How to Use 3D Scanner Correctly

The function of the 3d scanner is to transmit the original 3d data of the object to the computer. The.

The function of the 3d scanner is to transmit the original 3d data of the object to the computer. The computer uses these 3d data to transmit to the 3d printer. The 3d printer uses these data to build a 3d model. When we use a 3d scanner to scan objects, we can print a more accurate model for a 3d printer. Before using the 3d scanner to scan, it is necessary to spray the imaging agent on the object under test, so that the scanned data is better. Another point of use is to mark the object under test. This is done to make each scan more complete. Each acquisition should at least identify which marker point is used as the basis for splicing data. The accuracy of the data collected by the 3d scanner depends on the accuracy of spraying the imaging agent on the object and attaching the point to the object under test. So this article teaches you how to be more precise.

is to transmit the original 3d data of the object to the computer. The computer uses these 3d data to transmit to the 3d printer. The 3d printer uses these data to build a 3d model. When we use a 3d scanner to scan objects, we can print a more accurate model for a 3d printer. Before using the 3d scanner to scan, it is necessary to spray the imaging agent on the object under test, so that the scanned data is better. Another point of use is to mark the object under test. This is done to make each scan more complete. Each acquisition should at least identify which marker point is used as the basis for splicing data. The accuracy of the data collected by the 3d scanner depends on the accuracy of spraying the imaging agent on the object and attaching the point to the object under test. So this article teaches you how to be more precise.

Attention should be paid to labeling and labeling points, which directly affects the acquisition data of the object under test, and has a direct impact on the subsequent packaging, modeling and so on. Marking points should be irregularly distributed on the object under test and clearly visible in the camera window. Marking points should not be attached to a straight line, but should be V-shaped distribution. Marking points should stick to the surface of the object as far as possible.

Before placing marker points, it is important to consider whether the marker points should be placed on or around the object, or both. The advantage of marking points on the surface of the object is that the object can move freely, but the disadvantage is that it will slightly affect the 3D data of the surface covered by the marking. Sticking around the object will not affect the data, but during the whole acquisition process, it is necessary to keep the objects attached to the marker points of the scanned object from moving relative to each other. The size of marking points should be chosen appropriately. If the marking points are not selected properly, they will be unable to recognize and cause splicing. When acquiring flat data, in order to ensure the accuracy of acquisition, it is necessary to place marker points around the object surface or some additional tools. These are the instructions for the use of the 3D scanner.

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