CN219982889U - Peripheral blood collection test box, processing terminal, detection equipment and cloud service system - Google Patents

Abstract

The utility model discloses a peripheral blood collection and test box, which comprises: the box body comprises a first end face, and a through hole is formed in the first end face; the test paper comprises a detection area, and the detection area is positioned near the via hole; the blood taking needle is positioned in the box body, is arranged towards the through hole and is positioned below the through hole; the trigger mechanism is arranged on the trigger mechanism, is arranged in the box body and drives the blood taking needle to extend out of the conducting hole when triggering so as to puncture a fingertip arranged on the first end face; wherein, tip blood of the fingertip enters the detection area nearby the via hole to realize detection. The utility model also discloses a detection device, a processing terminal and a cloud service system with the detection device or the processing terminal, which utilize the peripheral blood collection test box. The peripheral blood collection and test box provided by the utility model solves the technical problems of more peripheral blood collection parts, complex operation, poor compatibility, easiness in cross infection and the like in the prior art.

Description

Peripheral blood collection test box, processing terminal, detection equipment and cloud service system

Technical Field

The utility model relates to the field of medical detection, in particular to a peripheral blood collection and detection box, a processing terminal, detection equipment and a system, which are particularly suitable for chronic disease monitoring and infectious disease screening.

Background

The current blood detection mode is a common blood detection mode for collecting and detecting peripheral blood, and blood sugar, blood fat, uric acid, infectious diseases and other genetic factors in blood can be detected through the peripheral blood, so that the application range is extremely wide.

The current peripheral blood collection process is: firstly, sterilizing the fingertip position by using a sterilized paper towel or sterilized cotton, then, needling the sterilized part by using a disposable needle head, and then, discharging a first drop of peripheral blood, wherein the first drop of peripheral blood may need to be erased during partial detection, the second drop of peripheral blood is subjected to blood taking detection, the peripheral blood on the fingertip is erased after detection, and finally, the needled part is protected by pressing or adhesive bandage by using the sterilized cotton. The current peripheral blood detection process is: mode one: taking out electrochemical test paper or photochemical test paper from a box in a sealed package, firstly plugging the electrochemical test paper or photochemical test paper into a socket corresponding to a blood analyzer or a detector, dripping the needled peripheral blood onto the electrochemical test paper or photochemical test paper, reacting the blood by the electrochemical test paper to generate an electric signal, and processing the electric signal by the blood analyzer to determine a detection result; the photochemical test paper reacts to the blood to show colors with different depths, and an optical detection module in the blood analyzer deeply analyzes the colors of the photochemical test paper to generate an electric signal so as to determine a detection result; mode two: the detection test paper is chemical detection test paper, blood is smeared on the chemical test paper, and the color on the chemical test paper is checked after a certain time and is compared with the contrast card, so that the detection result is determined.

The above peripheral blood collection and detection applications have been substantially popular, but there are also a number of disadvantages, including:

1. the disposable needle and the test paper are all consumable products, and the test paper has a valid period and needs to be stored in a specific environment protected from light and low temperature. The user needs to purchase the disposable needle and the test paper, and when the disposable needle and the test paper are purchased, one box or one tank is used as a unit, huge waste exists for the personal user with infrequent use, even part of the test paper which is not used up already has the expiration date, the chemical components on the test paper can be invalid due to improper storage of the test paper, the detection is inaccurate, and no result exists.

2. The disposable needle is medical waste, and the needle is necessary to carry partial blood after needling, and although strict limitation and requirements are imposed on medical waste treatment, the disposable needle is discarded by a user, and the cross contamination caused by skin puncture and the like can not be completely avoided as long as the disposable needle cannot ensure complete totally-enclosed recovery treatment.

3. The test paper is different in structure and shape according to different models and different detection items, when in detection, the test paper is required to be inserted into a corresponding socket of a detector, then peripheral blood is dripped into the test paper, the size of the test paper is generally relatively smaller, the front side and the back side of the test paper are required to be distinguished when the test paper is inserted, the operation is too complex for a personal user, and the problems of detection failure and the like are often caused by the insertion error of the socket.

4. When the same person needs to detect multiple blood parameters at the same time, multiple test papers of different types are needed, and peripheral blood dripped on the test papers is also required to be fresh blood, so that the person needs to puncture the dripped blood, after a detection result is obtained, the test paper is pulled out, another test paper is inserted, and then the puncture is performed or the dripping detection is performed again by using residual blood; often because the time of changing the test paper is longer, can lead to blood composition to change, the inaccurate problem of detection appears.

5. The disinfection cotton, the band-aid, the disposable needle and the test paper used for peripheral blood detection and the detector are required to be placed together, a user needs to carry about for use, and the detection cotton, the band-aid, the disposable needle and the test paper are required to be stored after each use, when any one of the main disposable needle and the test paper is insufficient, even if the detector is carried, the blood detection cannot be completed, so that the user is required to be checked regularly, and the detection cotton, the band-aid, the disposable needle and the test paper are required to be supplemented timely, and the detection cotton cannot be detected due to the fact that the personal user forgets to supplement.

6. The above peripheral blood collection and detection can also be carried out in a medical institution, and the individual needs to reserve in advance, register and go to detection at fixed time and fixed point in the medical institution; and because medical institutions have more personnel, large-area queuing often occurs. As an individual, the detection operation of the individual is complicated, and required materials need to be supplemented at regular time, however, the detection of a medical institution cannot be completed in free time and rapidly, the use feeling is greatly reduced, and the popularization of peripheral blood collection and detection is not facilitated.

7. Finally, most of the individual users who are required to collect and detect peripheral blood periodically are chronic patients, such as diabetics, patients with high blood acid such as gout, etc., and these people need to detect peripheral blood daily or weekly, and continuous detection records with a time axis, including pre-meal or post-meal detection time, etc., are required, which is especially difficult for elderly people, and the detection at medical institutions cannot form complete data information and files, which is unfavorable for monitoring and management of chronic diseases.

Disclosure of Invention

The utility model aims to provide a peripheral blood collection and test box, and aims to solve the technical problems of complicated peripheral blood collection operation, poor compatibility, queuing requirement, easiness in cross infection and the like in the prior art.

The peripheral blood collection test kit of the present utility model comprises:

the box body comprises a first end face, and a through hole is formed in the first end face;

the test paper comprises a detection area, and the detection area is positioned near the via hole;

the blood taking needle is positioned in the box body, is arranged towards the through hole and is positioned below the through hole;

the trigger mechanism is arranged in the box body, the blood taking needle is controlled by the trigger mechanism, and the trigger mechanism drives the blood taking needle to extend out of the conducting hole when in trigger so as to puncture a fingertip arranged on the first end face and retract the box body rapidly;

Wherein, tip blood channel of fingertip enters the detection zone to realize detection.

The blood taking needle and the test paper are both positioned in the same box body, and the blood taking needle is accommodated in the box body before blood taking; the needle head is stretched out during blood sampling, and the inside of the box body is retracted again after blood sampling, so that poor infection caused by puncturing the skin of other people by the needle head can be avoided. In addition, the tip blood sampling box is of a portable small-size structure, can be conveniently carried, does not need tedious operations of a blood taker, completes blood sampling and test paper inspection at one time, and is easier to use.

Wherein the test paper of box body an organic whole setting can realize different grade type's detection project according to the different demand of blood collector.

The utility model also discloses a detection device which is connected with the peripheral blood sampling box in a wired or wireless mode so as to acquire detection data.

Wherein, be provided with a plurality of test paper in peripheral blood sampling box to also set up a plurality of interfaces and realize the detection of many blood detection items on check out test set when having a plurality of interfaces, have fine compatibility.

When the detecting equipment is connected in a wired structure mode, the content of the detection item is prevented from being wrong when the peripheral blood sampling box is inserted into the detecting equipment, for example, blood glucose detection test paper is inserted into an insertion port for blood acid detection, and a unique corresponding insertion mode of the peripheral blood sampling box and the detecting equipment is realized, so that the problems of wrong insertion and complicated insertion are prevented.

When the peripheral blood detection device transmits detection data to the outside in a wireless transmission mode, the detection device or the mobile terminal or the processing terminal is in communication connection with the peripheral blood collection and detection box, and particularly used in a large-range blood screening project, the peripheral blood collection and detection box can be distributed in advance without queuing; no crowd gathering exists, and the method is particularly suitable for screening infectious diseases during screening the infectious diseases.

The utility model also discloses a cloud service system, which realizes the remote and cloud storage of the detection result detected by the detection equipment, is convenient for forming a complete detection record, and supports the remote viewing, uploading and downloading of the detection equipment; has good application effect on monitoring chronic diseases and infectious diseases.

Drawings

FIG. 1 is a schematic view of a simplified structure of a peripheral blood collection test cassette of the present utility model;

FIG. 2 is an exploded view of a specific construction of the peripheral blood collection test cassette of the present utility model;

FIG. 3 is a schematic illustration of the push structure of FIG. 2;

FIG. 4 is a cross-sectional view of the collection test cartridge of the present utility model prior to triggering of the lancet;

FIG. 5 is a cross-sectional view of the collection test cartridge after the lancet of the present utility model is retracted;

FIG. 6 is a schematic diagram of a peripheral blood collection test cassette according to an embodiment of the present utility model;

FIG. 7 is a schematic view showing the structure of an interface in a peripheral blood collection test cartridge according to an embodiment;

FIG. 8 is a schematic diagram of a second embodiment of a pilot paper structure;

FIG. 9 is a schematic view showing the installation of a plurality of test strips in a two-terminal blood collection test cartridge according to the embodiment;

FIG. 10 is a schematic diagram of a peripheral blood collection test cartridge having a plurality of interfaces;

FIG. 11 is a schematic diagram of another embodiment of the test strip of the present utility model;

fig. 12 and 13 are schematic views showing the arrangement structure of a plurality of test strips in the third embodiment;

FIG. 14 is a schematic view showing the structure of a peripheral blood collection test cartridge according to the fourth embodiment;

FIG. 15 is a schematic view showing the structure of a peripheral blood collection test cartridge according to the fifth embodiment;

FIG. 16 is a schematic view showing the structure of a peripheral blood collection test cartridge according to the sixth embodiment;

FIG. 17 is a schematic diagram of a cloud service system in accordance with a seventh embodiment;

fig. 18 is a schematic diagram of a detection device module in the seventh embodiment;

FIG. 19 is a schematic view showing the connection of a peripheral blood collection test cartridge with a test device having multiple interfaces according to the seventh embodiment;

fig. 20 is a schematic diagram of a cloud service system module in an eighth embodiment;

fig. 21 is a schematic diagram of a detection apparatus module in the eighth embodiment;

FIG. 22 is a schematic diagram of a module according to an eighth alternative embodiment;

FIG. 23 is a schematic diagram of a nine-cloud service system module according to an embodiment;

FIG. 24 is a schematic diagram of a ten cloud service system module according to an embodiment;

fig. 25 is a schematic diagram of an eleventh cloud service system module according to an embodiment.

Reference numerals:

(101/102/103/104), cloud service system; 10. peripheral blood collection and test box; 11. test paper; 110. a detection zone; 111. a detection electrode; 112. a through hole; 113. a display area; 114. an extension region; 115. a front end; 116. avoidance holes; 12. a lancet assembly; 121. a blood taking needle; 122. a fixing member; 1221. a guide bar; 13. a case body; 131. a first end face; 1311. an inner concave portion; 132. a via hole; 133. a sealing film; 134. a transparent viewing window; 135. an electrical control structure; 14. a trigger mechanism; 15. a base; 151. an elastic arm; 152. a receiving groove 152; 153. a stopper; 16. a housing; 161. an interface; 162. a protrusion; 17. a pushing structure; 170. a trigger part; 171. an extension strip; 1711. a guide groove; 172. a push zone; 173. pushing the inclined plane; 18. a first data processing module; 19. a first wireless communication module; 20. a detection device; 21. an equipment body; 22. a female plug port; 23. a detection processing module; 24. a display module; 25. a storage recording module; 26. a communication module; 30. detecting a database; 40. a mobile terminal; 41. a wireless communication module; 50. a health server; 60. a processing terminal;

Detailed Description

The utility model is further illustrated and described below in conjunction with the specific embodiments and the accompanying drawings:

referring to fig. 1 and 2, the present utility model is further illustrated and described below with reference to specific embodiments and the accompanying drawings:

the utility model discloses an integrated peripheral blood collection and test box 10, wherein the peripheral blood collection and test box 10 is of a portable small-size design, and test paper 11 and a blood taking needle 121 are integrated in the same box body 13 by the peripheral blood collection and test box 10.

The peripheral blood collection test cartridge 10 includes a cartridge body 13, a test paper 11, a lancet 121, and a trigger mechanism 14.

The box 13 includes a first end surface 131, and a through hole 132 is disposed on the first end surface 131. The first end surface 131 is an end facing the side of the examiner, and the examiner places a fingertip on the first end surface 131 for peripheral blood collection. The through hole 132 is a passage through which peripheral blood flows during collection or a position where the lancet 121 protrudes.

The test paper 11 is integrally disposed with the box body 13, the test paper 11 includes the detection area 110, where the test paper 11 may be disposed inside the box body 13, or may be disposed above the first end surface 131 of the box body 13, or disposed in the first end surface 131, and the test paper 11 is disposed as long as the detection area 110 is located near the via hole 132, so that it is capable of ensuring that peripheral blood after the skin is pricked by the lancet 121 flows into the detection area 110.

Among them, it is preferable that the detection area 110 is located around or at least on one side below the via hole 132. When the peripheral blood flows into the box 13 through the through hole 132, the peripheral blood flows into the detection area 110 of the test paper 11, and after the peripheral blood is obtained from the detection area 110, the corresponding reaction is performed so as to obtain a detection result by means of the detection device or the processing terminal.

In this embodiment, the lancet 121 is mounted on the trigger mechanism 14, the trigger mechanism 14 is disposed inside the case 13, the lancet 121 is controlled by the trigger mechanism 14, and the trigger mechanism 14 drives the lancet 121 to extend out of the through hole 132 when triggered, so as to pierce a fingertip disposed on the first end surface 131. Tip blood of the fingertip enters the detection area 110 through the through hole 132 or directly enters the detection area 110 of the test paper 11 without passing through the through hole 132, so as to realize detection.

In the present embodiment, the triggering mechanism 14 is used to control the position of the lancet 121, so that the triggering mechanism 14 can be triggered to make the lancet 121 extend out of the through hole 132 when the fingertip is placed on the first end surface 131 or the base 15 is pressed; when the collection of the peripheral blood is completed or is not required, the lancet 121 itself is inside the peripheral blood collection test cartridge 10, preventing the needle from puncturing the skin of another person to cause blood cross infection.

Wherein, the peripheral blood collected from the first end face 131 directly flows into the detection area 110, and the blood taking needle 121 is retracted at this time, so that on one hand, the collection and detection of the peripheral blood is guaranteed, and on the other hand, the peripheral blood collected after the blood taking needle 121 is retracted is mostly in the peripheral blood collection and detection box 10, so that the risk of direct exposure of the blood is avoided, and the safety is improved.

As shown in fig. 2, the first end surface 131 is provided with an inner recess 1311, and the via hole 132 is disposed at the bottom of the inner recess 1311. When a finger is placed on the concave portion 1311, pressing the concave portion 1311 can function as a squeeze, and bleeding efficiency of the fingertip can be improved. In the present embodiment, when the fingertip is pressed against the concave portion 1311, the lancet 121 protrudes through the through hole 132 to collect blood.

Referring to fig. 2 and 3, in the present embodiment, the peripheral blood collection test cartridge 10 includes: a lancet assembly 12, a base 15 and a housing 16, said housing 16 being part of said cartridge 13. Wherein the triggering mechanism 14 comprises the base 15 and a push-out structure 17.

The lancet assembly 12 includes the lancet 121 and a holder 122 to which the lancet 121 is mounted. The base 15 is used for elastically mounting the fixing piece 122, limiting the fixing piece 122 so that the fixing piece 122 is clamped by the base 15 before triggering and releases the blood taking needle 121 to move to the most far end after triggering, and the blood taking needle 121 is retracted after moving to the most far end. In this way, the elastic installation means a structure with elastic potential energy, such as a spring or other elastic sheets, one end of the structure is connected to the base 15, the other end of the structure is connected to the fixing piece 122, when the fixing piece 122 is clamped in the base 15, the spring is in a compressed state, and when the base 15 is released by triggering the elastic piece, the fixing piece 122 drives the blood taking needle 121 to move towards the direction of the finger to be taken. In this way, the lancet 121 is retracted into the cartridge 13 before triggering, and after blood collection, the spring or the like is in a normal state, naturally contracted, and the contracted lancet 121 is also in the cartridge 13. This structure can realize that blood taking needle 121 is automatic to stretch out and withdraw automatically after taking a blood sample, simple structure.

Wherein, the shell 16 is installed on the base 15, the shell 16 has the first end surface 131, the base 15 is slidingly connected with respect to the shell 16, the sliding direction of the base 15 faces the first end surface 131, and the blood taking needle assembly 12 is located between the shell 16 and the base 15.

Referring to fig. 2 and 3, the hair pushing structure 17 is disposed on the inner wall of the housing 16, the hair pushing structure 17 faces the base 15, the hair pushing structure 17 is partially inserted into the base 15, the fixing member 122 is guided in the hair pushing structure 17 and triggers the base 15 to release the fixing member 122 when the base 15 is pushed toward the first end face 131, and the released fixing member 122 drives the blood taking needle 121 to move toward the first end face 131 until the blood taking needle 121 extends out of the through hole 132.

Referring to fig. 2 and 3, the base 15 includes a receiving groove 152 formed by a pair of elastic arms 151 disposed opposite to each other, wherein a stop portion 153 is disposed at an end portion of the elastic arms 151 facing the lancet 121, and the stop portions 153 are opposite to each other to clamp the fixing member 122; the pushing structure 17 includes at least one triggering portion 170, where the triggering portion 170 includes an extension strip 171 and a pushing area 172 integrated with the extension strip 171, the pushing area 172 is located on a side close to the first end face 131 relative to the extension strip 171, a guiding groove 1711 is provided on an inner wall of the extension strip 171 on a side close to the fixing piece 122, and a pushing inclined plane 173 is provided on an edge of the pushing area 172 facing the base 15.

Wherein, the fixing member 122 is provided with a guiding strip 1221 along the length direction, the guiding strip 1221 is located in the guiding groove 1711, and the fixing member 122 moves towards the first end face 131 along the guiding groove 1711 when the fixing member 122 is released.

As shown in fig. 4 and 5, in the present embodiment, when the base 15 is not pressed, the stopper 153 fixes the fixing member 122 in the accommodating groove 152 in a nearest state. After pressing the base 15, the base 15 moves toward the first end face 131 of the housing 16, at which time the extension bar 171 slides within the receiving groove 152. When the extension bar 171 continues to slide, the pushing inclined plane 173 contacts with the elastic wall, and the pushing inclined plane 173 pushes the elastic wall to spring away to two sides along the pushing inclined plane 173, at this time, the stop portion 153 on the elastic wall is pushed away, the spring pushes the fixing member 122 to drive the lancet 121 to pop out of the elastic wall and move towards the first end face 131, and the lancet 121 driven by the fixing member 122 stretches out of the through hole 132 under the action of elastic force, at this time, is in the farthest state; after that, the elastic potential energy disappears, the fixing piece 122 drives the blood taking needle 121 to retract into the box body 13, and the spring is in a natural state after retraction. The lancet 121 moves to the farthest state after being triggered in the initial nearest state and then retracts to the natural state, the whole process does not need manual operation, only the base 15 needs to be pressed to enable the base 15 to slide relative to the shell 16 for triggering, the whole structure is simple, the blood taking can be achieved through extending, and the automatic retraction is prevented from being pricked by mistake.

In this embodiment, the hair pushing structure 17 may be disposed on one inner side wall of the housing 16, or may be disposed on two inner side walls, and the two hair pushing structures 17 are disposed on two opposite side walls of the housing 16, respectively, and the elastic wall and the lancet assembly 12 are also sandwiched between the two hair pushing structures 17.

In the present utility model, the present peripheral blood collection test cartridge has various embodiments depending on the structure, detection mode, fixing position and number of test strips. The method comprises the following steps:

embodiment one:

referring to fig. 6, in the present embodiment, electrochemical test strips are used as the test strips in the peripheral blood collection test cassette.

One end of the test paper 11 having a detection area 110 is disposed near the via hole 132, the other end of the test paper 11 extends from one end of the detection area 110 and extends out of the housing 16, one end extending out of the housing 16 has a detection electrode 111, and the detection electrode 111 is electrically connected to the detection area 110.

As shown in fig. 7, the housing 16 is provided with a socket 161, and the socket 161 is used for passing through and fixing the corresponding detection electrode 111 of the test paper 11, so as to connect with the detection device 20 or the processing terminal to transmit the detection electric signal.

Wherein, a protrusion 162 is provided along the periphery of the plug port 161, and the protrusion 162 surrounds and fixes the plug port 161. After passing through the insertion opening 161, the detection electrode 111 is surrounded by the protrusion 162, and the protrusion 162 forms a protection structure of the detection electrode 111 and also forms a standard interface, so that the peripheral blood collection test kit 10 can play roles of fixing and position recognition when inserted into a detection device or a processing terminal.

Embodiment two:

as shown in fig. 9, in the present embodiment, the difference from the first embodiment is that a plurality of test strips 11 are provided in the same peripheral blood collection test cartridge 10.

Referring to fig. 8 and 9, each test paper 11 includes a through hole 112, the through hole 112 corresponds to and is electrically connected to the through hole 132, the detection region 110 is connected to or electrically connected to the through hole 112, and the peripheral blood flows into the detection region 110.

Wherein, a plurality of test strips 11 are stacked, and the through holes 112 of the plurality of test strips 11 are aligned with each other and conducted. It will be appreciated that when a plurality of strips 11 are provided, the placement of the detection zone 110 of a plurality of strips 11 around the lower portion of the through-hole 132 is a preferred embodiment to ensure that each strip 11 is able to obtain peripheral blood quickly.

In this embodiment, the through hole 112 may be disposed at a middle position of the detection area 110, and the detection areas 110 may be disposed at two sides of the through hole 112, or the through hole 112 may be disposed at one side of the detection area 110, so long as the collected peripheral blood can enter the detection area 110 through the through hole 112.

In the present embodiment, the lancet 121 is disposed below the plurality of through holes 112 after stacking, and when the trigger mechanism 14 triggers the lancet 121 to extend, the path formed by overlapping the plurality of through holes 112 extends through the through hole 132, and collection of peripheral blood can be completed.

In the present embodiment, a plurality of test strips 11 are preferably stacked to detect different detection contents, for example, three test strips 11 are provided to detect blood acid, blood glucose, and blood lipid in peripheral blood. In this embodiment, a plurality of different test results can be measured using the same peripheral blood collection test cassette, a single lancing event, and a single drop of blood.

As shown in fig. 10, when the test paper 11 has a plurality of test electrodes 111 of the plurality of test papers 11 extend out of the housing 16, a protrusion 162 is provided on the outer periphery of each of the test electrodes 111, and the protrusion 162 surrounds and fixes the test electrodes 111 to form a plurality of the plug-in ports 161.

As shown in fig. 11, in the present embodiment, when a plurality of test strips 11 are provided in the selected peripheral blood collection test cartridge 10, it is preferable that the test strip 11 has an extension region 114, the detection region 110 is connected to the extension region 114 in a conductive manner, the detection electrode 111 is provided at an end of the extension region 114 remote from the detection region 110, and the extension region 114 extends from the detection region 110 and extends to the housing 16.

The extension area 114 is a flexible circuit layer, and when the detection electrodes 111 are disposed on the housing 16 in different positions and distribution directions, the flexible circuit layer can implement the setting of the test paper 11 by bending, folding, steering, etc., so that the conventional hard test paper 11 is avoided from being used to perform distribution design on the setting positions of the detection electrodes 111.

Embodiment III:

referring to fig. 12 and 13, in the present embodiment, the difference from the second embodiment is that the plurality of test strips 11 included in the same peripheral blood collection test cartridge 10 do not include the through holes 112, and the plurality of test strips 11 are not stacked.

Specifically, the end portion of the test paper 11, which is close to the detection area 110, is a front end 115, the test paper 11 has a plurality of front ends 115 of the test papers 11, which are circumferentially distributed near the through hole 132, and the front ends 115 of the test papers 11 surround to form an avoidance hole 116, the avoidance hole 116 is located near the through hole 132, and after the blood taking needle 121 is triggered, peripheral blood flows into the detection area 110 through the avoidance hole 116.

In this embodiment, the plurality of test strips 11 are circumferentially distributed along the vicinity of the through hole 132, and the collected peripheral blood can rapidly enter the detection areas 110 of the plurality of test strips 11 at the same time. In addition, when the test strips 11 are arranged in a circumferential distribution manner, the number of the test strips 11 to be arranged can be flexibly selected, for example, when the number of the test strips 11 to be arranged is 4, the 4 test strips 11 are arranged at intervals of 90 degrees along the circumference; when 3 test strips 11 are required, three test strips 11 are disposed circumferentially at 120 °.

In this embodiment, the test strip 11 also includes an extension region 114, and the extension region 114 also has a flexible circuit layer, where the flexible circuit layer may be disposed such that the detection electrodes 111 of a plurality of test strips 11 are all disposed on the same side of the housing 16. At this time, when the peripheral blood collection test cartridge 10 is connected to the test device 20, only one insertion is required, and frequent insertion and removal are not required, so that the insertion port 161 is replaced.

Embodiment four:

as shown in fig. 14, the peripheral blood collection test kit 10 in the present embodiment is different from the peripheral blood collection test kit 10 of any one of the first to third embodiments in that the peripheral blood collection test kit 10 includes a first data processing module 18 and a first wireless communication module 19. The first data processing module 18 is electrically connected with the detection electrode 111 of the test paper 11, and the test paper 11 sends an electric signal for detecting peripheral blood to the first data processing module 18 for processing to form detection data; the first wireless communication module 19 receives the detection data and externally transmits the detection data through the first wireless communication module 19. The first wireless communication module 19 is an NFC communication module.

Fifth embodiment:

as shown in fig. 15, the difference between the present embodiment and the first to third embodiments is that the test strip 11 is a chemical detection test strip, and the test strip 11 includes a detection area 110 and a display area 113 with a chemical reagent connected to the detection area 110. The chemical reagent can show colors with different depths according to different concentrations of components in the detected peripheral blood, and the reading of a detection result can be realized by observing the colors and comparing with a comparison strip, or an electric signal is generated after the identification analysis of the colors shown by the optical detection module. The peripheral blood collection test cartridge 10 includes a cartridge body 13, the test paper 11, a lancet 121, and a trigger mechanism 14, wherein the trigger mechanism 14 has the same structure and operation as those of the first embodiment.

The box body is provided with a transparent observation window 134, the test paper is attached to the transparent observation window 134, particularly, the display area 113 of the test paper is arranged near the transparent observation window 134, and the detection result of the test paper on peripheral blood is observed or identified through the transparent observation window 134.

When the peripheral blood collection test box 10 needs to identify the color after detection by means of the optical detection module, the peripheral blood collection test box is close to the side wall of the optical detection test paper, a sliding groove 117 is formed along the length direction of the optical detection test paper, and the peripheral blood collection test box is slidably inserted into the optical detection module through the sliding groove 117 so as to realize peripheral blood spectrum analysis and achieve detection results.

Embodiment six:

referring to fig. 16, the present embodiment adds a sealing film 133 on the first to third embodiments. The sealing film 133 is disposed at the position of the via hole 132, and the sealing film 133 is used for sealing the via hole 132, so as to ensure that the test paper 11 is in a sealed state.

In this embodiment, after the production of the peripheral blood collection test kit 10 is completed, the test paper 11 and the lancet 121 inside the peripheral blood collection test kit 10 are in a sealed state, so that the lancet 121 and the test paper 11 can be ensured to be in a sterile environment for a long time, and when the trigger mechanism 14 is used, the sealing film 133 is pierced in the process that the lancet 121 extends out of the through hole 132 after the trigger mechanism is triggered, thereby realizing blood collection; meanwhile, the infection caused by environmental factors such as bacteria and the like can be avoided.

In this embodiment, when the sealing film 133 is used to seal the through hole 132, the air pressure inside the case 13 is smaller than the air pressure outside the case 13 before the first use, and once the lancet 121 pierces the skin of the fingertip, the negative pressure inside the lancet will push the peripheral blood to flow in as soon as possible, so that the blood collection is smoother, waiting is prevented, and the situation that the peripheral blood cannot flow into the detection area 110 is avoided.

In the utility model, the tip blood collection and test box 10 adopts the portable small-sized integrated technical scheme, and the blood taking needle 121 and the test paper 11 are hermetically integrated in the box body 10, so that the utility model has the following beneficial effects:

1. after the blood taking needle 121 and the test paper 11 are integrated, the management is convenient, as a provider of the peripheral blood collecting and testing box 10, the validity period of the test paper 11 in each peripheral blood collecting and testing box 10 can be managed, the peripheral blood collecting and testing box 10 put into the market is ensured to be in the validity period of the test paper 11, and a detector is not required to check and replace regularly.

2. The peripheral blood collection test box 10 is independently designed, and a purchaser can purchase corresponding quantity according to own use requirement at will, so that the box forming or can forming collocation sales does not exist, and the waste of actual use is reduced.

3. After the peripheral blood collection test cartridge 10 collects blood, blood exists inside; the peripheral blood collection test cartridge 10 is easier to dispose of after disposal as a medical waste, and does not present the problem of cross-infection of blood due to the needle puncturing the skin of another person.

4. When the peripheral blood collection is carried out on a plurality of people, the peripheral blood collection test box 10 marked with the identity information of the collectors can be distributed, each collector can singly carry out peripheral blood collection and then collect the peripheral blood, the detection results are read in batches after the collection, queuing is not needed, registration is carried out, the limitation of registration time and position of the detector by a detection mechanism is avoided, and the peripheral blood collection test box can be put in a wider social crowd.

5. For the collector, the blood taking needle 121 and the test paper 11 are designed integrally, the collector does not need to perform needling, blood dripping and test paper inserting operations, the operation is simpler and more convenient, and the situation that a part of collectors are difficult to operate by individuals is overcome.

The utility model additionally discloses a cloud service system 101, wherein the cloud service system 101 also comprises various embodiments according to the difference of the adopted peripheral blood collection test box 10. Specifically, the following is adopted.

Embodiment seven:

as shown in fig. 17, wherein the cloud service system 101 includes the peripheral blood collection test cartridge 10, the detection device 20, the detection database 30, and the mobile terminal 40 in the first to third embodiments.

Specifically, the detecting device 20 is electrically connected to the peripheral blood collection test kit 10 through a detecting electrode 111, so as to obtain the detection data of the peripheral blood collection test kit 10, and process the detection data to form a detection result. The electrical connection referred to herein refers to a conductive line connection by means of an interface or the like or a contact connection of the socket 161. The test paper 11 in the peripheral blood collection test box 10 is an electrochemical test paper, and the electrochemical test paper can detect components in blood and generate corresponding electric signals, and the electric signals are sent to the detection device 20 in an electric connection mode. Wherein the detection device 20 processes the detected electric signals according to an internal data processing mode, and the processing comprises data correction, identification, verification and the like of detection items corresponding to the detection data. The detection result formed after the detection data processing by the detection device 20 includes the numerical value of the detection item, such as the blood glucose level; negative or positive judgment values of the detection items may also be included, for example: blood acid is positive when it exceeds medical criteria and negative when it does not meet medical criteria.

In the present utility model, the detection database 30 is communicatively connected to the detection device 20, and the detection database 30 is configured to receive the detection result of the detection device 20 and form a detection record. The detection record includes an identifier corresponding to the detection device 20, where the identifier may include a hardware address, or identifier information or ID corresponding to an account number of the corresponding detection device 20; the method can also comprise detection time, detection items and detection results. In a preferred embodiment, the detection record further includes detection results of the passing of the inspector, including the frequency of detection, and the detection result after each detection.

In the present utility model, the mobile terminal 40 is communicatively connected to the detection database 30, and the mobile terminal 40 views or acquires the detection record through the health server 50. Wherein the mobile terminal 40 includes other electronic devices such as smartphones with communication capabilities, e.g., computers, tablets, etc. When the mobile terminal 40 communicates with the detection database 30, the detector is connected with the detection database 30 after the identity recognition on the mobile terminal 40, and the detection database 30 correspondingly searches out the stored detection record of the detector according to the identity recognition information. The identity information of the inspector is stored in the inspection record, and the inspection record is sent to the corresponding mobile terminal 40 after the identity authentication.

After the cloud service system is adopted for chronic patients, the peripheral blood collection and test box 10 can rapidly read the detection result by using the detection equipment 20, and can acquire the detection record of the past of the patient from the far end by using the mobile terminal 40, so that the patient can monitor the life work and the diet of the patient without going to a medical institution regularly, thereby realizing the guidance and the management of chronic diseases and being beneficial to the cure of the chronic diseases.

The cloud service system 101 in this embodiment further includes a health server 50, where the health server 50 is configured to obtain the detection database 30, analyze and process health status according to the detection result of the detection database 30, and form a health guide; the mobile terminal 40 is communicatively connected to the health server 50 to obtain the health instruction.

When the peripheral blood collection test box 10 is electrically connected with the detection device 20, the detection electrode 111 disposed at the other end of the test paper 11 in the peripheral blood collection test box 10 extends out of the housing 16 and is plugged into the detection device 20 through the housing 16.

Wherein the detection device 20 comprises: the device body 21 is inserted into the female port 22. The female plug 22 is disposed on the device body 21. The peripheral blood collection test box 10 comprises the plug-in port 161, and the test paper 11 extends out of the collection test box 10 through the plug-in port 161; the plug-in port 161 is connected with the plug-in female port 22, and the plug-in female port 22 corresponds to the plug-in port 161 in position; the position of the plug-in connection 161 enables the peripheral blood collection test cassette 10 to be connected to the plug-in female connection 22 in a corresponding manner with respect to a single insertion direction and position.

In this embodiment, the peripheral blood collection test box 10 is plugged into the test device 20, the test device 20 is turned on and is connected with the test paper 11, the base 15 is pressed according to the prompt of the test device 20, the base 15 is enabled to move to trigger the blood taking needle 121 to complete collection of peripheral blood, the test paper 11 is used for detecting the peripheral blood, and the detection signal is connected into the test device 20 through the detection electrode 111 of the test paper 11, so that the detection of peripheral blood data is realized.

As shown in fig. 18, the detecting apparatus 20 further includes: the device comprises a detection processing module 23, a display module 24 and a storage recording module 25.

The detection processing module 23 receives the detection data of the peripheral blood collection and test box 10, processes and corrects the detection data and outputs a detection result; the display module 24 is connected with the detection processing module 23 and is used for displaying the detection result; the storage recording module 25 is configured to store the detection result and record a detection time, so as to form a detection record.

In this embodiment, the testing device 20 may be a portable blood routine testing device, a blood glucose meter, or other desktop testing device 20 having a corresponding testing processing module 23. The insertion port 161 of the peripheral blood collection test cartridge 10 is inserted into the detection device 20 in the only insertion direction, so that the occurrence of the situation that the insertion port 161 of the peripheral blood collection test cartridge with the test paper 11 is not aligned and cannot be inserted can be prevented.

Wherein the detection device 20 further comprises a communication module 26, the communication module 26 is connected to the internet to send the detection record and obtain the internet service. The acquired internet service comprises health push results or health guidance and the like which are acquired according to the detection results.

As shown in fig. 19, in the present embodiment, when the peripheral blood collection test cartridge having a plurality of test strips in the second embodiment or the third embodiment is selected as the cloud service system, the plurality of plug-in ports 161 are also provided. A plurality of female plug-in ports 22 are also arranged on the detection device 20, wherein the number of female plug-in ports 22 is the same as that of the female plug-in ports 161, and the positions of the female plug-in ports correspond to those of the female plug-in ports. The plurality of plug-in openings 161 are positioned such that the peripheral blood collection test cassette 10 is correspondingly connected to the plug-in female openings 22 in a single insertion direction and position. For example, the plurality of plugging ports 161 and the plugging female port 22 are arranged on the housing 16 in an equilateral triangle shape or in a staggered manner, and when the triangular arrangement is adopted, only if the plugging direction of the plugging port 161 is consistent with the plugging female port 22 and the positions are opposite, the peripheral blood collection test cartridge 10 can be plugged on the plugging female port 22 according to a specific direction. The insertion port 161 of the peripheral blood collection test cartridge 10 is inserted into the detection device 20 in a unique insertion direction, so that the situation that the insertion port 161 of the peripheral blood collection test cartridge with a plurality of test papers 11 is not inserted and not aligned and cannot be inserted can be prevented. In particular, when the detection items of the plurality of test strips 11 are different, erroneous insertion is prevented. For example, the test paper 11 for detecting blood sugar can be prevented from being plugged into the plug female port 22 for receiving blood fat data, manual alignment is not needed in this way, and the plug method is simple and convenient to operate.

In this embodiment, the detection processing module 23 acquires the detection data of the plurality of detection electrodes 111 simultaneously to form a plurality of different detection results, and the display module 24 displays the plurality of detection results simultaneously, which is more convenient and faster.

In the present embodiment, when the test strip 11 in the selected peripheral blood collection test cartridge 10 has a plurality of test strips 11, it is preferable that the test strip 11 has an extension 114, wherein the extension 114 is a flexible circuit layer, when the detection electrodes 111 are disposed on the housing 16 in different positions and distribution directions, the flexible circuit layer can realize the disposition of the test strip 11 by bending, folding, turning, etc., avoiding that the conventional hard test strip 11 cannot perform the distribution design of the disposition positions of the detection electrodes 111, thereby making it difficult to realize the connection with the detection device 20 in a unique direction.

In the present embodiment, if the peripheral blood collection test cartridge 10 is provided with only one test paper 11, the housing 16 is provided with two plug-in ports 161, wherein only one of the plug-in ports 161 is provided with the test paper 11; while the periphery of the two plug-in ports 161 is provided with the protrusions 162, the detection equipment 20 is provided with the two plug-in female ports 22, and meanwhile, the plug-in ports 161 of the peripheral blood collection test box are inserted in a unique mode relative to the plug-in female ports 22 through the protrusions 162; in this case, the peripheral blood collection test kit 10 has only the detection electrode 111 of one test strip 11 connected to one of the female plug-in ports 22, and the other female plug-in port 22 is in a plugged-in but empty unconnected state, so that the detection device 20 only needs to detect the test strip 11 on the female plug-in port 22 plugged with the test strip 11, and the same detection device 20 realizes the adaptation of the peripheral blood collection test kit with two different numbers of female plug-in ports 161.

Similarly, when the test device 20 has more female connectors 22, and the number of the female connectors 161 and the test strips 11 on the peripheral blood collection test cassette is smaller than that of the female connectors 22, and the peripheral blood collection test cassette is ensured to be inserted into the test device 20 according to a specific and unique insertion mode, the test device 20 can adapt to peripheral blood collection test cassettes of different numbers of test strips 11.

Embodiment eight:

as shown in fig. 20 and 21, the present utility model also discloses another cloud service system 102, which includes the peripheral blood collection test kit 10, the detection device 20, the detection database 30, and the mobile terminal 40 according to the fifth embodiment. The detection device 20 further comprises an optical detection module 27, a detection processing module 23, a display module 24 and a storage recording module 25, wherein the optical detection module is used for identifying the color of the peripheral blood on the chemical detection test paper after reaction so as to obtain a detection result.

The display module 24 is connected with the detection processing module 23 and is used for displaying the detection result; the storage recording module 25 is configured to store the detection result and record a detection time, so as to form a detection record.

Wherein the detection device 20 further comprises a communication module 26, the communication module 26 is connected to the internet to send the detection record and obtain the internet service. The acquired internet service comprises health push results or health guidance and the like which are acquired according to the detection results.

The peripheral blood detection box is inserted into the detection device 20 through the sliding groove 117, so that the optical detection module is close to the chemical detection test paper, the color on the chemical detection test paper is identified, a detection signal is determined according to the identified color, and the detection signal is sent to the detection processing module to form a final detection result after being processed.

As shown in fig. 22, in the present embodiment, when the detecting device 20 does not have the optical detecting module 27, a user manually inputs a detection result corresponding to the color displayed in the peripheral blood collection test cartridge 10 after the alignment with the alignment card through the detecting device 20. The input detection results can be respectively input with the detection contents of a plurality of different items according to the different test papers. The detection device 20 in the present embodiment may be a mobile terminal 40, a portable blood glucose meter, an oximeter, or the like.

In the present utility model, the detection database 30 is communicatively connected to the detection device 20, and the detection database 30 is configured to receive the detection result of the detection device 20 and form a detection record. The detection record includes an identifier corresponding to the detection device 20, where the identifier may include a hardware address, or identifier information or ID corresponding to an account number of the corresponding detection device 20; the method can also comprise detection time, detection items and detection results. In a preferred embodiment, the detection record further includes detection results of the passing of the inspector, including the frequency of detection, and the detection result after each detection.

In the present utility model, the mobile terminal 40 is communicatively connected to the detection database 30, and the mobile terminal 40 views or acquires the detection record through the health server 50. Wherein the mobile terminal 40 includes other electronic devices such as smartphones with communication capabilities, e.g., computers, tablets, etc. When the mobile terminal 40 communicates with the detection database 30, the detector is connected with the detection database 30 after the identity recognition on the mobile terminal 40, and the detection database 30 correspondingly searches out the stored detection record of the detector according to the identity recognition information. The identity information of the inspector is stored in the inspection record, and the inspection record is sent to the corresponding mobile terminal after identity authentication.

Embodiment nine:

as shown in fig. 23, the present utility model also discloses another cloud service system 103, where the cloud service system 103 includes any one of the first to third embodiments and the sixth embodiment of the peripheral blood collection test kit 10, the processing terminal 60, and the mobile terminal 40.

Wherein, the processing terminal 60 is used for plugging the peripheral blood collection test box 10 and is electrically connected with the detection electrode 111 of the test paper 11, and the processing terminal 60 comprises a second data processing module 61 and a second wireless communication module 62.

The second data processing module 61 is connected to the detection electrode 111 in a conductive manner, so as to obtain a detection signal of the detection electrode 111, and process the detection signal into a wireless signal; the second wireless communication module 62 receives the wireless signal and transmits the wireless signal to the outside through the second wireless communication module 62.

Wherein the mobile terminal 60 is communicatively connected to the second data processing module 62 to wirelessly acquire wireless signals of the processing terminal.

In this embodiment, a user may purchase a peripheral blood collection test cartridge 10 and be provided with one of the processing terminals 60. When the peripheral blood collection test box 10 needs to be detected, the peripheral blood collection test box 10 is inserted into the processing terminal 60, the detection electrode 111 of the test paper 10 is connected with the processing terminal 60, and the processing terminal 60 processes the detection signal and then transmits the detection signal to the paired mobile terminal 40 in a radio signal mode. This approach may enable on-cloud output preservation by means of the processing terminal 60 for peripheral blood detection, intelligent viewing in real time, while further applications may be implemented by means of the loaded application program in the mobile terminal 40, such as: and (3) sharing detection results and records, and detecting uploading, interaction, social interaction and the like of data and actions.

In this embodiment, the processing terminal 60 is an electronic device that can be recycled for a long time, and the peripheral blood collection test kit 10 is a disposable product, and after each test, the peripheral blood collection test kit 10 is only required to be plugged into the processing terminal to complete data acquisition and uploading once.

In this embodiment, the second wireless communication module 62 is an NFC communication module, and the NFC communication module converts the electrical signal and sends the converted electrical signal to the reading device or the mobile terminal 40 to obtain the detection data.

In this embodiment, when purchasing the processing terminal 60, the user may write the identity information into the NFC communication module in advance according to the identity of the user, and after the processing terminal 60 obtains the detection data of the peripheral blood collection test box, the detection data and the identity information are sent to the mobile terminal 40 together, so as to realize identity authentication, and the whole authentication process is simple and easy to realize.

Embodiment ten:

referring to fig. 24, the present utility model also discloses another cloud service system 104, where the cloud service system 104 includes the peripheral blood collection test box 10 in the fourth embodiment, and the first communication module 19, that is, the NFC communication module converts the electrical signal and sends the converted electrical signal to the detection device 20 or the mobile terminal 40 to obtain detection data. The NFC communication module is triggered to operate by an electrical control structure 135, where the electrical control structure 135 includes a key.

The peripheral blood collection test cartridge 10 according to the present embodiment has a wireless communication function. When the user performs peripheral blood collection, the first data processing module 18 and the first wireless communication module 19 are triggered by the electric control structure 135, and the first data processing module 18 and the first wireless communication module 19 are mainly powered on by the electric control structure 135 to start working, and meanwhile, the blood taking needle 121 is triggered according to the triggering mode to perform detection. After detection, the electrical signal on the detection electrode 111 of the test paper 11 is sent to the first data processing module 18 and the first wireless communication module 19, and the peripheral blood collection test cartridge 10 sends the detection result to the outside as a wireless signal.

Wherein the cloud service system 104 further comprises a mobile terminal 40, the mobile terminal 40 is configured with a wireless communication module 41, the mobile terminal 40 wirelessly communicates with the peripheral blood collection test kit 10 to acquire detection data of the peripheral blood collection test kit 10, and forwards the peripheral blood detection data to the outside.

Wherein the mobile terminal 40 is a smart phone, and the wireless communication module 41 includes an NFC receiving module.

In this embodiment, the peripheral blood collection test kit 10 is connected to the detection device 20 without any plugging, and may be connected by wireless communication; the mobile terminal 40 may be optimized to be a device capable of reading the detection data of the first wireless communication module 19, for example, a smart phone, a computer, or the like, in which the peripheral blood detection software is installed.

In this embodiment, the mobile terminal 40 may also be a desktop device, and when the peripheral blood collection test kit 10 with wireless communication detects peripheral blood collection test kit 10 is sequentially placed at the wireless data reading position of the desktop device, the reading of the monitoring data can be achieved without additional plugging.

In this embodiment, the NFC communication module is adopted as a manner of sending data to the outside of the peripheral blood collection and test box, before detection, the identity information of the inspector can be written into the NFC module, after the peripheral blood collection and test box 10 is detected, the detection result and the identity information can be directly read through the detection device 20 or the mobile terminal 40, so that the problem of re-inputting the detection information and the identity information is avoided. In addition, when the peripheral blood collection test cassette 10 is distributed to a plurality of persons, the peripheral blood collection is performed and then the detection results of the plurality of persons can be obtained by unified reading, and queuing is not required.

In particular, when the test paper 11 in the peripheral blood collection test box 10 is a genetic test paper such as nucleic acid, the detection can be realized in a large area by adopting a distribution mode, and the queuing waiting of personnel in a specific closed space is not required, so that the peripheral blood collection test box is particularly suitable for screening epidemic situations and preventing the transmission of infectious diseases.

In this embodiment, the mobile terminal 40 can realize online and cloud transmission and storage of data.

Embodiment eleven:

the utility model also discloses another cloud service system 105, and the cloud service system 105 comprises the peripheral blood collection test box 10, the processing terminal 60 and the mobile terminal 40 in the fifth embodiment. The processing terminal comprises an optical detection module 63, a third data processing module 64 and a third wireless communication module 65. The third data processing module 64 is connected with the optical detection module 63 in a conducting manner, so as to obtain a detection signal on the optical detection module 63, and process the detection signal into wireless data; the third wireless communication module 64 receives the wireless data and transmits the wireless data to the outside through the third wireless communication module 64.

In this embodiment, the processing terminal 60 uses its own optical detection module 63 to analyze the color on the chemical detection test paper, so as to form a detection signal, processes the detection signal by the third data processing module 65, and finally forms a detection result, and wirelessly transmits the detection result to the mobile terminal 40, and the mobile terminal 40 uses an internal software program to analyze and display the result.

The third wireless communication module 65 in the processing terminal 60 is preferably an NFC communication module, and the NFC communication module converts the electrical signal and sends the converted electrical signal to the reading device or the mobile terminal 40 to obtain the detection data.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the scope of the present utility model, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made to the technical solution of the present utility model without departing from the spirit and scope of the technical solution of the present utility model.

Claims (36)

1. Peripheral blood collection test kit, its characterized in that, collection test kit includes:

the box body comprises a first end face, and a through hole is formed in the first end face;

the test paper comprises a detection area, and the detection area is positioned near the via hole;

the blood taking needle is positioned in the box body, is arranged towards the through hole and is positioned below the through hole;

the trigger mechanism is arranged in the box body, the blood taking needle is controlled by the trigger mechanism, and the trigger mechanism drives the blood taking needle to extend out of the conducting hole when in trigger so as to puncture the fingertip skin placed on the first end face and retract the box body rapidly;

Wherein, tip blood channel of fingertip enters the detection zone to realize detection.

2. The peripheral blood collection test cartridge of claim 1, wherein the test strip comprises a through-hole opposite or in communication with the through-hole, the detection zone being connected or in communication with the through-hole, the peripheral blood flowing into the detection zone through the through-hole or the through-hole.

3. The peripheral blood collection test kit of claim 1, wherein the test strip has a plurality of the test strips stacked.

4. The peripheral blood collection test kit of claim 2, wherein the test strip has a plurality of the test strips, a plurality of the test strips being stacked, the plurality of test strip through-holes being aligned with each other and being in communication.

5. The peripheral blood collection test cassette of claim 1, wherein the first end surface is provided with a recess for facilitating finger pressing and bleeding, and the via is provided at the bottom of the recess.

6. The peripheral blood collection test cartridge of claim 1, wherein the through-hole site is provided with a sealing membrane for sealing the through-hole, thereby ensuring that the test paper is in a sealed state.

7. The peripheral blood collection test cartridge of claim 6, wherein the air pressure inside the cartridge body is less than the air pressure outside the cartridge body.

8. The peripheral blood collection kit of claim 1, wherein the peripheral blood collection kit comprises:

a lancet assembly including the lancet and a fixing member to which the lancet is mounted;

the base is used for elastically mounting the fixing piece, limiting the fixing piece so that the fixing piece is clamped by the base before triggering, releasing the blood taking needle to move to the most far end after triggering, and retracting the blood taking needle after moving to the most far end;

the blood taking needle assembly comprises a blood taking needle assembly, a blood taking box body and a blood taking box body, wherein the blood taking box body comprises a shell, the shell is arranged on a base, the shell is provided with a first end face, the base is in sliding connection relative to the shell, the sliding direction of the base faces to the first end face, and the blood taking needle assembly is arranged between the shell and the base;

the inner wall of the shell is provided with a hair pushing structure, the hair pushing structure faces the base, the hair pushing structure is partially inserted into the base, the fixing piece is guided in the hair pushing structure and triggered to release the fixing piece when the base is pushed towards the first end face, and the released fixing piece drives the blood taking needle to move towards the first end face until the blood taking needle stretches out of the through hole;

The triggering mechanism comprises the base and the pushing structure;

one end of the test paper is provided with a detection area, the other end of the test paper extends from one end of the detection area and extends out of the shell, one end of the test paper extending out of the shell is provided with a detection electrode, and the detection electrode is electrically connected with the detection area.

9. The peripheral blood collection test cassette of claim 8, wherein the base comprises a receiving groove formed by a pair of opposing resilient walls, the resilient walls being provided with stop portions toward the ends of the lancet, the stop portions opposing each other to sandwich the fixture;

the pushing structure comprises at least one triggering part, the triggering part comprises an extension bar and a pushing area integrated with the extension bar, the pushing area is positioned at one side of the first end face relative to the extension bar, a guide groove is formed in the inner wall, close to one side of the fixing piece, of the extension bar, and a pushing inclined surface is formed in the edge, facing the base, of the pushing area;

the fixing piece is provided with a guide strip along the length direction, the guide strip is located in the guide groove, and when the fixing piece is released, the fixing piece moves towards the first end face along the guide groove.

10. A peripheral blood collection test cartridge according to claim 1 or claim 2 wherein the test strip is an electrochemical test strip having a detection electrode electrically or communicatively connected to a detection device or processing terminal.

11. The peripheral blood collection test kit of claim 8, wherein the housing is provided with at least one interface for passing and securing the test strip corresponding detection electrode to interface with a detection device or processing terminal to deliver a detection electrical signal.

12. The peripheral blood collection test kit of claim 11, wherein the test strip has a plurality of said plug-in connectors, each of said plug-in connectors being adapted to pass through and secure a corresponding test electrode of one of said test strips, the test electrodes of a plurality of said test strips being adapted to individually transmit a test electrical signal.

13. A peripheral blood collection test kit according to claim 11 or 12, wherein a protrusion is provided along the periphery of the hub, the protrusion surrounding and securing the hub.

14. A peripheral blood collection test cartridge according to any one of claims 1 to 9 or 11 or 12, wherein the test strip has an elongate region, the test strip being in conductive communication with the elongate region, the elongate region being provided with a test electrode at an end remote from the test strip, the elongate region extending from the test strip and out to the housing of the peripheral blood collection test cartridge.

15. The peripheral blood collection test kit of claim 12, wherein the end of the test strip adjacent to the detection zone is a front end, the test strip has a plurality of test strips, the front ends of the plurality of test strips are circumferentially distributed near the through hole, the front ends of the plurality of test strips are surrounded to form an avoidance hole, the avoidance hole is located near the through hole, and peripheral blood flows into the detection zone through the avoidance hole after the lancet is triggered.

16. The peripheral blood collection kit of claim 1, wherein the collection kit comprises:

the test paper sends an electric signal for detecting peripheral blood to the first data processing module for processing to form detection data;

the first wireless communication module receives the detection data and sends the detection data to the outside through the first wireless communication module.

17. The peripheral blood collection test kit of claim 16, wherein the first wireless communication module is an NFC communication module that converts the electrical signal and transmits the converted electrical signal to a processing terminal or a detection device to obtain the detection data.

18. The peripheral blood collection test kit of claim 17, wherein the NFC communication module is activated to operate by an electrical control structure, the electrical control structure comprising a key.

19. The peripheral blood collection test kit according to claim 1 or 2, wherein the test paper is a chemical test paper or an optical test paper, a transparent observation window is provided on the kit body, the test paper is attached to the transparent observation window, and the test result is observed or detected through the transparent observation window.

20. The peripheral blood collection assay cartridge of claim 19, wherein the test strip is an optical test strip; the peripheral blood test box is close to the side wall of the optical test paper, a sliding groove is formed in the length direction of the optical test paper, and the peripheral blood test box is inserted into the optical test module in a sliding manner through the sliding groove, so that peripheral blood spectral analysis is achieved, and a test result is achieved.

21. A processing terminal for plugging into the peripheral blood collection test cartridge of claim 1 and electrically connected to a test electrode of the test strip, the test electrode in conductive communication with a test area of the test strip, the processing terminal comprising:

The second data processing module is connected with the detection electrode in a conducting way so as to acquire a detection signal of the detection electrode and process the detection signal into wireless data;

and the second wireless communication module is used for receiving the wireless data and transmitting the wireless data to the outside through the second wireless communication module.

22. The processing terminal of claim 21, wherein the second wireless communication module is an NFC communication module that converts an electrical signal and sends the converted electrical signal to a reading device or a mobile terminal to obtain the detection data.

23. A processing terminal for plugging a peripheral blood collection test cartridge according to claim 20, said processing terminal comprising an optical detection module for color analysis of peripheral blood on said test strip to output a detection signal.

24. The processing terminal of claim 23, wherein the processing terminal comprises:

the third data processing module is connected with the optical detection module in a conducting way so as to acquire detection signals of the optical detection module and process the detection signals into wireless data;

And the third wireless communication module is used for receiving the wireless data and transmitting the wireless data to the outside through the third wireless communication module.

25. The processing terminal of claim 24, wherein the third wireless communication module is an NFC communication module, and the NFC communication module converts the electrical signal and sends the converted electrical signal to a reading device or a mobile terminal to obtain the detection data.

26. Detection apparatus, characterized in that it comprises:

an apparatus body for connecting the test paper in the peripheral blood collection test cartridge of claim 1;

the plugging female port is arranged on the equipment body;

the peripheral blood collection and test box comprises at least one plug-in port, at least one test paper extends out of the collection and test box through the plug-in port, and a plurality of plug-in ports are regularly arranged; the plug-in interface is connected with the plug-in female interface, and the plug-in female interface corresponds to the plug-in interface in position; the plurality of plug-in ports are positioned so that the peripheral blood collection test box is correspondingly connected with the plug-in female port according to the unique insertion direction.

27. The detection apparatus according to claim 26, wherein the detection apparatus comprises:

the detection processing module receives detection data of the peripheral blood collection test box, processes and corrects the detection data and outputs at least one detection result;

the display module is connected with the detection processing module and used for displaying at least one detection result;

and the storage recording module is used for storing the detection result and recording the detection time to form a detection record.

28. The test device of claim 27, further comprising a communication module coupled to the internet to send the test record and obtain internet service.

29. A testing device for testing a peripheral blood collection test cassette according to claim 19, said testing device comprising:

the optical detection module is used for detecting peripheral blood on the optical detection test paper;

the detection processing module receives detection data of the peripheral blood collection test box, processes and corrects the detection data and outputs at least one detection result;

The display module is connected with the detection processing module and used for displaying at least one detection result;

and the storage recording module is used for storing the detection result and recording the detection time to form a detection record.

30. Cloud service system, characterized in that, the cloud service system includes:

a peripheral blood collection test kit according to any one of claims 1 to 15;

the test device of any one of claims 26-28, wherein the test device is electrically connected to the peripheral blood collection test cassette to obtain test data from the peripheral blood collection test cassette and process the test data to form a test result;

the detection database is in communication connection with the detection equipment and is used for receiving the detection result of the detection equipment and forming a detection record;

and the mobile terminal is in communication connection with the detection database, and the mobile terminal checks or acquires the detection record through the health server.

31. The cloud service system of claim 30, further comprising a health server for obtaining said detection database and analyzing and processing health status according to the detection result of said detection database to form health guidelines; the mobile terminal is in communication connection with the health server to obtain the health guidance.

32. Cloud service system, characterized in that, the cloud service system includes:

a peripheral blood collection test kit as claimed in any one of claims 16 to 18;

a mobile terminal configured with a wireless communication module, the mobile terminal in wireless communication with the peripheral blood collection test cassette to acquire test data of the peripheral blood collection test cassette and forward the peripheral blood test data externally.

33. Cloud service system, characterized in that, the cloud service system includes:

a peripheral blood collection test kit according to any one of claims 1 to 15;

the processing terminal of claim 21, wherein the peripheral blood collection kit is plugged onto the processing terminal, the processing terminal being configured to convert detection signals formed by the peripheral blood collection kit into wireless data;

a mobile terminal configured with a wireless communication module, the mobile terminal in wireless communication with the processing terminal to acquire wireless data of the peripheral blood collection test cassette and forward the wireless data externally.

34. Cloud service system, characterized in that, the cloud service system includes:

A peripheral blood collection kit as in claim 20;

a processing terminal according to claim 23 or 24;

the mobile terminal is configured to have a wireless communication module, and is in wireless communication with the processing terminal to acquire wireless data of the processing terminal and forward the wireless data to the outside.

35. The cloud service system of claim 33 or 34, wherein the mobile terminal is a smart phone and the wireless communication module comprises an NFC receiving module.

36. Cloud service system, characterized in that, the cloud service system includes:

a peripheral blood collection cassette as in claim 20;

the test device of claim 29, wherein the optical test module of the test device is configured to analyze an optical test strip in the peripheral blood test cassette to obtain a test result.