Screw Driven Modules for General Environment

Screw Driven Modules for General Environment from Tallman Robotics Limited are presented with Yintai PMI screw rod C7  line rail, repetition accuracy + – 0.01, used in general environment, good rigidity, installation of T-shaped nuts on the base at arbitrary spacing, ultra-low price and ultra-short delivery time. You are welcome to  https://www.youtube.com/@tallmanrobotics to watch our video centre for more projects or news , or visit our website load down e-catalogues for further technical data of our Screw Driven Modules. 

Basic Technical Parameters of Screw Driven Modules for General Environment:

Model No.	Motor Power (W)	Body Width (mm)	Repeatability (mm)	Screw  Rod (C7)		Max Load (kgs)		Max Speed (mm/s)	Standard Stroke and Max Speed  Note 3: the black number in the standard stroke represents the maximum safe speed that can be used in the stroke. If this speed is exceeded, Linear modules may have serious resonance.
				Dia (mm)	Lead   (mm)	Horizontal	Vertical		Stroke 50	100	150	200	250	300	350	400	450	500	550	600	650	700	750	800	850	900	950	1000	1050	1100	1150	1200	1250	1300	1350	1400	1450	1500
TMS45-CM	50W	45	±0.01	12	5	5	1.5	250								250					225	200	175	150
					10	2.5	1	500								500					450	400	350	300
	100W		±0.01		5	10	3	250								250					225	200	175	150
					10	5	1.5	500								500					450	400	350	300

Model No.	Motor   Power (W)	Body Width   (mm)	Repeatability   (mm)	Screw  Rod (C7)		MaxLoad (kgs)		Max   Speed (mm/s)	Standard Stroke and Max Speed  Note 3: the black number in the standard stroke represents the maximum safe speed that can be used in the stroke. If this speed is exceeded, Linear modules may have serious resonance.
				Dia   (mm)	Lead   (mm)	Horizontal	Vertical		Stroke 50	100	150	200	250	300	350	400	450	500	550	600	650	700	750	800	850	900	950	1000	1050	1100	1150	1200	1250	1300	1350	1400	1450	1500
TMS62-CM	200W	62	±0.01	16	5	20	12	250										250						225	200	175	150	125	100
					10	20	10	500										500						450	400	350	300	250	200
					16	20	8	800										800						720	640	560	480	400	320
					20	20	2	1000										1000						900	800	700	600	500	400
					32	12	–	1600										1600						1440	1280	1120	960	800	640
	400W	62	±0.01	16	5	20	12	250										250						225	200	175	150	125	100
					10	20	12	500										500						450	400	350	300	250	200
					16	20	12	800										800						720	640	560	480	400	320
					20	20	4	1000										1000						900	800	700	600	500	400
					32	18	–	1600										1600						1440	1280	1120	960	800	640

Model No.	Motor Power (W)	Body Width (mm)	Repeatability (mm)	Screw  Rod (C7)		Max  Load (kgs)		Max   Speed (mm/s)	Standard Stroke and Max Speed  Note 3: the black number in the standard stroke represents the maximum safe speed that can be used in the stroke.If this speed is exceeded, Linear modules may have serious resonance.
				Dia   (mm)	Lead   (mm)	Horizontal	Vertical		50	100	150	200	250	300	350	400	450	500	550	600	650	700	750	800	850	900	950	1000	1050	1100	1150	1200	1250	1300	1350	1400	1450	1500
TMS85-CM	200W	84	±0.01	16	5	50	12	250										250						225
					10	50	10	500										500						450
					16	30	8	800										800						720
					20	25	5	1000										1000						900
					32	14	–	1600										1600						1440
	400W	84	±0.01	16	5	50	15	250										250						225
					10	50	12	500										500						450
					16	50	12	800										800						720
					20	50	8	1000										1000						900
					32	20	–	1600										1600						1440

Model No.	Motor   Power (W)	Body Width   (mm)	Repeatability   (mm)	Screw  Rod (C7)		MaxLoad (kgs)		Max   Speed (mm/s)	Standard Stroke and Max Speed  Note 3: the black number in the standard stroke represents the maximum safe speed that can be used in the stroke.  If this speed is exceeded,Linear modules may have serious resonance.
				Dia   (mm)	Lead   (mm)	Horizontal	Vertical		50	100	150	200	250	300	350	400	450	500	550	600	650	700	750	800	850	900	950	1000	1050	1100	1150	1200	1250	1300	1350	1400	1450	1500
TMS100-CM	200W	104	±0.01	16	5	65	15	250										250						225	200	175	150	125	100
					10	45	10	500										500						450	400	350	300	250	200
					16	30	6	800										800						720	640	560	480	400	320
					20	20	5	1000										1000						900	800	700	600	500	400
					32	12	–	1600										1600						1440	1280	1120	960	800	640
	400W	104	±0.01	16	5	65	25	250										250						225	200	175	150	125	100
					10	65	15	500										500						450	400	350	300	250	200
					16	50	10	800										800						720	640	560	480	400	320
					20	35	8	1000										1000						900	640	560	480	400	320
					32	20	–	1600										1600						1440	1280	1120	960	800	640

Model No.	Motor  Power (W)	Body Width (mm)	Repeatability (mm)	Screw  Rod (C7)		Max  Load (kgs)		Max   Speed (mm/s)	Standard Stroke and Max Speed  Note 3: the black number in the standard stroke represents the maximum safe speed that can be used in the stroke. If this speed is exceeded, Linear modules may have serious resonance.
				Dia   (mm)	Lead   (mm)	Horizontal	Vertical		50	100	150	200	250	300	350	400	450	500	550	600	650	700	750	800	850	900	950	1000	1050	1100	1150	1200	1250	1300	1350	1400	1450	1500
TMS100L-CM	200W	104	±0.01	16	5	70	15	250																225	200	175	150	125	100
					10	47	10	500																450	400	350	300	250	200
					16	30	6	800																720	640	560	480	400	320
					20	24	5	1000																900	800	700	600	500	400
					32	15	–	1600																1440	1280	1120	960	800	640
TMS100L-CM	400W	104	±0.01	16	5	80	25	250																225	200	175	150	125	100
					10	70	15	500																450	400	350	300	250	200
					16	50	10	800																720	640	560	480	400	320
					20	35	8	1000																900	800	700	600	500	400
					32	22	–	1600																1440	1280	1120	960	800	640

Model No.	Motor   Power (W)	Body Width   (mm)	Repeatability   (mm)	Screw   Rod (C7)		Max Load  (kgs)		Max   Speed (mm/s)	Standard Stroke and Max Speed   Note 3: the black number in the standard stroke represents the maximum safe speed that can be used in the stroke. If this speed is exceeded, Linear modules may have serious resonance.
				Dia (mm)	Lead   (mm)	Horizontal	Vertical		50	100	150	200	250	300	350	400	450	500	550	600	650	700	750	800	850	900	950	1000	1050	1100	1150	1200	1250	1300	1350	1400	1450	1500
TMS135S-CM	200W	135	±0.01	16/20   (S>750)	5	70	17	250											225							225	225	200	200	175	175	150	150
					10	47	12	500											500							450	450	400	400	350	350	300	300
					16	30	6	800										800						720	640	560	480	400	320
					20	24	4	1000											1000							900	900	800	800	700	700	600	600
					32	13	–	1600										1600						1440	1280	1120	960	800	640
					40	10	–	2000											2000							1800	1800	1600	1600	1400	1400	1200	1200
TMS135S-CM	400W	135	±0.01	16/20   (S>750)	5	70	17	250											250							225	225	200	200	175	175	150	150
					10	70	12	500											500							450	450	400	400	350	350	300	300
					16	48	8	800										800						720	640	560	480	400	320
					20	45	6	1000											1000							900	900	800	800	700	700	600	600
					32	25	–	1600										1600						1440	1280	1120	960	800	640
					40	15	–	2000											2000							1800	1800	1600	1600	1400	1400	1200	1200

Model No.	Motor    Power (W)	Body Width   (mm)	Repeatability   (mm)	Screw  Rod (C7)		Max Load (kgs)		Max   Speed (mm/s)	Standard Stroke and Max Speed     Note 3: the black number in the standard stroke represents the maximum safe speed that can be used in the stroke. If this speed is exceeded, Linear modules may have serious resonance.
				Dia   (mm)	Lead   (mm)	Horizontal	Vertical		50	100	150	200	250	300	350	400	450	500	550	600	650	700	750	800	850	900	950	1000	1050	1100	1150	1200	1250	1300	1350	1400	1450	1500
TMS135-CM	200W	135	±0.01	16/20   (S>750)	5	95	27	250											250							225	225	200	200	175	175	150	150
					10	75	18	500											500							450	450	400	400	350	350	300	300
					16	44	7	800										800						720	640	560	480	400	320
					20	35	6	1000											1000							900	900	800	800	700	700	600	600
					32	13	–	1600										1600						1440	1280	1120	960	800	640
					40	10	–	2000											2000							1800	1800	1600	1600	1400	1400	1200	1200
	400W	135	±0.01	16/20   (S>750)	5	110	35	250											250							225	225	200	200	175	175	150	150
					10	110	25	500											500							450	450	400	400	350	350	300	300
					16	68	18	800										800						720	640	560	480	400	320
					20	50	14	1000											1000							900	900	800	800	700	700	600	600
					32	30	8	1600										1600						1440	1280	1120	960	800	640
					40	15	–	2000											2000							1800	1800	1600	1600	1400	1400	1200	1200

Model No.	Motor    Power (W)	Body Width   (mm)	Repeatability   (mm)	Screw  Rod (C7)		Max Load (kgs)		Max   Speed (mm/s)	Standard Stroke and Max Speed    Note 3: the black number in the standard stroke represents the maximum safe speed that can be used in the stroke. If this speed is exceeded, Linear modules may have serious resonance.
				Dia (mm)	Lead  (mm)	Horizontal	Vertical		50	100	150	200	250	300	350	400	450	500	550	600	650	700	750	800	850	900	950	1000	1050	1100	1150	1200	1250	1300	1350	1400	1450	1500
TMS150-CM	400W	150	±0.01	20/25   (S>850)	5	100	35	250											250								225	225	200	200	175	175	150	150	125	125	100	100
					10	80	25	500											500								450	450	400	400	350	350	300	300	250	250	200	200
					20	60	14	1000										1000								900	900	800	800	700	700	600	600
					25	48	10	1250											1250								1125	1125	1000	1000	875	875	750	750	625	625	500	500
					40	30	–	2000										2000								1800	1800	1600	1600	1400	1400	1200	1200
	750W	150	±0.01	20/25   (S>850)	5	120	45	250											250								225	225	200	200	175	175	150	150	125	125	100	100
					10	120	35	500											500								450	450	400	400	350	350	300	300	250	250	200	200
					20	90	20	1000										1000								900	900	800	800	700	700	600	600
					25	80	15	1250											1250								1125	1125	1000	1000	875	875	750	750	625	625	500	500
					40	50	–	2000										2000								1800	1800	1600	1600	1400	1400	1200	1200

Model   No.	Motor   Power (W)	Body Width   (mm)	Repeatability   (mm)	Screw Rod (C7)		Max Load (kgs)		Max   Speed (mm/s)	Standard Stroke and Max Speed  Note 3: the black number in the standard stroke represents the maximum safe speed that can be used in the stroke.  If this speed is exceeded, Linear modules may have serious resonance.
				Dia   (mm)	Lead   (mm)	Horizontal	Vertical		50	100	150	200	250	300	350	400	450	500	550	600	650	700	750	800	850	900	950	1000	1050	1100	1150	1200	1250	1300	1350	1400	1450	1500
TMS170-CM	400W	170	±0.01	20/25   (S>850)	5	120	40	250											250								225	225	200	200	175	175	150	150	125	125	100	100
					10	110	30	500											500								450	450	400	400	350	350	300	300	250	250	200	200
					20	75	14	1000										1000								900	900	800	800	700	700	600	600
					25	60	10	1250											1250								1125	1125	1000	1000	875	875	750	750	625	625	500	500
					40	35	7	2000										2000								1800	1800	1600	1600	1400	1400	1200	1200
					50	28	5	2500											2500								2250	2250	2000	2000	1750	1750	1500	1500	1250	1250	1000	1000
TMS170-CM	750W	170	±0.01	20/25   (S>850)	5	130	50	250											250								225	225	200	200	175	175	150	150	125	125	100	100
					10	120	40	500											500								450	450	400	400	350	350	300	300	250	250	200	200
					20	120	20	1000										1000								900	900	800	800	700	700	600	600
					25	100	15	1250											1250								1125	1125	1000	1000	875	875	750	750	625	625	500	500
					40	70	10	2000										2000								1800	1800	1600	1600	1400	1400	1200	1200
					50	45	8	2500											2500								2250	2250	2000	2000	1750	1750	1500	1500	1250	1250	1000	1000

Model   No.	Motor   Power (W)	Body Width   (mm)	Repeatability   (mm)	Screw Rod (C7)		Max Load (kgs)		Max   Speed (mm/s)	Standard Stroke and Max Speed  Note 3: the black number in the standard stroke represents the maximum safe speed that can be used in the stroke.  If this speed is exceeded, Linear modules may have serious resonance.
				Dia   (mm)	Lead   (mm)	Horizontal	Vertical		50	100	150	200	250	300	350	400	450	500	550	600	650	700	750	800	850	900	950	1000	1050	1100	1150	1200	1250	1300	1350	1400	1450	1500
TMS220-CM	750W	220	±0.01	25	5	150	55	250											250								225	225	200	200	175	175	150	150	125	125	100	100
					10	150	45	500											500								450	450	400	400	350	350	300	300	250	250	200	200
					25	120	20	1250											1250								1125	1125	1000	1000	875	875	750	750	625	625	500	500
					50	50	8	2500											2500								1800	1800	1600	1600	1400	1400	1200	1200	1000	1000	1000	800

1、 Product features of Screw Driven Modules for general environment:
Screw Driven Modules features application introduction: fast acceleration, short positioning time and good dynamic performance! (precise, accurate, fast and stable)
*Precise and firm
*Can be used with single shaft
*It can be used for multi axis combination
*Modular application
*The structure is simple and can save mechanical design space
*Various installation and connection modes and accessories are available for design selection
*It can be matched with a variety of motors and motor control regulators
*Multi point positioning and multi segment control
*Selecting appropriate accessories can improve the assembly efficiency
*Meet different accuracy requirements in design
*Time saving and convenient maintenance
*Clean room grade
*Products are diversified, easy to match and choose, and special customized products can be customized.
*The motor connection can be selected according to the use space of Screw Driven Modules. 
*Magnetic / photoelectric switch can be selected for convenient control.

2、 Field of application of Screw Driven Modules for general environment:
Workpiece positioning \ handling \ clamping \ insertion and other production capacity automation equipment(Screw Driven Modules), reciprocating spraying machine, printing equipment, mechanical arm, packaging machine equipment, chemical equipment, food equipment, metal processing equipment, textile machinery, woodworking equipment, transfer equipment, automatic dispensing equipment, automatic processing equipment, workpiece positioning equipment, labeling machine, laser cutting positioning, water cutting positioning, ultrasonic welding positioning, medical equipment, solar energy equipment, etc.

Screw Driven Modules: The Future Of Industry

Introduction
1. Screw Driven Modules: The Future of Industry
2. What are Screw Driven Modules?
3. How do Screw Driven Modules Work?
4. Benefits of Screw Driven Modules
5. Downsides of Screw Driven Modules
6. The Future of Screw Driven Modules
Screw Driven Modules (SDMs) are a type of motion control module that uses a lead screw to convert rotary motion into linear motion. SDMs are often used in industrial applications where precise positioning is required, such as in CNC machines and 3D printers.

SDMs are composed of three main parts: a lead screw, a nut, and a motor. The motor provides the rotational force that turns the lead screw. The nut is attached to the load that needs to be moved, and it moves along the lead screw as it rotates.

The lead screw and nut are the key components of an SDM. The lead screw is a threaded rod that is turned by the motor. The nut is a

device that converts the rotational force of the motor into linear motion. There are several types of nuts that can be used, including ballscrew nuts, roller nuts, or self-aligning nuts.

What are Screw Driven Modules?

Screw Driven Modules (SDMs) are motion control systems that use lead screws to convert rotary motion into linear motion. SDMs are used in a variety of industrial applications, from CNC machines and 3D printers to robotic positioning systems. The three main components of an SDM are the motor, the lead screw, and the nut. The motor provides the rotational force that turns the lead screw. The nut is attached to the load that needs to be moved, and it moves along the lead screw as it rotates. SDMs are highly precise and reliable, and they offer a number of advantages over mechanical or electromechanical systems. For example, SDMs are much quieter than traditional systems and they require less maintenance. SDMs also require less energy and they are less prone to wear and tear. Furthermore, SDMs provide a high degree of accuracy and repeatability, making them well-suited for use in critical applications.

How do Screw Driven Modules Work?

In a typical SDM, the motor supplies a rotational force to the lead screw, which is a threaded rod. The lead screw has grooves or threads that the nut is connected to, which converts the rotational force into linear motion. As the lead screw turns, the nut moves along it, resulting in linear motion along the length of the lead screw. The nut can be a variety of different shapes, depending on the application. Ballscrew nuts are one of the most common types and are designed to be extremely quiet and smooth-running. Roller nuts are designed for applications that require a large amount of force, such as heavy loads or high-speed applications. Self-aligning nuts offer a high degree of accuracy and repeatability, and are often used in critical applications like CNC machines and 3D printers.

Benefits of Screw Driven Modules

Screw Driven Modules offer a number of advantages over mechanical or electromechanical systems. For starters, SDMs are much quieter than traditional systems and they require less maintenance. In addition, SDMs are much more energy efficient than their counterparts and they are less susceptible to wear and tear. The linear motion provided by SDMs is much more precise and repeatable than that provided by traditional systems. This makes SDMs an ideal choice for applications such as CNC machining and 3D printing, where precision and accuracy are paramount. In addition, SDMs are more cost-effective than other motion control systems, as they require less parts and can be built with off-the-shelf components.

Downsides of Screw Driven Modules

Despite their many benefits, there are a few downsides to Screw Driven Modules. For one, SDMs require a certain amount of force to move the load, and this force can be difficult to control. Additionally, the speed of an SDM is limited by the torque of the motor and the friction of the lead screw, so they may not be suitable for applications that require high-speed motion. Another potential downside is the cost. While SDMs typically require fewer parts and can be built from off-the-shelf components, they still require motors and other components, which can add significantly to the cost. In addition, SDMs can be slow, as the motion is limited to the speed of the motor and the friction of the lead screw.

The Future of Screw Driven Modules

Screw Driven Modules have become increasingly popular in recent years and it is likely that they will continue to be used as a motion control solution for many industrial applications in the future. As technology advances, more efficient and cost-effective designs are being developed, and these will continue to improve the performance and reliability of SDMs. In addition, new motor and nut designs are being developed that allow for greater levels of accuracy and precision, as well as higher speeds. These advances will make Screw Driven Modules an even more attractive option for applications such as CNC machining, robotics, and 3D printing. Ultimately, it is clear that Screw Driven Modules have a bright future in the industrial sector.