CN204542143U - Miniature dynamic glucometer probe - Google Patents

Abstract

The utility model provides a probe for a miniature dynamic blood glucose meter, which includes a package shell, a probe circuit board, a probe electrode terminal and a glucose enzyme micro-electrode needle; wherein: the probe circuit board has a microprocessor and a Peripheral circuit, the tail end of the glucose enzyme microelectrode needle is welded on the probe circuit board and is electrically connected with the microprocessor or the peripheral circuit; the probe circuit board is installed in the packaging shell, and the glucose enzyme microelectrode The front end of the electrode needle passes through one end face of the package; one end of the probe electrode terminal is electrically connected to the microprocessor or peripheral circuit on the probe circuit board, and the other end is exposed on the surface of the package. The utility model collects the blood sugar signal through a glucose microelectrode, and realizes the blood sugar data monitoring of the human body by combining with the host of the miniature dynamic blood glucose meter. user experience.

Description

Miniature continuous blood glucose meter probe

technical field

The utility model relates to the field of electronic medical equipment, in particular to a miniature dynamic blood glucose meter probe.

Background technique

Diabetes is a group of metabolic diseases characterized by hyperglycemia. Hyperglycemia is caused by defective insulin secretion or impaired biological action, or both. The long-term high blood sugar in diabetes will lead to chronic damage and dysfunction of various tissues, especially the eyes, kidneys, heart, blood vessels, and nerves. With the acceleration of the pace of life, the increase of life pressure, and some unhealthy living habits, the number of diabetic patients is increasing year by year, and the age of onset is getting younger and younger. Many people around the age of 30 suffer from diabetes, and through genetics, many people in their 10s have diabetes. The child who was 10 years old also developed diabetes.

At present, there is no cure for diabetes, and diabetes can only be controlled through a variety of treatment methods. Blood glucose is the only standard for diagnosing diabetes. For diabetic patients, blood glucose detection can be performed through mainstream household portable blood glucose detectors on the market (such as products produced by companies such as Sinocare, Omron, Yuwell, and Roche).

However, the above-mentioned portable blood glucose detectors all adopt the method of taking blood from the extremities of the human body for detection: the subcutaneous tissue fluid of the user's human body is collected through a blood collection pen or blood collection test paper, and then the blood glucose level is determined by colorimetry, electrochemical method or photometer detection. Using the above blood test strips method to dynamically monitor the blood sugar changes of the user requires at least 4 pieces of blood glucose test strips per day, and at least 4 pricking of the human skin to collect blood, causing multiple stings to the user and poor customer experience. In addition, the amount of user blood glucose information obtained by dynamically monitoring the user's blood glucose with test strips is very limited, and it is impossible to judge the change of the user's blood glucose through analysis of a small amount of blood glucose information.

In addition, there are continuous blood glucose meters that use glucosidase microelectrode needles for blood glucose detection. This type of continuous blood glucose meter has two glucosidase microelectrode needles. To detect blood sugar during wearing. However, most of the above-mentioned dynamic blood glucose meters have a relatively large volume, which is not only inconvenient to wear, but also has two wounds, which makes the user experience slightly worse.

Utility model content

The technical problem to be solved by the utility model is to provide a miniature dynamic blood glucose meter probe for the above-mentioned problem that the dynamic blood glucose meter is large in size and has two wounds when worn.

The technical solution of the utility model to solve the above-mentioned technical problems is to provide a miniature ambulatory blood glucose meter probe, including a package shell, a probe circuit board, a probe electrode terminal and a glucose enzyme microelectrode needle; wherein: the probe The circuit board has a microprocessor and peripheral circuits, and the tail end of the glucose enzyme microelectrode needle is welded on the probe circuit board and is electrically connected with the microprocessor or the peripheral circuit; the probe circuit board is installed in the package shell Inside, and the front end of the glucose enzyme microelectrode needle passes through an end face of the package shell; one end of the probe electrode terminal is electrically connected to the microprocessor or peripheral circuit on the probe circuit board, and the other end is exposed to the package shell s surface.

In the probe of the miniature dynamic blood glucose meter described in the utility model, the package shell is cylindrical, and the glucose enzyme microelectrode needle and the probe electrode terminals are respectively located at both ends of the package shell.

In the miniature ambulatory blood glucose meter probe described in the present utility model, the height of the package shell is less than 0.5 cm, and the cross section is a square less than 0.5 cm*0.5 cm.

In the miniature dynamic blood glucose meter probe described in the present invention, the glucose enzyme microelectrode needle is located in the center of the end face of the packaging shell where it is located and is perpendicular to the end face where it is located.

In the probe of the miniature ambulatory blood glucose meter described in the utility model, the probe further includes a sheet-shaped fixing plate, and the sheet-shaped fixing plate is attached to the end surface of the package shell where the probe is located.

In the probe of the miniature dynamic blood glucose meter described in the utility model, the upper surface of the sheet-shaped fixing plate has a structure fixed to the lower surface of the host of the miniature dynamic blood glucose meter, and the lower surface has a medical adhesive layer.

In the probe of the miniature dynamic blood glucose meter described in the utility model, the upper surface of the sheet-shaped fixing plate and the lower surface of the main body of the miniature dynamic blood glucose meter are fixed by hooks.

In the miniature ambulatory blood glucose meter probe described in the present utility model, the sheet-shaped fixing plate is circular.

In the probe of the miniature ambulatory blood glucose meter described in the utility model, the sheet-shaped fixing plate is integrated with the package shell.

In the miniature dynamic blood glucose meter probe described in the present utility model, the length of the front end of the glucose enzyme microelectrode needle passing through the end face of the packaging shell is 4.3-4.9 mm.

The miniature dynamic blood glucose meter probe of the utility model has the following beneficial effects: the blood glucose signal is collected through a glucose enzyme microelectrode, and combined with the miniature dynamic blood glucose meter host to realize the monitoring of human blood glucose data, and only one wound is needed when it is implanted into human skin , can reduce the pain during implantation, thereby enhancing the user experience.

Description of drawings

Fig. 1 is a schematic diagram of an embodiment of the probe of the miniature ambulatory blood glucose meter of the present invention.

Detailed ways

In order to make the purpose, technical solution and advantages of the utility model clearer, the utility model will be further described in detail below in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described here are only used to explain the utility model, and are not intended to limit the utility model.

As shown in Figure 1, it is a schematic diagram of an embodiment of the probe of the miniature dynamic blood glucose meter of the present invention. The probe can cooperate with the host of the miniature dynamic blood glucose meter to continuously collect blood glucose data of the human body, thereby realizing the monitoring of the blood glucose data of the human body. The continuous blood glucose meter probe in this embodiment includes a package shell 11, a probe circuit board, a probe electrode terminal 13, and a glucose enzyme microelectrode needle 12; wherein the probe circuit board has a microprocessor and peripheral circuits, glucose The tail end of the enzyme microelectrode needle 12 is welded on the probe circuit board and electrically connected with the microprocessor or peripheral circuit; the probe circuit board is installed in the package shell 11, and the front end of the glucose enzyme microelectrode needle passes through the package shell 11; one end of the probe electrode terminal 13 is electrically connected to the microprocessor or peripheral circuit on the probe circuit board, and the other end is exposed on the surface of the package shell 11.

When in use, the above-mentioned probes are assembled to the main body of the miniature dynamic blood glucose meter through the packaging shell 11 (the main body has a probe installation groove that matches the shape of the packaging host), and realize the electrical connection between the probe circuit board and the host through the probe electrode terminal 13. The front end of the glucose enzyme microelectrode needle 12 pierces the human skin, and electrochemically reacts with the body fluid, and the electrical signal generated by it is initially processed by the microprocessor and peripheral circuits on the probe circuit board, and then transmitted through the probe electrode terminal 13 The probe is connected to the host computer, and the electrical signal is further converted into blood glucose data by the host computer, so as to realize the collection of blood glucose data of the human body.

In particular, the above-mentioned packaging shell 11 is cylindrical (that is, the section along the axis direction is the same), and the glucose enzyme microelectrode needle 12 and the probe electrode terminal 13 are respectively located at both ends of the packaging shell 11 . In this way, after the package shell 11 is inserted into the probe installation groove of the host and is in place, the probe electrode terminals 13 are abutted against the electrical connection part of the host (located at the bottom of the probe installation groove). Of course, in practical applications, the probe electrode terminal 13 can also be located on other end surfaces of the package shell 11, as long as it is not located on the same end surface as the glucose enzyme microelectrode needle 12, and correspondingly, the electrical connection part on the host is also located on the probe. Corresponding position of the needle mounting groove.

In the example shown in FIG. 1 , the package case 11 may be a square quadrangular prism with a height less than 0.5 cm and a cross section less than 0.5 cm*0.5 cm. Of course, in practical applications, the encapsulation shell 11 may also be in other shapes or sizes, such as cylindrical, hexagonal prism and so on. In order to ensure that the glucose enzyme microelectrode needle 12 can smoothly contact the body fluid without causing trauma to the human body, the length of the front end of the microelectrode needle 12 passing through the end face of the packaging shell 11 is 4.3-4.9 mm.

In order to ensure stable fixation, the glucose enzyme microelectrode needle 12 can be located in the center of the end surface of the packaging shell where it is located and perpendicular to the end surface where it is located.

The above-mentioned probes may also include a sheet-shaped fixing plate, and the sheet-shaped fixing plate 14 is attached to the end surface (ie, the bottom surface) of the package case 11 where the probes are located. The sheet-shaped fixing plate 14 can be fixed on the package case 11 by buckling, gluing, etc., or can be integrated with the package case 11 .

The upper surface of the sheet-shaped fixing plate 14 has a structure fixed to the lower surface of the main body of the miniature dynamic blood glucose meter, and the lower surface has a medical adhesive layer. In particular, the sheet-shaped fixing plate 14 can match the shape of the bottom surface of the miniature continuous blood glucose meter, for example, it is circular. And the fixing structure between the upper surface of the sheet-shaped fixing plate 14 and the lower surface of the main body of the micro dynamic blood glucose meter can adopt a hook.

The above is only a preferred embodiment of the utility model, but the scope of protection of the utility model is not limited thereto, and any person familiar with the technical field can easily think of All changes or replacements should fall within the protection scope of the present utility model. Therefore, the protection scope of the present utility model should be based on the protection scope of the claims.

Claims (10)

1. a miniature dynamic glucometer probe, is characterized in that: comprise encapsulating shell, probe circuit plate, probe electrode terminal and a glucose enzyme microelectrode pin; Wherein: described probe circuit plate has microprocessor and peripheral circuit, the tail end of described glucose enzyme microelectrode pin to be welded on probe circuit plate and to be electrically connected with microprocessor or peripheral circuit; Described probe circuit plate is installed in encapsulating shell, and the front end of described glucose enzyme microelectrode pin passes an end face of encapsulating shell; The surface that one end of described probe electrode terminal is electrically connected to microprocessor on probe circuit plate or peripheral circuit, the other end is exposed to encapsulating shell.

2. miniature dynamic glucometer probe according to claim 1, it is characterized in that: described encapsulating shell is cylindricality, and glucose enzyme microelectrode pin and probe electrode terminal lays respectively at the two ends of encapsulating shell.

3. miniature dynamic glucometer probe according to claim 2, is characterized in that: the height of described encapsulating shell is less than 0.5cm, cross section is the square being less than 0.5cm*0.5cm.

4. miniature dynamic glucometer probe according to claim 1, is characterized in that: described glucose enzyme microelectrode pin be positioned at the end face of place encapsulating shell central authorities and perpendicular to place end face.

5. miniature dynamic glucometer probe according to claim 1, is characterized in that: described probe also comprises lamellar fixing head, and this lamellar fixing head is affixed on the probe place end face of encapsulating shell.

6. miniature dynamic glucometer probe according to claim 5, is characterized in that: the upper surface of described lamellar fixing head has the structure fixing with the lower surface of miniature dynamic glucometer main frame, lower surface has medical adhesive adhesion coating.

7. miniature dynamic glucometer probe according to claim 6, is characterized in that: the structure that the upper surface of described lamellar fixing head and the lower surface of miniature dynamic glucometer main frame are fixed is grab.

8. miniature dynamic glucometer probe according to claim 5, is characterized in that: described lamellar fixing head is for circular.

9. miniature dynamic glucometer probe according to claim 5, is characterized in that: described lamellar fixing head and encapsulating shell one.

10. miniature dynamic glucometer probe according to claim 1, is characterized in that: the length that the front end of described glucose enzyme microelectrode pin passes the end face of encapsulating shell is 4.3-4.9 millimeter.