Embodiments of the present invention relate to a cover for a bulk welding wire container and to a bulk welding wire container employing the same.
Welding operations are in the trend of being automated, such as with robotic welding, where a robotic welding unit continuously performs a repeated or a series of repeated welding operations. In such an application it is necessary for the welding wire/electrode to be continuously supplied so that the welding operation is not stopped to reload an additional supply of welding wire.
Thus, large bulk wire welding containers have been developed and provided which contain a large length of wire. For example 500 feet of wire can be provided in a coiled fashion within the container. In such a container the wire is drawn out through an opening in a lid of the container, where the lid often functions to hold coils of the wire within the container to prevent the wire from unwinding out of the top of the container. Even though the length of the wire is large, as with all things, it will eventually run out requiring replacement. The replacement of the container causes down time in which welding does not occur. Additionally, depending on the construction of the lid as the wire is drawn out of the container the wire can bind or tend to get snagged, thus stopping the welding operation.
In an effort to deal with the container replacement issue discussed above, systems have been developed which allow the tail end of a welding electrode from a first container to be secured to the beginning end of a welding electrode from a second container to allow for further continuous welding. However, there are issues with these systems in that they may not provide for ease of drawing out of the wire during operation and/or they may not provide sufficient stability or security to the end portion of the wire to allow property security of the end portion to the beginning portion of a next container.
Therefore, a need exists to provide a welding container lid and a container containing the lid which allows for the easy payout of the wire and proper security to an end portion of the wire in a container.
In an embodiment of the invention, a welding wire container lid contains a surface portion, a vertical portion extending downward from the surface portion at an end of the surface portion, a protrusion portion extending upward from the surface portion, and an elongated opening which extends from the protrusion portion onto the surface portion near the vertical portion. The opening has two sides opposite each other, where a first of the sides follows a contour of the surface portion and the protrusion portion and a second of the sides has a contour which is different from the contour of the first side.
The advantages, nature and various additional features of the invention will appear more fully upon consideration of the illustrative embodiments of the invention, which are schematically set forth in the figures, in which:
While various embodiments of the present invention will be illustrated with reference to particular embodiments as discussed below, it should be understood that other embodiments of the present invention can be implemented with other devices and structure than that specifically described and shown herein, and that the present invention is not intended to be limited to the specific embodiments shown and described herein. Further, like reference numerals designate like parts throughout the FIGURES.
It is noted that the FIGs. depict the lid 100 has having a generally circular shape so as to match a circular container for the bulk wire (not shown). However, the present invention is not limited in this regard, and the lid 100 can have any general shape required so as to be properly secured to a wire container, such as square, rectangular, etc.
The lid 100 contains a surface portion 101, which can be generally flat, and vertical rim portion 107 (which is generally vertical relative to the surface portion 101) and a protrusion portion 103, that extends normally with respect to the surface portion 101. The protrusion portion has a generally circular cross section when viewed at the surface portion 101 and a generally smooth arcuate shape when viewed from the side (see e.g.,
Extending from a peak of the protrusion portion 103 to near the vertical portion 107 is an opening 105 having an elongated shape. The opening 105 is shown having generally oval shape, however, the present invention is not limited in this regard. Further, in other exemplary embodiments it is not necessary for the opening 105 to stop at the peak of the protrusion 103, as the opening 105 may extend past the peak or stop short of the peak. Moreover, the overall shape and size of the opening 105 should be such that the wire within the container can easily be drawn out of the container while at the same time providing protection to the wire from debris, etc. Further, in exemplary embodiments of the present invention, corners of the opening 105 generally have a radius such that no damage from corners occurs to the wire as it is being drawn out.
As shown in
In the embodiment shown in
By having this configuration it is easier to draw the wire through the opening 105 and out of the container (not shown). Specifically, having this raised side 106 aids in guiding the wire, being drawn out of the container, out of the opening 105 and reduces the probability of binding or catching the wire through the opening. This is particularly true in instances where the wire has unwound within the container such that coils of the wire are at or near the bottom surface of the lid 100. In this situation, the raised side 106 allows for a gradual angling of the wire out of the lid 100 to allow it to pass through the opening 105 without binding, rather than a more abrupt or sharp bend as when the sides 104/106 have the same shape.
In the exemplary embodiment shown in
The side 106 of the opening 105 which is to be raised with respect to the contour of the lid 100 is to be chosen based on the coiling and payout direction of the wire. That is, the raised side 106 is to be the side to allow for the smooth payout of the wire based on the coiling direction of the wire.
In another exemplary embodiment of the present invention, the side 104 of the opening opposite the raised side 106, can be extended down with respect to the contour of the lid 100. This embodiment is not expressly shown in
In yet a further exemplary embodiment, it is contemplated that rather than extending outward with respect to the lid 100 (as shown in
Turning now to yet another aspect of the present invention, as shown in each of
In the shown embodiment, the retaining member 109 is secured to the vertical portion 107 of the lid 100 so that the end of the wire which is secured by the retaining member 109 is positioned out of the way of the pay out operation. In certain conditions of operation it is needed to keep the lid surface 101 as free from obstruction as possible and/or to prevent the wire being drawn out through the opening 105 from catching on the secured end of the wire. Thus, by placing the retaining member 109 on the vertical portion 107 this will prevent the secured wire end from interfering with a wire payout operation or otherwise interfering with an operation.
Of course, in other embodiments, the retaining member 109 can be secured at other locations on the lid 100 so as to allow for the desired operation.
In exemplary embodiments of the present invention, the retaining member 109 is secured to the vertical portion 107 such that each side of the retaining member 109 is contacting the vertical portion 107. For example, as shown in
In an exemplary embodiment of the present invention, the retaining member 109 is made of a material which is resistive to wear, such as metal or hard plastic.
As shown in the exemplary embodiment depicted in
In yet a further exemplary embodiment of the present invention, the retaining member 109 is secured to the lid 100 via a hinge type device, which also allows for the easy removal of the wire if needed. However, in such an embodiment the hinge device may be springed so that the tension of the spring maintains the retaining portion 109 against the lid 100 to keep the wire secured so that an appreciable force is required to hinge the retaining member 109 and release the wire from the channel portion.
It is contemplated that other embodiments of the retaining member 109 and fastener 111 can be employed without departing from the scope and spirit of the present invention.
Turning now to
As shown in
Both the trailing end 305 and the leading end 303 of the wire come out of the opening 105 in the lid 100.
To make an effective “endless” welding operation, where even though the wire bundle in one container 300 is depleted the welding operation can continue without interruption, the wire from one container 300 is coupled to the wire from a separate container 300 as shown. That is the trailing end 305 of the wire in a first container 300 is secured, often by welding, to the leading end 303 of the wire from a second container 300. This is shown in
Because of the configuration of the retaining member 109, as described above, the wire can be continuously drawn through the retaining member without interruption of the welding operation. Additionally, depending on the fastening methodology used for the retaining member 109 the wire can be released from the retaining member 109 without interruption of the drawing operation, thus allowing the lid 100 and/or container 300 to be removed and replaced with a new container 300, with a full wire bundle, thus allowing the wire drawing to go on indefinitely.
Of course, although the present invention has been discussed with respect to welding wire coils, it is contemplated that the present invention may be used in any applications where a material is coiled and is to be drawn or paid out in a smooth and efficient manner.
The present invention has been described with certain embodiments and applications. These can be combined and interchanged without departing from the scope of the invention as defined in the appended claims. The invention, as defined in these appended claims, are incorporated by reference herein as if part of the description of the novel features of the present invention.