TW202241556A - Physical training handle structure allowing a user to hold for detecting the physiological information of the user - Google Patents

Abstract

The present invention relates to a physical training handle structure, which is a physical training handle structure that allows a user to hold for detecting the physiological information of the user. The present invention includes a main body, at least one protruding part, at least one holding part, and a sensing unit. The physical training handle structure of the present invention is mainly configured by providing a hardware design with a built-in sensing unit inside the handle, in order to allow the user to effectively hold with one hand or both hands during exercise, and the sensing unit is configured to sense the physiological information when the user exercises. When the two physical training handle structures work together, it can further allow a user who has unsmooth body movements to simulate the exercise motion of jump rope, which can indeed achieve advantages of detecting the user's physiological information in real time and providing alternative exercise modes to the user.

Description

Fitness handle structure

The present invention relates to a fitness handle structure, in particular to a fitness handle structure that is held by a user to detect physiological information of the user.

By the way, in modern life, people pay attention to exercise to maintain their health, and there are many sports, and they are all assisted by corresponding sports equipment. Among them, "rope skipping" is a very easy to use, very low cost and can be used anytime, anywhere. The sports events that are carried out are welcomed by the masses; the known skipping rope is composed of a rope combined with handles arranged at both ends. It is very simple in structure. The user can hold the handle with both hands and swing the rope. By jumping around the soles of the feet, the action of skipping rope can be completed, and the purpose of exercise and fitness can be achieved by repeatedly performing the above actions; however, the traditional skipping rope can only provide users with the action of skipping rope, and cannot Record and count the exercise state or the user's physiological information during the process of jumping rope. For example, the user has to count the number of times in his heart when skipping rope, but the number is often incorrect due to fatigue; in addition, If it is possible to know the number of heartbeats of the user while skipping rope, it can also provide an assessment of the degree of exercise to facilitate training planning. The above-mentioned shortcomings cannot be achieved by traditional rope skipping.

Although skipping consumes about 1,000 calories per hour and keeps the heart rate at about the same level as jogging, it can avoid knee and ankle pain caused by running. It is a simple and easy-to-participate exercise. However, some users who are inconvenient to move or have poor physical coordination are also prone to fall due to jumping rope, so they shrink back and dare not try, and ultimately cannot effectively achieve the purpose of exercise by skipping rope; therefore, how to effectively With the innovative hardware design, it can detect the user's physiological information in real time when showing the rope skipping exercise, and provide the user experience with unsmooth body movements and simulate the motion of skipping rope, so as to achieve the benefits brought by the rope skipping exercise. The efficacy and entertainment of sports equipment and other related industries are still issues that developers and researchers in sports equipment and other related industries need to continue to work hard to overcome and solve.

Today, the inventor is in view of the fact that there are still many shortcomings in the actual implementation of the traditional fitness handle structure, so he is a tireless spirit, and with the help of his rich professional knowledge and years of practical experience, he improves it , and develop the present invention accordingly.

The main purpose of the present invention is to provide a fitness handle structure, especially a fitness handle structure that can be held by the user to detect the user's physiological information, mainly through the hardware of the built-in sensing unit in the handle The design effectively provides the user with one hand or both hands to hold it during exercise, and then uses the sensing unit to sense the physiological information of the user's movement, and when the two fitness handle structures work together, it can also provide different body movements. The smooth user simulates the movement of skipping rope, which can indeed detect the user's physiological information in real time and provide the user with major advantages such as alternative exercise modes.

In order to achieve the above-mentioned implementation goals, the inventor proposes a fitness handle structure, which at least includes a main body, at least one raised portion, at least one gripping portion, and a sensing unit; the main body includes an outer surface; at least one The raised part protrudes outward from the outer surface of the main body; at least one grip part is arranged side by side with the raised part on the outer surface of the main body; the sensing unit is arranged on the main body, wherein the sensing unit is used to sense a signal .

The fitness handle structure described above, wherein the main body is in one of a cylinder, a hemispherical body, a triangular pyramid, a square or a polygonal cylinder.

The fitness handle structure described above, wherein the protrusion is additionally provided on the outer surface of the main body or integrally formed with the main body.

In the fitness handle structure described above, the protruding portion is correspondingly provided with a protruding portion, and the protruding portion protrudes toward a direction away from the main body.

The fitness handle structure described above, wherein the protruding part is in the form of a cone, a sphere, or a polygonal column.

In the fitness handle structure mentioned above, the grip part is provided for a user to hold with fingers, and the raised part is located between the user's fingers.

In the fitness handle structure mentioned above, the sensing unit is either embedded in the main body or embedded in the outer surface of the main body.

In the fitness handle structure mentioned above, the sensing unit at least includes a transmitting module, a receiving module, and a computing module electrically connected to the receiving module.

The structure of the fitness handle mentioned above, wherein the transmitting module transmits a first signal to a user's hand, the receiving module receives the second signal reflected by the user's hand, and the calculating module receives the second signal The second signal is used to calculate the physiological information of the user.

In the fitness handle structure mentioned above, the emission module is a light-emitting device for emitting one of infrared light or red light to the user's hand.

In the structure of the fitness handle mentioned above, the physiological information is one of pulse, blood pressure or heartbeat, or a combination of two or more.

In the above-mentioned fitness handlebar structure, the calculation module can further include a transmission module, and the transmission module is electrically connected to a mobile communication device through a wireless communication protocol, so as to transmit the physiological information calculated by the calculation module to the mobile communication device and displayed.

In the fitness handle structure mentioned above, the wireless communication protocol is Bluetooth wireless communication module, Wi-Fi wireless communication module, WiMAX wireless communication module, Zigbee wireless communication module, fourth generation mobile communication technology or the first One of the five generations of mobile communication technology and other agreements.

In the fitness handle structure mentioned above, the mobile communication device is one of a smart phone, a tablet computer, a notebook computer, a smart watch, or a personal digital assistant with a display module.

Thus, the structure of the fitness handle of the present invention is mainly through the hardware design of the built-in sensing unit in the handle, which effectively provides the user with one hand or both hands to hold it during exercise, and then uses the sensing unit to sense The physiological information of the user's movement, and when the two fitness handle structures work together, it can also provide users with unsmooth body movements to simulate the movement of skipping rope, which can indeed detect the user's physiological information in real time and provide the user with Alternative sports mode and other main advantages.

For the benefit of the examiner to understand the technical features, content and advantages of the present invention and the effects that can be achieved, the present invention is hereby described in detail in the form of embodiments in conjunction with the accompanying drawings, and the drawings used therein, its The subject matter is only for illustration and auxiliary instructions, and not necessarily the true proportion and precise configuration of the present invention after implementation, so it should not be interpreted based on the proportion and configuration relationship of the attached drawings, and limit the scope of rights of the present invention in actual implementation. Together first describe.

First of all, please refer to Figures 1 to 3, which are a perspective view of the overall structure, a sectional view of the overall structure, and a schematic diagram of the sensing unit arrangement of a preferred embodiment of the fitness handle structure of the present invention, wherein the fitness hand of the present invention The structure (1) is composed of at least one main body (11), at least one raised portion (12), at least one grip portion (13) and a sensing unit (14), wherein the fitness hand of the present invention The structure (1) is mainly based on the hardware design of the sensing unit (14) built in the main body (11), effectively providing a user (not shown in the figure) with one hand or two hands when exercising Hold the main body (11), and then use the sensing unit (14) to sense the physiological information of the user when exercising, and when the two fitness handle structures (1) work together, it can also provide body movement The user simulates the motion of skipping rope, which can indeed detect the user's physiological information in real time and provide the user with an alternative exercise mode and other major advantages.

The main body (11) presented in the form of a cylinder is at least composed of an outer surface (111), a first cover (112) and a second cover (113), wherein the first cover (112 ) and the second cover (113) are respectively arranged on two sides of the cylindrical outer surface (111), and the outer surface (111) is correspondingly connected to the first cover (112) and the second cover body (113), and the inside of the main body (11) is provided with an accommodating space (114), the accommodating space (114) is used to accommodate the sensing unit (14); however, it must be noted that the above-mentioned main body The type of (11) is for convenience of description, but not limited by the present invention, and the main body (11) can also be a hemispherical body, a triangular pyramid, a square or a polygonal cylinder. As long as the main body (11) can be held by the user and has an accommodating space (114) for accommodating the sensing unit (14), the main body (11) ( 11) There may be different appearances, which will not affect the actual implementation of the present invention.

The raised portion (12) protrudes outward from the outer surface (111) of the main body (11), and the raised portion (12) is integrally formed with the main body (11); in addition, the raised portion ( 12) It can also be externally arranged on the outer surface (111) of the main body (11) without being integrally formed with the main body (11); in a preferred embodiment of the present invention, the outer surface of the main body (11) ( 111) is formed with 4 protrusions (12) protruding toward the direction away from the outer surface (111), and each of the protrusions (12) is integrally formed with the main body (11), and each A protruding part (121) is correspondingly protruded on the protruding part (12), and the conical protruding part (121) protrudes toward the direction away from the outer surface (111) of the main body (11), forming a The protruding portion (121) of the cone is made of a hard material, wherein the hard material can be, for example but not limited to, cemented carbide such as tungsten steel, because cemented carbide has high hardness, high strength, high toughness, resistance Wear resistance, heat resistance and corrosion resistance, etc., when the user encounters the danger of bad guys invading the fitness handle structure (1), the user can use the protrusion (121) to attack the bad guy to achieve self-defense However, it must be noted that the type or composition of the above protruding portion (121) is for the convenience of explanation, not limited to the present invention, and the protruding portion (121) can also be a spherical body or polygonal column, etc., and those skilled in the art should know that as long as the protrusion (121) is made of hard material and can allow the user to achieve the effect of self-defense, the protrusion (121) will (121) It can have different appearances and different materials, which will not affect the actual implementation of the present invention.

The grip part (13) is arranged side by side with the protruding part (12) on the outer surface (111) of the main body (11), please refer to Figure 4, which is one of the fitness handle structures of the present invention A schematic diagram of a user holding a preferred embodiment, wherein on the outer surface (111) of the main body (11) and between the raised portion (12) and the raised portion (12) are respectively provided with a handle The holding portion (13), that is to say, at least four holding portions (13) are arranged on the outer surface (111) of the main body (11) for the hand (3) of the user to hold. The user's fingers (31) can be held on the grip portion (13), just like holding the handle of a bicycle, and the raised portion (12) and the protruding portion (121) are placed on the finger (31). ) and the finger (31).

The sensing unit (14) is embedded on the outer surface (111) of the main body (11), and the sensing unit (14) is used to sense a signal; please refer to Figure 5 and Figure 6 together As shown, it is a schematic diagram of the operation of the sensing unit (1) and a schematic diagram of the operation of the sensing unit (2) of a preferred embodiment of the fitness handle structure of the present invention, wherein the sensing unit (14) is a reflective heartbeat The blood oxygen sensor mainly uses "photoelectric sensing" to measure the pulse. It mainly uses a light source arranged on the skin surface of the living body to irradiate the living body, and then uses a photodiode (Photo-diode) or The phototransistor is used to measure the light penetrating or reflected in the living body. The reflective heartbeat blood oxygen sensor receives the signal and processes it to convert the blood oxygen concentration value; please refer to Figure 7 Shown is a block diagram of the sensing unit of a preferred embodiment of the fitness handle structure of the present invention, wherein the sensing unit (14) of the fitness handle structure (1) of the present invention is at least composed of a transmitting module ( 141), a combination of a receiving module (142) and a computing module (143), the computing module (143) is electrically connected to the receiving module (142), wherein the The transmitting module (141) transmits a first signal to the blood vessel (32) in the palm of the user's hand (3), and the first signal is one of infrared light or visible red light The receiving module (142) receives the second signal reflected by the first signal from the blood vessel (32) in the user's palm, and is electrically connected to the computing module of the receiving module (142) (143) is to calculate the received second signal with a built-in algorithm (not shown in the figure) to obtain the physiological information of the user, wherein the physiological information is one of pulse, blood pressure or heartbeat, etc. Physiological information or a combination of the two or more, for example: heartbeat information when the user holds the fitness handle structure (1) for running training, etc., to provide reference for the user when exercising; however, it must be noted that the above The sensing unit (14) embedded in the outer surface (111) of the main body (11) is for convenience of description, but not limited to the present invention, the sensing unit (14) can also be placed into the accommodating space (114) of the main body (11), and those skilled in the art should know that as long as the sensing unit (14) can transmit signals to the user's hand (3), and can receive the user's hand (3) The signal reflected by the hand (3) of the patient, wherein the transmitted signal and the reflected signal are light in one of the forms of infrared light or visible red light, and the sensing unit (14) can be in different forms Being arranged in the main body (11) will not affect the practical implementation of the present invention.

In addition, the calculation module (143) of the sensing unit (14) includes a transmission module (1431), and the transmission module (1431) is electrically connected to a mobile communication device (2) through a wireless communication protocol , wherein the wireless communication protocol is Bluetooth wireless communication module, Wi-Fi wireless communication module, WiMAX wireless communication module, Zigbee wireless communication module, fourth-generation mobile communication technology or fifth-generation mobile communication technology, etc. A protocol, and the mobile communication device (2) is one of a smart phone, a tablet computer, a notebook computer, a smart watch, or a personal digital assistant with a display module; that is, the transmission module The group (1431) transmits the physiological information calculated by the calculation module (143) to the mobile communication device (2) presented in the form of a smart phone through the wireless communication protocol of the Bluetooth wireless communication module, and the smart phone The display module of the screen of the mobile phone is displayed to provide the user with various physiological information at the moment of exercise.

Furthermore, please refer to Fig. 8, which is a schematic diagram showing the use of the simulated skipping rope in the second preferred embodiment of the fitness handle structure of the present invention, wherein when the user uses both hands to hold one of the fitness handle structures (1) At this time, the user can regard the fitness handle structure (1) as a virtual skipping rope (4), and simulate the action of jumping while holding the skipping rope, and the fitness handle structure (1) can start the coordinated movement It helps to record whether the user's jumping rope skipping times and actions are in compliance with the rules, and the user's movements, times and related physiological information can also be transmitted from the fitness handle structure (1) to the user's carry-on The mobile communication device (2) is also displayed. Therefore, the fitness handle structure (1) of the present invention can provide users with poor body movements to simulate the motion of skipping rope, so as to achieve the purpose of fitness and exercise.

It can be seen from the above description of the implementation that the fitness handle structure of the present invention has the following advantages compared with the prior art:

1. The structure of the fitness handle of the present invention is mainly based on the hardware design of the built-in sensing unit in the handle, which effectively provides the user with one hand or two hands to hold it during exercise, and then uses the sensing unit to sense Physiological information of the exerciser, and when the two fitness handle structures work together, it can also provide users with unsmooth body movements to simulate the movement of skipping rope, which can indeed detect the physiological information of the user in real time, and provide the user with an alternative The main advantages of the sports mode.

To sum up, the structure of the fitness handle of the present invention can indeed achieve the expected use effect through the above disclosed embodiments, and the present invention has not been disclosed before the application, and it has fully complied with the provisions of the patent law and Require. ￠It is really convenient to file an application for a patent for invention according to the law, and ask for the review and approval of the patent.

However, the illustrations and descriptions disclosed above are only preferred embodiments of the present invention, and are not intended to limit the scope of protection of the present invention; those who are familiar with the art generally do other things based on the characteristics and scope of the present invention. Equivalent changes or modifications shall be regarded as not departing from the design scope of the present invention.

(1): Fitness handle structure (11): subject (111): outer surface (112): the first cover (113): the second cover (114):Accommodating space (12): Raised part (121): protrusion (13): Grip (14): Sensing unit (141): launch module (142): receiving module (143): Calculation module (1431): Transmission module (2):Mobile communication device (3): hand (31): finger (32): blood vessel (4): Virtual skipping rope

Figure 1: a three-dimensional view of the overall structure of a preferred embodiment of the fitness handle structure of the present invention; Fig. 2: a sectional view of the overall structure of a preferred embodiment of the fitness handle structure of the present invention; Figure 3: a schematic diagram of the sensing unit arrangement of a preferred embodiment of the fitness handle structure of the present invention; Figure 4: a schematic diagram of a user holding a preferred embodiment of the fitness handle structure of the present invention; Figure 5: Schematic diagram of the sensing unit operation of a preferred embodiment of the fitness handle structure of the present invention (1); Figure 6: Schematic diagram of the operation of the sensing unit of a preferred embodiment of the fitness handle structure of the present invention (2); Figure 7: A block diagram of the sensing unit of a preferred embodiment of the fitness handle structure of the present invention; Figure 8: Schematic diagram of the simulated skipping rope in the second preferred embodiment of the fitness handle structure of the present invention.

(1): Fitness handle structure

(11): subject

(111): outer surface

(112): the first cover

(113): the second cover

(114):Accommodating space

(12): Raised part

(121): protrusion

(13): Grip

Claims (10)

A fitness handle structure at least includes: a body (11) comprising an outer surface (111); At least one protrusion (12) protrudes outward from the outer surface (111) of the main body (11); At least one gripping portion (13) is arranged on the outer surface (111) of the main body (11) in parallel with the raised portion (12); and A sensing unit (14) is arranged on the main body (11), wherein the sensing unit (14) is embedded in the main body (11) or embedded in the outer surface (111) of the main body (11) One of them, wherein the sensing unit (14) is used to sense a signal. The fitness handle structure as described in claim 1, wherein the main body (11) is one of a cylinder, a hemispherical body, a triangular pyramid, a square or a polygonal cylinder; the raised portion (12) is The outer surface (111) of the main body (11) is externally arranged or one of them is integrally formed with the main body (11). The fitness handle structure according to claim 1, wherein the protrusion (12) is correspondingly provided with a protrusion (121), and the protrusion (121) protrudes in a direction away from the main body (11), wherein The protrusion (121) is one of a cone, a sphere or a polygonal column. The fitness handle structure as described in Claim 1, wherein the holding portion (13) is provided for a user to hold with fingers, and the raised portion (12) is located between the fingers of the user. The fitness handle structure as described in claim 1, wherein the sensing unit (14) at least includes a transmitting module (141), a receiving module (142), and an electrical connection to the receiving module (142 ) calculation module (143). The fitness handle structure as described in claim 5, wherein the transmitting module (141) transmits a first signal to a user's hand (3), and the receiving module (142) receives the user's The second signal reflected by the hand (3), and the calculation module (143) receives the second signal to calculate the physiological information of the user. The fitness handle structure according to claim 6, wherein the emitting module (141) is a light emitting device for emitting one of infrared light or red light to the user's hand (3). The fitness handle structure as described in Claim 6, wherein the physiological information is one of pulse, blood pressure or heartbeat or a combination of more than two. The fitness handlebar structure as described in claim 5, wherein the calculation module (143) further includes a transmission module (1431), and the transmission module (1431) is electrically connected to a mobile phone via a wireless communication protocol The communication device (2) is used to transmit the physiological information calculated by the calculation module (143) to the mobile communication device (2) and display it. The fitness handle structure as described in claim 9, wherein the wireless communication protocol is a Bluetooth wireless communication module, a Wi-Fi wireless communication module, a WiMAX wireless communication module, a Zigbee wireless communication module, a fourth-generation mobile One of communication technology or fifth-generation mobile communication technology; the mobile communication device (2) is one of a smart phone, a tablet computer, a notebook computer, a smart watch or a personal digital assistant with a display module.

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