WEIGHTLIFTING COLLAR AND ADDABLE WEIGHT SYSTEM AND METHOD

Abstract

A system for adding weight and clamping a bar, as non-exclusive example, a barbell collar, includes a weighted collar attachable to a clamp. The clamp may include configurations that mate with the weighted collar, for selectively retaining and removing the weighted collar from mate with the clamp.

Description

TECHNICAL FIELD

The invention generally relates to weightlifting devices, and more particularly relates to a collar for retaining weights and adding weights to a weightlifting bar.

BACKGROUND

As weightlifters are aware, time and effort during weightlifting exercise can be undesirably expended on replacing and fixing free weight disks on a bar. Conventional weight securement collars are typically ring or tubular design, must be fed onto and slid off the bar to change weights, and often require screw set, spring grip, or other similar securement devices for retaining the collar relatively fixed to the bar. Those collars are cumbersome in use in fixing to the bar and must be removed from the bar for change of weight disks.

Further, those collars must typically be removed from the bar in order to increase or decrease weights, for example, by removing weight disks of the like, from the bar. Therefore, there has been a repetitive cycle of fixing the collar to retain weights, weightlifting, then removing the collar, adding weights, again fixing the collar, and so forth. The addition and removal of weights requires time and effort, and streamline of the process would be welcome.

It would, therefore, be a significant improvement in the art and technology to provide a more easily removable and engageable clamp to a bar. It would further be a significant improvement to provide less cumbersome operations of adding and removing weight from the bar.

SUMMARY

An embodiment of the invention includes a system for, as non-exclusive example, clamping a bar. The system includes a first jaw forming a first portion of a hollow cylinder, a second jaw forming a second portion of the hollow cylinder, a hinge connecting the first jaw and the second jaw, a guide of the first jaw, a first latch element connected to the first jaw opposite the hinge, and a second latch element capable of removably connecting to the first latch element, the second latch element connected to the second jaw opposite the hinge. The first jaw and the second jaw form the hollow cylinder when the first latch element is connected to the second latch element.

Another embodiment of the invention is a system. The system includes a clamp for a bar and a weight removably attachable to the clamp.

Yet another embodiment of the invention is a method of manufacture. The method of manufacture includes forming a first jaw configured to form a portion of a throughway for a bar, forming a second jaw configured to form another portion of the throughway for the bar, hinging the first jaw to the second jaw, and providing a latch to the first jaw and the second jaw. The latch connects the first jaw to the second jaw opposite the hinge to complete the throughway.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention is illustrated by way of example and not limitation in the accompanying figures, in which like references indicate similar elements, and in which:

FIG. 1 illustrates a front and left side perspective view of a system, with a latch engaged, for clamping a bar, according to certain embodiments of the invention;

FIG. 2 illustrates a front and left side perspective view of a system, with a latch disengaged, for clamping a bar, according to certain embodiments of the invention;

FIG. 3 illustrates a front and left side perspective view of a system, with a lifted latch that is disengaged, for clamping a bar, according to certain embodiments of the invention;

FIG. 4 illustrates a left side view of a system, with a latch engaged, for clamping a bar, according to certain embodiments of the invention;

FIG. 5 illustrates a left side view of a system, with a latch disengaged and jaws separated, for clamping a bar, according to certain embodiments of the invention;

FIG. 6 illustrates a back and left side view of a system, with a latch engaged joining jaws around a bar (in phantom), for clamping the bar, and including an added weight, according to certain embodiments of the invention;

FIG. 7 illustrates a front and left side perspective view of an alternate system, with two ribs and a latch engaged, for clamping a bar with option of adding weight to the alternate system, according to certain embodiments of the invention;

FIG. 8 illustrates a left side view of an alternate system, with added circular weight to the system, including a latch engaged for clamping a bar, according to certain embodiments of the invention; and

FIG. 9 illustrates a left side view of an alternate system, with added half-circular weight to the system, including a latch engaged for clamping a bar, according to certain embodiments of the invention;

FIG. 10 illustrates a front and left side perspective view of a weight with two opposing slots for receiving ribs of a clamping system, according to certain embodiments of the invention; and

FIG. 11 illustrates a front and left side perspective view of an alternate weight with one slot for receiving a rib of a clamping system, according to certain embodiments of the invention.

DETAILED DESCRIPTION

Referring to FIG. 1, a system 100 operates as a collar for retaining weight plates on a bar. The system 100 includes a left jaw 102 connected by a hinge 104 to a right jaw 106. A latch 108 provides a levered coupling between the left jaw 102 and the right jaw 106, forming a clamp for the bar when the latch 108 is closed.

The latch 108 includes in the right jaw 106 a catch 112 and a release lever 114. The lever 114 selectively engages the catch 112 of the right jaw 106 to a shelf 116 of the left jaw 102. The release lever 114 is operable to release the catch 112 from the shelf 116. When released, the right jaw 106 may rotate from the left jaw 102 on the hinge 104 opening the clamp. A spring 120 may be connected to the lever 114 and the catch 112 to urge the lever 114 towards the right jaw 106 and allow the catch 112 to snap onto the shelf 116 when the right jaw 106 is urged toward the left jaw 102 on the hinge 104.

A bottom portion of the left jaw 102 adjacent the shelf 116 includes a guide rail 110. The guide rail 110 is sized and configured to, if and as desired, retain an added weight that has a corresponding indentation to fit the guide rail 110.

A washer 118 may extend internally on the left jaw 102 and right jaw 106 to assist in clamping of the system 100 and gripping of a bar clamped in the system 100. The washer 118 may be segmented or continuous as desired in the embodiments.

In operation, the right jaw 106 and the left jaw 102 connected by the hinge 104 form a bore hole through which a bar or shaft, such as a barbell bar, may be lodged. The bar or shaft may be fed longitudinally into the bore hole. Alternatively, the right jaw 106 may be rotated on the hinge 104 away from the left jaw 102 sufficient to clamp the bar along its cross-section into the separated space between the right jaw 106 and left jaw 102.

In the system 100, the catch 112 of the right jaw 106 may be engaged with the shelf 116 of the left jaw 102 to form a clamp. The catch 112 automatically engages the shelf 116 when the right jaw 106 is rotated towards and to the left jaw 102 on the hinge 104. The lever 114, when pressed towards the right jaw 106 after the catch 112 engages the shelf 116, locks the system 100 in position on a bar. The right jaw 106 is released from engagement with the left jaw 102 by lift of the release lever 114 away from the right jaw 106 and consequent shift of the catch 112. The catch 112 may include a rod 202 (shown in FIGS. 2 and 3) for engagement under the shelf 116 when the catch 112 is engaged.

Referring to FIG. 2, in conjunction with FIG. 1, a system 200 includes the left jaw 102 and the right jaw 106 joined by the hinge 104. The latch lever 114 (shown in phantom), positioned outward/downward with respect to the position in FIG. 1, causes the catch 112 to overcome a ridge 204 of the shelf 116. This disengages the right jaw 106 from the left jaw 102 when rotated (outward/upward in the Figure) on the hinge 104 away from the left jaw 102. As disengaged, the catch 112 of the latch 108 is shown moved away from the shelf 116 of the left jaw 102.

In operation, clamping of the right jaw 106 to the left jaw 102 is released and the right jaw 106 pivots on the hinge 104 with respect to the left jaw 102, when the lever 114 is lifted (i.e., forced forward and downward in FIG. 2). This lift of the lever 114 releases the catch 112 from under the ridge 204 and from the shelf 116.

Referring to FIG. 3, a system 300 includes the left jaw 102 and the right jaw 106 joined by the hinge 104. The right jaw 106 connects to the latch 108 and release lever 114. The latch 108 connects to the catch 112. When the release lever 114 is lifted (outward and downward in FIG. 3), the latch 108 causes the catch 112 to rotatingly withdraw (outward and upward in FIG. 3) from engagement with the shelf 116. The spring 120 tends the latch 108 and release lever 114 towards the right jaw 106 and the catch 112 towards the shelf 116 of the left jaw 102. When the release lever 114 is pressed outward from the right jaw 106, the latch 108 causes the catch 112 to outwardly move away from the left jaw 102 and overcoming force of the spring 120. The catch 112 raises from the shelf 116 releasing the right jaw 106 from clamped connection with the left jaw 102.

The catch 112 is connected to extent of the right jaw 106 by a first rod 302. The catch 112 is capable of rotating on the first rod 302. The latch 108 is also connected to the first rod 302 at extent of the release lever 114, and is capable of rotating on the first rod 302. The latch 108 is also connected to a second rod 304 a measure away from the first rod 302 and towards other extent of the release lever 114. The latch 108 is capable of rotating on the second rod 304. The catch 112 is connected to the second rod 304 towards an extent of the catch 112 opposing the rod 202 connected to the catch 112. The catch 112 is also centrally rotatingly connected to the first rod 302. The latch 108 acts as a lever to lift an opposing lever of the catch 112.

At bottom and generally centered in the guide rail 110 is a nub 306. The nub 306 is, for non-exclusive example, a depressible ball bearing or portion of ball bearing, disposed in the bottom of the guide rail 110. The nub 306 serves to retain and for removal of a weight (shown in FIG. 6).

In operation, the system 300 opens clamping when the right jaw 106 swings from the left jaw 102 on the hinge 104. For opening, the catch 112 must be released from the shelf 116. This release occurs when the release lever 114 is lifted, causing the catch 112 to lift in opposing manner to displace the rod 202 away from the shelf 116. Because of the spring 120, the lever 114 and the rod 202 of the catch 112 are biased towards the first jaw 106 and the second jaw 102. If and when the spring 120 bias is overcome by lift of the lever 114, and consequent lift of the rod 202 of the catch 112, the rod 202 of the catch 112 is lifted. Bias of the spring 120 allows the clamping of the rod 202 to the shelf 116 to automatically occur with a click, when the right jaw 106 is rotatingly pressed on the hinge 104 to the left jaw 102.

Referring to FIG. 4, a system 400 includes the left jaw 102 and the right jaw 106 connected to the left jaw 102 at one extent by the hinge 104 and at the other extent by the catch 112 engaged to the shelf 116. That clamp formed of the left jaw 102 and the right jaw 106 is in closed position, in which the system 400 retain a bar, such as a bar of a barbell, in the clamp.

In operation, the clamp of the system 400 is closed around a bar (not shown) retained within a hole 402 formed of the left jaw 102 and the right jaw 106. In such closed position, the washer 118 abuts and grips the bar. The system 400 clamps the bar, such as, for non-exclusive example, to retain weights on the bar.

Referring to FIG. 5, a system 500 includes the left jaw 102 connected to the right jaw 106 by the hinge 104. The system 500 is positioned with the right jaw 106 rotated on the pin outward and upward (in the direction of arrow A) from the left jaw 102. The catch 112 is disengaged and displaced from the shelf 116. A gap 501 formed between the left jaw 102 and the right jaw 106 may accept a bar or cylinder, such as, for non-exclusive example, a barbell.

In operation, the bar may be inserted longitudinally through (i.e., into in the Figure) the gap 501, or else the bar may be inserted cross-sectionally in the gap 501. For use as a clamp, the right jaw 106 is rotated opposite to arrow A, and pressed to cause the catch 112 to engage the shelf 116. The catch 112 engaged to the shelf 116 locks the rod 202 (not shown) behind the ridge 116 to retain and clamp in place.

Referring to FIG. 6, a system 600 includes the left jaw 102 connected to the right jaw 106 by the hinge 104 and clamped on a bar (shown in phantom). The system 600 further includes a non-exclusive embodiment of a weight 502 removably fitted to the guide rail 110 of the left jaw 102. The weight 502 may be formed about same width as that of the jaws 102, 106 or otherwise, such that the guide rail 110 fits contiguous within a trough 504 of the weight 502. Faces 502a, 502b of the weight 502, when connected to the left jaw 102, may be substantially perpendicular to the bar, e.g., substantially parallel with sides of the jaws 102, 106. The weight 502 may have a generally flattened bottom and arcuate sides extending about halfway up sides of the clamp formed by the left and right jaws 102, 106. The weight 502 may include one or more indentation 506 on extended ends of the weight, for example, to aid in connecting and removing the weight 502 on the guide rail 110. The weight 502 may include, within the trough 504 (or otherwise) a notch or similar facial depression in order to accommodate the nub 306 of the left jaw 102. This may limit shifting of the weight 502 along the trough 504, until such shift is desired and force is applied to overcome the nib 306 in the depression.

In operation, a wide variety of the weight 502 are possible in the embodiments. The clamping system of the left and right jaws 102, 106 allow additional weight to be added to a clamped bar, without removal of the collar function of the system. For example, the weight may be interchanged with varying heaviness and structural configuration. The weight may be added or removed from engagement to the clamping system as desired. At any time, weight may be added or taken away. This may reduce time and effort required in weight lifting/training and in other use of the clamping system where weight may be added or removed, as desired.

Referring to FIG. 7, an alternative system 700 includes a left jaw 702 connected to a right jaw 706 by a hinge 704. The left jaw 702 includes an upper rib 708 and a lower rib 710. Each rib 708, 710 is located on the left jaw 702 substantially along the circumference of the assembly formable when the right jaw 706 is closed to the left jaw 702 by the hinge 704. The left jaw 702 and right jaw 706 when so closed forms an internal cylinder 712 for retaining a bar (not shown), as non-exclusive example, a weight lifting bar.

Each of the upper rib 708 and the lower rib 710 form a length across an external surface 714 of the left jaw 702, traversing substantially parallel to direction of extension of the internal cylinder 712. A respective nib 720 is included in certain non-exclusive embodiments atop each of the upper rib 708 and the lower rib 710 (not shown). The hinge 704 is formed with a closure 716, such as a latch, catch or other device. The closure 716 is capable of disengagingly locking the right jaw 706 to the left jaw 702 to grip a bar in the internal cylinder 712. The internal cylinder 712 may include on the internal surface one or more pad 718 to facilitate gripping of the system 700 to a bar.

The system 700 allows for weights (not shown in FIG. 7) to be added to the bar, without removal of the system 700 from the bar. The weights surround the outer surface of the system 700 and nest with the ribs 708, 710 with corresponding features of the weights. The nib 720 of each rib 708, 710 further retains these weights in connection to the system 700.

In operation, the closure 716 is disengaged to separate the right jaw 706 from the left jaw 702 on the hinge 704. The internal cylinder 712 is opened by the right jaw 706 to allow the system 700 to be placed on a bar. Alternately, a bar may be passed through the opened system 700. Once the system 700 is located on the bar, such as on an outer side of weights on the bar, the right jaw 706 is engaged to the left jaw 702 by the closure 716.

Referring to FIG. 8, in conjunction with FIG. 7, a system 700 of a weight 802 may be formed about same width as that of the jaws 702, 706 or otherwise, such that the ribs 708, 710 fit contiguous within respective slots 804, 806 of the weight 802. The weight 802 may have a generally circular and extended cylindrical shape extending around the assembly 700 of the jaws 702, 706 when closed/engaged, such as about a bar (not shown). The weight 802 may include, within the slots 804, 806 a notch or similar facial depression in order to accommodate the nibs 720, respectively of the left jaw 702. This may limit shifting of the weight 802 along the slots 804, 806, until such shift is desired and force is applied to overcome the nibs 720 in the depression.

In operation, a wide variety of the weight 802 are possible in the embodiments. The clamping system of the left and right jaws 702, 706 allow additional weight to be added to a clamped bar, without removal of the collar function of the system 700. For example, the weight may be interchanged with varying heaviness and structural configuration. The weight may be added or removed from engagement to the clamping system as desired. At any time, weight may be added or taken away. This may reduce time and effort required in weight lifting/training and in other use of the clamping system where weight may be added or removed, as desired.

Referring to FIG. 9, in conjunction with FIG. 7, a system 900 of another weight 902 may be formed about same width as that of the jaws 702, 706 or otherwise, such that at least one of the ribs 708 or 710 fits contiguous within one or more slot 904 of the weight 902. The weight 902 may have a generally half or other semi-circular and extended half or semi-circular cylindrical shape extending around a portion of the assembly 700 of the jaws 702, 706 when closed/engaged, such as about a bar (not shown). The weight 902 may include, within the slot 904 a notch or similar facial depression in order to accommodate the nib 720 of the rib 708.

In operation, a wide variety of the weight 902 are possible in the embodiments. Different values of weight, as well as outward appearance, design and configuration of the weight 902 are possible in the system 900. In each instance, the weight 902 fits over the clamping system of the left and right jaws 702, 706. The weight 902 may be removed and interchanged, without removal of the collar function of the system 700.

Referring to FIG. 10, in conjunction with FIG. 7, a system 1000 includes a weighted collar 1002. The weighted collar 1002 may form an internal cylinder 1004 or similar throughway. In the walls of the internal cylinder 1004, the collar 1002 may include internal slots 1006 or other configurations. The internal cylinder 1004 is sized and configured to adapt to and conform generally to the outer surface of the system 700 or other bar clamp, such as when the latch 716 is engaged or the clamp is engaged to a bar. One or more slot 1006 may be included to accept externally located features, such as for non-exclusive example, rib 708, 710 of the system 700, or other bar clamp. The weighted collar 1002 may be removed from engagement with the system 700 or other bar clamp, by asserting some lateral force and to desirably retain the collar 1002 to the system 700 or clamp until force may be applied to remove the collar 1002.

Referring to FIG. 11, in conjunction with FIG. 7, a system 1100 of another weighted collar 1102 may include a partial, such as half or semi circle, cylinder 1104 configuration to surround a portion of a circumference of a bar clamp, such as that of the system 700 or otherwise. The partial cylinder 1004 may be formed to conform generally to an outer surface of the bar clamp, such as the system 700 or otherwise. Internal surfaces of the partial cylinder 1004 may include a feature 1104 for engagement with the bar clamp, for non-exclusive example, the feature 1104 may be a channel 1104 for mating with a corresponding configuration of the bar clamp, such as for non-exclusive example, the rib 710 of the left jaw 702 of the system 700.

In operation, the systems 1000, 1100, respectively, are placed around or partially around or in connection with a clamp on a bar. Features of the clamp mate with the systems 1000, 1100, as applicable, to retain the systems 1000, 1100, respectively, with a bar. The systems 1000, 1100 can be of varying weight and outward surfaces and designs. The systems 1000, 1100 facilitate the addition or subtraction of weight to a clamp of a weight lifting bar or similar, without need of removing the clamp to change out weight of the bar.

As will be understood, wide variation is possible in the foregoing embodiments. A wide variety of configurations and alternatives are possible in the clamping system and weights. Certain non-exclusive embodiments include unitized features of the system, as well as component options. For non-exclusive example, the weighted collars and clamps may be formed with weight or weight may be addable and removable, as desired. Materials used for the collars and clamps may be varied, including plastic, metal, polymer, rubber, and others, and materials for the weights may be similarly varied, including metal, plastic, steel, concrete, and others. In certain non-exclusive alternatives, the latch of the collar is located in different location with respect to an attachment, such as guide rail or rib, for adding and removing weights. For non-exclusive example, rather than located at lower (in the Figures) portion of the collar near the attachment for weight, the latch may be located at top or side of the collar and the hinge located opposite the latch in such location. Other non-exclusive alternatives include different lock or latch mechanism for the collar, including, but not limited to, different latch and shelf structure or configuration, magnetic latching, mechanical latching, and others. Although the collar unit and the weight unit are each illustrated as standalone and stationary, the combination of collar and weight can be integrated and/or each can include one or more part or component. Variation is also possible in the use and operations of the collar unit and/or the weight unit. Although certain operations, materials, and configurations are disclosed, numerous other systems, devices, elements, steps, operations, processes, methods and materials may be implemented in the systems.

In the foregoing, the invention has been described with reference to specific embodiments. One of ordinary skill in the art will appreciate, however, that various modifications, substitutions, deletions, and additions can be made without departing from the scope of the invention. Accordingly, the specification and figures are to be regarded in an illustrative rather than a restrictive sense, and all such modifications substitutions, deletions, and additions are intended to be included within the scope of the invention. Any benefits, advantages, or solutions to problems that may have been described above with regard to specific embodiments, as well as device(s), connection(s), step(s) and element(s) that may cause any benefit, advantage, or solution to occur or become more pronounced, are not to be construed as a critical, required, or essential feature or element.

Claims

1. A system, comprising: a clamp for retaining weight on a weightlifting bar;a weight attachable to the clamp.

2. A system, comprising: a clamp for a bar; anda weight removably attachable to the clamp.

3. A method of manufacture, comprising: forming a clamp attachable to a bar; andforming a weight removably attachable to the clamp.

4. A system, comprising: a first jaw forming a first portion of a hollow cylinder;a second jaw forming a second portion of the hollow cylinder;a hinge connecting the first jaw and the second jaw;a guide of the first jaw;a first latch element connected to the first jaw opposite the hinge; anda second latch element capable of removably connecting to the first latch element, the second latch element connected to the second jaw opposite the hinge;wherein the first jaw and the second jaw form the hollow cylinder when the first latch element is connected to the second latch element.

5. The system of claim 4, further comprising: a weight configured for removable connection to the guide.

6. The system of claim 4, further comprising: a bias for the second latch element;wherein the bias urges the second latch element to connect to the first latch element when the first jaw and the second jaw are brought together by rotation on the hinge.

7. The system of claim 6, further comprising: a weight configured for removable connection to the guide.

8. The system of claim 4, further comprising: a first lever connected to the second jaw opposite the hinge; anda second lever operative opposing the first lever, connected to the second jaw opposite the hinge;wherein the first lever and the second lever form the second latch element.

9. The system of claim 8, further comprising: a weight configured for removable connection to the guide.

10. The system of claim 8, further comprising: a hook connected to the second jaw opposite the hinge;wherein the hook forms the first latch element.