Tools
At Ineo we manufacture the necessary tools to optimize the production, assembly and quality control of the pieces.
The aim of the tooling to help production and assembly is to reduce and simplify, on the one hand, the process and manufacturing times and, on the other, the operating costs.
The aim of the tools for quality control is to assist in the verification and validation of the geometry of the pieces.
At Ineo, we combine additive manufacturing with other manufacturing methods to obtain tools. For this we consider parameters such as functionality, geometry, working temperature, cost and all those specifically required by the customer.
This combination of manufacturing methodologies allows us to produce tools in a manufacturing period lower than those obtained with other traditional methods, thus reducing their cost.
Why manufacturing tools?
- To reduce operating costs
- To help automate production
- To facilitate assembly operations
- To perform inspection and quality control operations
- To carry out specific actions in production
- To optimize production processes
We want to be your tools supplier
We work for a wide variety of industrial sectors such as automotive, transport and consumption.
We manufacture tools and production tools for our customers using different additive manufacturing technologies in combination with other manufacturing systems, considerably reducing the time and cost necessary for their manufacture.
We are prepared to meet any expectations in terms of responsiveness, price, delivery time, innovation and quality.
We guarantee the total confidentiality of the projects in which we collaborate.
We help you in the engineering and design of your tools
Technologies for manufacturing of tools
At Ineo we believe that technology and materials should not limit the designer's ability to develop a product. For this reason, we are committed to find the right combination of additive manufacturing materials and technologies in order to manufacture the tools you need.

Stereolithography (SLA)
Additive manufacturing technology, through which pieces of epoxy resin are obtained with excellent reproduction of details and precision, which allow different surface finishes.

Laser Sintering (SLS)
Additive manufacturing technology that allows to obtain functional parts with an excellent mechanical behaviour that can be used for multiple applications.

Fused deposition modeling (FDM)
Additive manufacturing technology, through which parts with a variety of high-performance thermoplastics and approved materials for the aeronautical industry can be manufactured.

Metal 3D printing (SLM)
Additive manufacturing technology, by which highly complex metal parts can be manufactured quickly and which provides almost unlimited design flexibility..

Vacuum Casting
Manufacturing technology that allows the reproduction of parts in polyurethane resin using a silicone mould. Rapid production of prototypes, low volume manufacturing and final parts.

CNC Machining
Manufacturing technology that allows parts to be manufactured by extracting material from a block. Said operations are carried out on Computer Numerical Control (CNC) machines.

Rapid Tooling
Manufacturing technology for the production of series of plastic and metal parts; Prototype Molds allow parts to be manufactured as a preliminary step to large-scale manufacturing.

Metal Pressing
Metal Pressing is a manufacturing technology that makes it possible to obtain metal parts by subjecting the material to a compression load between two moulds, which are steel stamps or dies.