Embodiments of the present invention relates to fall restraint equipment, and, more particularly, to a swing gate for fall restraint equipment.
Fall restraint equipment may include platforms, ramps, bridges, steps, guardrails, gangways, cages, gates, and other support structures. Gangways, for instance, may be used to provide access to an area, such as the top of a storage container. For example, a semi-trailer truck or a railroad carriage transporting dry goods may need to be unloaded from the container's top. A gangway is used to provide workers a path to unload the material. Additionally, an articulating cage may be lowered from the gangway or, alternatively, from a support structure in order to encase the area from which the material is to be unloaded. Platform systems typically provide access from one location of an area to another. The access points along the platform system or along other portions of fall restraint equipment may provide access to desired locations, such as the top of a railroad carriage, but typically leave a gap in the system or equipment when not in use. Gates may be used to cover the gaps but generally are manufactured to fit the specific dimensions of the gap. Once manufactured, the gate typically cannot be used to cover a gap exhibiting different dimensions.
Embodiments of the present invention address the foregoing deficiencies. In some embodiments, aspects of the present invention relate to an adjustable gate which has a pair of supporting arms with interior cavities. An adjustable arm has ends which may be inserted into the pair of supporting arms. At least one of the adjustable arm ends has a system to adjust the length of the gate. For example, the adjustable system may be a rubber compression member that, when adjusted, locks the adjustable arm into place relative to the pair of supporting arms. This allows the gate to be infinitely adjustable.
In another example, apertures may be disposed in the pair of supporting arms and an aperture in the adjustable arm ends align with a desired aperture in the supporting arms so that a pin may be inserted therein to lock the adjustable arm into place relative to the supporting arm.
According to one embodiment, a gate may include a first supporting arm and an adjustable arm. The first supporting arm may include an interior surface and an interior cavity. The adjustable arm may include an insertable end, an adjustable compression member and a compression fitting. The insertable end may be configured to be inserted into the interior cavity of the first supporting arm. The adjustable compression member may be disposed at the insertable end. The compressing fitting may be configured to adjust the adjustable compression member. When the insertable end is inserted into the interior cavity of the first supporting arm, the adjustable compression member is adjusted to compress against the interior surface so that the adjustable arm is fixed relative to the first supporting arm.
According to another embodiment, a method of operating an adjustable gate may include providing a gate that includes a hinge; a first supporting arm comprising an interior surface and an interior cavity; and an adjustable arm. The adjustable arm may include an insertable end configured to be inserted into the interior cavity of the first supporting arm; an adjustable compression member disposed at the insertable end; and a compressing fitting configured to adjust the adjustable compression member. The method may further include adjusting the compression fitting so that the adjustable compression member expands or compresses within the interior cavity and so that the adjustable compression member compresses against the interior surface so that the adjustable arm is fixed relative to the first supporting arm.
A full and enabling disclosure of the present invention, including the best mode thereof directed to one of ordinary skill in the art, is set forth in the specification, which makes reference to the appended drawings that illustrate various components of an adjustable, mountable gate in accordance with various embodiments of the present invention.
Repeat use of reference characters in the present specification and drawings is intended to represent same or analogous features or elements of the invention.
Reference will now be made in detail to presently preferred embodiments of the invention, one or more examples of which are illustrated in the accompanying drawings. Each example is provided by way of explanation of the invention, not limitation of the invention. In fact, it will be apparent to those skilled in the art that modifications and variations can be made in the present invention without departing from the scope or spirit thereof. For instance, features illustrated or described as part of one embodiment may be used on another embodiment to yield a still further embodiment. Thus, it is intended that the present invention covers such modifications and variations as come within the scope of the appended claims and their equivalents.
Aspects of the present invention are related to fall restraint equipment. Examples of fall restraint equipment and the components thereof are set forth in copending U.S. patent application Ser. No. 12/329,883 (entitled “A Gangway and Method of Manufacturing Same” and filed on Dec. 8, 2008), Ser. No. 12/468,704 (entitled “Fall Restraint Equipment Component and Method for Manufacturing the Same” and filed on May 19, 2009), Ser. No. 12/487,408 (entitled “Fall Restraint Equipment Component and Method for Manufacturing the Same” and filed on Jun. 18, 2009), Ser. No. 12/537,842 (entitled “Fall Restraint Equipment Components and Method for Manufacturing the Same” and filed on Aug. 7, 2009), Ser. No. 12/552,811 (entitled “Gangway Handrail and Method for Manufacturing the Same” and filed on Sep. 2, 2009), Ser. No. 12/837,480 (entitled “Mobile Access Unit and Cage” and filed on Jul. 15, 2010), 61/366,612 (entitled “Gangway Bearing Retainer Plate” and filed on Jul. 22, 2010), and 61/374,541 (entitled “Articulating Cage” and filed on Aug. 17, 2010). The entire disclosure of each of the foregoing applications is hereby incorporated by reference as if set forth verbatim herein.
The present invention recognizes and addresses the foregoing considerations, and others, of prior art construction and methods.
In this regard, one aspect of the present invention provides a gate that may change sizes and be mounted in different configurations.
Gangway 100 may be placed over a storage container from above according to one embodiment. Storage container (not shown) typically may contain material, such as particulate matter, to be unloaded from the container's top. A platform 102 of gangway 100 provides user 114 an area to walk on gangway 100.
Additionally, as illustrated in
It should be understood that each gangway may include one or more perpendicular-mounted gates and/or one or more parallel-mounted gates. For example, as illustrated in
The supporting arms 404, 406 may be a hollow tubular piece of continuous metal. These supporting arms 404, 406 are each configured to receive one end of adjustable arm member 402. As illustrated in
Continuing with
Referring back to
The stop system may include a base member 414 and a stop member 416. The base member 414 is configured to extend from the adjustable arm 412 toward the hinge. This allows a message to be displayed, to function as a handle or any other manner. The stop member 416 is configured to extend a distance away from the hinge and away from the end of the adjustable arm 412. This allows the stop member 416 to hit rail 108 so that gate 111 will rest against rail 108. Gate 111 therefore may only swing in one direction (e.g., toward the interior of the cage and not exterior to the cage).
The hinge system 900 may include an outer hinge portion 408 and an inner hinge portion 800. Outer hinge portion and inner hinge portion 800 may both be a tubular piece of metal. The outer hinge portion 408 is configured to receive the inner hinge portion 800. In this regard, the outer hinge portion 408 is hollow and has an interior cavity. The interior cavity of outer hinge portion 408 has a diameter that is greater than or equal to the diameter of inner hinge portion 800. This allows inner hinge portion 800 to be completely inserted into the interior cavity of outer hinge portion 408. The inner hinge portion 800 and outer hinge portion 408 will now be described below according to some embodiments.
The tubular piece of metal of inner hinge portion 800 may be scored or cut (at a “cut location”) so that a first portion of the inner hinge portion 800 can rotate relative to a second portion of the inner hinge portion 800. When the first portion of inner hinge portion 800 does rotate relative to the second portion of inner hinge portion 800, potential energy is created so that a force is exerted on both the first and second portions of the inner hinge portion 800 in a direction to rotate the first and second portions back to the original home or rest position. The inner hinge portion 800 may have one or more scores or cuts to vary the rotational forces on the inner hinge portion 800.
Additionally, inner hinge portion 800 may include at least one pin to be attached thereto as illustrated in
Inner hinge portion 800 also includes a first end and second end. At the first and second ends of the inner hinge portion 800, an attachment system is defined or disposed in the inner hinge portion 800 so that the inner hinge portion 800 is fixably attached to the supporting arms 404, 406. For example, as illustrated in
In one embodiment, as illustrated in
Additionally, as illustrated in
While hinge system 900 is described above and illustrated in the figures as being the hinge of the gates, it should be understood that any other hinge system may be employed instead of hinge system 900 so as to allow supporting arms 404, 406 (as well as adjustable arm member 402) to rotate relative to rail 108.
It should be understood that a spring-loaded pin not be required for the gate to be adjustable. The pin may not be fixed to adjustable arm member 402 and as such may be a fixable member, such as a cotter pin, a straight pin or other device which is simply inserted in an aligned aperture 500 defined in arm 404, 406 and hole 1130, 1132 defined at end 1116, 1122 respectively. For example, as illustrated in
It should be noted that any other securing mechanism may be employed instead of a pin and aperture system and the present invention should not be limited, as discussed later with regard to
As illustrated in
As illustrated in
To release the compression member 1600 from supporting arm member 404 the tool is again inserted into screw portion 1615 and the tool is rotated in an opposite direction to reduce the diameter of compression fitting 1603. This also reduces the compression and thus the diameter of compression member 1600 until the outer surface of compression member 1600 is no longer compressed against the interior surface of the supporting arm 404. The tool may then be removed and the adjustable arm may then be moved to a different position or removed from supporting arm 404. It should be understood that the adjustable arm 402 may be moved to any continuous position within supporting arm. After moving the end 1116 or 1122 within the supporting arm 404, 406 respectively, the tool may be reinserted into the screw portion and turned again to lock the adjustable arm member 402 into place relative to the supporting arms 404, 406. It should be understood that the tool may be used to tighten a compression member 1600 in arm 404 and/or in arm 406.
It should be noted that the hinge may be mounted either on rail 108 or 110 and that the gate may swing either in one direction (e.g., toward rail 108) if mounted to rail 108 or may swing in the opposite direction (e.g., toward rail 110) if mounted to 110. In this regard, the gates described herein may be universal with regard to the swinging direction. Additionally, the gate is further universal in that the length is adjustable to fit any opening or accessway as previously discussed. The gate may be parallel mounted so that the gate, when closed, does not extend into the cage (or interior walkway) area at all. However, in the case where a user wants to use the complete opening (i.e., the space from the edge of the opening or accessway at rail 108 and the edge of the other side of the opening/accessway at rail 110), the gate may be perpendicularly mounted. This allows the hinge to not be disposed in the plane defined by the area between rail 108 and 110. As such, if there are items that need to be transported through the opening or accessway between rails 108 and 110 and such items are the width of the opening or accessway, the hinge of the gate does not take substantially any of the accessway or opening area since it is perpendicularly mounted thereto.
The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate one or more embodiments of the present invention. While one or more preferred embodiments of the invention have been described above, it should be understood that any and all equivalent realizations of the present invention are included within the scope and spirit thereof. The embodiments depicted are presented by way of example only and are not intended as limitations upon the present invention. Thus, it should be understood by those of ordinary skill in this art that the present invention is not limited to these embodiments since modifications can be made. Therefore, it is contemplated that any and all such embodiments are included in the present invention as may fall within the scope and spirit thereof.
This application claims the benefit of priority to U.S. Provisional Patent Application No. 61/599,276 filed on Feb. 15, 2012 and which is incorporated herein by its entirety.
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