Patent Application
20230347200
This application claims priority to Italian Patent Application No. 102022000008222, filed on Apr. 27, 2022, which is incorporated herein by reference in its entirety.
The present disclosure relates to a system for monitoring a gymnastic device, in particular the monitoring of the weight adjustment of a dumbbell for the execution of a gymnastic exercise.
The present disclosure also relates to the operating method of the monitoring system of a gymnastic device.
More in detail, the disclosure relates to a system, designed and realized in particular to monitor the adjustment of the amount of weight loaded on a dumbbell for performing a strength gymnastic exercise, but which can be used for any gymnastic exercise which the use of a dumbbell.
In the following, the description will be directed to a dumbbell comprising a system for monitoring the adjustment of the weight selected from a plurality of weights that can be selected on the basis of the strength gymnastic exercise to be performed, but it is evident that the same should not be considered limited to this specific job.
As is well known, strength training systems are currently employed to develop strength and improve the muscular endurance of a user.
Activities typically associated with strength training involve the use of resistance, often in the form of weights, to increase muscle recruitment and help increase maximal strength.
Workouts may therefore require the use of free weights, such as barbells and dumbbells, in which a user controls the movement or position of these weights for a period of time or for a number of sets and repetitions.
When performing exercises with free weights, a user may perform movements unrestrained by supportive equipment, and thus a user often performs such movements in an equipment-free environment, such as a home environment.
Usually, both dumbbells and barbells include a rod or handle at the ends, of which one or more weights are fixed, usually circularly shaped, based on the resistance necessary to perform the exercise.
Often, placing weights on the rod is an operation that requires the user to stop exercising for an extended period, necessary for loading or unloading the weights.
Therefore, compact weight loading systems have become widespread, mainly used for dumbbells, in which, by means of an actuation device, it is possible to select the weight from a plurality of weights already arranged near the rod, thus reducing loading times and unloading by the user.
In these types of dumbbells, the user must know the weight loaded on the dumbbell in order to perform the exercise exactly.
Weight measurement devices are currently known which measure the weight loaded on the dumbbell during weight selection.
However, these devices often prove to be unreliable in accurately detecting the weight.
In light of the above, it is, therefore, an object of the present disclosure to provide a system for monitoring the weight adjustment of a dumbbell that is reliable and simple to implement.
Another object of the disclosure is to provide a system, which allows the acquisition and memorization of the weight measurement carried out.
A further object is to provide a reliable method of operation of the detection system.
It is therefore specific object of the present disclosure a system for monitoring the adjustment of the weight of a dumbbell, that can be used by a user for carrying out a gymnastic exercise, comprising a dumbbell, provided with a hollow handle, having an axial development along an axis, capable of rotating clockwise and counterclockwise around said axis, and provided with a first end, a second end and comprising in its cavity a first locking member and a second locking member, a first plurality of weights, wherein each weight can be locked individually at said first end, by means of said first locking member or said second locking member, when said handle rotates in a way, and can be unlocked from said first end, when said handle rotates in the opposite way, a second plurality of weights, wherein each weight can be locked individually at said second end, by means of said first locking member or said second locking member, when said handle rotates in a way, and can be unlocked from said second end, when said handle rotates in the opposite way, said system comprising at least one detecting device comprising in turn at least one magnet placed on said first locking member and/or said second locking member, at least one sensor, capable of detecting the magnetic field generated by said at least one magnet, at least one detecting device capable to send data corresponding to said detected magnetic field, and a logic control unit capable of receiving said data sent by said at least one detecting device and by associating to said data a weight of said first and second plurality of weights.
Further according to the disclosure, said detecting device comprises two magnets.
Preferably according to the disclosure, said detecting device comprises three magnets.
Still according to the disclosure, said detecting device comprises four magnets.
Always according to the disclosure, said detecting device comprises a plurality of magnets.
Further according to the disclosure, said at least one sensor is arranged in said first end and/or in said second end of said handle.
Preferably according to the disclosure, said system comprises a supporting frame, to support said dumbbell, and said at least one detecting device is arranged on said supporting frame.
Still according to the disclosure, said system comprises a communication module, capable of receiving said data and/or said processed data and to send them to remote devices or cloud units.
Always according to the disclosure, said system comprises a memory unit in which predefined magnetic field calibration data associated with the weight of said first and second plurality of weights are stored.
It is further object of the present disclosure an operating method of a system for monitoring the regulation of the weight of a dumbbell, of the type comprising a hollow handle capable of rotating in a way, to lock one or more weights of said first and second plurality of weights, or in the opposite way to unlock one or more weights from said handle, can be unlocked from said first end, in said hollow handle being arranged a first locking member and a second locking member and at least one magnet placed on said first locking member and/or on said second locking member, capable of generating a magnetic field, comprising the following steps:
Further according to the disclosure, said method comprises following calibration steps:
Preferably according to the disclosure, said steps e. and f. are carried out before said step c.
The present disclosure will be now described, for illustrative but not limitative purposes, according to its preferred embodiments, with particular reference to the figures of the enclosed drawings, wherein:
In the various figures, similar parts will be indicated with the same reference numbers.
With reference to
Said support frame 1 comprises a first housing 11 and a second housing 12.
Said dumbbell 2 comprises a handle 21 which extends axially according to an axis R, around which said handle 21 is able to rotate clockwise and counterclockwise.
Said handle 21 is a hollow cylindrical elongated body, which develops along said axis R.
With reference to
The rotation of the handle 21 causes a progressive translation along the axis R of said first 210a and second 210b selector element. This allows at least one weight to be selected both from said first P1 and from said second P2 plurality of weights.
Said first 210a and second 210b selector element are movably coupled to said first handle 21 by means of a plurality of pins 210c, integral with said first handle 21.
Said first 210a and second 210b selector element are capable of passing from a closed position, in which they are completely contained inside said first handle 21 and facing each other, towards a plurality of open positions, in which they move away from each other on the other by translating along said R axis, moving according to opposite directions of said R axis.
The rotation of the handle 21 and of the plurality of pins 210c integral with it causes the progressive axial displacement of said first 210a and second 210b selector element.
The plurality of pins 210c engages in the helical grooves of said first 210a and second 210b selector element, causing their axial movement along the axis R.
Said handle 21 has a first end 211 and a second end 212.
Said first plurality of weights P1 is associated with the first end 211, while said second plurality of weights P2 is associated with the second end 212.
Each weight of said first P1 and second P2 plurality of weights is shaped so as to ensure a shape fitting with the contiguous weights.
When said dumbbell 2 is rested on said support frame 1, said first plurality of weights P1 is arranged in said first housing 11, while said second plurality of weights P2 is arranged in said second housing 12.
Selection members are arranged on each of said first 211 and second 212 ends for fixing each weight to said handle 21.
In particular, a first selection member 3 is fixed to said first end 211, while a second selection member 4 is fixed to said second end 212.
For simplicity of description, the description relating to the structure of said first selection member 3 is given below, since said second selection member 4 has a structure similar to the structure of the first selection member 3.
With reference to
Said hollow element 31, when resting on said support frame 1, is integral with this and therefore is stationary.
Said coupling means 33 comprises inside it a first toothed circular portion, not shown in the figure, and an opening 331.
Said lid 34 is integral with said handle 21 and it is, therefore, able to rotate with it.
Said lid 34 comprises inside it a second circular toothed portion 341.
Said numbered ring nut 32 has on its surface numbers corresponding to the value of the weights selected from said first plurality of weights P1.
With reference to
In particular, said detection device 5 can be arranged on said first selection member 3, by shape coupling.
The detection device 5 comprises one or more permanent magnets 51, a sensor 52, a memory unit M, a logic control unit U, and a data communication module B of wireless type, for example, Bluetooth® or Wi-Fi or NFC or Ant+ type.
In particular, said one or more magnets 51 can be in a predetermined number, in particular one magnet, or two magnets, or three magnets or, lastly, four magnets.
Predefined calibration data are stored in said memory unit M, associated with the weights that said dumbbell 2 can assume.
A first association is memorized between the data of said magnetic field and a weight of said first P1 and second P2 plurality of weights, and the association is repeated for all the weights of said first P1 and second P2 plurality of weights.
Said calibration data can be stored in the form of a look-up table.
Said data communication module B is capable of sending said data received from said logic control unit U to remote devices D, such as a smartphone, or to cloud C.
Or said detection device 5 can be arranged on said second selection member 4, by shape coupling.
Said one or more permanent magnets 51 is coupled to said first selector element 210a, if the detection device 5 is arranged on said first selection member 3, or to said second selector element 210b, if the detection device 5 is arranged on said second selection body 4.
In particular, each magnet 51 is arranged in the space between one helical groove and the next, or the previous one.
In particular, with reference to
Each magnet 51 generates a magnetic field with known orientation.
Each magnet 51 is arranged on said first 210a or said second 210b selector element so that the magnetic field resulting from the superposition of each magnetic field has a known orientation and strength.
Sensor 52 is a magnetometer.
Said sensor 52 is capable of detecting the intensity and the orientation of the resulting magnetic field and of converting it into one or more data.
The data thus generated by said sensor 52 are sent to said control logic unit U, which processes them.
The control logic unit U is capable of comparing said received data with said calibration data, stored in the memory unit M, so as to select the value of the corresponding associated weight. The control logic unit U or controller can include one or more processors configured to execute one or more instructions stored in memory unit M to cause the system to perform the methods, processes, routines, functions, and/or algorithms discussed herein.
The control logic unit U is also capable of sending the weight value corresponding to said data communication module B.
Said data communication module B is capable of sending said weight value to remote devices D and/or to cloud units C.
Alternatively, the control logic unit U is capable of sending the raw data to said remote devices D and/or to cloud units C, which compare said data with the calibration data, to identify the corresponding associated weight value, based on a dedicated algorithm.
The operation of the system S for monitoring the weight adjustment of a dumbbell object of the present disclosure is as follows.
In an optional initial calibration step, every possible weight of said first P1 and second P2 plurality of weights is selected. For each selected weight, the data generated by the sensor 52 relating to the resulting magnetic field are sent to the control logic unit U, to be associated with the specifically selected weight, and stored in the memory unit M.
When a user wishes to perform a strength exercise using the dumbbell 2, it is initially necessary to adjust the weight of said dumbbell 2, before lifting it from the support frame 1.
The user can rotate the grip 21 in one direction, for example, the clockwise direction, to select one or more weights from said first P1 and second P2 plurality of weights, therefore to increase the weight on the dumbbell 2, or s/he can rotate the handle 21 in the opposite direction, for example counterclockwise, to decouple one or more weights from dumbbell 2, and therefore to decrease the weight on dumbbell 2.
With each rotation of the handle 21, said first 210a and second 210b selector elements extend to select or retract to release a weight of said first P1 and second P2 plurality of weights.
In particular, said first selector element 210a is progressively inserted into the holes of each weight of said first plurality of weights P1, while said second selector element 210b is progressively inserted into the holes of each weight of said second plurality of weights P2.
The weights are coupled to each other by means of a shape coupling, so that, by lifting the dumbbell 2 from said support frame 1, the weights selected by said first 210a and second 210b selector element remain integral with the dumbbell 2, while the unselected weights remain housed on said support frame 1.
In the meantime, both for said first selection member 3 and for said second selection member 4, the rotation of the handle 21, and therefore of the lid 34, causes the rotation of said numbered ring 32, therefore it will be possible to see the value of the selected weight by said opening 311.
Said first 210a and said second 210b selector element are respectively inserted into the holes of each weight of said first P1 and said second P2 plurality of weights.
Said one or more magnets 51 generates a magnetic field, which is detected by said sensor 52 and which is then converted by said sensor 52 into one or more data.
Said data are transmitted to said control logic unit U.
The control logic unit U compares said data with the calibration data, stored in the memory unit M, and selects the associated weight value corresponding to said data.
The control logic unit U then sends the corresponding weight value to said data communication module B.
Said communication module B also transmits data to remote devices D and/or cloud units C.
As evident from the above description, the monitoring system object of the present disclosure allows the detection, in a simple and reliable way, of a weight loaded or released from the dumbbell for the execution of a gymnastic exercise.
The present disclosure has been described for illustrative but not limitative purposes, according to its preferred embodiments, but it is to be understood that modifications and/or changes can be introduced by those skilled in the art without departing from the relevant scope as defined in the enclosed claims.
| Number | Date | Country | Kind |
|---|---|---|---|
| 102022000008222 | Apr 2022 | IT | national |
