s velocity on the vibration is studied in a numerical manner. The time evolution of the normal force and the lubricant stiffness is also studied.
The input-stage pinion modification reduces the input-stage gear pair’s vibration. This reduction is achieved by adding dual bearing support to the input shaft.

editor by CX 2023-04-04

Helical Gearbox

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Manufacturer supplier exporter of the helical gearbox.