Difference between revisions of "Frame: Vacuum Formed Frame: A Plastic/Aluminum Hybrid"
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− | ''' | + | [[File:VacuumFormFinish1.JPG|thumb|right|400px|'''Bottom view of Vacuum Formed Plastic/Aluminum Hybrid Frame''']] |
+ | ==OVERVIEW== | ||
The vacuum formed frame utilizes a rectangular plastic hive rail with a reinforced aluminum undercarriage. The general concept behind this scale was to produce an affordable light-weight scale that was able to accommodate both ten frame and eight frame Langstroth beehives. An additional aluminum undercarriage was added as extra reinforcement was needed to support the weight of the cantilevered load cells. | The vacuum formed frame utilizes a rectangular plastic hive rail with a reinforced aluminum undercarriage. The general concept behind this scale was to produce an affordable light-weight scale that was able to accommodate both ten frame and eight frame Langstroth beehives. An additional aluminum undercarriage was added as extra reinforcement was needed to support the weight of the cantilevered load cells. | ||
− | + | ==PRODUCTION== | |
Production of this scale started out by creating a very accurate wooden mold that was able to be used in a commercial vacuum forming machine. The plastic used was 1/4" thick and possesses UV resistant properties that could handle the exposure to weather elements. After the plastic form was produced additional work was done to remove the unneeded flashings. Holes were drilled and aluminum bars were cut to size and added to properly secure the load cells. | Production of this scale started out by creating a very accurate wooden mold that was able to be used in a commercial vacuum forming machine. The plastic used was 1/4" thick and possesses UV resistant properties that could handle the exposure to weather elements. After the plastic form was produced additional work was done to remove the unneeded flashings. Holes were drilled and aluminum bars were cut to size and added to properly secure the load cells. | ||
− | + | ==SCALE LOCATION== | |
− | HiveTool Scale:[http://hivetool.org/db/hive_stats.pl?hive_id=94 Waypoint01] | + | HiveTool Scale: [http://hivetool.org/db/hive_stats.pl?hive_id=94 Waypoint01] |
+ | <br clear=all> | ||
− | + | ==DEVELOPMENT AND FABRICATION PHOTOS== | |
− | <gallery> | + | <gallery mode="packed" heights=250px> |
File:ScaleMoldTesting2.JPG|Test drilling for wooden mold creation|alt=alt language | File:ScaleMoldTesting2.JPG|Test drilling for wooden mold creation|alt=alt language | ||
File:ScaleMold1.JPG|Creation and drilling of wooden mold|alt=alt language | File:ScaleMold1.JPG|Creation and drilling of wooden mold|alt=alt language | ||
File:VacuumFormDuplicates.JPG|Plastic vacuum formed hive rails arrive|alt=alt language | File:VacuumFormDuplicates.JPG|Plastic vacuum formed hive rails arrive|alt=alt language | ||
File:VacuumForm1.JPG|Plastic vacuum formed hive rail|alt=alt language | File:VacuumForm1.JPG|Plastic vacuum formed hive rail|alt=alt language | ||
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File:VacuumForm2.JPG|Removal of excess/unneeded plastic|alt=alt language | File:VacuumForm2.JPG|Removal of excess/unneeded plastic|alt=alt language | ||
File:VacuumFormBars1.JPG|Creation of aluminum undercarriage bars|alt=alt language | File:VacuumFormBars1.JPG|Creation of aluminum undercarriage bars|alt=alt language | ||
File:VacuumFormBars1.5.JPG|Aluminum undercarriage bars complete|alt=alt language | File:VacuumFormBars1.5.JPG|Aluminum undercarriage bars complete|alt=alt language | ||
File:VacuumFormBars3.JPG|Installation of aluminum bars and load cells|alt=alt language | File:VacuumFormBars3.JPG|Installation of aluminum bars and load cells|alt=alt language | ||
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File:VacuumFormFinish1.JPG|Picture of the finished product - Undercarriage|alt=alt language | File:VacuumFormFinish1.JPG|Picture of the finished product - Undercarriage|alt=alt language | ||
File:VacuumFormFinish2.JPG|Picture of the finished product - Topside|alt=alt language | File:VacuumFormFinish2.JPG|Picture of the finished product - Topside|alt=alt language | ||
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− | + | ==PARTS LIST== | |
Due to the complexity and specialized techniques utilized in the creation of this scale a parts list is not available for this design. | Due to the complexity and specialized techniques utilized in the creation of this scale a parts list is not available for this design. | ||
− | + | ==PROS/CONS/AVAILABILITY== | |
The vacuum formed plastic scale is currently undergoing testing for weather durability and accuracy as it is light weight and seemingly sturdy. Initially the vacuum formed scale was an option for mass production however, due to the size of the scale shipping costs may negate any cost cutting use of plastic over other light weight options with a smaller footprint. | The vacuum formed plastic scale is currently undergoing testing for weather durability and accuracy as it is light weight and seemingly sturdy. Initially the vacuum formed scale was an option for mass production however, due to the size of the scale shipping costs may negate any cost cutting use of plastic over other light weight options with a smaller footprint. | ||
− | + | ==CREATION CREDIT== | |
Ken Hill - [http://www.khill.com K-Hill Inc.]<br> | Ken Hill - [http://www.khill.com K-Hill Inc.]<br> | ||
David Hawa[http://hivetool.org/w/index.php?title=User:David - HiveTool] | David Hawa[http://hivetool.org/w/index.php?title=User:David - HiveTool] |
Latest revision as of 04:25, 16 March 2017
Contents
OVERVIEW
The vacuum formed frame utilizes a rectangular plastic hive rail with a reinforced aluminum undercarriage. The general concept behind this scale was to produce an affordable light-weight scale that was able to accommodate both ten frame and eight frame Langstroth beehives. An additional aluminum undercarriage was added as extra reinforcement was needed to support the weight of the cantilevered load cells.
PRODUCTION
Production of this scale started out by creating a very accurate wooden mold that was able to be used in a commercial vacuum forming machine. The plastic used was 1/4" thick and possesses UV resistant properties that could handle the exposure to weather elements. After the plastic form was produced additional work was done to remove the unneeded flashings. Holes were drilled and aluminum bars were cut to size and added to properly secure the load cells.
SCALE LOCATION
HiveTool Scale: Waypoint01
DEVELOPMENT AND FABRICATION PHOTOS
- Error creating thumbnail: File missing
Test drilling for wooden mold creation
- Error creating thumbnail: File missing
Creation and drilling of wooden mold
- Error creating thumbnail: File missing
Plastic vacuum formed hive rails arrive
- Error creating thumbnail: File missing
Plastic vacuum formed hive rail
- Error creating thumbnail: File missing
Removal of excess/unneeded plastic
- Error creating thumbnail: File missing
Creation of aluminum undercarriage bars
- Error creating thumbnail: File missing
Aluminum undercarriage bars complete
- Error creating thumbnail: File missing
Installation of aluminum bars and load cells
- Error creating thumbnail: File missing
Picture of the finished product - Undercarriage
- Error creating thumbnail: File missing
Picture of the finished product - Topside
- Error creating thumbnail: File missing
Testing of load application - Distributed
- Error creating thumbnail: File missing
Testing of load application - Focused
PARTS LIST
Due to the complexity and specialized techniques utilized in the creation of this scale a parts list is not available for this design.
PROS/CONS/AVAILABILITY
The vacuum formed plastic scale is currently undergoing testing for weather durability and accuracy as it is light weight and seemingly sturdy. Initially the vacuum formed scale was an option for mass production however, due to the size of the scale shipping costs may negate any cost cutting use of plastic over other light weight options with a smaller footprint.
CREATION CREDIT
Ken Hill - K-Hill Inc.
David Hawa- HiveTool