Silent air compressor is an airsource for the automatichorizontal leveling typevibration isolation systems.
Active Vibration Isolator System - TS series isolate low frequency which can not be cleared off completely by air-damping vibration isolator.
The highest-performance vibration isolators, offering superior vibration absorption both vertically and laterally.
Standard larger vibration isolators to absorb vertical vibrations based on the "precision air spring" method.
Compact tabletop vibration isolators, ideal for smaller optical systems and microscope observation systems.
In addition to standard products, custom-tailored vibration isolators having varying size, shape, and accuracy are also available.
Lab benches having vibroisolating rubbers between the bench and the base to provide a simplified capability of vibration isolation.
Aluminum-made and honeycomb-cored optical lab benches that are lightweight and feature a high degree of stiffness.
Slim and lightweight optical lab benches effective for conducting simplified experiments.
Simplified vibroisolating rubbers designed to be placed at the four corners of an optical lab bench or other equipment vulnerable to vibrations.
Bases specially designed for optical lab benches.
An optical lab bench can be fabricated in a custom size, shape, accuracy, and other non-standard specifications to suit the customer's unique needs.
Simply structured darkroom units made up of an assembled framework covered with a blackout curtain.
Fluorescent light using one lamp (20 W).
Ventilation fans specially engineered to keep out external light; available in two types: the exhaust type (DRU-VF) and the suction type (DRU-IF).
Features a fluorescent dial, making this clock convenient for reading or setting the time in the darkroom.
Attached to a surface table or the like to provide darkroom conditions in part of an optical system.
Levels convenient for measuring the horizontal level, such as when a vibration isolator is installed.
Aluminum plate with anodized surface Space-saver on vibration isolator or optical lab bench when configuring small optical units mounted by M4/M6 screws
Using radial fins allows for optical-system units to be linearly laid out and configured on four surfaces.
Directly secured to a test bench or the like due to its slim design, allowing optical-system units to be linearly laid out and configured with a low optical axis.
Using fins with an X-shaped cross section allows optical-system units to be linearly laid out and configured on four surfaces so that they are compact.
Directly secured to a test bench or the like due to its small and slim design, allowing optical-system units to be linearly laid out and configured with a low optical axis.
Attached to a large aluminum optical bench to be slid and secured at an arbitrary position.
Attached to a small aluminum optical bench to be slid and secured at an arbitrary position.
A magnet base can be secured on top of a carrier for largeor Medium optical Rails, when attached on top of such acarrier.
Attached to a large aluminum optical bench for horizontal adjustment of the bench.
Attached under an aluminum optical bench for horizontal adjustment of the bench.
Enables an optical system oriented in any three-dimensional configuration by connecting aCompact aluminum rail via the tapped holes on the six sides of the adapter.
Can be magnetically secured on top of an optical vibration isolator or the like.
Designed to be secured on top of a vibration isolator or the like with M6 bolts used to lay out and secure optical units.
Can secure a system or equipment with a plate-shaped protrusion on its bottom surface.
Made up of two plates, one upper and one lower, designed to secure equipment to its upper plate and are used for changing and re-creating optical path condition.
Plates with M4 tapped holes arranged in a matrix form. Directly secured on top of a vibration isolator using M6 bolts.
Spacers used to adjust the height of a unit or the like in the configuration of an optical system.
□40mm adapter for adjusting the height of optical axis.
□60mm adapter for adjusting the height of optical axis.
Used for height adjustment of an optical-system unit or the like mounted on a vibration isolator.
Auxiliary parts allowing highly flexible layout on a rod stand.
Spacers designed to secure a small optical-system unit or the like on top of a rod stand.
Parts designed for fine height adjustment not possible with the rod stands.
ave a holding section that can be flexibly moved for securing at an arbitrary position.
Capable of keeping a stability comparing with our conventional products by modifying the shape of hole from 1line and 1point to 2 lines and 1point.
Used to secure a post-equipped holder and for coarse height adjustment.
Designed for coarse height adjustment of a post-equipped holder using its height adjustment mechanism.
Stands capable of firmly securing a post-equipped holder using a collet chuck.
Used for coarse height adjustment of a post stand.
Takes advantage of the Z axis stage capability to allow coarse adjustment of a post stand.
Have a moving section that slides on a pillar, allowing coarse height adjustment.
Stainless steel pillars used in holders.
Stainless steel pillars available in sizes from 12 to 20 mm in diameter.
Allow speedy height adjustment of a post-equipped holder using its rack-and-pinion mechanism.
Used to connect poles or posts at right angles.
Used to connect poles or posts at an arbitrary angle.