CN112129931A - Sample detection equipment and measurement mode selection method - Google Patents

Abstract

A sample detection device and a measurement mode selection method can comprise at least one blood routine function module, at least one specific protein function module, a controller and a shell, wherein the shell is provided with one or more keys in signal connection with the controller, each key can generate a signal for switching to a measurement mode corresponding to the key when being triggered, and the controller responds to the signal generated when the key is triggered and controls the device to switch to the corresponding measurement mode. The invention provides a scheme for quickly switching the measurement mode, which is very convenient.

Description

Sample detection equipment and measurement mode selection method

Technical Field

The invention relates to a sample detection device and a measurement mode selection method.

Background

Clinical diagnosis in hospitals often requires obtaining the detection results of blood routine parameters of patient blood and specific protein parameters such as CRP (reactive protein, C-reactive protein), SAA (Serum Amyloid a), PCT (procalcitonin), and the like.

To address these situations, some types of blood-based devices have been developed that routinely detect specific proteins in combination with blood. Such a device for the routine detection of blood in combination with a specific protein can perform CBC measurement (counting of white blood cells, red blood cells, platelets, and the like), DIFF measurement (classifying and counting of white blood cells), RET measurement (counting of reticulocytes), NRBC measurement (counting of nucleated red blood cells), CRP measurement, SAA measurement, PCT measurement, and the like; these devices are generally equipped with a display screen, for example integrated in the casing of the device, or connected by a cable, etc., and the user selects one or more of the above measurements on the sample by means of an interactive device (for example a mouse, a keyboard or a touch screen, etc.). The variety of measurement modes formed by measuring the individual or combined measurement modes is very many, such as CBC measurement mode, CBC + DIFF + CRP measurement mode, CBC + CRP measurement mode, CBC + DIFF + CRP + SAA measurement mode, CBC + DIFF + SAA measurement mode, CBC + CRP + SAA measurement mode, and the like, and is multiplied with the increase in the number of specific protein species that the device is capable of testing. In clinical practice, there are only a few measurement modes commonly used, such as CBC + DIFF, CBC + DIFF + CRP + SAA, etc.

In current devices, the selection of the measurement mode is concentrated in a menu of the associated software installed on the display screen of the device or a PC connected to the device. Because the measurement modes required by hospital samples are not completely the same according to clinical needs, when measuring the samples, a user needs to frequently switch among a plurality of measurement modes, and a typical scenario is that the user operates a menu of supporting software on a display screen of equipment and continuously jumps among different interfaces to select and switch the measurement mode required by the current sample, so that the operation steps are complicated, the time is delayed, and the user efficiency is influenced.

Disclosure of Invention

The application provides a sample detection device and a measurement mode selection method.

According to a first aspect, there is provided in an embodiment an apparatus for sample detection, comprising:

at least one blood routine function module, each blood routine function module for performing at least one function required for performing a blood routine measurement on a blood sample;

at least one specific protein functional module, each specific protein functional module for performing at least one function required for performing a specific protein assay on a blood sample;

the controller is used for controlling the blood routine function module and the specific protein function module to measure the blood sample;

the shell is enclosed to form a containing cavity, and the blood conventional functional module and the specific protein functional module are at least partially contained in the containing cavity of the shell;

the shell is provided with one or more keys in signal connection with the controller, each key can generate a signal for switching to a measurement mode corresponding to the key when being triggered, and the controller responds to the signal generated when the keys are triggered and controls the equipment to switch to the corresponding measurement mode.

In one embodiment, a symbol representing a measurement mode corresponding to a key is arranged on the key surface or in the vicinity of the key.

In one embodiment, the device further comprises an indicator light and a driving circuit for driving the indicator light, wherein each key is provided with the indicator light, the indicator light corresponding to the key is arranged near the key or integrated with the key, and the driving circuit drives the corresponding indicator light to light when the key is triggered.

In one embodiment, the device further comprises an indication screen and a driving circuit for driving the indication screen;

the indication screen is integrated with the keys, and when the keys are triggered, the driving circuit drives the indication screen corresponding to the triggered keys to light or display symbols for representing corresponding measurement modes; alternatively, the first and second electrodes may be,

the indication screen is arranged near the keys, and when the keys are triggered, the driving circuit drives the indication screen to display symbols for representing corresponding measurement modes.

In one embodiment, at least one of the keys corresponds to a measurement mode for performing a routine blood test and one or more specific protein tests on a blood sample.

According to a second aspect, an embodiment provides a sample detection device, which is provided with one or more keys, each key corresponding to a preset measurement mode, and each key, when triggered, enables the device to be switched to the measurement mode corresponding to the key.

In one embodiment, the keys are physical keys and are disposed on a housing of the device.

In one embodiment, the device further comprises an indicator light and a driving circuit for driving the indicator light, wherein each key is provided with the indicator light, the indicator light corresponding to the key is arranged near the key or integrated with the key, and the driving circuit drives the corresponding indicator light to light when the key is triggered.

In one embodiment, the device further comprises an indication screen and a driving circuit for driving the indication screen;

the indication screen is integrated with the keys, and when the keys are triggered, the driving circuit drives the indication screen corresponding to the triggered keys to light or display symbols for representing corresponding measurement modes; alternatively, the first and second electrodes may be,

the indication screen is arranged near the keys, and when the keys are triggered, the driving circuit drives the indication screen to display symbols for representing corresponding measurement modes.

In one embodiment, a symbol representing a measurement mode corresponding to a key is arranged on the key surface or in the vicinity of the key.

In one embodiment, the device further comprises a display screen; the keys are virtual keys displayed on the display screen.

In one embodiment, when a key is triggered, the key is displayed on the display screen in a display manner different from other keys and/or the display screen displays a measurement mode corresponding to the key.

In one embodiment, the apparatus further includes an input device and a controller, the input device is configured to receive a setting command of a user for a measurement mode corresponding to a key, and the controller sets the corresponding key to the corresponding measurement mode according to the setting command.

In one embodiment, the device further includes a display screen, and when the key is triggered, the display screen displays the content of the device switched to the measurement mode corresponding to the key.

In one embodiment, the device is a device having a blood routine test function and a specific protein test function; and at least one key corresponding to the measurement mode of the conventional blood determination and the determination of one or more specific proteins of the blood sample.

According to a third aspect, an embodiment provides a measurement mode selection method applied to a device having a blood routine detection function and a specific protein detection function, the method including:

the device receives a signal when a key is triggered; wherein the device provides one or more keys, each key corresponding to a measurement mode;

and the equipment is switched to a measurement mode corresponding to the triggered key.

In one embodiment, at least one of the keys corresponds to a measurement mode for performing a routine blood test and one or more specific protein tests on a blood sample.

In one embodiment, the key is a physical key arranged on a housing of the device, or the key is a virtual key displayed on a display screen of the device, or the key is a physical key or a virtual key on a terminal in communication connection with the device.

According to the sample detection equipment and the measurement mode selection method of the embodiment, one or more keys are introduced, and each key corresponds to the preset measurement mode, so that a user can directly select the measurement mode of the sample by triggering the key without switching different interfaces, menus and the like in matched software, the operation is very convenient and fast, and the efficiency is improved.

Drawings

FIG. 1 is a schematic structural diagram of an apparatus for sample detection according to an embodiment;

FIG. 2 is a diagram of an embodiment in which keys are provided with symbols representing measurement modes corresponding to the keys;

FIG. 3 is a schematic view of an embodiment in which the keys are provided with indicator lights;

fig. 4(a) and 4(b) in fig. 4 are two schematic views in which the keys are provided with indication screens;

FIG. 5 is a schematic structural diagram of an apparatus for sample detection according to another embodiment;

FIG. 6 is a flowchart of a measurement mode selection method according to an embodiment.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings).

In the existing mode, complicated steps such as operating and switching different interfaces and pulling down menus are used for realizing selection and switching of a measurement mode required by a current sample through software matched with equipment, and the like, so that the operation and the switching of the measurement mode are relatively troublesome and influence efficiency.

An embodiment of the present invention discloses a sample detection device (hereinafter referred to as a device) for measuring a sample to obtain a measurement result of the sample. For example, the device is located outside the human body, and clinical diagnosis information is acquired by detecting human body samples (blood, body fluid, tissue, etc.), so that doctors and the like can judge diseases or body functions. Referring to fig. 1, in an embodiment, the apparatus for sample detection is provided with one or more keys 01, each key 01 corresponds to a preset measurement mode, and when each key 01 is triggered, the apparatus is switched to the measurement mode corresponding to the key. For example, 3 keys 01 may be provided in the device, the first key 01 corresponding to the measurement mode CBC + DIFF, the second key 01 corresponding to the measurement mode CBC + DIFF + CRP, and the third key 01 corresponding to the measurement mode CBC + DIFF + CRP + SAA, the device being switched to the measurement mode CBC + DIFF when the first key 01 is actuated, the device being switched to the measurement mode CBC + DIFF + CRP when the second key 02 is actuated, and the device being switched to the measurement mode CBC + DIFF + CPR + SAA when the third key 01 is actuated.

In an embodiment, the key 01 may be a physical key, and the physical keys may be disposed on a housing of the device — for example, the example shown in fig. 1 is a schematic structural diagram of the key 01 being a physical key disposed on the housing. It will be appreciated that when a user presses a physical key, the key is triggered, causing the device to be switched to the corresponding measurement mode.

In order to make the user clearly understand the measurement mode corresponding to each key 01, in an embodiment, a symbol indicating the measurement mode corresponding to the key 01 is disposed on the surface of the key 01 or in the vicinity of the key 01. For example, the symbol of the measurement mode corresponding to the key may be engraved on or near the key surface, or the symbol of the measurement mode corresponding to the key may be pasted or printed on or near the key surface. For example, referring to fig. 2, if the CBC + DIFF measurement mode corresponds to one of the keys 01, a character "CBC + DIFF" may be engraved on or near the key surface, or a character "CBC + DIFF" may be pasted or printed on or near the key surface.

In order to make the user know the current measurement mode and to make the user know which key is pressed, referring to fig. 3, in an embodiment, the device may further include an indicator lamp 02 and a driving circuit (not shown) for driving the indicator lamp, wherein each key 01 is configured with one indicator lamp 02, the indicator lamp corresponding to the key 01 is disposed near the key 01 or integrated with the key 01, and when the key 01 is triggered, the driving circuit 02 drives the corresponding indicator lamp to light up 02. Not to be taken as an example in the schematic diagram of fig. 3, 3 keys 01 may be provided in the device, the first key 01 corresponding to the CBC + DIFF measurement mode, the second key 01 corresponding to the CBC + DIFF + CRP measurement mode, the third key 01 corresponding to the CBC + DIFF + CRP + SAA measurement mode, an indicator lamp 01 may be provided directly above each of the three keys 01, or an indicator lamp 01 in the form of a ring surrounding each key 01 may be provided around the periphery of each key 01, or the keys 01 may be integrated with each indicator lamp 02, i.e. the key 01 itself is a key with an indicator lamp 02, when the first key 01 is pressed, the indicator lamp 02 corresponding to the first key 01 is lit, when the second key 01 is pressed, the indicator lamp 02 corresponding to the second key 01 is lit, when the third key 01 is pressed, the indicator lamp 02 corresponding to the third key 01 is turned on, and it can be understood that when one indicator lamp 02 is turned on, other turned-on indicator lamps are turned off, for example, when the user first presses the first key 01, the indicator lamp 02 corresponding to the first key 01 is turned on, and then the user presses the second key 01 again, the indicator lamp 02 corresponding to the first key 01 is turned off, and the indicator lamp 02 corresponding to the second key 01 is turned on.

The user may also be made aware of the current measurement mode by referencing a pointing screen in some embodiments. For example, referring to fig. 4, in an embodiment, the apparatus may further include an indication panel 03 and a driving circuit (not shown) for driving the indication panel. Specifically, in some embodiments, referring to fig. 4(a), the indication screen 03 is integrated with the key 01, that is, the key 01 itself has the indication screen 03, so that if there are a plurality of keys 01, each key 01 itself has one indication screen 03, and when the key 01 is activated, the driving circuit drives the indication screen 03 corresponding to the activated key 01 to light up or display a symbol representing a corresponding measurement mode. For example, 3 keys 01 may be provided in the device, the first key 01 corresponding to the CBC + DIFF measurement mode, the second key 01 corresponding to the CBC + DIFF + CRP measurement mode, and the third key 01 corresponding to the CBC + DIFF + CRP + SAA measurement mode, wherein when the first key 01 is pressed, the indicator panel 03 corresponding to the first key 01 lights up or displays the character "CBC + DIFF", when the second key 01 is pressed, the indicator panel 03 corresponding to the second key 01 lights up or displays the character "CBC + DIFF + CRP", and when the third key 01 is pressed, the indicator panel 03 corresponding to the third key 01 lights up or displays the character "CBC + DIFF + CRP + SAA". It can be understood that when one indication screen 03 is on or displayed, other indication screens 03 on or displayed may be turned off, for example, when a user first presses a first key 01, the indication screen 03 corresponding to the first key 01 lights or displays a character "CBC + DIFF", and then the user presses a second key 01 again, the indication screen 03 corresponding to the first key 01 turns off, and the indication screen 03 corresponding to the second key 01 lights or displays a character "CBC + DIFF + CRP". In some embodiments, referring to fig. 4(b), the indication screen 03 may also be disposed near the key 01, and when the key 01 is activated, the driving circuit drives the indication screen 03 to display a symbol indicating a corresponding measurement mode. For example, 3 keys 01 may be provided in the device, the first key 01 corresponding to the CBC + DIFF measurement mode, the second key 01 corresponding to the CBC + DIFF + CRP measurement mode, and the third key 01 corresponding to the CBC + DIFF + CRP + SAA measurement mode, when the first key 01 is pressed, the display content on the screen 03 is indicated to be updated to the character "CBC + DIFF" — the schematic shown in fig. 4(b) is just an example when the first key 01 is pressed; when the second key 01 is pressed, the content displayed on the screen 03 is indicated to be updated to the character "CBC + DIFF + CRP", and when the third key 01 is pressed, the content displayed on the screen 03 is indicated to be updated to the character "CBC + DIFF + CRP + SAA".

The above are embodiments in which the key 01 is a physical key, and in some embodiments, the key 01 may also be a virtual key, for example, the key 01 is a virtual key displayed on a display screen of the device, and may be a touch-control virtual key, for example. The touch control display screen can be specially used for the equipment, the display screen is specially used for displaying the virtual keys, and the virtual keys can also be displayed on the existing display screen of the equipment. In some embodiments, each virtual key has a character indicating its corresponding measurement mode, so that the user can clearly understand the measurement mode corresponding to each virtual key 01, and when a key is activated, the activated key 01 is displayed in a display manner different from other keys, for example, highlighted; when the key is triggered, the display screen can also display the measurement mode corresponding to the key.

In some embodiments, the device may be a device having a blood routine test function and a specific protein test function, for example, further may be a device in which blood routine is tested in combination with a specific protein; in this case, for the convenience of the user, at least one of the buttons 01 corresponds to a measurement mode of performing a blood routine measurement on the blood sample and one or more specific protein measurements, the blood routine measurement may include one or more of CBC, DIFF, RET, and NRBC measurements, the specific protein measurement may include one or more of CRP, SAA, PCT, and the like, and when the measurement mode corresponding to the button 01 is the measurement mode of performing the blood routine measurement on the blood sample and one or more specific protein measurements, the measurement mode corresponding to the button 01 may be, but is not limited to CBC + CRP, DIFF + CRP, CBC + SAA, DIFF + SAA, CBC + DIFF + SAA, or CBC + DIFF + RET + CRP, and the like.

Whether the key 01 is a physical key or a virtual key, when the key 01 is triggered, the display screen of the device, for example, the display screen of a computer configured on the device itself or connected to the device through a cable or the like in the prior art, is switched to the content of the measurement mode corresponding to the key, for example, when the key 01 corresponding to the measurement mode of CBC + DIFF + CRP is triggered, the device displays the current measurement mode of "CBC + DIFF + CRP" on the display screen.

In order to facilitate customization by the user and adaptation to different hospitals or departments and the like in the hospitals, in some embodiments, the apparatus may further include a controller 10 and an input device 50, where the input device 50 is configured to receive a setting command of the measurement mode corresponding to the key by the user, for example, the input device 50 may be a keyboard, a mouse, and/or a touch screen, and the controller 10 sets the corresponding key 01 to the corresponding measurement mode according to the setting command. For example, if the measurement mode corresponding to a key 01 is CBC, and the user wishes to modify the measurement mode corresponding to the key 01 to CBC + CRP, the user may input a corresponding setting command through the input device 50, and the controller 10 modifies or sets the measurement mode of the key 01 from CBC to CBC + CRP in response to the setting command for modifying the key 01 from CBC to CBC + CRP. A typical scenario is that the user may count the measurement patterns that he or she uses more frequently or frequently, and then set these measurement patterns to the keys.

The following description will be made by taking an example in which the apparatus for detecting a specimen is the apparatus 100 having a blood-routine detecting function and a specific protein detecting function. In some embodiments, the device having a blood-routine test function and a specific protein test function may be a device in which blood is routinely tested in combination with a specific protein.

Referring to fig. 5, the apparatus having a blood routine test function and a specific protein test function according to an embodiment includes a controller 10, at least one blood routine function module 20, at least one specific protein function mode 30, and a housing 40. Each hematology function module 20 is configured to perform at least one function required to perform a hematology determination on a blood sample, which in one embodiment includes performing a CBC determination, a DIFF determination, a RET determination, and/or an NRBC determination, among others. Each protein-specific functional module 30 is for performing at least one function required for performing a protein-specific assay on a blood sample, including in one embodiment a CRP assay, a SAA assay, and/or a PCT assay. The controller 10 is used for controlling the blood routine function module and the specific protein function module to perform measurement on the blood sample. The shell 40 encloses to form a containing cavity, and the blood routine functional module 20, the specific protein functional module 30 and the controller 10 are at least partially contained in the containing cavity of the shell 40; the housing 40 is provided with one or more keys 01 in signal connection with the controller 10, each key 01 is capable of generating a signal for switching to a measurement mode corresponding to the key 01 when being triggered, and the controller 10 controls the device to switch to the measurement mode corresponding to the signal in response to the signal generated when the key 01 is triggered. For example, 3 keys 01 may be provided in the device, a first key 01 corresponding to the CBC + DIFF measurement mode, a second key 01 corresponding to the CBC + DIFF + CRP measurement mode, and a third key 01 corresponding to the CBC + DIFF + CRP + SAA measurement mode, and when the first key 01 is activated, a signal to switch to the CBC + DIFF measurement mode is generated, and the controller 10 switches the device to the CBC + DIFF measurement mode in response to the signal; similarly, when the second key 01 is activated, a signal to switch to the CBC + DIFF + CRP measurement mode is generated, and the controller 10 switches the apparatus to the CBC + DIFF + CRP measurement mode in response to the signal; similarly, when the third key 01 is activated, a signal to switch to the CBC + DIFF + CRP + SAA measurement mode is generated, and the controller 10 switches the apparatus to the CBC + DIFF + CRP + SAA measurement mode in response to the signal.

In the device having the blood routine detection function and the specific protein detection function according to the embodiment, a symbol indicating a measurement mode corresponding to the key 01 is provided on the surface of the key 01 or in the vicinity of the key 01. For example, the symbol of the measurement mode corresponding to the key may be engraved on or near the key surface, or the symbol of the measurement mode corresponding to the key may be pasted or printed on or near the key surface. This makes it possible for the user to clearly understand the measurement mode corresponding to each key 01.

The device with blood routine detection function and specific protein detection function of an embodiment, as shown in fig. 3, may further include indicator lamps 02 and a driving circuit (not shown) for driving the indicator lamps, wherein each key 01 is configured with one indicator lamp 02, the indicator lamp corresponding to the key 01 is disposed near the key 01 or integrated with the key 01, and when the key 01 is triggered, the driving circuit 02 drives the corresponding indicator lamp to light up.

Referring to fig. 4, the device with a blood routine detection function and a specific protein detection function according to an embodiment may further include an indication screen 03 and a driving circuit (not shown) for driving the indication screen. For example, the indication screen 03 is integrated with the keys 01, that is, the keys 01 are provided with the indication screen 03, so that if a plurality of keys 01 are provided, each key 01 is provided with one indication screen 03, and when the key 01 is triggered, the driving circuit drives the indication screen 03 corresponding to the triggered key 01 to light or display a symbol for indicating a corresponding measurement mode; for another example, the indication panel 03 may be disposed near the key 01, and when the key 01 is activated, the driving circuit drives the indication panel 03 to display a symbol indicating a corresponding measurement mode.

In the device with the blood routine detection function and the specific protein detection function, in order to facilitate the user to quickly switch the measurement mode, at least one key 01 is provided, and the corresponding measurement mode is the measurement mode for performing blood routine determination and one or more specific protein determinations on the blood sample.

Referring to fig. 6, an embodiment of the present invention further provides a measurement mode selection method, which can be applied to a device having a blood routine detection function and a specific protein detection function, for example, a device for detecting blood routine and specific protein jointly, and the measurement mode selection method can include steps 100 and 200, which are described in detail below.

In step 100, the device receives a signal when a key is triggered. Wherein the device provides one or more keys, each key corresponding to a measurement mode. In an embodiment, the key is a physical key arranged on a housing of the device, or the key is a virtual key displayed on a display screen of the device, or the key is a physical key or a virtual key on a terminal in communication connection with the device. In one embodiment, at least one of the keys corresponds to a measurement mode for performing a blood routine measurement and one or more specific protein measurements on a blood sample.

Step 200, the device switches to the measurement mode corresponding to the triggered key.

According to the invention, through setting the keys, the user can conveniently and quickly select the common test mode, and the usability and the operation efficiency are improved.

Those skilled in the art will appreciate that all or part of the functions of the various methods in the above embodiments may be implemented by hardware, or may be implemented by computer programs. When all or part of the functions of the above embodiments are implemented by a computer program, the program may be stored in a computer-readable storage medium, and the storage medium may include: a read only memory, a random access memory, a magnetic disk, an optical disk, a hard disk, etc., and the program is executed by a computer to realize the above functions. For example, the program may be stored in a memory of the device, and when the program in the memory is executed by the processor, all or part of the functions described above may be implemented. In addition, when all or part of the functions in the above embodiments are implemented by a computer program, the program may be stored in a storage medium such as a server, another computer, a magnetic disk, an optical disk, a flash disk, or a removable hard disk, and may be downloaded or copied to a memory of a local device, or may be version-updated in a system of the local device, and when the program in the memory is executed by a processor, all or part of the functions in the above embodiments may be implemented.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the invention and are not intended to be limiting. For a person skilled in the art to which the invention pertains, several simple deductions, modifications or substitutions may be made according to the idea of the invention.

Claims (18)

1. An apparatus for sample testing, comprising:

at least one blood routine function module, each blood routine function module for performing at least one function required for performing a blood routine measurement on a blood sample;

at least one specific protein functional module, each specific protein functional module for performing at least one function required for performing a specific protein assay on a blood sample;

the controller is used for controlling the blood routine function module and the specific protein function module to measure the blood sample;

the shell is enclosed to form a containing cavity, and the blood conventional functional module, the specific protein functional module and the controller are at least partially contained in the containing cavity of the shell;

the shell is provided with one or more keys in signal connection with the controller, each key can generate a signal when being triggered, and the controller responds to the signal generated when the keys are triggered and controls the equipment to be switched to a corresponding measuring mode.

2. The device of claim 1, wherein a symbol is disposed on or near the key surface to indicate a measurement mode corresponding to the key.

3. The device of claim 2, further comprising indicator lights and a driver circuit for driving the indicator lights, wherein each key is provided with an indicator light, and the indicator light corresponding to the key is disposed adjacent to or integral with the key, and wherein the driver circuit drives the corresponding indicator light to illuminate when the key is actuated.

4. The apparatus of claim 2, further comprising an indication screen and a driving circuit that drives the indication screen;

the indication screen is integrated with the keys, and when the keys are triggered, the driving circuit drives the indication screen corresponding to the triggered keys to light or display symbols for representing corresponding measurement modes; alternatively, the first and second electrodes may be,

the indication screen is arranged near the keys, and when the keys are triggered, the driving circuit drives the indication screen to display symbols for representing corresponding measurement modes.

5. The apparatus of claim 1, wherein at least one of said buttons has a measurement mode corresponding to a blood routine measurement and one or more specific protein measurements of the blood sample.

6. The sample detection device is characterized in that one or more keys are arranged, each key corresponds to a preset measurement mode, and when each key is triggered, the device is switched to the measurement mode corresponding to the key.

7. The device of claim 6, wherein the keys are physical keys and are disposed on a housing of the device.

8. The device of claim 7, further comprising indicator lights and a driver circuit for driving the indicator lights, wherein each key is provided with an indicator light, and the indicator light corresponding to the key is disposed adjacent to or integral with the key, and wherein the driver circuit drives the corresponding indicator light to illuminate when the key is actuated.

9. The apparatus of claim 7, further comprising an indication screen and a driving circuit to drive the indication screen;

the indication screen is integrated with the keys, and when the keys are triggered, the driving circuit drives the indication screen corresponding to the triggered keys to light or display symbols for representing corresponding measurement modes; alternatively, the first and second electrodes may be,

the indication screen is arranged near the keys, and when the keys are triggered, the driving circuit drives the indication screen to display symbols for representing corresponding measurement modes.

10. The device of claim 7, wherein a symbol indicating a measurement mode corresponding to a key is disposed on or near the key surface.

11. The device of claim 6, further comprising a display screen; the keys are virtual keys displayed on the display screen.

12. The device of claim 11, wherein when a key is activated, the key is displayed on the display screen in a manner that is distinct from other keys and/or the display screen displays a measurement mode corresponding to the key.

13. The apparatus according to any one of claims 6 to 12, further comprising an input device for receiving a setting command of a measurement mode corresponding to a key by a user, and a controller for setting the corresponding key to the corresponding measurement mode according to the setting command.

14. The device of claim 6, further comprising a display screen that displays the contents of the device being switched to the measurement mode corresponding to a key when the key is being activated.

15. The device of claim 6, wherein the device is a device having a blood routine test function and a specific protein test function; and at least one key corresponding to the measurement mode of the conventional blood determination and the determination of one or more specific proteins of the blood sample.

16. A measurement mode selection method applied to a device having a blood routine detection function and a specific protein detection function, the method comprising:

the device receives a signal when a key is triggered; wherein the device provides one or more keys, each key corresponding to a measurement mode;

and the equipment is switched to a measurement mode corresponding to the triggered key.

17. The method of claim 16, wherein at least one of said buttons corresponds to a measurement mode selected from the group consisting of a blood routine measurement and one or more protein-specific measurements of a blood sample.

18. The method of claim 16, wherein the keys are physical keys disposed on a housing of the device, or wherein the keys are virtual keys displayed on a display of the device, or wherein the keys are physical keys or virtual keys on a terminal communicatively coupled to the device.

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