Dryer Inlet Hydraulic Transfer Car
Technological Functions
The dryer inlet hydraulic transfer car is a transit vehicle that sends wet green body loaded cars to the designated position before entering the dryer.
Structure and Principles
Durable unibody chassis structure design, assembled with reinforced beams
Heat-resistant nodular cast iron wheels, heat-resistant and lubricated tapered rolling bearings
Exquisite structure, with designed left-push-and-pull, right-push-and-pull mechanism, enables the transfer of dryer car to the transfer car and the kiln car pusher to the designated route
Integrated with hydraulic kiln car pusher, efficient compact structure that keeps the transfer route spacious, and the dryer car can be directly sent into the dryer.
Features
With the ability to
bi-directional push around
Dryer Car Towing Machine
Technological Functions
A dryer car towing machine uses the friction between the wire rope and the drum for power transfer, the wire ropes are put in order in the guide slot, to prevent the ropes from entangled together. It brings quick action when cars need to be pulled to the designated positions.
Structure and Principles
The motor powers the reducer, generating great torque to pull the dryer car;
Multi-stage drum prevents the wire ropes from slipping;
Wire rope guide slots are set up on the drum to keep the wires in order, instead of tangled up
Dryer Car Hydraulic Stepper
Technological Functions
A dryer car hydraulic stepper enables precise movement of dryer car, functions as an organized positioning system in different stages of production processes. The hydraulic mechanism and brake device are set up to the system to stabilize the loading and unloading processes of the dryer car
Structure and Principles
Comprised of oil cylinders, petrol stations, steppers, and overall racks;
Gas-station-type hydraulic mechanism, enabling steady movement
Excellent sealing components
Integrated control, precise delivery of dryers to the designated positions
Kiln Car Hydraulic Pusher
Technological Functions
The kiln car hydraulic pusher sends the kiln cars into the kiln and push them forward inside the kiln.
Structure and Principles
Comprised of the electrical control system, hydraulic system, pusher mechanism and racks;
Gas-station-type hydraulic mechanism, enabling steady movement
Excellent sealing components
The pusher tip receives pushing force from multiple positions, effectively preventing the kiln car from derailing
The overpressure alarm provides extra insurance the equipment such as the motor
Features
Structure of solid
Stable thrust
Oil return fast
Can be continuous or intermittent drive cars
Kiln Car Towing Machine
Technological Functions
A kiln car towing machine uses the friction between the wire rope and the drum for power transfer, the wire ropes are put in order in the guide slot, to prevent the ropes from entangled together. It brings quick action when cars need to be pulled to the designated positions.
Structure and Principles
The motor powers the reducer, generating great torque to pull the dryer car;
Multi-stage drum prevents the wire ropes from slipping;
Wire rope guide slots are set up on the drum to keep the wires in order, instead of tangled up
Transfer Car for Automatic Tunnel Kiln
Technological Functions
A transfer car for automatic tunnel kiln is a supporting equipment of the tunnel kiln, that travels between the return line and the kiln.
Structure and Principles
Durable unibody chassis structure design, assembled with reinforced beams
Heat-resistant nodular cast iron wheels, heat-resistant and lubricated tapered rolling bearings
Exquisite structure, with designed left-push-and-pull, right-push-and-pull mechanism, enables the transfer of dryer car to the transfer car and the kiln car pusher to the designated route
Fully automatic operation
Features
Positioning accuracy
Run fast
Power mechanism is reliable and stable
Kiln Car Hydraulic Stepper
Technological Functions
A kiln car hydraulic stepper practices precision moving mechanism of the kiln car, which requires to be completed orderly at different stages with hydraulic power, to send one kiln car at a time to the designated position (pre-drying and robot loading-unloading), hence increase productivity.
Structure and Principles
Comprised of oil cylinders, gas tanks, steppers, and overall racks;
Gas-station-type hydraulic mechanism, enabling steady movement
Excellent sealing components
Integrated control, precise delivery of dryers to the designated positions