Rope skipping device

Abstract

A rope skipping device characterized in that it comprises a housing (100) and a rope body (200); wherein the rope body (200) is connected to the housing (100), and the rope body (200) is arranged for fitness use by a user.

Description

Technical field

[0001] The present application relates to the technical field of rope skipping, in particular a rope skipping device. State of the art

[0002] With the ever-increasing health consciousness across the population, rope skipping, as an aerobic sport requiring no complex equipment, offering high training effectiveness and significant fat burning, has quickly become a top choice for everyday fitness. Whether for home workouts, outdoor sports, or school sports activities, rope skipping products are widely used.

[0003] Conventional jump rope products, as currently available, all follow a purely manual, simple design, without any electrically assisted drive system. The rope's rotation is achieved entirely through the swinging motion of the user's arms. However, this poses an increased risk of sports injuries for fitness beginners, individuals with limited physical condition, the elderly, and rehabilitation users who require light exercise. This makes it difficult for these user groups to maintain a long-term jump rope training regimen, and there are significant limitations to its use. Content of the present application

[0004] The purpose of the present application is to provide a rope skipping device which is intended to solve the problem of the insufficient practicality of rope skipping devices in the existing technology.

[0005] The present application is implemented as follows: The rope skipping device comprises a housing and a rope body; wherein the rope body is connected to the housing, and the rope body is arranged for fitness use by a user.

[0006] Optionally, a rotating part is movably connected to the housing, and the rope body is connected to the rotating part; and the rotating part can rotate relative to the housing.

[0007] Optionally, a lower part of the housing has a handle designed for holding by hand.

[0008] Optionally, a counter is arranged in the housing, the counter being used to record the rotational speed of the rotating part.

[0009] Optionally, a display device is attached to the housing, which serves to show the rotational speed of the rotating part.

[0010] Optionally, one end of the rope body is connected to the housing, and the other end of the rope body is connected to a weighting part.

[0011] Optionally, the housing includes a first housing and a second housing; one end of the rope body is connected to the first housing, and the other end of the rope body is connected to the second housing.

[0012] Optionally, the rope body comprises a first rope body and a second rope body; a rotatable swivel head is attached to the top of the housing; one side of the swivel head is connected to the first rope body, and the other side of the swivel head is connected to the second rope body.

[0013] Optionally, a drive motor is arranged in the housing; the drive motor is connected to the rotary head, and the drive motor serves to drive the rotary head.

[0014] Optionally, the housing includes a base body, in which a drive motor is arranged, and a rotary head is movably connected to the top of the base body; a battery is arranged in the base body, the battery is electrically connected to the drive motor, a charging interface is attached to the surface of the base body, and the charging interface is electrically connected to the battery.

[0015] Optionally, a battery is arranged inside the housing, a charging interface is attached to the surface of the housing, and the charging interface is electrically connected to the battery.

[0016] Compared to existing technology, the rope skipping device provided by the present application offers a simple and practical structure, is easy to use, has a high degree of adaptability, can meet the basic rope skipping fitness needs of users, while supporting functional extensions, can adapt to the diverse usage scenarios of people with different physical conditions, and combines practicality and flexibility. Brief description of the drawings Fig. Figure 1 is a schematic structural view of a rope skipping device provided by the present application. Fig. Figure 2 is an interior view of the rope skipping device provided by the present application. Fig. Figure 3 is a schematic structural view of a printed circuit board in Fig. 2. Fig. Figure 4 is a schematic structural view of a rope skipping device provided by the present application. Fig. Figure 5 is an interior view of the rope skipping device provided by the present application. Fig. Figure 6 is a schematic structural view of a printed circuit board in Fig. 5. Fig. Figure 7 is a schematic structural view of a rope skipping device provided by the present application; Fig. Figure 8 is a sectional view of the rope skipping device provided by the present application. Detailed description of the embodiments

[0017] To clarify the purpose, technical solution, and advantages of the present application, it is described in further detail below in conjunction with the drawings and embodiments. It should be understood that the specific embodiments described here serve only to explain the present application and not to limit it.

[0018] The implementation of the present application is described in detail below with reference to specific embodiments.

[0019] In the drawings of this embodiment, identical or similar reference numerals correspond to identical or similar components. In the description of the present application, terms such as "top," "bottom," "left," "right," etc., indicating orientation or positional relationship, are to be understood as being based on the orientation or positional relationship shown in the drawings. They serve only to facilitate and simplify the description of the present application and not to indicate or imply that the device or element in question must have a particular orientation or be designed and operated in a particular orientation. Therefore, the terms used in the drawings to describe positional relationships serve only as examples and cannot be understood as limiting the present application.For the expert in this field, the specific meaning of the above-mentioned terms can be understood depending on the specific situation.

[0020] Fig. Figures 1-8 show some embodiments provided by the present application.

[0021] A rope skipping device provided by the present application comprises a housing 100, wherein a rope body 200 is connected to the housing 100, and the rope body 200 is arranged for fitness use by a user. The rope skipping device may be a type of rope skipping device such as a jump rope, a counting jump rope, a weighted jump rope, a bamboo segment jump rope, an electronic smart jump rope, an automatic jump rope, etc.

[0022] The rope skipping device provided above has a simple and practical structure, is easy to use, has a high adaptability, can meet the basic rope skipping fitness needs of users, while supporting functional extensions, can adapt to the diverse usage scenarios of people with different physical conditions, and combines practicality and flexibility.

[0023] In some embodiments, an end part of the housing 100 is movably connected to a rotating part 30, and the rope body 200 is connected to the rotating part 30; the rotating part 30 can rotate relative to the housing 100. The provided rope skipping device has a simple and practical structure, is easy to use, highly adaptable, can meet the basic rope skipping fitness needs of users, supports functional extensions, can adapt to the diverse usage scenarios of people with different physical conditions, and combines practicality and flexibility.

[0024] The lower part of the housing 100 features a handle 101 designed for holding by hand. This meets ergonomic usage requirements, making it easier for the user to hold the housing stably, reducing hand slippage during rope skipping, reducing fatigue during prolonged holding, and increasing user comfort and operational stability.

[0025] The housing 100 contains a counter 40, which serves to record the rotational speed of the rotating part 30. This indirectly reflects the number of jumps performed by the user, providing an intuitive reference for their sports data, helping them to monitor their training progress, fulfilling their need to quantify physical activity, and improving the scientific basis of their training.

[0026] A display unit 50 is attached to the housing 100. The display unit 50 serves to show the rotational speed of the rotating part 30. Thus, the display element can show the rotational speed of the rotating part 30 in real time. The data recorded by the counter 40 is presented to the user intuitively, and no additional operations are required to retrieve the sports data, which enables convenient use.

[0027] In some embodiments, one end of the rope body 200 is connected to the housing 100 and the other end of the rope body 200 is connected to a weighting element 210. Thus, the design in which one end of the rope body 200 is connected to the housing 100 and the other end to a weighting element 210 forms a one-sided housing-100 weighting structure, which lowers the entry barrier for rope skipping and, in some environments, effectively prevents the rope body 200 from hitting against something.

[0028] A circuit board 300 is arranged in the housing 100 and is electrically connected to the counter 40 and the display unit 50. A button is attached to the handle 101, and this button is used to operate the display unit 50 and the counter 40. A battery 90 is also arranged in the housing 100 to supply power to the circuit board 300; the housing also has a charging interface 61 for recharging the battery 90.

[0029] In some embodiments, the housing 100 comprises a first housing 10 and a second housing 20, with one end of the rope body 200 connected to the first housing 10 and the other end of the rope body 200 connected to the second housing 20. The structure, in which two housings 100 are connected to the rope body 200, corresponds to traditional usage patterns in handheld rope skipping, and the symmetrical design of the housing ends ensures a sense of balance while skipping.

[0030] Likewise, a circuit board 300 is arranged in the housing 100, which is electrically connected to the counter 40 and the display unit 50. A button is attached to the handle 101, and the button is used to operate the display unit 50 and the counter 40. A battery 90 is also arranged in the housing 100 to supply power to the circuit board 300; the housing also has a charging interface 61 for recharging the battery 90.

[0031] In some embodiments, the rope body 200 comprises a first rope body 201 and a second rope body 202. A rotatable swivel head 70 is attached to the top of the housing 100; one side of the swivel head 70 is connected to the first rope body 201, and the other side of the swivel head 70 is connected to the second rope body 202. Thus, the combined design of two rope bodies 200 and a swivel head 70, in conjunction with the flexible rotation of the swivel head 70, enables the synchronous movement of the two ropes, enriches the training methods of rope skipping, and allows several people to jump around the swivel head 70 without having to swing the rope.

[0032] A drive motor 80 is arranged in the housing 100, and the drive motor 80 is connected to the rotary head 70, and the drive motor 80 serves to drive the rotary head 70. Thus, the connection design between the drive motor 80 and the rotary head 70 enables the electric drive of the rope body 200 without the user having to exert manual force or swing the rope.

[0033] The rotary head 70 is directly connected to a drive shaft of the drive motor 80. A rotary housing is fitted around the rotary head 70. Mounting openings are provided on the rotary housing, and the first cable body 201 and the second cable body 202 are each connected to the rotary housing via these mounting openings.

[0034] Specifically, the housing 100 comprises a base body 60, within which the drive motor 80 is arranged. The rotary head 70 is movably connected to a top surface of the base body 60, and the battery 90 is located within the base body 60. The battery 90 is electrically connected to the drive motor 80. The charging interface 61 is mounted on the surface of the base body 60 and is electrically connected to the battery 90. The base body 60 integrates the drive motor 80, the battery 90, and the charging interface 61, resulting in a compact and efficient structure. The battery 90 provides the drive motor 80 with stable operation, and the charging interface 61 facilitates recharging of the battery 90, ensuring continuous use of the electric drive function.Furthermore, the design of the base body 60 increases the overall structural stability, makes the use of the electric jump rope more convenient and reliable, and further optimizes the user experience of the electric product.

[0035] The embodiments described above are only some embodiments of the present application and are not intended to limit the present application. All amendments, equivalent replacements, improvements, etc., made within the spirit and principles of the present application should be included within the scope of protection of the present application.

Claims

[1] Jump rope device, characterized by , comprising a housing (100) and a rope body (200); wherein the rope body (200) is connected to the housing (100), and the rope body (200) is arranged for fitness use by a user. [2] Rope skipping device according to claim 1, wherein a rotating part (30) is movably connected to the housing (100), and the rope body (200) is connected to the rotating part (30); the rotating part (30) is rotatable relative to the housing (100). [3] Rope skipping device according to claim 2, wherein a lower part of the housing (100) has a handle (101) designed for holding with the hand. [4] Rope skipping device according to claim 2, wherein a counter (40) is arranged in the housing (100), and the counter (40) serves to record the rotational speed of the rotating part (30). [5] Rope skipping device according to claim 2, wherein a display device (50) is attached to the housing (100), and the display device (50) serves to indicate the rotational speed of the rotating part (30). [6] Rope skipping device according to claim 1, wherein one end of the rope body (200) is connected to the housing (100) and the other end of the rope body (200) is connected to a weighting part (210). [7] Rope skipping device according to claim 1, wherein the housing (100) comprises a first housing (10) and a second housing (20); one end of the rope body (200) is connected to the first housing (10), and the other end of the rope body (200) is connected to the second housing (20). [8] Rope skipping device according to claim 1, wherein the rope body (200) comprises a first rope body (201) and a second rope body (202); a rotatable rotating head (70) is attached to a top of the housing (100); one side of the rotating head (70) is connected to the first rope body (201), and the other side of the rotating head (70) is connected to the second rope body (202). [9] Rope skipping device according to claim 8, wherein a drive motor (80) is arranged in the housing (100); the drive motor (80) is connected to the rotating head (70), and the drive motor (80) serves to drive the rotating head (70). [10] Rope skipping device according to one of claims 1 to 9, wherein a battery (90) is arranged in the housing (100); a charging interface (61) is attached to a surface of the housing (100), and the charging interface (61) is electrically connected to the battery (90).

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