This invention relates to exercise equipment and, more particularly, to a selectorized dumbbell having a user selectable exercise mass that is adjustable by selectively varying the position of a weight selector relative to a handle of the dumbbell. This invention further relates to a weight selector that is resistant to being inadvertently dislodged from the handle or incorrectly installed on the handle.
U.S. Pat. No. 5,637,064 to Towley et al, which is assigned to the assignee of this invention, discloses an existing selectorized dumbbell that is known as the PowerBlock®. In this dumbbell, there are a plurality of nested weights each of which comprises a left weight plate and a right weight plate that are joined together by a pair of front and rear rails. The left and right weight plates of the nested weights are disposed in nested left and right weight plate stacks that are spaced apart from one another by the length of the front and rear rails. The rails of successive nested weights are longer and lower than the rails of the weight immediately to the inside to allow the weights to be nested together in the aforementioned manner.
The selectorized dumbbell disclosed in the 064 patent includes a handle that is dropped down into the gap between the left and right weight plate stacks. The handle has a pair of planar ends that are spaced apart from one another but are rigidly joined to one another at least by a central hand grip that extends between the ends and is affixed thereto. Each end of the handle includes a vertical array of substantially horizontally extending slots. The various slots in the array are vertically spaced from one another such that one slot is below each of the rails.
A weight selector comprising a U-shaped connecting pin having a pair of spaced, parallel connecting prongs is provided. The prongs of the connecting pin are insertable into the set of slots beneath the rails of a selected one of the nested weights. When the user then lifts the handle, the handle will carry with it the selected weight and all of the nested weights whose rails lie above the rail of the selected weight. Thus, the user can easily adjust the total weight carried by the handle, to adjust the exercise mass of the dumbbell, simply by repositioning the connecting pin from one set of slots to another.
The use of an insertable pin is an effective weight selector for a selectorized dumbbell. However, while it is unlikely to happen, it is possible for a user to incorrectly install the U-shaped connecting pin by inserting one connecting prong on one side of the pin beneath the rails of the selected weight and the other connecting prong on the other side of the pin beneath the rails of the weight either above or below the selected weight. This is called cross-pinning. Since the weights are not correctly held in their most stable configuration when they are cross-pinned, there is a small possibility of damage or failure of the connecting pin and consequent dislodgement of the weights from the handle. This is obviously a disadvantage.
In addition, prior connecting pins of the type described above have incorporated magnets that are magnetically attracted to the rail to which the cross member of the connecting pin is adjacent when the connecting pin is correctly installed in the set of slots beneath the rails of a selected one of the nested weights. This magnetic attraction is designed to be strong enough to form a magnetic latch that holds the connecting pin in place when the user is exercising with the dumbbell. However, the use of magnets increases the manufacturing cost of the connecting pin and increases the danger of disconnection in a cross-pinned situation since the cross member of the connecting pin no longer lies flush against a single rail. In addition, even when the connecting pin is correctly installed and the magnetic latch formed by the magnets is in place, very vigorous exercise in certain instances can very rarely overcome the magnetic attraction to cause the connecting pin to begin to detach from the handle. This is also obviously a disadvantage particularly when the dumbbell is being used in a setting, such as a fitness center or gym, where a particular user may not be intimately familiar with using selectorized dumbbells and correctly installing the connecting pin.
Accordingly, it would be an advance in the art for the weight selector of such a selectorized dumbbell to be designed in a way that would be very difficult for the user to cross-pin and that would have redundant features that would prevent inadvertent dislodgement. This would make selectorized dumbbells more attractive to multi-user exercise facilities, such as commercial fitness centers or gyms, as the proprietors of such facilities would not have to fear that their users would improperly use the dumbbells in ways that could potentially cause the weight selectors to inadvertently disengage during exercise activities.
One aspect of this invention relates to a selectorized dumbbell which comprises a plurality of nested weights that provide a stack of left weight plates and a stack of right weight plates. A handle is located between the weight plate stacks. A selector is insertable into a selected one of a plurality of vertically spaced positions on the handle to couple a selected number of the weights to the handle. The selector has a substantially continuous periphery substantially enclosing an open interior thereof. During unintended dislodgement of the selector during exercise activities using the dumbbell, a portion of the selector's periphery contacts a portion of a user's hand, wrist or forearm on an arm the user is using to grip the handle to stop further dislodgement of the selector.
Another aspect of this invention relates to a selectorized dumbbell which comprises a plurality of individual weights that can be nested together to provide a left stack of nested left weight plates and a right stack of nested right weight plates that are separated by a gap. A handle is provided having a hand grip extending along an axis with the handle further having opposite left and right ends joined to opposite ends of the hand grip with the left and right ends of the handle extending perpendicularly to the hand grip. The handle may be dropped down into the gap between the stacks of nested left and right weight plates with the left end of the handle being adjacent an innermost left weight plate in the left stack of weight plates and the right end of the handle being adjacent an innermost right weight plate in the right stack of weight plates. A selector is provided having a substantially continuous periphery that substantially encloses an open interior of the selector. The selector is horizontally insertable into the ends of the handle into a selected one of a plurality of different vertical positions on the handle to connect a desired number of weights to the handle depending upon which vertical position receives the selector. The open interior of the selector when the selector is installed overlies or underlies the hand grip of the handle.
Yet another aspect of this invention relates to a selectorized dumbbell which comprises a plurality of individual weights that can be nested together to provide a stack of nested left weight plates and a stack of nested right weight plates that are separated by a gap. A handle is provided that may be dropped down into the gap between the stacks of nested left and right weight plates. A selector is provided that connects a desired number of weights to the handle. The selector comprises at least one elongated connecting member that is insertable into a selected one of a plurality of vertically spaced slots provided on the handle with the number of weights coupled to the handle varying depending upon which slot receives the connecting member. The at least one connecting member has a natural, flat state when it is not installed in the selected slot. Each of the slots has a curved central portion therein. The at least one connecting member includes a flexible central portion that becomes curved by virtue of being received in the curved central portion of the selected slot when the at least one connecting member is installed in the selected slot. The curved flexible central portion of the at least one connecting member develops a biasing force that attempts to restore the at least one connecting member to the natural, flat state thereof with the biasing force serving to frictionally resist disconnection of the at least one connecting member from the selected slot.
This invention will be described more completely in the following Detailed Description, when taken in conjunction with the following drawings, in which like reference numerals refer to like elements throughout.
One embodiment of a selectorized dumbbell according to this invention is indicated generally as 2 in
Referring now to
Handle 10 has a planar left end 141 and a planar right end 14r that are joined together in a laterally spaced apart orientation at least by a central hand grip 16. Handle ends 14 may also be joined by cross tubes (not shown) that are parallel to hand grip 16, but such cross tubes may be deleted if so desired or if not needed for strength. Handle 10 is dropped down into the gap formed between the left and right stacks of nested plates 6 in order to couple a desired number of weights 4 to handle 10. When handle 10 is inserted between the left and right stacks of nested weight plates 6, left end 141 of handle 10 is adjacent to left weight plate 61 of the innermost weight 4 and right end 14r of handle 10 is adjacent to right weight plate 6r of the innermost weight 4 as shown in
Each handle end 14 carries an identical vertical array of slots 20. In each array of slots 20, each slot 20 is aligned with a gap 22 formed between different pairs of vertically adjacent rails 8. Gaps 22 provide access to slots 20 for the reception of a portion of selector 12. See
Selector 12 of this invention has a substantially continuous periphery 24 that substantially encloses an open interior 26. Preferably, as best shown in
If one disregards for the moment the presence of rear wall 30r of selector 12, selector 12 then comprises a U-shaped connecting pin that is similar, with some important differences that will be described hereafter, to the traditional connecting pins used in PowerBlock® dumbbells as shown in the '064 and '947 patents that were earlier incorporated by reference herein. Side walls 28 of selector 12 slide into any selected set of slots 20 in handle ends 14 with left side wall 281 sliding into one slot 20 in left handle end 141 while right side wall 28r simultaneously slides into the corresponding slot 20 at the same vertical elevation in right handle end 14r. In this regard, side walls 28 function as the connecting prongs of selector 12. When selector 12 is fully inserted in this manner, side walls 28 extend perpendicularly relative to hand grip 16 of handle 10 to be located immediately below the front and back rails 8f, 8r of one selected weight 4. Thus, when the user reaches down into handle 10 to grip hand grip 16 and thereby lift handle 10, the one selected weight 4 will be lifted upwardly along with all of the weights 4 whose rails 8 lie above the rails 8 of the one selected weight.
In the example shown in
Turning now to the differences between selector 12 of this invention and its prior art counterparts, a significant difference is the presence of the fourth wall in selector 12, namely rear wall 30r. It is the presence of rear wall 30r that provides selector 12 with a substantially continuous periphery 24 that defines open interior 26. When selector 12 is in its installed position as shown in
Turning now to
However, as shown in
In this regard, the various sets of slots 20 in handle ends 14 are positioned so that rear wall 30r of selector 12 will hit some portion of the user's hand 32, wrist or forearm as selector 12 begins to disengage. For slots 20 positioned beneath the centerline of hand grip 16, a selector 12 underlies hand grip 16 so that a disengaging selector will most likely hit against the fingers or knuckles of hand 32. For slots 20 positioned above the centerline of hand grip 16, selector 12 overlies hand grip 16 so that a disengaging selector will hit against the portion of the back of hand 32 lying between the knuckles and the wrist, or against the user's wrist, or potentially even against the lower portion of the user's forearm, all depending upon how the user's arm is oriented relative to handle 10 during a particular exercise and which set of slots 20 receives selector 12. Thus, given the small target area presented by the user's fingers and knuckles compared to the rest of the user's hand 32, wrist and the lower portion of the forearm, it is preferred that hand grip 16 have its centerline positioned below the centerline of handle ends 14. This position of hand grip 16 permits a majority of slots 20, e.g., five of the seven, to be positioned above the centerline of hand grip 16 with a minority of slots 20, e.g., two of the seven, being positioned below the centerline of hand grip 16. See
It is preferred that selector 12 be entirely continuous all the way around the entire periphery 24 of selector 12 to entirely enclose open interior 26 as this provides maximum strength to selector 12. However, a small gap or discontinuity in selector 12 could be provided in periphery 24 of selector 12 as long as selector 12 is still substantially continuous to ensure that the interfering contact with the user's hand 32, wrist or forearm as described above is maintained during unintended dislodgement of selector 12. For example, even a gap or discontinuity of one or two inches in rear wall 30r of selector 12 would still leave enough of rear wall 30r in place to cause the remaining portion of rear wall 30r to move into the required interfering contact during unintended dislodgement. Thus, the terms “substantially continuous” or “substantially encloses” as used in the specification or claims in connection with periphery 24 or open interior 26 of selector 12 are intended to cover a selector which might have a discontinuity as long as the discontinuity is small enough to maintain the interfering contact with the user's hand 32, wrist or forearm should selector 12 unintentionally begin to dislodge.
In addition to the enhanced safety provided by rear wall 30r of selector 12, the presence of rear wall 30r means that it is impossible for a user to cross-pin selector 12. If a user improperly tilts selector 12 when trying to install it with left side wall 281 attempting to enter into a chosen slot 20 in left handle end 141 while right side wall 28r attempts to enter into a non-corresponding slot 20 in right handle end 14r that is either above or below the chosen slot 20 in left handle end 141, rear wall 30r of selector 12 will hit against front rail 8f of the selected weight 4 to prevent insertion of selector 12. Selector 12 cannot physically be inserted into handle ends 14 in a cross-pinned manner. Accordingly, safety is further enhanced by completely eliminating the danger of cross-pinning.
Referring to
In addition to the safety aspect discussed above that arises from the substantially continuous periphery of selector 12, side walls 28 of selector 12 preferably have a flexible central portion 38 extending over the middle one half to the middle three quarters or so of the length of side walls 28. Preferably, selector 12 is integrally molded as one piece out of a plastic material. As best shown in
As best seen in
As best shown in
The curve that is imparted to flexible central portions 38 of side walls 28 develops a biasing force in the side walls 28 of selector 12 that attempts to return or restore selector 12 to its natural, flat state. Of course, curved central portions 42 of slots 20 prevent this from happening. But, the biasing force created in flexible central portions 38 of side walls 28 of selector 12 act against the slots 20 in which they are received to frictionally retain selector 12 in place. This biasing force creates a redundant mechanism tending to hold selector 12 in its installed position. Not only does the fourth or rear wall 30r of selector 12 act as one mechanism in preventing unintended dislodgement of selector 12, but the biasing force created in side walls 28 of selector 12 caused by the curve imparted to side walls 28 of selector 12 in its fully inserted position acts as an additional retention mechanism.
The two selector retention mechanisms as described above can be simultaneously used in selector 12 together as shown and described herein. However, either mechanism could be used separately in selector 12 without using the other. For example, selector 12 could be made as a rigid member without any flexible central portions 38 in side walls 28 thereof. In this variation, slots 20 in the left and right ends 141, 14r of handle 10 would then be purely horizontal to receive the flat and now rigid side walls 28 of selector 12. While such an alternative would not possess the retention mechanism provided by the biasing force developed in flexible central portions 38 of side walls 28, it would still incorporate the retention mechanism of using a selector 12 with the substantially continuous periphery 24 surrounding the open interior 26. Alternatively, the retention mechanism provided by the biasing force developed in flexible central portions 38 of side walls 28 when those portions become curved due to the presence of curved central portions 42 of slots 20 could be used in a selector 12 that has only three sides, such as the U-shape of the traditional PowerBlock® selector, or even in separate single pin type selectors in which two separate pins are used to separately couple the left and right ends 141, 14r of handle 10 to the selected weights 4.
Other modifications of this invention will be apparent to those skilled in the art. Accordingly, the scope of this invention is not to be limited to the details of the various embodiments of this invention as described herein, but shall be limited only by the appended claims.
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Number | Date | Country | |
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20190192896 A1 | Jun 2019 | US |
Number | Date | Country | |
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Parent | 16014544 | Jun 2018 | US |
Child | 16232428 | US | |
Parent | 15006665 | Jan 2016 | US |
Child | 16014544 | US |