Nom du produit | NUMERO D'INVENTAIRE | Fabricant | Année de production | Paramètres | ||
---|---|---|---|---|---|---|
WFQ 80 NCA |
091466 | TOS Varnsdorf | 1988 | Diametre de travaille de broche: 80 mm Course X: 1600 mm Course Y: 1000 mm Course Z: - mm Extension du curseur (W): 950 mm Vitesse de broche: 14 - 2240 /min. |
||
BFP 125/III |
141498 | UNION | 1980 | Diametre de travaille de broche: 125 mm Course X: 2500 mm Déplacement de la broche sur le support (Y): 1600 mm Extension du curseur (W): 1120 mm Cone de la broche: MK7 . Puissance du moteur principal: 17 kW |
||
WH 10 CNC |
171452 | TOS Varnsdorf | Système de contrôle Heidenhain: TNC 530 Diametre de travaille de broche: 100 mm Course X: 1250 mm Course Y: 1100 mm Vitesse de broche: 10 - 1200 /min. Refroidissement par axe: NON |
|||
40T |
182013 | Lucas | 2018 | Système de contrôle Fanuc: 0i-MF Diametre de travaille de broche: 130 mm Course X: 3657 mm Course Y: 3048 mm Vitesse de broche: 10 - 3000 /min. Refroidissement par axe: OUI |
||
W 100 A |
191457 | TOS Varnsdorf | Diametre de travaille de broche: 100 mm Course X: 1600 mm Course Y: 1120 mm Vitesse de broche: 7 - 1120 /min. Refroidissement par axe: NON Extension du curseur (W): 900 mm |
|||
WHN 13 P CNC |
191459 | TOS Varnsdorf | 2024 | Système de contrôle Heidenhain: TNC 640 Diametre de travaille de broche: 130 mm Course X: 3500 mm Course Y: 2000 mm Vitesse de broche: 10 - 3000 /min. Refroidissement par axe: OUI |
||
WHN 9 B CNC |
192075 | TOS Varnsdorf | 1982 | Système de contrôle Mefi: CNC 859 Diametre de travaille de broche: 90 mm Course X: 1250 mm Course Y: 900 mm Vitesse de broche: 10 - 1100 /min. Refroidissement par axe: NON |
||
BFK 160 |
201580 | UNION | 1980 | Diametre de travaille de broche: 160 mm Course X: 3000 mm Course Y: 2700 mm Vitesse de broche: - /min. Refroidissement par axe: Extension du curseur (W): 300 mm |
||
BSF 34/23A NC |
201654 | SHIBAURA | 1979 | Système de contrôle Siemens: Sinumerik 840D Sl Diametre de travaille de broche: 230 mm Course X: 13000 mm Course Y: 5000 mm Vitesse de broche: 0 - 420 /min. Extension du curseur (W): 1500 mm |
||
PC W 200 HA |
211378 | ŠKODA MACHINE TOOL a.s. | 1987 | Diametre de travaille de broche: 200 mm Course X: 5000 mm Course Y: 4000 mm Vitesse de broche: 0 - 630 /min. Extension du curseur (W): 2 000 mm Refroidissement par axe: NON |
||
AFP 180 |
211583 | Titan | 1980 | Diametre de travaille de broche: 180 mm Course X: mm Déplacement de travaille X: 10000 mm/min Déplacement de travaille Y: 3800 mm/min Déplacement de travaille Z: 1900 mm/min Axe W: 1150 mm |
||
W 160 G/NCS |
221023 | ŠKODA MACHINE TOOL a.s. | 1978 | Système de contrôle Mefi: Diametre de travaille de broche: 160 mm Course X: 6000 mm Course Y: 2500 mm Vitesse de broche: 2 - 800 /min. Extension du curseur (W): mm |
||
WH 10 NC |
221109 | TOS Varnsdorf | 1985 | Système de contrôle NCT: 90 Diametre de travaille de broche: 100 mm Course X: 1250 mm Course Y: 900 mm Vitesse de broche: 16 - 1250 /min. Refroidissement par axe: NON |
||
AFP 180 |
221138 | Titan | 2009 | Système de contrôle Fanuc: Fanuc 32i Diametre de travaille de broche: 180 mm Course X: 9130 mm Course Y: 3980 mm Déplacement de travaille Z: 1900 mm/min Axe W: 1200 mm |
||
WH 10 NC |
221269 | TOS Varnsdorf | Diametre de travaille de broche: 100 mm Course X: 1250 mm Course Y: 900 mm Vitesse de broche: 16 - 1250 /min. Refroidissement par axe: NON Extension du curseur (W): 630 mm |
|||
Microcut HBM-4 |
221640 | Buffalo Machinery | 2017 | Système de contrôle Fanuc: 31i - B Diametre de travaille de broche: 110 mm Course X: 2200 mm Course Y: 1600 mm Vitesse de broche: 35 - 3000 /min. Refroidissement par axe: OUI |
||
WHN 13.8 CNC |
221691 | TOS Varnsdorf | 1998 | Système de contrôle Heidenhain: TNC 426 Diametre de travaille de broche: 130 mm Course X: 3500 mm Course Y: 2000 mm Vitesse de broche: 5 - 2500 /min. Refroidissement par axe: NON |
||
WH 10 NC |
221791 | TOS Varnsdorf | 1987 | Système de contrôle Heidenhain: TNC 124 Diametre de travaille de broche: 100 mm Course X: 1250 mm Course Y: 900 mm Vitesse de broche: 16 - 1250 /min. Refroidissement par axe: NON |
||
CUTMAX 2 |
231026 | Wotan | Système de contrôle Heidenhain: TNC 426 Diametre de travaille de broche: 120 mm Course X: 1800 mm Course Y: 1700 mm Vitesse de broche: 20 - 3000 /min. Refroidissement par axe: OUI |
|||
WI 130 CNC |
231050 | ŠKODA MACHINE TOOL a.s. | Système de contrôle Heidenhain: TNC 426 Diametre de travaille de broche: 130 mm Course X: 1900 mm Course Y: 1980 mm Vitesse de broche: 2 - 900 /min. Extension du curseur (W): 1590 mm |
|||
WD 160 |
231088 | ŠKODA MACHINE TOOL a.s. | Diametre de travaille de broche: 160 mm Course X: 3150 mm Course Y: 2500 mm Vitesse de broche: 1 - 1600 /min. Extension du curseur (W): 1250 mm Refroidissement par axe: NON |
|||
WD 160 |
231089 | ŠKODA MACHINE TOOL a.s. | 1964 | Diametre de travaille de broche: 160 mm Course X: 6000 mm Course Y: 2500 mm Vitesse de broche: 1 - 1600 /min. Extension du curseur (W): 1250 mm Refroidissement par axe: NON |
||
2622B |
231110 | Stanko Russia | 1975 | Diametre de travaille de broche: 110 mm Course X: 1000 mm Course Y: 1000 mm Vitesse de broche: 12 - 1250 /min. Refroidissement par axe: NON Extension du curseur (W): 710 mm |
||
WHN 9 B |
231135 | TOS Varnsdorf | 1981 | Diametre de travaille de broche: 90 mm Course X: 1250 mm Course Y: 900 mm Vitesse de broche: 0 - 1120 /min. Refroidissement par axe: NON Extension du curseur (W): 680 mm |
||
BFT 110/5 |
231231 | UNION | Course X: 1985 mm Course Y: 1270 mm Course Z: 1270 mm Poids totale de la machine: 25400 kg Dimensions de la table: 1400 x 1600 mm Diametre de travaille de broche: 110 mm |
Horizontal boring machines are universal machines used for machining of complex products. These borers are mainly used for small batch production. For one workpiece clamping, the operation can be performed from up to five sides, either simultaneously or sequentially. A large number of standard and special accessories are available for horizontal boring machines. This makes boring machines suitable not only for boring, but also for drilling, turning, milling and other operations.
Horizontal boring machines can be divided into several types, such as: table, cross, plate, coordinate. Can be divided also according to the type of control - conventional (without system), or CNC controlled.
Table boring machines are equipped with a movable table that moves in one or two axes. Depending on this, boring machines are further divided into cross-construction or T-construction. The table is usually rotary (B axis), which allows four sides of the workpiece to be machined in one clamp. However, if the machine is equipped with an angle head (A and C axes) and the workpiece does not exceed the dimensions of the machine, five sides can be machined in one clamp. The boring milling machines differ from the table milling machines in particular by the extendable spindle (W axis). Higher series often also have a movable headstock (V axis).
These kinds of boring machines are suitable and used for machining of the largest workpieces. Headstock is moving along the vertical guide of the column and column itself is moving along the bed perpendicular to the axis of the spindle. The workpiece is clamped immovably on a cast-iron floor plate equipped with T-slots. If this floor type boring machine is equipped with a rotary table which is movable in the direction of the spindle axis, the number of controlled axes increases. Such boring machines mainly have a boring spindle diameter of 130-315 mm.
So-called coordinate boring machines are used for machining precise holes. Its design is affected by the requirements for very high accuracy of all movements, good dynamics and the best possible temperature stability. There are two types of these machines. One-column borer with horizontal or vertical spindle axis (this is for smaller sizes of workpieces that are clamped on a cross table) and two column borer with one or more vertical spindles. Workpiece is clamped on a longitudinal table, which is in between two columns along which the crosspiece carrying the work headstock moves. An optical system is usually used for measuring. More modern machines are then equipped with a CNC control system.
All types of horizontal boring machines are conventional or CNC controlled. Among the most popular producers of CNC systems are Heidenhain, Siemens, Fanuc, Fagor.
Horizontal boring machines can be also equipped with automatic tool change which is primarily used for storage of tool holders, its manipulation and positioning without participation of human factor.
Among the main and most popular manufacturers of boring mills we have to mention: FERMAT, TOS, ŠKODA, PAMA, UNION, JUARISTI, SCHARMANN, KURAKI, WOTAN.