Telescopic Manipulator Module is a specially designed linear motion mechanism, whose core feature is the use of a nested structure to achieve an extension stroke far beyond its own basic length. This unique design enables it to achieve a wide range of operations within a limited space, and is widely used in logistics warehousing, production assembly, special operations, and other situations that require large-scale access or operation.
Telescopic Manipulator Module adopts a multi-layer nested structure design, usually including multi-level motion units such as a fixed base, a middle slide rail, and an end effector layer. The various levels are connected to each other through a precise guide rail system, and the sequential extension and contraction of the structures are achieved through transmission methods such as synchronous belts, ball screws, or chains. This design concept allows it to maintain a compact structure when fully contracted, while achieving an effective working range several times its base length when fully extended.
The core technical characteristics of Telescopic Manipulator Module are reflected in three aspects: firstly, its excellent space utilization, which achieves the unique advantage of "small volume, large stroke" through multi-layer nested design in the vertical or horizontal direction; Secondly, the optimization allocation of bearing capacity ensures sufficient rigidity and stability even in a fully extended state through reasonable structural design and moment balance calculation; Finally, precise control of motion is achieved through the use of servo drive and precision transmission systems to achieve synchronous coordination and precise positioning of various levels of motion.
In terms of transmission methods, Telescopic Manipulator Module mainly adopts two schemes: synchronous belt transmission and ball screw transmission. The synchronous belt transmission scheme is more suitable for applications with light loads and high speeds, such as logistics sorting, light material handling, etc; The ball screw transmission scheme is suitable for situations that require greater load capacity and higher positioning accuracy, such as heavy material handling, precision assembly, etc.
Here we introduce Telescopic Manipulator Module, TMTH5 with data sheet to you as follows:
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|
Model No |
Motor Power(W) |
Body Width (mm) |
Repeatability (mm) |
Ball Screw Rod (C7) |
Max Load (kgs) |
Stroke (mm) at Max speed (mm/s) |
Speed (mm/s) at Max stroke (mm) |
Rated Thrust |
||
|
Out dia (mm) |
Lead (mm) |
Horizontal |
Vertical |
|||||||
|
TMTH5 |
100W |
54 |
±0.01 ±0.005 |
12 |
2 |
23 |
10 |
600mm at 100mm/S |
60mm/S at 800mm |
854 |
|
5 |
30 |
10 |
600mm at 250mm/S |
150mm/S at 800mm |
341 |
|||||
|
10 |
15 |
5 |
600mm at 500mm/S |
300mm/S at 800mm |
170 |
|||||
|
20 |
10 |
2.5 |
600mm at 1000mm/S |
600mm/S at 800mm |
85 |
|||||
|
200W |
2 |
30 |
10 |
600mm at 100mm/S |
60mm/S at 800mm |
170 |
||||
|
5 |
30 |
10 |
600mm at 250mm/S |
150mm/S at 800mm |
682 |
|||||
|
10 |
28 |
8 |
600mm at 500mm/S |
300mm/S at 800mm |
340 |
|||||
|
20 |
15 |
5 |
600mm at 1000mm/S |
600mm/S at 800mm |
170 |
|||||
|
400W |
2 |
30 |
10 |
600mm at 100mm/S |
60mm/S at 800mm |
3389 |
||||
|
5 |
30 |
10 |
600mm at 250mm/S |
150mm/S at 800mm |
1353 |
|||||
|
10 |
30 |
10 |
600mm at 500mm/S |
300mm/S at 800mm |
674 |
|||||
|
20 |
22 |
8 |
600mm at 1000mm/S |
600mm/S at 800mm |
337 |
|||||
|
10 |
110 |
33 |
800mm at 500mm/S |
233mm/S at 1250mm |
1050 |
|||||
|
20 |
60 |
16 |
800mm at 1000mm/S |
467mm/S at 1250mm |
528 |
|||||
|
32 |
50 |
10 |
800mm at 1600mm/S |
747mm/S at 1250mm |
380 |
|||||









The application advantages of Telescopic Manipulator Module are significant: firstly, it greatly saves equipment installation space. Under the same operating range requirements, the required installation space is reduced by more than 50% compared to traditional linear modules; Secondly, it improves the flexibility of the equipment's working range and can adapt to various complex working environments; Thirdly, modular design has reduced maintenance costs and improved equipment reliability.
At present, Telescopic Manipulator Module has been widely used in multiple fields. In the logistics and warehousing industry, it is used for automated storage and sorting of goods in three-dimensional warehouses, as well as material transfer in sorting systems; In the manufacturing industry, it is applied to the assembly positioning of large workpieces and the material supply of production lines; In special industries, it is used for remote operations in hazardous environments and maintenance operations in confined spaces.
With the development of intelligent manufacturing and logistics automation, Telescopic Manipulator Module is moving towards higher loads, higher precision, and greater intelligence. The new generation of intelligent telescopic manipulators integrating visual recognition systems, force sensing technology, and intelligent control algorithms is becoming a development trend, providing more efficient and flexible spatial operation solutions for various industries.
Telescopic Manipulator Module plays an irreplaceable role in modern production and logistics systems with its unique multi-layer nested structure and excellent spatial expansion capability. It not only solves the contradiction between limited space and large-scale operation requirements, but also provides innovative solutions for optimizing the spatial layout of automation equipment, and is an important component of modern intelligent equipment.
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