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Comparison of Horizontal Blind with Vertical Blind. © 2012 cbllind.com. Areas of Comparison. 1. Working with or against gravity? 2. Quality of view 3. Quantity of view 4. Intensity of diffused light 5. Direction of diffused light 6. Dust 7. Saving energy while enhancing comfort.
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Comparison of Horizontal Blind with Vertical Blind © 2012 cbllind.com
Areas of Comparison 1. Working with or against gravity? 2. Quality of view 3. Quantity of view 4. Intensity of diffused light 5. Direction of diffused light 6. Dust 7. Saving energy while enhancing comfort
1. Working with or Against Gravity? 3 strings per column B. Because vertical blinds do not work against gravity, their slats could be thin. The thinner the slats, the less material, weight, and cost. (Less slat weight also needs smaller headrail.) C. When being drawn, vertical blinds slide, horizontal blinds are lifted. It takes more effort to draw horizontal blinds. The bigger the horizontal blind, the greater the effort. (Motorized vertical blinds require smaller, less expensive motors, and consume less electricity than motorized horizontal blinds). A. Horizontal slats are bent by gravity, vertical slats are not. To keep slats straight, horizontal blinds depend on strings. Strings obstruct the view and create clutter. Vertical blinds need no strings, thus provide an open view and no clutter.
2. Quality of View View limited by upper slats horizontal blind When open, horizontal blinds limit view of sky.
2. Quality of View Vertical blind When open, vertical blinds do not limit view of sky.
3. Quantity of View range of eye horizontal blind vertical blind People in a room move from side to side but not up and down. Vertical slats rotate side to side, horizontal slats rotate up and down. When a vertical blind is partially closed, it provides view to much of the room, depending on where the occupants are. When a horizontal blind is partially closed, view is lost everywhere in the room.
4. Intensity of Diffused Light Diffused Light from sky Diffused Light from sky Vertical Horizontal Diffused light coming from sky is the brightest. Horizontal blinds do not differentiate between direct sunlight and diffused sunlight coming from sky. Vertical blinds stop direct sunlight from sky but allow diffused sunlight from sky.
5. Direction of Diffused Light Less computer glare vertical blind top view Vertical blinds can create high-contrast light between the two sides of the room. When directing diffused light, horizontal blinds create less contrast than vertical blinds. Furthermore, directing diffused light with horizontal blinds reduces total incoming light more so than vertical blinds.
6. Indoor Pollution Vertical blinds are cleaner and easier to clean. The reasons are: Vertical surfaces collect less dust than horizontal surfaces. There is a limit to how much dust a vertical surface could collect, but no limit to how much dust a horizontal surface could collect. Strings of horizontal blinds hinder dusting.
7. Saving Energy while Enhancing Comfort An office worker’s salary is about 100 times more than the cost of the energy used by the worker. Hence enhancing worker productivity is more important than saving energy. And comfort means more productivity. Many products that save energy, reduce comfort. The ideal energy-saving product, instead of reducing comfort, enhances it. The following section shows how a reflective vertical blind saves energy and enhance comfort at the same time.
Saving Energy while Enhancing Comfort, by Using a Reflective Vertical Blind
Outline 1. What is shade? 2. Shading a room 3. The greenhouse effect 4. Reversing the greenhouse effect by partially closing the slats 5. First problem with partially closing the slats: Less view 6. Second problem with partially closing the slats: Less diffused light 7. Solution to first problem using a vertical blind 8. Solution to second problem using a vertical blind 9. Effects of a partially closed reflective horizontal blind 10. Effects of a partially closed reflective vertical blind 11. Creating ideal shade using a reflective vertical blind 12. Saving energy while providing comfort 13. Example of a vertical blind creating ideal shade
1. What Is Shade? • Direct sunlight stopped • No greenhouse effect • Indirect* sunlight allowed • View allowed shade * Indirect sunlight is diffused sunlight
2. Shading a Room • Direct sunlight stopped • No greenhouse effect • Indirect sunlight allowed • View allowed shade
2. Shading a Room • Direct sunlight stopped • No greenhouse effect • Indirect sunlight allowed • View allowed shade
3. The Greenhouse Effect • Direct sunlight stopped • Greenhouse effect • Indirect sunlight allowed • View allowed warm room shade When blinds are inside, they do not stop the greenhouse effect. Sun’s rays pass through glass, heat the blind, and the blind heats the air. Hot air can’t get out, raising the indoor temperature.
4. Reversing the Greenhouse Effect glass end view of slats The only way to reverse the greenhouse effect is to use a reflective blind and partially close the blind with slats tilted away from the sun to reflect the sun’s rays back out.
5. First Problem with Partially Closing the Slats horizontal blind Partially closing a horizontal blind reduces the view.
6. Second Problem with Partially Closing the Slats Diffused light from sky horizontal blind Diffused light from sky is the brightest. Partially closing a horizontal blind significantly reduces diffused light coming from sky.
7. Solution to First Problem: Use a Vertical Blind (window is facing east and sun is in southern sky, for example. ) vertical blind When a reflective vertical blind is partially closed, full view is provided to much of the room.
8. Solution to the Second Problem: Use a Vertical Blind Diffused light from sky vertical blind Vertical blinds are open to the sky. Partially closing a vertical blind, does not significantly reduce diffused light coming from sky.
9. Architectural and Energy Effects of a Tilted Reflective Horizontal Blind (reducing artificial lights & the heat they generate) horizontalslats tilted away from the sun zero low high (reducing glare) © 2012 cbllind.com (reducing the greenhouse effect)
10. Architectural and Energy Effects of a Tilted Reflective Vertical Blind (reducing need for artificial lights & the heat they generate) verticalslats tilted away from the sun zero low high (reducing glare) (reducing the greenhouse effect)
11. Creating Ideal Shade Using a Reflective Vertical Blind • Direct sunlight stopped • No greenhouse effect • Indirect sunlight allowed • View allowed = shade shade Only a reflective vertical blind, tilted away from the sun, can provide all the four effects of shade. © 2012 cbllind.com
12. Saving Energy and Enhancing Comfort at the Same Time ENERGY COMFORT 1. stops direct sunlight 2. no greenhouse effect 1. allows indirect sunlight 2. allows view less indoor lights provides comfort less A/C use visual thermal saves electricity saves energy increases productivity less A/C use saves energy financial
13. Example of Vertical Blinds Creating Perfect Shade Early morning sun in summer, for example. N Top view of a floor with vertical blinds
Vertical blinds are simpler, use less material, and provide more light and view options than horizontal blinds. Reflective vertical blinds save energy while enhancing comfort. cBlind Thank You cblind.com Vertical blind in KPAX