Engineering for cam gears - Your motions realized with our know-how across all sectors
Contact us on time to save yourself unnecessary labour.
We will be pleased to advise you and request such data from you, as are necessary for us.
1. Customer inquiry
- Timely illustration of the movement and loading duties by the customer
- Counselling in case of drive concept
2. Miksch-Engineering
- Design of the drive-concept
- Design of the drive-concept
- Design of structural components
3. Structural components from Miksch
Prototypes ready-for-assembly and serial structural components from our production
Motion design and Cam development as service provision
The modular set-up of our services contains a broad customer-oriented offer Counselling, Design, Calculation and Production.
Select the individual modules or a complete solution from our stock.
Counselling
- Joint search for an optimal drive concept for your machine
- Discussion of constructional peculiarities for cam drives
Design
- Motion design on your working organ
- Selection of the motion functions depending on your requirements
(Harmonious movements, less-oscillating, noise-optimised, ...) - Collision control of several movements
Calculation
- Determination of main dimensions
- Verification of geometric feasibility
- Normal drive and output burden from your masses and forces
- Selection of the roller depending on the required service life
- Documentation of the calculation for your archives
- Coordinates of the roller/cam tracks for your production
- Production-conforming drawing for our production
Optimisation
- Verification and re-calculation of the motion sequences and cam drives
for the performance optimisation of existing systems
Experience
- Since approx. 1970, computer-backed motion design and development of cams
- Motion design and cam solutions in the various sectors
Functions of motion
- Of course, VDI-Guidelines 2143
- In-house developments building up on VDI 2143
- In-house developments for less oscillating motion sequences
- Spline functions
Software
- In-house development by our cam specialists with constant follow-up developments
- Adjustment to new cam standards
- Linked to CAD issuing the cam profiles on CAD standard formats
Challenge our engineers with your motion assignments!
Also test our diverse means of production!
e.g. for:
Linear extraction of a component - followed by 180° rotation - linear placement of the component on the product.
Linear stroke generated via a crank. A roller runs inside the crank triggering a 90° rotation of the internal component.
For a conveyor belt cycled by an index drive a slide is moved over a distance synchronously to the moving belt by means of the synchronously driven disc cam. The parts located on the slide thereby remain longer at the same cycle as the belt, and machining operations can be performed on the cycled parts during the movement.
A continuously running section shall be cut into defined formats. To achieve this, the cutting device must have the same horizontal traversing speed during the cutting process to ensure that no relative movement to the section occurs.
A cam segment is moved back and forth in linear direction. By rolling off stationary fastened rollers, the segment is temporarily offset around its own axis.
Overlaid 2-axis movement driven via a thrust crank drive - used, e.g. in a removal device- product is first removed in linear fashion - is then turned (in this case 90°) moved linear and deposited.
Groove cam to generate synchronisation between two different movements.
A continuously running section shall be cut into defined formats. To achieve this, the cutting device must have the same horizontal traversing speed during the cutting process to ensure that no relative movement to the section occurs.
Lid is taken off the stack, rotated by 180°, placed on cup and welded.
Linear removal from a fixture - swivel and re-insert / deposit.
Revolving work station over several work cycles. Driven by a central drive.