CN216247687U - Electronic interpretation device - Google Patents

Abstract

The utility model provides an electronic interpreter apparatus, comprising: the detection board, the ejector, the shell with the socket and the control panel correspond to indexes to be detected; the ejector is connected with the control panel, and the detection plate is inserted into the ejector through the socket; the detection plate is provided with a detection area, a quality control area and a blank area and is used for dripping liquid to be detected; three photoelectric sensors, a controller and a display are arranged on the control panel; the three photoelectric sensors are respectively used for reading a detection line gray value T, a quality control line gray value C and a blank area gray value G corresponding to the liquid to be detected; the controller outputs the detection result according to T, C and G and sends the detection result to the display for display. The electronic interpreter device disclosed by the utility model can continuously monitor ovulation by replacing a new LH detection plate for many times so as to find the optimal ovulation time; and the monitoring of two indexes can be met by replacing the LH detection plate or the HCG detection plate.

Description

Electronic interpretation device

Technical Field

The utility model relates to the technical field of data detection, in particular to an electronic interpreter device.

Background

Luteinizing hormone LH is secreted by adenohypophysis basophils. LH acts in concert with FSH to maintain the menstrual cycle of the ovaries, leading to ovulation and luteal formation. LH production is controlled by gonadotropin-releasing hormone in the hypothalamus and is regulated by positive and negative feedback of the ovary. The peak of LH release during the menstrual cycle is closely related to ovarian ovulation, and the peak of LH is predicted to 24-36 hours of ovarian ovulation once the peak of LH appears, so that the peak of serum LH can be monitored during the menstrual cycle to determine the optimal conception time.

Human chorionic gonadotropin is a glycoprotein secreted by trophoblast cells of the placenta, and is composed of α and β dimeric glycoproteins. The clinical application of detecting HCG in urine is mainly applied to diagnosis of early pregnancy. Urine HCG of women in childbearing age can show positive after about 7 days of pregnancy, and can be detected by qualitative detection.

Currently, the ovulation period is generally measured by a plurality of detection modes such as a basic body temperature method, vaginal secretion analysis, urine detection and the like, and the change of LH is inconvenient to continuously detect. The ovulation period is detected by the conventional ovulation pen, and the ovulation period of a woman is predicted according to the color depth of the ovulation pen after reaction, so that the ovulation period needs to be distinguished by naked eyes, and a detection result cannot be obtained more intuitively. In addition, reagent strips for detecting early pregnancy are also available on the market, and whether pregnancy happens or not is judged by the color on the reagent strips. However, the two detection methods need to observe the color by naked eyes for judgment, and obviously, the methods are mixed with subjective factors of people and have the problem of misjudgment. Therefore, how to develop an electronic interpreter apparatus to realize continuous automatic detection of LH or HCG is an urgent problem to be solved in the art.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an electronic interpreter device to realize automatic detection of LH or HCG.

To achieve the above object, the present invention provides an electronic interpreter apparatus, comprising:

the detection board, the ejector, the shell with the socket and the control panel correspond to indexes to be detected; the inside of the shell is of a hollow structure and is used for placing the ejector and the control panel; the ejector is connected with the control panel, and the detection plate is inserted into the ejector through the socket; the detection plate is provided with a detection area, a quality control area and a blank area and is used for dripping liquid to be detected;

the control panel is provided with three photoelectric sensors, a controller and a display; the controller is respectively connected with each photoelectric sensor and the display; the three photoelectric sensors are respectively arranged corresponding to the detection area, the quality control area and the blank area;

the three photoelectric sensors are respectively used for reading a detection line gray value T, a quality control line gray value C and a blank area gray value G corresponding to the liquid to be detected; the controller outputs a detection result according to the detection line gray value T, the quality control line gray value C and the blank area gray value G, and sends the detection result to the display, so that the display displays the detection result through the shell.

Optionally, the ejector comprises a base, an ejection button and an ejection assembly; the base is connected with the control panel, the ejection assembly is arranged on the base, the ejection button penetrates through the shell, and the ejection button is connected with the ejection assembly; when the ejection button is pressed down, the ejection component is pushed by pressure to slide forwards on the base, so that the detection plate is ejected.

Optionally, the control panel is further provided with three buckles for connecting the base and the control panel.

Optionally, a photodiode is further disposed on the control panel, and is configured to emit a single light with a wavelength of 325nm to irradiate the quality control line, the detection line, and the blank area of the detection plate, so that the three photosensors determine, according to respective received light signals, a detection line gray value T, a quality control line gray value C, and a blank area gray value G corresponding to the liquid to be detected.

Optionally, an identifier is provided at the socket on the housing for displaying the plugging direction.

Optionally, a battery is further disposed on the control panel for supplying power to each of the photoelectric sensors, the controller and the display.

Optionally, the display is a liquid crystal display.

According to the specific embodiment provided by the utility model, the utility model discloses the following technical effects:

the electronic interpreter device disclosed by the utility model ejects the detected detection plate by arranging the ejector, so that the detection strip which is soaked in urine by hands is avoided; the ovulation can be continuously monitored by replacing a new LH detection plate for many times so as to find the optimal ovulation time; the LH detection plate or the HCG detection plate can be replaced to meet the monitoring requirements of two indexes, the detection result can be visually displayed on a display screen, automatic detection is realized, the operation is simple, and the reaction is rapid; the socket is convenient for the plugging of the detection plate, and the user experience is improved.

Drawings

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

FIG. 1 is a schematic diagram of a detection board corresponding to an index to be detected according to the present invention;

FIG. 2 is a schematic view of the housing of the present invention;

FIG. 3 is a diagram of the control panel structure of the present invention;

FIG. 4 is a view of the construction of the ejector of the present invention;

description of the symbols:

the device comprises a shell-1, a socket-2, a detection plate-3, an identifier-4, an ejection button-5, a display-6, a control panel-7, a photodiode-8, a photoelectric sensor-9, a controller-10, a buckle-11, a battery-12, a gold pad-13, a T line-14 and a C line-15.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The utility model aims to provide an electronic interpreter device to realize automatic detection of LH or HCG.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

Example 1

As shown in fig. 1-3, the present invention discloses an electronic interpreter apparatus, comprising: the detection board 3, the ejector, the shell 1 with the socket 2 and the control panel 7 correspond to indexes to be detected; the inside of the shell 1 is a hollow structure for placing the ejector and the control panel 7; the ejector is connected with the control panel 7, and the detection plate 3 is inserted into the ejector through the socket 2; the detection plate 3 is provided with a detection area, a quality control area and a blank area and is used for dripping liquid to be detected; three photoelectric sensors 9, a controller 10 and a display 6 are arranged on the control panel 7; the controller 10 is respectively connected with each photoelectric sensor 9 and the display 6; the three photoelectric sensors 9 are respectively arranged corresponding to the detection area, the quality control area and the blank area. The housing 1 in this embodiment is preferably a plastic housing.

The three photoelectric sensors 9 are respectively used for reading a detection line gray value T, a quality control line gray value C and a blank area gray value G corresponding to the liquid to be detected; the controller 10 outputs a detection result according to the detection line gray value T, the quality control line gray value C and the blank area gray value G (here, the process of specifically determining the detection result can be implemented by using a single chip microcomputer of any type, and the program stored inside also belongs to the existing program), and sends the detection result to the display 6, so that the display 6 displays the detection result through the housing 1.

When the electronic interpreter device disclosed by the utility model is used for monitoring human chorionic gonadotropin HCG, a detection plate (namely HCG detection plate) corresponding to HCG is selected, when luteinizing hormone LH is monitored, a detection plate (namely an LH detection plate) corresponding to the LH is selected, the LH detection plate and the HCG detection plate are respectively provided with a detection area, a quality control area and a blank area, the detection area is a detection line (namely a T line 14) on the detection plate, the quality control area is a quality control line (namely a C line 15) on the detection plate, and the blank area is a blank area on the detection plate, the differences are that the gold pad 13 in the detection plate is different in antibodies marked by colloidal gold and different in detection line marking antibodies, the antibody marked on the gold pad 13 of the LH detection plate is a mouse anti-LH monoclonal antibody, the detection line marking antibody marked on the T line 14 is a mouse anti-alpha-LH monoclonal antibody, and the antibody marked on the C line 15 is a goat anti-mouse polyclonal antibody; the antibody marked on the HCG detection gold pad is a mouse anti-HCG monoclonal antibody, the detection line marking antibody marked on the T line 14 is a mouse anti-beta-HCG monoclonal antibody, and the antibody marked on the C line 15 is a goat anti-mouse polyclonal antibody.

As shown in fig. 4, the ejector comprises a base, an ejection button 5 and an ejection assembly; the base is connected with the control panel 7, the ejection assembly is arranged on the base, the ejection button 5 penetrates through the shell 1, and the ejection button 5 is connected with the ejection assembly; and when the ejection button 5 is pressed after the monitoring is finished, the ejection component is pushed by pressure to slide forwards on the base so as to eject the detection plate 3.

As an optional embodiment, the present invention further provides three fasteners 11 on the control panel 7 for connecting the base and the control panel 7.

As an optional implementation manner, the present invention further provides a photodiode 8 on the control panel 7, for emitting a single light with a wavelength of 325nm to irradiate the quality control line, the detection line and the blank area of the detection plate 3, so that the three photosensors 9 determine, according to respective received light signals, a detection line gray value T, a quality control line gray value C and a blank area gray value G corresponding to the liquid to be detected. Specifically, after the urine drop to be detected reacts in or is soaked in the three areas, the three areas of the detection plate 3 are irradiated by the photodiode 8 to show colors of different depths, the three areas respectively generate different light signals, and the three photoelectric sensors 9 directly output corresponding gray values, namely a detection line gray value T, a quality control line gray value C and a blank area gray value G, after acquiring the three light signals. Different urine to be detected can correspondingly obtain different gray values.

As an alternative embodiment, the utility model provides an identifier 4 at the socket 2 on the housing 1 for indicating the plugging direction. The identifier 4 in this embodiment may be an arrow or a character.

As an alternative embodiment, the present invention further provides a battery 12 on the control panel 7 for supplying power to each of the photoelectric sensors 9, the controller 10 and the display 6.

As an optional implementation manner, the display 6 of the present invention is a liquid crystal display, and the controller, the electronic sensor, and the photodiode can be implemented by using various existing models, which are not described herein again, and the battery is a 9v button battery.

Example 2

The luteinizing hormone LH standard substance is prepared into standard solutions with the concentrations of 10mIU/mL, 25mIU/mL and 50mIU/mL, the electronic interpreter and a detection plate corresponding to LH are used for detection, each concentration is repeated for 3 times, a new matched detection plate is replaced each time for detection, the result is read from a liquid crystal display screen, the LH sample liquid with the same concentration is detected, the reaction result is consistent, and the specific LH detection result is shown in table 1.

TABLE 1 LH test results table

As can be seen from Table 1, LH was detected at the appropriate concentration using the assay plate for LH<When 25mIU/mL of the memory card is reacted, the memory program sends out a negative instruction, and a display screen displays a circle; when the concentration is more than or equal to 25mIU/mL for reaction, the storage program sends out a positive instruction, and the display screen displays "

". And the electronic interpreter can replace a matched detection reagent for continuous detection, and the detected reagent can be taken down by pressing the ejection button. Repeated detection shows that the reaction results are consistent and the accuracy is good.

Example 3

Preparing HCG standard substance into standard solutions with concentrations of 12.5mIU/mL, 25mIU/mL and 50mIU/mL, detecting with the electronic interpreter and a detection plate corresponding to HCG, repeating each concentration for 3 times, replacing a matched detection plate for detection each time, reading results from a liquid crystal display screen, detecting HCG sample liquid with the same concentration, wherein the reaction results are consistent, and the specific HCG detection results are shown in Table 1.

Table 2 HCG test results table

As can be seen from Table 2, human chorionic gonadotropin was detected using HCG-corresponding detection panels at the appropriate concentrations<When 25mIU/mL of the reaction is carried out, the storage program sends out a negative instruction, and the liquid crystal display screen displays O; when the concentration is more than or equal to 25mIU/mL for reaction, the storage program sends out a positive instruction, and the display screen displays "

". And the electronic interpreter can replace a matched detection board for continuous detection, and a detected reagent can be taken down by pressing an ejection button. Repeated detection shows that the reaction results are consistent and the accuracy is good.

Example 4

Validation of clinical urine samples: the electronic interpreter is used for detecting actual samples in a certain hospital, women with normal menstrual cycle and reproductive age of 23-37 years old are selected for LH and HCG clinical verification, and the detection results are respectively shown in tables 3 and 4:

TABLE 3 LH test results table

As can be seen from Table 3, the results of 89 positive results and 131 negative results of luteinizing hormone detection using the electronic interpreter apparatus disclosed in the present invention are consistent with those of similar products and hospital blood tests.

Table 4 HCG test results table

As can be seen from Table 4, the results obtained by using the electronic interpreter apparatus disclosed in the present invention to detect Human Chorionic Gonadotropin (HCG) showed 90 positive results and 130 negative results, which were consistent with similar products and hospital blood test results.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The principles and embodiments of the present invention have been described herein using specific examples, which are provided only to assist in understanding the core concepts of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the utility model.

Claims (7)

1. An electronic interpreter apparatus, comprising:

the detection board, the ejector, the shell with the socket and the control panel correspond to indexes to be detected; the inside of the shell is of a hollow structure and is used for placing the ejector and the control panel; the ejector is connected with the control panel, and the detection plate is inserted into the ejector through the socket; the detection plate is provided with a detection area, a quality control area and a blank area and is used for dripping liquid to be detected;

the control panel is provided with three photoelectric sensors, a controller and a display; the controller is respectively connected with each photoelectric sensor and the display; the three photoelectric sensors are respectively arranged corresponding to the detection area, the quality control area and the blank area;

the three photoelectric sensors are respectively used for reading a detection line gray value T, a quality control line gray value C and a blank area gray value G corresponding to the liquid to be detected; the controller outputs a detection result according to the detection line gray value T, the quality control line gray value C and the blank area gray value G, and sends the detection result to the display, so that the display displays the detection result through the shell.

2. The electronic interpreter apparatus of claim 1, wherein the ejector comprises a base, an ejector button, and an ejector assembly; the base is connected with the control panel, the ejection assembly is arranged on the base, the ejection button penetrates through the shell, and the ejection button is connected with the ejection assembly; when the ejection button is pressed down, the ejection component is pushed by pressure to slide forwards on the base, so that the detection plate is ejected.

3. The electronic interpreter apparatus of claim 2, wherein three snaps are also provided on the control panel for connecting the base and the control panel.

4. The electronic interpreter apparatus of claim 1, wherein photodiodes are further disposed on said control panel for emitting a single light with a wavelength of 325nm onto the quality control lines, detection lines and blank areas of said detection plate, so that three of said photosensors determine the detection line gray value T, quality control line gray value C and blank area gray value G corresponding to the liquid to be detected according to the respective received light signals.

5. The electronic interpreter apparatus of claim 1, wherein an identifier is provided at a socket on the housing for displaying a plugging direction.

6. The electronic interpreter apparatus of claim 1, wherein a battery is also disposed on the control panel for powering each of the photosensors, the controller, and the display.

7. The electronic interpreter apparatus of claim 1, wherein the display is a liquid crystal display.

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