Patent application title: TANGLE FREE SPACER CART
Steven A. Nunnikhoven (Mediapolis, IA, US)
HAWKEYE CONCRETE PRODUCTS CO.
IPC8 Class: AB62B304FI
Class name: Wheeled stable vehicles, handle-propelled plural load supports
Publication date: 2011-03-10
Patent application number: 20110057403
Patent application title: TANGLE FREE SPACER CART
Steven A. NUNNIKHOVEN
IPC8 Class: AB62B304FI
Publication date: 03/10/2011
Patent application number: 20110057403
A method and cart for handling spacers used for spacing the wire mesh
reinforcing cages used in the production of concrete pipe. The spacers
are placed and shipped on hollow tubes laid in layers in a shipping
container. The spacers are shipped to the user stored on these hollow
tubes together with a mobile cart that has a vertical support containing
a plurality of outwardly extending arms. When ready to be installed at
the concrete pipe production site, a tube containing the spacers is
removed from the shipping container and slipped over each arm. The cart
can then easily be moved around the production location where the spacers
for readily available for use in making the concrete product.
1. A cart for storing and handling spacers used for spacing wire mesh
cages employed in the manufacture of large concrete pipes and the like,
said cart comprising:a base;a vertical support combined with the base,
the support having a plurality of vertically spaced-apart holes; anda
plurality of arms received in selected ones of the holes and extending
outwardly from the support;each arm being adapted to receive a hollow
tube carrying a plurality of spacers.
2. The cart of claim 1 in which each arm is removable.
3. The cart of claim 2 in which the vertical support is rectangular in cross section to present four sides, and the holes are formed on at least two opposing sides.
4. The cart of claim 3 in which the holes on one side of the vertical support are vertically offset from the holes on the opposing side so that an arm received in the holes on opposing sides extends outwardly and upwardly.
5. The cart of claim 4 in which each arm has an end that extends through opposing holes and beyond the vertical support, and a pin is combined with the arm end to removably hold the arm in place.
6. The cart of claim 5 in which wheels support the base to provide for movement of the cart.
7. The cart of claim 6 in which the cart has a handle to facilitate movement of the cart.
8. The cart of claim 7 in which the vertical support is provided with one or more tool handling rods which provide for carrying tools used in securing the spacers to the wire mesh cage.
9. A method for storing and handling spacers used for spacing wire mesh cages employed in the manufacture of large concrete pipes and the like, said method comprising:providing a plurality of hollow tubes;sliding a plurality of spacers onto each tube; andlayering the tubes in a shipping container, each layer being separated by a barrier.
10. A method for storing and handling spacers used for spacing wire mesh cages employed in the manufacture of large concrete pipes and the like, said method comprising:providing a plurality of hollow tubes;sliding a plurality of spacers onto each tube;layering the tubes in a shipping container, each layer being separated by a barrier;providing a moveable cart having a vertical support with a plurality of outwardly extending arms spaced apart vertically on the support;removing the tubes containing the spacers from the shipping container;sliding the tubes containing the spacers onto the arms; andremoving the spacers from the tubes as needed.
11. A method for storing and handling spacers used for spacing wire mesh cages employed in the manufacture of large concrete pipes and the like, said method comprising:providing a plurality of hollow tubes;sliding a plurality of spacers onto each tube;providing a moveable cart having a vertical support with a plurality of outwardly extending arms spaced apart vertically on the support;sliding the tubes containing the spacers onto the arms; andremoving the spacers from the tubes as needed.
This application claims priority under 35 USC 119 to Provisional
Patent Application Ser. No. 61/241,245 filed on Sep. 10, 2009, the
contents of which are hereby incorporated by reference.
BACKGROUND OF THE INVENTION
In producing large concrete products such as box sections, round pipes, culverts or manholes, reinforcement wire mesh cages are required to provide the necessary strength to the finished product. When these cages are placed in the forms, they must be spaced from each other and also spaced from the surfaces of the form used to produce the particular concrete product.
Commonly known spacers used for double cage reinforcement wire mesh cages for rectangular concrete products, such as box sections, have an eye at each end of a straight section. The eyes serve to space each of the cages from the surfaces of the product form. The straight piece between the eyes determines the spacing between the two reinforcement cages. For use with the double cage wire mesh cages for large round concrete products, another form of a suitable spacer has an eye on one end and a J-hook on the other end, the latter being hooked to one cage while the eye is hooked over a circumferential wire of the other cage. The eye of the spacer serves to space the cage from the form. The double cage spacer is typically constructed of spring steel and has a center straight section that joins U-shaped portions which determine the distance between the cages. Extending outwardly from the U-shaped portions are loops at the outer end of which are hooks that lock the spacer onto the circumferential wires of the cages. The loops extend outwardly from each of the cages to provide the spacing of the cages from the concrete forms.
Both of these spacers can be easily installed from outside of the double cage and do not require welding or other special attachment to the cages, thus speeding up the installation process and making it less costly to the producer of the concrete products. However, a large number of these spacers are required for each concrete product, and because they are not reused, they are commonly shipped to the user in a shipping container in large quantities. Because of the configuration of the spacers, when the user tries to remove one spacer from the container, they seem to be all hooked together. This tangling has been a big problem with spacers of this type, and valuable production time is wasted in untangling the spacers. Therefore, there is a need for an improved method of storing, shipping and dispensing these spacers.
SUMMARY OF THE INVENTION
The invention provides a method by which the spacers are packaged and shipped on hollow tubes placed in layers in a shipping container. This prevents tangling of the spacers while also making the shipment compact. The spacers are shipped to the user stored on these hollow tubes together with a mobile cart that has a vertical support containing a plurality of outwardly extending arms. When ready to be installed at the concrete pipe production site, a tube containing the spacers is removed from the shipping container and slipped over each arm. The cart can then easily be moved around the production location for use in making the concrete product.
BRIEF DESCRIPTION OF THE DRAWING AND PHOTOS
FIG. 1 is a perspective view of the cart for holding and carrying the spacers;
FIG. 2 is a perspective view of the cart with installation tools and the spacer-carrying tubes with spacers in place on the cart;
FIG. 3 is a side elevational view of one side of a portion of the cart's mast and showing one of the arms locked onto the mast with a hairpin; and
FIG. 4 is a side elevational view of another side of a portion of the cart's mast to further illustrate the hairpin locking an arm in place on the mast.
DESCRIPTION OF THE PREFERRED EMBODIMENTS OF THE INVENTION
The invention solves the spacer tangling problem by providing a method to package the spacers on tubes making them tangle free and much easier and quicker to use. As shown in the drawings, the spacers 10 are slid over hollow tubes 12 made of any suitable material such as cardboard, which can be recycled or otherwise disposed of. The tubes 12 containing the spacers 10 are then placed in a shipping box 14 the width of which is just slightly wider than the length of the tubes 12 so that the spacers will remain on the tubes 12 during shipping and until removed from the box 14. If desired, a barrier (not shown) such as a piece of cardboard or heavy paper can be placed between layers of the tubes 12 containing the spacers 10.
When ready for use, a tube 12 containing multiple spacers 10 is removed from the shipping container 14 at the production site where each spacer 10 can be easily slipped off the tube 12 for use. In addition, the spacers 10 carried on the tubes 12 can be removed from the shipping container and then placed on a mobile cart 16. The cart 16 has a vertical support or mast 20 that is mounted in the center of a base 22 which can be rotated 360° by reason of being supported by wheels or casters 25. The base 22 is sufficiently large to provide for carrying one of more shipping containers 14. The mast 20 is preferably a hollow tube that is rectangular in cross section to provide four sides 25. Each side 25 of the mast 20 is provided with a plurality of holes 26 spaced vertically at predetermined intervals. As shown in FIG. 3, the spacing of the holes 26 is in pairs, and the spacing of the holes 26 on two opposite sides 25 is offset from the spacing on the other two opposing sides 25. A desired number of hanger rods or arms 18 extend outwardly from the mast 20. Each arm 18 is inserted into a hole 26 on one opposing side 25 and extends through the mast and through a corresponding hole 26 on the other opposing side 25. As shown, when an arm 18 is inserted into a hole 26, it is inserted on the higher one of a pair of holes 26 on one side 25 and then extends through the lower hole 26 of the corresponding pair on the opposing side 25. This provides for each arm 18 to extend outwardly and upwardly from the mast 20. As best seen in FIG. 2, after removal from the shipping container 14, the tubes 12 that hold the spacers 10 are then placed on a cart 16 by sliding the tubes 12 over arms 18. The slight upward angle of the arms 18 prevents the tubes 12 from inadvertently sliding off the arms 18.
The arms 18 are removably secured to the mast 20 by insertion of a removable pin, such as hairpin 28, into an opening in the end of the arm 18 after the arm 18 is in place on the mast 20. The arms 18 are thus adjustable to different heights to accommodate spacers 10 of different sizes. Adjustment of the height of arms 18 is accomplished by removing the hairpin 28 from an arm 18 and then removing the arm 18 and inserting the arm 18 into another hole 26 at the desired height. The base 22 can serve to carry multiple boxes of the spacers, and the base 22 is provided with a handle 30 to facilitate movement of the cart 16 from place to place.
At the upper end of the mast 20, a tool holding rod 32 extends outwardly from each side 25 of the mast 20. The specific design of the holding rods 32 depends upon the type of tool 34 to be held. As is well known to those skilled in the art, installation tools are necessary to install the spacers onto the reinforcement wire cages, and the holding rods 32 provide a convenient place to carry such tools.
The invention enables the spacers 10 to be easily packaged and shipped without tangling. At the production site, the user can place the shipping containers on the cart 16 and wheel the spacers to the worksite. This eliminates the necessity of the user making multiple trips back and forth to where the shipping containers are stored and then carrying heavy boxes to the area where the spacers are being installed. At the work site, the spacers 10 are hanging down, tangle free, for quick convenient removal. The cart 16 can also be used to accommodate and carry the spacer installation tools 34 so they are nearby and convenient for use. This invention is a great help in organizing the spacers for installation on the wire mesh reinforcing cages and thus saves considerable production time.
Having thus described the invention in connection with the preferred embodiments thereof, it will be evident to those skilled in the art that various revisions can be made to the preferred embodiments described herein without departing from the spirit and scope of the invention. It is my intention, however, that all such revisions and modifications that are evident to those skilled in the art will be included within the scope of the following claims.
Patent applications by Steven A. Nunnikhoven, Mediapolis, IA US
Patent applications by HAWKEYE CONCRETE PRODUCTS CO.
Patent applications in class Plural load supports
Patent applications in all subclasses Plural load supports