Enhanced ball reducer SFP-S series-Fornitore globale

Room 401, Building 4, Changfu Fenghua Garden, No. 75 Changfu Street, Qinhuai District, Nanjing City, Jiangsu Province

talent

Load increase

Improve rigidity and output shaft radial load on the basis of BR series products.
Zero backlash

The deceleration structure uses steel balls instead of traditional gears. By maintaining constant rolling contact through preloading, eliminating backlash and achieving high precision.
Compact and concise structure

The deceleration structure and input/output bearing parts are built into the housing, making installation simple.
Widely adaptable

There are various shapes and styles of input and output shafts to choose from, which can cope with various motor models without installation direction restrictions. They can be installed immediately after purchase.
Maintenance free

Internally sealed with lubricating grease, no maintenance or lubrication is required within the rated lifespan.
high efficiency

By utilizing the rolling contact and multiple meshing of steel balls, a light and efficient drive is achieved, fully unleashing the motor's capabilities.

Model representation
Specification Table

Model representation

Enhanced ball reducer

SFP: 1

70: 2

S: 3

C: 4

A:

10: 5

A01: 6

08: 7

16: 8

0:

0:

A: 9

0: 10

1. Product Name

SFP-S series

2. Code

70, 85, 100, 125

3. Output format

S: Axis output

4. Fixed input terminal method

C: Clamping

5. Reduction ratio

8 (only 70 types), 10, 20, 30, 40, 50 (only 125 types)

6. Motor installation markings

Please refer to the external dimension diagram and motor/reducer correspondence table in the sample

7. Input aperture

Please refer to the specification sheet or the external dimension diagram in the sample

8. Output shaft diameter

16 (70 type), 20 (85 type), 25 (100 type), 30 (125 type)

9. Output shaft options

A: Standard

B: Keyway

C: Top threaded hole

D: Keyway+top threaded hole

10. Installation board

F: With installation plate

0: Without installation board

Specification Table

model

SFP70SCA				SFP85SCA				SFP100SCA				SFP125SCA

Reduction ratio
Rotation direction (relative to the input shaft, the rotation direction of the output shaft)
Allowable rated torque	N・m
Peak acceleration torque	N・m
Instantaneous maximum torque	N・m
Output shaft allows radial load ※ 1	N
Output shaft allows axial load ※ 1	N
Allow average input number of rotations	rpm
Maximum Input Rotation Number	rpm
Convert to inertia of input shaft	×10^-4kg・m²
Recommended motor capacity	W
Input aperture	mm





Outline Drawing
cad data
Product samples
Notes on Precautions

8	10	20	30	10	20	30	40	10	20	30	40	10	20	30	40	50
reverse direction		same direction		reverse direction	same direction			reverse direction	same direction			reverse direction	same direction
10	11	12	12.8	25.5	28.4	26.2	26	48.8	56	56	56	90	96.5	96.5	98.8	99.2
20	21.2	22	22.6	42	48.3	44.6	44.2	78	89.4	95.2	95.2	155	168.9	168.9	172.9	173.6
40				70	85			130	160			240	270
500				1000				1500				2000
200				400				600				1000
3000				3000				2000				2000
4500				4500				4000				4000
0.149	0.149	0.159	0.161	0.484	0.431	0.414	0.406	1.58	1.43	1.38	1.36	3.45	2.98	2.86	2.81	2.78
200	200	100	100	400	200	200	100	750	400	400	200	1500	750	750	400	400
14				14				19				24
11				11				16				22
8				8				14				19
–				–				11				16
–				–				–				14
PDF				PDF				PDF				PDF
CAD
PDF
PDF

※ 1 Allowable radial load refers to the load value when the load position is located at the front end of the output shaft.

If you have any special size or model requirements, please contact us.

Size diagram and selection of motor installation flange model (for the SFP-P series size diagram with integrated roller, please click here)

SFP70SCA type

The motor installation mark (flange code) consists of the following table "model"+(reducer input aperture F). For example: A0108

model

CA	CB	E	F	G	I	J	Mass Kg	model	PDF drawings	3D drawings

A01
A02
A03
B01


B02


Without intermediate flange

23	33	72	8	22	48	M3×6	1.4	SFP70SCA-A0108	PDF	CAD
				30	45	M3×6		SFP70SCA-A0208	PDF	CAD
				30	46	M4×8		SFP70SCA-A0308	PDF	CAD
		78	8	50	70			SFP70SCA-B0108	PDF	CAD
28	38		11					SFP70SCA-B0111	PDF	CAD
23	33		8			M5×10		SFP70SCA-B0208	PDF	CAD
28	38		14			M5×10		SFP70SCA-B0214	PDF	CAD
not have							1.3	SFP70SCA-00008	PDF	CAD
								SFP70SCA-00011	PDF	CAD
								SFP70SCA-00014	PDF	CAD

SFP85SCA type

The motor installation mark (flange code) consists of the following table "model"+(reducer input aperture F). For example: C0108

model

CA	CB	E	F	G	I	J	a	b	c	d	e	Mass Kg	model	PDF drawings	3D drawings

C01
E02
C03



C04


D01


D02
Without intermediate flange

23	33.5	88	8	30	45	M3×6	30	10	5	10	M4	3.6	SFP85SCA-C0108	PDF	CAD
					46	M4×8							SFP85SCA-C0208	PDF	CAD
				50	70								SFP85SCA-C0308	PDF	CAD
28	38.5		11				40	12	6	14	M5		SFP85SCA-C0311	PDF	CAD
			14										SFP85SCA-C0314	PDF	CAD
23	33.5		8			M5×10	30	10	5	10	M4		SFP85SCA-C0408	PDF	CAD
28	38.5		14				40	12	6	14	M5		SFP85SCA-C0414	PDF	CAD
		98	11	70	90								SFP85SCA-D0111	PDF	CAD
			14										SFP85SCA-D0114	PDF	CAD
			14			M6×12							SFP85SCA-D0214	PDF	CAD
not have												3.2	SFP85SCA-00008	PDF	CAD
													SFP85SCA-00011	PDF	CAD
													SFP85SCA-00014	PDF	CAD

SFP100SCA type

The motor installation mark (flange code) consists of the following table "model"+(reducer input aperture F). For example: E0111

model

CA	CB	E	F	G	I	J	a	b	c	d	e	Mass Kg	model	PDF drawings	3D drawings

E01


E02
E03


E04
E05
E06


Without intermediate flange

28	40	5	11	50	21	70	M4×8	40	12	6	M4	5.8	SFP100SCA-E0111	PDF	CAD
			14										SFP100SCA-E0114	PDF	CAD
			14				M5×10						SFP100SCA-E0214	PDF	CAD
		8	11	70		90							SFP100SCA-E0311	PDF	CAD
			14										SFP100SCA-E0314	PDF	CAD
38	47		19		24			50	15	14	M5	5.7	SFP100SCA-E0419	PDF	CAD
28	40		14		21		M6×12	40	12	10	M4		SFP100SCA-E0514	PDF	CAD
38	47		16		24			50	15	14	M5		SFP100SCA-E0616	PDF	CAD
			19										SFP100SCA-E0619	PDF	CAD
not have												5.3	SFP100SCA-00011	PDF	CAD
													SFP100SCA-00014	PDF	CAD
													SFP100SCA-00016	PDF	CAD
													SFP100SCA-00019	PDF	CAD

SFP125SCA type

The motor installation mark (flange code) consists of the following table "model"+(reducer input aperture F). For example: F0114

model

AA	B	CA	CB	D	E	F	G	I	J	a	b	c	d	e	Mass Kg	model	PDF drawings	3D drawings

F01
F02
F03


F04



F05



E06
E07
E08


G01


G02


Without intermediate flange

241.5	33	38	47	5	128	14	50	70	M4×10	40	12	6	14	M5	10.9	SFP125SCA-F0114	PDF	CAD
									M5×10							SFP125SCA-F0214	PDF	CAD
				8			70	90							10.8	SFP125SCA-F0314	PDF	CAD
						19				50	15	7.5	18	M6		SFP125SCA-F0319	PDF	CAD
						14			M6×12	40	12	6	14	M5		SFP125SCA-F0414	PDF	CAD
						16				50	15	7.5	18	M6		SFP125SCA-F0416	PDF	CAD
						19										SFP125SCA-F0419	PDF	CAD
						14	80	100		40	12	6	14	M5		SFP125SCA-F0514	PDF	CAD
						16				50	15	7.5	18	M6		SFP125SCA-F0516	PDF	CAD
						19										SFP125SCA-F0519	PDF	CAD
		56	65			24	95	115		55			20		10.7	SFP125SCA-F0624	PDF	CAD
									M8×16							SFP125SCA-F0724	PDF	CAD
		38	47			16				50			18			SFP125SCA-F0816	PDF	CAD
						19										SFP125SCA-F0819	PDF	CAD
252.5	44		58	10	158	16	110	145							11.7	SFP125SCA-G0116	PDF	CAD
						19										SFP125SCA-G0119	PDF	CAD
		56	76			22				55			20			SFP125SCA-G0222	PDF	CAD
						24										SFP125SCA-G0224	PDF	CAD
not have															10.1	SFP125SCA-00014	PDF	CAD
																SFP125SCA-00016	PDF	CAD
																SFP125SCA-00019	PDF	CAD
																SFP125SCA-00022	PDF	CAD
																SFP125SCA-00024	PDF	CAD

talent

Load increase

Zero backlash

Compact and concise structure

Widely adaptable

Maintenance free