Technical drawing reading and CMM with ISO standards

Description

Due to the developing technology in the world, the need to produce products that meet quality and international quality standards has increased. In order to get the share it deserves in this system in our country, the need to meet the need for qualified and educated employees has arisen. We carry out various activities to meet this need and increase our country to the level of well-being, with online and/or on-site special training. With technical drawing tolerance and reading training, you can easily interpret drawing tolerances. CMM operators, machinery, industry and manufacturing engineers, manufacturers and quality control engineers can benefit from this set. By developing yourself as a member of this training set, you can contribute to Turkish engineering education. Turkish people are hardworking and intelligent.

You can have detailed information about technical drawing tolerance and CMM (Coordinate measuring devices) machines with our internationally recognized iso standards training in the developing country industry and global economy. You can learn the language of ISO standards so that you can define your dreams exactly as you want. ISO standards are an international engineering language.

Today, technical drawing and ISO standards have been accepted by the international community as an engineering language. It is very important to describe the products you will manufacture or want to be best described. In this way, you can get the best quality product at the most affordable cost. Otherwise, the costs increase and it cannot serve the product purpose as you wish. In this training set, you will first learn to read, write and interpret the ISO standards language.

You can improve yourself in the field of quality control by improving your technical drawing skills with our CMM and ISO standards training set. CMM measuring machines are nowadays used in machine mould, defence, medical etc. It is used as quality control equipment in many sectors. CMM machines can be measured manually or CNC program with or without cad data. In the reference of these measurements, manufacturing errors can be determined in advance and necessary measures can be taken.

Today, many industrial products are not accepted by the supplier without the CMM report. This report is required as a necessity. As a CMM operator, you can work with suitable conditions in special environments where measurements are made.

The software used in CMM machines is the DMIS software language, there is a construction that moves on the airbags and communication is done through RS232 or Lan cables. Since the communication between the machine and the control unit is very fast, the probe position that appears on the screen when the machine is open changes constantly in the order of one thousand. This situation is very common. First of all, with the help of the software used (This software can be Capps, Arco etc.), the workpiece is verified. It is imagined that the workpiece fixed in any position in the workbench is in space. Accordingly, the actual (real) and nominal (virtual) data are overlapped by verifying by applying the rule 3-2-1. The reference elements used during the verification are very important, and other elements are measured based on the zeroes received according to these reference elements. 3-2-1 validation logic does not change whatever software we use. The 3 points represent the plane. You put your piece on a plane, then 2 points come, 2 points represent the line, which means the line, you fix your workpiece with a plane and a line, but you need one more point so that your piece can be fixed in space, which can be defined as 1 (point). As you can see in 3-2-1 validation logic, there are 6 points. This is the minimum point you need to fix a 3D geometry in space. Of course, it can be more, but not less. We said the plane representing 3 points, geometrically passes a plane from at least 3 points, this is the perfect, error-free plane. We said the line representing 2 points, again, geometrically, a line passes through 2 points, and this line is the perfect line, and finally, we said 1 point, which also represents the perfect point. Now take any piece in your hand and put it on a table or imagine the piece can still move? yes here we have defined a plane with 3 points, but it is still insufficient to fix our part, now take a book and use it with the bound part of this book to contact your part yes yes now we have defined the 2 points, the line, of course, you can think of it as a plane, but it is enough to have a minimum line. Look, your workpiece is on a table and one surface is parallel to your book, but there is still an open end, and your workpiece can still move. Now, finally, you need 1 point. When you give it, you are fixing your workpiece in space and you can combine your real piece with 3d computer data with the alignment command as you want, and if you want, you can use cad-data or do not use it, you can take the desired dimensions by creating geometric shapes on your workpiece.

Best regards.

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