CN212965790U - EMS intelligence box - Google Patents

Abstract

The utility model relates to the technical field of sports fitness, personal health care and physiotherapy, in particular to an EMS intelligent box, which comprises an intelligent box body, wherein the intelligent box body comprises a shell, a circuit board is arranged in the shell, the upper part of one side of the circuit board is provided with a magnetic suction seat, the inner side of the magnetic suction seat is provided with 20 patch welding pins, the 20 patch welding pins are in two-column ten-row arrangement structure, the outer side surface of the magnetic suction seat is provided with 20 magnetic holes, the 20 magnetic holes are in two-row design structure, and each row is 10 magnetic holes with equal distance; the upper part of one side of the shell is provided with a side hole matched with the magnetic suction seat; the micro-electric pulse signals are transmitted to the human body, the frequency of the pulse signals is in the range of 40HZ to 80HZ, and the human body recognizes the current signals as human body bioelectricity signals to stimulate muscle contraction so as to achieve the purpose of exercise.

Description

EMS intelligence box

Technical Field

The utility model relates to a motion body-building, personal health care and physiotherapy technical field, concretely relates to EMS intelligence box.

Background

Along with the improvement of living standard of people, the requirements of people on exercise and fitness are higher and higher, the traditional health is that the effect of a fitness person is judged by the self feeling of the fitness person, and no special instrument is used for realizing auxiliary training, so that the fitness effect is poor. In addition, the rhythm of life and work of people is fast, and the pressure is large, so how to eliminate the pressure of life and work is the concerned field of people. Therefore, how to realize the combination of fitness, health care and physical therapy and ensure the exercise effect and efficiency of people is the problem to be solved by the utility model.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an EMS intelligence box to prior art's defect and not enough.

The utility model relates to an EMS intelligent box, which comprises an intelligent box body, wherein the intelligent box body comprises a shell, a circuit board is arranged in the shell, a magnetic suction seat is arranged at the upper part of one side of the circuit board, 20 patch welding pins are arranged at the inner side of the magnetic suction seat, the 20 patch welding pins are in two rows and ten rows arrangement structure, 20 magnetic holes are arranged at the outer side surface of the magnetic suction seat, the 20 magnetic holes are in two rows of design structure, and each row is 10 magnetic holes with equal distance;

the upper part of one side of the shell is provided with a side hole matched with the magnetic suction seat; the magnetic suction seat is connected with a flat cable connector through 20 patch welding needles on the inner side surface of the magnetic suction seat, and the flat cable connector is arranged on the circuit board; the outer side surface of the magnetic suction seat is provided with a magnetic suction raised head matched with the magnetic suction seat to form a magnetic suction head; the inner side surface of the magnetic suction raised head is provided with 20 magnetic suction points matched with 20 magnetic holes on the outer side surface of the magnetic suction seat; the magnetic suction raised head is connected with a computer through 20 soft row data lines; the circuit board is connected with the remote controller through Bluetooth signals.

Furthermore, a main control circuit is arranged on the circuit board; the master control circuit comprises a power supply module, a Bluetooth module, a remote controller control module, a master MCU control module, five slave MCU control modules and five EMS pulse output modules;

the master MCU control module is connected with the PWRC interface, the BLE _ RX head, the BLE _ TX head, the PWRC2 head, the BLE _ RX2 head and the BLE _ TX2 head of the Bluetooth module through the PWRC interface, the BLE _ RX head, the BLE _ TX head, the PWRC2 head, the BLE _ RX2 head and the BLE _ TX2 head of the master MCU control module;

the main MCU control module is connected with the AD _ VBAT end, the POWER _ SDA end, the POWER _ SCL end and the POWER _ STAT end of the POWER module through the AD _ VBAT end, the POWER _ SDA end, the Power _ SCL end and the POWER _ STAT end of the main MCU control module;

the main MCU control module is connected with the CE end and the DO end of the remote controller control module through the CE end and the DO end;

the master MCU control module is respectively connected with the WAKE _ UP end, the SCL end, the SDA end and the TIMI _ CH end of the five slave MCU control modules through the WAKE _ UP end, the SCL end, the SDA end and the TIMI _ CH end;

the five slave MCU control modules are respectively a slave MCU control module I, a slave MCU control module II, a slave MCU control module III, a slave MCU control module IV and a slave MCU control module V;

the ends of CH1A, CH1B, CH2A and CH2B of the slave MCU control module one, the ends of CH3A, CH3B, CH4A and CH4B of the slave MCU control module two, the ends of CH5A, CH5B, CH6A and CH6B of the slave MCU control module three, the ends of CH7A, CH7B, CH8A and CH8B of the slave MCU control module four, and the ends of CH9A, CH9B, CH10A and CH10B of the slave MCU control module five are respectively connected with five EMS pulse output modules.

Further, the shape of the shell is rectangular.

Furthermore, four corners of the shell are arc corners.

Furthermore, a plurality of parallel oblique grooves are formed in the upper portion of the surface of the shell.

After the structure is adopted, the utility model discloses beneficial effect does: an EMS intelligence box, it adopts to convey little electrical pulse signal toward the human body, the pulse signal frequency is in 40HZ to 80 HZ's within range, the human body is human biological electricity signal with these electric current signal discernments, amazing muscle shrink reaches the purpose of taking exercise.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, do not constitute a limitation of the invention, and in which:

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a topology diagram of a master control circuit in the present invention;

fig. 3 is a schematic structural diagram of the remote controller of the present invention.

Description of reference numerals:

a shell-1; a circuit board-2; a magnetic suction head-3; magnetic suction raised head-31; magnetic attraction seat-32; soft row data line-4; patch welding needle-5.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1-2, the EMS smart case according to the present embodiment includes a smart case body, the smart case body includes a housing 1, a circuit board 2 is disposed in the housing 1, a magnetic suction seat 32 is disposed on an upper portion of one side of the circuit board 2, 20 patch welding pins 5 are disposed on an inner side of the magnetic suction seat 32, the 20 patch welding pins 5 are arranged in two rows and ten rows, 20 magnetic holes are disposed on an outer side of the magnetic suction seat 32, the 20 magnetic holes are in a two-row structure, and each row is 10 magnetic holes with equal distance;

a side hole matched with the magnetic suction seat 32 is formed in the upper part of one side of the shell 1; the magnetic suction seat 32 is connected with a flat cable connector through 20 patch welding needles 5 on the inner side surface, and the flat cable connector is arranged on the circuit board; the outer side surface of the magnetic suction seat 32 is provided with a magnetic suction raised head 31 matched with the magnetic suction seat to form a magnetic suction head 3; the inner side surface of the magnetic raised head 31 is provided with 20 magnetic attraction points matched with 20 magnetic holes on the outer side surface of the magnetic base 32; the magnetic suction raised head 31 is connected with a computer through 20 soft row data lines 4; the circuit board is connected with the remote controller through Bluetooth signals.

Further, a main control circuit is arranged on the circuit board 2; the master control circuit comprises a power supply module, a Bluetooth module, a remote controller control module, a master MCU control module, five slave MCU control modules and five EMS pulse output modules;

the master MCU control module is connected with the PWRC interface, the BLE _ RX head, the BLE _ TX head, the PWRC2 head, the BLE _ RX2 head and the BLE _ TX2 head of the Bluetooth module through the PWRC interface, the BLE _ RX head, the BLE _ TX head, the PWRC2 head, the BLE _ RX2 head and the BLE _ TX2 head of the master MCU control module;

the main MCU control module is connected with the AD _ VBAT end, the POWER _ SDA end, the POWER _ SCL end and the POWER _ STAT end of the POWER module through the AD _ VBAT end, the POWER _ SDA end, the Power _ SCL end and the POWER _ STAT end of the main MCU control module;

the main MCU control module is connected with the CE end and the DO end of the remote controller control module through the CE end and the DO end;

the master MCU control module is respectively connected with the WAKE _ UP end, the SCL end, the SDA end and the TIMI _ CH end of the five slave MCU control modules through the WAKE _ UP end, the SCL end, the SDA end and the TIMI _ CH end;

the five slave MCU control modules are respectively a slave MCU control module I, a slave MCU control module II, a slave MCU control module III, a slave MCU control module IV and a slave MCU control module V;

the ends of CH1A, CH1B, CH2A and CH2B of the slave MCU control module one, the ends of CH3A, CH3B, CH4A and CH4B of the slave MCU control module two, the ends of CH5A, CH5B, CH6A and CH6B of the slave MCU control module three, the ends of CH7A, CH7B, CH8A and CH8B of the slave MCU control module four, and the ends of CH9A, CH9B, CH10A and CH10B of the slave MCU control module five are respectively connected with five EMS pulse output modules.

Further, the shape of the shell is rectangular.

Furthermore, four corners of the shell are arc corners.

Furthermore, a plurality of parallel oblique grooves are formed in the upper portion of the surface of the shell.

The working principle of the utility model is as follows:

the remote controller is used for sending a specific instruction to the onboard Bluetooth module through Bluetooth, the Bluetooth module analyzes instruction control contents to the main MCU through a USART serial port descending instruction, the main MCU respectively controls five slave MCUs through an IIC serial bus, and the five slave MCUs initialize self IIC addresses by reading peripheral circuit information;

after the slave MCU analyzes the instruction of the master MCU from the IIC interruption, PWM waves with different duty ratios of 20Khz are output through a hardware timer, and the booster circuit is controlled to rise to the required voltage to form intensity-voltage modulation; and meanwhile, pulse groups with different intervals are intermittently output, and the pulse groups can adjust the duration and the interval time as well as pulses with different frequencies corresponding to the three modes.

The inductance is with the energy conversion device of electric energy and magnetic field energy interconversion, after MOS switch tube closure, the inductance is converted the electric energy into magnetic field energy and is stored, after MOS disconnection the inductance will be stored magnetic field energy and be electric field energy, and this energy obtains smooth direct current voltage after the filtering with input power supply voltage superpose through diode and electric capacity and provides the load, because this voltage is formed after the superposition of input power supply voltage and the magnetic field energy conversion of inductance is the electric energy, so output voltage is higher than input voltage, both the completion of the process of stepping up.

In the design, the Schottky diode mainly plays an isolation role, namely when the MOS switch tube is closed, the positive electrode voltage of the Schottky diode is lower than the negative electrode voltage, and at the moment, the diode is reversely biased to be cut off, so that the energy storage process of the inductor does not influence the normal power supply of the capacitor at the output end to a load; when the MOS tube is disconnected, the two types of superposed energy are supplied to the load through the diode, and the diode is conducted in the forward direction at the moment, so that the smaller the forward voltage drop is, the better the forward voltage drop is, and more energy is supplied to the output end as much as possible.

In this design, the pulse signal frequency is in the range of 40HZ to 80HZ, and belongs to the middle and low frequency, and only acts on the muscle layer.

As shown in fig. 3, in the present design, a mannequin is provided on the left side of the upper surface of the remote controller, and a power switch key and a function key (training mode selection button) are provided on the right side of the upper surface.

Wherein: the function key includes: (1) and a training mode selection button for judging the mode by changing the color of the indicator light. The color of the indicator light corresponds to the training mode: green-aerobic, yellow-strength, blue-massage; (2) the electric pulse intensity increases and decreases the key. (3) The electric pulse time is increased and the key press is reduced. (4) The interval time of the electric pulse is increased and the key is decreased.

In this design, pulse stimulation of 20 muscle groups can be adjusted.

Corresponding parts: CH 1-anterior to hand, CH 2-posterior to hand, CH 3-thoracic, CH 4-abdominal, CH 5-upper back, CH 6-middle back, CH 7-lumbar, CH 8-hip, CH 9-anterior to leg, CH 10-posterior to leg.

An EMS intelligence box, it adopts to convey little electrical pulse signal toward the human body, the pulse signal frequency is in 40HZ to 80 HZ's within range, the human body is human biological electricity signal with these electric current signal discernments, amazing muscle shrink reaches the purpose of taking exercise.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (4)

1. An EMS smart box, characterized in that: the intelligent box comprises an intelligent box body, wherein the intelligent box body comprises a shell, a circuit board is arranged in the shell, a magnetic suction seat is arranged at the upper part of one side of the circuit board, 20 patch welding pins are arranged on the inner side of the magnetic suction seat, the 20 patch welding pins are in a two-column ten-row arrangement structure, 20 magnetic holes are arranged on the outer side surface of the magnetic suction seat, the 20 magnetic holes are in a two-row design structure, and each row is provided with 10 equidistant magnetic holes; the upper part of one side of the shell is provided with a side hole matched with the magnetic suction seat; the magnetic suction seat is connected with a flat cable connector through 20 patch welding needles on the inner side surface of the magnetic suction seat, and the flat cable connector is arranged on the circuit board; the outer side surface of the magnetic suction seat is provided with a magnetic suction raised head matched with the magnetic suction seat to form a magnetic suction head; the inner side surface of the magnetic suction raised head is provided with 20 magnetic suction points matched with 20 magnetic holes on the outer side surface of the magnetic suction seat; the magnetic suction raised head is connected with a computer through 20 soft row data lines; the circuit board is connected with the remote controller through Bluetooth signals.

2. An EMS smart box according to claim 1, wherein: the circuit board is provided with a main control circuit; the master control circuit comprises a power supply module, a Bluetooth module, a remote controller control module, a master MCU control module, five slave MCU control modules and five EMS pulse output modules;

the master MCU control module is connected with the PWRC interface, the BLE _ RX head, the BLE _ TX head, the PWRC2 head, the BLE _ RX2 head and the BLE _ TX2 head of the Bluetooth module through the PWRC interface, the BLE _ RX head, the BLE _ TX head, the PWRC2 head, the BLE _ RX2 head and the BLE _ TX2 head of the master MCU control module; the main MCU control module is connected with the AD _ VBAT end, the POWER _ SDA end, the POWER _ SCL end and the POWER _ STAT end of the POWER module through the AD _ VBAT end, the POWER _ SDA end, the Power _ SCL end and the POWER _ STAT end of the main MCU control module; the main MCU control module is connected with the CE end and the DO end of the remote controller control module through the CE end and the DO end; the master MCU control module is respectively connected with the WAKE _ UP end, the SCL end, the SDA end and the TIMI _ CH end of the five slave MCU control modules through the WAKE _ UP end, the SCL end, the SDA end and the TIMI _ CH end; the five slave MCU control modules are respectively a slave MCU control module I, a slave MCU control module II, a slave MCU control module III, a slave MCU control module IV and a slave MCU control module V; the ends of CH1A, CH1B, CH2A and CH2B of the slave MCU control module one, the ends of CH3A, CH3B, CH4A and CH4B of the slave MCU control module two, the ends of CH5A, CH5B, CH6A and CH6B of the slave MCU control module three, the ends of CH7A, CH7B, CH8A and CH8B of the slave MCU control module four, and the ends of CH9A, CH9B, CH10A and CH10B of the slave MCU control module five are respectively connected with five EMS pulse output modules.

3. An EMS smart box according to claim 1, wherein: the shape of the shell is rectangular.

4. An EMS smart box according to claim 1, wherein: the four corners of the shell are arc corners.

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