Description du produit
1.15m Wide Italian PTO Driven Flail Mower (EFGC115)
Description du produit
Side-shift Heavy Flail Mower – EFGC
Uses:
The EFGC & EFGCH models are stronger and more powerful for maintaining more rugged landscape areas including heavy grasses, storm debris, sticks, vines and more around farms, properties, parklands and roadsides~ Idea for thick grass, sticks, undergrowth and light vine mulching~ Vegetable & pasture topping~ Roadside maintenance
Feature:
The EFGC & EFGCH Series are heavy duty flail mower that are strong and reliable for heavier work loads~ The low weight and power requirement of the flail mowers make it suitable for use with small to medium sized tractor~ The EFGC & EFGCH range of flail mowers are fitted with a high power 50hp gear box and robust drive line to give hassle free mowing~ Cutting height controlled by adjustable skids~ Height strength mulching blades~ Safety flaps~ Extra strong and designed with safety in mind~ Support leg for storage~ CHINAMFG hitch.
Specifications:
Model: EFGC115
Net Weight: 235KG
Gross Weight: 270KG
Working Width: 1120mm
PTO Turning Speed: 540r/min
Flail Type: Y Blade / Hammer
Number Of Flails: Hammer: 18/ Y Blade: 36
Tractor HP: 18-25hp
Why choose CHINAMFG IMPLEMENT:
Any quality problem you have in 1 year, we promise to help you solve asap.
Every customer to us is unique, best service will give you.
We provide you our machine with good material and promise not to deduct the material.
Every model of our machine will have a testing before the delivery to the port.
If you want to visit our factory, our boss will give you a best reception.
Every year’s Christmas we prepare gifts to our customer.
Every year we attend the agricultural exhibition in Germany or Italy.
Shipment
Workshop
Certificate
| Taper: | Rotary Mowers |
|---|---|
| Moving Way: | Tractor-Mounted |
| Cutter Type: | Rotary Lawn Mower |
| Applicable Area: | 500-1000m² |
| Feature: | 2-Stroke, Steel Chassis, Mulch |
| Certification : | CE |
| Personnalisation : |
Disponible
| Demande personnalisée |
|---|

Main Advantages of Using Miter Gearboxes for Space-Saving Design
Miter gearboxes offer several significant advantages when it comes to space-saving design:
Compact Configuration: Miter gearboxes are designed with bevel gears that transmit motion at a 90-degree angle within a single gearbox housing. This eliminates the need for additional components or complex transmission systems, resulting in a more compact overall design.
Efficient Use of Space: The 90-degree motion change provided by miter gearboxes allows for optimal space utilization in applications where a change in motion direction is required. This efficient use of space is particularly valuable in tight or constrained environments.
Integration into Small Spaces: Miter gearboxes are well-suited for integration into machinery, equipment, and systems with limited available space. Their compact design enables them to fit into confined areas without sacrificing performance.
Reduced Footprint: By eliminating the need for additional components or external motion-changing mechanisms, miter gearboxes help reduce the overall footprint of the system. This can be especially beneficial in applications where space is at a premium.
Enhanced Flexibility: The space-saving design of miter gearboxes allows engineers and designers to create more versatile and adaptable systems. Components can be arranged more efficiently, and the saved space can be allocated for other functional elements.
Modular Assembly: Miter gearboxes can be part of modular designs, where multiple components can be easily integrated and interconnected. This modular approach further contributes to space savings and allows for customization.
Cost Efficiency: The compact nature of miter gearboxes can lead to cost savings in terms of materials, manufacturing, and assembly. The simplified design also reduces the risk of potential failures or maintenance issues associated with more complex systems.
Overall, miter gearboxes offer a space-saving design that is valuable in a wide range of applications, from industrial machinery to robotics, where efficient use of available space is crucial.

Boîtes de vitesses à engrenages coniques dans les applications automobiles, notamment les systèmes de direction
Les réducteurs à engrenages coniques jouent un rôle crucial dans les applications automobiles, notamment dans les systèmes de direction, où ils permettent de modifier la direction du mouvement de 90 degrés. Voici comment fonctionnent les réducteurs à engrenages coniques dans les systèmes de direction automobile :
Mécanisme de direction : Dans les véhicules, la colonne de direction assure le mouvement de rotation, qui doit être transmis aux roues à angle droit pour une direction efficace. Des boîtes de vitesses à renvoi d'angle sont intégrées au système de direction pour réaliser cette transformation.
Changement angulaire : Les réducteurs à engrenages coniques reçoivent le signal de rotation de la colonne de direction et le transmettent par l'intermédiaire d'engrenages coniques disposés à angle droit. Ceci permet de diriger le mouvement vers la tringlerie de direction et, finalement, vers les roues.
Précision et exactitude : Les systèmes de direction automobile exigent un contrôle précis et réactif du mouvement. Les boîtes de vitesses à engrenages coniques assurent une transmission précise du mouvement, permettant aux conducteurs de bénéficier d'une direction fiable et souple.
Conception compacte : Les boîtes de vitesses à onglets présentent une conception compacte et peu encombrante, ce qui les rend adaptées à une installation dans l'espace limité de la colonne de direction d'un véhicule.
Réduction des réactions négatives : Pour garantir la sécurité et la réactivité, les boîtes de vitesses à onglets sont conçues pour minimiser le jeu, ce qui est crucial pour maintenir un contrôle précis de la direction du véhicule.
Durabilité: Les applications automobiles exigent durabilité et fiabilité. Les réducteurs Miter sont conçus pour résister aux conditions et aux charges rencontrées dans les véhicules, garantissant ainsi des performances durables.
Les boîtes de vitesses à onglets contribuent au fonctionnement efficace des systèmes de direction des véhicules, offrant aux conducteurs le contrôle nécessaire pour une conduite sûre et confortable.

Miter Gearbox: Function and Mechanism
A miter gearbox, also known as a bevel gearbox or angle gearbox, is a type of gearbox that transmits power and changes the direction of rotational motion between intersecting shafts positioned at a 90-degree angle to each other. It consists of a set of bevel gears with intersecting axes.
The function of a miter gearbox in mechanical systems is to redirect the rotational motion of input shaft(s) to output shaft(s) at a right angle. This allows for power transmission and torque conversion between two shafts that are not aligned. Miter gearboxes are particularly useful when space constraints or specific mechanical configurations require a change in the direction of motion.
The working principle of a miter gearbox involves the meshing of bevel gears. Bevel gears have conically shaped teeth that enable them to mesh smoothly at a 90-degree angle. When the input shaft rotates, the teeth of the input bevel gear engage with the teeth of the output bevel gear, causing the output shaft to rotate perpendicularly to the input shaft. The gear ratio and number of teeth on the gears determine the speed and torque conversion between the input and output shafts.
Miter gearboxes find applications in various industries, such as automotive, machinery, agriculture, and robotics, where changes in motion direction are required. They are often used in equipment that needs to transmit power around corners or in tight spaces while maintaining the desired torque and speed characteristics.


editor by CX 2023-09-21