The present invention relates to a stand to be used for hanging equipment used by divers.
Divers commonly have a range of equipment that must be taken with them to the dive location. After returning from a dive, it is preferable for the gear to be spread out to allow it to dry. When diving from a beach, it is desirable to support the drying gear off the ground to allow it to dry without getting coated in sand.
The present invention relates to a portable dive gear stand for use in situations such as the beach in order to allow the gear to be easily supported for drying.
According to one aspect of the present invention there is provided a dive gear stand comprising:
a frame including a main shaft supported vertically from a plurality of legs;
a first set of arm members each pivotally connected at a first end thereof relative to the frame; and
a set of arm supports each pivotally connected at a first end thereof to a second end of an associated arm member of the first set;
wherein each of the arm members of the first set is pivotable between a first position in which the arm member is oriented parallel to the main shaft and a second position in which the arm member extends outwardly from the main shaft and wherein each of the arm supports is pivotable between a first position in which it is parallel and adjacent the associated arm member and a second position in which it extends at an angle to the associated arm member such that a second end thereof is releasably engageable with the frame at a location above the first ends of the arm members to support the arm member in the second position.
Preferably the arm members extend upwardly and away from the main shaft in the second positions.
Preferably the legs are pivotally connected to the main shaft at first ends thereof such that the legs can be pivoted between a first position in which the legs are oriented parallel to the main shaft and a second position in which the legs extend at an angle outwardly from the main shaft.
In a preferred embodiment, first ends of the arm members of the first set and first ends of the legs are pivotally connected to a first collar slidably mounted on the main shaft.
Preferably each of the arm members of the first set is pivotable to a position in which it is parallel and adjacent one of the legs.
Struts are preferably connected from a lower end of the main shaft to a location on each of the legs between the first and second ends such that sliding motion of the main shaft up through the first collar causes the legs to move inwardly towards each other.
In a preferred embodiment, each of the arm members of the first set is provided with a plurality of notches along an upper edge thereof, each notch being provided to receive tubing of diving gear.
Preferably each of the notches comprises an inner portion being generally circular in shape to receive the tubing and a narrowed neck portion adjacent the first edge of the arm member.
In one embodiment, each of the arm supports comprises a pair of parallel elongate members joined at ends thereof by an interconnecting portion such that when an arm support pivots to the first position thereof, a portion of the arm member is received between the pair of elongate members.
A second collar may be provided on the main shaft, the second collar having hooks thereon with upwardly facing openings into which the interconnecting portions of the arm supports are received.
In one embodiment, the first set of arm members comprises three arm members at equal angular spacings around the main shaft and three legs are provided each adjacent one of the arm members.
Preferably each of the arm members of the first set is provided with an arm extension, each arm extension being pivotally connected to the second end of the arm member such that the arm extension is pivotable between an extended position in which the arm extension extends generally away from the second end of the arm member to a collapsed position in which the arm extension is folded back against the arm member.
The main shaft preferably comprises a lower portion, a central portion and an upper portion wherein the central portion is received for sliding motion within the lower portion and the upper portion is received for sliding motion within the central portion.
In a preferred embodiment, there is provided a second set of arm members adjacent the upper end of the central portion of the main shaft, the arm members of the second set being pivotable between a first position in which the arm members are oriented parallel to and adjacent the main shaft and a second position in which the arm members extend generally transversely to the main shaft.
Preferably there is provided a third set of arm members adjacent the upper end of the upper portion of the main shaft, the arm members of the third set being pivotable between a first position in which the arm members are oriented parallel to and adjacent the main shaft and a second position in which the arm members extend generally transversely to the main shaft.
Arm members of the second set preferably each include a slot extending inwardly from a distal end thereof for receiving a strap of an item of diving gear. The slots are preferably generally parallel to the arm members such that the slots extends horizontally inwardly from the end of the arm members when the arm members are in the second positions.
The arm members of the second set may be provided with serrations on upwardly facing edges. The arm extensions may also be provided with serrations on edges thereof.
Preferably each of the legs comprises an elongate member and includes a foot at a distal end thereof.
The invention will now be described, by way of example, with reference to the following drawings in which:
a is an upper perspective view of a dive gear stand in its opened configuration for use;
b is a side view of the dive gear stand of
a is an upper perspective view of the dive gear stand of
b is a side view of the dive gear stand in the configuration of
a is an upper perspective view of the dive gear stand with the upper portion of the main shaft retracted into the central portion;
b is a side view of the dive gear stand in the configuration of
a is an upper perspective view of the dive gear stand of
b is a side view of the dive gear stand in the configuration of
a is an upper perspective view of the dive gear stand showing the folding of arm extensions provided on the first set of arms;
b is a side view of the dive gear stand in the configuration of
a is an upper perspective view of the dive gear stand showing folding of the arm supports against the first set of arms;
b is a side view of the dive gear stand in the configuration of
a is an upper perspective view of the dive gear stand showing the first set of arms folded against the legs;
b is a side view of the dive gear stand in the configuration of
a is an upper perspective view of the dive gear stand showing the central portion of the main shaft retracted into the lower portion;
b is a side view of the dive gear stand of
a is an upper perspective view of the dive gear stand showing the process of folding the legs and sliding of the first collar up the lower portion of the main shaft;
b is a side view of the dive gear stand in the fully collapsed configuration; and
c is an upper perspective of the dive gear stand in the fully collapsed configuration.
Referring to the Figures, there is shown a dive gear stand 10 comprising a frame 12 and a plurality of arm members 14 on which dive gear can be supported in use.
The frame 12 comprises a main shaft 16 and a plurality of legs 18. The main shaft 16 comprises an elongate member and the legs 18 are pivotally connected at a first end thereof relative to the main shaft 16. In the embodiment shown, there are provided three legs 18. Each of the legs 18 also comprises an elongate member and includes a foot 20 at a second distal end.
The legs 18 are pivotally connected to the main shaft 16 at first ends thereof such that the legs 18 can be pivoted between a first position (as shown in
The main shaft 16 comprises a lower portion 22, a central portion 24 and an upper portion 26. Each of the lower, central and upper portions 22, 24 and 26 comprises a hollow tube. The central portion 24 is received for sliding motion within the lower portion 22 and the upper portion 26 is received for sliding motion within the central portion 24.
The legs 18 are pivotally connected to the main shaft 16 by a first collar 28 provided on the lower portion 22 of the main shaft 16. The legs 18 are pivotally connected to the first collar 28 and the lower portion 22 of the main shaft 16 can slide within the first collar 28. Each of the legs 18 is provided also with a strut 19 connected from a lower end of the main shaft 16 to a location on the leg 18 between the first and second ends thereof. The struts 19 are pivotally connected to the lower end of the main shaft 16 and the legs 18 such that sliding motion of the of the main shaft 16 up through the first collar 28 causes the legs 18 to move inwardly towards each other.
The frame 12 can therefore be collapsed from the in use position (as shown in
The arm members 14 are provided in a plurality of sets, each set being located at a different position along the main shaft 16. A first set 30 comprising three arm members 14 at equal angular spacings around the main shaft is provided connected to the first collar 28. Each of the arm members 14 of the first set 30 is pivotally connected at a first end thereof relative to the main shaft 16. The first ends of the arm members 14 are each pivotally connected to the first collar 28 adjacent an associated leg 18. As with the legs 18, the arm members 14 of the first set 30 are pivotable between a first position (as shown in
Each of the arm members 14 of the first set 30 is provided with an associated arm support 32. The arm supports 32 are each pivotally connected at a first end thereof to a second end of the associated arm member 14. Each of the arm supports 32 is pivotable between a first position in which it is parallel and adjacent the associated arm member 14 and a second position in which it extends at an angle to the associated arm member 14. As can be seen, each of the arm supports 32 comprises a pair of parallel elongate members joined at ends thereof by an interconnecting portion. When an arm support 32 pivots to the first position thereof, a portion of the arm member 14 is received between the pair of elongate members.
In the second positions thereof, second ends of the arm supports 32 engage with the frame to support the arm members 14 in the second positions. A second collar 34 is provided at an upper end of the lower portion 22 of the main shaft 16 to which second ends of the arm supports 32 can be engaged. The second collar 34 is provided with hooks thereon having upwardly facing openings into which the interconnecting portions of the arm supports 32 can be received.
The arm supports 32 thereby hold the arm members 14 of the first set 30 in the second position such that the arm members 14 extend upwardly and away from the lower end of the main shaft 16. The arm supports 32 extend upwardly from the second ends of the arm members 14 to the second collar 34 as can be seen in
The arm members 14 of the dive gear stand 10 are provided with features to aid with supporting items of diving gear. The arm members 14 of the first set 30 are each provided with a plurality of notches 36 along a first edge thereof, the first edge being the edge uppermost when the arm member 14 is in the second position. The notches 36 are sized to receive tubing such as the air hoses provided on diving gear so that this gear can be supported by inserting the tubing into one of the notches 36.
The notches 36 each comprise an inner portion 39 being generally circular in shape to receive the tubing and a narrowed neck portion 37 adjacent the first edge of arm member 14. The tubing can therefore be pressed through the narrowed neck 37 portion by slightly compressing the tube and the tubing is then retained in the inner portion 39 of the notch 36. The inner portion 39 is also located lower than the narrowed neck portion 37 so that tubing is received downwardly into the notch 36.
The diving gear stand 10 is also provided with a second set 38 of arm members 14 and a third set 40 of arm members 14. The second set 38 of arm members 14 is provided adjacent the upper end of the central portion 24 of the main shaft 16 and the third set 40 of arm members 14 is provided adjacent the upper end of the upper portion 26 of the main shaft. When the central portion 24 of the main shaft 16 is slid down into the lower portion 22, the second set 38 of arm members 14 is located adjacent the second collar 34. When the upper portion 26 of the main shaft 16 is slid into the central portion 24, the third set 40 of arm members 14 is located adjacent the second set 38 of arm members 14.
The second set 38 of arm members 14 comprises three arm members 14 spaced at equal angular spacings around the main shaft 16. Each of the arm members 14 of the second set 38 is pivotable between a first position in which the arm member 14 is oriented parallel to and adjacent the main shaft 16 and a second position in which the arm member 14 extends generally transversely to the main shaft 16.
The arm members 14 of the second set 38 also include features to aid in retaining items of diving gear. Each of the arm members 14 includes a slot 42 extending inwardly from a distal end. The slots 42 are generally parallel to the arm members 14 such that the slots 42 extend horizontally inwardly from the end of the arm members 14 when the arm members 14 are in the extended positions. The slots 42 may be used for receiving a strap on diving gear such as a diving mask. An inner portion of each the slot 42 is preferably lower than the opening of the slot 42 to aid in retaining the strap in the slot 42. The arm members 14 of the second set may also be provided with serrations 50 on an upwardly facing edge to aid in retaining items supported on the arm members 14.
The third set 40 of arm members 14 comprises a pair arm members 14 on opposite sides of the main shaft 16. Each of the arm members 14 of the third set 40 is pivotable between a first position in which the arm member 14 is oriented parallel to and adjacent the main shaft 16 and a second position in which the arm member 14 extends generally transversely to the main shaft 16.
The dive gear stand 10 is also provided with arm extensions 15 on each of the arm members 14 of the first set 30. Each of the arm extensions 15 comprises an elongate member pivotally connected to the second end of the arm 14. The arm extensions 15 are each pivotable between an extended position (as shown in
As shown in
In use, the dive gear stand 10 can be set up for example on the beach as shown in
When it is desired to pack up the dive gear stand 10, the arm members 14 of the second and third sets 38 and 40 can be pivoted to the first positions thereof and the upper and central portions 24 and 26 of the main shaft 16 slid into the lower portion 22 as shown in
It will be readily apparent to persons skilled in the relevant arts that various modifications and improvements may be made to the foregoing embodiments, in addition to those already described, without departing from the basic inventive concepts of the present invention.
Number | Date | Country | Kind |
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2010900181 | Jan 2010 | AU | national |
2010904609 | Oct 2010 | AU | national |
This application is a continuation of PCT application Ser. No. PCT/AU2011/000036 filed on Jan. 14, 2011 which claims priority to Australian Patent Application Nos. 2010900181, filed Jan. 19, 2010, and 2010904609, filed Oct. 15, 2010, all of which are incorporated herein by reference in their entirety.
Number | Date | Country | |
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Parent | PCT/AU2011/000036 | Jan 2011 | US |
Child | 13553367 | US |