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Presse plieuse 
12 Liste Grille
12Presse plieuse
| Nom du produit | NUMERO D'INVENTAIRE | Fabricant | Année de production | Paramètres | ||
|---|---|---|---|---|---|---|
 |
APH 2606/90 |
241359 | BAYKAL | 2004 | Force de cintrage: 90 t Longueur de pliage: 2600 mm Nombre axes controlés: 2 Compensation de la deformation inferieure: NON Type d´entraînement de la presse: Hydraulický Puissance du moteur principal: 11 kW |
|
 |
ITPS 8025 |
231041 | AMADA | 1989 | Système de contrôle EMA: Force de cintrage: 80 t Longueur de pliage: 2500 mm Nombre axes controlés: 4 Compensation de la deformation inferieure: Type d´entraînement de la presse: Hydraulický |
|
 |
LE 50/2500 |
201325 | Gefi Györ | 1981 | Force de cintrage: 50 t Longueur de pliage: 2500 mm Type d´entraînement de la presse: Hydraulický |
|
 |
CTO 80/2500 |
241179 | Espe | 1997 | Force de cintrage: 80 t Longueur de pliage: 2500 mm Type d´entraînement de la presse: Hydraulický Dimensions hors tout: 2500 x 2385 x 1250 mm Poids totale de la machine: 5 700 kg |
|
 |
CTO 160/3150 |
231156 | Stroje a zariadenia Piesok s.r.o. | 1991 | Force de cintrage: 160 t Longueur de pliage: 3150 mm Type d´entraînement de la presse: Hydraulický Puissance du moteur principal: 11 kW Dimensions hors tout: 4000x1540x2960 mm Poids totale de la machine: 11500 kg |
|
 |
VIMERCATI 100 x3050 |
231772 | Vimercati | 2007 | Système de contrôle Cybelec: Force de cintrage: 100 t Longueur de pliage: 3050 mm Nombre axes controlés: 2 Compensation de la deformation inferieure: NON Type d´entraînement de la presse: Hydraulický |
|
 |
B M 100-3100 |
232004 | Hämmerle | 1997 | Force de cintrage: 100 t Longueur de pliage: 3100 mm Type d´entraînement de la presse: Hydraulický Poids totale de la machine: 11500 kg Puissance du moteur principal: 15 kW Poids d´équipment: 9 500 kg |
|
 |
AP 2100 x 35 |
241351 | ERMAK | 2005 | Force de cintrage: 35 t Longueur de pliage: 2100 mm Nombre axes controlés: 2 Compensation de la deformation inferieure: OUI Type d´entraînement de la presse: Hydraulický Dimensions hors tout: 2400x1400x2200 mm |
|
 |
CTO 80/2500 |
221579 | Stroje a zariadenia Piesok s.r.o. | 1992 | Force de cintrage: 80 t Longueur de pliage: 2500 mm Type d´entraînement de la presse: Hydraulický Dimensions de la table: 2500 x 160 mm Dimensions hors tout: 2500 x 2385 x 1250 mm Poids totale de la machine: 6100 kg |
|
 |
PPS-TS 320/40 |
241347 | LVD | 2015 | Force de cintrage: 320 t Longueur de pliage: 4000 mm Nombre axes controlés: Compensation de la deformation inferieure: Type d´entraînement de la presse: Poids totale de la machine: 21000 kg |
|
 |
CTO 80/3200 |
201925 | Espe | 1986 | Force de cintrage: 80 t Longueur de pliage: 3200 mm Type d´entraînement de la presse: Hydraulický Bras atteint: 250 mm Course maxi du bélier: 150 mm Passage entre les colonnes: 2050 mm |
|
 |
TRUBEND 5085 |
241319 | Trumpf | 2004 | Système de contrôle TASC: Force de cintrage: 85 t Longueur de pliage: 2700 mm Nombre axes controlés: 8 Compensation de la deformation inferieure: OUI Type d´entraînement de la presse: Hydraulický |
|
 |
AP 3100 x 120 |
241350 | ERMAKSAN | 2002 | Force de cintrage: 120 t Longueur de pliage: 3100 mm Nombre axes controlés: 2 Compensation de la deformation inferieure: OUI Type d´entraînement de la presse: Hydraulický Puissance du moteur principal: 11 kW |
|
 |
DEC 320/4000 |
092690 | Digep | Force de cintrage: 320 t Longueur de pliage: 4000 mm |
||
 |
LE 100/3000 |
211319 | Gefi Györ | 1976 | Force de cintrage: 100 t Longueur de pliage: 3000 mm Type d´entraînement de la presse: Hydraulický Puissance du moteur principal: 17 kW Dimensions hors tout: 3000 x 1170 x 2410 mm Poids totale de la machine: 7500 kg |
|
 |
Trumabend V 130 |
231536 | Trumpf | 1999 | Système de contrôle Delem: DA - 69 T Force de cintrage: 130 t Longueur de pliage: 3060 mm Nombre axes controlés: 5 Compensation de la deformation inferieure: OUI Type d´entraînement de la presse: Hydraulický |
Forming machines used for processing (bending) of sheet metal. These machines are currently replaced by bending machines, because they are hydraulically driven and can work with greater pressures and lengths of bent parts.
During this kind of material processing , there is no waste and semi-finished products are used. It is also possible to bend very small workpieces of very small radius.
Different types of punches and dies are used here as tools. These tools can be of different shapes and lengths. To clamp these tools mechanical or hydraulic clamping is used. Laser inspection can be used for maximum tool accuracy. Mechanical systems are used to drive the press, with an electric motor driving a system of pulleys and belts. Or a hydraulic one, which drives the hydraulic unit via an electric motor and the latter moves the ram through the pressure of the cylinders.
The rear stop is very important for a press brake. It ensures the correct positioning of the workpiece in the machine. Semi finished product is pressed against the thumb, which is on the stop and ensures the correct position with respect to the tool. The rear stop is controlled by a CNC system and it moves to precise positions according to the program. Machine can operate in up to 6 axes.
There are following axes:
X - along which the stop moves forward and backward
Z - along which the stop moves to the left or to right
R - along which the stop moves up and down
Another important function of press brakes is cambering. It is a process when the the long parts are bended the resistance of the material to the upper tool, elastic deformation of the part of the ram with the punch occurs. This can be prevented by underlying the matrix in the central part, grooves on the edges of the working table or automatic system.
Press brake control
Today, press brakes are controlled by a computer systems. Based on the entered values (material, tools, length, etc…) calculates the production process, the movement of the stops or the bending force. Afterwards the machine can work in three following modes .
- Manual mode
- Semi-automatic mode
- Automatic mode
Types of press brakes
Press brakes are designed with different types of drivers such as machines with manual control, mechanical or hydraulic driver. Each has its advantages and disadvantages. Furthermore, it is possible to divide press brakes according to their construction into segmental, tandem and combined.
Manufacturers of press brakes
Most popular manufacturers are TRUMPF, DURMA, SAFAN DARLEY, BYSTRONIC, GASPARINI, Haco, Beyeler, Promecam, Hämmerle.
Currently, the most widely used and manufactured are hydraulic press brakes, which are CNC controlled.Top machines are from following manufacturers: Trumpf, Amada, Bystronic. These manufacturers use either their own CNC system for control or universal ones such as Delem, Cybelec, ESA.. These machines achieve a high level of automation of the operating cycles and therefore the maximum use of their capabilities. Of course press brakes from these top manufacturers are very expensive to purchase.
