CN112790771B

CN112790771B - Diabetes health self-checking data acquisition management system based on cloud

Info

Publication number: CN112790771B
Application number: CN202110358534.1A
Authority: CN
Inventors: 余星壁; 潘志金
Original assignee: Nanjing Youyou Health Technology Co ltd
Current assignee: Nanjing Youyou Health Technology Co ltd
Priority date: 2021-04-02
Filing date: 2021-04-02
Publication date: 2021-07-23
Anticipated expiration: 2041-04-02
Also published as: CN112790771A

Abstract

The invention discloses a cloud-based diabetes health self-inspection data acquisition and management system, which comprises a detection main body and a test paper rack, wherein the test paper rack is movably arranged in an inner cavity of the detection main body, the detection main body penetrates through a chute channel at the inner side of a knob push block and is connected with a push rod, a rubber push sleeve is arranged at the outer side of the push rod, the upper end of the push rod is connected with a tilting cleaning component, the pressure at the bottom of an inner cavity of a sealed pressure cavity is increased, a long pipe is used for discharging gas into a discharge pipe, a fixing clamping piece is used for clamping into a fixing clamping groove to fix test paper, after the rack body is pushed to a certain distance, the knob push block is slid rightwards again, the test paper is shoveled out from an arc-shaped mounting groove through an arc-shaped scraping block which moves synchronously, meanwhile, because the bottom of the arc-shaped scraping block is in contact with a sensing membrane, blood stains on the surface of the sensing membrane can be removed at the same time, and the blood sugar detection process of the whole test paper is carried out in the detection main body, the detection precision is higher.

Description

Diabetes health self-checking data acquisition management system based on cloud

Technical Field

The invention relates to the technical field of medical instruments, in particular to a cloud-based diabetes health self-checking data acquisition and management system.

Background

Diabetes is one of four major chronic diseases seriously threatening the health of residents in China, and is also an independent risk factor for causing various diseases. According to related organization survey display: conservative statistics shows that the social medical expense in diabetes reaches more than two billion yuan RMB every year, 80% of the expenses are used for treating diabetic complications, huge burden is brought to the balanced development of Chinese medical resources, and the medical concept is gradually changed from passive treatment to active prevention. The health condition of the human body cannot be monitored in real time, so that the conditions of delaying illness state, wrong diagnosis and treatment delay are caused, and in addition, the problems of long queuing time, low efficiency, long time consumption and the like exist when a patient goes to a hospital outpatient service due to the scarcity of medical resources, and the patient runs back and forth, so that the outpatient service cost is increased, and the diagnosis and treatment time is prolonged.

The existing diabetes mellitus is detected by a glucometer generally when being used at home, part of most test paper is exposed in the air when being used, the detection precision is low, meanwhile, the test paper is inconvenient to clear the test paper in time after being used, blood stain infected inside the test paper is cleared in time, and the test condition of the test paper cannot be uploaded in time and personal health record information cannot be established.

In order to solve the problems, the invention provides a cloud-based diabetes health self-inspection data acquisition and management system which has the advantages of high detection precision, convenience for timely clearing test paper after the test paper is used and cleaning blood stain infected inside a detection main body, capability of timely uploading own detection condition and establishing personal health file information and the like.

Disclosure of Invention

The invention aims to provide a cloud-based diabetes health self-inspection data acquisition and management system which has the advantages of higher detection precision, convenience in timely clearing and cleaning blood stain inside a detection main body after a test paper is used, capability of timely uploading own detection condition and establishing personal health file information and the like, and can solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the diabetes health self-inspection data acquisition and management system based on the cloud comprises a detection mechanism and mobile equipment, wherein the detection mechanism is connected with the mobile equipment through a USB (universal serial bus), the output end of the mobile equipment is also wirelessly connected with a system cloud platform, an identification module, an acquisition unit for acquiring blood glucose concentration and a sensing module electrically connected with the acquisition unit are respectively arranged in the detection mechanism, the output end of the sensing module is connected with a USB module, and the detection mechanism is connected with the mobile equipment through the USB module;

the mobile device is connected with the system cloud platform in a wireless network mode;

the inside of system high in the clouds platform is provided with and the mobile device between the wireless transmission module of being connected, the archives storage module that is used for establishing and storing individual health archives and the excess line identification module that is used for marking and warning blood glucose concentration surpassing the standard value, and the output of archives storage module is connected with data print module.

Furthermore, the detection mechanism is internally provided with a CPU processing module for analyzing blood glucose concentration data in blood after being collected by the collection unit, the output end of the CPU processing module is connected with an early warning module for alarming data of which the blood glucose concentration exceeds a standard value, and the output end of the early warning module is connected with the mobile device.

Furthermore, the collection unit is provided with two sets of collection modules A and a collection module B, wherein the collection modules A and the collection modules B are used for collecting the blood glucose concentration in interstitial fluid and blood glucose concentration in blood respectively, and the collection modules A and the collection modules B are electrically connected with the CPU processing module.

The invention provides another technical scheme that: the diabetes health self-inspection data acquisition and management system based on the cloud comprises a detection main body and a test paper frame, wherein the test paper frame is movably arranged in an inner cavity of the detection main body, a moving assembly is arranged on one side of the detection main body, a data display and an adjusting button are respectively arranged on the surface of the detection main body, a through hole for the test paper frame to pass through is formed in one end of the detection main body, and one end of the test paper frame extends into the inner cavity of the detection main body through the through hole;

the test paper frame is including sealed anti-skidding handle and the support body of being connected with the inboard of sealed anti-skidding handle, and the outside bottom of sealed anti-skidding handle is provided with the USB interface that is connected with the mobile device, and the up end of support body sets up the arc mounting groove that supplies blood detection test paper to hold, and the inner chamber bottom of arc mounting groove is provided with the sensing diaphragm.

Furthermore, the one end that sealed anti-skidding handle was kept away from to the support body is provided with the inserted block, and the inserted block is preceding cone horn shape and its one end is pegged graft in the inner chamber of detecting the main part, and the processing of the inner chamber bottom of detecting the main part has the slot that matches each other with the inserted block.

Furthermore, the moving assembly comprises a sliding groove channel arranged on the surface of one side of the detection main body and a knob push block movably connected with the sliding groove channel, the inner side of the knob push block penetrates through the sliding groove channel and is connected with a push rod, a rubber push sleeve is arranged on the outer side of the push rod, and the upper end of the push rod is connected with a lifting cleaning assembly.

Furthermore, the upwarp cleaning assembly comprises a short connecting rod vertically connected to the upper end of the ejector rod, a balance pressing plate hinged to the short connecting rod and an arc-shaped scraping block installed on the bottom side of the balance pressing plate, wherein the arc-shaped scraping block is a component made of polyester sponge, and the bottom surface of the arc-shaped scraping block is in contact with the sensing diaphragm.

Furthermore, a sealing elastic structure is further arranged in the inner cavity of the detection main body and comprises a short push rod, a sealing pressure cavity and a bottom plate, the sealing pressure cavity is movably connected with the short push rod, one end of the short push rod penetrates through the slot, the outer side of the short push rod is connected with the touch plate, the other end of the short push rod extends into the sealing pressure cavity and is connected with the first piston body, and one side, close to the sealing pressure cavity, of the bottom plate is connected with the bottom end of the first piston body through an elastic piece.

Furthermore, the upper end of the bottom side of the inner cavity of the sealed pressure cavity is connected with a gas pipe, the top end of the gas pipe is connected with a long pipe, the other end of the long pipe is connected with a pipe bank, fixed clamping grooves are machined in two sides of the outer wall of the rack body, which is close to the sealed anti-skidding handle, a second piston body is movably mounted in the inner cavity of the pipe bank, the bottom end of the second piston body is connected with a load rod, and the bottom end of the load rod is connected with a fixed clamping piece clamped with the fixed clamping grooves.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention provides a cloud-based diabetes health self-inspection data acquisition and management system, wherein a gas pipe is connected at the bottom side of an inner cavity of a sealed pressure cavity, a long pipe is connected at the top end of the gas pipe, a discharge pipe is connected at the other end of the long pipe, fixed clamping grooves are respectively processed at two sides of the outer wall of a frame body close to a sealed anti-skid grip, so that after blood on a finger belly is collected on a test paper, one side of the test paper with blood is placed into an arc-shaped mounting groove, the bottom surface of the test paper is contacted with a sensing diaphragm, then the sealed anti-skid grip is held, the inner side of the sealed anti-skid grip is inserted into the inner cavity of a test main body, and meanwhile, an insertion block arranged at the front end of the frame body is inserted into the insertion groove, a collection unit can collect blood sugar concentration in the tested blood, a CPU processing module is used for analyzing and processing the content of the sealed anti-skid grip, if the blood sugar concentration exceeds the standard after analysis, an alarm is given through an early warning module, simultaneously with USB connection USB interface and mobile device of pegging graft respectively, and reach in the system high in the clouds platform and establish individual health archives information with blood glucose data after handling, convenient inquiry needs, thereby it makes first piston body to the motion of sealed pressure chamber inner chamber bottom to receive inside extrusion because the touch panel, sealed pressure chamber inner chamber bottom pressure increase this moment utilizes gas-supply pipe and long tube to arrange intraductal emission into gas in proper order, because U type pipe principle, the second piston body drives the carrier bar and continues the downstream, and utilize fixed fastener card to go on fixing the test paper in fixed slot, prevent that the test paper from taking place to drop at the in-process that detects, also improved its detection accuracy.

2. The invention provides a cloud-based diabetes health self-inspection data acquisition and management system, wherein a sliding chute is penetrated through the inner side of a knob push block and is connected with a push rod, a rubber push sleeve is arranged on the outer side of the push rod, and the upper end of the push rod is connected with a tilting cleaning component, so that after the detection of the blood glucose concentration in blood on a test paper is completed, the knob push block can be pushed and slide rightwards in the sliding chute, the push rod connected with the inner side of the knob push block can synchronously move rightwards, meanwhile, the rubber push sleeve arranged at the top end of the push block is continuously close to a sealed anti-slip grip and is contacted with the sealed anti-slip grip and moves outwards together, an inserting block is far away from an inserting groove, a touch plate is restored under the reaction force of an elastic piece, a fixing clamping piece also synchronously moves upwards and is separated from a fixing clamping groove, and after a rack is pushed to a certain distance, the knob push block slides rightwards again, the test paper is shoveled from an arc-shaped scraping block which synchronously moves, simultaneously because the arc scrapes a bottom and contacts with sensing diaphragm, also can clear away the bloodstain on sensing diaphragm surface when taking out the test paper, make things convenient for follow-up reuse, and the blood sugar testing process of whole test paper is gone on in the inside of detecting the main part completely, and the local exposure is in the outside air when comparing in general test paper and detecting, and detection accuracy is also higher.

Drawings

FIG. 1 is a topological diagram of a cloud-based diabetes health self-check data acquisition and management system according to the present invention;

FIG. 2 is a flow chart illustrating the steps of using the cloud-based diabetes health self-check data collection and management system according to the present invention;

FIG. 3 is a block diagram of the overall composition of the cloud-based diabetes health self-check data acquisition and management system of the present invention;

FIG. 4 is a block diagram of a system cloud platform of the cloud-based diabetes health self-check data acquisition and management system of the present invention;

FIG. 5 is a schematic diagram of the overall structure of the cloud-based diabetes health self-check data acquisition and management system according to the present invention;

FIG. 6 is a split structure diagram of the cloud-based diabetes health self-check data acquisition and management system according to the present invention;

FIG. 7 is a schematic diagram of a test paper rack structure of the cloud-based diabetes health self-inspection data acquisition and management system according to the present invention;

FIG. 8 is a schematic diagram of an internal structure of a test paper rack of the cloud-based diabetes health self-inspection data acquisition and management system in a side view after installation;

FIG. 9 is a schematic diagram of an internal structure of a test paper rack installed front side view of the cloud-based diabetes health self-inspection data acquisition and management system according to the present invention;

fig. 10 is an enlarged schematic structural diagram of a point a in fig. 9 of the cloud-based diabetes health self-inspection data acquisition and management system according to the present invention;

fig. 11 is a schematic view of a sealing elastic structure of the cloud-based diabetes health self-inspection data acquisition and management system according to the present invention.

In the figure: 1. a detection mechanism; 11. an identification module; 12. a collection unit; 121. an acquisition module A; 122. an acquisition module B; 13. a sensing module; 14. a USB module; 15. a CPU processing module; 16. an early warning module; 2. a mobile device; 3. a system cloud platform; 31. a wireless transmission module; 32. a file storage module; 33. a superline identification module; 34. a data printing module; 4. detecting a subject; 41. a data display; 42. an adjustment button; 43. a through hole; 44. a slot; 5. a test paper rack; 51. sealing the anti-slip grip; 511. a USB interface; 52. a frame body; 521. an arc-shaped mounting groove; 522. a sensing diaphragm; 523. inserting a block; 524. fixing the clamping groove; 6. a moving assembly; 61. a chute channel; 62. a knob push block; 621. a top rod; 6211. a rubber top sleeve; 622. a lifting cleaning assembly; 6221. a short connecting rod; 6222. a balance pressure plate; 6223. an arc scraping block; 7. a sealed elastic structure; 71. a short push rod; 711. a touch panel; 712. a first piston body; 72. sealing the pressure chamber; 721. a gas delivery pipe; 73. a base plate; 731. an elastic member; 8. a long tube; 9. arranging pipes; 91. a second piston body; 92. a carrier bar; 93. and fixing the clamping piece.

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.

Referring to fig. 1-4, the cloud-based diabetes health self-inspection data acquisition and management system comprises a detection mechanism 1 and a mobile device 2, wherein the detection mechanism 1 is connected with the mobile device 2 through a USB, the output end of the mobile device 2 is also wirelessly connected with a system cloud platform 3, an identification module 11, an acquisition unit 12 for acquiring blood glucose concentration and a sensing module 13 electrically connected with the acquisition unit 12 are respectively arranged in the detection mechanism 1, the output end of the sensing module 13 is connected with a USB module 14, and the detection mechanism 1 is connected with the mobile device 2 through the USB module 14; the mobile device 2 is connected with the system cloud platform 3 in a wireless network mode; a wireless transmission module 31 connected with the mobile device 2, a file storage module 32 used for establishing and storing personal health files and an over-line identification module 33 used for identifying and warning standard values of blood glucose concentration are arranged in the system cloud platform 3, and the output end of the file storage module 32 is connected with a data printing module 34; the detection mechanism 1 is also internally provided with a CPU processing module 15 for analyzing the blood glucose concentration data in the blood after being collected by the collection unit 12, the output end of the CPU processing module 15 is connected with an early warning module 16 for alarming the data of which the blood glucose concentration exceeds a standard value, and the output end of the early warning module 16 is connected with the mobile device 2; the collection unit 12 is provided with two sets of collection modules a121 and a collection module B122, wherein the collection modules a121 and the collection modules B122 are used for collecting blood glucose concentration in interstitial fluid and blood glucose concentration in blood respectively, and the collection modules a121 and the collection modules B122 are both electrically connected with the CPU processing module 15.

The embodiment provides a cloud-based diabetes health self-inspection data acquisition and management system, and referring to fig. 5-9, a detection mechanism 1 includes a detection main body 4 and a test paper rack 5, the test paper rack 5 is movably mounted in an inner cavity of the detection main body 4, a moving assembly 6 is arranged on one side of the detection main body 4, a data display 41 and an adjusting button 42 are respectively arranged on the surface of the detection main body 4, a through hole 43 for the test paper rack 5 to pass through is formed in one end of the detection main body 4, and one end of the test paper rack 5 extends into the inner cavity of the detection main body 4 through the through hole 43; the test paper rack 5 comprises a sealed anti-slip grip 51 and a rack body 52 connected with the inner side of the sealed anti-slip grip 51, a USB interface 511 connected with the mobile device 2 is arranged at the bottom end of the outer side of the sealed anti-slip grip 51, USB connection wires are respectively inserted into the USB interface 511 and the mobile device 2, processed blood glucose data are uploaded into the system cloud platform 3, personal health file information is established, and the requirement for inquiry is facilitated; an insert block 523 is arranged at one end of the frame body 52 far away from the sealed anti-skid grip 51, the insert block 523 is in a forward conical angle shape, one end of the insert block 523 is inserted into the inner cavity of the detection main body 4, and an insert slot 44 matched with the insert block 523 is processed at the bottom end of the inner cavity of the detection main body 4; the moving assembly 6 comprises a sliding groove channel 61 arranged on one side surface of the detection main body 4 and a knob push block 62 movably connected with the sliding groove channel 61, the inner side of the knob push block 62 penetrates through the sliding groove channel 61 and is connected with a top rod 621, the outer side of the top rod 621 is provided with a rubber top sleeve 6211, and the upper end of the top rod is connected with a lifting cleaning assembly 622; the upwarp cleaning assembly 622 comprises a short connecting rod 6221 vertically connected to the upper end of the top rod 621, a balance pressure plate 6222 hinged to the short connecting rod 6221 and an arc-shaped scraping block 6223 mounted on the bottom side of the balance pressure plate 6222, wherein the arc-shaped scraping block 6223 is a member made of polyester sponge, the bottom surface of the member contacts the sensing diaphragm 522, when the frame body 52 is pushed to a certain distance, the knob push block 62 slides rightwards again, the test paper is shoveled out of the arc-shaped mounting groove 521 through the arc-shaped scraping block 6223 moving synchronously, and simultaneously, because the bottom of the arc-shaped scraping block 6223 contacts the sensing diaphragm 522, blood stains on the surface of the sensing diaphragm 522 can be removed while the test paper is taken out.

Referring to fig. 7 and fig. 10-11, in the cloud-based diabetes health self-inspection data acquisition and management system, a sealing elastic structure 7 is further disposed in an inner cavity of the detection main body 4, the sealing elastic structure 7 includes a short push rod 71, a sealing pressure chamber 72 movably connected with the short push rod 71, and a bottom plate 73, one end of the short push rod 71 passes through the slot 44 and is connected with a touch plate 711 on an outer side thereof, the other end of the short push rod 71 extends into the sealing pressure chamber 72 and is connected with a first piston body 712, and one side of the bottom plate 73 close to the sealing pressure chamber 72 is connected with a bottom end of the first piston body 712 through an elastic piece 731; the upper end of the bottom side of the inner cavity of the sealed pressure cavity 72 is connected with an air pipe 721, the top end of the air pipe 721 is connected with a long pipe 8, the other end of the long pipe 8 is connected with a rack 9, fixing clamping grooves 524 are processed on both sides of the outer wall of the rack 52 close to the sealed anti-skid grip 51, a second piston body 91 is movably installed in the inner cavity of the rack 9, the bottom end of the second piston body 91 is connected with a load rod 92, the bottom end of the load rod 92 is connected with a fixing clamping piece 93 clamped with the fixing clamping grooves 524, the first piston body 712 moves towards the bottom of the inner cavity of the sealed pressure cavity 72 due to inward extrusion of the contact plate 711, at the moment, the pressure intensity of the bottom of the inner cavity of the sealed pressure cavity 72 is increased, the air pipe 721 and the long pipe 8 are sequentially utilized to discharge air into the rack 9, due to the principle of a U-shaped pipe, the second piston body 91 drives the load rod 92 to continuously move downwards and is clamped into the fixing clamping piece 93 to fix the test paper, the test paper is prevented from falling off in the detection process, and the detection precision is also improved.

The working principle is as follows: after blood on the finger pad is collected on the test paper, one side of the test paper with blood can be placed into the arc-shaped mounting groove 521, the bottom surface of the test paper is contacted with the sensing diaphragm 522, then the sealed anti-skidding handle 51 is held, the inner side of the sealed anti-skidding handle is inserted into the inner cavity of the test main body 4, the insertion block 523 arranged at the front end of the frame body 52 is inserted into the insertion groove 44, the collection unit 12 can collect the blood sugar concentration in the tested blood, the CPU processing module 15 is used for analyzing and processing the content of the blood sugar, if the blood sugar concentration exceeds the standard after analysis, the early warning module 16 is used for warning, the USB connecting wire is respectively inserted into the USB interface 511 and the mobile device 2, the processed blood sugar data is uploaded into the system platform 3, personal health file information is established, the inquiry requirement is facilitated, and the contact plate 711 is squeezed inwards, so that the first piston body 712 moves towards the bottom of the inner cavity of the sealed cloud 72, at this time, the pressure intensity at the bottom of the inner cavity of the sealed pressure cavity 72 is increased and the air is discharged into the discharge pipe 9 by the air pipe 721 and the long pipe 8 in sequence, due to the principle of the U-shaped pipe, the second piston body 91 drives the loading rod 92 to move downwards continuously and the fixing clamp 93 is clamped into the fixing clamp groove 524 to fix the test paper, after the detection of the blood glucose concentration in the blood on the test paper is completed, the knob push block 62 can be pushed and slide rightwards in the sliding groove 61, the push rod 621 connected to the inner side of the knob push block 62 can move rightwards synchronously, and the rubber top sleeve 6211 arranged at the top end of the knob push block is continuously close to the sealed anti-slip grip 51 and contacts and moves outwards together, at this time, the insert block 523 is far away from the slot 44, the touch plate 711 is restored to the original position under the reaction force of the elastic element 731, and the fixing clamp 93 moves upwards and separates, the knob push block 62 is slid rightwards again, the test paper is shoveled out of the arc-shaped mounting groove 521 through the arc-shaped scraping block 6223 which moves synchronously, and meanwhile, because the bottom of the arc-shaped scraping block 6223 is in contact with the sensing diaphragm 522, blood stains on the surface of the sensing diaphragm 522 can be removed while the test paper is taken out.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. Diabetes health self-checking data acquisition management system based on high in clouds, including detection mechanism (1) and mobile device (2), be connected its characterized in that through USB between detection mechanism (1) and mobile device (2): the output end of the mobile device (2) is also wirelessly connected with a system cloud platform (3), an identification module (11), an acquisition unit (12) for acquiring blood glucose concentration and a sensing module (13) electrically connected with the acquisition unit (12) are respectively arranged in the detection mechanism (1), the output end of the sensing module (13) is connected with a USB module (14), and the detection mechanism (1) is connected with the mobile device (2) through the USB module (14);

the mobile device (2) is connected with the system cloud platform (3) in a wireless network mode;

a wireless transmission module (31) connected with the mobile device (2), a file storage module (32) used for establishing and storing personal health files and an over-line identification module (33) used for identifying and warning that the blood sugar concentration exceeds a standard value are arranged in the system cloud platform (3), and the output end of the file storage module (32) is connected with a data printing module (34);

the detection mechanism (1) comprises a detection main body (4) and a test paper frame (5), wherein the test paper frame (5) is movably arranged in an inner cavity of the detection main body (4), and is characterized in that a moving assembly (6) is arranged on one side of the detection main body (4), a data display (41) and an adjusting button (42) are respectively arranged on the surface of the detection main body (4), a through hole (43) for the test paper frame (5) to pass through is formed in one end of the detection main body (4), and one end of the test paper frame (5) extends into the inner cavity of the detection main body (4) through the through hole (43);

the test paper rack (5) comprises a sealed anti-skidding grip (51) and a rack body (52) connected with the inner side of the sealed anti-skidding grip (51), the bottom end of the outer side of the sealed anti-skidding grip (51) is provided with a USB interface (511) connected with the mobile equipment (2), the upper end surface of the rack body (52) is provided with an arc-shaped mounting groove (521) for containing blood detection test paper, and the bottom end of the inner cavity of the arc-shaped mounting groove (521) is provided with a sensing diaphragm (522);

a sealing elastic structure (7) is further arranged in the inner cavity of the detection main body (4), the sealing elastic structure (7) comprises a short push rod (71), a sealing pressure cavity (72) movably connected with the short push rod (71) and a bottom plate (73), one end of the short push rod (71) penetrates through the slot (44) and is connected with a touch plate (711) on the outer side, the other end of the short push rod (71) extends into the sealing pressure cavity (72) and is connected with the first piston body (712), and one side, close to the sealing pressure cavity (72), of the bottom plate (73) is connected with the bottom end of the first piston body (712) through an elastic piece (731);

the upper end of the bottom side of the inner cavity of the sealed pressure cavity (72) is connected with an air conveying pipe (721), the top end of the air conveying pipe (721) is connected with a long pipe (8), the other end of the long pipe (8) is connected with a pipe bank (9), fixing clamping grooves (524) are machined on two sides of the outer wall, close to the sealed anti-skidding handle (51), of the rack body (52), a second piston body (91) is movably mounted in the inner cavity of the pipe bank (9), the bottom end of the second piston body (91) is connected with a load rod (92), and the bottom end of the load rod (92) is connected with a fixing clamping piece (93) clamped with the fixing clamping grooves (524).

2. The cloud-based diabetes health self-test data collection and management system of claim 1, wherein: the detection mechanism (1) is internally provided with a CPU processing module (15) for analyzing blood glucose concentration data in blood after being collected by the collection unit (12), the output end of the CPU processing module (15) is connected with an early warning module (16) for alarming data of which the blood glucose concentration exceeds a standard value, and the output end of the early warning module (16) is connected with the mobile device (2).

3. The cloud-based diabetes health self-test data collection and management system of claim 1, wherein: the collection unit (12) is provided with two sets of collection modules A (121) for collecting blood glucose concentration in interstitial fluid and collection modules B (122) for collecting blood glucose concentration in blood, and the collection modules A (121) and the collection modules B (122) are electrically connected with the CPU processing module (15).

4. The cloud-based diabetes health self-inspection data acquisition and management system according to claim 1, wherein an insertion block (523) is arranged at one end of the frame body (52) far away from the sealed anti-skid grip (51), the insertion block (523) is in a forward cone shape, one end of the insertion block is inserted into an inner cavity of the detection main body (4), and a slot (44) matched with the insertion block (523) is processed at the bottom end of the inner cavity of the detection main body (4).

5. The cloud-based diabetes health self-inspection data acquisition and management system according to claim 1, wherein the moving assembly (6) comprises a sliding groove (61) formed in a side surface of the detection main body (4) and a knob push block (62) movably connected with the sliding groove (61), the inner side of the knob push block (62) penetrates through the sliding groove (61) and is connected with the ejector rod (621), the outer side of the ejector rod (621) is provided with a rubber top sleeve (6211), and the upper end of the rubber top sleeve is connected with a lifting cleaning assembly (622).

6. The cloud-based diabetes health self-inspection data collection and management system according to claim 5, wherein the lifting cleaning assembly (622) comprises a short connecting rod (6221) vertically connected to the upper end of the top rod (621), a balance pressure plate (6222) hinged to the short connecting rod (6221), and an arc-shaped scraping block (6223) installed at the bottom side of the balance pressure plate (6222), wherein the arc-shaped scraping block (6223) is a member made of polyester sponge, and the bottom surface of the arc-shaped scraping block contacts the sensing diaphragm (522).