TWM554943U - Gymnastic electrical energy production and storage equipment - Google Patents

Abstract

A gymnastic electrical energy production and storage equipment is disclosed. The equipment has a carrier, a power transmitting device, an electrical energy producing module, a detachable electrical storage module, a display panel, an electrical energy storage control module and an electrical energy consuming module. The power transmitting device is forced to move by a human body exercising in a specific continuous motion and to drive the electrical producing module to generate electrical energy which will be saved in the electrical storage module. The display panel is electrically connected to the electrical storage control module to show the quantity of the saved electrical energy and the loss weight of the human body after the exercise. The electrical storage control module is electrically connected to the electrical energy producing module, the electrical energy storage module and the display panel to control the display of the quantity and voltage of the produced energy and the loss weight on the display panel. The resulted equipment is highly efficient in producing and saving electrical energy, gymnastic, and more convenient in transportation.

Description

Power generation and storage equipment with fitness function

This creation is about an electric energy generating and storing device, especially an electric energy generating and storing device with fitness function.

The advancement of science and technology has driven the development of various electronic products, and accordingly, people's demand for electrical energy has been expanding. Considering the existing public power supply facilities, such as thermal power generation, most of them have problems of energy exhaustion and environmental pollution. All countries are committed to developing renewable energy sources, such as hydropower and wind power. However, these public power supply facilities are large in size, their construction and maintenance are quite difficult, and renewable energy power supply facilities are usually limited to specific areas. Once these power supply facilities fail and cannot supply power, it will cause great inconvenience to people's lives. Therefore, for people, how to self-satisfy the daily demand for electrical energy, even when the public electricity supply is insufficient or unable to supply, can still maintain normal operation in life and work without being affected by the external environment. Issues that the domain must strive to solve.

In view of the above-mentioned problems, the present invention provides a new type of electrical energy generation and storage device, which, in combination with sports equipment, has both electrical energy generation and storage effects and fitness effects in operation, and is easy to carry and set up.

In one embodiment, the present invention provides a power generation and storage device with fitness functions, including: a carrier, a transmission device, a power generation module, a power storage module, a display panel, and a power storage control module. group. A carrier for at least one human body operation, provided with a bearing seat; a transmission device fixed on the carrier for the human body to contact and apply force to perform a specific attitude continuous movement; an electric energy generating module, fixed on the carrier, and the transmission device Direct mechanical connection, the transmission device directly drives the electric energy generating module to generate electric energy after the human body contacts and exerts force; the electric energy storage module has a single or complex rechargeable battery, and is detachably engaged with the carrier for storing electric energy; A display panel, which is installed on the vehicle and is used for real-time display of the human body's weight reduction and electric energy after continuous exercise in a specific posture; the electric energy storage control module, which is in combination with the electric energy generation module, the electric energy storage module and the display panel. The electrical connection inputs a signal containing the magnitude and voltage of the electric energy and the weight reduction of the human body into the display panel in real time; wherein the display panel is electrically connected to the electric energy generation module through the electric energy storage control module to obtain electricity. It is worth noting that the proposed power generation and storage device with fitness function does not have an extra flywheel, which is light in weight and easy to carry.

In one embodiment, the provided vehicle with fitness function for generating and storing electrical energy equipment is further provided with a seat for the human body to ride on. The transmission device is mounted on the bearing seat and has an axis. The axis is connected to a pedal. The device and the power generation module are directly connected by a belt, and the human body applies force to the pedal to perform continuous cycling of the pedal.

In one embodiment, the amount of electrical energy refers to one of the amount of electrical energy stored instantaneously and the amount of electrical energy accumulated over a period of time.

In one embodiment, the carrier is provided with at least one electrical connection block, and the power supply energy storage control module is electrically connected thereto.

In one embodiment, the power storage control module has a processing unit and a computing unit electrically connected to each other. The computing unit calculates the size of the human body according to the power, and the processing unit outputs a control power in the power storage module. The signals of the stored program and the signals carrying the magnitude and voltage of the electric energy and the size of the human body's weight reduction are immediately input into the display panel.

In one embodiment, the power storage control module may further have a maximum power point tracking unit, which is electrically connected to the processing unit and the calculation unit, detects the voltage and current of the generated power, and is capable of tracking the maximum power point. MPPT) allows electrical energy to be stored in the electrical energy storage module under the state of the highest electrical energy transmission efficiency.

In one embodiment, the provided power generation and storage device with fitness function further includes a power consumption module which is electrically connected to the power storage control module and performs power consumption when the voltage of the power reaches a rated maximum value. . Optionally, the power consumption module is a heat sink.

In one embodiment, each of the rechargeable batteries of the electric energy storage module has a high-conductivity conduction mechanism inside, which facilitates the real-time dynamic self-balanced storage of electric energy between the rechargeable batteries. Optionally, the rechargeable batteries are directly assembled in parallel with building blocks or in parallel with parallel lines to expand the capacity, or are assembled in parallel and then connected in series with series lines to increase the amount of voltage.

The power generation and storage device with fitness function proposed by this creation uses the human body to contact and exert force on the device to perform continuous motion in a specific posture to generate power. In the process of storing electrical energy, the storage of electrical energy is always carried out under the state of the highest energy transmission efficiency, not excessively, stable and efficient. In particular, the human body can know its own energy at the same time as the body performs continuous movement in a specific posture for energy storage. Reduce weight and have fitness effects. The power generation and storage equipment with fitness function proposed by this creation is relatively small, it can be operated by a single person, and there is no need to add an extra flywheel. Compared with the existing exercise bikes, it is lighter and more convenient for home users. Handling and installation is a new option for professional gyms to replace equipment, allowing people to self-satisfy the demand for electricity in daily life. Even when public power supply is insufficient or unable to supply, they can still maintain their lives and Normal operation on the work.

In order to make the above features and advantages of this creation more comprehensible, embodiments are described below in detail with the accompanying drawings as follows.

This creation discloses a power generation and storage device with a fitness function. The device itself can generate and store power, and also has the effect of making people fit. The drawings contrasted below are intended to express the meaning related to the characteristics of this creation, and are not completely drawn according to the actual organization or size, nor do they constitute a limitation on this creation.

FIG. 1A is a schematic perspective view of a power generation and storage device with a fitness function according to an embodiment of the present invention. FIG. 1B is a partially enlarged schematic diagram of a power generation and storage device with a fitness function according to an embodiment of the present invention. Please refer to FIG. 1A and FIG. 1B. The electrical energy generation and storage device 1 with fitness function of the present invention has a carrier 11 for operation by at least one human body, a transmission device 12, an electrical energy generation module 13, and an electrical energy storage module. Group 14, a display panel 15, a power storage control module 16 and a power consumption module 17.

In one embodiment, the carrier 11 has, for example, the shape of an exercise bike shown in FIG. 1A, and a bearing seat 111 is mounted on the vehicle, such as, but not limited to, a T-shape as shown in FIG. 1A. The transmission device 12 is, for example, a rotating disk, which is fixed on the carrier 11, for example, is mounted on the bearing base 111 shown in FIG. 1A. The shaft center 121 of the transmission device 12 is connected to a pedal 122 for a human body to contact and exert force to perform a specific posture For example, the continuous movement of the bicycle is performed by stepping on the pedal 122. The vehicle 11 may further be provided with a seat 112. The seat 112 stands on the vehicle 11, for example, on the bearing seat 111 shown in FIG. 1A, and can be used by a human body to operate the vehicle 11. In other embodiments, the vehicle 11 can be operated by multiple persons, and each person operates in the same manner. Therefore, this creation is not limited to an operation mode with only one person.

In one embodiment, the power generation module 13 has, for example, a generator, which is fixed on the carrier 11 and is directly mechanically connected to the transmission device 12, for example, directly connected by a belt 131. The transmission device 12 directly drives the electric energy generating module 13 to generate electric energy after the human body contacts and applies force. The direct drive referred to here means that there is no additional kinetic energy storage device such as a flywheel between the power generation module 13 and the transmission device 12. The power generation module 13 is directly driven by the transmission device 12. However, the transmission device 12 itself may have a function of storing kinetic energy to replace an additional flywheel. The pedal 122 of the transmission device 12 performs a continuous continuous movement of the specific posture by the human body, such as a continuous motion of a bicycle, and then contacts the force to directly generate electricity. The module 13 generates electric energy, so that the electric power generation and storage device with fitness function of this creation has the function of generating electric energy by itself. The power storage module 14 may be a single or a plurality of rechargeable batteries 141 assembled in parallel or in series, or in parallel after being connected in series, or in series and then in parallel, and detachably engaged with the vehicle 11 The electric connection block 113 (as shown in FIG. 2) is used to store electric energy generated by the electric energy generating module 13. The display panel 15 is mounted on the carrier 11 and is electrically connected to the electric energy storage control module 16 for real-time display of the human body performing the continuous continuous movement of the specific posture, for example, the human body loses weight after continuous cycling, and can be installed on The front of the seat 112 is for human eyes to view, and may also have a touch function and be a touch panel. The electric energy storage control module 16 is electrically connected to the electric energy generation module 13, the electric energy storage module 14, and the display panel 15, and is configured to carry the magnitude and voltage of the electric energy stored by the electric energy storage module 14 and the human body. The continuous motion of the specific posture is, for example, that a signal of a human body's weight reduction after continuous cycling is input to the display panel 15 in real time.

It should be noted that, firstly, the vehicle 11 referred to in this creation is not limited to the fitness vehicle type shown in FIG. 1A. Anyone who can integrate the transmission device 12, the power generation module 13, the power storage module 14, the display panel 15, and the power storage control module 16 and can enable more than one human body to perform continuous movement in a specific posture to directly drive power generation The module 13 generates electric energy, and further stores the generated electric energy in the electric energy storage module 14 and displays on the display panel 15 the magnitude and voltage of the stored electric energy and the human body's weight reduction after the human body performs continuous movement in the specific posture, All belong to the scope of this creation. Therefore, in another embodiment, the vehicle 11 may not have the seat 112, and the specific continuous movement of the human body may be a standing stepping posture, a walking stepping posture, a running stepping posture, or any common posture exhibited by the human limbs Combined continuous motion. Second, the term "let one or more human bodies perform continuous movement in a specific posture to directly drive the power generation module to generate electricity" refers to more than one human body in a specific posture with only one transmission device, such as a rotary disk connected to a pedal. Continuous motion, such as continuous cycling by stepping on the pedal, directly driving the power generation module such as a generator without the use of an additional flywheel or any mechanical device or mechanism with kinetic energy storage Generate electricity. Third, the transmission device 12 referred to in this work is not limited to the rotating disk shown in FIGS. 1A and 1B. Anyone who can assist the human body to perform a specific posture continuous movement and directly drive the power generation module 13 to generate power is a transmission device 12 of this creation. Fourth, the appearance of the carrier 11 and the carrier 111 referred to in this creation is not limited to that shown in FIG. 1A. Anyone that can provide electrical connection between the power storage module 14 and other components and between other components Mechanical structures of any shape, such as flat plates or cylinders, fall into the scope of this creation.

FIG. 2 is a schematic side view of a power generation and storage device with a fitness function according to another embodiment of the present invention. Referring to FIG. 2, in another embodiment, the power storage module 14 includes a plurality of rechargeable battery packs such as 14 a and 14 b. The rechargeable battery pack 14 a is composed of three rechargeable batteries 141 covered with or without a casing. They are assembled in parallel, and the rechargeable battery pack 14b is also assembled in parallel by three rechargeable batteries 141 covered or not covered by the casing. The rechargeable battery packs 14a and 14b can be assembled in series by a series line. In other embodiments, the rechargeable battery packs 14a and 14b may be connected in series and then in parallel, and the rechargeable batteries 141 may be connected in series with each other. The connection manner between the rechargeable batteries 141 and the connection manner between the rechargeable battery packs 14a and 14b are not limited in this creation. The separate rechargeable battery 141 or the assembled rechargeable battery packs 14a and 14b can be detachably engaged with the electric connection block 113 of the carrier 11 to facilitate the installation of the power storage module 14 on the carrier 11 or from the carrier 11 Take off. The number of the electrical connection blocks 113 is not limited here. The electrical connection block 113 may be a bump type as shown in FIG. 2 or a groove type (not shown). For example, in other embodiments, one or more of the electrical connection blocks 113 on the carrier 11 may be changed to One or more electrical connection grooves (not shown) are replaced for the separate rechargeable battery 141, the assembled rechargeable battery pack 14a or 14b, or the integrated electric energy storage module 14 for engagement.

3 is a schematic diagram of a display screen of a display panel of a power generation and storage device with a fitness function according to an embodiment of the present invention. Referring to FIG. 3, in an embodiment, the display panel 15 has a plurality of display blocks for displaying various data, at least one for displaying the body in real time and performing a specific posture continuous movement, such as weight loss after stepping on the pedal 122. The first block 151, a second block 152 for real-time display of the instantaneous power stored by the power storage module 14 and the cumulative amount of stored power over a period of time, and a real-time display of the stored power of the power storage module 14 The third block 153 of the voltage of the electric energy. In another embodiment, the display panel 15 further has a fourth block 154 for displaying a continuous movement of the human body in a specific posture, for example, the amount of CO ₂ reduced after stepping on the pedal 122, and a continuous movement for displaying a specific posture in the human body. A fifth block 155, such as the heat consumed after pedaling 122, a sixth block 156, which displays the number of heartbeats that the human body performs in a specific posture, such as the number of heartbeats when pedaling 122, and a human body A seventh block 157 for a continuous continuous movement of a specific posture, such as the mileage experienced by pedaling the pedal 122, and a rotation speed of the generator of the power generation module 13 when the human body performs a continuous continuous movement of a specific posture, for example, the pedal 122 Or the eighth block 158 of the converted human motion speed and a ninth block 159 for displaying a continuous motion of the human body in a specific posture, such as the movement time of the pedal 122.

FIG. 4 is a functional block diagram of each component of a power generation and storage device with a fitness function according to an embodiment of the present invention. Please refer to FIG. 4. In one embodiment, the power storage control module 16 has at least a processing unit 161 and an operation unit 162 electrically connected to each other, and is connected to the power generation module 13, the power storage module 14, and the display panel 15. Both are electrically connected, and the power generation module 13 is directly mechanically connected to the transmission device 12. Further, a Hall sensor in the generator of the power generation module 13 is electrically connected to the power storage control module 16, so that the arithmetic unit 162 can use the magnetic field change of the power generation module 13 to obtain the eighth above. The rotation speed data displayed in block 158 and the electrical energy data displayed in the second block 152 are displayed through the display panel 15.

When the transmission device 12 directly drives the power generation module 13 to generate power, the processing unit 161 of the power storage control module 16 outputs a control signal to control the power storage program in the power storage module 14, and the storage unit 162 calculates the storage in real time. The cumulative amount of electrical energy (in units, for example, expressed in watt-hours), the amount of instantaneous stored electrical energy (in units, for example, expressed in watts), the stored electrical energy voltage (in units, for example, expressed in volts), and real-time calculation of Continuous movement in a specific posture, such as the amount of weight loss (for example, expressed in grams) after stepping on the pedal 122, the amount of CO ₂ reduced (for example, expressed in grams), the amount of calories consumed (for example, expressed in kilocalories), mileage (Units are expressed in kilometers, for example), generator rotation speed or converted human movement speed (for example, expressed in kilometers / minutes or revolutions / minute), exercise time (for example, expressed in hours / minutes / seconds), and heartbeat (Measured by a contact heartbeat meter, the unit is expressed in times, for example) and other data, and the processing unit 161 inputs the signal containing these data into the display in real time Panel 15, so that the display panel to display real-time data on 15. The display panel 15 is electrically connected to the power generation module 13 through the power storage control module 16 to obtain power required for operation.

In another embodiment, the power storage control module 16 preferably has a Maximum Power Point Tracking (MPPT) unit 163, which is electrically connected to the processing unit 161 and the calculation unit 162 to detect the generation of power The physical characteristics of the electrical energy generated by the module 13 include changes in voltage and current to determine the maximum power point timing for generating electrical energy, so that the electrical energy storage module 14 always collects and stores the electrical energy under the state of the highest electrical energy transmission efficiency, in order to exert rapid charging. Power efficiency.

FIG. 5 is a schematic structural diagram of a power consumption module of a power generation and storage device with a fitness function according to an embodiment of the present invention. Please refer to FIG. 1A, FIG. 4 and FIG. 5 at the same time. In another embodiment, the power generation and storage device 1 with fitness function also has a power consumption module 17, which is electrically connected to the power storage control module 16, When the voltage of the electric energy stored by the electric energy storage module 14 has reached the rated maximum voltage, for example, the cut-off voltage of the ternary lithium battery is 12.6V (4.2V x 3), the processing unit 161 of the electric energy storage control module 16 will output a control signal To control the transmission of excess power to the power consumption module 17 to prevent the power storage module 14 from storing excessive power. Optionally, the power consumption module 17 is, for example, a heat dissipation device containing multiple resistors, which converts the transmitted power into thermal energy and dissipates the heat through the thermal convection path of the outside air to achieve the purpose of power consumption. When the power consumption module 17 is a heat dissipation device, it is preferred to use a material with good thermal conductivity such as aluminum, and provide multiple grooves 171 or form multiple bumps on the surface to increase the surface area for heat dissipation. When the power consumption module 17 is a heat dissipation device, its structure is not limited to the type shown in FIG. 5, except that it can be installed on the carrier 11 of the power generation and storage device 1 with a fitness function as an independent device. It can also be the vehicle 11 itself, that is, the vehicle 11 itself is used to dissipate heat to achieve the purpose of energy consumption.

FIG. 6 is an assembly schematic diagram of a rechargeable battery of a power storage module of a power generation and storage device with a fitness function according to an embodiment of the present invention. Referring to FIG. 6, in an embodiment, when the power storage module 14 is composed of three rechargeable batteries 141, 142, and 143 covered with a case, the rechargeable batteries 141, 142, and 143 have the same structure. And appearance, each has a male end portion 1411, 1421, 1431 which is convex and a female end portion 1412, 1422, 1432 which is concave. Any protruding male end portion 1411, 1421, 1431 can just be engaged with any recessed female end portion 1412, 1422, 1432, similar to the manner of engagement between each block. Therefore, by using the male end portion 1431 of the rechargeable battery 143 to engage the female end portion 1422 of the rechargeable battery 142 and the male end portion 1421 of the rechargeable battery 142 to engage the female end portion 1412 of the rechargeable battery 141, the rechargeable battery 141, 142 and 143 are connected in parallel to expand the capacitance. In other embodiments, the parallel assembly between the rechargeable batteries can also be achieved by using a parallel line. The parallel connection referred to here is observed by the connection of all rechargeable battery connection circuits. In other embodiments, the rechargeable batteries 141, 142, and 143 may be connected in series in other manners. The number of rechargeable batteries to be connected and the connection methods between them are not limited in this creation. Although the rechargeable batteries 141, 142, and 143 shown in FIG. 6 are respectively covered by a casing and present a type of a rechargeable battery box, the rechargeable batteries 141, 142, and 143 may not have a casing, so regardless of the rechargeable battery 141, Whether or not 142, 143 exist in the form of a rechargeable battery box belongs to the rechargeable battery referred to in this creation.

FIG. 7 is a schematic diagram of the internal structure of each rechargeable battery shown in FIG. 6. The materials and internal structure of the rechargeable batteries 141, 142, and 143 are completely the same. Take the rechargeable battery 141 as an example. In one embodiment, the male end portion 1411 is provided with a plurality of female terminals 1411a, and the female end portion 1412 is provided with a plurality of male terminals 1412a. The female end portion 1412 can be connected with another rechargeable battery 141. The male end portion 1411 is engaged with each other. In addition, a conductive mechanism 1413 with high electrical conductivity and high heat resistance is formed between each of the female terminals 1411a and the corresponding male terminals 1412a. The conductive mechanism 1413 is combined with a protection circuit board 1415 and a plurality of basic power storage units, for example. (Or cell) 1414 is electrically connected. The material of the electric energy storage base unit 1414 is, for example, a ternary polymer lithium battery. The protection circuit board 1415 is provided with a charge cut-off and a minimum discharge current-limit cut-off, which can control the voltage and current in the electric energy storage basic unit 1414, and provide protection for the electric energy storage of the electric energy storage basic unit 1414. In addition, the two conduction mechanisms located on the outermost side serve as negative electrodes, and the other two conduction mechanisms located on the inner side serve as positive electrodes. When the female terminal 1411a and the corresponding male terminal 1412a of the rechargeable battery 141 receive electric energy and start storing, the electric energy will be directly and simultaneously transmitted to each electric energy storage basic unit 1414 via the conduction mechanism 1413. In the process of multiple rechargeable batteries connected in parallel for electric energy storage, the electric current of the electric energy storage base unit 1414, which has a higher voltage than the electric conduction mechanism 1413, will be autonomously turned on in a short period of time due to the direct current directing effect of the electric conduction mechanism 1413. The low-voltage electric energy storage basic unit 1414 of the mechanism 1413 flows to facilitate the instantaneous dynamic self-balanced electric energy storage until the voltage balance of all rechargeable batteries reaches a certain stable state.

FIG. 8 is a schematic diagram of parallel and series connection of rechargeable batteries of a power storage module of a power generation and storage device with a fitness function according to another embodiment of the present invention. Please refer to FIG. 8. In one embodiment, the power storage module 14 includes four rechargeable battery packs 14c, 14d, 14e, and 14f arranged in series as shown in FIG. 8, and each rechargeable battery pack includes four 6 of the rechargeable batteries 141 assembled in parallel, the internal structure and operation mode of each rechargeable battery 141 have been described above with reference to FIG. 7 and will not be described again. As shown in Fig. 8, the rechargeable batteries numbered 1 to 4, the rechargeable batteries numbered 5 to 8, the rechargeable batteries numbered 9 to 12, and the rechargeable batteries numbered 13 to 16 are assembled in groups of four in parallel. After forming four rechargeable battery packs, they are assembled together in series via a series line to increase the amount of voltage. The number of rechargeable battery packs mentioned here and the number of rechargeable batteries 141 included in each rechargeable battery pack are merely examples, and this creation is not limited here. In addition, the rechargeable battery packs can also be connected in series and then in parallel, and the connection method is not limited in this creation. On the other hand, the use of the electric energy storage module 14 that has already stored electric energy can be achieved by directly directly connecting it to a load 300 that requires DC power in a household, such as any type of home appliance. When the load 300 uses AC power, Alternatively, a DC-to-AC power module 200 may be selected to be connected to the load 300, such as an inverter.

In a specific embodiment of the fitness-generating power generation and storage device of the present invention, the power storage module 14 includes more than one rechargeable battery 141, each of which has a nominal voltage of 12 Volts (V) and a rated maximum voltage It is 12.6 volts (V), the rated minimum protection voltage is 9 volts (V), and the rated capacity is 240 watt-hours (Wh); the power generation module has 13 generators with a rated power ≧ 150W. The DC conversion circuit is designed to control and convert to DC and less than 12.6 volts (V), and is stored in the power storage module 14 under the control of the power storage control module 16.

In summary, this creation proposes a power generation and storage device with fitness functions. It uses human contact to apply force to the device to perform continuous movement in a specific posture to generate power, and uses one or more of them to combine in a similar manner to building blocks. Rechargeable battery to store electrical energy. In the process of storing electrical energy, the maximum power point tracking method is also used to keep the storage of electrical energy at the state of the highest energy transmission efficiency. The power consumption module is used to prevent excessive storage of electrical energy and thus prevent the rechargeable battery from being fully charged. The damage of the electronic components of the equipment caused by the heat generated by the device, and the continuous movement of the human body in a specific posture to perform energy storage, and at the same time to know its own weight loss, have a fitness effect. In addition, a high-conductivity conduction mechanism is provided inside the rechargeable battery used to store electrical energy, which can facilitate real-time dynamic self-balanced electrical energy storage, so that electrical energy storage is stable and efficient, especially the battery life can be effectively maintained. Because the power generation and storage equipment with fitness functions proposed in this creation can generate and store power and have both fitness effects, it can be operated by only one person, the volume is relatively small, and there is no need to use an extra flywheel. Exercise bikes reduce a lot of weight, are easy to carry and set up for home users, and are new choices for equipment replacement for professional gyms, allowing people to meet their own needs for electricity in daily life, even in public When the power supply is inadequate or unavailable, normal operations in daily life and work can be maintained.

The above description is only a preferred embodiment of this creation, and is not intended to limit the scope of patent application for this creation. At the same time, the above description should be clear and implementable to ordinary knowledge in the technical field to which this creation belongs. Equivalent changes or modifications made in the spirit of the Chinese language should be included in the scope of patent application for this creation.

1‧‧‧ Power generation and storage equipment with fitness function 11‧‧‧ Carrier 1111‧‧‧ Carrier seat 1212‧‧‧ Seat 1113‧‧‧ Electric connection block 12‧‧‧ Transmission device 1211‧‧‧ Shaft 122 · ‧‧ pedal 13‧‧‧ power generation module 131‧‧‧ belt 14‧‧‧ power storage module 14a, 14b‧‧‧ rechargeable battery pack 14c, 14d, 14e, 14f‧‧‧ rechargeable battery pack 141, 142, 143‧‧‧ Rechargeable batteries 1411, 1421, 1431‧‧‧ Male end 1411a‧‧‧ Female terminal 1412, 1422, 1432‧‧‧ Female end 1412a‧‧ Male terminal 1413‧‧‧ Conduction mechanism 1414‧ ‧‧Electric energy storage basic unit 1415‧‧‧Protection circuit board 15‧‧‧Display panel 151‧‧‧First block 152‧‧‧Second block 153‧‧‧Third block 154‧‧‧Fourth district Block 155‧‧‧ Block Five 156‧‧‧ Block Six 57th ‧‧th seventh block 158‧‧‧ eighth block 159‧‧‧ ninth block 16‧‧‧ power storage control module 161‧‧‧ processing unit 162‧‧‧ computing unit 163‧‧‧ max Power Point Tracking Unit 17‧‧‧ Power Consumption Module 1711‧‧‧ Groove 2000‧‧‧ DC to AC Module 300‧‧‧ Load

FIG. 1A is a schematic perspective view of a power generation and storage device with a fitness function according to an embodiment of the present invention. FIG. 1B is a partially enlarged schematic diagram of a power generation and storage device with a fitness function according to an embodiment of the present invention. FIG. 2 is a schematic side view of a power generation and storage device with a fitness function according to another embodiment of the present invention. 3 is a schematic diagram of a display screen of a display panel of a power generation and storage device with a fitness function according to an embodiment of the present invention. FIG. 4 is a functional block diagram of each component of a power generation and storage device with a fitness function according to an embodiment of the present invention. FIG. 5 is a schematic structural diagram of a power consumption module of a power generation and storage device with a fitness function according to an embodiment of the present invention. FIG. 6 is an assembly schematic diagram of a rechargeable battery of a power storage module of a power generation and storage device with a fitness function according to an embodiment of the present invention. FIG. 7 is a schematic diagram of the internal structure of each rechargeable battery shown in FIG. 6. FIG. 8 is a schematic diagram of parallel and series assembly of rechargeable batteries of a power storage module of a power generation and storage device with a fitness function according to another embodiment of the present invention.

1‧‧‧ Power generation and storage equipment with fitness function

11‧‧‧ Vehicle

111‧‧‧bearing seat

112‧‧‧seat

12‧‧‧ Transmission

121‧‧‧Axis

122‧‧‧ pedal

13‧‧‧Power generation module

131‧‧‧Belt

14‧‧‧Power Storage Module

141‧‧‧ Rechargeable battery

15‧‧‧Display Panel

16‧‧‧Power storage control module

17‧‧‧Power Consumption Module

Claims (10)

A power generation and storage device with fitness functions includes: a carrier for at least one human body to operate, provided with a bearing seat; 传动 a transmission device, fixed on the carrier, for the human body to contact and exert force for a specific posture continuous Movement; (1) an electric energy generating module, which is fixed on the carrier, and is directly mechanically connected to the transmission device; the transmission device directly drives the electric energy generating module to generate electric energy after the human body contacts and exerts force; (1) an electric energy storage module, A single or multiple rechargeable battery is detachably snapped onto the carrier for storing the electric energy; A display panel is installed on the carrier for instant display of the human body for continuous movement in the specific posture Weight reduction and the magnitude of the electrical energy; and an electrical energy storage control module electrically connected to the electrical energy generation module, the electrical energy storage module, and the display panel, and carrying a magnitude and voltage of the electrical energy And the weight reduction signal is input to the display panel in real time; wherein the display panel is controlled by the electric energy storage The module is electrically connected to the power generation module to obtain power. According to the electric energy generation and storage device described in the first patent application scope, wherein the carrier is further provided with a seat for the human body to ride, the transmission device is mounted on the bearing seat, and the transmission device has an axis. The shaft center is connected with a pedal, and the transmission device and the electric power generating module are directly connected by a belt. The human body contacts and applies force to the pedal, and the specific posture continuous motion is the continuous motion of the bicycle pedaling on the pedal. According to the electric energy generation and storage device according to item 1 of the scope of the patent application, the magnitude of the electric energy includes one of the magnitude of the electric energy stored instantaneously and the magnitude of the electric energy accumulated accumulated over a period of time. According to the electric energy generation and storage device described in the first item of the patent application scope, the carrier is provided with at least one electric connection block, and the electric energy storage module is electrically connected to the electric connection block. According to the electric energy generation and storage device described in the first item of the patent application scope, wherein the electric energy storage control module has a processing unit and an arithmetic unit electrically connected to each other, and the arithmetic unit calculates the weight reduction according to the magnitude of the electric energy The processing unit outputs a signal that controls the storage program of the electric energy in the electric energy storage module, and inputs the signal carrying the magnitude and voltage of the electric energy and the size of the weight reduction into the display panel in real time. According to the electric energy generation and storage device according to item 5 of the scope of the patent application, wherein the electric energy storage control module further has a maximum power point tracking unit, which is electrically connected to the processing unit and the computing unit to detect the voltage of the electric energy And current, so that the electric energy is stored in the electric energy storage module under the state of the highest electric energy transmission efficiency. According to the electric power generation and storage device described in the first patent application scope, it further includes an electric power consumption module which is electrically connected to the electric power storage control module. When the voltage of the electric power reaches a rated maximum value, the electric energy Transmitted to the power consumption module. According to the electric energy generation and storage device according to item 7 of the scope of the patent application, wherein the electric power consumption module is a heat dissipation device. According to the electric energy generation and storage device described in the first item of the scope of the patent application, each of the rechargeable batteries has a high-conductivity conduction mechanism inside, which facilitates the real-time dynamic self-balanced storage of the electric energy among the rechargeable batteries, and These rechargeable batteries are directly assembled in parallel with a building block type or in parallel with a parallel line to expand the capacity. According to the electric energy generation and storage device according to item 9 of the scope of the patent application, the rechargeable batteries are assembled in series after being connected in parallel to increase the amount of voltage.