CN112326558A - Breast milk analyzer - Google Patents

Abstract

The invention discloses a breast milk analyzer, which comprises an analyzer body and a controller, wherein the controller comprises a processor, a disinfection heating module, a data acquisition module, a standby power supply module, a data storage module, a display regulation module and a drive control module; the invention is provided with the disinfection heating module, which can automatically judge the closing state of the upper box cover of the sample box and adjust the temperature to a preset analysis temperature value, thus being beneficial to improving the accuracy of breast milk analysis; the invention is provided with the data acquisition module, and the data acquisition module is used for judging the category of the breast milk from the density, and then judging whether the breast milk monitoring data is qualified or not, wherein the data acquisition module can clearly display the category and the quality of the breast milk; the invention is provided with the display adjusting module which is used for displaying breast milk monitoring data and setting a preset threshold value, so that the data result of the invention is simple and easy to understand and the operation is simple.

Description

Breast milk analyzer

Technical Field

The invention belongs to the technical field of breast milk analysis, and particularly relates to a breast milk analyzer.

Background

The breast milk analyzer adopts a high-precision detection technology and accurately measures the components of the milk at each stage of the mother.

When the original breast milk analyzer carries out sample adding analysis operation, a container filled with a sample is directly placed in the groove, so that the sample is unsafe and inconvenient to operate, and meanwhile, the sample box is sterilized and temperature-regulated before analysis by the fresh breast milk analyzer, so that the breast milk analysis result is inaccurate, and therefore the existing breast milk analyzer still needs to be further improved.

Disclosure of Invention

In order to solve the problems of the above solutions, the present invention provides a breast milk analyzer.

The purpose of the invention can be realized by the following technical scheme: the breast milk analyzer comprises an analyzer body and a controller;

the controller comprises a processor, a disinfection heating module, a data acquisition module, a standby power supply module, a data storage module, a display regulation module and a drive control module;

the disinfection heating module is used for providing a suitable environment for breast milk analysis, and comprises the following specific steps:

z1: obtaining the light intensity inside the sample box body, and marking the light intensity as GQ;

z2: acquiring a preset light intensity threshold YGQ from the data storage module through the processor, and sending a disinfection instruction to the drive control module through the processor when the light intensity GQ is less than or equal to YGQ; the driving control module is used for disinfecting the sample box body through the disinfection unit;

z3: after the disinfection instruction is sent for T1 minutes, obtaining a temperature value inside the sample box body, and marking the temperature value as WD; the method comprises the steps that a preset temperature threshold value YWD is obtained from a data storage module through a processor, when a temperature value WD is greater than YWD + alpha or WD is smaller than YWD-alpha, a temperature adjusting instruction is sent to a driving control module through the processor, the driving control module adjusts the temperature inside a sample box body through a temperature adjusting unit, when the temperature value WD-alpha is smaller than or equal to WD and smaller than or equal to YWD + alpha, a temperature adjusting temporary instruction is sent to the driving control module through the processor, and an analysis starting instruction is sent to a data acquisition module through the processor; wherein T1 is a preset time threshold, α is a preset scaling factor, and 0< α < 0.3;

the data acquisition module is used for obtaining the monitoring data of breast milk, the data acquisition module includes ultrasonic detection unit and data analysis unit, and concrete collection step is:

x1: after receiving an analysis starting instruction, the data acquisition module acquires breast milk monitoring data through the ultrasonic detection unit and sends the monitoring data to the data analysis unit;

x2: the fat content, protein content, lactose content, moisture content, density and mineral content are labeled ZF, DBZ, RT, SF, MD and KWZ, respectively;

x3: the classification and quality of breast milk are judged by a density analysis method.

Preferably, the density analysis method in X3 comprises the following steps:

c1: when the beta 1 is not less than MD < beta 2, a colostrum component preset threshold value is obtained through the data storage module, when the fat content, the protein content, the lactose content, the moisture content and the mineral content all meet the colostrum component preset threshold value, a report printing instruction is sent to the driving control module through the processor, and a grade-III quality grade instruction is sent to the display adjusting module; wherein beta 1 and beta 2 are colostrum density preset threshold values;

c2: when the beta 3 is more than or equal to MD and less than beta 4, a preset threshold value of the transitional milk component is obtained through the data storage module, when the fat content, the protein content, the lactose content, the moisture content and the mineral content all meet the preset threshold value of the transitional milk component, a report printing instruction is sent to the driving control module through the processor, and meanwhile, a level II quality grade instruction is sent to the display adjusting module; wherein beta 3 and beta 4 are preset threshold values of the transitional milk density;

c3: when the beta 5 is more than or equal to MD and less than beta 6, acquiring a mature milk component preset threshold value through a data storage module, when the fat content, the protein content, the lactose content, the moisture content and the mineral content all meet the mature milk component preset threshold value, sending a report printing instruction to a driving control module through a processor, and simultaneously sending a grade I quality grade instruction to a display adjusting module; wherein beta 5 and beta 6 are preset threshold values of the density of the mature milk;

c4: when the beta 7 is more than or equal to MD < beta 8, acquiring a preset late milk component threshold value through a data storage module, when the fat content, the protein content, the lactose content, the moisture content and the mineral content all meet the preset late milk component threshold value, sending a report printing instruction to a driving control module through a processor, and simultaneously sending an IV-level quality grade instruction to a display adjusting module; wherein beta 7 and beta 8 are preset threshold values of the late milk density; and β 2> β 1> β 4> β 3> β 6> β 5> β 8> β 7;

c5: when the beta 2 is not more than MD or the MD is less than beta 7, a sample error instruction is sent to the display adjusting module through the processor; and the drive control module prints the report after receiving the report printing instruction.

Preferably, the display adjusting module is used for displaying breast milk monitoring data and setting a threshold value, wherein the threshold value comprises a preset light intensity threshold value, a preset temperature threshold value, a preset time threshold value, a colostrum component preset threshold value, a transitional milk component preset threshold value, a mature milk component preset threshold value and a late milk component preset threshold value.

Preferably, the breast milk monitoring data includes fat content, protein content, lactose content, moisture content, density, and mineral content.

Preferably, the report includes fat content, protein content, lactose content, moisture content, density, mineral content, and milk quality grades, the milk quality grades include grade i milk quality grade, grade ii milk quality grade, grade iii milk quality grade, and grade iv milk quality grade, the milk quality grades are classified according to nutritional value, wherein the milk nutritional value of the grade i milk quality grade is the highest, and the milk nutritional value of the grade iv milk quality grade is the lowest.

Preferably, the driving control module includes a sterilizing unit, a temperature adjusting unit, a power adjusting unit, and a report printing unit.

Preferably, the analyzer body comprises an analyzer base, an analyzer main body is fixedly connected to the upper side of the analyzer base, a sample box body is fixedly connected to the left side of the analyzer main body, the sample box body is arranged in contact with the analyzer base, a positioning gripper is arranged in the middle of the left side of the analyzer main body, and a power supply interface is arranged on the right side of the analyzer main body;

the analyzer comprises an analyzer body, a paper storage groove and a front cover, wherein the front side of the analyzer body is provided with the analyzer front cover, the upper side of the analyzer body is provided with the ink adding groove, and the paper storage groove is positioned on the right side of the ink adding groove; a touch display screen is arranged between the plane where the front cover of the analyzer and the upper side of the analyzer body are located; a circuit board fixing groove is formed in the right side of the analyzer main body and is located between the power interface and the plane where the analyzer front cover is located; a printing groove is arranged between the circuit board fixing groove and the power interface;

an ultraviolet disinfection device is arranged between the positioning hand grip and the plane of the front cover of the analyzer, and a detection probe is arranged between the ultraviolet disinfection device and the positioning hand grip;

the sample box comprises a sample box body and is characterized in that a fixed plate is arranged in the sample box body, the center of the upper side of the fixed plate is rotatably connected with a rotating platform through a limiting buckle, a sample table is fixedly connected to the upper side of the rotating platform, a plurality of sample grooves are uniformly formed in the periphery of the sample table, a handle is fixedly arranged on one side, far away from the rotating platform, of the sample table, and the upper side of the sample box body is hinged to an upper box cover of the sample;

a plurality of anti-skidding support legs are arranged on the lower side of the analyzer base, portable grooves are formed in the left side and the right side of the analyzer base, and the portable grooves are located on the lower side of the printing groove.

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

1. the invention is provided with a disinfection heating module, the disinfection heating module is used for acquiring light intensity and concentration data of a sample box body, and when a temperature value does not meet a preset threshold value, the temperature value in the sample box body is adjusted through a driving control module; the device can automatically judge the closing state of the upper box cover of the sample box and adjust the temperature to a preset analysis temperature value, thereby being beneficial to improving the accuracy of breast milk analysis;

2. the invention is provided with a data acquisition module, which acquires breast milk monitoring data through an ultrasonic detection unit and analyzes the category and quality of breast milk through a density analysis method; the setting starts from density, firstly, the type of breast milk is judged, then whether breast milk monitoring data are qualified or not is judged, and the type and quality of the breast milk can be clearly displayed through the setting;

3. the invention is provided with the display adjusting module which is used for displaying breast milk monitoring data and setting a preset threshold value, so that the data result of the invention is simple and easy to understand and the operation is simple.

Drawings

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

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

FIG. 2 is an orthogonal three-axis view of an analyzer body of the present invention;

FIG. 3 is a right side view of the analyzer body of the present invention;

FIG. 4 is a front view of the internal structure of the analyzer body of the present invention;

FIG. 5 is a top view of the internal structure of the analyzer body of the present invention;

fig. 6 is an orthographic three-axis view of the internal structure of the analyzer body of the present invention.

In the figure: 1. an analyzer base; 2. an analyzer front cover; 3. a touch display screen; 4. an analyzer body; 5. a circuit board fixing groove; 6. a portable groove; 7. a power interface; 8. an ink adding tank; 9. the sample box is provided with a box cover; 10. a sample cartridge body; 12. anti-skid support legs; 13. an upper box cover hinge; 14. a limit buckle; 15. a fixing plate; 16. a rotating table; 17. a sample stage; 18. a sample tank; 19. positioning the gripper; 20. detecting a probe; 21. an ultraviolet disinfection device; 22. a handle; 23. printing a slot; 24. a paper storage groove.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood 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. 1-6, a breast milk analyzer includes an analyzer body and a controller;

the controller comprises a processor, a disinfection heating module, a data acquisition module, a standby power supply module, a data storage module, a display regulation module and a drive control module;

the disinfection heating module is used for providing a suitable environment for breast milk analysis, and comprises the following specific steps:

z1: acquiring the light intensity inside the sample box body 10, and marking the light intensity as GQ;

z2: acquiring a preset light intensity threshold YGQ from the data storage module through the processor, and sending a disinfection instruction to the drive control module through the processor when the light intensity GQ is less than or equal to YGQ; the driving control module sterilizes the sample box body 10 through the sterilization unit;

z3: after the disinfection instruction is sent for T1 minutes, obtaining a temperature value inside the sample box body 10, and marking the temperature value as WD; acquiring a preset temperature threshold value YWD from a data storage module through a processor, when a temperature value WD is greater than YWD + alpha or WD is less than YWD-alpha, sending a temperature adjusting instruction to a driving control module through the processor, adjusting the temperature inside the sample box body 10 through a temperature adjusting unit by the driving control module, when the temperature value WD-alpha is greater than or equal to WD and less than or equal to YWD + alpha, sending a temperature adjusting temporary instruction to the driving control module through the processor, and sending an analysis starting instruction to a data acquisition module through the processor; wherein T1 is a preset time threshold, α is a preset scaling factor, and 0< α < 0.3;

the data acquisition module is used for obtaining the monitoring data of breast milk, and the data acquisition module includes ultrasonic detection unit and data analysis unit, and concrete collection step is:

x1: after receiving an analysis starting instruction, the data acquisition module acquires breast milk monitoring data through the ultrasonic detection unit and sends the monitoring data to the data analysis unit;

x2: the fat content, protein content, lactose content, moisture content, density and mineral content are labeled ZF, DBZ, RT, SF, MD and KWZ, respectively;

x3: the classification and quality of breast milk are judged by a density analysis method.

The density analysis method in X3 comprises the following steps:

c1: when the beta 1 is not less than MD < beta 2, a colostrum component preset threshold value is obtained through the data storage module, when the fat content, the protein content, the lactose content, the moisture content and the mineral content all meet the colostrum component preset threshold value, a report printing instruction is sent to the driving control module through the processor, and a grade-III quality grade instruction is sent to the display adjusting module; wherein beta 1 and beta 2 are colostrum density preset threshold values;

c2: when the beta 3 is more than or equal to MD and less than beta 4, a preset threshold value of the transitional milk component is obtained through the data storage module, when the fat content, the protein content, the lactose content, the moisture content and the mineral content all meet the preset threshold value of the transitional milk component, a report printing instruction is sent to the driving control module through the processor, and meanwhile, a level II quality grade instruction is sent to the display adjusting module; wherein beta 3 and beta 4 are preset threshold values of the transitional milk density;

c3: when the beta 5 is more than or equal to MD and less than beta 6, acquiring a mature milk component preset threshold value through a data storage module, when the fat content, the protein content, the lactose content, the moisture content and the mineral content all meet the mature milk component preset threshold value, sending a report printing instruction to a driving control module through a processor, and simultaneously sending a grade I quality grade instruction to a display adjusting module; wherein beta 5 and beta 6 are preset threshold values of the density of the mature milk;

c4: when the beta 7 is more than or equal to MD < beta 8, acquiring a preset late milk component threshold value through a data storage module, when the fat content, the protein content, the lactose content, the moisture content and the mineral content all meet the preset late milk component threshold value, sending a report printing instruction to a driving control module through a processor, and simultaneously sending an IV-level quality grade instruction to a display adjusting module; wherein beta 7 and beta 8 are preset threshold values of the late milk density; and β 2> β 1> β 4> β 3> β 6> β 5> β 8> β 7;

c5: when the beta 2 is not more than MD or the MD is less than beta 7, a sample error instruction is sent to the display adjusting module through the processor; and the drive control module prints the report after receiving the report printing instruction.

The display adjusting module is used for displaying breast milk monitoring data and setting a threshold value, and the threshold value comprises a preset light intensity threshold value, a preset temperature threshold value, a preset time threshold value, a colostrum component preset threshold value, a transitional milk component preset threshold value, a mature milk component preset threshold value and a late milk component preset threshold value.

Breast milk monitoring data includes fat content, protein content, lactose content, moisture content, density, and mineral content.

The report comprises fat content, protein content, lactose content, moisture content, density, mineral content and breast milk quality grades, wherein the breast milk quality grades comprise a grade I breast milk quality grade, a grade II breast milk quality grade, a grade III breast milk quality grade and a grade IV breast milk quality grade, the breast milk quality grades are classified according to nutritional values, the breast milk nutritional value of the grade I breast milk quality grade is the highest, and the breast milk nutritional value of the grade IV breast milk quality grade is the lowest.

The drive control module comprises a disinfection unit, a temperature adjusting unit, a power supply adjusting unit and a report printing unit.

The analyzer body comprises an analyzer base 1, an analyzer main body 4 is fixedly connected to the upper side of the analyzer base 1, a sample box body 10 is fixedly connected to the left side of the analyzer main body 4, the sample box body 10 is arranged in contact with the analyzer base 1, a positioning gripper 19 is arranged in the middle of the left side of the analyzer main body 4, and a power supply interface 7 is arranged on the right side of the analyzer main body 4;

the analyzer front cover 2 is arranged on the front side of the analyzer main body 4, the ink adding groove 8 is arranged on the upper side of the analyzer main body 4, the paper storage groove 24 is arranged on the upper side of the analyzer main body 4, and the paper storage groove 24 is positioned on the right side of the ink adding groove 8; a touch display screen 3 is arranged between the plane where the upper sides of the analyzer front cover 2 and the analyzer main body 4 are located; a circuit board fixing groove 5 is formed in the right side of the analyzer body 4, and the circuit board fixing groove 5 is located between the power interface 7 and the plane where the analyzer front cover 2 is located; a printing groove 23 is arranged between the circuit board fixing groove 5 and the power interface 7;

an ultraviolet disinfection device 21 is arranged between the positioning hand grip 19 and the plane of the front cover 2 of the analyzer, and a detection probe 20 is arranged between the ultraviolet disinfection device 21 and the positioning hand grip 19;

a fixing plate 15 is arranged in the sample box body 10, the center of the upper side of the fixing plate 15 is rotatably connected with a rotating platform 16 through a limit buckle 14, the upper side of the rotating platform 16 is fixedly connected with a sample table 17, a plurality of sample grooves 18 are uniformly arranged around the sample table 17, a handle 22 is fixedly arranged on one side of the sample table 17 far away from the rotating platform 16, and the upper side of the sample box body 10 is hinged with an upper box cover 9 of the sample box through an upper box cover hinge 13;

a plurality of anti-skidding support legs 12 are arranged on the lower side of the analyzer base 1, portable grooves 6 are formed in the left side and the right side of the analyzer base 1, and the right portable grooves 6 are located on the lower side of the printing groove 23.

The stand-by power supply module is used for temporarily supplying power to the breast milk analyzer, the stand-by power supply module comprises an electricity storage unit and a charging unit, and the specific power supply steps are as follows:

n1: when the breast milk analyzer is powered by the standard power supply, the charging unit charges the power storage unit through the standard power supply; the power supply is 220V alternating current;

n2: when the breast milk analyzer can not be connected to a standard power supply, the power supply adjusting unit enables the power storage unit to supply power to the breast milk analyzer.

The above formulas are all quantitative calculation, the formula is a formula obtained by acquiring a large amount of data and performing software simulation to obtain the latest real situation, and the preset parameters in the formula are set by the technical personnel in the field according to the actual situation.

The working principle of the invention is as follows:

acquiring light intensity and concentration data of a sample box body through a disinfection heating module; obtaining the light intensity inside the sample box body, and marking the light intensity as GQ; acquiring a preset light intensity threshold YGQ from the data storage module through the processor, and sending a disinfection instruction to the drive control module through the processor when the light intensity GQ is less than or equal to YGQ; the driving control module is used for disinfecting the sample box body through the disinfection unit; after the disinfection instruction is sent for T1 minutes, obtaining a temperature value inside the sample box body, and marking the temperature value as WD; comparing the temperature value with a preset temperature threshold value, and if the temperature value is too low or too high, adjusting the temperature in the sample box body through the driving control module;

after receiving an analysis starting instruction, the data acquisition module acquires breast milk monitoring data through the ultrasonic detection unit and sends the monitoring data to the data analysis unit; the fat content, protein content, lactose content, moisture content, density and mineral content are labeled ZF, DBZ, RT, SF, MD and KWZ, respectively; the classification and quality of breast milk are judged by a density analysis method.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (7)

1. The breast milk analyzer is characterized by comprising an analyzer body and a controller;

the controller comprises a processor, a disinfection heating module, a data acquisition module, a standby power supply module, a data storage module, a display regulation module and a drive control module;

the disinfection heating module is used for providing a suitable environment for breast milk analysis, and comprises the following specific steps:

z1: acquiring the light intensity inside the sample box body (10), and marking the light intensity as GQ;

z2: acquiring a preset light intensity threshold YGQ from the data storage module through the processor, and sending a disinfection instruction to the drive control module through the processor when the light intensity GQ is less than or equal to YGQ; the driving control module is used for disinfecting the sample box body (10) through the disinfection unit;

z3: after the disinfection instruction is sent for T1 minutes, acquiring a temperature value inside the sample box body (10), and marking the temperature value as WD; the method comprises the steps that a preset temperature threshold value YWD is obtained from a data storage module through a processor, when a temperature value WD is greater than YWD + alpha or WD is smaller than YWD-alpha, a temperature adjusting instruction is sent to a driving control module through the processor, the driving control module adjusts the temperature inside a sample box body (10) through a temperature adjusting unit, when the temperature value WD-alpha is larger than or equal to WD and smaller than or equal to YWD + alpha, a temperature adjusting temporary instruction is sent to the driving control module through the processor, and an analysis starting instruction is sent to a data acquisition module through the processor; wherein T1 is a preset time threshold, α is a preset scaling factor, and 0< α < 0.3;

the data acquisition module is used for obtaining the monitoring data of breast milk, the data acquisition module includes ultrasonic detection unit and data analysis unit, and concrete collection step is:

x1: after receiving an analysis starting instruction, the data acquisition module acquires breast milk monitoring data through the ultrasonic detection unit and sends the monitoring data to the data analysis unit;

x2: the fat content, protein content, lactose content, moisture content, density and mineral content are labeled ZF, DBZ, RT, SF, MD and KWZ, respectively;

x3: the classification and quality of breast milk are judged by a density analysis method.

2. The breastmilk analyzer of claim 1 wherein the density analysis in X3 includes the following specific steps:

c1: when the beta 1 is not less than MD < beta 2, a colostrum component preset threshold value is obtained through the data storage module, when the fat content, the protein content, the lactose content, the moisture content and the mineral content all meet the colostrum component preset threshold value, a report printing instruction is sent to the driving control module through the processor, and a grade-III quality grade instruction is sent to the display adjusting module; wherein beta 1 and beta 2 are colostrum density preset threshold values;

c2: when the beta 3 is more than or equal to MD and less than beta 4, a preset threshold value of the transitional milk component is obtained through the data storage module, when the fat content, the protein content, the lactose content, the moisture content and the mineral content all meet the preset threshold value of the transitional milk component, a report printing instruction is sent to the driving control module through the processor, and meanwhile, a level II quality grade instruction is sent to the display adjusting module; wherein beta 3 and beta 4 are preset threshold values of the transitional milk density;

c3: when the beta 5 is more than or equal to MD and less than beta 6, acquiring a mature milk component preset threshold value through a data storage module, when the fat content, the protein content, the lactose content, the moisture content and the mineral content all meet the mature milk component preset threshold value, sending a report printing instruction to a driving control module through a processor, and simultaneously sending a grade I quality grade instruction to a display adjusting module; wherein beta 5 and beta 6 are preset threshold values of the density of the mature milk;

c4: when the beta 7 is more than or equal to MD < beta 8, acquiring a preset late milk component threshold value through a data storage module, when the fat content, the protein content, the lactose content, the moisture content and the mineral content all meet the preset late milk component threshold value, sending a report printing instruction to a driving control module through a processor, and simultaneously sending an IV-level quality grade instruction to a display adjusting module; wherein beta 7 and beta 8 are preset threshold values of the late milk density; and β 2> β 1> β 4> β 3> β 6> β 5> β 8> β 7;

c5: when the beta 2 is not more than MD or the MD is less than beta 7, a sample error instruction is sent to the display adjusting module through the processor; and the drive control module prints the report after receiving the report printing instruction.

3. The breastmilk analyzer of claim 1, wherein the display adjustment module is configured to display breastmilk monitoring data and set thresholds, the thresholds including a preset light intensity threshold, a preset temperature threshold, a preset time threshold, a preset colostrum component threshold, a preset transitional milk component threshold, a preset mature milk component threshold, and a preset late milk component threshold.

4. The breastmilk analyzer of claim 1 wherein the breastmilk monitoring data includes fat content, protein content, lactose content, moisture content, density, and mineral content.

5. The breastmilk analyzer of claim 2, wherein the report includes fat content, protein content, lactose content, moisture content, density, mineral content, and breastmilk quality ratings including a grade i breastmilk quality rating, a grade ii breastmilk quality rating, a grade iii breastmilk quality rating, and a grade iv breastmilk quality rating, the breastmilk quality ratings being categorized by nutritional value, wherein the breastmilk nutritional value of the grade i breastmilk quality rating is the highest and the breastmilk nutritional value of the grade iv breastmilk quality rating is the lowest.

6. The breastmilk analyzer of claim 1 wherein the drive control module includes a sterilization unit, a temperature adjustment unit, a power supply adjustment unit, and a report printing unit.

7. The breastmilk analyzer of claim 1, wherein the analyzer body comprises an analyzer base (1), an analyzer main body (4) is fixedly connected to the upper side of the analyzer base (1), a sample box body (10) is fixedly connected to the left side of the analyzer main body (4), the sample box body (10) is arranged in contact with the analyzer base (1), a positioning handle (19) is arranged in the middle position of the left side of the analyzer main body (4), and a power supply interface (7) is arranged on the right side of the analyzer main body (4);

an analyzer front cover (2) is arranged on the front side of the analyzer main body (4), an ink adding groove (8) is formed in the upper side of the analyzer main body (4), a paper storage groove (24) is formed in the upper side of the analyzer main body (4), and the paper storage groove (24) is located on the right side of the ink adding groove (8); a touch display screen (3) is arranged between the plane where the upper sides of the analyzer front cover (2) and the analyzer main body (4) are located; a circuit board fixing groove (5) is formed in the right side of the analyzer body (4), and the circuit board fixing groove (5) is located between a power interface (7) and a plane where the analyzer front cover (2) is located; a printing groove (23) is arranged between the circuit board fixing groove (5) and the power interface (7);

an ultraviolet disinfection device (21) is arranged between the positioning gripper (19) and the plane where the analyzer front cover (2) is located, and a detection probe (20) is arranged between the ultraviolet disinfection device (21) and the positioning gripper (19);

a fixing plate (15) is arranged in the sample box body (10), the center of the upper side of the fixing plate (15) is rotatably connected with a rotating platform (16) through a limit buckle (14), the upper side of the rotating platform (16) is fixedly connected with a sample table (17), a plurality of sample grooves (18) are uniformly formed in the periphery of the sample table (17), a handle (22) is fixedly arranged on one side, away from the rotating platform (16), of the sample table (17), and the upper side of the sample box body (10) is hinged with an upper box cover (9) of the sample box through an upper box cover hinge (13);

a plurality of anti-skidding support legs (12) are arranged on the lower side of the analyzer base (1), portable grooves (6) are arranged on the left side and the right side of the analyzer base (1), and the portable grooves (6) are located on the lower side of the printing groove (23).

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