Figure 4

 

 

 

 

 

Approx.

Approx.

Approx. 6"

Approx. 6"

 

3"

3"

2"

 

2"

1"

1"

 

 

 

 

 

For 24" x 36" Tabletop

 

For 30" x 42" Tabletop

 

 

1"

1"

 

3½"

3½"

1"

1"

 

6½"

6½"

 

To Attach Pencil Ledge

H

 

The pencil ledge (

) prevents

materials from sliding off a tilted

surface. Slotted connection

 

allows for easy adjustment from

flush to elevated position. Use an

awl or a ⁄16" drill to start holes and

1

J

attach using two screws (

) into

front edge of tabletop.

 

Flush Position

Elevated Position

 

8"

7

21

 

H

J

To Fold Table Flat

1Loosen lower screws in front height adjustment collars (E) and spin collars until adjustment knobs face inward.

2Lift front edge of tabletop slightly to remove front extension tubes from front guide tracks and swing legs inward. Left leg should be folded first.

3When both front legs are folded into position, allow tabletop to drop downward.

Hint

Tighten the two hinge bolts

that connect the front legs to

 

 

the back of the base frame to

 

maximize the strength and

 

stability of the table.

©2007

ALVIN & COMPANY, INC. • P.O. Box 188, Windsor, CT 06095-0722

www.alvinco.com

Phone:

860-243-8991Toll-Free: 800-444-2584 • Fax: 860-242-8037Toll-Free Fax: 800-777-2896

LIT-A7143 6/07

Page 2
Image 2
Alvin Onyx dimensions For 30 x 42 Tabletop, To Fold Table Flat

Onyx specifications

Alvin Onyx is an advanced autonomous underwater vehicle (AUV) designed for deep-sea exploration and research. Developed to meet the growing demands of marine science, this cutting-edge vehicle integrates a variety of innovative technologies and features that make it a cornerstone of modern oceanographic studies.

One of the main characteristics of Alvin Onyx is its robust, hydrodynamic design, which allows it to navigate efficiently through challenging underwater environments. With a streamlined structure, the AUV can reach depths of up to 6,000 meters, enabling researchers to explore some of the most remote and least understood areas of the ocean.

The vehicle is equipped with state-of-the-art sensors and imaging technologies, including multi-beam sonar and high-resolution cameras, which provide detailed mapping of the ocean floor and the surrounding ecosystem. This capability is crucial for researchers studying marine habitats, biodiversity, and geological features. The sensors also allow for real-time data collection and analysis, facilitating immediate decision-making during research expeditions.

Alvin Onyx incorporates advanced communication systems, enabling seamless data transfer between the AUV and research vessels. This connectivity allows scientists to monitor the AUV's activities in real-time and to make adjustments to the mission as needed. Additionally, the AUV can operate on pre-programmed missions, using sophisticated algorithms to navigate autonomously while avoiding obstacles.

Powering the Alvin Onyx is a hybrid energy system that combines rechargeable batteries with solar panels, extending its operational range and reducing the need for frequent returns to base. This sustainability feature is essential for long-duration missions, promoting a lower environmental impact during explorations.

Another notable aspect of Alvin Onyx is its modular design, which allows for the integration of various scientific instruments depending on the mission requirements. This flexibility ensures that the AUV can be adapted for different research objectives, whether for marine biology studies, geological surveys, or oceanographic data collection.

In summary, Alvin Onyx represents a significant advancement in underwater exploration technology. Its combination of depth-capable design, sophisticated sensor systems, advanced communication tools, and modular flexibility makes it an invaluable asset for researchers dedicated to understanding and protecting our oceans. As the demand for marine research continues to grow, AUVs like Alvin Onyx will play an increasingly vital role in uncovering the mysteries of the deep sea.