JPH0650849A - Device and method for measuring thrust of jet engine - Google Patents

Abstract

PURPOSE:To improve the measuring accuracy of the title device, by disposing a plurality of load cells for measuring the compression force acting between a frame and a jet engine, facing each other before and after the jet direction of the frame. CONSTITUTION:When a jet engine J operates, an oscillating frame 3 receives the displacement force in the reverse direction to the jet direction, and a fixed frame 2 supports the displacement force through load cells 4. Respective load cells 4 measure the component force of the displacement force generated by the thrust due to the jet of the engine J, because compression force reduces in load cells 4 in the side of the jet direction, and compression force increases in load cells 4 in the opposite direction to the jet. The thrust of the engine J is computed by processing the component force measured by respective load cells 4, with a CPU. Therefore, the imbalance of the load in the fixing time is reduced because the engine J is supported from both positions before and after the jet direction by at least four load cells 4.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a thrust measuring device for a jet engine, which measures the thrust of a jet by jetting the jet horizontally in a fixed state, and a measuring method using the same.

[0002]

2. Description of the Related Art Conventionally, as a device for jetting a jet in a horizontal direction to measure the thrust of a jet engine, the jet engine is mounted horizontally via a rocking stand on a horizontally installed fixed member and operated in this state. The thrust force of the jet engine is supported by a load cell attached to either the front side or the rear side of the rocking platform in the jet direction of the jet, and the thrust force is measured.

[0003]

However, in the thrust measuring device for a jet engine as described above, since the load cell is attached only to one side of the jet injection direction, when the jet engine is attached, It is necessary to adjust the zero point of the load cell every time. Further, in the conventional thrust measuring device, during operation of rotating parts such as a turbine incorporated in a jet engine, rotation of these rotating parts affects a load cell, and further,
There has been a problem that the load cell is affected by the thermal expansion of the gantry caused by the operation of the jet engine, which may affect the measurement accuracy.

The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to provide a thrust measuring device of a jet engine and a measuring method using the same, which improves the measuring accuracy of the thrust of the jet engine. Is.

[0005]

According to a first aspect of the present invention, there is provided a fixed mount for supporting thrust of a jet engine, a swing mount for horizontally mounting the jet engine on the fixed mount, and a fixed mount disposed near the fixed mount. A thrust measuring device for a jet engine is characterized in that a plurality of load cells for measuring a compressive force acting between a fixed base and a jet engine are arranged to face each other before and after the fixed base in the jet injection direction. According to a second aspect of the present invention, there is provided a thrust measuring method using the thrust measuring device for a jet engine according to the first aspect, in which only the load cell in the direction opposite to the jet injection is set and the swinging mount is a jet. In the state of being pulled in the same direction as the injection of the jet engine, the jet engine is operated after the load cell in the jet injection direction is set and the pulling force is released to maintain a temporary equilibrium state. A thrust measuring method using a device is used as a means for solving the above problems.
According to a third aspect of the invention, there is provided a thrust measuring method using the thrust measuring device for a jet engine according to the first aspect,
With only the load cell in the same direction as the jet injection set and the rocking platform pulled in the opposite direction to the jet injection, set the load cell in the opposite direction to the jet injection and release the traction force. A thrust measuring method using a thrust measuring device for a jet engine, which is characterized in that the jet engine is operated after maintaining a temporary equilibrium state, is a means for solving the above problems.

[0006]

According to the thrust measuring device of the jet engine of the first aspect, the jet engine is supported by a plurality of load cells arranged to face each other in the front and rear of the jet injection direction. Uneven distribution of the load in the front and rear is reduced. According to the thrust measuring method of the jet engine according to claim 2 or 3,
When the traction force is released and the temporary equilibrium state is maintained, the rocking platform is positioned at the mechanical neutral point between the front and rear load cells. Moreover, since the equilibrium state is maintained under the load of the jet engine, the jet engine is more accurately located at the mechanical neutral point between the load cells.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIGS. In the figure, reference numeral 1 is a jet engine thrust measuring device, 2 is a fixed mount for supporting the thrust of the jet engine, 3 is a swing mount for horizontally mounting the jet engine on the fixed mount 2, and 4 is the fixed mount. Stand 2
Is a load cell for measuring the thrust of the jet engine which is arranged in front of and behind the jet engine in the injection direction, 7 is a leaf spring for suspending and supporting the rocking base 3 from the fixed base 2, and J is a jet engine. As shown in FIGS. 1 and 2, the thrust measuring device 1 includes a fixed base 2 having a rectangular shape in a plan view, and a swing support suspended from both ends in the longitudinal direction of the fixed base 2 by plate springs 7 in parallel with the fixed base 2. It is composed of a movable base 3 and a total of four load cells 4 fixed to both ends in the lower width direction of the fixed base 2.
The fixed base 2 is a board-like structure that is horizontally installed and has sufficient strength to support the thrust of the jet engine J. A space below the fixed base 2 to the floor is sufficient to install the jet engine J. As shown in FIG. 1, the jet engine J includes a support member 8,
It is fixed to a long rocking pedestal 3 via 9, and a bracket 5 fixed to the central part of the rocking gantry 3 is fixed so as to project upward. As shown in FIG.
Is a plate member having a rectangular shape in a plan view, and two plate members are arranged in parallel with each other, and both ends in the length direction are connected by a connecting member 6 provided between the two members to form two plate members. The jet engine J is configured to swing integrally, and supports the jet engine J fixed using a fixing member such as a bolt. Two brackets 5 are arranged facing each other at both ends in the width direction of the central portion of the swing base 3. Each bracket 5 is fixed to a position that receives the tip of each load cell 4 protruding from the fixed base 2 when the swinging base 3 is attached to the fixed base 2 via the leaf spring 7. Each load cell 4 is fixed to both end surfaces in the width direction of the fixed base 2 so as to horizontally project from the surface. Each load cell 4 is connected to various amplifiers and a central processing unit (CPU). The thrust measuring device 1 is configured in such a manner that the swing platform 3 is suspended and supported by the leaf springs 7 by attaching the brackets 5 to the tip end portions of the load cells 4. Then, the thrust measuring device 1
The weight and thrust of the jet engine J are supported by fixing the jet engine J to the swing base 3 in a suspended state from the swing base 3 via the support members 8 and 9 and a mounting member such as a bolt. It has become. The jet engine J to be supported by the thrust measuring device 1 is a thrust measuring device in which the jet injection direction is parallel to the longitudinal direction of the rocking pedestal 3 at a position where the load is not unevenly distributed to the left and right in the center of the fixed pedestal 2. It is designed to be attached to 1.

The thrust measuring method using the jet engine thrust measuring apparatus of this embodiment will be described below. First, the load cell 4 is set only on the side opposite to the jetting direction of the jet of the fixed base 2 and each swinging base 3 is pulled in the same direction as the jetting of the jet with an equal force, and the jet of the fixed base 2 is jetted. Set the load cell 4 on the direction side. When the setting of the load cell 4 is completed, the traction force is released to maintain a temporary equilibrium state, and the jet engine J is arranged opposite to the jet cells in the jet injection direction.
The jet engine J is attached to the rocking base 3 after being positioned at the mechanical neutral point. The jet engine J may be attached to the rocking base 3 before the rocking base 3 is pulled. Alternatively, the load cell 4 in the same direction as that of the jet injection may be set first, and the swing base 3 may be pulled to set the load cell 4 on the opposite side of the jet injection direction. When the position of the jet engine J becomes stable, the jet engine J is operated to start measuring the thrust of the jet engine J.

The operation and effect of this embodiment will be described below. In the thrust measuring device 1, when the jet engine J is operated, the swing platform 3 receives a displacement force in the direction opposite to the jetting direction of the jet, and the fixed platform 2 supports this displacement force via the load cell 4. The compressive force of the load cell 4 located on the jetting direction side of the jet decreases, and the compressive force of the load cell 4 located on the side opposite to the jetting direction increases,
Each load cell 4 measures the component force of the displacement force generated by the thrust force of the jet injection of the jet engine J. Then, the thrust measuring device 1 calculates the thrust of the jet engine J by processing the component force measured by each load cell 4 by the CPU.

Therefore, according to the thrust measuring device 1 for the jet engine J of the present embodiment, the jet engine J is supported by at least four load cells and from both the front and the rear in the jet injection direction. Since the uneven distribution of the load is reduced, the thrust of the jet engine J can be stably and accurately measured by the load cell 4. Further, according to the thrust measuring method using the thrust measuring device 1 of the jet engine J of the present embodiment, the jet engine J is accurately positioned at the mechanical neutral point between the load cells 4 and 4, so that the jet engine J The accuracy of thrust measurement is further improved.

[0011]

As described above, according to the invention described in claim 1, the fixed mount for supporting the thrust of the jet engine, the swing mount for horizontally mounting the jet engine on the fixed mount, and the fixed mount. A thrust measuring device for a jet engine, characterized in that a plurality of load cells arranged in the vicinity of a fixed platform for measuring a compressive force acting between a fixed platform and a jet engine are arranged opposite to each other in the jet injection direction of the fixed platform. At least 4 because it was a solution
Since the jet engine is supported by the load cell of the present invention from both the front and the rear in the jet injection direction and uneven distribution of the load when the jet engine is attached is reduced, the thrust of the jet engine can be stably and accurately measured.

According to the invention described in claim 2 or 3,
In a state where only the load cell in the direction opposite to the jet injection is set and the rocking platform is pulled in the same direction as the jet injection, the load cell in the jet injection direction is set and the traction force is released to temporarily balance the state. After that, the jet engine is operated to measure the thrust using a thrust measuring device of the jet engine, and the rocking platform is set by setting only the load cell in the same direction as the jet injection. In a state where the jet engine is pulled in the direction opposite to the jet injection, the load cell in the direction opposite to the jet injection is set, and the pulling force is released to maintain a temporary equilibrium state, and then the jet engine is operated. A thrust measuring method using a jet engine thrust measuring device is used as a means for solving the above problems, and Make to be positioned in the mechanical neutral point between the load cell, because they further applied the initial compressive force equivalent to the load cell, it is possible to avoid having to the zero point adjustment of the load cell for each type of the jet engine. Further, the accuracy of measurement of the thrust of the jet engine is further improved without being affected by the error due to the effect of thermal expansion of the rocking base due to the operation of the jet engine.

[Brief description of drawings]

FIG. 1 is a front view showing a thrust measuring device for a jet engine according to the present invention.

FIG. 2 is the plan view.

[Explanation of symbols]

 1 Jet Engine Thrust Measuring Device 2 Fixed Stand 3 Swing Mount 4 Load Cell 5 Bracket 6 Connecting Member 7 Leaf Spring 8 Supporting Member 9 Supporting Member J Jet Engine

Claims (3)

[Claims] 1. A fixed mount for supporting the thrust of a jet engine, a swing mount for horizontally mounting the jet engine on the fixed mount, and a compression placed between the fixed mount and acting between the fixed mount and the jet engine. A thrust measuring device for a jet engine, characterized in that a plurality of load cells for measuring force are arranged opposite to each other in the jet injection direction of a fixed base. 2. A thrust force measuring method using the thrust force measuring device for a jet engine according to claim 1, wherein only the load cell in a direction opposite to the jetting direction is set and the rocking platform is used for jetting the jetting state. A thrust measuring device for a jet engine, characterized in that the jet engine is operated after the load cell in the jet injection direction is set in the state of being pulled in the same direction and the pulling force is released to maintain a temporary equilibrium state. How to measure the thrust. 3. A thrust force measuring method using the thrust force measuring device for a jet engine according to claim 1, wherein only the load cell in the same direction as the jetting direction is set and the rocking cradle is set opposite to the jetting direction. In the state of being pulled in the direction of, after setting the load cell in the direction opposite to the jet injection and releasing the pulling force to maintain the temporary equilibrium state,
A method for measuring thrust using a thrust measuring device for a jet engine, which is characterized by operating a jet engine.