Allicdata Part #: | D-621-0953-ND |
Manufacturer Part#: |
D-621-0953 |
Price: | $ 176.16 |
Product Category: | Uncategorized |
Manufacturer: | TE Connectivity Aerospace, Defense and Marine |
Short Description: | D-621-0953 |
More Detail: | N/A |
DataSheet: | D-621-0953 Datasheet/PDF |
Quantity: | 1000 |
10 +: | $ 160.14600 |
Series: | * |
Part Status: | Active |
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The D-621-0953 is a type of electromechanical dynamic simulation device used widely in the study of mechanical systems, driven mainly by electrical forces. As the name implies, it is a combination of the forces of electrical energy and mechanical processes, meaning the dynamics can be better understood and analyzed. The device is employed to simulate the motion of any mechanical object, its parts as well as its properties.
The device comprises of a series of interconnected parts and tools that include a sledgehammer, a cam, springs, a rotor and a frame. The sledgehammer is used to activate the drive motion, while the cam is used to vary the speed and direction of the sledgehammer stroke. The springs store energy and they provide a smooth transition for the drive motion. The rotor, mounted on the frame, is driven by the sledgehammer. It helps to stabilize the motion, as well as providing feedback to the sledgehammer.
The D-621-0953 can be used to analyze the motion and perform simulations for various applications. Some common applications include studying the dynamics of engines, car suspensions, camshafts and many more. In addition, it is also used to test the performance of different types of parts under varying conditions, and this can help manufacturers to identify potential performance issues.
The working principle behind the device is quite simple. The sledgehammer is operated by an electric motor which causes the rotor to move back and forth. This motion is transmitted to the cam, which then alters the speed of the sledgehammer stroke and the direction of the movement. Through this motion, the sledgehammer imparts energy to the springs, which then transfer the energy to the rotor. The rotor then stabilizes this energy and moves the parts of the device around to simulate the motion of any mechanical object.
The D-621-0953 is a very useful tool for those involved in the research and development of mechanical systems and components. It provides a platform for real-time dynamic analysis and has become a standard in the field. It is therefore no surprise that the device is employed by many industry professionals.
The specific data is subject to PDF, and the above content is for reference
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