Handgrip for skipping ropes

Abstract

A handgrip for skipping ropes having a hollow handle, for gripping the handgrip and configured for housing at least one internal ballast; and a connection element for connecting the handle to a rope; an external ballast able to be fixed to the handle, surrounding and configured for gripping the handgrip.

Claims

1. A handgrip for skipping ropes, comprising: a hollow handle for gripping a handgrip and configured to house at least one internal ballast; a connection means for connecting the hollow handle to a rope; an external ballast fixed to the hollow handle, surrounding the hollow handle and configured to grip the handgrip.

2. The handgrip for skipping ropes according to claim 1, wherein the at least one internal ballast is a plug ballast fixed to the hollow handle and configured to retain the external ballast to the hollow handle.

3. The handgrip for skipping ropes according to claim 2, wherein the plug ballast is configured to connect with the at least one internal ballast.

4. The handgrip for skipping ropes according to claim 1, wherein the connection means comprises: a coupling element fixed to the rope; a receiving element fixed to the hollow handle and configured to receive the coupling element; a retaining bushing to retain the coupling element in the receiving element in a closed position, and a spring that acts axially against the retaining bushing to keep the retaining bushing in the coupling closed position, the receiving element provided with a protrusion configured to retain the retaining bushing by abutting against an edge of the retaining bushing in a coupling open position.

5. The handgrip for skipping ropes according to claim 4, wherein the retaining bushing is provided with a groove configured to guide the retaining bushing between the closed position and the open position in correspondence with the protrusion.

Description

DESCRIPTION OF THE FIGURES

(1) FIG. 1 shows a plan view of an exemplary embodiment of a handgrip for skipping ropes, without internal or external ballast.

(2) FIG. 2 shows a plan view of an exemplary embodiment of a handgrip for skipping ropes with an incorporated plug ballast.

(3) FIG. 3 shows a plan view of an exemplary embodiment of a handgrip for skipping ropes with an incorporated plug ballast and an incorporated external ballast.

(4) FIG. 4 shows a cross-sectional view of the joint between the handle, the external ballast and the plug ballast of an exemplary embodiment.

(5) FIG. 5 shows an exploded view of an exemplary embodiment.

(6) FIG. 6 shows a perspective view of an exemplary embodiment of the connection means in the closed position.

(7) FIG. 7 shows a perspective view of an exemplary embodiment of the connection means in the open position.

DETAILED DESCRIPTION OF THE INVENTION

(8) FIG. 1 shows a preferred exemplary embodiment of the present invention, specifically a handgrip (1) for skipping ropes, which is made up of a hollow handle (2), a connection means (3) for connecting between the handgrip (1) and a rope (4). In this example, the hollow of the handle (2) is covered by a plug (5), preventing the inside of the hollow of the handle (2) from getting dirty when the handle (2) is empty. As such, in this case only the weight of the handle (2) without any additional ballast would act.

(9) The plug (5) can be replaced by an internal ballast (6), in this exemplary embodiment by a plug ballast (6.1) by threading it in the hollow of the handle (2) as shown in FIG. 2. This makes the incorporation of additional weight into the handgrip (1) quick and intuitive.

(10) When it is necessary that the skipping rope has greater weight for the exercise to be performed by the user, the handgrip is configured for incorporating an external ballast (7) around the handle (2), such that the external ballast (7) entirely surrounds the handle (2), as shown in FIGS. 3 and 4, which also prevents the concentration of the weight of the handgrip (1) from varying towards one of the ends thereof. This external ballast (7) has a cylindrical shape with a diameter greater than the handle (2), enabling the external ballast (7) to increase both the weight and the gripping surface of the handgrip (1), which is beneficial for exercises of greater weight and intensity, wherein the tight grip is uncomfortable.

(11) As can be seen in FIGS. 1 and 2, the handle (2) comprises a larger diameter area at the end closest to the connection means (3), which we will call stop (2.1). Said stop (2.1) prevents the external ballast (7) from moving in the direction of the connection means (3) beyond a certain point when being incorporated into the handgrip (1).

(12) Preferably, once the external ballast (7) has been inserted around the handle (2), the plug ballast (6.1) would be threaded on the handle (2), preventing the external ballast (7) from moving in the opposite direction to the connection means (3) pushing the external ballast (7) against the stop (2.1), as can be seen in FIG. 4, securing the external ballast (7) to the handgrip (1) during the performance of physical exercise.

(13) FIG. 5 shows an exploded view of the different elements of the preferred exemplary embodiment, among which an additional internal ballast (6.2) can be observed, which enables a greater customisation of the weight of the handgrip (1). This additional internal ballast (6.2) is elongated so that it can be inserted inside the handle (2) and to prevent the concentration of the weight from varying towards one of the ends of the handgrip (1).

(14) Said additional internal ballast (6.2) is retained inside the handle (2) by the plug ballast (6.1) that prevents the movement thereof either by contact or by threading the additional internal ballast (6.2) in the plug ballast (6.1).

(15) In a non-limiting preferred exemplary embodiment, the plug ballast (6.1) has a weight of 50 mg, the additional internal ballast (6.2) has a weight of 100 mg and the external ballast (7) has a weight of 200 mg. Thus obtaining five different weight options for the handgrip (1): Without any additional weight Additional weight of 50 mg: plug ballast (6.1) Additional weight of 150 mg: plug ballast (6.1)+additional internal ballast (6.2) Additional weight of 250 mg: plug ballast (6.1)+external ballast (7) Additional weight of 350 mg: plug ballast (6.1)+additional internal ballast (6.2)+external ballast (7)

(16) These weights can be combined with the use of ropes (6) of different weights.

(17) Thus, preferably the connection means (3) comprises, as can be seen in FIG. 5, a ring (3.1) that connects the connection means (3) with the rest of the handgrip (1). The ring (3.1) enables a greater degree of movement of the rope (6) during the performance of physical exercise, improving the comfort of the user.

(18) The ring (3.1) is connected to a tubular element ending in a receiving element (3.2) configured for receiving the coupling element (3.3) fixed to the rope (4), which enables the connection between the handgrip (1) and the rope (4) facilitating the exchange of different types of ropes.

(19) Additionally, the connection means (3) comprises a retaining bushing (3.4) configured for retaining the coupling element (3.3) in the receiving element (3.2) in a closed position, as can be seen in FIG. 6. For this, the retaining bushing (3.4) has a cylindrical shape with a hollow inside that enables the retaining bushing (3.4) to surround the receiving element (3.2) and thus retain the coupling element (3.3) preventing it from coming out of the coupling position thereof.

(20) The retaining bushing (3.4) provides more resistance and safety to the coupling between the coupling element (3.3) and the receiving element (3.2), preventing them from coming out of the coupling position thereof while enabling easy replacement.

(21) In addition, the connection means comprises a spring (3.5) that acts axially against the retaining bushing (3.4) in the direction of the receiving element (3.2), thus making it impossible, for example during the performance of physical exercise, for the coupling element (3.3) to be uncoupled from the receiving element (3.2).

(22) The receiving element (3.2) is provided with a protrusion (3.2.1) configured for retaining the retaining bushing (3.4) in a coupling open position by abutting against an edge (3.4.1) of the retaining bushing (3.4), such as can be seen in FIG. 7.

(23) The retaining bushing (3.4) is provided with a groove (3.4.2) configured for guiding the retaining bushing (3.4) between the closed position and the open position.

(24) Therefore, when the user proceeds to change the rope (4) connected to the handgrip (1) with the connection means in the closed position, as can be seen in FIG. 6, the retaining bushing (3.4) is pushed in the opposite direction to the receiving element (3.2) against the force of the spring (3.5). Once the protrusion (3.2.1) passes the groove (3.4.2), the retaining bushing (3.4) is rotated in any direction, such that the spring (3.5) pushes the edge (3.4.1) of the retaining bushing (3.4) against the protrusion (3.2.1), retaining the connection means (3) in the open position, as can be seen in FIG. 7.

(25) By arranging the retaining bushing (3.4) retained in the open position, the uncoupling of the coupling element (3.3) from the rope (4) of the receiving element (3.2) is facilitated, and subsequently a coupling element (3.3) of another rope (4) can be coupled in the receiving element (3.2) without the need to be acting against the spring (3.5) or to use solutions of another type that do not ensure the final coupling. Finally, the retaining bushing (3.4) is rotated until the groove (3.4.2) and the protrusion (3.2.1) are aligned, such that the spring (3.5) pushes the retaining bushing (3.4) to the closed position, surrounding the coupling element (3.3) and the receiving element (3.2), ensuring the coupling of the new rope (4).