BHOLANATH ELECTRIC ROD STYLE LINEAR ACTUATOR (INLINE) BH-ERSLA-I-32000N-10-2, TRAVEL LENGTH 2 INCHES / 50 MM, FORCE - 32000 NEWTONS, HORIZONTAL LOAD 160 KGS, FEED SPEED - 10MM/SEC, OPERATING VOLTAGE 48 VDC, Control Signal- Digital Pulse & Direction, IP 30, Total Weight 3.3 kgs includes High Torque Stepper Motor With Inbuilt Integrated Drive and 500 mm Cable Efficient economical Rod style motorised actuators for wide variety of applications from door and window opening closing, Gate operations, hospital bed, electric chair, home and kitchen automation, office automation ,warehouse automation etc Options Available - 1) PUSH BUTTON TECHNOLOGY - This is a programmed fixed feed speed, ready to use, with single phase supply (230VAC/110VAC). Single switch or double switch with power supply, 1 mtr cable 2) Communication Options - Modbus / Analog / 4 - 20 mA or 2-10 Volts 3) Ratings - IP 60 / IP 65 / Flame Proof / High Ambient Temperature Upto 120 deg Cel / Sub zero minus 40 deg Cel / CE 4) Available With Brake / Incremental or Absolute Encoder / Step Servo Motor For complete details please view Technical Specifications.
Established in the year 1972 in Mumbai, India, Bholanath Precision Engineering Pvt. Ltd. is one of the leaders
in the field of manufacturing Hi- tech 1.8 degree Hybrid Stepper Motor. Our Factory area (16700 sqm) is near
Mumbai, India, 55 km from Mumbai Airport.
The company is owned by a group of technocrats committed to precision and repeated accuracy. Strong experience
has been developed over the years and this along with a rich enthusiasm allows the Bholanath team to put forth
Bholanath Precision Engineering Pvt Ltd's general policy does not recommend the use of its products in unapproved
and improper applications wherein a failure or malfunction of the product may directly endanger life or cause
injury. The user of Bholanath Precision Engineering's products, assumes all risks and liabilities, arising from
the use of Bholanath Precision Engineering's products and indemnifies Bholanath Precision Engineering against all