CN209952112U - Rope skipping device - Google Patents

Abstract

The utility model discloses a rope skipping ware relates to the physical examination field, including the handle, the sense terminal setting of handle is used for detecting the magnetoelectric detection module that the handle rocked the number of turns, and the sense terminal sets up the stress detection module who is used for detecting the user number of times of jumping simultaneously, still includes count judgement module, simultaneously with magnetoelectric detection module, stress detection module electric connection to according to rock the round and jump once triggering and carry out an effective count. Magnetoelectric detection module detects whether the user waves the speed that handle and handle waved, stress detection module detects whether the user jumps and the speed of jump, count judgement module is when waveing the handle round and take off and jump the triggering of a dual condition, carry out effective count once, thereby avoid only waveing the handle and do not jump, or only jump and do not wave the false jump of handle, and avoid the handle to wave the invalid jump condition that causes with the nonconformity of jump, the count science is accurate.

Description

Rope skipping device

Technical Field

The utility model relates to a body measuring equipment, more specifically say, it relates to a rope skipping ware.

Background

The skipping rope is a common sport, and can exercise relevant muscles of a body and can also be shaped when the skipping rope is frequently used, so that the skipping rope sport is available in gymnasiums, schools and other occasions. With the diversification of the motion of rope skipping, the statistical and data-based guidance of rope skipping is particularly important. For example, in school, how many jumps we want to complete in a fixed time; in a gym, we need how many jumps per day and how often and which calories to consume. In the above situation, a timer and a recording table are often needed for counting data, but in an actual situation, the data are only roughly estimated by the user, and in order to enable the motion to be more convenient to count, the data to be more visual and the mode to be more scientific, the user needs an intelligent skipping rope to finish the designated work.

Then, chinese patent application No. 201810205852.2 discloses an intelligent skipping rope, including detection device and skipping rope device, detection device includes: the system comprises a sensor, a main control board and a wireless communication module; the rope skipping device comprises: a pair of handles and a cord; the handle is provided with a low-energy-consumption processor which is connected with the main control board; the main control board is provided with a timer, the signal output end of the sensor is connected with the main control board, and the wireless communication module is connected with the main control board and used for accessing a wireless network; the motion parameters collected by the main control board are sent to the intelligent terminal with the rope skipping application program installed in advance through the wireless communication module. The technical problems that the rope skipping is high in power consumption, and the rope skipping cannot lead out collected motion data are solved.

This intelligence rope skipping although can count rope skipping, it still needs the rope, and the trouble is placed to the rope on the one hand, and on the other hand, some scenes only require the user to jump, and the rope is the part that the person of facilitating the use jumps the count, and when can the electronic counting, its existence still can influence the user and continue to jump, for example stumble by the rope, so current rope skipping still has the improvement space.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a rope skipping device, which has the advantages of cordless carrying and use, simplicity and convenience.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a rope skipping ware, includes the handle, the sense terminal of handle sets up the magnetoelectric detection module that is used for detecting the handle and waves the number of turns, the sense terminal sets up the stress detection module who is used for detecting the user number of times of jumping simultaneously, still includes

The counting judgment module is simultaneously electrically connected with the magnetoelectric detection module and the stress detection module and is triggered to carry out effective counting once according to the simultaneous shaking and jumping of one circle;

and the wireless communication module is electrically connected with the counting judgment module and is used for sending rope skipping counting data.

Adopt above-mentioned technical scheme, when using, the magnetoelectric detection module detects whether the user waves the speed that handle and handle waved, the stress detection module detects whether the user jumps and the speed of jump, count judgement module is when waveing the handle round and take off the trigger of the one time dual condition of jumping, carry out an effective count, thereby avoid only waveing the handle and not jumping, or only jumping and not waveing the false jump of handle, and avoid the handle to wave the invalid jump condition that causes with the nonconformity of jump, the count science is accurate. In addition, the wireless communication module sends the counting sending data to an external terminal, so that the recording, storage and analysis of the data are facilitated.

Furthermore, the detection end of handle sets up the annular and leads to the groove, magnetoelectric detection module is including leading to rolling magnetism ball and being used for detecting the hall sensor of magnetism ball roll position along the annular.

By adopting the technical scheme, when the handle is shaken, the magnetic ball rolls along the annular through groove under the action of the gravity and the guiding force of the inner wall of the annular through groove, so that the Hall sensor arranged at a specific position detects the magnetic ball and accurately detects the shaking condition of the arm of a user.

Furthermore, the detection end of handle sets up spherical cavity, stress detection module is including setting up the gravity ball in the cavity and being used for detecting the stress transducer of gravity ball extrusion force size.

By adopting the technical scheme, the gravity ball is limited in the cavity by the inner wall of the cavity, when a user jumps, the gravity ball is pressed against the inner wall of the cavity under the action of gravity, and then the extrusion condition of the gravity ball is obtained by the stress sensor, so that the jumping condition of the user is accurately detected.

Furthermore, the counting and judging module comprises an and gate circuit electrically connected with the magnetoelectric detection module and the stress detection module, and a microcontroller electrically connected with the and gate circuit.

By adopting the technical scheme, the AND gate circuit is simultaneously connected with the magnetoelectric detection module and the stress detection module, and outputs corresponding signals when the AND gate circuit and the magnetoelectric detection module are simultaneously triggered, so that effective jump is judged, subsequent counting is convenient, and in addition, the counting mode of the microcontroller is adopted, so that the method is more accurate and stable.

Further, the microcontroller is a minimal single chip circuit.

By adopting the technical scheme, the minimum singlechip circuit is low in price, and the support function is rich and easy to realize.

Further, the wireless communication module is a WLAN module.

Furthermore, a holding part for increasing the friction of human hands is arranged on one side of the handle, which is far away from the detection end.

Further, the holding part is a holding groove which is sunken inwards.

By adopting the technical scheme, the hand can hold the clothes conveniently.

To sum up, the utility model discloses following beneficial effect has:

1. the magnetoelectric detection module detects whether a user shakes the handle and the shaking speed of the handle, the stress detection module detects whether the user jumps and the jumping speed, the counting judgment module triggers the dual conditions of one-time jumping and one-time shaking of the handle, and one-time effective counting is carried out, so that false jumping caused by only shaking the handle without jumping or only jumping without shaking the handle is avoided, invalid jumping caused by inconsistency of shaking and jumping of the handle is avoided, and counting is scientific and accurate;

2. the wireless communication module sends the counting sending data to an external terminal, so that the recording, storage and analysis of the data are facilitated.

Drawings

Fig. 1 is a schematic structural view of a rope skipping device of the present invention;

fig. 2 is a sectional view of the rope skipping device of the present invention;

fig. 3 is a schematic block diagram of the rope skipping device of the present invention.

In the figure: 1. a handle; 11. a holding groove; 2. a detection end; 3. an annular through groove; 4. a gravity ball; 5. a Hall sensor; 6. a stress sensor; 7. a counting judgment module; 71. an AND gate circuit; 72. a microcontroller; 8. a wireless communication module; 9. a buzzer.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and embodiments.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Examples

A rope skipping device, refer to fig. 1 and 2, comprises a handle 1 and a detection end 2 positioned at one end of the handle 1, wherein the detection end 2 is provided with a magnetoelectric detection module for detecting the shaking condition of the handle 1 and a stress detection module for detecting the jumping condition.

Handle 1 is cylindricly, makes things convenient for the finger to grip, keeps away from in addition at its detection end 2 and sets up the frictional grip of increase staff, and the grip can be for inside sunken holding groove 11, or similar anti-skidding line.

Detection end 2 is the cake form, with handle 1 body coupling, in the circular plane of detection end 2, opens around the centre of a circle and has the annular that encircles a week to lead to groove 3, and magnetoelectric detection module is including setting up the magnetic ball that leads to in the groove 3 of annular to and be close to the hall sensor 5 that the groove 3 position led to the annular at detection end 2. When handle 1 rocks, the magnetic ball receives gravity and the circular effort that leads to the inslot wall, leads to the inslot 3 at the annular and is circular motion, reacts handle 1's the condition of rocking then, and sets up and lead to the operating condition that the groove 3 position was led to in the annular hall sensor 5 and then can detect the magnetic ball to the realization rocks the detection of the condition to handle 1.

The center position of the detection end 2 is provided with a spherical cavity, and the stress detection module comprises a gravity ball 4 which is arranged on the inner wall of the cavity in a clinging manner, and a stress sensor 6 which is used for detecting the size of the acting force applied to the inner wall of the cavity by the gravity ball 4 under the action of gravity.

Referring to fig. 3, the hall sensor 5 and the stress sensor 6 are electrically connected to the and circuit 71 at the same time, the and circuit 71 is used for realizing effective counting, and the principle is that effective output is performed once triggered when output signals of the hall sensor 5 and the stress sensor 6 are received at the same time, that is, effective counting is performed once triggered according to the condition that one circle of shaking and one time of jumping are shaken, so that the false jump that the handle 1 is shaken without jumping or is performed with jumping only is avoided, the invalid jump condition caused by inconsistency between shaking and jumping of the handle 1 is avoided, and counting is scientific and accurate.

The and circuit 71 is electrically connected to the microcontroller 72, and is configured to count and store the output of the and circuit 71, process the information, and transmit the count data to the external terminal through the wireless communication module 8 connected thereto. In this embodiment, the microcontroller 72 employs a minimum single chip circuit, and the wireless communication module 8 is a WLAN module.

In addition, microcontroller 72 simultaneously with hall sensor 5, stress sensor 6 electric connection for whether synchronous is waved with handle 1 in the analysis jump, and when asynchronous, carry out the sound production suggestion through the bee calling organ 9 with the direct connection, thereby let the jump coordinate more standardly.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. A rope skipping device is characterized in that: including handle (1), detection end (2) of handle (1) set up and are used for detecting handle (1) and shake the magnetoelectric detection module of number of turns, detection end (2) set up the stress detection module who is used for detecting the user number of times of jumping simultaneously, still include

The counting judgment module (7) is simultaneously electrically connected with the magnetoelectric detection module and the stress detection module and is triggered to carry out effective counting once according to the simultaneous shaking and jumping of one circle;

and the wireless communication module (8) is electrically connected with the counting judgment module (7) and is used for sending rope skipping counting data.

2. The rope skipping apparatus of claim 1, wherein: the detection end (2) of handle (1) set up annular and lead to groove (3), magnetoelectric detection module is including leading to groove (3) rolling magnetism ball and being used for detecting hall sensor (5) that magnetism ball rolled the position along the annular.

3. The rope skipping apparatus of claim 1, wherein: the detection end (2) of handle (1) sets up spherical cavity, stress detection module is including setting up gravity ball (4) in the cavity and being used for detecting stress transducer (6) of gravity ball (4) extrusion force size.

4. The rope skipping apparatus of claim 1, wherein: the counting and judging module (7) comprises an AND gate circuit (71) electrically connected with the magnetoelectric detection module and the stress detection module, and a microcontroller (72) electrically connected with the AND gate circuit (71).

5. The rope skipping apparatus of claim 4, wherein: the microcontroller (72) is a minimal single chip circuit.

6. The rope skipping apparatus of claim 1, wherein: the wireless communication module (8) is a WLAN module.

7. The rope skipping apparatus of claim 1, wherein: and a holding part for increasing the friction of hands is arranged on one side of the handle (1) far away from the detection end (2).

8. The rope skipping apparatus of claim 7, wherein: the holding part is an inwards concave holding groove (11).

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