AU2021102908A4 - A system for remote controlled skipping rope for exercise - Google Patents

Abstract

A SYSTEM FOR REMOTE CONTROLLED SKIPPING ROPE FOR EXERCISE Disclosed is a system for remote controlled skipping rope for exercise in which the microcontroller (6) receives signals from the pressure sensor (12) and remote sensor (2) and provides signals to motor driver (4) which controls the working of motor (8). The present invention controls the movement of rope (9) from bothends and enable continuous circular motion at adjustable height and speed. The present invention uses remote control to operate skipping rope and reduces humaneffort. [To be published withfigure 1] 8 Applicant: Lovely Professional University Sheet No: 1/2 FPj Figure 1 9

Description

Applicant: Lovely Professional University Sheet No: 1/2

FPj

Figure 1

TECHNICAL FIELD

[01] The present invention herein relates to rope skipping system, more particularly, to a system for remote controlled skipping rope for exercise.

BACKGROUND

[02] "Skipping rope" is a conventional and unadventurous manual method for physical workout at homes for maintaining good fitness and doing exercises. This is labor-intensive technique of doing physical workout. This activity of jumping over the rope becomes very monotonous and uninteresting with passage of time.

[03] CN203043395U, discloses a multifunctional skipping rope whichuses a rope between first handle and second handle, music player, and timer provides the skipping time of each time. However, this invention does not provide any automation.

[04] CN202569282U, discloses a multifunctional skipping rope which automatic contracting buttons and uses to store skipping rope conveniently. However, this invention fails to provide any automation.

[051 CN2455284Y, discloses a skipping rope with counter in which button is installed in cylindrical left handle to count automatically and stops after finishing the task of counting. However, this invention does not discuss automatic control of rope.

[06] CN102366670B, discloses a wireless rope skipping system whichuses wireless rope skipping handles and control table and provides real time wireless communication between rope skipping handle and control table.

However, this invention involves complex system and requires several components.

[071 The above mentioned prior art states that there is a need for a system which provides remote controlled skipping rope with adjustable speed levels and height of rope.

[08] The present invention addresses the above mentioned short comings of the prior art.

SUMMARY

[09] The summary as given below.

[0010] The present invention is remote controlled system for skippingrope which provides speed and height adjustment of rope.

[0011] In one implementation, the present invention consists of power control, remote sensor, main power line, motor driver, battery, microcontroller, motor shaft, motor, rope, free-wheel pulley, ball bearing, and pressure sensor.

[0012] In another implementation, the one end of rope is attached to a free wheel pulley of one pole and other end of rope is attached to an L-shaped motor shaft at opposite pole.

[0013] In another implementation, one pole consists of power control, remote sensor, main power line, motor driver, battery, microcontroller, and motor shaft.

[0014] In another implementation, other pole on opposite side is attached with the free-wheel pulley which is attached to the ball-bearing and pressure sensor.

[0015] In the present implementation, motor stops automatically when detects certain pressure on the rope free pulley.

[0016] In one implementation, uses stop button on remote to stop the motor manually.

[00171 In another implementation, adjusts the height of rope as per the user height.

[00181 In another implementation, reduces human effort.

BRIEF DESCRIPTION OF THE DRAWINGS

[0019] The foregoing detailed description of embodiments is better understood when read in conjunction with the attached drawings. For better understanding each component is given a specific number which is further illustrated as reference number for the components used with the figure.

[0020] Figure 1, illustrates perspective view of the present invention.

[0021] Figure 2, illustrates block diagram of the present invention.

[0022] The figures depict an embodiment of the present disclosure for the purpose of illustration and understanding only.

DETAILED DESCRIPTION

[0023] Some embodiments of this disclosure, illustrating all its features, will now be discussed in detail.

[0024] In one implementation, provides remote controlled system for skipping rope which provides speed and height adjustment of rope.

[0025] The disclosure herein, provides gamified approach as user adjusts speed and rope height as per requirement using remote.

[0026] In one embodiment, the present invention consists of a power control (1), remote sensor (2), main power line (3), motor driver (4), battery (5), microcontroller (6), motor shaft (7), motor (8), rope (9), free-wheel pulley (10), ball bearing (11) and pressure sensor (12).

[00271 In another embodiment, pressure sensor (12) detects the sudden stuck of rope and immediately stops the motor (8).

[00281 In another embodiment, one end of rope (9) is attached to the free wheel pulley (10) of one pole and other end of rope (9) with L-shaped motor shaft (7) of opposite pole.

[0029] In another embodiment, one pole is embedded with the powercontrol (1), the remote sensor (2), the main power line (3), the motor driver (4), the battery (5), the microcontroller (6), and the motor shaft (7).

[00301 In another embodiment, other pole on opposite side is attached with the free-wheel pulley (10).

[00311 In another embodiment, the free-wheel pulley (10) is attached to the ball-bearing (11) and pressure sensor (12).

[0032] In another embodiment, the motor (8) stops automatically when detects certain pressure on the rope free pulley.

[00331 In another embodiment, remote sensor receives signals from remote held by skipper and adjusts the speed of moving rope.

[0034] In another embodiment, microcontroller (6) receives signals and adjusts the speed of rotating rope.

[00351 In another embodiment, free wheel pulley moves the rope in one direction continuously while accelerate and decelerate the speed.

[00361 In another embodiment, ball bearing controls the rotational motion ofrope.

[00371 In another embodiment, uses stop button on remote to stop the motor manually.

[00381 In another embodiment, adjusts the height of rope as per the user height.

[00391 In another embodiment, controls the speed through remote.

[0040] In another embodiment, power supply provides through the battery (5).

[00411 In the present embodiment, allows the user to start, stop, increase and decrease speed through remote.

[0042] In an exemplary embodiment, controls the movement of rope (9) from both ends and enable continuous circular motion at adjustable height andspeed.

[0043] Referring to figure 1, illustrates the perspective view in which rope (9) is attached to a free wheel pulley (10) at one end and an L-shaped motor shaft (7) at the other end and power controller (1) and a remote sensor (2) withmotor driver (4) and battery (5) is attached to one side of the pole, and free- wheel pulley (10) is attached to the ball-bearing (11) with pressure sensor (12)on the opposite side.

[0044] Referring to figure 2, illustrates block diagram in which the microcontroller (6) receives signals from the pressure senor (12) and remote RF module (2) and provides signals to motor driver and speed controller which controls the working of motor (8).

[0045] Again, referring to figure 2, the power board and control unit (1) and battery (5) provides power to the microcontroller (6).

[0046] Some of the embodiments may be further upgraded upon the study performed further.

Claims (10)

We claim:

1. A system for remote controlled skipping rope for exercise consists of: a. a power control (1), provides power to the microcontroller (6); b. a remote sensor (2), receives signals from remote control; c. a main power line (3), drives the motor; d. a motor driver (4); e. a battery (5), provides power; f. a microcontroller (6), adjusts and varies the speed of rotating rope;

g. a motor shaft (7); h. a motor (8); i. a rope (9); j. a free-wheel pulley (10), moves rope in one direction continuously; k. a ball bearing (11), controls rotational motion of rope; and 1. a pressure sensor (12), is attached on shaft between ball bearing and free wheel pulley for emergency stoppage. 2. The system as claimed in claim 1, wherein the microcontroller (6) receives signals from the pressure sensor (12) and remote sensor (2) and provides signals to motor driver (4) which controls the working of motor (8).

3. The system as claimed in claim 1, wherein one end of rope (9) is attached to the free wheel pulley (10) of one pole and other end of rope (9) with L-shaped motor shaft (7) of opposite pole.

4. The system as claimed in claim 1, wherein one pole is embedded with the power control (1), the remote sensor (2), the main power line (3), the motor driver (4), the battery (5), the microcontroller (6), and the motor shaft (7).

5. The system as claimed in claim 1, wherein other pole on opposite sideis attached with the free-wheel pulley (10).

6. The system as claimed in claim 1, wherein the free-wheel pulley (1O)is attached to the ball-bearing (11) and pressure sensor (12).

7. The system as claimed in claim 1, wherein the motor (8) stops automatically when detects certain pressure on the rope.

8. The system as claimed in claim 1, wherein uses stop button on remoteto stop the motor manually.

9. The system as claimed in claim 1, wherein adjusts the height of rope asper the user height.

10. The system as claimed in claim 1, wherein controls the speed throughremote control.

Applicant: Lovely Professional University Sheet No: 1/2 2021102908

Figure 1

Applicant: Lovely Professional University Sheet No: 2/2 2021102908

Figure 2