Large load: The market generally has a load of 5 tons, but our factory can reach up to 50 tons;

Reliability: Normal use, safe and trouble free use for 10 years or 100000 times;

Safety: Mechanical self-locking, safe and reliable;

Guarantee: Precision maintenance free, with a professional after-sales team;

Environmental adaptability: can adapt to various harsh environments;

Cost effectiveness: military product quality, civilian product price.

Based on customer needs and market conditions, we have developed a six degree of freedom platform with multiple specifications and models YBT-6-500、YBT-6-1000、YBT-6-2000、YBT-6-5000、YBT-6-10000、YBT-6-20000、YBT-6-50000， The corresponding rated loads are 500kg, 1000kg, 2000kg, 5000kg, 10000kg, 20000kg, and 50000kg. The following are the basic parameters and appearance types of the products corresponding to Fang Yuanming's six degree of freedom platform.

Flight Simulator

Design in strict accordance with the requirements of relevant civil aviation simulator application standards, providing comprehensive training for the crew in subjects such as initial training, conversion training, upgrade training, and regular refresher training.
Simulate various instrument parameters before takeoff and various visual, auditory, dynamic, etc. during takeoff
Simulate various flight states such as pitch, yaw, acceleration, shaking, hovering, etc.
According to the design of real aircraft controls, instruments, sound, etc., simulate various physiological sensations that can be given to pilots.
Including wireless system, communication system, voice system, navigation system, visual system, engine system, fuel system, hydraulic system, control system, etc.
Improving pilots' ability to handle special situations can be applied in fields such as search and rescue, official affairs, and offshore platform operations and flights.
Simulate various special situations, such as takeoff, landing, transition, and transfer.

road simulation

Complete basic driving of armored vehicles, driving on slopes, driving during vehicle shooting, night driving, driving through water obstacles and on water, and driving on special terrains.

Simulate environmental functions such as fire control system, gun control system, gunner observation system, and shooting control of armored vehicles.

Simulate the power unit, transmission unit, control unit, action unit, sighting instrument, dashboard, and human-machine interface related to driving operations of the vehicle.

The simulator has the functions of task assignment, playback, and evaluation analysis.

Capable of simulating driving and combat situations under various weather conditions and at night.

It has night vision and infrared display functions, and is equipped with navigation function.

Capable of expanding information exchange with other simulators or simulated vehicles.

Projectile flight simulation

1、 Main functions

1. Pose simulation, sine wave simulation, single degree of freedom motion, and multi degree of freedom composite motion;

2. It has the function of phase adjustment between various degrees of freedom;

3. Provide ASCII code spectral conversion interface, spectral filtering processing, spectral reproduction and other functions;

4. It has external and internal synchronization interfaces;

5. The functions of reproducing wave spectra, road spectra, and flight spectra.

2、 Equipment usage

1. Simulate the test environment of missile flight, airborne, vehicle mounted, and shipborne;

2. Assess the stiffness and strength of each internal structure of the projectile; And the stability of the sensor; The tracking and capturing characteristics of the system.

The use of thrust vectoring control can generate the overload required for the missile during the initial flight phase, reducing its range, quickly aligning with the target, and achieving high maneuverability. Firstly, establish the coordinate system required for missile flight, analyze the dynamics, kinematics, and other related equations of missile flight, and derive the system of motion equations for missile flight; Secondly, design the missile flight control circuit, use the functions in the GSL function library to solve the missile flight equation system, use a PID controller to correct the attitude angle and flight speed values during the missile flight process, and finally calculate the coordinate values of the missile flight; Thirdly, the feasibility of using thrust vector control technology was demonstrated by printing simulation trajectories in the Qt Create integrated development environment and comparing them with ideal trajectories.

The data processing system calculates trajectory parameter data based on missile flight simulation(Parameter data such as position, attitude angle, etc),Configure the format of the data in these data files, extract or sample the data,Its main function is to provide support for reading data displayed in different ways on the interface,Ultimately, it is used for users to better analyze and study these trajectory parameters. The method of using finite state automata during implementation,To control the transition between multiple states,To ensure the correct execution of the program; By designing the interface between the upper level main interface and the lower level backend data processing, the program can have relative independence,Reduced the coupling between systems.

Navigation simulation

By using motion simulators to simulate the motion state of ships during floating and crossing under various sea conditions, the actual motion state of ships can be realistically reproduced indoors, providing a real, reliable, and economical experimental environment for the development of shipborne and onboard equipment.

By combining physical entities with virtual technology, virtual sea and underwater training can be conducted on land, guiding training at three levels: individual, unit, and military.

Ability to repeatedly train combat abilities in multiple groups based on real combat systems.

The ability to create multidimensional simulations, allowing various military branches to deploy or conduct operational rehearsals in a joint environment.

Convey the true feeling of a ship in distress, with the ground shaking and walls swaying.

Train on how to manipulate bridges, simulate submarines entering and leaving ports, use tugboats to operate, anchor ships to docks, and navigate again.