Miniature dynamic glucometer main frame
Technical field
This utility model relates to electromedical equipment field, more particularly, relates to a kind of miniature dynamic glucometer main frame.
Background technology
The metabolic disease of diabetes to be one group with hyperglycemia be feature.Hyperglycemia be then due to defect of insulin secretion or its biological agent impaired, or both have concurrently and cause.Long-standing hyperglycemia during diabetes, will cause various tissue, particularly eye, kidney, heart, blood vessel, neural chronic lesion, dysfunction.Along with the quickening of present rhythm of life, life stress increases, and some unsound living habit, diabetics increases year by year, and age of onset is more and more less, and the people of a lot of about 30 years old suffers from diabetes, and by heredity, also there are diabetes in the child of a lot of more than 10 year old.
There is no the method for radical cure diabetes at present, can only be controlled diabetes by multiple treatment means.Blood glucose is the unitary basis of diagnosing diabetes, and for diabetics, the domestic portable blood-sugar detecting instrument (products of company's productions such as such as three promises, Omron, fish dive, Roche) by main flow on market carries out blood sugar test.
But the mode that above-mentioned portable blood sugar detector all adopts human body tip to get blood detects: gather user's subcutis liquid by blood collecting pen or blood sampling reagent paper, then utilize colorimetry, electrochemical method or photometer to detect and determine blood sugar level.Use above-mentioned blood sampling reagent paper mode dynamic monitoring user blood glucose to change, at least need 4 blood sugar test papers every day, and need to puncture human body skin blood sampling at least 4 times, cause repeatedly twinge to user, customer experience is poor.In addition, the user blood glucose information content adopting reagent paper dynamic monitoring user blood glucose to obtain is very limited, cannot be judged the change of blood sugar of user by a small amount of blood glucose information analysis.
In addition, also have the dynamic glucometer adopting glucose carbohydrase microelectrode pin to carry out blood sugar test, such dynamic glucometer long periods of wear with it user, and detects the blood glucose wearing period.But above-mentioned dynamic glucometer has larger volume mostly, not only wears inconvenience, and easily affect the freedom of action of wearer.
Utility model content
The technical problems to be solved in the utility model is, the problem that, inconvenience comparatively large for above-mentioned dynamic glucometer volume is worn, and provides a kind of miniature dynamic glucometer main frame.
The technical scheme that this utility model solves the problems of the technologies described above is, a kind of miniature dynamic glucometer main frame is provided, comprise shell and the host circuit board being positioned at shell, described shell is made up of discoidal upper cover and bottom, and described upper cover and bottom are interlocked fixing; Described host circuit board is installed in the cavity between upper cover and bottom, and this host circuit board is electrically connected with main frame electrode terminal; Described bottom is provided with the probe mounting groove of the cavity extended up between upper cover and bottom, and described main frame electrode terminal is electrically connected with probe assembly when probe assembly is assembled to probe mounting groove.
In miniature dynamic glucometer main frame described in the utility model, described probe mounting groove is column, and be made up of the opening being positioned at bottom and the cell wall that vertically protrudes from bottom upper surface, and the height of described cell wall is less than or equal to the distance between bottom and host circuit board.
In miniature dynamic glucometer main frame described in the utility model, described main frame electrode terminal is attached to the lower surface of host circuit board also just to the opening of probe mounting groove.
In miniature dynamic glucometer main frame described in the utility model, described probe mounting groove has the cell wall vertically protruding from bottom upper surface, and the height of described cell wall is less than or equal to the distance between bottom and host circuit board.
In miniature dynamic glucometer main frame described in the utility model, described host circuit board is provided with main control chip, peripheral circuit and the battery for powering for described main control chip and peripheral circuit, and described main frame electrode terminal is connected to main control chip by peripheral circuit.
In miniature dynamic glucometer main frame described in the utility model, the main body of described bottom is circular tabular, and described upper cover is the disc of back-off, and the buckle by edge between described upper cover and bottom fixes.
In miniature dynamic glucometer main frame described in the utility model, the edge of described bottom has vertical flange, and this vertical flange is provided with hole clipping; The vertical flange of the bottom parcel bottom of described upper cover, and position corresponding with hole clipping on inwall is provided with grab.
In miniature dynamic glucometer main frame described in the utility model, the diameter of described shell is no more than 4cm, and thickness is no more than 1cm.
In miniature dynamic glucometer main frame described in the utility model, the cross section of described probe mounting groove is square.
In miniature dynamic glucometer main frame described in the utility model, described circuit board is provided with bluetooth communication module.
Miniature dynamic glucometer main frame of the present utility model has following beneficial effect: encapsulated host circuit board by discoidal upper cover and bottom and arranged mounting groove on bottom, easily probe assembly can be assembled into main frame, and be conducive to the miniaturization of main frame.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of the miniature dynamic glucometer host embodiments of this utility model.
Detailed description of the invention
In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, this utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain this utility model, and be not used in restriction this utility model.
As shown in Figure 1, be the schematic diagram of the miniature dynamic glucometer host embodiments of this utility model, it with probe assembly with the use of, continuous collecting blood sugar for human body data, can realize blood sugar for human body monitoring.Dynamic glucometer main frame in the present embodiment comprises shell and is positioned at the host circuit board 12 of shell, and its housing is made up of discoidal upper cover 11 and bottom 13, and upper cover 11 and bottom 13 are interlocked fixing; Host circuit board 12 is installed in the cavity between upper cover 11 and bottom 13, and this host circuit board 12 is electrically connected with main frame electrode terminal (not shown); Bottom 13 is provided with the probe mounting groove 15 of the cavity extended up between upper cover 11 and bottom 13, and main frame electrode terminal is electrically connected with probe assembly when probe assembly is assembled to probe mounting groove 15.Thus host circuit board 12 can obtain blood glucose associated electrical signals from probe assembly.
Above-mentioned probe mounting groove 15 forms the signal transmission passage between the installation passage of probe assembly and probe assembly and main frame.
In use, probe assembly is installed on probe mounting groove 15, then the glucose enzyme microelectrode in probe assembly is needled into skin (such as arm place), and main frame is fixed on human body skin together with probe assembly.Glucose enzyme microelectrode pin in probe assembly and the blood generation electrochemical reaction in human body, and be sent to host circuit board 12 by main frame electrode terminal, by host circuit board 12, above-mentioned signal is converted to blood glucose level data, thus completes glycemic parameters collection.
Especially, above-mentioned main frame electrode terminal is attached to the lower surface of host circuit board 12, and just to the opening of probe mounting groove 15.Like this, when probe assembly is inserted into probe mounting groove 15, the probe electrode terminal at its top directly touches main frame electrode terminal, realizes the electrical connection of main frame and probe assembly.Certainly, in actual applications, main frame electrode terminal also can be arranged on other positions such as the sidewall of probe mounting groove 15, only need be corresponding with the probe electrode terminal on probe assembly.
Described probe mounting groove 15 is column, and is made up of the opening being positioned at bottom 13 and the cell wall that vertically protrudes from bottom 13 upper surface, and the height of cell wall is less than or equal to the distance between bottom 13 and host circuit board 12.
Above-mentioned host circuit board 12 is provided with main control chip, peripheral circuit and the battery 14 for powering for main control chip and peripheral circuit, and main frame electrode terminal is connected to main control chip by peripheral circuit.By main control chip, the conversion of the signal of telecommunication to blood glucose level data can be realized.The acquisition time, frequency etc. of blood glucose signal all have main control chip control realization.This battery 14 can be button cell, also can be rechargeable lithium battary (correspondingly, host circuit board 12 needs increase charging circuit, shell increases charging inlet).
The main body (part namely except probe mounting groove 15) of bottom 13 is circular tabular, and upper cover is the disc of back-off, and bottom 13 is fixed to the discoidal opening part of upper cover 11 by the buckle at edge.The lower surface of above-mentioned upper cover 11 can have circuit board installation position, such as erection column etc., and host circuit board 12 is fixed in circuit board installation position by buckle or screw etc.
Particularly, in order to keep good sealing property, the edge of bottom 13 can have vertical flange, and this vertical flange is provided with hole clipping; And the vertical flange of the bottom parcel bottom of upper cover 11, and position corresponding with hole clipping on inwall is provided with grab.Especially, the diameter of above-mentioned shell is no more than 4cm, and thickness is no more than 1cm.Certainly, in actual applications, upper cover 11 and bottom 13 also fit together, such as, by screw etc. by other modes.
For realizing the stable installation of probe assembly, the cross section of above-mentioned probe mounting groove 15 is square.
For above-mentioned miniature dynamic glucometer main frame is fixed on human body, the bottom of above-mentioned bottom 13 has hole clipping, thus with the lamellar fixing head snapping (upper surface of this lamellar fixing head has grab, lower surface has medical proof fabric) of probe assembly, thus realize wearing of miniature dynamic glucometer main frame and probe assembly.
Above-mentioned host circuit board 12 can be provided with bluetooth communication module, by bluetooth communication module, the blood glucose level data of collection can be sent to corresponding terminal, such as mobile phone etc., be convenient to analyze.
The above; be only this utility model preferably detailed description of the invention; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that this utility model discloses; the change that can expect easily or replacement, all should be encompassed within protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of claim.