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| Categories | Robot Positioner |
|---|---|
| Brand Name: | YOUNGYOU |
| Model Number: | YM-30 |
| Certification: | CE |
| Place of Origin: | CHINA |
| MOQ: | 1 |
| Price: | 3000 |
| Payment Terms: | L/C, T/T |
| Supply Ability: | 20sets/month |
| Delivery Time: | 6-8 WEEKS |
| Packaging Details: | Foam fixation+bubble film protection+wooden box |
| Warranty of core: | 1 Year |
| Worktable size: | Dia 800mm |
| Dimensions: | 1800X800mm |
| Type: | Welding Positioner |
| Weight (KG): | 300KGx2 |
| Usage: | Position,/Production |
| Worktable tilt range: | 800*1800/2500mm |
| Key Selling Points: | 3 axis robotic automation positioner |
3 axis robotic automation positioner payload 300kg x 2 for welding robot
Foreign research
There is a lot of research on robot assisted positioning and
navigation accuracy abroad. Pollock et al. in the United States
used artificial models to study computer-assisted navigation
systems, and the average error is (5.8 ± 1.2) mm (1.8-11.9mm);
Oliveira et al. conducted research on percutaneous puncture, and
found that the average error in bone tissue was 4.23mm, while the
average error in soft tissue was 3.07mm; The navigation system has
a large error, which is mainly caused by such influencing factors
as image registration, positioning technology, matching algorithm
and image drift. The most important influencing factor is image
drift, with an incidence of up to 66%. In order to overcome the
error caused by image drift, an embedded robot system has emerged
in the market, which embeds robots into CT equipment, such as
Acubot robotic surgery system, which is applying for PDA
certification. Although this system greatly improves navigation
accuracy, it has a significant radiation impact.
The Renaissance robot manufactured by Israel's Mazor Robotics Co.,
Ltd. is applicable to brain tissue biopsy and extended to cervical
spine surgery. The accuracy of nail placement reaches 98.3%, the
axial deviation is (1.2 ± 1.49) mm, the sagittal plane deviation is
(1.1 ± 1.15) mm, and the overall accuracy is controlled within 3mm.
A study by Koethe et al. in the United States found that under CT
guidance, robot assisted abdominal puncture was performed, and the
distance between the puncture point and the target point was
verified through a model to be (6.5 ± 2.5) mm vs (15.8 ± 9.2) mm
(barehanded puncture), with statistical differences in the results.
Barzilay et al. performed lumbar fusion for 19 patients, and 9 of
them had clinical errors, which was greatly related to image
registration and robot arm loosening.
Domestic research
Robot positioning navigation assisted surgery has developed very
rapidly in China, and neurosurgery department of the PLA General
Hospital has used French Rosa robot to implant electrodes in more
than 1000 patients with epilepsy. From August to October 2015,
Beijing Jishuitan Hospital successively completed multiple
intraoperative real-time 3D imaging robots assisted internal
fixation surgery for thoracolumbar fractures, with a positioning
accuracy of less than 2mm. Although the robot is used in
orthopaedics and neurosurgery with good results, it is difficult to
puncture abdominal organs. Wang Wendong and others used the robot
to puncture pig liver, and found that the average range of pig
liver deformation during the puncture process was 1mm, and the
difficulty of puncture in flexible media increased.
Wang Yang et al. applied navigation and robot technology to
ultrasound guided thermal ablation therapy of liver tumors, and
found in animal experiments that the error between the microwave
needle and the target point in the liver was (4.48 ± 0.95) mm;
Zhang Xiao applied minimally invasive real-time robot navigation to
rabbit liver tumor puncture, with a single needle error of (4.84 ±
0.99) mm and a double needle error of (6.20 ± 1.21) mm. Compared to
rigid static organs (intracranial or skeletal), robots have a
greater error in puncturing abdominal organs, which is closely
related to the displacement of target points caused by respiratory
movements and liver deformation caused by the puncture process.
Further research on gating methods is needed to reduce these
effects.
About the company
Our guide rail has cooperated with many international well-known robot brands, such as ABB KUKA FANUC Yaskawa UR. The companies involved mainly include palletizing, loading and unloading. The load of the guide rail ranges from 500kg to 5000kg. The length of the guide rail is customized according to the needs of customers. We have made a case that an ABB IRB6700 robot corresponds to 20 CNC machines, and a 50m long guide rail completes the reciprocating motion, loading and unloading of the robot. The number of robots is greatly reduced and the integration cost is saved.
Our company also offers industrial robots at very favorable prices
to place orders together at lower prices.
Welcome to Shanghai, China, to investigate our robots and rails!
Company Product Supply
ABB robot
KUKA robot
Yaskawa robot
Fanuc robot
UR robot
Cobot
Guide rail
Cobot made in China
Product specifications
Product parameters table
Packaging and Transportation
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