RU2003117343A - TURBOJET ENGINE TEST STAND - Google Patents

Claims (6)

1. A test bench for a turbojet engine, comprising a dynamometer platform with a test engine mounted with an adapter frame mounted on elastic supports on a support frame fixed to a power foundation, measuring and calibration force transducers, a system for preloading an axial thrust force transducer, a calibration calibration system for calibration force transducer through a system of levers connected to a load electromechanism, characterized in that o for testing engines with directionally controlled thrust vector, the dynamometric platform is made with the possibility of moving along three coordinate axes, in the direction of the measured forces, while between the supporting frame and the dynamometric platform there is a power receiving support mounted on a supporting frame on which three force measuring module for measuring Rx - the horizontal component of the thrust, Ry - the vertical component of the thrust and Rz - the lateral component of the thrust and calibration of the measurement systems, with an insulating platform cinematically connected with silopriemnoy support and through a system of lever type with elastic joints of transducers efforts Rx, Ry, Rz, while they themselves force-measuring modules are provided with preloading system modules and system return the platform to the zero position and control of linear movement along the axis "X". 2. A test bench for a turbojet engine according to claim 1, characterized in that the force measuring module "Rx" contains measuring and calibration force transducers on both sides of the central transverse beam of the platform on its axis of symmetry, facing the working areas in the direction of the force and against it, and hydraulic loaders, opposite them, mounted on a power receiving support, connected by power transmitting rods made with the possibility of adjusting the length, while the dynamometric platform is based on four verticals full elastic supports, providing it with a degree of freedom along the “X” and “Z” axes, supported by two pairs of power-receiving different-arm levers fixed through elastic hinges on the support frame, each pair of levers is interconnected by elastic hinges and with a pair of summing levers vertically " Y "located in the transverse plane and mounted on a support frame. 3. A test bench for a turbojet engine according to claims 1 and 2, characterized in that the force measuring module "Ry" contains measuring and calibration force transducers located respectively: one in the plane of the main transverse beam of the platform mounted on the support frame, the other on the axis the symmetry of the platform on the aft transverse beam of the platform, connected through a hinge to a pair of different-arm levers mounted on a support frame, intersecting in space with two pairs of different-arm levers, is located along the support frame, interconnected by rods and fixed on it, serving as a support for the vertical elastic supports of the dynamometer platform, balancing the system in the "U" plane, the calibration transducer is connected by a rod with a hydraulic load during calibration. 4. A test bench for a turbojet engine according to claims 1 to 3, characterized in that the load-sensing module "Rz" contains measuring and calibration force transducers located in the plane of the platform: one, from the inside on the main longitudinal beam of the dynamometer platform, in contact with the power-transmitting rod with a hydraulic loader mounted on a power receiving support, and the other, respectively, mounted on a power receiving support and kinematically connected through a pair of different levers mounted on a power receiving support, through power transmitting rods with a platform and with an adjustable emphasis fixed on the platform and connected by a rod with a hydraulic loader. 5. A test bench for a turbojet engine according to claims 1 to 4, characterized in that the preloading system for load cells interacting with a dynamometer platform and primary electric force transducers contains for Rx a pair of different levers with loads located symmetrically on both sides of the longitudinal axis of the platform, mounted on a power receiving support and connected by rods to the main transverse beam of the platform, for "Ry" - a different-arm beam with loads located in the frontal plane, replicated on the power reception strut of the support frame and connected by a rod with a pair of summing levers and then kinematically to the platform, for "Rz" - a different arm with loads located in the transverse plane, mounted on the power reception strut of the support and connected by a rod to the platform. 6. The stand for testing a turbojet engine according to claim 1, characterized in that the system for returning the platform to the zero position and controlling linear displacements along the "X" axis is made in the form of a directional control valve housing, which are mounted on the axis of the platform and kinematically connected to each other, fixedly mounted on the Central support frame, housing and spool valve, connected by a rod with a bracket mounted on the Central transverse beam of the platform, and hydraulically piped with a hydraulic loader and hydraulic system, a movable linear transducer element connected to a secondary device is connected to the bracket by means of a traction, according to the testimony of which the displacement of the platform and the spool associated with it is controlled, while the valve of the valve during installation and adjustment is set so that its zero position corresponds to a strictly vertical the position of the four elastic supports of the dynamometer platform, in this position between the force transducer "Rx" and the power transmitting pants s set clearances, equal to twice the maximum displacement of the platform, and fixes the focus bracket mounted on silopriemnoy support, and the main cross beam platform.