CN216594201U - Blood glucose analyzer testing device - Google Patents

Abstract

The utility model relates to a blood sugar analyzer testing device, comprising: a chassis; the clamping component is slidably mounted on the case; the clamping assembly is used for clamping a circuit board, a touch screen and a display screen of the blood glucose analyzer; a support assembly mounted on the chassis; the pressing component is connected to the middle part of the supporting component in a sliding manner; the touch test assembly is connected to one side of the pressing assembly; and the CCD testing component is arranged on the other side of the pressing component. Above-mentioned blood glucose analyzer testing arrangement, convenient to use, powerful utilizes the push down subassembly to push down butt circuit board, touch test assembly butt touch-sensitive screen and CCD test assembly and shoots the display screen, can test blood glucose analyzer's a plurality of modules simultaneously, improves detection efficiency, effectively satisfies the actual production demand.

Description

Blood glucose analyzer testing device

Technical Field

The utility model relates to the technical field of medical product testing, in particular to a testing device of a blood glucose analyzer.

Background

The MMI automatic testing machine is suitable for testing products with interactive functions, such as mobile phones, cameras, MP4, learning machines, vehicle-mounted equipment, tablet computers and the like, replaces manual work to carry out MMI full-automatic testing, completely replaces manual work, and has extremely high cost performance.

In the field of medical products, the blood glucose analyzer needs to be subjected to an MMI test before leaving a factory, and mainly comprises a burning program test, an operation program test, an electronic part function performance test, a Bluetooth test, an optical coupler test, a kit connection test and the like. The general MMI automatic testing machine has single function, can only test the function of a circuit board, cannot test other modules of the blood glucose analyzer, and is difficult to meet the actual production requirement.

SUMMERY OF THE UTILITY MODEL

Based on the above, the test device for the blood glucose analyzer provided by the utility model is convenient to use and powerful in function, can be used for simultaneously testing a plurality of modules of the blood glucose analyzer, improves the detection efficiency, and effectively meets the actual production requirements.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme:

a blood glucose analyzer testing device comprising:

a chassis;

the clamping component is slidably mounted on the case; the clamping assembly is used for clamping a circuit board, a touch screen and a display screen of the blood glucose analyzer;

a support assembly mounted on the chassis; the supporting component comprises a supporting frame arranged on the case, a supporting plate arranged on the supporting frame and a lifting guide rail pair arranged in the middle of the supporting plate;

the pressing component is connected to the middle part of the supporting component in a sliding manner; the downward pressing assembly comprises a lifting element arranged on the supporting plate, a downward pressing plate connected with the lifting guide rail pair, a needle plate arranged on the bottom surface of the downward pressing plate, and a plurality of probes arranged on the needle plate at intervals; the bottom end of the probe is used for abutting against each bonding pad on the circuit board;

the touch test assembly is connected to one side of the pressing assembly; the touch test assembly comprises a fixed frame arranged on the supporting plate, a touch telescopic cylinder arranged on the fixed frame and a touch pen connected to the bottom end of the touch telescopic cylinder; the touch pen is positioned above the touch screen, and the touch telescopic cylinder is used for driving the touch pen to click the touch screen so as to send an electric signal to the circuit board; and

the CCD testing component is arranged on the other side of the pressing component; the CCD testing component comprises a camera bracket arranged on the supporting plate and a CCD camera arranged on the camera bracket; the CCD camera is located above the display screen and is used for shooting the display screen to obtain the display content of the display screen.

Above-mentioned blood glucose analyzer testing arrangement, convenient to use, powerful utilizes the push down subassembly to push down butt circuit board, touch test assembly butt touch-sensitive screen and CCD test assembly and shoots the display screen, can test blood glucose analyzer's a plurality of modules simultaneously, improves detection efficiency, effectively satisfies the actual production demand.

In one embodiment, the blood glucose analyzer testing device further comprises a test paper plugging component mounted at one end of the clamping component; the test paper plugging and unplugging component comprises a traverse moving plate connected to one side of the clamping component in a sliding manner, a traverse moving element connected to one side of the traverse moving plate, at least two paper clamping blocks connected to the top surface of the traverse moving plate in a sliding manner, and a pushing element connected to one side of each paper clamping block; one side of the circuit board is provided with a test paper interface; the paper clamping block is used for clamping test paper, and the pushing element is used for driving the transverse moving plate and the clamping assembly to slide relatively, so that the paper clamping block is aligned with the test paper interface.

In one embodiment, the clamping assembly comprises a moving plate, a circuit board bearing seat arranged in the middle of one side of the top surface of the moving plate, a touch screen bearing seat arranged on one side of the circuit board bearing seat, and a display screen bearing seat arranged on the other side of the circuit board bearing seat; the circuit board bearing seat is used for bearing and clamping the circuit board, the touch screen bearing seat is used for bearing and clamping the touch screen, and the display screen bearing seat is used for bearing and clamping the display screen.

In one embodiment, the clamping assembly further comprises an infrared shading plate which can be slidably arranged inside the circuit board bearing seat, and an infrared LED lamp which is arranged at one end of the circuit board bearing seat; the infrared light shielding plate can slide in the circuit board bearing seat, and the infrared light shielding plate is used for shielding the infrared LED lamp.

In one embodiment, the support assembly further comprises a thermometer module mounted on one side of the support frame and a sound level meter module mounted on the other side of the support frame; the thermometer module is arranged adjacent to the touch test assembly; the sound level meter module is arranged adjacent to the CCD testing component.

In one embodiment, a thermometer is arranged in the thermometer module; the sound level meter module comprises a sound level meter and a loudspeaker installed at the top of the sound level meter.

In one embodiment, a volume key FPC is connected between the circuit board and the touch screen, and two volume key elastic pieces are arranged on the volume key FPC; a power key FPC is connected between the circuit board and the display screen, and a power key elastic sheet is arranged on the power key FPC; the pressing assembly also comprises needle cylinders arranged on two opposite sides of the needle plate; the needle-shaped cylinder is used for abutting against the volume key elastic sheet and the power key elastic sheet.

In one embodiment, the blood glucose analyzer testing device further comprises a scanning assembly coupled to the hold-down assembly; the scanning component comprises a scanning bracket connected to the top surface of the lower pressing plate, a scanner arranged on the scanning bracket, a light source bracket arranged on one side of the scanning bracket and an LED light source arranged on the light source bracket; the scanner is positioned above the lower pressing plate and used for scanning the bar code of the circuit board; and light rays emitted by the LED light source are used for illuminating the circuit board and the display screen below the LED light source.

Drawings

FIG. 1 is a schematic perspective view of a blood glucose analyzer testing device according to an embodiment of the present invention;

FIG. 2 is an exploded view of the blood glucose analyzer testing device of FIG. 1;

FIG. 3 is a schematic perspective view of a portion of the test device of the blood glucose analyzer shown in FIG. 2;

fig. 4 is a schematic diagram showing a comparison between the case, the clamping assembly and the test paper inserting and extracting assembly in the blood glucose analyzer testing device shown in fig. 1;

fig. 5 is a schematic diagram comparing another view angle of the case, the clamping assembly and the test paper inserting and extracting assembly in the blood glucose analyzer testing device shown in fig. 4;

FIG. 6 is a schematic diagram illustrating a clamping assembly and a test strip inserting and pulling assembly of the testing device of the blood glucose analyzer shown in FIG. 5;

FIG. 7 is an enlarged schematic view taken at circle A of FIG. 6;

FIG. 8 is an assembly view of the support assembly, the hold-down assembly, the touch test assembly and the CCD test assembly of the blood glucose analyzer testing device shown in FIG. 1;

FIG. 9 is an assembly view of the support assembly, the hold-down assembly, the touch test assembly and the CCD test assembly of the device of FIG. 8 from another perspective;

FIG. 10 is an exploded view of the support assembly, the hold-down assembly, the touch test assembly and the CCD test assembly of the blood glucose analyzer testing device of FIG. 8;

FIG. 11 is an exploded and compared view of another viewing angle of the support assembly, the hold-down assembly, the touch test assembly and the CCD test assembly of the blood glucose analyzer testing device of FIG. 10;

fig. 12 is an enlarged schematic view of the circle B shown in fig. 9.

Reference is made to the accompanying drawings in which:

10-a case, 11-a box body, 12-a panel, 13-a through groove and 14-a clamping guide rail pair;

20-a clamping assembly, 21-a moving plate, 22-a limiting pin, 23-a moving element, 24-a circuit board bearing seat, 25-a touch screen bearing seat, 26-a display screen bearing seat, 27-a transverse moving guide rail pair and 28-an infrared LED lamp;

30-test paper plugging and unplugging component, 31-traverse plate, 32-traverse element, 33-paper clamping block, 34-pushing element and 35-pushing guide rail pair;

40-a support component, 41-a support frame, 42-a support plate, 43-a lifting guide rail pair, 44-a thermometer module, 45-a sound level meter module, 451-a sound level meter and 452-a loudspeaker;

50-a pressing component, 51-a lifting element, 52-a pressing plate, 53-a needle plate, 54-a probe, 55-an elastic positioning needle, 56-a needle cylinder, 57-a guide column and 58-a limiting column;

60-touch test component, 61-fixed frame, 62-touch telescopic cylinder and 63-touch pen;

70-a CCD test assembly, 71-a camera mount, 72-a CCD camera;

80-a housing;

91-circuit board, 910-test paper interface, 92-touch screen, 93-display screen, 94-volume key elastic sheet, 95-power key elastic sheet and 96-test paper;

100-scanning component, 101-scanning support, 102-scanner, 103-light source support, 104-LED light source.

Detailed Description

To facilitate an understanding of the utility model, the utility model will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

Referring to fig. 1 to 12, a blood glucose analyzer testing apparatus according to an embodiment of the present invention includes a case 10, a clamping assembly 20 slidably mounted on the case 10, a test paper plugging assembly 30 mounted at one end of the clamping assembly 20, a supporting assembly 40 mounted on the case 10, a pressing assembly 50 slidably connected to the middle of the supporting assembly 40, a touch testing assembly 60 connected to one side of the pressing assembly 50, a CCD testing assembly 70 mounted at the other side of the pressing assembly 50, and a housing 80 covering the top of the case 10; the clamping assembly 20, the test paper plugging assembly 30, the supporting assembly 40, the pressing assembly 50, the touch testing assembly 60 and the CCD testing assembly 70 are all located inside the shell 80. The clamping component 20 is used for clamping a circuit board 91, a touch screen 92 and a display screen 93 of the blood glucose analyzer; a volume key FPC is connected between the circuit board 91 and the touch screen 92, and two volume key elastic pieces 94 are arranged on the volume key FPC; a power key FPC is connected between the circuit board 91 and the display screen 93, and a power key elastic piece 95 is provided on the power key FPC. The test paper plugging and unplugging component 30 is used for clamping the test paper 96 and connecting the test paper 96 to one end of the circuit board 91 in a plugging and unplugging manner.

The test chassis 10 includes a housing 11, a panel 12 mounted on the top of the housing 11, and a plurality of circuit components (not shown) mounted inside the housing 11. As shown in fig. 4, a through slot 13 is formed in the middle of the panel 12, clamping rail pairs 14 are respectively installed on the panel 12 corresponding to opposite sides of the through slot 13, and the clamping rail pairs 14 are used for positioning and connecting the clamping assembly 20, so as to realize the sliding connection between the clamping assembly 20 and the chassis 10.

The clamping assembly 20 includes a moving plate 21 slidably connected to the panel 12, a limit pin 22 installed at one side of the moving plate 21, a moving element 23 connected to the bottom surface of the moving plate 21, a circuit board bearing seat 24 installed at the middle of one side of the top surface of the moving plate 21, a touch screen bearing seat 25 installed at one side of the circuit board bearing seat 24, and a display screen bearing seat 26 installed at the other side of the circuit board bearing seat 24. The stopper pin 22 abuts against the moving plate 21. The circuit board bearing seat 24 is used for bearing and clamping a circuit board 91, the touch screen bearing seat 25 is used for bearing and clamping a touch screen 92, and the display screen bearing seat 26 is used for bearing and clamping a display screen 93.

The moving plate 21 is connected to the clamping rail pair 14, the moving element 23 is configured to drive the moving plate 21 and the panel 12 to slide relatively, specifically, as shown in fig. 4 and 5, in this embodiment, the moving element 23 is an air cylinder, a cylinder body of the moving element 23 is fixedly connected to the bottom surface of the panel 12, a piston rod of the moving element 23 is connected to the bottom surface of the moving plate 21 after passing through the through groove 13, and the moving element 23 is configured to drive the moving plate 21 to slide along the clamping rail pair 14, so as to achieve sliding connection between the moving plate 21 and the panel 12, and further, the moving plate 21 can move to extend out of the panel 12, so as to manually clamp or disassemble the circuit board 91. As shown in fig. 7, one side of the circuit board 91 has a test strip interface 910, and the test strip interface 910 is used for inserting the test strip 96.

Furthermore, a transverse guide rail pair 27 is installed in the middle of one side of the moving plate 21 away from the circuit board bearing seat 24, the length direction of the transverse guide rail pair 27 is perpendicular to the length direction of the clamping guide rail pair 14, and the transverse guide rail pair 27 is used for positioning and connecting the test paper plugging and unplugging assembly 30.

Further, the clamping assembly 20 further includes an infrared light shielding plate slidably mounted inside the circuit board bearing seat 24, and an infrared LED lamp 28 mounted at one end of the circuit board bearing seat 24; the infrared shielding plate can slide inside the circuit board bearing seat 24, and the infrared shielding plate is used for shielding the infrared LED lamp 28 so as to carry out infrared testing on the circuit board 91.

The test paper inserting and extracting assembly 30 includes a traverse plate 31 slidably connected to one side of the moving plate 21, a traverse member 32 connected to one side of the traverse plate 31, at least two paper clamping blocks 33 slidably connected to a top surface of the traverse plate 31, and a pushing member 34 connected to one side of each paper clamping block 33. The traverse plate 31 is connected with the traverse guide rail pair 27, the paper clamping block 33 is used for clamping the test paper 96, and the pushing element 34 is used for driving the traverse plate 31 and the moving plate 21 to slide relatively, so that the paper clamping block 33 is aligned with the test paper interface 910, and the test paper 96 can be inserted into or withdrawn from the test paper interface 910 conveniently.

The traverse member 32 is used for driving the traverse plate 31 and the moving plate 21 to slide relatively, and specifically, as shown in fig. 5 to 7, in the present embodiment, the traverse member 32 is a cylinder, a cylinder of the traverse member 32 is fixedly connected to the top surface of the moving plate 21, a piston rod of the traverse member 32 is fixedly connected to one side of the traverse plate 31, and the traverse member 32 is used for driving the traverse plate 31 to slide along the traverse guide pair 27, so as to realize the sliding connection between the traverse plate 31 and the moving plate 21, and facilitate the position alignment between the paper clamping block 33 and the test paper interface 910, so as to insert or withdraw the test paper 96 into or out of the test paper interface 910.

In this embodiment, at least two pushing guide rail pairs 35 are installed on the top surface of the traverse plate 31, the length direction of the pushing guide rail pair 35 is the same as the length direction of the clamping guide rail pair 14, the paper clamping block 33 is connected with the pushing guide rail pair 35, and the pushing element 34 is used for driving the paper clamping block 33 and the traverse plate 31 to slide relatively. Specifically, in this embodiment, the pushing element 34 is an air cylinder, a cylinder body of the pushing element 34 is fixedly connected to the top surface of the traverse plate 31, a piston rod of the pushing element 34 is connected to the paper clamping block 33, and the pushing element 34 is configured to drive the paper clamping block 33 to slide along the pushing guide rail pair 35, so as to achieve sliding connection between the paper clamping block 33 and the traverse plate 31, and further insert the test paper 96 into the test paper interface 910 or pull the test paper 96 out of the test paper interface 910, thereby achieving an automatic insertion and extraction function of the test paper 96, avoiding damage to the test paper interface, and reducing a product reject ratio.

In this embodiment, the number of the paper clamping blocks 33 is two, and the two paper clamping blocks 33 can clamp the same test paper 96 and can also clamp different test paper 96, so that different test requirements are greatly met.

The support assembly 40 comprises a support frame 41 mounted on the box body 11, a support plate 42 mounted on the support frame 41, a lifting guide rail pair 43 mounted in the middle of the support plate 42, a thermometer module 44 mounted on one side of the support frame 41, and a sound level meter module 45 mounted on the other side of the support frame 41. Wherein the lifting rail pair 43 is adapted to slidably engage the hold-down assembly 50.

The thermometer module 44 is disposed adjacent to the touch test assembly 60, and specifically, a thermometer is mounted inside the thermometer module 44, and the thermometer is configured to measure a temperature of a thermistor pad on the circuit board 91, and compare the measured temperature value with a preset temperature value to determine whether the thermistor on the circuit board 91 is qualified.

The sound level meter module 45 is arranged adjacent to the CCD testing component 70, specifically, the sound level meter module 45 comprises a sound level meter 451 and a loudspeaker 452 mounted on the top of the sound level meter 451; the speaker 452 is electrically connected to a speaker pad on the circuit board 91, and the sound level meter 451 is used to determine whether or not the noise emitted from the speaker 452 is acceptable.

The pressing assembly 50 includes a lifting element 51 mounted on the supporting plate 42, a pressing plate 52 connected with the lifting guide rail pair 43, a needle plate 53 mounted on the bottom surface of the pressing plate 52, a plurality of probes 54 mounted on the needle plate 53 at intervals, a plurality of elastic positioning pins 55 mounted on the needle plate 53 at intervals, and needle cylinders 56 mounted on the opposite sides of the needle plate 53. In this embodiment, the lifting element 51 is an air cylinder, the cylinder body of the lifting element 51 is fixedly connected to the support plate 42, the piston rod of the lifting element 51 is connected to the lower pressing plate 52, and the lifting element 51 is used for driving the lower pressing plate 52 to slide along the lifting guide rail pair 43. Wherein, the bottom of probe 54 is used for each pad on the butt circuit board 91, and the inside control circuit board of box 11 is connected through the wire electricity to the top of probe 54 for circuit board 91 gets electric, is convenient for carry out each functional test.

In the present embodiment, the elastic positioning pins 55 are used to abut against the circuit board 91 to clamp the circuit board 91. The needle cylinder 56 is used for abutting against the volume key elastic sheet 94 and the power key elastic sheet 95 so as to perform volume key press test and power key press test.

Further, in order to improve the alignment precision between the needle plate 53 and the circuit board 91, the pressing assembly 50 further includes a plurality of guide posts 57 and a plurality of limiting posts 58 connected to the periphery of the needle plate 53 at intervals; the opposite four corners of the circuit board bearing seat 24 are respectively provided with a guide hole and a limiting hole; the guide holes correspond to the guide posts 57 one-to-one, and the limit holes correspond to the limit posts 58 one-to-one.

The touch test assembly 60 includes a fixing frame 61 installed on the supporting plate 42, a touch telescopic cylinder 62 installed on the fixing frame 61, and a touch pen 63 connected to a bottom end of the touch telescopic cylinder 62. The touch pen 63 is located above the touch screen 92, and the touch telescopic cylinder 62 is used for driving the touch pen 63 to click the touch screen 92 so as to send an electric signal to the circuit board 91.

The CCD test assembly 70 includes a camera bracket 71 mounted on the support plate 42, and a CCD camera 72 mounted on the camera bracket 71. The CCD camera 72 is located above the display screen 93, and the CCD camera 72 is used to photograph the display screen 93 to acquire the display content of the display screen 93.

In the testing process, the lower pressing plate 52 is pressed downwards, the probes 24 abut against each bonding pad on the circuit board 91, the circuit board 91 is powered on, then the needle-shaped air cylinder 56 is started to press the volume key elastic sheet 94 and the power key elastic sheet 95, the touch telescopic air cylinder 62 is started to enable the touch pen 63 to click the touch screen 92, the CCD camera 72 is used for shooting the display screen 93 to obtain the display content of the display screen 93, whether corresponding operation occurs on the display screen 93 is judged, namely whether the volume can be increased or decreased on the display screen 93 when the volume key elastic sheet 94 is pressed, whether the display screen 93 is lightened or closed when the power key elastic sheet 95 is pressed, and whether corresponding interface switching occurs on the display screen 93 when the touch screen 92 is clicked.

Further, the blood glucose analyzer testing device of the present invention further includes a scanning assembly 100 coupled to the depressing assembly 50. The scanning assembly 100 includes a scanning bracket 101 attached to the top surface of the lower platen 52, a scanner 102 mounted on the scanning bracket 101, a light source bracket 103 mounted on one side of the scanning bracket 101, and an LED light source 104 mounted on the light source bracket 103. A scanner 102 is located above the lower platen 52, and the scanner 102 is used to scan the bar code of the circuit board 91 to identify the record. The light emitted from the LED light source 104 is used to illuminate the circuit board 91 and the display screen 93 below, so as to facilitate the image capturing operation of the scanner 102 and the CCD camera 72.

Above-mentioned blood glucose analyzer testing arrangement, convenient to use, powerful utilizes push down subassembly 50 and pushes down butt circuit board 91, touch test subassembly 60 butt touch-sensitive screen 92 and CCD test subassembly 70 and shoot display screen 92, but a plurality of modules of simultaneous test blood glucose analyzer improve detection efficiency, effectively satisfy the actual production demand.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. A blood glucose analyzer testing device, comprising:

a chassis;

the clamping component is slidably mounted on the case; the clamping assembly is used for clamping a circuit board, a touch screen and a display screen of the blood glucose analyzer;

a support assembly mounted on the chassis; the supporting component comprises a supporting frame arranged on the case, a supporting plate arranged on the supporting frame and a lifting guide rail pair arranged in the middle of the supporting plate;

the pressing component is connected to the middle part of the supporting component in a sliding manner; the downward pressing assembly comprises a lifting element arranged on the supporting plate, a downward pressing plate connected with the lifting guide rail pair, a needle plate arranged on the bottom surface of the downward pressing plate, and a plurality of probes arranged on the needle plate at intervals; the bottom end of the probe is used for abutting against each bonding pad on the circuit board;

the touch test assembly is connected to one side of the pressing assembly; the touch test assembly comprises a fixed frame arranged on the supporting plate, a touch telescopic cylinder arranged on the fixed frame and a touch pen connected to the bottom end of the touch telescopic cylinder; the touch pen is positioned above the touch screen, and the touch telescopic cylinder is used for driving the touch pen to click the touch screen so as to send an electric signal to the circuit board; and

the CCD testing component is arranged on the other side of the pressing component; the CCD testing component comprises a camera bracket arranged on the supporting plate and a CCD camera arranged on the camera bracket; the CCD camera is located above the display screen and is used for shooting the display screen to obtain the display content of the display screen.

2. The blood glucose analyzer testing device of claim 1, further comprising a test paper plugging component mounted at one end of the clamping component; the test paper plugging and unplugging component comprises a traverse moving plate connected to one side of the clamping component in a sliding manner, a traverse moving element connected to one side of the traverse moving plate, at least two paper clamping blocks connected to the top surface of the traverse moving plate in a sliding manner, and a pushing element connected to one side of each paper clamping block; one side of the circuit board is provided with a test paper interface; the paper clamping block is used for clamping test paper, and the pushing element is used for driving the transverse moving plate and the clamping assembly to slide relatively, so that the paper clamping block is aligned with the test paper interface.

3. The blood glucose analyzer testing device of claim 1, wherein the clamping assembly comprises a moving plate, a circuit board bearing seat mounted in the middle of one side of the top surface of the moving plate, a touch screen bearing seat mounted on one side of the circuit board bearing seat, and a display screen bearing seat mounted on the other side of the circuit board bearing seat; the circuit board bearing seat is used for bearing and clamping the circuit board, the touch screen bearing seat is used for bearing and clamping the touch screen, and the display screen bearing seat is used for bearing and clamping the display screen.

4. The blood glucose analyzer testing device of claim 3, wherein the clamping assembly further comprises an infrared light shield slidably mounted inside the circuit board bearing seat, and an infrared LED lamp mounted at one end of the circuit board bearing seat; the infrared light shielding plate can slide in the circuit board bearing seat, and the infrared light shielding plate is used for shielding the infrared LED lamp.

5. The blood glucose analyzer testing device of claim 1, wherein the support assembly further comprises a thermometer module mounted to one side of the support frame and a sound level meter module mounted to the other side of the support frame; the thermometer module is arranged adjacent to the touch test assembly; the sound level meter module is arranged adjacent to the CCD testing component.

6. The blood glucose analyzer testing device of claim 5, wherein a thermometer is mounted inside the thermometer module; the sound level meter module comprises a sound level meter and a loudspeaker installed at the top of the sound level meter.

7. The blood glucose analyzer testing device of claim 1, wherein a volume key FPC is connected between the circuit board and the touch screen, and two volume key elastic pieces are arranged on the volume key FPC; a power key FPC is connected between the circuit board and the display screen, and a power key elastic sheet is arranged on the power key FPC; the pressing assembly also comprises needle cylinders arranged on two opposite sides of the needle plate; the needle-shaped cylinder is used for abutting against the volume key elastic sheet and the power key elastic sheet.

8. The blood glucose analyzer testing device of claim 1, further comprising a scanning assembly coupled to the hold-down assembly; the scanning component comprises a scanning bracket connected to the top surface of the lower pressing plate, a scanner arranged on the scanning bracket, a light source bracket arranged on one side of the scanning bracket and an LED light source arranged on the light source bracket; the scanner is positioned above the lower pressing plate and used for scanning the bar code of the circuit board; and light rays emitted by the LED light source are used for illuminating the circuit board and the display screen below the LED light source.

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