In an effort to ensure the stability of cargo and large bundles, during both intermediary and extended transport, a ligature or wrapping of some sort, such as steel or plastic strapping, is routinely placed around the load. Contained within a secure wrapping, such as steel or plastic strapping, the load is more likely to remain in position during transport to a desired location. Typically, to facilitate the transport and lifting of large bundles, the strapping is made of fabric, wire, metal or plastic and secured by metal seals. These seals join the opposing overlapping ends of the strapping together, and become crimped or flattened or cut to form joints in the seal that are used to secure and prevent movement of the load.
The seals are formed as individual elements. The seals can be provided, for example in a powered strapping machine, in a magazine, in which the seals are loaded. The individual seals are fed on an as needed basis from the magazine. The seals are maintained in a stack in the magazine and are used until the magazine is depleted of seals. When the magazine is depleted, a new stack of seals is placed in the magazine and the strapping operation is restarted or commenced. Exemplary seals are disclosed in Meier, U.S. Pat. No. 3,089,233 and Young, U.S. Pat. No. 3,237,256, both of which patents are incorporated herein by reference.
While this type of seal and system of supply functions well, it will be recognized that there is lost time and labor required when the magazine is depleted. This is particularly the case when an operator may not immediately recognize that the magazine is depleted.
Accordingly, there is a need for a more efficient supply and delivery system for seals. Desirably, such a system reduces or eliminated the need for replenishing seals in a strapping tool. More desirably still such a supply and delivery system provides a large quantity or available seals in a readily replenishable and usable form.
A strip of multiple, substantially identical seals, each seal for sealing around overlying courses of strapping material to form a seal of the strapping material onto itself at the overlying courses is provided. The strip includes an elongated strip of ductile or malleable metal, such as mild steel, the material preferably having a hardness of about 60 to 75 on a Rockwell C scale.
The strip has a longitudinal direction having edges and defining a longitudinal axis parallel to the edges. A transverse direction is normal to the longitudinal axis. Each seal defines a respective transverse axis. The strip has a plurality of substantially identical slots formed in the transverse direction that define the respective seals. The slots extend toward but not to the edges of the strip and define connecting portions between ends of the slot and the respective edges. The slots are equally spaced from one another in a longitudinal direction to define the respective seals.
One present strip has parallel, longitudinally extending fold lines crossing the slots, inward of the respective edges. The fold lines are formed in the strip, equally spaced from the longitudinal axis.
The strip can also include slits formed in the seals. The slits extend in the transverse direction across the fold lines and toward, but not to the edges. An embodiment of the seal includes at least two pairs of slits, each of the slits of a pair of slits being disposed along a common transverse line and symmetrically disposed relative to the longitudinal axis of the strip. The pairs of slits are symmetrical relative to one another. A presently preferred seal includes four pairs of slits.
The seals can include a locating element formed in each seal. The locating element can be formed as an opening formed along the longitudinal axis and the transverse axis of each seal. The locating opening is used to properly locate the seal within, for example, an automatic or automated strapping machine.
The connectors between seals are formed having a width that is less than about 10 percent of the width of the seal, and preferably about 7 percent to 8 percent of the width of the seal.
These and other features and advantages of the present disclosure will be apparent from the following detailed description, in conjunction with the appended claims.
While the present disclosure is susceptible of embodiment in various forms, there are shown in the drawings and will hereinafter be described several embodiments with the understanding that the present disclosure is to be considered an exemplification of the device and is not intended to be limited to the specific embodiments illustrated.
Referring to the figures and in particular to
The seals 12 each include a body portion 16 formed essentially symmetrically about a longitudinal axis A10 defined by the strip 10. The axis A12 of each seal 12 is coaxial with the strip axis A10 and the axes of others of the seals 12 on the strip 10. The strip 10 defines a longitudinal direction, as indicated at 18, along the longitudinal axis A10 of the strip 10 and a transverse direction, as indicated at 20, transverse to the longitudinal direction 18.
The lateral edges 22 of each seal 12 include connecting portions 24 that connect each seal, for example, seal 12b, with its adjacent seals, for example, seals 12a and 12c. The end seals 12a, 12c, that is, the seals at the end of the strip 10, include a connecting portion 24 with only one adjacent seal.
The connection portions 24 are defined by lateral or transverse slots 26 formed in the strip 10, between the seals 12. The slots 26 can be formed having squared or angled ends as seen in
A central opening or hole 30 is formed in each seal 12. The holes 30 are present to permit the use of a centering or locating device, such as a pin (not shown), to properly locate the seal 12 within the strapping machine (also not shown). In the illustrated embodiment, the central opening 30 is about 0.20 inches.
The seals 12 can be formed with slight indents or fold lines 32 that extend longitudinally along the strip 10, inwardly of the edges 22. The fold lines 32 facilitate forming or folding the seal 12 around the strap 10. The fold lines 32 are formed in the strip 10 to intersect the slots 26.
The seals 12 can also be formed with slits 34 formed in the seals 12. The slits 34 are formed in the transverse direction 20 on either side of the longitudinal axis A12 and extend across the longitudinal fold lines 32 inwardly of the edges 22. The slits 34 do not, however, extend out to the edges 22. The slits 34 are provided to facilitate notching the seals 12 (where the seals 12 bite into the strap), to reduce the effort required by the sealing tool and wear on the tool, and to improve joint efficiency (again, by biting into the strap). Those skilled in the art will recognize the seal configuration when sealed on the overlying courses of strap material. By remaining within the confines of the body 16 of the seal 12, the slits 34 do not adversely affect the strength or integrity of the seal 12.
Present continuous strap seals 12 are formed from a malleable or ductile material that can be bent or deformed to form the seal without loosing strength. One such material is steel, such as a mild steel, the material having a hardness of about 60-75 measured on a Rockwell C scale. When flat, the seal 12 has a width w12 of about 2.40 inches and a thickness t12 of about 0.042 inches (42 mils). The connecting portions 24 each have a width w24 of about 0.1875, which corresponds to a slot width w26 (dimension in the transverse direction 20) of about 2.025 inches. The connecting portions 24 have a length l24 (dimension in the longitudinal direction 18) of about 0.080 inches, such that each tab 28 has a length l28 of 1/2 of the connecting portion length l24 or about 0.040 inches. Each seal 12 has an overall length l12 of about 2.080 inches, including its tabs 28.
The fold lines 32 are formed inward of the edges 22 about 0.50 inches as indicated at 36. Four sets of slits 34 are cut into the seals 12 extending across their respective fold lines 32. The slits 34 are formed on either side of a central transverse axis At about 0.535 inches apart, with slits 34b formed at about 0.469 inches outwardly from the inner slits 34a. The slits 34 extend inwardly of the seal 12 from edge 22 about 0.25 inches as indicated 38 for a distance of about 0.50 inches as indicated at 40.
The connecting portions 24 are defined by a continuity in the strip 10 at about the edges 22 that extends inward from the edges 22, as indicated at w24, about 0.0938 (about 3/32) inches.
In use, as the strip 10 is fed into a strapping machine, the seal 12c is located on the strap and is separated or severed from its adjacent seal 12b on the strip 10 at their shared connectors 22. The separated seal 12c is formed around the strap and notched onto the strap by teeth or notchers that contact the seal 12 at about the slits 34 to urge the seal 12, at the slit 34 edges into contact with the strap.
Those skilled in the art will also recognize the various configurations of the seal 12 that can be made for use in a wide variety of strapping machines, such seals 12 being other than that described above. Such other seal 12 configurations are within the scope and spirit of the present disclosure.
In the present disclosure, the words βaβ or βanβ are to be taken to include both the singular and the plural. Conversely, any reference to plural items shall, where appropriate, include the singular. All patents referred to herein, are hereby incorporated herein by reference, whether or not specifically done so within the text of this disclosure.
From the foregoing it will be observed that numerous modifications and variations can be effectuated without departing from the true spirit and scope of the novel concepts of the present disclosure. It is to be understood that no limitation with respect to the specific embodiments illustrated is intended or should be inferred. The disclosure is intended to cover by the appended claims all such modifications as fall within the scope of the claims.
This application claims the benefit of U.S. Provisional Patent application Ser. No. 61/378,198, filed Aug. 30, 2010.
Number | Date | Country | |
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61378198 | Aug 2010 | US |