CN215017334U - Portable intelligent hypertension diagnosis and treatment instrument - Google Patents

Abstract

The utility model relates to a portable intelligent hypertension diagnosis and treatment instrument, include at least: a first host comprising at least a diagnostic module; and the second host computer at least comprises a treatment module, the input end of the diagnosis module in the first host computer is in contact with the patient, and the output end of the first host computer is connected to the second host computer. The second host machine also comprises a management module, the management module is in circuit connection with the treatment module, the corners and/or the side edges of the shell of the first host machine and/or the second host machine are/is connected with anti-slip pads, and the anti-slip pads are tightly attached to the first host machine and/or the second host machine in a mode of covering the bottom and/or the side edges of the shell of the first host machine and/or the second host machine. The utility model has simple structure, easy carrying and can be applied to various occasions; the falling-proof is convenient and convenient, and the falling-proof damage risk can be reduced; the integrated diagnosis and treatment of the hypertension patient is realized, and the early warning and feedback are made on the blood pressure change of the hypertension patient so as to remind the hypertension patient to take medicine or seek medical treatment in time.

Description

Portable intelligent hypertension diagnosis and treatment instrument

Technical Field

The utility model relates to a hypertension diagnosis and treatment equipment technical field especially relates to a portable intelligent hypertension diagnosis and treatment instrument.

Background

Hypertension is a systemic disease characterized by elevated arterial pressure, which may be accompanied by functional or organic changes in organs. Most of the hypertension patients in China die from hypertension complications such as cerebral congestion, myocardial infarction, cerebral infarction, uremia, renal failure and the like. The average life of a hypertensive is only 54.7 years old, which is 20 years less than normal. However, investigation finds that when patients have no obvious pain, the patients generally do not go to hospitals for examination regularly, and under the condition of no supervision, the change of life style is difficult to maintain, the overall compliance is not high, and the blood pressure of about 75 percent of patients in China does not reach the control target. At present, the main hypertension treatment means in China mainly comprise drug therapy and acupuncture therapy. The drug therapy needs to be taken for a long time, has side effects on the body, and can continuously increase the dosage due to drug resistance of the body; the traditional acupuncture has obvious treatment effect, safe treatment and no toxic or side effect, but needs the guidance of professionals, has great limitation and is not beneficial to popularization. Therefore, various household hypertension diagnosis and treatment equipment which is simple and convenient to operate is provided in the prior art.

CN202620488U discloses an intelligent hypertension diagnosis and treatment instrument, which is provided with a control module, an input module, an output module and an interaction module, wherein the control module is respectively connected with other modules; the input module is provided with a power supply module and an acupuncture point detection module, the output module is provided with an acupuncture point acupuncture module and an audio module, and the interaction module comprises a human-computer interaction module, a communication module and a debugging module; the debugging module is a curing module of a hypertension judging and diagnosing flow program instruction and is provided with a hypertension knowledge small lecture hall module and a hypertension diagnosing and treating control module. The utility model discloses in diagnosing the flow with the hypertension and solidifying to hardware equipment, through setting up friendly human-computer interaction interface, can conveniently be in the diagnosis hypertension pathological change position and treat, easy and simple to handle, the step-down effect is obvious.

CN204744142U discloses an intelligent hypertension diagnosis and treatment instrument, which comprises a diagnosis and treatment instrument main body, a cuff, footherapy shoes, a wrist electromagnetic machine, a neck electromagnetic treatment patch, a leg electromagnetic treatment patch and a waist treatment belt; the diagnosis and treatment instrument main body is divided into a diagnosis host machine and a treatment host machine, display screens are arranged on the diagnosis host machine and the treatment host machine, the cuff is connected with the diagnosis host machine, and the footherapy shoes, the wrist type electromagnetic machine, the neck electromagnetic treatment patch, the leg electromagnetic treatment patch and the waist treatment belt are connected with the treatment host machine. The utility model discloses an intelligence hypertension diagnosis and treatment instrument passes through the state of an illness of diagnosis host computer diagnosis user, and the treatment host computer is treated the patient according to each treatment device of diagnosis result control, and the treatment mode is various, and the both sides of treatment host computer are provided with electromagnetic strength adjustment button and vibration frequency adjustment button, adjustable treatment intensity, convenience simple to use.

The hypertension diagnosis and treatment instrument provided by the prior art still has the technical problems that the instrument is not easy to carry about, is easy to slide off during operation, has a single treatment mode, cannot provide effective warning information and is not convenient to operate. Thus, there remains a need in the art for at least one or several aspects of improvement.

Furthermore, on the one hand, due to the differences in understanding to the person skilled in the art; on the other hand, since the inventor studied a lot of documents and patents when making the present invention, but the space did not list all details and contents in detail, however, this is by no means the present invention does not possess these prior art features, but on the contrary the present invention has possessed all features of the prior art, and the applicant reserves the right to increase the related prior art in the background art.

SUMMERY OF THE UTILITY MODEL

To the deficiency of the prior art, the utility model provides a portable intelligent hypertension diagnosis and treatment instrument, which aims to solve at least one or more technical problems existing in the prior art.

In order to achieve the above object, the utility model provides a portable intelligent hypertension diagnosis and treatment instrument, include at least: a first host comprising at least a diagnostic module; and the second host computer at least comprises a treatment module, the input end of the diagnosis module in the first host computer is in contact with the patient, and the output end of the first host computer is connected to the second host computer.

Preferably, the second host further comprises a management module, the management module is in circuit connection with the treatment module, anti-slip pads are connected to corners and/or side edges of the shell of the first host and/or the second host, and the anti-slip pads can be tightly attached to the first host and/or the second host in a mode of covering the bottom and/or the side edges of the shell of the first host and/or the second host.

Preferably, the non-slip mat can be connected to the hypertension diagnosis and treatment instrument in a manner of increasing friction between the first host and/or the second host and the contact plane, a pressure buffering piece is arranged in the non-slip mat, and the pressure buffering piece can buffer vibration of electronic elements in the first host and/or the second host when the hypertension diagnosis and treatment instrument falls to the ground.

Preferably, the management module at least comprises a data analysis unit and a wireless communication unit, wherein an input end of the wireless communication unit is connected to the data analysis unit so as to transmit information input by the data analysis unit to the external device through the wireless communication unit.

Preferably, the second host is capable of establishing a wireless communication connection between the intelligent terminal and the management module in a manner of receiving the data analysis unit information through the wireless communication unit.

Preferably, the data analysis unit comprises a microprocessor, a storage unit and a matched integrated circuit, wherein the data analysis unit receives the information of the diagnosis module, analyzes the information by the microprocessor, at least stores the processed data in the storage unit, and/or sends the processed data to the health management unit, and/or transmits the processed data to the intelligent terminal through the wireless communication unit.

Preferably, the management module further comprises a warning module, wherein an input end of the warning module is connected to the data analysis unit, and the warning module comprises voice equipment and/or light-emitting equipment.

Preferably, the data analysis unit further comprises at least an analog-to-digital converter, an amplification shaper and a filter, wherein an input end of the amplification shaper is connected to the analog-to-digital converter, and an output end of the amplification shaper is connected to the filter.

Preferably, the diagnosis module is configured as a pulse pressing belt which can be wound on the arm of the patient, a pressure sensor is arranged in the pulse pressing belt, and the treatment module is connected with a therapeutic device which consists of a plurality of treatment patches which can be clung to all parts of the body.

Preferably, the second host is further provided with and/or connected with a power supply module at least capable of providing the power supply module for the first host and the second host.

Preferably, the first host, the second host and/or the intelligent terminal are provided with corresponding display areas and/or operation areas.

The utility model has the advantages of:

1. through setting up slipmat and the pressure relief piece on the diagnosis and treatment appearance for the diagnosis and treatment appearance is difficult for dropping to ground because of human error when placing on the desktop, can protect its inside electronic component when dropping simultaneously.

2. The utility model relates to a can realize the diagnosis to the hypertension patient, treatment integration through the connection of first host computer and second host computer.

3. The utility model discloses can make early warning and feedback to hypertension patient's blood pressure change condition to remind relevant personnel in time to take medicine or seek medical advice etc.

4. The utility model relates to a small and exquisite light easily carries, can be applied to multiple occasion.

Drawings

FIG. 1 is a preferred operational schematic diagram of the present invention;

fig. 2 is a schematic diagram of the preferred structure of the present invention.

List of reference numerals

100: the first host 101: diagnostic module

200: the second host 201: therapeutic module

300: the power supply module 400: management module

401: the data analysis unit 403: wireless communication unit

404: the warning module 500: intelligent terminal

10: display area 20: operating area

600: non-slip mat

Detailed Description

The following detailed description is made with reference to the accompanying drawings.

In the description of the present invention, it should be understood that if the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. are used in the orientation or positional relationship indicated on the basis of the drawings, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

In the description of the present invention, it should also be understood that unless otherwise explicitly specified or limited, "over" or "under" a first feature may include the first and second features being in direct contact, and may also include the first and second features not being in direct contact but being in contact with each other through another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The utility model provides a portable intelligent hypertension diagnosis and treatment instrument, which can comprise one of the following components: a first host 100, inside which at least a diagnostic module 101 is arranged, the diagnostic module 101 being able to measure the blood pressure value (diastolic pressure or systolic pressure) of a hypertensive patient; the second host 200 is at least internally provided with a treatment module 201, and the treatment module 201 can be used for treating all parts of the body of the patient with hypertension; the first main unit 100 and the second main unit 200 are connected to form an integrated medical treatment machine, as shown in fig. 1 and 2.

According to a preferred embodiment, the first host 100 and the second host 200 are each provided with a respective display area 10 and operating area 20. Preferably, the display area 10 located on the first host 100 and the second host 200 may be used to display the detection data and/or other basic information, and the operation area 20 may be used to start the detection function and/or the treatment function, see fig. 1.

According to a preferred embodiment, the diagnostic module 101 is configured as a tourniquet that can be wound around the arm of the patient, inside which a pressure sensor is arranged. Specifically, the tourniquet in the diagnostic module 101 is wrapped around the arm of the hypertensive, the detection function is activated by the operating area 20, and the pressure sensor in the tourniquet detects the diastolic or systolic pressure of blood in the blood vessel at the contact part, and at least the collected initial detection data is converted and outputted through the display area 10. Further, the output of the diagnostic module 101 is connected to a second host 200.

According to a preferred embodiment, the second host 200 has a therapy module 201 therein. Specifically, the therapeutic module 201 is connected with a therapeutic device consisting of a plurality of therapeutic patches which can be tightly attached to various parts of the body. Further, the therapeutic device includes, but is not limited to, a neck therapeutic device, a waist therapeutic device, an arm therapeutic device, a leg therapeutic device, a foot therapeutic device, and the like. Preferably, any one of the above therapeutic devices can be formed by arranging and combining multiple circles of electromagnetic electrodes on the above therapeutic patch in a concentric circle manner. According to the condition of the patient with hypertension, the therapeutic devices at different parts are attached to the skin of the patient in a targeted manner to carry out deep treatment. Preferably, the operation area on the second host 200 further includes at least a button capable of controlling the vibration frequency and/or intensity of the electromagnetic electrode.

According to a preferred embodiment, the second host 200 is further provided and/or connected with a power module 300 capable of providing at least the first host 100 and the second host 200 for use. Alternatively, the power module 300 may be a primary battery or a continuously rechargeable secondary battery. Optionally, if the diagnostic and therapeutic apparatus becomes electronic garbage when not in use, the diagnostic and therapeutic apparatus can be directly used by externally connecting alternating current through an interface on the second host, as shown in fig. 1.

According to a preferred embodiment, the first main unit 100 and/or the second main unit 200 has a non-slip mat 600 attached to the corner and/or the side edge of the housing, and the non-slip mat 600 is attached to the first main unit 100 and/or the second main unit 200 in a manner that the non-slip mat 600 can cover the corner and/or the side edge of the housing of the first main unit 100 and/or the second main unit 200, as shown in fig. 2. Alternatively, the cleat 600 may employ a material with wear resistant properties and/or increase friction by adding stripes, particles, etc. to the cleat 600.

According to a preferred embodiment, a cushioning element is provided within cleat 600. Alternatively, the pressure relief member may be a pressure relief spring or pressure relief cotton. Further, the pressure relief piece can reduce the vibration amplitude or frequency of the electronic elements inside the first main machine 100 and/or the second main machine 200 when the hypertension diagnosis and treatment instrument falls to the ground, so as to protect the electronic elements from being damaged.

According to a preferred embodiment, the secondary host 200 is further provided with at least a management module 400, the management module 400 being in electrical connection with the therapy module 201. Further, the management module 400 may be a high-integration processing chip, and the management module 400 may include a data analysis unit 401 and a wireless communication unit 403. The functions of the data analysis unit 401 and the wireless communication unit 403 can be implemented by a common industrial microprocessor such as an MCU, and the microprocessors in the modules can be integrated into the management module 400. The management module 400 is electrically connected to the diagnostic module 101, see fig. 1.

According to a preferred embodiment, the diagnosis module 101 in the first host 100 performs a preliminary detection on the blood pressure change of the hypertensive, and on one hand, the initial detection data collected by the diagnosis module 101 is output in the display area 10; on the other hand, the initial detection data is transmitted to the management module 400 in the second host 200, and specifically to the data analysis unit 401. The data analysis unit 401 at least includes a microprocessor, a storage unit and a complementary integrated circuit. Specifically, the data analysis unit 401 receives initial detection information of the diagnosis module 101 and performs analysis processing by the microprocessor.

According to a preferred embodiment, the data analysis unit 401 is capable of storing the processed data in the storage unit and transmitting the processed final state data to the wireless communication unit 403, so that the patient's test information can be transmitted to the external device.

According to a preferred embodiment, the data analysis unit 401 can record the blood pressure variation values of different patients processed by the data analysis unit 401, and the patient blood pressure value information stored in the data analysis unit 401 is transferred through the operation area 20 and output and viewed at least through the display area 10, and based on the patient blood pressure value information, the treatment module 201 can be used to select an appropriate treatment mode.

According to a preferred embodiment, the management module 400 further comprises at least an alert module 404, an input end of the alert module 404 is connected to the data analysis unit 401, wherein the alert module 404 comprises a voice device and/or a light emitting device. Specifically, the warning module 404 may be a speaker with a buzzer function or capable of voice broadcasting, and/or an alarm lamp capable of emitting different variable light sources, and the like. Further, data analysis unit 401 can send the instruction to warning module 404 in real time based on the detected data, and warning module 404 will send alarm signal to patient or medical personnel when patient's blood pressure value reaches the early warning value, thereby remind the hypertension patient to take medicine or seek medical advice in time etc.

According to a preferred embodiment, the data analysis unit 401 is further connected to and/or integrated with at least one analog-to-digital converter capable of receiving and converting the initial detection information collected by the diagnostic module 101. Specifically, the analog-to-digital converter can convert the initial detection information into the type of data that the microprocessor can process.

According to a preferred embodiment, the data analysis unit 401 further comprises at least an amplification shaper, the input of which is connected to the analog-to-digital converter and/or a filter, the output of which is connected to the filter. Specifically, the analog-to-digital converter sends the converted data to an amplification shaper for conversion and amplification, and then the data is subjected to noise elimination through a filter.

According to a preferred embodiment, the wireless communication unit 403 further transmits the processed data uploaded by the data analysis unit 401 to the smart terminal 500. Specifically, the smart terminal 500 may be a wireless mobile device, and data transmission between the smart terminal and the wireless communication unit 403 may be implemented by a cloud server or the like. Further, the smart terminal 500 is also provided with a display area 10 and an operation area 20.

In order to facilitate understanding, the working principle and the using method of the portable intelligent hypertension diagnosis and treatment instrument of the utility model are discussed.

When the portable intelligent hypertension diagnosis and treatment instrument provided by the application is used, the tourniquet of the diagnosis module 101 is encircled to the corresponding part of the patient, the detection function is started by using the operation area 20 to acquire the relevant blood pressure change value, and the blood pressure change value can be output through the display area 10. Further, the collected initial detection data will be sent to the management module 400 in the second host 201. The data analysis unit 401 in the management module 400 analyzes and processes the initial detection data to form and store final detection data, and meanwhile, a proper treatment mode can be selected based on the final detection data; the management module 400 transmits data to the intelligent terminal 500 through the wireless communication unit 403, and the intelligent terminal 500 can classify patients, formulate treatment plans, make disease assessment, and the like based on information in the management module 400 so as to facilitate supervision, management, diagnosis and treatment. In addition, the anti-slip pad 600 arranged on the outer side of the diagnosis and treatment instrument is matched with the pressure relief piece inside the diagnosis and treatment instrument, so that the damage risk when the diagnosis and treatment instrument falls down carelessly can be reduced, and the electronic components inside the diagnosis and treatment instrument are protected.

The portable intelligent hypertension diagnosis and treatment instrument provided by the utility model has simple structure and can be applied to various occasions; the diagnosis and treatment integration of the hypertensive can be realized, and the early warning and feedback are made on the blood pressure change condition of the hypertensive so as to remind related personnel to take medicines or seek medical treatment in time; through setting up slipmat and the pressure relief piece on the diagnosis and treatment appearance for the diagnosis and treatment appearance is difficult for dropping to ground because of human error when placing on the desktop, can protect its inside electronic component when dropping simultaneously.

It should be noted that the above-mentioned embodiments are exemplary, and those skilled in the art can devise various solutions in light of the present disclosure, which are also within the scope of the present disclosure and fall within the scope of the present disclosure. It should be understood by those skilled in the art that the present specification and drawings are illustrative only and are not limiting upon the claims. The scope of the invention is defined by the claims and their equivalents.

Claims (10)

1. A portable intelligent hypertension diagnosis and treatment instrument at least comprises;

a first host (100) comprising at least a diagnostic module (101),

a second host (200) comprising at least a therapy module (201),

an input of a diagnostic module (101) in the first host (100) is in contact with a patient, an output of the first host (100) is connected to the second host (200),

it is characterized in that the preparation method is characterized in that,

the second host (200) further comprises a management module (400), the management module (400) is in circuit connection with the treatment module (201), anti-slip pads (600) are connected to corners and/or side edges of the shell of the first host (100) and/or the second host (200), and the anti-slip pads (600) are tightly attached to the first host (100) and/or the second host (200) in a mode of covering the bottom and/or the side edges of the shell of the first host (100) and/or the second host (200).

2. The hypertension medical instrument according to claim 1, wherein the non-slip mat (600) can be connected to the hypertension medical instrument in a manner of increasing the friction force between the first host (100) and/or the second host (200) and a contact plane, and a pressure damper is arranged in the non-slip mat (600) and can damp the vibration of the internal electronic components of the first host (100) and/or the second host (200) when the hypertension medical instrument falls to the ground.

3. The hypertension medical instrument according to claim 1, wherein the management module (400) comprises at least a data analysis unit (401) and a wireless communication unit (403), wherein an input of the wireless communication unit (403) is connected to the data analysis unit (401) to transmit information input by the data analysis unit (401) to an external device through the wireless communication unit (403).

4. The hypertension medical instrument according to claim 3, wherein the second host (200) is capable of establishing a wireless communication connection between the intelligent terminal (500) and the management module (400) in a manner of receiving the data analysis unit (401) information through the wireless communication unit (403).

5. The hypertension medical instrument according to claim 3, wherein the data analysis unit (401) comprises a microprocessor, a storage unit and a matching integrated circuit, wherein the data analysis unit (401) receives the information of the diagnosis module (101) and analyzes the information by the microprocessor, and at least stores the processed data in the storage unit and/or transmits the processed data to the intelligent terminal (500) through the wireless communication unit (403).

6. The hypertension medical instrument according to claim 1, wherein the management module (400) further comprises at least an alert module (404), an input of the alert module (404) is connected to the data analysis unit (401), wherein the alert module (404) comprises a voice device and/or a light emitting device.

7. The hypertension medical instrument according to claim 5, characterized in that the data analysis unit (401) further comprises at least an analog-to-digital converter, an amplification shaper and a filter, wherein the input of the amplification shaper is connected to the analog-to-digital converter and the output of the amplification shaper is connected to the filter.

8. The hypertension medical instrument according to claim 1, wherein the diagnosis module (101) is configured as a tourniquet capable of winding around the arm of the patient, a pressure sensor is arranged in the tourniquet, and the therapy module (201) is connected with a therapeutic device composed of a plurality of therapeutic patches capable of clinging to various parts of the body.

9. The hypertension medical instrument according to claim 1, wherein the second host (200) is further provided with and/or connected with a power module (300) which can provide at least the first host (100) and the second host (200) for use.

10. The hypertension medical instrument according to claim 1, wherein the first host (100), the second host (200) and/or the intelligent terminal (500) are provided with corresponding display areas (10) and/or operation areas (20).

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