ADJUSTABLE CLIMBING STAND
A climbing apparatus includes a mast having a plurality of mast segments operable to vertically stack one after another. Each segment includes a stand-off to abut against a climbing object and form a space for receiving a strap to secure the mast to the climbing object. The apparatus includes a platform assembly having a (i) a platform, (ii) a seat spaced apart from the platform, and (iii) a frame connecting the seat to the platform. An upper trolley is provided for independent mobility up and down along the mast. The upper trolley includes a first brake connected to a handle operable to actuate movement of the trolley. A lower trolley is provided and is operable for independent mobility up and down along the mast relative to the upper trolley. The lower trolley includes a second brake and is connected to the frame of the platform assembly.
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This Application claims priority to and the benefit of U.S. Provisional Patent Application No. 62/665,861, titled “ADJUSTABLE CLIMBING STAND,” and filed on May 2, 2018, the disclosure of which is incorporated herein by reference in its entirety for all purposes.
TECHNICAL FIELDThe present disclosure relates generally to the field of hunting, wildlife viewing, and climbing and in particular to an apparatus, system, and method for safely climbing to a higher location.
CROSS REFERENCE TO RELATED APPLICATIONNone
DESCRIPTION OF RELATED ARTA climbing apparatus is often used in hunting to aid in achieve a higher vertical position for better visibility, improved concealability, and improved target angles, The climbing apparatus is typically used to aid a person in scaling a vertical member such as a tree or pole. Three typical versions of a climbing apparatus include a hang-on tree stand (also referred to as hang-on platform style), a climbing tree stand, and a tripod. Existing hang-on tree stands, although suitable for most trees and can be small and compact, have risky two-handed set up and generally do not offer a harnessed climbing/setup which makes them unsafe. A standard climbing tree stand allows for ground level set up and increased height capacity, however, they typically require a certain type of tree with limited or no branches, do not function well when trees taper, and tend to be bulky. A tripod style tree stand requires timely set up, are at a fixed height and usually not very portable.
Current devices offering portability are often bulky and lack an integrated solution. Hang-on platform styles require separate large climbing sticks that were not necessarily made to work together. During climbing and assembling of the climbing sticks the climber's ability to secure themselves in case of a fall is limited and complicated if possible at all. Further the platform must be affixed at an elevated level with limited use of the hands. This usually requires the climber to leave the platform on the ground while ascending with a tow line. Once at the desired position the climber retrieves the platform via the tow line while holding on with one hand. Altogether this is a complicated, physical, and time consuming task which is further complicated during low light installation periods.
Climbing stands are bulky and require an ideal vertical member therefore limiting the number of available trees. This member cannot have any horizontal members, such as branches, between the ground and the desired position. A cross section of the tree is preferred to be consistent or have very little taper from bottom to top. This is because it is difficult to adjust the gripping system safely once elevated. It is also advantageous to have a relatively smooth and robust surface on the vertical member. Finding the right tree is therefore difficult. These types of stands cannot be left unattended where security is a concern and it is not possible to leave them elevated to reduce the chance of theft.
U.S. Patent Application No. 2015/0361722 to Dennis Chick is directed to a portable free standing elevated observation platform that incorporates a dual A-frame extension ladder with an upper elevated platform, the elevated platform serving as a framework for a wheeled axle and having a pivotal floor for below platform access, the dual A-frame extension ladder providing an extending rear frame support, a front frame support and a plurality of guy wires and anchors providing the platform with an elevated view of an area without the attachment or support of a tree.
U.S. Pat. No. 7,909,139 to Blue, et al., is directed to a powered lift platform that includes a platform, and at least one guide rail section in operative contact with the platform. Each of the at least one guide rail sections include at least one guide rail and in which a first end of each of the guide rail sections is configured to removably attach to a second end of a second guide rail section. The lift platform also includes a lift mechanism supported by the platform, a lift guide in operative contact with the lift mechanism and attached to the upper portion of the upper guide rail, and a power supply to operate the lift mechanism. In one form, at least one wheel is operatively attached to the powered lift platform. Blue further discloses a method for securing the powered lift platform to a columnar-like support.
U.S. Patent Application No. 2007/0256892 to Michael G. Breedlove, Sr. discloses a ladder stand structures having a ladder assembly and a platform assembly which may be secured in a plurality of positions as the platform assembly is raised or lowered in sliding engagement with the ladder assembly, and an enhanced method of assembling such ladder stand structures.
U.S. Patent Application No. 2007/0095611 to Oertwig discloses a portable, elevating stand is constructed of a platform movably connected to a generally columnar upright support having a height along which movement of the platform is constrained. Connection between the platform and upright support may be through a linkage assembly comprising channels in which are positioned flange portions of the upright support, such flange portions being located along a majority of the height of the upright support. The platform assembly may be driven by a portable electric motor, including the use therefor of a hand-held electric drill, which is carried onto the platform assembly prior to use of the elevating stand. Oertwig further discloses a method of raising and lowering a portable, elevating stand that includes carrying onto the platform assembly a portable motor, engaging the motor with a means for raising or lowering the platform assembly, and operating the motor to effect raising or lowering of the platform assembly.
Despite these attempts to solve the problems associated with a climbing apparatus, none of these teach or suggest an apparatus, system, and/or method having the benefits and features of the present disclosure.
SUMMARYThe present disclosure provides for a climbing apparatus for use in hunting and the like. The climbing apparatus includes: (a) a mast constructed of a plurality of detachable elongated mast segments operable to vertically stack one after another, wherein each mast segment includes a stand-off to abut against a climbing object and form a space for receiving a strap to secure the mast to the climbing object; (b) a platform assembly including (i) a platform operable for standing, (ii) a seat spaced apart from the platform, and (iii) a frame connecting the seat to the platform; (c) an upper trolley operable for independent mobility up and down along the mast, the upper trolley having a first brake mechanism connected to a handle operable to actuate movement of the trolley; and (d) a lower trolley operable for independent mobility up and down along the mast relative to the upper trolley, the lower trolley having a second brake mechanism and connected to the frame of the platform assembly, the lower trolley operable for independent mobility up and down along the mast.
In an example, each of the first and second brake mechanisms engage the mast through a brake pad actuated by the handle and wherein the handle and wherein the handle includes a brake actuating handle. In another form, either the upper or lower trolley includes an over travel catch actuated by a spring for engaging an over travel hole formed on the mast segment. The mast segment can define a configuration selected from the group consisting of cylindrical, ladder shape, rectangular longitudinal C-shape, and combinations thereof. In a further example, each of the first and second brake mechanism is selected from the group consisting of hydraulic brake, radial brake, translation brake, latch type brake, leverage brake, and combinations thereof. In one form, the latch type and leverage type brake further include a release mechanism for release of a binding function In yet another form, the release mechanism can be activated from an advanced trolley by a lever, connected by a cable, to the release mechanism. The frame of the platform assembly can define a shape selected from an H-frame or a single post. The seat of the platform assembly is removable and rotatable relative to the mast.
In another example, the apparatus includes support cables extending from the frame to the platform. The support cables can be connected to a platform level handle to be gathered up by the platform level handle and control a level of the platform. The platform assembly can be foldable for convenient stowing and carrying, and the mast segments can be detachable into a stackable and storable arrangement with the foldable platform assembly. Each mast segment includes a lower end and an opposite top end. Each lower end is tapered to allow for nesting the lower end into an opening formed on the top end of an adjacent mast segment. At least one mast segment further includes a slide fob connected to a nested lower end adapted for added motion to allow for additional adjustability/flexibility. In yet another example, either the upper or lower trolley further includes a manual parking brake handle and an emergency brake handle, each operable to engage and actuate the first and second brake mechanism, respectively.
In still yet a further example, the apparatus further includes a detachable seat (like a saddle or bike seat) that connects to the mast through an additional third trolley having a third brake mechanism and movable up and down the mast independent from any other trolley. Each of the upper and lower trolleys can further include features to accommodate a harness connection point operable to secure a harness of a user for safety. In yet another form, a universal mounting bracket and adjustable tilt plate are provided, wherein a mounting bracket trolley connects the universal mounting bracket to the mast and allows for retrofitting a different platform assembly to the mast.
The present disclosure provides for a tripod accessory having a mast cap connected to tripod extension cables that extend to tripod base members and are operable for securing the mast in an upright freestanding configuration for climbing in the absence of a climbing object. (i.e. tree). In an example, the present disclosure provides for a method of climbing to a desired height using the tripod climbing accessory. The method includes the steps of: (a) setting up a base formed by the base members on ground with a setup tube at a lowest position; (b) connecting at least two mast segments forming the mast; (c) placing the mast into the base with assistance of the setup tube; (d) connecting the upper and lower trolley to at least one of the mast segment; (e) adding additional mast segments with optional trolleys to the mast; (f) placing a mast cap onto on an upper most mast segment; (g) adding the upper most mast segment with cap to the mast; (h) raising the setup tube to an install position; (i) lifting the installed mast segments with a setup assist handle; (j) adding mast segments vertically one by one; (k) moving the upper trolley to a desired location followed by engaging the brake of the upper trolley to hold in place; (l) raising the lower trolley and thus the platform assembly to a desired position up the mast followed by engaging the brake of the lower trolley to hold in place; (m) repeating steps (k) and (l) until a desired height is reached; (g) optionally securing a harness to the upper trolley through a harness connection point for added safety at step (k); and (h) optionally using a motorized unit connected to the upper trolley to move up/down the lower trolley and thus the platform of step (l).
The present disclosure provides for a climbing apparatus wherein at least one of the upper or lower trolley is motorized. The apparatus can further include a control panel for the motorized trolley, wherein the control panel is made operable for actuation of up, down, unlatch and wireless communication to a remote controlling device. The control panel may further accommodate a power outlet for powering or charging an external device, In a further example, a removable power source (battery pack) is employed to provide energy for the motor.
In yet another example, the climbing apparatus further includes a telescoping and folding ladder attachment. The ladder attachment can be a rope. In still yet an even further example, the apparatus includes a plurality of additional trolleys which are utilized for customization and use of additional components, wherein the plurality of additional trolleys allow for more trolleys operable to fit on the mast and; wherein a the plurality of additional trolleys can operate independently, or connected to work together with respect to the other trolleys, or any a combination thereof. The upper and lower trolleys can be ganged together by a cable of sufficient strength to support a user and accessories and optionally include a motorized unit, wherein the cable is then gathered up or released by the motorized unit.
Each standoff of the mast can be removable or collapsible to be more compact. The mast can be cylindrical allowing for the upper and lower trolleys to rotate about a vertical axis defined by the mast. The platform assembly can include sliding brackets at a joint of the frame and the platform to render inoperable the folding function during operation. The sliding brackets can be are supported by a detent for retention in either the engaged or unengaged position. In one example, the apparatus further includes a detachable shooting rail with hoop seat.
The present disclosure further provides for a method of climbing an object (i.e., tree) using a climbing apparatus of any of previously described apparatus. The method includes the steps of: (a) connecting at least two mast segments forming the mast; (b) connecting the upper and lower trolley to the mast; (c) adding mast segments one by one in an upward trajectory; (d) strapping each mast segment to the climbing object using a strap; (e) moving the upper trolley to a desired location followed by engaging the brake of the upper trolley to hold in place; (f) raising the lower trolley and thus the platform assembly to a desired position up the mast followed by engaging the brake of the lower trolley to hold in place; (g) repeating steps (e) and (f) until a desired height is reached; (h) optionally securing a harness to the upper trolley through a harness connection point for added safety at step (b); (i) optionally using a motorized unit connected to the upper trolley to move up and/down the lower trolley and thus the platform of step (f).
The present disclosure further provides for a harness for a climber that includes a modification to accept attachment of any of the previously described apparatus. The harness includes a folded platform and mast segments for carrying.
For purposes of summarizing the disclosure, certain aspects, advantages, and novel features of the disclosure have been described herein. It is to be understood that not necessarily all such advantages may be achieved in accordance with any one embodiment of the disclosure. Thus, the disclosure may be embodied or carried out in a manner that achieves or optimizes one advantage or group of advantages as taught herein without necessarily achieving other advantages as may be taught or suggested herein. The features of the disclosure which are believed to be novel are particularly pointed out and distinctly claimed in the concluding portion of the specification. These and other features, aspects, and advantages of the present disclosure will become better understood with reference to the following drawings and detailed description.
The figures which accompany the written portion of this specification illustrate embodiments and method(s) of use for the present disclosure constructed and operative according to the teachings of the present disclosure.
The various embodiments of the present disclosure will hereinafter be described in conjunction with the appended drawings, wherein like designations denote like elements.
DETAILED DESCRIPTIONThe present disclosure provides for a system and a climbing apparatus used to aid a person in scaling a vertical member or climbing structure such as a tree or pole. In an example, the climbing apparatus is comprised of a multi-piece mast and trolley system. The mast can be broken down into a plurality of detachable mast segments that stack and secure to each other to allow for a vertical accent. The trolley then follows and securely slides up the mast. In an example, the trolley portion is modular and load bearing. The trolley should be made operable to support multiple embodiments to be used individually or as a system. The trolley or set of trolleys should be constructed to support a user (i.e., a climber), a handle, a supporting rail (shooting rail), a seating assembly, and/or platform to support a climber. The trolley can have an integrated or separately adapted guide feature to keep the trolley restricted to following a mast. The trolley can include mechanical or electro-mechanical braking, binding, or latching function to control the ascent or decent of the climber. The system often includes at least one upper trolley and at least one lower trolley. The upper trolley can also support attachment of a climbing harness and/or repelling gear. A platform trolley can further be provided to give support to broken down mast sections and/or gear. The mast segments can be taken apart to allow for folding to create a compact shape for easy packing and handling. Further attachments are equipped to accommodate shoulder and hip straps for back packing comfort. In yet another form of the present disclosure, a platform, handle, and/or supporting rail trolley are provided that can be equipped with a padded seat for added comfort and/or convenience.
In this example, the mast includes a plurality of mast segments that can be disassembled and compact easily together to promote packing convenience. Mast segments are typically elongated metallic, alloy, and/or plastic/composite members that define by various cross sections for supporting the trolley. Two detachable mast segments can be combined by inserting a reduced cross section end, also referred to as a tapered end, of one mast portion into a standard cross section end of a second mast portion. This forms mating ends with a male and female end portions sized and shaped to provide a stackable mast segment. This can be repeated until a desired climbing height is reached and thus forming a climbable mast. Each mast segment has a support piece for attachment to a vertical member or climbing object existing at the standard cross section end. Optionally, a singular hole opposite of the support piece can be used as a fail-safe preventing trolley travel past a final portion.
In an example of operating the climbing apparatus of the present disclosure for hunting or climbing a tree, the detachable mast segments offer a benefit. Having detachable and sometimes shorter mast segments to form an elongated vertical mast allows for climbing of a variety of trees including ones considered “imperfect” of varying diameter and straightness. This allows for a tree selection that offers other advantages like better concealment or hiding.
The present disclosure provides for using a hand trolley and platform trolley together along the mast. This allows for a climber to scale a vertical member, such as tree or otherwise. The platform is adapted to support the climber's weight while the hand trolley is advanced along the mast. The hand trolley supports the weight of the climber (and any belongings carried by the climber) while the platform trolley is advanced upward. In a further example, the apparatus can be designed for self-advancement through the utilization of an electro-mechanical system.
Referring to
-
- 10—Climbing apparatus/system
- 11—Mast
- 12—Mast segments (which can be a tube of a hallow body having openings sized and shaped for stacking)
- 12A—Upper end of mast segment (opening sized to receive tapered lower end 12B of an adjacent mast segment 12)
- 12B—Lower end of mast segment (having a tapered end for mating and nesting securely fitting within an upper end 12A of an adjacent mast segment 12)
- 13—Upper trolley
- 14—Handle, also referred to as Hand rail (brake actuation)
- 15—Stand assembly
- 16—Platform
- 17—Seat
- 18—Lower trolley
- 19—H frame (adds stability) connects seat to platform
- 19A—Single post frame
- 20—“Virtual feet”
- 21—Foot strap (Belt)
- 22—Support cables
- 23—Tapered section for inserting into opening of adjacent mast segment
- 24—Standoff (tree or the like)
- 25—Over travel hole
- 26—Slide fob (creates added adjustability (for example, about 2 inches))
- 27—Space between mast segment and standoff
- 28—Brake mechanism
- 28A—Hydraulic brake
- 28B—Radial brake
- 28C—Translation brake
- 28D—Latch brake
- 28E—Leverage brake
- 29‘Brake housing
- 30—Body/Chassis (surrounds and engages mast segments)
- 30A—First rounded body portion
- 30B—Second rounded body portion
- 31—Brake pad (internal, engages mast upon actuation)
- 32—Slide (creates offset to allow for movability)
- 32A—Wheels to allow for movability (alternative to Slide of 32)
- 33—Over travel catch
- 34—Parking brake handle (circular, manually engages with added force)
- 35—Emergency brake handle (generates binding force against mast; optional)
- 36—Platform level handle
- 37—Platform anti-tilt bracket with detent
- 38—Tilt bracket
- 38A—Tilt opening to allow for adjustability
- 39—Universal mounting bracket
- 40—Seat/saddle
- 40′—Strap seat
- 42—Electric motor assembly/unit
- 43—Tripod accessory
- 44—Tripod base members
- 44A—Distal end of base member
- 45—Tripod extension cables
- 45A—Cable tensioner
- 46—Set-up tube braces
- 47—Harness attachment point
- 48—Motor housing
- 49—Control panel with up, latch engagement, and down push buttons
- 50—Battery housing
- 51—Planetary gear train (×4)
- 52—Cable drum
- 53—Set-up assist handle
- 53A—Set-up assist tube
- 54—Stake hole
- 111—Mast cap
- 112—Ladder catch
- 112A—narrower end that nests with an upper section of 112
- 113—Ladder trolley assembly
- 114—Ladder catch handles
- 115—Tilt bracket
- 116—Catch
- 119—Parallel and spaced part squared rails hat extend upward
- 120—Spacer for abutting against tree or another object
- 121—Horizontal bridge segment
- 153—Motor
- 154—Electromechanical release of locking mechanism
- 170—Ribs for controlling stand rotation, spaced apart slots allow for reduction in tube rigidity for added flexibility.
- 190—Hinged connection point that mates with 191 (one male, one female)
- 191—Hinged connection point that mates with 190
- 211—Reinforcement ring for structural support
- 212—Rectangular latch
- 213—Latch trolley
- 214—Latch handles
- 215—Latch features
- 216—Latch spring
- 217—Latch release
- 219—Latch rads
- 221 Reinforcement ring for structural support and added strength
- 225—Latch holes
- 300—Telescoping ladder assembly
- 310—Ladder segments
- 320—Support braces
- 400—Leverage type climbing assembly
- 410—Leverage type rectangular mast
- 420—Leverage style climbing arm
- 422—Distal end of arm 420
- 424—Protruding catch
- T—Tree/Climbing object
The present disclosure provides fora portable and collapsible climbing system, assembly, and apparatus operable to assist in reaching a higher vantage point which is useful and advantageous for sports like hunting. In one example, a climbing apparatus 10 includes a mast 11 adjustably connected to a stand platform 15 and a hand trolley 13. Mast 11 extends upwardly from a base level, typically the ground. Mast 11 is fabricated from material strong enough to support a platform assembly 15, a user of apparatus 10 (i.e., a climber), and any equipment carried by the user. A total weight of a user, equipment, and the platform assembly may exceed 200 lbs. and in some circumstances, the total weight exceeds 300 lbs. Mast 11 can be fabricated from a material selected from the group consisting of metal (steel, steel alloys, aluminum, aluminum alloys, etc.), plastic, composite materials, and the like.
Mast 11 is formed of detachable mast segments 12 that connect vertically in a relatively linear progression upwardly. Segments 12 can be fixed, as shown in
As shown in
In this example, mast 11 is formed of a plurality of mast segments 12 defining a length of about 24 inches. Each segment 12 is stacked on top of an adjacent segment 12 through a tapered connection 23 inserted into the opening formed at upper end 12A.
Apparatus 10 further includes at least one trolley 13 operable for moving up and down along mast 11. Trolley 13, as shown in
As shown in
Climbing apparatus 10 further includes a platform assembly 15 having a platform 16 connected to a seat 17 through a frame 19. In one form, frame 19 can be an H-frame for added stability and support or a single post 19A as shown in
Assembly 15 further includes a lower trolley 18 that effectively functions like upper trolley 13 having the same components such as a handle, a brake mechanism, and brake body connected to the mast 11. The lower trolley 18 is mounted to the H-frame and positioned between the support posts that form the H-frame.
During climbing, a user can secure their feet (virtual feet 20) to platform 16 by placing their feet 20 under the strap 21 and facing the mast 11. The user can manually raise handle 14 upwardly by disengaging the brake mechanism 28 of upper trolley 13 and sliding it upward along mast 11. When the trolley 13 stops either through braking action or by engaging the catch 33 into the travel hole 25, the user can then pull platform assembly 15 upward by temporarily holding their weight on trolley 13 with their hands and pulling the platform assembly 15 with their feet 20 until the platform locks into place on mast 11. This action is then repeated until a desired height along mast 11 is reached. The mast segments 12 are then added one by one as the user ascends upwardly. This process is reversed for coming down the mast 11. In this example, the upper trolley 13 and lower trolley 18 function independently with respect to each other and thus allow a degree of freedom for the user. Moreover, each time a mast segment 12 is added, a strap (not shown) can be used to secure mast 11 to the climbing object T. The apparatus 10 further allows for the user to secure their body to the mast 11 through a safety harness (not shown) connected to one or both trolleys.
Referring to
Referring to
In the example of
In yet a further example, a harness attachment point 47 is shown positioned above the saddle 40 thus allowing for securing a user harness (not shown) to the mast 11. The harness attachment point 47 is mounted to another trolley to further avow for independent movement up mast 11. This embodiment shows that a plurality of trolleys can be utilized to move up and down the mast 11 for added climbing features and customization of apparatus 10.
In yet another example, as shown in
Ladder mast segment 112 includes a pair of parallel and spaced apart squared rails 119 that extend upward and are connected by a plurality of horizontal bridge segments 121. The ladder trolley assembly 113 includes a ladder catch handle114 and an optional tilt bracket 115. A catch 116 is provided to engage the bridge segment 121 as the trolley 113 moves upward along the mast segment 112. Ladder mast segment 112 further includes a spacer 120 for abutting against tree or another object. The ladder trolley assembly 113 defines a squared bracket portion that engages around the rails 119. A space is formed to allow for movement up and down over the spacer 120 when moving from one segment 112 to the next. Lower section 112A is reduced in size and/or tapered to mate with and securely next and engage with an opposite upper section of an adjacent mast segment 112 thus allowing for vertical stacking.
Rectangular latch segment 212 defines a rectangular cross section forming an opening for receiving a latch type trolley assembly 213 Latch trolley includes a squared handle 214 and a latch connector feature 215. The latch connector feature 215 is spring loaded by latch spring 216 that forces the latch connector features to extend outwardly and into the plurality of latch holes 225 positioned along the outer rails 219 of the latch segment 212. The latch features 215 include a ramped surface to recess inward against the spring when actuated by the handle so trolley 213 can move upward along mast segment 212. When the feature 215 is aligned with a hole 225, the force of the spring 216 causes the features to extend and protrude outwardly engaging and locking into the rails 219. A catch 217 allows for the features 215 to be retained to lower trolley 213 down the mast segment 212. Pulling up on the catch 217 releases the latch 215 to protrude outwardly engaging and locking into the rails 219. Mast segment 212 further includes a hinged connection 190 and 191 positioned at opposite ends that mate with an adjacent mast segment 212 to securely engage with an opposite hinged connection 190 and 191 of the adjacent mast segment 212 thus allowing for vertical stacking.
The various examples of a climbing apparatus, system, and method of the present disclosure provides for several advantages over existing products including but not limited to:
-
- interchangeable independent or integrated trolley platform structure;
- a mast structure with low profile or collapsible vertical members and stand offs;
- a hand and/or support rail trolley(s) to aid ascent & descent, also supports safety harness and/or repelling gear;
- an optional saddle trolley, alone or in addition to other trolley(s), for infinitely variable seating heights;
- trolley can include a brake mechanism having any of a friction brake, latching style brake, binding brake, ladder rung catch (with under rung latching bar), or the like, including an optional emergency brake;
- electro-mechanical lift device (i.e., a winch with cable connected from platform to hand trolley);
- a tripod base accessory and support top with cable guide wires to mechanically constrain a free-standing mast and trolley construction;
- a stand leveling features such as adjustable cable length (X axis), tilt bracket (Y axis), and saddle trolley (Z axis);
- a rope ladder, telescoping ladder, and/or folding ladder to access platform when left raised for extra stealth and security;
- a structure to support gear during ascent/descent;
- a structure to support organized packing of components for portability;
- a combination ratchet/cam strap with quick attach hook for speedy and tight tree attachment (optional locking mechanism) (not shown);
- mounts to external tree harness as integral unit for packing into the hiking area;
- Improved safety including:
- stand is secured at ground level;
- climbing is performed with stand & equipment secured;
- climber is always safely harnessed even during set up;
- Improved portability including:
- shorter sticks (i.e., mast segments) for better packing;
- shorter sticks limit snagging potential;
- light-weight solution;
- Faster setup including:
- fasten sticks and climb with stand secured at same time;
- reduced noise to allow faster climb speed;
- tree can be imperfect aiding in quicker selection of tree;
- an imperfect tree often provides more concealment to the climber;
- Easier setup including:
- modular design allows any height;
- integrated gear supports;
- trolley has feature to ensure platform is level;
- the mast sets a limit to how high you can climb based on climber preference;
- Improved security including:
- stand can be left elevated when unattended; and
- stand can be locked in position.
It is important to note that various combinations of the disclosed features and components are contemplated and within the scope of the present disclosure. For example, a plurality of trolleys can be included in an example climbing apparatus 10 for the climbing of a plurality of components including a harness attachment point, a seat or saddle, a platform or other components. Each trolley can be independent from any other trolley or ganged together or any combination thereof and can be powered by a motor or manually. Moreover, each trolley can include a different brake mechanism from any other trolley.
It should be noted that the steps described in the method of use can be carried out in many different orders according to user preference. The use of “step of” should not be interpreted as “step for”, in the claims herein and is not intended to invoke the provisions of 35 U.S.C. § 112(f). Upon reading this specification, it should be appreciated that, under appropriate circumstances, considering such issues as design preference, user preferences, marketing preferences, cost, structural requirements, available materials, technological advances, etc., other methods of use arrangements such as, for example, different orders within above-mentioned list, elimination or addition of certain steps, including or excluding certain maintenance steps, etc., may be sufficient.
The embodiments of the disclosure described herein are exemplary and numerous modifications, variations and rearrangements can be readily envisioned to achieve substantially equivalent results, all of which are intended to be embraced within the spirit and scope of the disclosure. Further, the purpose of the foregoing abstract is to enable the U.S. Patent and Trademark Office and the public generally, and especially the scientist, engineers and practitioners in the art who are not familiar with patent or legal terms or phraseology, to determine quickly from a cursory inspection the nature and essence of the technical disclosure of the application.
Claims
1-20. (canceled)
21. A modular climbing apparatus comprising:
- (a) a plurality of connectable mast segments configured to stack one after another to form a mast extending vertically;
- (b) a platform assembly comprising (i) a standing platform, (ii) an optional seat spaced apart from the standing platform, and (iii) a frame connecting the seat to the standing platform;
- (c) an upper trolley having a handle and an upper brake, the upper trolley configured for independent mobility along the mast and the upper brake configured to bind the upper trolley to the mast, the handle configured to actuate movement of the upper trolley; and
- (d) a lower trolley configured for independent mobility up and down along the mast relative to the upper trolley, the lower trolley having a lower brake configured to bind the lower trolley to the mast;
- wherein the lower trolley is connected to the frame of the platform assembly.
22. The modular climbing apparatus of claim 21, wherein each of the plurality of mast segments is a cylindrical mast segment.
23. The modular climbing apparatus of claim 21, wherein each of the plurality of mast segments is a ladder mast segment.
24. The modular climbing apparatus of claim 21, wherein each mast segment includes a stand-off to abut against the climbing object and form a space for receiving a strap to secure the mast to the climbing object.
25. The modular climbing apparatus of claim 21, wherein the frame of the platform assembly is selected from the group consisting of: (i) a single post mounted to the lower trolley, and (ii) an H-frame having parallel vertical frame segments each connected to the optional seat and the standing platform and the vertical frame segments are connected by a horizontal movable bracket connected to the lower trolley.
26. The modular climbing apparatus of claim 21, wherein at least one of the upper brake or the lower brake are a leverage brake including a plurality of leverage brake plates and a compression spring configured to bind the plurality of leverage brake plates to the mast.
27. The modular climbing apparatus of claim 26, wherein at least one of the upper brake or the lower brake further includes a release mechanism for release of the binding and wherein the release mechanism is configured to be activated by a member selected from the group consisting of a lever, a cable, an electromechanical mechanism, and combinations thereof.
28. The modular climbing apparatus of claim 27, wherein the release mechanism includes a release cable engaging the plurality of binding plates configured for pulling the plates into alignment for descending down the mast.
29. The modular climbing apparatus of claim 26, wherein the upper brake includes the compression spring and the handle is configured to allow upward movement of the upper trolley when pushed up the mast segment causing the compression spring of the upper brake to compress and the plurality of leverage brake plates to align with the mast.
30. The modular climbing apparatus of claim 21, wherein at least one of the upper brake or the lower brake includes a brake pad configured to press against the mast and actuated by the handle.
31. The modular climbing apparatus of claim 21, wherein at least one of the upper brake or the lower brake is selected from the group consisting of hydraulic brake, radial brake, translation brake, and combinations thereof.
32. The modular climbing apparatus of claim 21, further comprising support cables extending from the frame to the standing platform, and wherein the support cables are connected to a platform level handle and configured to be gathered up by the platform level handle to control a level of the platform.
33. The modular climbing apparatus of claim 21, wherein each of the plurality of mast segments includes a lower end and an opposite top end and wherein each lower end is tapered for nesting the lower end into the top end of an adjacent mast segment.
34. The modular climbing apparatus of claim 33, wherein the plurality of mast segments includes a plurality of adjustable mast segments having a slide fob configured to move the lower end up and down within the mast segment for adjustability and removal of the adjustable mast segment without disassembling the mast.
35. The modular climbing apparatus of claim 33, wherein the slide fob is configured for adjustability up and down of about 2 inches.
36. The modular climbing apparatus of claim 21, further comprising a universal mounting bracket and adjustable tilt plate, wherein a mounting bracket trolley is configured to connect the universal mounting bracket to the mast and allows for retrofitting a platform assembly to the mast.
37. The modular climbing apparatus of claim 21, further comprising a tripod accessory having a mast cap connected to tripod extension cables that extend to tripod base members and configured for securing the mast in an upright freestanding configuration for climbing.
38. The modular climbing apparatus of claim 21, wherein the upper and lower trolley are ganged together by a cable of sufficient strength to support a user and accessories and wherein at least one of the upper trolley or lower trolley is a motorized trolley, wherein the cable is configured to be gathered or released by the motorized trolley.
39. The modular climbing apparatus of claim 38, further comprising a control panel for the motorized trolley, wherein the control panel is configured for actuation of up, down, unlatch and wireless communication to a remote controlling device; and wherein, the control panel can accommodate a power outlet for powering or charging an external device.
40. The modular climbing apparatus of claim 21, further comprising a plurality of additional trolleys configured for customization and use of additional components, wherein the plurality of additional trolleys are configured to fit on the mast and wherein the plurality of additional trolleys are configured to operate independently, connected to work together with respect to the other trolleys, or a combination thereof.
Type: Application
Filed: Apr 25, 2022
Publication Date: Aug 18, 2022
Applicant: Take It, LLC (Leslie, MI)
Inventors: Matthew Russel Hines (Byron, MI), Gabriel Andrew Kuschel (Leslie, MI)
Application Number: 17/728,875