293-GSH

BERG Hydro-mechanical Self-locking Transfer Rail Couplings

The hydromechanical self-locking gripper rail coupling is designed for automatic coupling of gripper rails on transfer presses. A vertical lift-out stroke is required for changing the tool. The coupling consists of a hard anodized aluminum housing, an axially movable tensioning rod and a hydromechanical self-locking clamping gearing. This configuration allows for high clamping forces and features a very high dynamic rigidity with minimum mass.

PDF Data Sheet: BERG Hydro-mechanical Self-locking Transfer Rail Couplings (293-GSH)

Was this information helpful? Provide feedback or ask a quick question about this item.


Your name:
Your company:
E-mail:

For more information regarding this item (BERG Hydro-mechanical Self-locking Transfer Rail Couplings) or other items, fill out the form below or contact our office directly:

Telephone: 815-962-5600
Fax: 815-962-4600
Location: 304 North Main St, Suite 104, Rockford, IL 61101-1101 USA
Email: infο@ΤΑCRοckfοrd.cοm

Add Comment

Alias

Full name
Position/Title
Company
Telephone
Fax
Email
Mailing Address

Receive a quote or more information on:


Questions or comments:


How did you hear about us?
   Other:


Your preferred method of contact

Related

Transfer Rail Couplings
Transfer Rail Couplings

The mechanical self-locking Berg gripper rail coupling GSM is designed for manual coupling of gripper rails on transfer presses. A vertical lift-out stroke is required for changing the tool.

Manually Operated Eccentric Cam Style Transfer Rail Couplings
Manually Operated Eccentric Cam Style Transfer Rail Couplings

The mechanical self-locking gripper rail coupling is designed for manual coupling of gripper rails on transfer presses. A vertical life-out stroke is required for changing the tool. The coupling consists of a hard anodized aluminum housing, an axially movable tensioning rod and a self-locking eccentric cam gearing. This configuration allows high clamping forces and features a high dynamic rigidity with minimum mass.

Electromechanical Transfer Rail Couplings
Electromechanical Transfer Rail Couplings

The electro-mechanical gripper rail coupling is designed for automatic coupling of gripper rails on transfer presses. A vertical lift-out stroke is required for changing the tool. The coupling consists of a hard anodized aluminum housing, an axially movable tensioning rod and an electromechanical self-locking helical gearing. This configuration achieves a very high repeat precision, high clamping forces, and features dynamic rigidity with low mass.

Manually Operated Swing-out Style Transfer Rail Couplings
Manually Operated Swing-out Style Transfer Rail Couplings

The mechanical self-locking swing-out style gripper rail coupling is designed for manual coupling of gripper rails on transfer presses. A short lift-out stroke is required for changing the tool. An axial stroke is required in the event of additional centering with pins. The coupling consists of a hard anodized aluminum housing, a swiveling tensioning rod and a self-locking eccentric cam gearing. This configuration allows high clamping forces and features a high dynamic rigidity with minimum mass.

Automatic Hydro-mechanical Self-locking C-clamping Systems
Automatic Hydro-mechanical Self-locking C-clamping Systems

The C-clamping hydromechanical self-locking (hydrolock) die clamping system is designed for clamping dies of various widths on press slides. The clamping actuator moves automatically in the T-slot of the press slide between the parking position and the respective die. Clamping and unclamping are performed by a hydromechanical self-locking clamping gear. Hydraulic pressure is at a maximum of 90 bar.

Automatic Hydro-mechanical Self-locking Drawbar Style Clamping Systems
Automatic Hydro-mechanical Self-locking Drawbar Style Clamping Systems

The drawbar style hydromechanical (hydrolock) self-locking die clamping system is designed for clamping dies of various widths on press slides. The clamping actuator moves automatically in the T-slot of the press slide between the parking position and the respective die. Clamping and unclamping are performed by a hydromechanical self-locking clamping gear. Hydraulic pressure is at a maximum 90 bar.

Overview: Clamping Systems with AS-Interface
Overview: Clamping Systems with AS-Interface

The BERG AS-Interface clamping and chucking systems are intended for clamping various tools/dies on press slides and black holders, and for sliding table clamping and gripper rail couplings on multiple die presses. They are used on new machines and for retrofitting automatic clamping systems in existing press lines.

Manual Hydro-mechanical Self-locking C-clamping Systems
Manual Hydro-mechanical Self-locking C-clamping Systems

The hydromechanical self-locking (hydrolock) C-clamping die clamping system is designed for clamping dies of various widths on press slides. The clamping actuator can be moved manually in the T-slot of the press slide between the parking position and the respective die. Hydraulic pressure is at a maximum 90 bar.

Manual Hydro-mechanical Self-locking Drawbar Style Clamping Systems
Manual Hydro-mechanical Self-locking Drawbar Style Clamping Systems

The hydromechanical self-locking (hydrolock) drawbar style die clamping system is designed for clamping dies of various widths on press slides. The clamping actuator can be moved manually in the T-slot of the press slide between the parking position and the respective die. Hydraulic pressure is at a maximum 90 bar.

Page loaded in 0.1034 seconds.