Opetussuunnitelmat

Objective

The lifeblood of a modern workshop is to be able to apply engineering automation financially. The design, purchase, maintenance and use of integrated flexible automated manufacturing systems requires the know-how offered during this course.
The students get skills to handle a production automation project. They can take part of development of computer-aided systems (CAD - CAP - CAM - CAQ) or development of FMS-system. The students know basics of re-engineering.

Engineering practise:
The students have the ability to prepare computer aided NC part program for machined work piece starting with technical drawing.

Investigation and information retrieval:
You can work in a workshop environment by designing and manufacturing simple machine parts and programs and using a robot in the service activities of a machine tool. The student has the ability to conduct literature searches and use databases and other sources of information in her/his development work.

Content

Computer aided engineering, robotics, FMS-technology, re-engineering, working with workshop automation.

Materials

Luentomateriaali.

Teaching methods

Luennot, tiedonhaku ja soveltavat oppimistehtävät. Ongelmalähtöisen oppimisen kautta opiskelijoilla on oppimistehtäviä ratkottavana. Opintojaksosta kerätään sen puolivälissä vapaamuotoinen anonyymi palaute.

Student workload

Luennot 40 h, oppimistehtävät 50 h ja itsenäinen työskentely 45 h. Yhteensä 135 h oppimistyötä.

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

The overall assessment consists of 50% of the exam and 50% of the training and laboratory work. To get a numerical grade, you need to take a supervised exam. The exams are arranged three times in accordance with the degree rules.

Adequate (1): You can identifie the most common concepts of course consist and can apply them sufficiently to simple specifying and selection tasks.

Satisfactory (2): You are familiar with the most common concepts of course consist and can satisfactorily apply them to simple specifying and selection tasks.

Assessment criteria, good (3)

Good (3): You master the key issues of the course:
-know the machine workshop's production automation design systems and their integration
- you are familiar with the concepts of FMS technology and re-engineering and their principles
- you are able to program the workshop's production automation equipment to operate in an integrated manner.
- you can create a computer-aided NC program for lathes and machining centers from the technical drawing onwards.

Very good (4): You master the essentials required:
-know the machine workshop's production automation design systems and their integration
- you are familiar with the concepts of FMS technology and re-engineering and their principles
- you are able to program the workshop's production automation equipment to operate in an integrated manner.
- you can create a computer-aided NC program for lathes and machining centers from a technical drawing and you are able to apply them critically in solving the application task.

Assessment criteria, excellent (5)

Excellent (5):
You know the key issues:
-know the machine workshop's production automation design systems and their integration
- you are familiar with the concepts of FMS technology and re-engineering and their principles
- you are able to program the workshop's production automation equipment to operate in an integrated manner.
- you can create a computer-aided NC program for lathes and machining centers from a technical drawing, and are able to apply them critically and innovatively in solving the implementing tasks. You can draw simple synthesis and conclusions.

Assessment criteria, approved/failed

Accepted: You master the key issues of the course:
-know the machine workshop's production automation design systems and their integration
- you are familiar with the concepts of FMS technology and re-engineering and their principles
- you are able to program the workshop's production automation equipment to operate in an integrated manner.
- you can create a computer-aided NC program for lathes and machining centers from the technical drawing onwards.

Qualifications

You have the technical basic abilities with which they can e.g. understand technical documentation and technical publications and they can apply them in their own work. In addition, the students have basic abilities of production technology. The students have basic knowledge of NC machine tools and manual programming NC machine tools.

Objective

The lifeblood of a modern workshop is to be able to apply engineering automation financially. The design, purchase, maintenance and use of integrated flexible automated manufacturing systems requires the know-how offered during this course.
The students get skills to handle a production automation project. They can take part of development of computer-aided systems (CAD - CAP - CAM - CAQ) or development of FMS-system. The students know basics of re-engineering.

Engineering practise:
The students have the ability to prepare computer aided NC part program for machined work piece starting with technical drawing.

Investigation and information retrieval:
You can work in a workshop environment by designing and manufacturing simple machine parts and programs and using a robot in the service activities of a machine tool. The student has the ability to conduct literature searches and use databases and other sources of information in her/his development work.

Content

Computer aided engineering, robotics, FMS-technology, re-engineering, working with workshop automation.

Materials

Luentomateriaali.

Teaching methods

Luennot, tiedonhaku ja soveltavat oppimistehtävät. Ongelmalähtöisen oppimisen kautta opiskelijoilla on oppimistehtäviä ratkottavana. Tehtäviä tehdään pääosin ryhmissä. Opintojaksosta kerätään sen puolivälissä vapaamuotoinen anonyymi palaute.

Student workload

Luennot 20 h, oppimistehtävät 50 h ja itsenäinen työskentely 65 h. Yhteensä 135 h oppimistyötä.

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

The overall assessment consists of 50% of the exam and 50% of the training and laboratory work. To get a numerical grade, you need to take a supervised exam. The exams are arranged three times in accordance with the degree rules.

Adequate (1): You can identifie the most common concepts of course consist and can apply them sufficiently to simple specifying and selection tasks.

Satisfactory (2): You are familiar with the most common concepts of course consist and can satisfactorily apply them to simple specifying and selection tasks.

Assessment criteria, good (3)

Good (3): You master the key issues of the course:
-know the machine workshop's production automation design systems and their integration
- you are familiar with the concepts of FMS technology and re-engineering and their principles
- you are able to program the workshop's production automation equipment to operate in an integrated manner.
- you can create a computer-aided NC program for lathes and machining centers from the technical drawing onwards.

Very good (4): You master the essentials required:
-know the machine workshop's production automation design systems and their integration
- you are familiar with the concepts of FMS technology and re-engineering and their principles
- you are able to program the workshop's production automation equipment to operate in an integrated manner.
- you can create a computer-aided NC program for lathes and machining centers from a technical drawing and you are able to apply them critically in solving the application task.

Assessment criteria, excellent (5)

Excellent (5):
You know the key issues:
-know the machine workshop's production automation design systems and their integration
- you are familiar with the concepts of FMS technology and re-engineering and their principles
- you are able to program the workshop's production automation equipment to operate in an integrated manner.
- you can create a computer-aided NC program for lathes and machining centers from a technical drawing, and are able to apply them critically and innovatively in solving the implementing tasks. You can draw simple synthesis and conclusions.

Assessment criteria, approved/failed

Accepted: You master the key issues of the course:
-know the machine workshop's production automation design systems and their integration
- you are familiar with the concepts of FMS technology and re-engineering and their principles
- you are able to program the workshop's production automation equipment to operate in an integrated manner.
- you can create a computer-aided NC program for lathes and machining centers from the technical drawing onwards.

Qualifications

You have the technical basic abilities with which they can e.g. understand technical documentation and technical publications and they can apply them in their own work. In addition, the students have basic abilities of production technology. The students have basic knowledge of NC machine tools and manual programming NC machine tools.

Objective

The lifeblood of a modern workshop is to be able to apply engineering automation financially. The design, purchase, maintenance and use of integrated flexible automated manufacturing systems requires the know-how offered during this course.
The students get skills to handle a production automation project. They can take part of development of computer-aided systems (CAD - CAP - CAM - CAQ) or development of FMS-system. The students know basics of re-engineering.

Engineering practise:
The students have the ability to prepare computer aided NC part program for machined work piece starting with technical drawing.

Investigation and information retrieval:
You can work in a workshop environment by designing and manufacturing simple machine parts and programs and using a robot in the service activities of a machine tool. The student has the ability to conduct literature searches and use databases and other sources of information in her/his development work.

Content

Computer aided engineering, robotics, FMS-technology, re-engineering, working with workshop automation.

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

The overall assessment consists of 50% of the exam and 50% of the training and laboratory work. To get a numerical grade, you need to take a supervised exam. The exams are arranged three times in accordance with the degree rules.

Adequate (1): You can identifie the most common concepts of course consist and can apply them sufficiently to simple specifying and selection tasks.

Satisfactory (2): You are familiar with the most common concepts of course consist and can satisfactorily apply them to simple specifying and selection tasks.

Assessment criteria, good (3)

Good (3): You master the key issues of the course:
-know the machine workshop's production automation design systems and their integration
- you are familiar with the concepts of FMS technology and re-engineering and their principles
- you are able to program the workshop's production automation equipment to operate in an integrated manner.
- you can create a computer-aided NC program for lathes and machining centers from the technical drawing onwards.

Very good (4): You master the essentials required:
-know the machine workshop's production automation design systems and their integration
- you are familiar with the concepts of FMS technology and re-engineering and their principles
- you are able to program the workshop's production automation equipment to operate in an integrated manner.
- you can create a computer-aided NC program for lathes and machining centers from a technical drawing and you are able to apply them critically in solving the application task.

Assessment criteria, excellent (5)

Excellent (5):
You know the key issues:
-know the machine workshop's production automation design systems and their integration
- you are familiar with the concepts of FMS technology and re-engineering and their principles
- you are able to program the workshop's production automation equipment to operate in an integrated manner.
- you can create a computer-aided NC program for lathes and machining centers from a technical drawing, and are able to apply them critically and innovatively in solving the implementing tasks. You can draw simple synthesis and conclusions.

Assessment criteria, approved/failed

Accepted: You master the key issues of the course:
-know the machine workshop's production automation design systems and their integration
- you are familiar with the concepts of FMS technology and re-engineering and their principles
- you are able to program the workshop's production automation equipment to operate in an integrated manner.
- you can create a computer-aided NC program for lathes and machining centers from the technical drawing onwards.

Qualifications

You have the technical basic abilities with which they can e.g. understand technical documentation and technical publications and they can apply them in their own work. In addition, the students have basic abilities of production technology. The students have basic knowledge of NC machine tools and manual programming NC machine tools.

Objective

The lifeblood of a modern workshop is to be able to apply engineering automation financially. The design, purchase, maintenance and use of integrated flexible automated manufacturing systems requires the know-how offered during this course.
The students get skills to handle a production automation project. They can take part of development of computer-aided systems (CAD - CAP - CAM - CAQ) or development of FMS-system. The students know basics of re-engineering.

Engineering practise:
The students have the ability to prepare computer aided NC part program for machined work piece starting with technical drawing.

Investigation and information retrieval:
You can work in a workshop environment by designing and manufacturing simple machine parts and programs and using a robot in the service activities of a machine tool. The student has the ability to conduct literature searches and use databases and other sources of information in her/his development work.

Content

Computer aided engineering, robotics, FMS-technology, re-engineering, working with workshop automation.

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

The overall assessment consists of 50% of the exam and 50% of the training and laboratory work. To get a numerical grade, you need to take a supervised exam. The exams are arranged three times in accordance with the degree rules.

Adequate (1): You can identifie the most common concepts of course consist and can apply them sufficiently to simple specifying and selection tasks.

Satisfactory (2): You are familiar with the most common concepts of course consist and can satisfactorily apply them to simple specifying and selection tasks.

Assessment criteria, good (3)

Good (3): You master the key issues of the course:
-know the machine workshop's production automation design systems and their integration
- you are familiar with the concepts of FMS technology and re-engineering and their principles
- you are able to program the workshop's production automation equipment to operate in an integrated manner.
- you can create a computer-aided NC program for lathes and machining centers from the technical drawing onwards.

Very good (4): You master the essentials required:
-know the machine workshop's production automation design systems and their integration
- you are familiar with the concepts of FMS technology and re-engineering and their principles
- you are able to program the workshop's production automation equipment to operate in an integrated manner.
- you can create a computer-aided NC program for lathes and machining centers from a technical drawing and you are able to apply them critically in solving the application task.

Assessment criteria, excellent (5)

Excellent (5):
You know the key issues:
-know the machine workshop's production automation design systems and their integration
- you are familiar with the concepts of FMS technology and re-engineering and their principles
- you are able to program the workshop's production automation equipment to operate in an integrated manner.
- you can create a computer-aided NC program for lathes and machining centers from a technical drawing, and are able to apply them critically and innovatively in solving the implementing tasks. You can draw simple synthesis and conclusions.

Assessment criteria, approved/failed

Accepted: You master the key issues of the course:
-know the machine workshop's production automation design systems and their integration
- you are familiar with the concepts of FMS technology and re-engineering and their principles
- you are able to program the workshop's production automation equipment to operate in an integrated manner.
- you can create a computer-aided NC program for lathes and machining centers from the technical drawing onwards.

Qualifications

You have the technical basic abilities with which they can e.g. understand technical documentation and technical publications and they can apply them in their own work. In addition, the students have basic abilities of production technology. The students have basic knowledge of NC machine tools and manual programming NC machine tools.

Objective

The lifeblood of a modern workshop is to be able to apply engineering automation financially. The design, purchase, maintenance and use of integrated flexible automated manufacturing systems requires the know-how offered during this course.
The students get skills to handle a production automation project. They can take part of development of computer-aided systems (CAD - CAP - CAM - CAQ) or development of FMS-system. The students know basics of re-engineering.

Engineering practise:
The students have the ability to prepare computer aided NC part program for machined work piece starting with technical drawing.

Investigation and information retrieval:
You can work in a workshop environment by designing and manufacturing simple machine parts and programs and using a robot in the service activities of a machine tool. The student has the ability to conduct literature searches and use databases and other sources of information in her/his development work.

Content

Computer aided engineering, robotics, FMS-technology, re-engineering, working with workshop automation.

Materials

Luentomateriaali.

Teaching methods

Luennot, tiedonhaku ja soveltavat oppimistehtävät. Ongelmalähtöisen oppimisen kautta opiskelijoilla on oppimistehtäviä ratkottavana. Tehtäviä tehdään pääosin ryhmissä. Opintojaksosta kerätään sen puolivälissä vapaamuotoinen anonyymi palaute.

Exam schedules

Koe ja kaksi uusintaa.

Student workload

Luennot 40 h, oppimistehtävät 50 h ja itsenäinen työskentely 45 h. Yhteensä 135 h oppimistyötä.

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

The overall assessment consists of 50% of the exam and 50% of the training and laboratory work. To get a numerical grade, you need to take a supervised exam. The exams are arranged three times in accordance with the degree rules.

Adequate (1): You can identifie the most common concepts of course consist and can apply them sufficiently to simple specifying and selection tasks.

Satisfactory (2): You are familiar with the most common concepts of course consist and can satisfactorily apply them to simple specifying and selection tasks.

Assessment criteria, good (3)

Good (3): You master the key issues of the course:
-know the machine workshop's production automation design systems and their integration
- you are familiar with the concepts of FMS technology and re-engineering and their principles
- you are able to program the workshop's production automation equipment to operate in an integrated manner.
- you can create a computer-aided NC program for lathes and machining centers from the technical drawing onwards.

Very good (4): You master the essentials required:
-know the machine workshop's production automation design systems and their integration
- you are familiar with the concepts of FMS technology and re-engineering and their principles
- you are able to program the workshop's production automation equipment to operate in an integrated manner.
- you can create a computer-aided NC program for lathes and machining centers from a technical drawing and you are able to apply them critically in solving the application task.

Assessment criteria, excellent (5)

Excellent (5):
You know the key issues:
-know the machine workshop's production automation design systems and their integration
- you are familiar with the concepts of FMS technology and re-engineering and their principles
- you are able to program the workshop's production automation equipment to operate in an integrated manner.
- you can create a computer-aided NC program for lathes and machining centers from a technical drawing, and are able to apply them critically and innovatively in solving the implementing tasks. You can draw simple synthesis and conclusions.

Assessment criteria, approved/failed

Accepted: You master the key issues of the course:
-know the machine workshop's production automation design systems and their integration
- you are familiar with the concepts of FMS technology and re-engineering and their principles
- you are able to program the workshop's production automation equipment to operate in an integrated manner.
- you can create a computer-aided NC program for lathes and machining centers from the technical drawing onwards.

Qualifications

You have the technical basic abilities with which they can e.g. understand technical documentation and technical publications and they can apply them in their own work. In addition, the students have basic abilities of production technology. The students have basic knowledge of NC machine tools and manual programming NC machine tools.