CUP FEEDER Ø100mm H840mm WITH OUTPUT ON THE RIGHT VIEWED FROM THE BACK.
BROVIND CFV CONTROLLER.
Technical Data Sheet: Cup Feeder Ø100mm H840mm with Brovind CFV Controller
1. General Description
The cup feeder is a feeding device used to orient and dispense small components or work pieces in an automated manufacturing process. The right exit version (viewed from behind) is designed to suit specific assembly line configurations.
2. Technical Specifications
- Cup diameter: Ø100 mm
- Cup height: 840 mm
- Exit: Right (view from behind)
3. Materials and Construction
- Cup:
- Material: Typically durable plastic (polycarbonate, nylon) or metal (stainless steel for applications requiring greater strength and durability).
- Finish: Smooth surface to facilitate the movement of the pieces.
- Support Structure:
- Material: Painted carbon steel or stainless steel.
- Finish: Powder coating or anti-corrosion coating.
- Vibrating Components:
- Vibration Motor: Electromagnets or vibration motors that generate the vibrations necessary to orient the pieces.
4. Mechanical Characteristics
- Vibration System: Generated by electric motors or adjustable electromagnets, it allows you to adapt the intensity and frequency of vibrations based on the size and type of pieces.
- Orientation and Channeling: Guiding mechanisms within the bowl to ensure pieces are oriented correctly and directed towards the desired exit.
- Height and Configuration: Height of 840 mm to adapt to standard height assembly lines, with exit on the right to facilitate positioning in a specific working configuration.
5. Controller CFV Brovind
Brovind's CFV controller is an advanced control device used to manage bucket feeder functions, including vibration parameters and part flow.
- CFV Controller Functions:
- Vibration Frequency Adjustment: Allows you to set the vibration frequency based on process needs.
- Feed Speed Control: Adjusts the speed at which parts are fed through the system.
- Programming: Provides programming options to optimize operations and adapt operation to part specifications.
6. Mathematical Formulas Used
- Vibration Frequency (f): f=1Tf = \frac{1}{T} f = T 1
- Where TT T is the vibration period.
- Vibration Amplitude (A): A=Fm×ω2A = \frac{F}{m \times \omega^2} A = m × ω 2 F
- Where FF F is the applied force, mm m is the mass of the piece, and ω\omega ω is the angular frequency.
- Power Consume (P): P=V×IP = V \times I P = V × I
- Where VV V is the voltage and II I is the current consumed by the vibrating motor.
7. Sectors of Use
- Manufacturing Industry: For the transport and orientation of small parts in assembly lines.
- Electronics Industry: Used to handle electronic components such as resistors, capacitors and chips.
- Food Industry: Used for handling components of packaging machines and for feeding ingredients.
8. Advantages of Buying Used
- Lower Cost: Used cup feeders are generally less expensive than new ones.
- Immediate Availability: Often available immediately, reducing waiting times for production.
- Sustainability: Purchasing used equipment contributes to more sustainable management of resources and a reduction in waste.
Additional Considerations
- Condition: It is essential to check the general condition of the used device, including the condition of the bowl, vibration motor and controller.
- Maintenance: Check whether the device has been well maintained and whether all components are working properly.
- Warranty: Check if the seller offers warranties or after-sales support for the used device.
Conclusion
A bowl feeder with a diameter of Ø100 mm and a height of 840 mm, equipped with a Brovind CFV controller, represents an effective solution for component management and orientation in various industrial applications. Buying it used can offer significant economic advantages, provided that the necessary checks are made on its functionality and condition.
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