CN215461427U - Dress physical training clothes - Google Patents

Abstract

The utility model provides a wearable physical training suit, which comprises a training suit body, wherein an electrode array is arranged at the inner side of the training suit; the electrode array is connected with the controller; the controller is connected to the prescription signal device and sends a micro-current signal which can be recognized as a human body bioelectricity signal by a human body to the electrode array according to a bioelectricity generation strategy provided by the prescription signal device; the muscle training device can be used for carrying out muscle training on the rehabilitation personnel under the condition that the rehabilitation personnel are inconvenient to carry out large-scale physical exercise so as to achieve the purposes of muscle increasing or pain easing.

Description

Dress physical training clothes

Technical Field

The utility model relates to the technical field of rehabilitation equipment, in particular to a wearable physical training garment.

Background

Rehabilitation personnel usually need muscle recovery and analgesia, but for the rehabilitation personnel who are weak and inconvenient to carry out large-scale physical exercise, how to adopt a proper mode to enable the rehabilitation personnel to have enough muscle activity to achieve the recovery target is a research direction.

Disclosure of Invention

The utility model provides a physical training suit which can be worn to train muscles of a rehabilitation person under the condition that the rehabilitation person is inconvenient to do large-scale physical exercise so as to achieve the purpose of muscle increasing or pain easing.

The utility model adopts the following technical scheme.

The wearable physical training suit comprises a training suit body, wherein an electrode array is arranged on the inner side of the training suit; the electrode array is connected with the controller; the controller is connected to the prescription signal device and sends micro-current signals which can be recognized as human body bioelectricity signals by a human body to the electrode array according to the bioelectricity generation strategy provided by the prescription signal device.

The human body bioelectric signal is an electric signal for increasing muscle or easing pain by contracting muscle of the human body through stimulation.

The training clothes are provided with electrode arrays at the inner sides of the clothes contacting with the human body large muscle groups; the large muscle groups include a chest large muscle group, a back large muscle group, and a leg large muscle group.

The controller comprises a main control chip, a power supply, a reset circuit, a debugging interface, a radio frequency matching circuit and a communication circuit connected with the electrode array.

The controller is connected with the prescription signal device in a Bluetooth wireless mode.

The main control chip is a chip-on-chip system CC2642R including a Bluetooth communication module.

The controller also comprises an indicating circuit and an alarm device; when the master control chip receives an abnormal feedback signal of the electrode array, the alarm device gives a sound alarm; the indicating circuit comprises an LED lamp for displaying the working state of the controller and further comprises a manual key for manually initiating an alarm and manually canceling the alarm.

And a capacitor device for eliminating mechanical jitter interference is connected in parallel at the manual key.

The controller is arranged at the training clothes; the prescription signal device is a tablet personal computer or a mobile phone; the prescription signal device is also internally provided with a training prescription module for storing a bioelectricity generating strategy; the bioelectricity generation strategy comprises bioelectricity mode selection, current output size control, current on time and current off time;

a restraining belt is connected between the arms and the trunk of the training clothes.

The prescription signal device is located beside the training clothes, an APP capable of managing the controller is installed, and the APP capable of managing the controller is based on a reactive-native development framework.

The electric pulse stimulation device has the advantages that for the rehabilitation personnel who are weak and inconvenient to carry out large-scale physical exercise, the electric pulse stimulation can be received only by wearing the product, so that the effect of muscle augmentation or pain relief is achieved, the use is simple, and a plurality of large muscle groups can receive the electric pulse simultaneously to improve the effect.

According to the utility model, the constraint belt is connected between the arms and the trunk of the training clothes, so that the injury of the user caused by accidental arm swinging due to electrical stimulation muscle contraction can be prevented.

In the utility model, the manual key of the controller is connected with a capacitor device for eliminating mechanical shaking interference in parallel, and because the product can shake the muscle of a user by current, the capacitor is connected in parallel at the manual key, thereby preventing the misoperation of the manual key caused by the muscle shaking of the user.

Drawings

The utility model is described in further detail below with reference to the following figures and detailed description:

FIG. 1 is a schematic front view of a training garment of the present invention;

FIG. 2 is a schematic diagram of the distribution of the electrode array of the present invention on the front side;

FIG. 3 is a schematic view of the back side distribution of the electrode array of the present invention;

FIG. 4 is a schematic diagram of a Bluetooth communication circuit of the controller according to the present invention;

FIG. 5 is a schematic diagram of the electrical circuitry at the controller key of the present invention;

FIG. 6 is a schematic workflow diagram of the present invention;

FIG. 7 is a schematic diagram of the present invention in use with physical training;

in the figure: 1-a binding belt; 2-a controller; 3-electrode array.

Detailed Description

As shown in the figure, the physical training suit is worn, and comprises a training suit body, wherein an electrode array 3 is arranged on the inner side of the training suit; the electrode array is connected with the controller 2; the controller is connected to the prescription signal device and sends micro-current signals which can be recognized as human body bioelectricity signals by a human body to the electrode array according to the bioelectricity generation strategy provided by the prescription signal device.

The human body bioelectric signal is an electric signal for increasing muscle or easing pain by contracting muscle of the human body through stimulation.

The training clothes are provided with electrode arrays at the inner sides of the clothes contacting with the human body large muscle groups; the large muscle groups include a chest large muscle group, a back large muscle group, and a leg large muscle group.

The controller comprises a main control chip, a power supply, a reset circuit, a debugging interface, a radio frequency matching circuit and a communication circuit connected with the electrode array.

The controller is connected with the prescription signal device in a Bluetooth wireless mode.

The main control chip is a chip-on-chip system CC2642R including a Bluetooth communication module.

The controller also comprises an indicating circuit and an alarm device; when the master control chip receives an abnormal feedback signal of the electrode array, the alarm device gives a sound alarm; the indicating circuit comprises an LED lamp for displaying the working state of the controller and further comprises a manual key for manually initiating an alarm and manually canceling the alarm.

And a capacitor device for eliminating mechanical jitter interference is connected in parallel at the manual key.

The controller is arranged at the training clothes; the prescription signal device is a tablet personal computer or a mobile phone; the prescription signal device is also internally provided with a training prescription module for storing a bioelectricity generating strategy; the bioelectricity generation strategy comprises bioelectricity mode selection, current output size control, current on time and current off time;

a restraining belt 1 is connected between the arms and the trunk of the training clothes.

The prescription signal device is located beside the training clothes, an APP capable of managing the controller is installed, and the APP capable of managing the controller is based on a reactive-native development framework.

Example (b):

when the user uses the product for the first time, the user needs to enter a prescription signal device login interface, input the user telephone, and perfect the basic information and the body data information after acquiring the verification code.

When the electric stimulation device is used for the first time, the prescription signal device needs to be connected with a controller of a training clothes, and basic tolerance tests are carried out on a user, such as tests of large muscle groups of the chest, biceps brachii, hip and the like, so as to confirm which physical training electric stimulation strategies can be tolerated by the user.

Claims (10)

1. Dress physical training clothes, including training clothes body, its characterized in that: the training clothes are provided with electrode arrays at the inner side of the clothes; the electrode array is connected with the controller; the controller is connected to the prescription signal device and sends micro-current signals which can be recognized as human body bioelectricity signals by a human body to the electrode array according to the bioelectricity generation strategy provided by the prescription signal device.

2. The wearable physical training garment of claim 1, wherein: the human body bioelectric signal is an electric signal for increasing muscle or easing pain by contracting muscle of the human body through stimulation.

3. The wearable physical training garment of claim 1, wherein: the training clothes are provided with electrode arrays at the inner sides of the clothes contacting with the human body large muscle groups; the large muscle groups include a chest large muscle group, a back large muscle group, and a leg large muscle group.

4. The wearable physical training garment of claim 1, wherein: the controller comprises a main control chip, a power supply, a reset circuit, a debugging interface, a radio frequency matching circuit and a communication circuit connected with the electrode array.

5. The wearable physical training garment of claim 4, wherein: the controller is connected with the prescription signal device in a Bluetooth wireless mode.

6. The wearable physical training garment of claim 5, wherein: the main control chip is a chip-on-chip system CC2642R including a Bluetooth communication module.

7. The wearable physical training garment of claim 5, wherein: the controller also comprises an indicating circuit and an alarm device; when the master control chip receives an abnormal feedback signal of the electrode array, the alarm device gives a sound alarm; the indicating circuit comprises an LED lamp for displaying the working state of the controller and further comprises a manual key for manually initiating an alarm and manually canceling the alarm.

8. The wearable physical training garment of claim 7, wherein: and a capacitor device for eliminating mechanical jitter interference is connected in parallel at the manual key.

9. The wearable physical training garment of claim 1, wherein: the controller is arranged at the training clothes; the prescription signal device is a tablet personal computer or a mobile phone; the prescription signal device is also internally provided with a training prescription module for storing a bioelectricity generating strategy; the bioelectricity generation strategy comprises bioelectricity mode selection, current output size control, current on time and current off time;

a restraining belt is connected between the arms and the trunk of the training clothes.

10. The wearable physical training garment of claim 9, wherein: the prescription signal device is located beside the training clothes, an APP capable of managing the controller is installed, and the APP capable of managing the controller is based on a reactive-native development framework.

Images