Kenyon 436, 213 manual Location & COUNTER-TOP Preparation, Installation, Electrical Connection

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LOCATION & COUNTER-TOP PREPARATION

The stove must be located in an area with adequate ventilation for occupants’ safety and efficient stove operation. It should be installed with adequate clearances between the stove top and all surrounding surfaces (i.e. curtains, cabinets, etc) in order to minimize heat transfer to these surfaces. Also fire resistant materials should be attached to any surrounding surfaces, especially overhead.

Once a location for the stove has been chosen, it is important to check clearances underneath the counter for the bottom portion of the stove and its moving parts. The stove extends about 6 inches (152

mm)below the countertop. If drawers or cabinets are located under the stove, a rigid barrier must be installed to prevent combustible items, (i.e. rags, paper, etc.) from coming in contact with the hot stove. The barrier must be ventilated.

Adequate ventilation of the space below the stove must be provided to ensure proper operation of the stove. Heat transferred from the cook top bottom pan during operation will overheat an improperly ventilated area.

FAILURE TO PROVIDE PROPER CLEARANCES AND VENTILATION MAY RESULT IN A FIRE HAZARD.

General dimensions for each model stove are shown below:

 

213 Model

436 Model

12 3/4"

12 3/4"

13 1/2"

22 1/2"

5 3/4"

3" Radius

5 3/4"

 

 

 

12 1/4"

12 1/4"

21 3/4"

12 3/4"

Note: A 3" radius is required

INSTALLATION

Once the cutout has been prepared as shown on page 3, pre-fit the stove into the cutout to mark drill locations. Tilt and insert the front portion of the stove first. Care should be exercised so as not to damage or bend any moving parts. Next, lower the stove into the cut out. Using a pencil mark the location of mounting holes onto the counter. Carefully remove the stove from the cutout. Using a 1/8" drill and the pencil marks as a guide, drill four (4) mounting holes. Replace the stove into the counter. Mount the stove in place by using (4) #8 x 5/8" oval head stainless steel wood screws(not supplied).

Electrical Connection

It is recommended that the supply conductors be protected with a double pole simultaneous trip circuit breaker per the specifications for the various models and voltages as shown in the Electrical Requirements Table on page 3. Use SO rubber-insulated cable to connect the boat shore power electrical circuit to the terminal board in back of the stove.

NOTE: Only qualified installers should connect this appliance to the electrical service.

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Contents KENYON KENYONUnpacking Your KENYON Stove Verify the Proper Electrical RequirementsMounting the Alcohol Cooktop KENYONLocation & COUNTER-TOP Preparation InstallationElectrical Connection User Instruction Never use your appliance for warming or heating the roomDo Not Throw Away These Instructions Alcohol Burner Operating Instructions TheoryOperating Components Alcohol Burner Fueling InstructionsAlcohol Burner Operating Instructions Electrical OperationOperation of Electric Elements Closing the Glass LID LID-STAYStove Replacement Parts Description Used onWarranty

213, 436 specifications

Kenyon 213,436 is an advanced research vehicle designed for the exploration of Mars' surface and atmosphere. Built by a team of innovative engineers and scientists, this rover embodies cutting-edge technologies and features that enhance its operational capabilities in one of the most challenging environments in our solar system.

One of the main features of Kenyon 213,436 is its robust mobility system. Equipped with multi-terrain wheels and an advanced suspension system, the rover can navigate rocky landscapes, steep slopes, and sandy dunes with ease. This flexibility allows it to reach various scientifically significant locations, maximizing the scope of its exploratory missions.

The rover is powered by a solar energy system combined with highly efficient batteries. This hybrid power source enables Kenyon 213,436 to harness sunlight during the Martian day while storing energy for use during the long, cold nights, ensuring continuous operation regardless of environmental conditions.

Kenyon 213,436 is outfitted with an array of scientific instruments designed for in-situ analysis of Martian soil and rock samples. Its onboard laboratory includes spectrometers, chemical analyzers, and a drilling mechanism. These tools enable the rover to collect and process samples, providing valuable data about Mars’ geology and potential for past life.

In terms of communication, Kenyon 213,436 features a high-gain antenna capable of transmitting data back to Earth with remarkable clarity. This communication system allows for real-time data exchange, enabling scientists to monitor the rover's findings and adjust its mission parameters dynamically.

The rover is also endowed with artificial intelligence capabilities, allowing it to operate autonomously. This AI system enables Kenyon 213,436 to make real-time decisions based on environmental conditions and mission objectives, enhancing its effectiveness in the field. It can also identify points of interest and prioritize tasks, reducing reliance on ground control and optimizing scientific returns.

In conclusion, Kenyon 213,436 stands as a pinnacle of modern engineering and planetary science. Its advanced mobility, power systems, scientific instruments, communication technologies, and autonomous capabilities equip it to contribute significantly to our understanding of Mars. Through its missions, Kenyon 213,436 is not only expanding our knowledge of the Red Planet but also paving the way for future exploration endeavors.