The present invention relates generally to the field of water craft. More specifically, the present invention relates to articulating tops for water craft.
Boats can be equipped with some form of sun shade apparatus or other enclosure such as a top, canopy or bimini. Some tops can be moved between an extended, engaged, locked or radar position and a stowed, collapsed, unlocked or trailering position. Some tops are constructed out of tubular frames that articulate to at least two positions. Some such tops can be manually articulated to a desired position, while others utilize mechanical aids such as hydraulics or electric motors to power the apparatus into the desired position(s).
The manual articulation of tops often require a significant effort to move the top into the desired position(s). One common method for manually articulating a top is to manually lift the top into the desired state, such as an extended position. Then, the top can be secured in position by latching or locking a frame member, such as a bow, arm or strut, such as to hardware that is attached to the water craft. Such manual articulation requires significant strength to raise the top into position, and dexterity and balance to secure the top in position. Such manual articulation can be unsafe if undertaken by a single person.
Some tops have been designed such that they use gravity to pull the top into the stowed position when released from the extended position. However, when released, such tops violently collapse, which can injure someone in the path of the top, damage the top and/or the water craft or be noisy, potentially scaring away wildlife. Other tops may use powered mechanical systems to decrease or even eliminate the need for manual articulation. However, such powered tops are often cost prohibitive and may not be useable with all boat models, as such powered tops can require specific structural elements for mounting thereto and power.
Therefore, there is need for a cost effective top that decreases the effort required to manually articulate the top. There is also a need for a top that can be manually articulated by one person without a sudden collapsing of the top and that can be securely stowed, such as for transportation and storage.
It will be understood by those skilled in the art that one or more aspects of this invention can meet certain objectives, while one or more other aspects can lead to certain other objectives. Other objects, features, benefits and advantages of the present invention will be apparent in this summary and descriptions of the disclosed embodiment, and will be readily apparent to those skilled in the art. Such objects, features, benefits and advantages will be apparent from the above as taken in conjunction with the accompanying figures and all reasonable inferences to be drawn therefrom.
As seen in
In the embodiment shown in
The strut 24 is pivotally connected at its second end to the frame 10 or a collapsible assembly, for example the main bow 12. For example, the strut 24 may have a bore (not shown) formed in one end and a plastic hat-style washer (not shown) inserted in each side of the hole. A frame bracket is then secured to the main bow, such as by screws or bolts. The frame bracket has flanges sized to accept the strut with hat-style washers and each flange has a hole matching the hole in the hat-style washers such that mating shoulder bolts may be inserted through the holes in the frame bracket, hat-style washers and strut 24 to pivotally connect the strut to the main bow. When the frame 10 is moved from the collapsed position, the gas shock 22 is allowed to push the rod 26 further out which in turn pushes the strut 24 out of the tube 28 and causes the main bow 12 and frame 10 to move to its deployed position. When the frame 10 moved from its deployed position towards its collapsed position, the main bow 12 will push on the strut 24 causing the rod 26 to be pushed in or withdrawn further into the gas shock 22.
In one embodiment, the gas shock 22 could be designed to provide just less than the amount of force required to move the frame 10 from the collapsed position into the extended position such that only a small amount of additional force or effort is needed, for example by a person. Such force would also allow the frame 10 to be collapsed into the stowed position in a safe and controlled manner because the weight of the frame would only slightly overcome the force exerted by the gas shock 22. Therefore, only a small amount of force is needed, for example by a person, to stop or slow the collapse of the frame 10. In this embodiment, the gas shock 22 urges or biases the strut 24 to slide into the tube 28.
By way of another example, the gas shock 22 could be designed to provide a slightly greater force than needed to move the frame 10 from the collapsed position into the extended position such that only a small amount of additional force would be used, for example by a person, to stop or slow the articulation of the frame 10. Such force would also allow the frame 10 to be collapsed into the stowed position in a safe and controlled manner because only a small amount of additional force or effort is used to overcome the force of the gas shock 22. In this embodiment, the gas shock 22 urges or biases the strut 24 to slide out of the tube 28.
In the embodiment shown in
The support member 20 is shown attached at its second end to a mounting bracket 32. The second end of the gas shock 22 and/or the tube 28 can be attached directly to the marine vehicle or structure, e.g. a rail or fence, as seen in
Fixing or predetermining the relationship of the second ends of the main bow 12 and support member 20 can make installation easier because the proper relationship between the main bow and support member, e.g. angle formed by the main bow and mounting bracket 32 and distance between the second ends of the main bow and the support member, does not need to be determined or measured during installation. The proper relationship can also lead to increased safety and life of the frame 10 by, for example, inhibiting torqueing and proper distribution of the weight of the top on the main bow 12 and the support members 20. Fixing or predetermining the relationship of the second ends of the main bow 12 and support member 20 also allows a single sized support member to be used for a variety of sized tops and frames by adjusting the size of the mounting bracket 32.
The support members 20 can also include a locking member lock the support member in the closed position, such as when the frame 10 is deployed, and/or the opened position, such as when the frame is collapsed. In
When the frame 10 is in the deployed position and the handle 34 is in a first position or closed, as seen in
When it is desired to collapse the frame 10, e.g. when towing a marine vehicle to which the frame is attached, the handle 34 can be disengaged from the bushing by pulling the handle and rotating the handle away from the support strut as seen in
The handle 34 may also include a securing component to secure the frame 10 in a collapsed position. For example, as best seen in
As seen in
To secure the frame 10 in the collapsed position, the socket 42 of the handle 34 is slid over the deck button 44. As the deck button 44 contacts the lip 52, the force pushes the lip away from the deck button and thereby, moves the latch to rotate to allow the deck button to further enter the slot 36 through the socket 42. Once the top of the deck button 44 moves past the lip 52, the spring 50 will cause the latch to rotate towards engagement with the deck button such that the lip 52 slides under the top of the deck button to secure the handle 34 and, thereby, the frame 10 to the marine vehicle or structure to which the deck button is attached. This is the engaged position of the latch. Although the above example uses a deck button, the socket 42 and/or latch 46 could be sized and shaped to connect to a variety of structures.
To release the frame from the deck button, for example, to move the frame to the deployed position, the push button 48 can be depressed causing the lip 52 to retreat from or disengage the deck button 44 and slot 36. With the lip 52 out of the way, the handle 34 can be withdrawn from the deck button. This is the disengaged position of the latch.
The handle 34 can also have a biasing member. For example, as seen in
The contact surface 40 of the bushing 30 may also cooperate with the handle 34 and spring 54 to allow the handle to return to the closed position as the frame is being moved to the deployed position or to otherwise perform as a timing device. For example, as seen in the embodiment shown in
When it is desired to move the frame 10 from the deployed position to the collapsed position, the handle 34 can be pulled away from the strut 24. As the handle 34 is pulled away the raised edge 58 will ride along the bottom surface 38 of the handle until the raised edge reaches the rear interference 62 of the bottom surface. A slight increase in the amount of force used to pull the handle 34 forward may be required to cause the rear interference 62 to ride up, over and beyond or pass the raised edge 58. In one embodiment, once the rear interference 62 is past the raised edge 58, the handle 34 will be in the open position and the weight of the frame will push the strut 24 down into the tube 28 because the weight of the frame is slightly greater than the resistance provided by the gas shock 22. As the strut 24 is pushed into the tube 28, the spring 54 will urge the handle 34 to maintain contact with the raised edge 58. The raised edge 58 will ride along the rear side 64 of the handle. As the strut 24 is being pushed into the tube 28, the contact between the raised edge 58 and the rear side 64 of the handle will cause the handle to rotate away from the strut 24.
In the embodiment shown in
When it is desired to move the frame 10 to the deployed position, the push button 48 can be depressed to release the deck button 44. Once the deck button 44 is past the lip 52 and the frame is moved towards the deployed position, the strut 24 will be withdrawn from the tube 28. As the strut 24 is withdrawn, the raised edge 58 will be withdrawn from the depression 66 and the spring 54 will cause the handle to maintain contact with the raised edge. The raised edge 58 will then ride along the rear side 64 of the handle 34, as seen in
The profile of the rear side 64 of the handle 34 and contact surface 40 of the bushing 30 can be shaped and sized to accomplish many features, functions and benefits, as can the bottom surface 38, depression 66 and stop surface 68. For example, the rear side 64 could have a depression at a location other than the end of the handle 34 or have an increased slope if it is not desired to have as much of the strut 24 withdrawn from the tube 28 when the frame 10 is in the collapsed position.
Another embodiment of a securing component is shown in
Another embodiment of a locking member for locking the support member 20′ in the engaged position is shown in
To move the frame 10 from an deployed position towards the collapsed position, the bottom portion of the lever must be pressed in towards the strut 24, against the force from the spring 76, such that the lever 74 and strut 24 can fit within the bushing 30 and be slid down into the tube 28 as seen in
Another embodiment of a locking member for locking the support member 20″ in the engaged position is shown in
Although the invention has been herein described in what is perceived to be the most practical and preferred embodiments, it is to be understood that the invention is not intended to be limited to the specific embodiments set forth above. For example, although the support member is described as being used in a frame for a marine top, the support member could be used in a variety of applications including different collapsible structures. Rather, it is recognized that modifications may be made by one of skill in the art of the invention without departing from the spirit or intent of the invention and, therefore, the invention is to be taken as including all reasonable equivalents to the subject matter of the appended claims and the description of the invention herein.
This continuation application claims the benefit of and priority to Ser. No. 14/934,291, filed Nov. 6, 2015, which claims the benefit of and priority to U.S. Provisional Patent Application Ser. No. 62/076,971, the disclosures of which are hereby incorporated by reference, herein, in their entirety, for all purposes.
Number | Date | Country | |
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62076971 | Nov 2014 | US |
Number | Date | Country | |
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Parent | 14934291 | Nov 2015 | US |
Child | 15428375 | US |