阅读说明：本技术 一种利用基因检测为导向提前预防疾病的健康管理方法 (Health management method for preventing diseases in advance by using gene detection as guide ) 是由 郑岁田 于 2021-09-01 设计创作，主要内容包括：本发明涉及医疗健康技术领域,且公开了一种利用基因检测为导向提前预防疾病的健康管理的装置,包括调节机构,所述调节机构包括固定轴,所述固定轴的外围套接有齿轮一,所述齿轮一的外围设置有颈套杆,所述颈套杆的弧面内壁开设有阶梯弧槽。该利用基因检测为导向提前预防疾病的健康管理的装置,通过向外拉出橡胶杆,配合钢丝绳牵拉使棘齿一转动脱离啮合齿轮一,展开颈套杆并将环块一抵在颈部后侧,转动调节颈套杆间的角度,使环块二贴合用户颈部动脉处,当运动幅度加大时,悬挂块摆动幅度增加并抵压触杆,使激发触点连通,同时心率检测组件检测到心率超过阈值,控制启动电击板喇叭组件示警,提高反馈结果的精准性。(The invention relates to the technical field of medical health, and discloses a health management device for preventing diseases in advance by using gene detection as a guide. This utilize gene detection to prevent device of health management of disease in advance for the direction, through outwards pulling out the rubber pole, cooperation wire rope tractive makes one rotation of ratchet break away from meshing gear one, expand neck loop bar and support ring block one at the neck rear side, rotate the angle between the regulation neck loop bar, make two laminating user neck arteries departments of ring block, when motion amplitude increases, hang a swing amplitude increase and support and press the feeler lever, make and arouse the contact intercommunication, heart rate detection assembly detects the rhythm of the heart and surpasss the threshold value simultaneously, control starts the warning of electric shock board loudspeaker subassembly, improve the accurate nature of feedback result.)

1. A device for health management for early prevention of disease using genetic testing, comprising a regulatory body (2), characterized in that: the adjusting mechanism (2) comprises a fixed shaft (201), a first gear (202) is sleeved on the periphery of the fixed shaft (201), a first neck sleeve rod (203) is arranged on the periphery of the first gear (202), a stepped arc groove (204) is formed in the inner wall of the arc surface of the first neck sleeve rod (203), the inner wall of the stepped arc groove (204) is elastically connected with a first ratchet (206) through a first spring (205), a steel wire rope (207) is fixedly connected to one end, far away from the fixed shaft (201), of the first ratchet (206), a guide wheel (208) is rotatably connected to the top of the first neck sleeve rod (203), a rubber rod (209) is connected to the inner portion of the first neck sleeve rod (203) in a limiting mode, a corrugated pipe (210) is arranged below the fixed shaft (201), a first ring block (211) is fixedly connected to the bottom end of the corrugated pipe (210), and a limiting groove rod (212) is connected to the middle of the first neck sleeve rod (203), the other end of the groove rod (212) is hinged with a second ring block (213).

2. The apparatus for health management using genetic testing as a guide to pre-prevention of disease as claimed in claim 1, wherein: the number of the fixed shafts (201) is two, the periphery of the first gear (202) is meshed with the first ratchets (206), the neck sleeve rods (203) are symmetrically arranged, the neck sleeve rods (203) are hollow, and the inner parts of the stepped arc grooves (204) are in limited connection with the first ratchets (206).

3. The apparatus for health management using genetic testing as a guide to pre-prevention of disease as claimed in claim 1, wherein: the ratchet I (206) is hinged to the top of the neck sleeve rod (203), the steel wire rope (207) surrounds the periphery of the guide wheel (208), one end, far away from the ratchet I (206), of the steel wire rope (207) is fixedly connected to the top of the rubber rod (209), the corrugated pipe (210) is made of a rubber hose, and the ring blocks II (213) are symmetrically arranged.

4. The apparatus for health management using genetic testing as a guide to pre-prevention of disease as claimed in claim 1, wherein: the heart rate detection device is characterized by further comprising a feedback mechanism (3), the feedback mechanism (3) comprises a side supporting block (301), a suspension block (302) is hinged inside the side supporting block (301), the left side and the right side of the middle of the suspension block (302) are elastically connected with a second spring (303), a magnetic block (304) is fixedly connected with the bottom of the suspension block (302), contact rods (305) are arranged on the left side and the right side of the suspension block (302), the other end of each contact rod (305) is connected with an excitation contact (307) through a first connecting rod (306) in a transmission mode, a supporting block (308) is fixedly connected with the bottom end of the side supporting block (301), a heart rate detection assembly (309) is arranged on the left side of the side supporting block (301), and an electric shock plate (310) is arranged above the side supporting block (301).

5. The device of claim 4, wherein the health management system for preventing diseases in advance by using gene detection comprises: the outer wall in neck loop bar (203) is connected to side branch piece (301) spacing, the bottom spacing of side branch piece (301) is connected with feeler lever (305), arouse contact (307) and shock plate (310) and heart rate detection subassembly (309) electric connection, shock plate (310) fixed connection is in the bottom of ring piece (211), the through current of shock plate (310) is less than 5 milliamperes, heart rate detection subassembly (309) fixed connection is in the inside of ring piece two (213), the one end that feeler lever (305) is close hanging block (302) is made by magnetic metal material.

6. The apparatus for health management using genetic testing as a guide to pre-prevention of disease as claimed in claim 1, wherein: still include base (1), the middle part fixedly connected with adjustment mechanism (2) of base (1), both ends are spacing to be connected with feedback mechanism (3) about adjustment mechanism (2), the bottom fixedly connected with ball piece (4) of adjustment mechanism (2), outside fixedly connected with loudspeaker subassembly (5) of ball piece (4).

7. The device of claim 6, wherein the health management system comprises: the middle part fixedly connected with fixed axle (201) of base (1), both sides rotate respectively around base (1) and are connected with neck loop bar (203), the bottom fixedly connected with bellows (210) of base (1), loudspeaker subassembly (5) comprises control chip and warning loudspeaker, loudspeaker subassembly (5) and arouse contact (307) and rhythm of the heart detection subassembly (309) electric connection.

8. A method of health management as claimed in claim 1 using genetic testing as a guide to pre-prevention of disease, comprising the steps of:

s1: starting the wearing equipment and the control terminal and testing whether the connection is normal;

s2: establishing a personal file and importing personal information of a user;

s3: the control terminal receives the user data and feeds back the exercise heart rate threshold calculated by comparing the user data with the genetic information base to the wearing equipment;

s4: the user wears the equipment and then checks the wearing condition;

s5: wearing equipment to detect the heart rate and body amplitude of a user in real time in the body-building process of the user;

s6: the wearing equipment receives the detection value and feeds back the detection value in real time;

s7: the user ends the fitness exercise;

s8: and uploading the data of the motion process of the user to the control terminal.

9. The method of claim 8, wherein the health management method comprises the steps of: the wearable device is in wireless connection with the control terminal, the step S1 is implemented only when the wearable device is used for the first time by a user, the user does not need to import the wearable device when the wearable device is used for the second time, if the device is normally connected with the terminal in the step S1, the next step is continued, if the device is not normally connected with the terminal, the device is connected again, the personal genetic information data in the step S2 comprise the existing medical history information and gene detection results of the user, if the device is worn correctly in the step S4, the next step is continued, and if the device is worn incorrectly, the wearing is adjusted again; and in the step S5, if the device detects that the heart rate is normal, continuing to perform real-time detection, if the device detects that the heart rate exceeds a threshold value, connecting the body amplitude detection component, if the body amplitude of the user does not exceed the threshold value, keeping real-time detection, and if the body amplitude exceeds the threshold value, exciting current stimulation and playing a voice warning.

Technical Field

The invention relates to the technical field of medical health, in particular to a health management method for preventing diseases in advance by using gene detection as a guide.

Background

With the social development, the main diseases affecting the health and life of human body are converted from early infectious diseases into chronic diseases caused by life and rest or congenital diseases caused by heredity, the occurrence probability of various diseases can be predicted and pertinently reduced by detecting DNA fragments of a human body, the physical activity can be increased by sports, the state of the human body can be determined by detecting the heart rate in real time by the existing wearing equipment, but the heart rate of the human body is influenced by various factors including too fast physiological heart rate, too fast pharmacological heart rate and too fast pathological heart rate, so the physical state cannot be accurately obtained by detecting the heart rate, the existing neck ring wearing equipment is composed of a flexible rod body and can be sleeved by a user, but due to the difference of individual body types, the internal detection component of the neck ring equipment cannot be attached to the neck of the user, and the shaking of the equipment can cause the dislocation of the detection position during the sports process of the user, the detection result has larger error, and the detection accuracy of the equipment is influenced.

In order to solve the problems, the inventor provides a health management method for preventing diseases in advance by using gene detection as a guide, the device for preventing the diseases in advance by using the gene detection as the guide comprises the steps of pulling out a rubber rod outwards, enabling a ratchet to rotate to be separated from a first meshing gear in cooperation with the traction of a steel wire rope, unfolding a neck sleeve rod, enabling a first ring block to abut against the rear side of a neck, rotating to adjust the angle between the neck sleeve rods, enabling a second ring block to abut against the artery of the neck of a user, enabling a trigger contact to be communicated when the motion amplitude is increased, enabling a suspension block to increase the swing amplitude to abut against a contact rod, enabling an excitation contact to be communicated, enabling a shock plate loudspeaker assembly to be controlled to start to give an alarm when the heart rate detected by a heart rate detection assembly exceeds a threshold value, and improving the accuracy of a feedback result.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a health management method for preventing diseases in advance by using gene detection as a guide, which has the advantages of combining body amplitude feedback user state and being convenient for adjusting and fitting a human body to improve detection accuracy, and solves the problems that the human body state cannot be accurately obtained only by heart rate detection and neck ring equipment cannot fit the human body to cause loosening and detection position dislocation.

In order to achieve the purposes of feeding back the user state by combining the body amplitude and conveniently adjusting the fit human body to improve the detection accuracy, the invention provides the following technical scheme: the utility model provides an utilize gene detection to prevent device of health management of disease for direction in advance, includes adjustment mechanism, adjustment mechanism includes the fixed axle, gear one has been cup jointed to the periphery of fixed axle, the periphery of gear one is provided with the neck loop bar, the ladder arc groove has been seted up to the cambered surface inner wall of neck loop bar, the inner wall of ladder arc groove has ratchet one through a spring elastic connection, the one end fixedly connected with wire rope of the fixed axle of keeping away from of ratchet one, the top of neck loop bar is rotated and is connected with the leading wheel, the inside limit connection of neck loop bar has the rubber pole, the below of fixed axle is provided with the bellows, the bottom fixedly connected with ring piece one of bellows, the middle part limit connection of neck loop bar has the groove pole, the other end of groove pole articulates there is ring piece two.

Preferably, the number of the fixed shafts is two, the periphery of the first gear is meshed with the first ratchets, the neck sleeve rods are symmetrically arranged, the neck sleeve rods are hollow, the inner parts of the stepped arc grooves are in limit connection with the first ratchets, and the meshing state of the first gear and the first ratchets is changed in a matched mode through the rotation angle of the first stepped arc grooves for limiting the first ratchets.

Preferably, the first ratchet is hinged to the top of the neck sleeve rod, the steel wire rope is wound around the periphery of the guide wheel, one end, far away from the ratchet, of the steel wire rope is fixedly connected to the top of the rubber rod, the corrugated pipe is made of a rubber hose, the ring blocks are symmetrically arranged, and the state of the first ratchet on the same neck sleeve rod is changed through the drawing of the steel wire rope.

Preferably, the electric shock device further comprises a feedback mechanism, the feedback mechanism comprises a side supporting block, a suspension block is hinged inside the side supporting block, the left side and the right side of the middle of the suspension block are elastically connected with a second spring, the bottom of the suspension block is fixedly connected with a magnetic block, contact rods are arranged on the left side and the right side of the suspension block, the other end of each contact rod is in transmission connection with an excitation contact through a connecting rod, the bottom end of the side supporting block is fixedly connected with a supporting block, a heart rate detection assembly is arranged on the left side of the side supporting block, and an electric shock plate is arranged above the side supporting block.

Preferably, the outer wall at the neck loop bar is connected to the collateral branch piece is spacing, the bottom limit connection of the collateral branch piece has the feeler lever, arouse contact and electric shock board and rhythm of the heart determine module electric connection, electric shock board fixed connection is in the bottom of ring piece one, the electric current that passes through of electric shock board is less than 5 milliamperes, rhythm of the heart determine module fixed connection is in the inside of ring piece two, the feeler lever is close the one end that hangs the piece and is made by magnetic metal material, through arousing opening and close of contact and rhythm of the heart determine module common control electric shock board.

Preferably, the improved ball seat further comprises a base, the middle of the base is fixedly connected with an adjusting mechanism, the left end and the right end of the adjusting mechanism are in limit connection with a feedback mechanism, the bottom end of the adjusting mechanism is fixedly connected with a ball block, and the outer portion of the ball block is fixedly connected with a horn assembly.

Preferably, the middle part fixedly connected with fixed axle of base, both sides rotate respectively around the base and are connected with the neck loop bar, the bottom fixedly connected with bellows of base, the loudspeaker subassembly comprises control chip and warning loudspeaker, the loudspeaker subassembly with arouse contact and rhythm of the heart detection module electric connection, provide the condition for the operation of equipment.

A health management method for preventing diseases in advance by using gene detection as a guide, which is characterized by comprising the following steps:

s1: starting the wearing equipment and the control terminal and testing whether the connection is normal;

s2: establishing a personal file and importing personal information of a user;

s3: the control terminal receives the user data and feeds back the exercise heart rate threshold calculated by comparing the user data with the genetic information base to the wearing equipment;

s4: the user wears the equipment and then checks the wearing condition;

s5: wearing equipment to detect the heart rate and body amplitude of a user in real time in the body-building process of the user;

s6: the wearing equipment receives the detection value and feeds back the detection value in real time;

s7: the user ends the fitness exercise;

s8: and uploading the data of the motion process of the user to the control terminal.

Preferably, the wearable device is wirelessly connected with the control terminal, the step S1 is implemented only when the user uses the wearable device for the first time, the user does not need to import the wearable device when the wearable device is used again, the step S1 is normal in connection with the terminal, the next step is continued, the device is not normal in connection with the terminal, the device is connected again, the personal genetic information data in the step S2 includes the user' S past medical history information and gene detection results, the step S4 is correct in wearing the wearable device, the next step is continued, and the wearing is adjusted again if the device is incorrect in wearing; and in the step S5, if the device detects that the heart rate is normal, continuing to perform real-time detection, if the device detects that the heart rate exceeds a threshold value, connecting the body amplitude detection component, if the body amplitude of the user does not exceed the threshold value, keeping real-time detection, and if the body amplitude exceeds the threshold value, exciting current stimulation and playing a voice warning.

Advantageous effects

Compared with the prior art, the invention provides a health management method for preventing diseases in advance by using gene detection as a guide, which has the following beneficial effects:

1. the health management method for preventing diseases in advance by utilizing gene detection as guide comprises the steps of fixing a shaft through the middle of a base, pulling out a rubber rod outwards when wearing equipment, rotating a guide wheel and pulling a steel wire rope, rotating a ratchet to separate a first meshing gear, unfolding a first necking sleeve rod at the moment, supporting the first looping block at the rear side of a neck, rotating and adjusting the angle between the first necking sleeve rods simultaneously, enabling two looping blocks at the left side and the right side to be gradually attached to the artery of the neck of a user under the limiting effect of a groove rod, loosening the rubber rod at the moment, re-engaging the first ratchet with the first meshing gear under the elastic action of a spring, limiting the rotation of the first necking sleeve rod, achieving the effect of conveniently adjusting and attaching a human body to improve detection accuracy, and improving the practicability of the equipment.

2. This utilize gene detection to lead to health management method of prevention disease in advance, the internal rotation through the side piece is connected with the hanging piece, when user's motion surpassed the calculation threshold value, the hanging piece increased along with the body motion swing range, the hanging piece swing is contradicted the feeler lever, arouse the contact intercommunication under the transmission of connecting rod one, when heart rate detection assembly detected the rhythm of the heart and exceeded the threshold value, the electric shock board emits the stimulation current simultaneously loudspeaker subassembly broadcast pronunciation warning this moment, thereby reach the effect of combining the body amplitude feedback user's state, improve the accuracy of feedback result.

3. The health management method for preventing diseases in advance by using gene detection as a guide comprises the steps of processing uploaded personal genes and medical history information through a control terminal, calculating a heart rate threshold value and feeding back the heart rate threshold value to a heart rate detection assembly, determining a user motion state after the vibration amplitude reaches a limit value and the heart rate reaches the threshold value, exciting a stimulation current and playing voice to warn a user, uploading motion data of the user after the user finishes motion, counting and calculating the next heart rate threshold value, avoiding motion risks and improving the practicability of equipment.

Drawings

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

FIG. 2 is a cross-sectional view of the structure of the present invention;

FIG. 3 is a schematic view of the present invention in terms of adjustment;

FIG. 4 is a schematic view of the structure of FIG. 1 taken at A-A in accordance with the present invention;

FIG. 5 is a schematic view of vibration feedback according to the present invention;

FIG. 6 is a schematic view of the structure of FIG. 2 at B-B according to the present invention;

FIG. 7 is an enlarged view of the structure of FIG. 2A according to the present invention;

FIG. 8 is a flowchart of a health management method according to the present invention.

In the figure: 1. a base; 2. an adjustment mechanism; 201. a fixed shaft; 202. a first gear; 203. a neck sleeve rod; 204. a stepped arc groove; 205. a first spring; 206. a first ratchet; 207. a wire rope; 208. a guide wheel; 209. a rubber rod; 210. a bellows; 211. a first ring block; 212. a slot bar; 213. a second ring block; 3. a feedback mechanism; 301. a lateral support block; 302. a suspension block; 303. a second spring; 304. a magnetic block; 305. a feeler lever; 306. a first connecting rod; 307. an excitation contact; 308. a support block; 309. a heart rate detection component; 310. an electric shock plate; 4. a ball block; 5. a horn assembly.

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.

The first embodiment is as follows:

referring to fig. 1, 2, 3, 6 and 7, a health management device for preventing diseases in advance by using gene detection as a guide comprises an adjusting mechanism 2, the adjusting mechanism 2 comprises a fixed shaft 201, a first gear 202 is sleeved on the periphery of the fixed shaft 201, a neck sleeve rod 203 is arranged on the periphery of the first gear 202, a stepped arc groove 204 is formed in the inner wall of the arc surface of the neck sleeve rod 203, a first ratchet 206 is elastically connected to the inner wall of the stepped arc groove 204 through a first spring 205, a steel wire rope 207 is fixedly connected to one end of the first ratchet 206, which is far away from the fixed shaft 201, a guide wheel 208 is rotatably connected to the top of the neck sleeve rod 203, a rubber rod 209 is connected to the inner part of the neck sleeve rod 203 in a limiting manner, a corrugated pipe 210 is arranged below the fixed shaft 201, a first ring block 211 is fixedly connected to the bottom end of the corrugated pipe 210, a groove rod 212 is connected to the middle limiting manner of the neck sleeve rod 203, a second ring block 213 is hinged to the other end of the groove rod 212, the fixed shaft 201 is two groups, the periphery of the first gear 202 is meshed with the first ratchet 206, the neck sleeve rods 203 are symmetrically arranged, the neck sleeve rods 203 are hollow, the inner part of the stepped arc groove 204 is in limit connection with the first ratchet 206, the first ratchet 206 is hinged to the top of the neck sleeve rods 203, the steel wire rope 207 surrounds the periphery of the guide wheel 208, one end, far away from the first ratchet 206, of the steel wire rope 207 is fixedly connected to the top of the rubber rod 209, the corrugated pipe 210 is made of a rubber hose, the second ring block 213 is symmetrically arranged, the state of the first ratchet 206 on the same neck sleeve rod 203 is changed by outwards pulling the rubber rod 209 to be matched with the pulling of the steel wire rope 207, the rotating angle of the first ratchet 206 limited by the stepped arc groove 204 is combined, the meshing state of the first gear 202 and the first ratchet 206 is further controlled, the angle between the neck sleeve rods 203 is controlled, the neck sleeve rods 203 drive the first ring block 211 and the second ring block 213 to be attached to the neck of a human body, and the effect of facilitating adjustment and attachment to improve detection accuracy is achieved, the practicability of the equipment is improved.

Example two:

referring to fig. 1, 2, 4 and 5, a device for health management of advanced disease prevention using gene detection as a guide comprises a feedback mechanism 3, the feedback mechanism 3 comprises a side support block 301, a suspension block 302 is hinged inside the side support block 301, two springs 303 are elastically connected to the left and right sides of the middle part of the suspension block 302, a magnetic block 304 is fixedly connected to the bottom of the suspension block 302, touch rods 305 are arranged on the left and right sides of the suspension block 302, the other end of the touch rod 305 is connected with an excitation contact 307 through a first connecting rod 306 in a transmission manner, a support block 308 is fixedly connected to the bottom end of the side support block 301, a heart rate detection assembly 309 is arranged on the left side of the side support block 301, an electric shock plate 310 is arranged above the side support block 301, the side support block 301 is connected to the outer wall of a neck sleeve rod 203 in a limiting manner, the bottom of the side support block 301 is connected with the touch rod 305 in a limiting manner, the excitation contact 307 is electrically connected with the electric shock plate 310 and the heart rate detection assembly 309, electric shock board 310 fixed connection is in the bottom of ring piece one 211, electric shock board 310's the electric current that passes through is less than 5 milliamperes, rhythm of the heart detection subassembly 309 fixed connection is in the inside of ring piece two 213, the feeler lever 305 is close the one end of hanging block 302 and is made by magnetic metal material, when human motion range increases, hanging block 302 receives to drive and increases the swing range gradually this moment, hanging block 302 horizontal hunting touches feeler lever 305, the transmission of cooperation connecting rod one 306 makes arouse contact 307 short-term intercommunication, when heart rate detection subassembly 309 detects the rhythm of the heart and exceeds the threshold value, arouse electric shock board 310's electric current stimulation user's neck, reach the effect that combines the user's state of body amplitude feedback, improve the precision of feedback result.

Example three:

referring to fig. 1-8, a health management device for preventing diseases in advance by using gene detection as a guide comprises a base 1, an adjusting mechanism 2 is fixedly connected to the middle of the base 1, the adjusting mechanism 2 comprises a fixed shaft 201, a first gear 202 is sleeved on the periphery of the fixed shaft 201, a neck sleeve rod 203 is arranged on the periphery of the first gear 202, a stepped arc groove 204 is formed in the inner wall of an arc surface of the neck sleeve rod 203, a first ratchet 206 is elastically connected to the inner wall of the stepped arc groove 204 through a first spring 205, a steel wire rope 207 is fixedly connected to one end of the first ratchet 206 far away from the fixed shaft 201, a guide wheel 208 is rotatably connected to the top of the neck sleeve rod 203, a rubber rod 209 is connected to the inner part of the neck sleeve rod 203 in a limiting manner, a corrugated tube 210 is arranged below the fixed shaft 201, a first ring block 211 is fixedly connected to the bottom end of the corrugated tube 210, a groove rod 212 is connected to the middle limit of the neck sleeve rod 203, and a second ring block 213 is hinged to the other end of the groove rod 212, the number of the fixed shafts 201 is two, the periphery of the first gear 202 is meshed with the first ratchets 206, the neck sleeve rods 203 are symmetrically arranged, the interior of the neck sleeve rods 203 is hollow, the first ratchets 206 are connected to the inner limit of the stepped arc groove 204, the first ratchets 206 are hinged to the top of the neck sleeve rods 203, the steel wire ropes 207 are wound on the periphery of the guide wheels 208, one ends, far away from the first ratchets 206, of the steel wire ropes 207 are fixedly connected to the top of the rubber rod 209, the corrugated pipe 210 is made of rubber hoses, the second ring blocks 213 are symmetrically arranged, the left end and the right end of the adjusting mechanism 2 are connected with the feedback mechanism 3 in a limiting mode, the feedback mechanism 3 comprises side supporting blocks 301, suspension blocks 302 are hinged to the inner portions of the side supporting blocks 301, springs 303 are elastically connected to the left side and the right side of the middle of the suspension blocks 302, magnetic blocks 304 are fixedly connected to the bottom of the suspension blocks 302, touch rods 305 are arranged on the left side and the right side of the suspension blocks 302, the other ends of the touch rods 305 are in transmission connection with excitation contacts 307 through the first connecting rods 306, the bottom end of the side supporting block 301 is fixedly connected with a supporting block 308, the left side of the side supporting block 301 is provided with a heart rate detection component 309, an electric shock plate 310 is arranged above the side supporting block 301, the side supporting block 301 is in limited connection with the outer wall of the neck loop bar 203, the bottom of the side supporting block 301 is in limited connection with a touch bar 305, an excitation contact 307 is electrically connected with the electric shock plate 310 and the heart rate detection component 309, the electric shock plate 310 is fixedly connected with the bottom of the first ring block 211, the passing current of the electric shock plate 310 is less than 5 milliamperes, the heart rate detection component 309 is fixedly connected inside the second ring block 213, one end of the touch bar 305 close to the suspension block 302 is made of a magnetic metal material, the bottom end of the adjusting mechanism 2 is fixedly connected with a ball block 4, the outer part of the ball block 4 is fixedly connected with a horn component 5, the middle part of the base 1 is fixedly connected with a fixing shaft 201, the front side and the rear side of the base 1 are respectively and rotatably connected with the neck loop bar 203, the horn component 5 is composed of a control chip and a warning horn, the horn component 5 is electrically connected with the excitation contact 307 and the heart rate detection component 309, provides conditions for the operation of the equipment, changes the state of the first ratchet 206 on the same neck loop bar 203 by drawing the rubber rod 209 outwards in cooperation with the steel wire rope 207, and combines the step arc groove 204 with the rotation angle of the first ratchet 206 to limit the position, so as to control the meshing state of the first gear 202 and the first ratchet 206, control the angle between the neck loop bars 203, enable the neck loop bar 203 to drive the first ring block 211 and the second ring block 213 to be attached to the neck of a human body, achieve the effect of conveniently adjusting and attaching the human body and improving the detection precision, improve the practicability of the equipment, when the wearing and starting movement are finished, when the movement amplitude of the human body is increased, the suspension block 302 is driven to gradually increase the swing amplitude, the suspension block 302 swings left and right to touch the contact rod 305 in a swinging way, and the excitation contact 307 is communicated in cooperation with the transmission of the first connecting rod 306, when the heart rate detection component 309 detects that the heart rate exceeds the threshold value, the current of the electric shock plate 310 is stimulated to stimulate the neck of the user, so that the effect of feeding back the state of the user by combining the body amplitude is achieved, and the accuracy of the feedback result is improved.

When the equipment is worn, firstly, the wearing equipment and the control terminal are started, after the starting is finished, the connection between the equipment and the terminal is established in a wireless connection mode, when the wearing equipment is not normally connected with the control middle end, the connection step is repeated, when the wearing equipment is normally connected with the control middle end, the next step is carried out in a forward delay mode, if the user uses the equipment for the first time, a personal file is required to be established on the control middle end, the personal past medical history and the hospital gene detection result are poured in, if the user does not use the equipment for the first time, the next step is carried out in a forward delay mode, the control middle end receives data and uploads the data to a genetic database for comparison processing, the data is led into the wearing equipment after the movement threshold value of the user is calculated, the user takes out the equipment and wears the equipment, if the internal component of the equipment is not completely fitted with the neck, the next step is carried out again when the internal component of the equipment is fitted with the neck of the user, and the patient normally moves after the wearing is finished, wear equipment this moment and pass through real-time detection carotid and obtain real-time heart rate value, then continue to detect when user's rhythm of the heart does not exceed the threshold value, then feed back to vibration amplitude detection subassembly when user's rhythm of the heart exceeds the threshold value, vibration amplitude detects that user's health motion amplitude does not exceed the limit value then continues rhythm of the heart to detect, arouse the current stimulation and the pronunciation broadcast warning when vibration amplitude exceeds the limit value, the user finishes the motion this moment, wear equipment and upload this time motion data to the control middle-end, the control middle-end is handled the analysis once more and is calculated the rhythm of the heart threshold value, upload data to wearing equipment when user next motion, the regulation and control ability of improvement equipment.

The working process and principle are as follows: before use, the equipment needs to be worn accurately, a fixed shaft 201 is fixedly connected to the middle of a base 1, a first gear 202 is sleeved on the periphery of the fixed shaft 201, a first ratchet 206 is meshed and connected to the periphery of the first gear 202, the first gear 202 is meshed with the first ratchet 206 to limit rotation of a neck sleeve rod 203, two hands hold a ball block 4 and pull out a rubber rod 209 outwards, the first ratchet 206 at the top of the same neck sleeve rod 203 rotates and gathers towards the inside of a stepped arc groove 204 due to transmission of the top of the rubber rod 209 through a first steel wire rope 207, meanwhile, the steel wire rope 207 surrounds the periphery of a guide wheel 208, movement of the rubber rod 209 is matched with guiding of the guide wheel 208 and pulling of the steel wire rope 207, the first ratchet 206 at the top of the same neck sleeve rod 203 is disengaged, the top of the neck sleeve rod 203 is rotatably connected to the inside of the base 1 based on rotation of the top of the neck sleeve rod 203, rotation of the neck sleeve rod 203 is not limited at the moment, the holding ball block 4 is pulled outwards to enable the neck sleeve rod 203 to be far away from the back and unfolded, because base 1's bottom fixedly connected with bellows 210, bellows 210's bottom fixedly connected with ring piece 211, this moment with ring piece 211 butt in the neck rear side, simultaneously rotate neck loop bar 203 in opposite directions, make ring piece two 213 be close to neck artery department gradually, under the spacing of groove pole 212, ring piece two 213 rotate laminating patient carotid department, drive its inside fixed connection's rhythm of the heart detection subassembly 309 and aim at the carotid, the electric shock board 310 laminating back neck of the bottom fixed connection of ring piece one 211 simultaneously, reach the effect that is convenient for adjust the human improvement detection precision of laminating, improve equipment's practicality.

After the wearing is finished, the middle part of the neck loop rod 203 is in limit connection with the side supporting block 301, the supporting block 308 fixedly connected with the bottom end of the side supporting block 301 is abutted against the shoulder of a user, when the user normally moves, the heart rate detection component 309 detects that the heart rate does not exceed the threshold value, if the heart rate exceeds the threshold value, the heart rate detection component 309 feeds back to the excitation contact 307, because the user normally moves, the suspension block 302 is rotatably connected based on the inner part of the side supporting block 301, the left side and the right side of the middle part of the suspension block 302 are elastically connected with the second spring 303, meanwhile, the left side and the right side of the suspension block 302 are provided with the touch rods 305, the other end of the touch rods 305 is in transmission connection with the excitation contact 307 through the first connecting rods 306, the suspension block 302 is not enough to completely overcome the elastic resistance of the second spring 303 along with the movement of the user, at the moment, the swing generated by the suspension block 302 is not enough to be abutted against the touch rods 305, so that the excitation contact 307 cannot be connected, and the horn component 5 and the electric shock plate 310 are kept closed, when the user began the time the motion, along with the aggravation of motion, the user rhythm of the heart reaches the threshold value and is detected by rhythm of the heart detection subassembly 309, rhythm of the heart detection subassembly 309 feedback is to arousing contact 307 department, along with user's health motion range increase, hanging block 302 increased along with user's health swing range this moment, hanging block 302 horizontal hunting contradicts touch bar 305 and makes arousing contact 307 intercommunication electric shock board 310 and loudspeaker subassembly 5 along with the transmission of a connecting rod 306, electric shock board 310 emits weak current magnetic pole user nape this moment, loudspeaker subassembly 5 broadcast pronunciation warning user simultaneously, reach the effect that combines the user's state of body amplitude feedback, improve the accuracy of feedback result.

To sum up, this utilize gene detection to lead health management's of preventing disease in advance device, through the middle part fixedly connected with fixed axle 201 of base 1, outwards pull out rubber pole 209 when wearing equipment, under the rotation of leading wheel 208 and the tractive of wire rope 207, ratchet 206 rotates and breaks away from meshing gear 202, expandes neck loop bar 203 this moment, supports ring piece one 211 at the neck rear side, rotate the angle of adjusting between neck loop bar 203 simultaneously, make left and right sides ring piece two 213 laminate user's neck artery department gradually under the spacing of groove pole 212, relax rubber pole 209 this moment, under the elastic force effect of spring 205, ratchet 206 reengages gear 202, restriction neck loop bar 203's rotation, thereby reach the effect that is convenient for adjust the human body of laminating and improve the detection precision, improve the practicality of equipment.

Moreover, the suspension block 302 is rotatably connected inside the side support block 301, when the user moves beyond a calculation threshold, the swing amplitude of the suspension block 302 increases along with the body movement, the suspension block 302 swings to abut against the touch rod 305, the contact 307 is excited to be communicated under the transmission of the first connecting rod 306, when the heart rate detection assembly 309 detects that the heart rate exceeds the threshold, the electric shock plate 310 emits stimulation current and the loudspeaker assembly 5 plays a voice alarm, so that the effect of feeding back the user state in combination with the body amplitude is achieved, and the accuracy of a feedback result is improved.

In addition, according to the method for health management for preventing diseases in advance by using gene detection as a guide, the uploaded personal gene and medical history information are processed through the control terminal, a heart rate threshold value is calculated and fed back to the heart rate detection component 309, the motion state of the user is determined after the vibration amplitude reaches a limit value and the heart rate reaches the threshold value, a stimulation current is excited and a voice is played to warn the user, the motion data is uploaded after the user finishes motion, the next heart rate threshold value is calculated in a statistics mode, the risk of motion is avoided, and the practicability of the equipment is improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.