CN111110200A - Foot microcirculation detection and treatment device based on temperature monitoring and vibration - Google Patents

Abstract

The invention discloses a foot microcirculation detection and treatment device based on temperature monitoring and vibration, which comprises insoles capable of being cut into different sizes, wherein the insoles are provided with a first groove, a second groove and a lead hidden groove, the first groove is used for placing a temperature sensor, the temperature sensor is used for monitoring the skin temperature of 8 regions of a sole, the second groove is used for placing a vibrator, the lead hidden groove is used for placing a lead, the lead is used for connecting the temperature sensor and the vibrator with a main control board, the main control board is used for collecting temperature data and sending the temperature data to a client side for analysis and evaluation, and the vibrator is controlled to perform vibration intervention according to an evaluation result. The invention carries out individualized vibration intervention based on the temperature monitoring condition, can feed back the microcirculation blood supply insufficiency phenomenon, can provide vibration intervention according to the monitoring and evaluating result, and carries out microcirculation protection in time.

Description

Foot microcirculation detection and treatment device based on temperature monitoring and vibration

Technical Field

The invention relates to the technical field of medical instruments, in particular to a foot microcirculation detection and treatment device based on temperature monitoring and vibration.

Background

Foot microcirculation is used for supplying nutrition to foot tissues and removing metabolic waste so as to maintain the health of the foot tissues. Microcirculatory dysfunction can affect the blood supply to the foot tissue, as well as the ability of the blood flow to respond protectively to external adverse stimuli. In particular, in diabetic patients, microcirculatory disturbance can lead to an increased incidence of foot ulcers in the patient and affect the healing process of the tissues in the ulcerated area.

Skin temperature has a good correlation with skin blood flow. Since the actual measurement of the blood flow through the skin is difficult, the requirements for the sensor and its fixation to the measurement site are high. Therefore, the measurement result of the skin temperature can be used for evaluating the microcirculation blood supply of the skin of the human body.

In addition, the vibration therapy has better curative effect on the microcirculation disturbance of the lower limbs, and can obviously increase the microcirculation blood supply condition of foot tissues of the human body. Therefore, the microcirculation function level of the foot tissues of the people suffering from lower limb microcirculation disturbance is evaluated, the blood supply condition of the foot is improved by vibration intervention, the microcirculation function of the patients is improved, and the method has important significance for maintaining the health of the foot tissues and preventing and treating foot ulcers. However, the existing foot vibration equipment adopts specific parameter intervention, and personalized intervention is not carried out on the basis of the actual blood supply condition of the microcirculation of the human foot.

Disclosure of Invention

The present invention is directed to a foot microcirculation detecting and treating device based on temperature monitoring and vibration, so as to solve the above problems of the prior art.

In order to achieve the purpose, the invention provides the following scheme: the invention provides a foot microcirculation detection and treatment device based on temperature monitoring and vibration, which comprises insoles capable of being cut into different sizes, wherein the insoles are provided with a first groove, a second groove and a lead hidden groove, the first groove is used for placing a temperature sensor, the temperature sensor is used for monitoring the skin temperature of 8 regions of a sole, the second groove is used for placing a vibrator, the lead hidden groove is used for placing a lead, the lead is used for connecting the temperature sensor and the vibrator with a main control board, the main control board is used for collecting temperature data and sending the temperature data to a client side for analysis and evaluation, and the vibrator is controlled to perform vibration intervention according to an evaluation result.

Preferably, the 8 areas include big toe, medial metatarsal, lateral metatarsal, medial arch, lateral arch, medial heel, lateral heel.

Preferably, the insole can be cut into four types of insoles, the sizes of the insoles comprise 35 to 46, namely 35-37, 38-40, 41-43 and 44-46 which share one size respectively, and the outlines of the insoles with the number of 4 are connected together through the insole connecting structure for the user to cut.

Preferably, the position of the temperature sensor and the vibrator is manually changed according to the size of the user's foot.

Preferably, the vibrator adopts a micro motor.

Preferably, different vibration modes are started according to different temperature ranges, and the temperature threshold of the temperature sensor is set as follows: a and b, when the temperature T is greater than a, starting a strong vibration mode; when b < temperature T < a, a moderate vibration mode is initiated; when the temperature T < b, the relaxation vibration mode is started, the range of a is 27-30 ℃, and the range of b is 22-25 ℃.

Preferably, the device also comprises a temperature monitoring and displaying module and a vibration protection state displaying module, wherein the temperature monitoring and displaying module is used for displaying the real-time skin temperature of the soles in different areas, and the areas with poor microcirculation blood supply capacity are evaluated to be highlighted; the vibration protection state display module is used for displaying the vibration states of different areas.

The invention discloses the following technical effects: the invention provides a foot microcirculation detection and treatment device based on temperature monitoring and vibration, which is designed for solving the problems that the blood flow volume of foot skin of a human body is difficult to monitor in real time, the personalized vibration protection can not be performed on microcirculation blood supply level and the like at present. Based on the temperature monitoring and evaluation result, personalized vibration intervention is carried out, the microcirculation blood supply insufficiency phenomenon can be fed back, vibration intervention can be provided according to the monitoring and evaluation result, and microcirculation protection can be carried out in time; the invention can also measure the blood supply level of foot tissue microcirculation in a loaded position or a non-loaded position of a human body; meanwhile, the invention can recommend the applicable vibration treatment mode according to the evaluation result of the microcirculation blood supply capability; meanwhile, the invention also supports the self-selection of different modes of vibration therapy.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise.

FIG. 1 is a block diagram of the system of the present invention;

FIG. 2 illustrates a real-time monitoring of plantar temperature and vibration intervention state in accordance with the present invention;

wherein, 1 is the shoe-pad, 2 is shoe-pad connection structure, 3 is temperature sensor, 4 is first recess, 5 is the oscillator, 6 is the second recess, 7 is the wire camera obscura, 8 is the wire, 9 is the main control board.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

Referring to fig. 1-2, this embodiment provides a foot microcirculation detects and treatment device based on temperature monitoring and vibration, including can tailor into not unidimensional shoe-pad 1, be equipped with first recess 4, second recess 6, wire camera obscura 7 on shoe-pad 1, first recess 4 is used for placing temperature sensor 3, temperature sensor 3 is used for monitoring 8 regional skin temperatures in sole, second recess 6 is used for placing oscillator 5, wire camera obscura 7 is used for placing wire 8, wire 8 is used for being connected temperature sensor 3, oscillator 5 with main control board 9, through wire camera obscura 7, wire 8 is connected with circuit winding displacement 8 at shoe-pad 1 back, main control board 9 is used for gathering temperature data, sends to the customer end and carries out the analysis evaluation, controls oscillator 5 according to the evaluation result and carries out vibration intervention.

In a further optimized scheme, the model of the temperature sensor 3 is DS18B 20.

In a further optimized scheme, the 8 areas comprise big toe, inner metatarsal, middle metatarsal, outer metatarsal, inner arch, outer arch, inner heel and outer heel.

According to a further optimized scheme, the insole 1 can be cut into four types of insoles, the sizes of the insoles include 35 to 46, namely 35-37, 38-40, 41-43 and 44-46, share one size, and the insole outlines of 4 sizes are connected together through the insole connecting structure 2 for a user to cut.

In a further optimized scheme, the insole 1 can be made of ethylene-vinyl acetate copolymer elastomer EVA, thermoplastic elastomer TPE and other materials.

Further optimizing the scheme, according to the size of user's foot, through the position of manual adjustment temperature sensor 3, oscillator 5.

Further optimizing the scheme, the vibrators 5 in all areas of the insole 1 are placed at the position where the minimum code number of the used insole 1 is suitable by default. When the user's foot code is a large code number, the position of the vibrator 5 can be manually changed.

In a further optimized scheme, the temperature sensors 3 in all areas of the insole 1 are placed at the position where the minimum code number of the used insole 1 is suitable by default. When the user's foot code is a large code number, the position of the temperature sensor 3 can be changed manually.

In a further optimized scheme, the vibrator 5 adopts a micro motor.

According to the further optimization scheme, different vibration modes are started according to different temperature ranges, and the temperature threshold of the temperature sensor 3 is set as follows: a and b, when the temperature T is greater than a, starting a strong vibration mode; when b < temperature T < a, a moderate vibration mode is initiated; when the temperature T < b, the relaxation vibration mode is started, the range of a is 27-30 ℃, and the range of b is 22-25 ℃.

Further optimizing the scheme, the setting method of the temperature threshold value comprises the following steps: before the temperature data is evaluated, the sole temperature of the user needs to be monitored in advance within 1 day to calculate the temperature threshold (T _ mean).

The system further comprises a temperature monitoring and displaying module and a vibration protection state displaying module, wherein the temperature monitoring and displaying module is used for displaying the real-time skin temperature of the soles in different areas, and the areas with poor microcirculation blood supply capacity are evaluated to be highlighted; the vibration protection state display module is used for displaying the vibration states of different areas.

The working process is as follows: the user cuts according to the code number that suits the foot to debug suitable position with temperature sensor 3, oscillator 5, before the temperature data aassessment, need monitor user's sole temperature in advance in 1 day, with calculation temperature threshold value T _ mean, set up T _ mean: a and b. The T _ mean measuring method comprises the following steps: the method comprises the following steps that a user measures the sole temperature in three time periods of the morning, the noon and the evening, wherein the measurement is 1 hour each time, the measurement comprises the static measurement of no load on the foot for 30 minutes, the measurement of load on the foot for 30 minutes during walking, and the temperature threshold value is set in advance; according to the set temperature threshold, 8 parts of the sole are monitored, including: big toe, medial metatarsal, lateral metatarsal, medial arch, lateral arch, medial heel, lateral heel; firstly, the temperature of each region of the sole of a user is monitored for 3 hours, and an individual temperature monitoring range (T _ min-T _ max) is established. T _ mean ═ T _ max + T _ min)/2. The master control board 9 collects the plantar multi-region temperature data and then wirelessly transmits the plantar multi-region temperature data to the client, and the client calculates and evaluates the plantar temperature data and then wirelessly transmits a vibration command to the hardware end according to a judgment result. When the temperature T of the sole is less than T _ mean, the microcirculation blood supply level is reduced, and the vibration mode is started; starting different vibration modes according to different temperature ranges, and starting a powerful vibration mode when the temperature T is greater than a; when b < temperature T < a, a moderate vibration mode is initiated; when the temperature T < b, the relaxation vibration mode is activated.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solutions of the present invention can be made by those skilled in the art without departing from the spirit of the present invention, and the technical solutions of the present invention are within the scope of the present invention defined by the claims.

Claims (7)

1. A foot microcirculation detects and treatment device based on temperature monitoring and vibration which characterized in that: including can tailor the shoe-pad for unidimensional, be equipped with first recess, second recess, wire camera obscura on the shoe-pad, first recess is used for placing temperature sensor, temperature sensor is used for monitoring 8 regional skin temperatures in sole, the second recess is used for placing the oscillator, the wire camera obscura is used for placing the wire, the wire is used for being connected temperature sensor, oscillator and main control board, the main control board is used for gathering temperature data, sends to the customer end and carries out the analysis aassessment, controls the oscillator according to the aassessment result and carries out vibration intervention.

2. The device for foot microcirculation detection and treatment based on temperature monitoring and vibration according to claim 1, wherein: the 8 areas include big toe, medial metatarsal, lateral metatarsal, medial arch, lateral arch, medial heel, lateral heel.

3. The device for foot microcirculation detection and treatment based on temperature monitoring and vibration according to claim 1, wherein: the insole can be cut into four types of insoles, the sizes comprise 35 to 46, namely 35-37, 38-40, 41-43 and 44-46, which respectively share one size, and the outlines of the insoles with the number of 4 are connected together through the insole connecting structure for a user to cut.

4. The device for foot microcirculation detection and treatment based on temperature monitoring and vibration according to claim 2, wherein: the positions of the temperature sensor and the vibrator are manually changed according to the size of the foot of the user.

5. The device for foot microcirculation detection and treatment based on temperature monitoring and vibration according to claim 1, wherein the vibrator is a micro motor.

6. The device for foot microcirculation detection and treatment based on temperature monitoring and vibration according to claim 1, wherein: starting different vibration modes according to different temperatures, wherein the temperature threshold of the temperature sensor is set as follows: a and b, when the temperature T is greater than a, starting a strong vibration mode; when b < temperature T < a, a moderate vibration mode is initiated; when the temperature T < b, the relaxation vibration mode is started, the range of a is 27-30 ℃, and the range of b is 22-25 ℃.

7. The device for foot microcirculation detection and treatment based on temperature monitoring and vibration according to claim 1, wherein: the device also comprises a temperature monitoring and displaying module and a vibration protection state displaying module, wherein the temperature monitoring and displaying module is used for displaying the real-time skin temperature of the soles in different areas, and the areas with poor microcirculation blood supply capacity are evaluated to be highlighted; the vibration protection state display module is used for displaying the vibration states of different areas.

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