New Release: Universal Adjustable Gate Receiver by KSV — Innovation in Hardware
KSV Systems continues to expand its lineup of professional engineering solutions. We are proud to present our new universal adjustable gate receiver featuring heavy-duty rubber rollers with an increased diameter. Our products are not just reliable gate hardware; they are high-class components designed for any sliding and movable structures where smooth operation, noise reduction, and precise leaf fixation are critical.
Photo: KSV Adjustable Receiver — dual-sided mounting for any frame thickness
A Universal Solution for All Sliding Mechanisms
The innovative two-piece design makes this receiver an essential element for non-standard engineering systems:
- Sliding Roofs and Canopies: Easy adaptation to any guide profile thickness.
- Movable Partitions: Creating a soft and silent stopping zone.
- Industrial Movable Systems: Adjustable to any frame width without the need for welding.
Technical Advantages and Focus on Durability
The core of this product lies in its massive rollers, made from wear-resistant industrial rubber with a 46 mm diameter. The increased damping layer allows for full absorption of impact energy. In technical specifications, this model is classified as Universal Gate Receiver 3C Type 2 (Art.1445), making it a premium-grade alternative to Roll Grand type systems.
| Parameter | Application and Benefits |
|---|---|
| 46 mm Rollers | Maximum vibration and noise reduction when closing heavy structures. |
| Split Body Design | Free adjustment for frame thicknesses from 20 mm to infinity. |
| Thick Rubber Layer | Protects paint coatings and prevents metal corrosion. |
| Specification / SEO | Gate Receiver 3C Type 2 Universal (Art.1445) Roll Grand Standard. |
Why Professionals Choose KSV Systems?
The absence of a bottom shelf in this model allows it to be used not only as an upper receiver but also in horizontal sliding systems where standard catchers fail. This provides full creative freedom for architects and installers when designing movable structures.
