CN201662554U - Testing system and test block structure thereof - Google Patents

Abstract

The utility model discloses a testing system and a test block structure thereof, wherein the test block structure has an identification function. According to the embodiment of the utility model, the test block with the identification function is provided and comprises a test block body, a testing unit, an identification unit, a testing terminal, a temperature sensing unit and a humidity sensing unit, wherein the identification unit is a continuous conductor pattern. A testing device comprises a reading interface unit, a microprocessing unit, a display unit and a storage unit, wherein the testing device can contain the test block, read an identification signal of the identification unit of the test block and a testing signal of the testing unit by the reading interface unit, and finally conduct calculation according to the corresponding characteristic data and correction parameter as well as the testing signal in the storage unit of identification signal so as to obtain one testing result and be displayed on the display unit. The utility model can provide great convenience for a user or a patient and can obtain accurate testing results.

Description

Test macro and test piece structure thereof

Technical field

The utility model relates to a kind of multipurpose test system and has the test piece of discriminating function, relates in particular to a kind of proving installation applicable to the multiple test piece that possesses identification unit, and wherein test piece is the system with electrochemical means sensing one special component.

Background technology

Along with science and technology, medical treatment and sanitary progress, the mean lifetime in the world also constantly prolongs.Especially in advanced country, because popularizing of the lifting of quality of the life and medical care makes elderly population more and more.Therefore, chronic disease has also replaced pathologies such as acute infection gradually, becomes the most general disease of elderly population.The origin cause of formation of these chronic diseases is often relevant with life and eating habit, therefore, if fail effective disease controlling, just may cause many complication, or face the painful and dead threat of disease, except expending more medical resource and expense, more can influence own and relatives' quality of the life.In view of this, looking after of chronic disease becomes the subject under discussion that health and health care are paid attention to.In these chronic diseases, be modal disease, and often be in the ten big causes of the death with diabetes.Therefore, be example with diabetes, immediately monitoring blood sugar is also regularly taken medicine, and promptly may command reaches the development of stablizing the state of an illness.So, in the face of these chronic diseases, monitor and follow the trail of healthy indexes such as blood sugar, blood fat, cholesterol at any time and carefully, and look after and treat according to these body indexs in time, can significantly prevent or delay the generation of complication.

In view of this, if can carry out healthy indexes such as self-monitoring of blood glucose, blood fat, cholesterol, can carry out the monitoring of instant physical condition, and immediately carry out the development of taking of daily life system adjustment, diet regulation and control and medicine, rush towards the trouble that hospital checks and treats thereby can save with disease controlling.Can also pass through the healthy index of at-once monitor, avoid or delay the generation of many chronic disease complication.

For this reason, the big medical equipment of in the world each manufacturer develops the proving installation of this kind house self-monitoring and relevant test piece invariably with all strength.The proving installation of these self-monitorings has handled easily, at-once monitor, record and the high characteristic of accuracy rate continuously.But because each employed measuring technology difference of big medical equipment manufacturer, test parameter is also different, and the test drug dose that is contained in each even test piece of making is also variant.Therefore, in order to proofread and correct this species diversity, each big factory all releases special-purpose test machine and special-purpose correction test piece, and these test machines all need can correctly test through the correction of overcorrect test piece before each test.This all is the thing of very complicated for user or sufferer, particularly, if user or sufferer are forgotten proofread and correct earlier and directly test, then can obtain inaccurate test result, just cause user, sufferer or even doctor erroneous judgement easily for the state of an illness.

Figure 1A is depicted as the test synoptic diagram of traditional proving installation and test piece thereof.

Please refer to Figure 1A.Figure 1A be depicted as traditional proving installation 1 with and test piece 2.Dispose a display unit 3 on the proving installation 1 to show test results or other information.Traditional proving installation 1 has a slot (not shown) in addition, can insert for test piece 2, and wherein, test piece 2 can be divided into proofreaies and correct test piece or test test piece.Therefore, when traditional proving installation 1 is inserted in test piece 2, traditional proving installation 1 and according to the kind of test piece 2 to proofread and correct or to test, control information or test result are shown on the display unit 3 know at last for user or sufferer.In addition, a test cell 4 is arranged in test piece 2, be available for users to or sufferer splashes into blood or body fluid carrying out electrochemical reaction, thereby obtain relevant test signal.

Figure 1B is depicted as the structural representation of traditional test piece.

Please refer to Figure 1B, traditional test piece 2 has a test cell 4 and a calibrating terminal 5, and calibrating terminal 5 has a plurality of conducting terminals for traditional proving installation 1 input test voltage or measuring current, and for traditional proving installation 1 read test result.Wherein, calibrating terminal 5 has the sub-27a of at least one hook end, the sub-27a of this hook end has the conducting terminal of at least two different lengths, and electrically connect in the other end, 1 of traditional proving installation can be by the situation that contact conducting of the sub-27a of this hook end with traditional proving installation 1, judged the contact condition of test piece 2 and traditional proving installation 1, can avoid test piece 2 and traditional proving installation 1 to produce wrong test result because of connectivity problem.

Summary of the invention

The purpose of this utility model is to provide a kind of test piece with discriminating function, and it is applicable to a kind of multipurpose test system.

The purpose of this utility model is to propose a kind of multipurpose test system, can support the test test piece of numerous species, can produce the convenience of very big degree for user or sufferer, and, the utility model also proposes these test pieces to have from the normal moveout correction and the automatic function of identification, user or sufferer just can only be bought a multipurpose test system so, promptly can use multiple test test piece expediently, and can save the action of proofreading and correct earlier before the test, can obtain test result accurately.

Embodiment of the present utility model provides a kind of test piece with identification unit, wherein, test piece has an identification unit, identification unit is a kind of continuous conductors pattern, can read wherein identification signal for multipurpose test system, and compare, can obtain the test parameter of corresponding test piece with the memory cell of multipurpose test system, so can save corrective action, and can make multipurpose test system to read and to test the test piece of numerous species.

An embodiment of the present utility model provides a kind of test piece structure, wherein, comprising: a test piece body is positioned in this test piece; One test cell is positioned on this test piece body; One calibrating terminal is positioned at an end of this test piece body, has a plurality of conducting terminals, and described a plurality of conducting terminal electrically connects with this test cell one of at least; And an identification unit, being positioned at least one side of this test piece body, this identification unit is that a continuous conductors pattern reads and produce an identification signal for this multipurpose test system.

Another embodiment of the present utility model provides a kind of test piece structure with discriminating function, wherein, comprising: a test piece body; One test cell is positioned on this test piece body; One calibrating terminal is positioned at an end of this test piece body, and electrically connects with this test cell; And a continuous conductors pattern, be positioned at least one side of this test piece body, and electrically connect with this calibrating terminal.

Another embodiment of the present utility model provides a kind of test piece structure, and it can be contained in the multipurpose test system, wherein, comprising: a test cell is positioned in this test piece; One calibrating terminal is positioned in this test piece, has a plurality of conducting terminals, and described a plurality of conducting terminal electrically connects with this test cell one of at least; And an identification unit, being integrated in this calibrating terminal, the permutation and combination of its quantity by described a plurality of conducting terminals and position to be producing an identification signal, and reads this identification signal for this multipurpose test system.

An embodiment more of the present utility model provides a kind of test piece structure, and it can be contained in the multipurpose test system, wherein, comprising: a test cell is positioned in this test piece; One calibrating terminal is positioned at an end of positive and a reverse side of this test piece, has a plurality of conducting terminals, and described a plurality of conducting terminal electrically connects with this test cell one of at least; And an identification unit, being integrated in this calibrating terminal, the permutation and combination of its quantity by described a plurality of conducting terminals and position to be producing an identification signal, and reads this identification signal for this multipurpose test system; Wherein, this identification unit has at least one boring so that be positioned at this front of this test piece separately and described a plurality of conducting terminals of this reverse side have one of at least an electrical connection.

The utility model provides a kind of test macro, wherein, comprise: a multipurpose test system, comprise a microprocessing unit, a fetch interface unit, a memory cell and a display unit, wherein this microprocessing unit electrically connects with this display unit, this fetch interface unit and this memory cell respectively; And a test piece, comprise a test cell, a calibrating terminal and an identification unit, and this test piece is connected with this fetch interface unit of this multipurpose test system by this calibrating terminal; Wherein, this test cell and this calibrating terminal electrically connect, and this identification unit is a continuous conductors pattern.

Multipurpose test system of the present utility model can be tested for multiple test piece, wherein, multipurpose test system comprise a display unit with show test results, a microprocessing unit, a memory cell stores have the test parameter of various test pieces, a fetch interface unit to can read the identification signal and the test signal of test piece.Wherein, microprocessing unit is then compared with memory cell according to the identification signal of test piece and is obtained the test parameter of corresponding test piece, and microprocessing unit calculates to obtain test result according to the test parameter and the test signal of corresponding test piece.

The utility model can for the user or sufferer produces the convenience of very big degree, and can obtain test result accurately.

Above general introduction and ensuing detailed description and accompanying drawing all are to be that mode, means and the effect that purpose is taked is scheduled in realization in order to further specify the utility model.And relevant other purposes of the present utility model and advantage will be set forth in follow-up explanation and accompanying drawing.

Description of drawings

Figure 1A is depicted as the test synoptic diagram of traditional proving installation and test piece thereof.

Figure 1B is depicted as the structural representation of traditional test piece.

Fig. 2 A is depicted as the test synoptic diagram according to the multipurpose test system of the utility model embodiment and test piece thereof.

Fig. 2 B is depicted as according to the multipurpose test system of the utility model embodiment and the module diagram of test piece thereof.

Fig. 3 A, Fig. 3 B and Fig. 3 C are depicted as the test piece structural drawing with discriminating function according to the utility model embodiment.

Figure 4 shows that test piece structural drawing with discriminating function according to another embodiment of the utility model.

Fig. 5 is the test flow chart according to the utility model embodiment.

Description of reference numerals in the above-mentioned accompanying drawing is as follows:

10: multipurpose test system

11: test piece

12: test cell

13: display unit

21: identification unit

22: the fetch interface unit

23: microprocessing unit

24: memory cell

25: temperature sensing unit

26: the humidity unit

27: calibrating terminal

27a: hook end

31: the continuous conductors pattern

32: identification signal

41: the identification memory cell

S51: insert test piece

S52: read the test piece supplemental characteristic

S53: test

S54: read the test piece test signal

S55: calculate test signal

S56: show test results

Embodiment

Fig. 2 A is depicted as the test synoptic diagram according to the multipurpose test system of the utility model embodiment and test piece thereof.

Please refer to Fig. 2 A.Fig. 2 A is depicted as the multifunctional test system according to the utility model embodiment, comprise a multipurpose test system 10 with and test piece 11.Dispose a display unit 13 on the multipurpose test system 10 to show test results or other information.Multipurpose test system 10 has a slot (not shown) in addition, can insert for test piece 11, to carry out interpretation test piece kind, to read test piece correction parameter and test signal, at last according to test signal and correction parameter, the test parameter that cooperates the test piece 11 of going up multifunctional testing machine 10 internal memories can obtain test result accurately with after carrying out computing again.In addition, a test cell 12 is arranged in test piece 11, be available for users to or sufferer splashes into blood or body fluid carrying out electrochemical reaction, thereby obtain relevant test signal.

Fig. 2 B is depicted as according to the multipurpose test system of the utility model embodiment and the module diagram of test piece thereof.

Please refer to Fig. 2 B.As Fig. 2 B be depicted as according to the multipurpose test system 10 of the multifunctional test system of the utility model embodiment with and the module diagram of test piece 11.Multipurpose test system 10 comprises a display unit 13, fetch interface unit 22, a microprocessing unit 23 and a memory cell 24.11 of test pieces comprise a test cell 12, identification unit 21, temperature sensing unit 25, humidity unit 26 and one group of calibrating terminal 27.

The calibrating terminal 27 of test piece 11 electrically connects with test cell 12, temperature sensing unit 25, humidity unit 26 and identification unit 21 respectively, and, test piece 11 is connected with the fetch interface unit 22 of multipurpose test system 10 by calibrating terminal 27, so that multipurpose test system 10 is provided test voltage or measuring current, make test cell 12 carry out electrochemical reaction, and make multipurpose test system 10 be read temperature signal, moisture signal and the identification signal of temperature sensing unit 25, humidity unit 26 and identification unit 21 respectively.

The microprocessing unit 23 of multipurpose test system 10 electrically connects with display unit 13, and display unit 13 is subjected to the control of microprocessing unit 23 and shows test results or other information.Microprocessing unit 23 also electrically connects with memory cell 24, and has the test parameter of various test pieces in the memory cell 24.Microprocessing unit 23 in addition and fetch interface unit 22 electrically connect, and may command fetch interface unit 22 provides test voltage or measuring current by 27 pairs of test cells 12 of calibrating terminal, so that the test cell of test piece 11 12 carries out electrochemical reaction.Microprocessing unit 23 also can be obtained the test signal of the test cell 12 of test piece 11 by fetch interface unit 22 and calibrating terminal 27.In addition, microprocessing unit 23 also can read the identification signal of the identification unit 21 of test piece 11 by fetch interface unit 22, and compare and the kind of identification test piece 11 with the test piece testing parameter data of 24 internal memories of memory cell according to this, perhaps, identification unit 21 also can include the correction parameter of test piece 11, makes microprocessing unit 23 be obtained the correlation-corrected parameter of test piece 11 to proofread and correct test result.

In addition, test piece 11 also comprises a temperature sensing unit 25 and a humidity unit 26, but the temperature in sensing when test and humidity to be producing corresponding temperature and moisture signal, and temperature and moisture signal will test the time are passed to multipurpose test system 10 by calibrating terminal 27 and fetch interface unit 22.These temperature and moisture signal can carry out the adjustment of suitable test parameter or correction parameter for multi-functional sensing apparatus 10, so that accuracy of test improves.

In general, test piece 11 is subjected to the influence of the temperature and the humidity of environment usually easily, cause the deviation of test result, therefore, if configuration this kind temperature sensing unit 25 and humidity unit 26 in test piece 11, get final product the temperature and the humidity of sensitive context, thereby promote test accuracy significantly.And, temperature sensing unit 25 and humidity unit 26 also can carry out the sensing of temperature and humidity to the test cell 12 of test piece 11, so can carry out the monitoring of quality to the test medicament that test cell 12 includes, avoiding the testing influence that medicament is subjected to environment temperature or humidity, and then have influence on accuracy of test.

Please also refer to Fig. 2 A and Fig. 2 B.When multipurpose test system 10 is inserted in test piece 11, the microprocessing unit 23 of multipurpose test system 10 promptly reads the identification unit 21 of test piece 11 by fetch interface unit 22, and identification unit 21 contained identification signal and correction parameters are sent to microprocessing unit 23.Microprocessing unit 23 receives this identification signal and correction parameter, and this identification signal and memory cell 24 are compared to obtain the correct corresponding test parameter of test piece 11.Then, microprocessing unit 23 provides corresponding test voltage or measuring current to calibrating terminal 27 again according to test piece 11 pairing test parameters by fetch interface unit 22, carries out electrochemical reaction for the test cell 12 of test piece 11.At last, when test cell 12 is finished electrochemical reaction, microprocessing unit 23 promptly passes through the test signal of fetch interface unit 22 and calibrating terminal 27 read test unit 12, and cooperate the temperature and the moisture signal of the correction parameter of test piece 11 pairing test parameters, identification unit 21 and temperature sensing unit 25, humidity unit 26, carry out the computing of test result, finally can obtain a test result, microprocessing unit 23 is about to test result and is shown in display unit 13.

Wherein, fetch interface unit 22 also can read the temperature sensing unit 25 of test piece 11 and the temperature and the moisture signal of humidity unit 26, and this temperature and moisture signal are sent to microprocessing unit 23.Microprocessing unit 23 receives these temperature and humidity information, and adjusts test piece 11 pairing test parameters according to this or adjust final test result, so, can obtain test result more accurately.In addition, if temperature that microprocessing unit 23 is received or moisture signal surpass a predetermined value respectively, then judge test piece 11 inefficacies, and be shown in display unit 13, to allow user or sufferer change test piece 11, again test again, thereby avoid test errors or the inaccurate problem of test result.

Wherein, the identification signal of identification unit 21 also can comprise the correction parameter of corresponding test piece 11 except the kind or model of recognizable test piece 11, so can be so that test result is more accurate.Perhaps, identification signal also can comprise test parameter, therefore can remove the program that 23 pairs of memory cells 24 of microprocessing unit are compared from.Certainly, if do not store the test parameter of corresponding test piece 11 in the memory cell 24, also the test parameter that identification unit 21 can be comprised is stored in the memory cell 24 as new data more, uses for test next time.

Fig. 3 A, Fig. 3 B, Fig. 3 C are depicted as the test piece structural drawing with discriminating function according to the utility model embodiment.

Please refer to Fig. 3 A and Fig. 3 B.Fig. 3 A and Fig. 3 B are depicted as the structural representation according to the test piece with identification unit 21 11 of the utility model embodiment.Test piece 11 comprises a test cell 12, temperature sensing unit 25, humidity unit 26, identification unit 21 and one group of calibrating terminal 27.

Calibrating terminal 27 has a plurality of conducting terminals, wherein have at least two conducting terminals and test cell 12 to electrically connect, the active electrode (not shown) of one of them conducting terminal and test cell 12 electrically connects, and another conducting terminal then electrically connects with the reference electrode (not shown) of test cell 12.Also develop the measuring technology that three conducting terminals in recent years, wherein have two conducting terminals and electrically connect with two active electrode (not shown)s of test cell 12 respectively, another conducting terminal then electrically connects with the reference electrode (not shown) of test cell 12.In general, in two active electrodes, one can contain corresponding test medicament, and another does not then have, and the active electrode that does not have the test medicament mainly is to produce some undesired signals, so can be so that test signal is more accurate.In addition, calibrating terminal 27 has the sub-27a of hook end of at least one group of different length, its other end electrically connects, utilize the shaped design of the sub-27a of this kind hook end, can make the situation that reads the conducting terminal contact conducting of boundary element 22 by having different length therewith of multipurpose test system 10, judged the contact condition of test piece 11 and multipurpose test system 10, can avoid test piece 11 and multipurpose test system 10 to produce wrong test result because of connectivity problem.

Above-mentioned calibrating terminal 27 is connected to test cell 12, providing a path to make multipurpose test system 10 be provided test voltage or measuring current to make test cell 12 carry out electrochemical reaction, and provide a path to make multipurpose test system 10 be able to the test signal that read test unit 12 produces.

In present embodiment, identification unit 21 as shown in Figure 3A mainly possess the continuous conductors shape shown in continuous conductors pattern 31, and these continuous conductors patterns 31 can be connected to calibrating terminal 27 for being arranged at the circuit structure of test piece 11 both sides.These continuous conductors patterns 31 only need to provide a voltage in being connected to calibrating terminal 27 1 ends, can read the identification signal 32 of continuous conductors pattern 31 by the many groups conductive junction point (not shown) that is positioned at fetch interface unit 22.For instance: conductive junction point can possess a length-specific, and when multifunctional testing machine 10 was inserted in test piece 11, conductive junction point can electrically connect with a bit of continuous conductors shape, therefore can detect a specific voltage, thereby produce a noble potential; Otherwise, if conductive junction point can't be connected with the continuous conductors shape, then produce an electronegative potential, therefore can obtain the digital signal shown in identification signal 32.Therefore, aforesaid many group conductive junction points can be set in the fetch interface unit 22 of the multipurpose test system shown in Fig. 2 B 10, can obtain the digital signal shown in identification signal 32.Wherein, adopt the continuous conductors pattern 31 of a side 8-bits in present embodiment, so both sides can have altogether the signal of 16-bits to change, in addition, also can make similar continuous conductors pattern 31 to test piece 11 back sides, the signal that so can obtain 32-bits changes.So, identification unit 21 promptly has identification signal 32 and the correction parameter of enough signal variations with storage test piece 11.Those of ordinary skills also can increase the bit number of continuous conductors pattern 31, change to hold more substantial identification signal and correction parameter thereby obtain more substantial signal.

In another embodiment of the utility model, debating shown in Fig. 3 B known the continuous conductors pattern 31 of unit 21, and wherein continuous conductors pattern 31 also can be an independently continuous conductors shape, i.e. the independently continuous conductors shape that does not electrically connect with calibrating terminal 27.Therefore, can directly utilize conductive junction point to provide a voltage in an end of continuous conductors shape, thereby other wire joining then can obtain its corresponding voltage signal in its corresponding continuous conductors shape, can obtain the identification signal 32 that continuous conductors pattern 31 is included.Other methods that obtain identification signal 32 repeat no more in this as mentioned above.

Be depicted as according to another embodiment of the present utility model as Fig. 3 C, identification unit 21 can be integrated with calibrating terminal 27, identification unit 21 can utilize the quantity of conducting terminal of calibrating terminal 27 and the variation of position to carry out permutation and combination, can produce its pairing identification signal, promptly be, utilize the permutation and combination of the variation of the quantity of conducting terminal of various calibrating terminals 27 and position, can produce various identification signal with the kind of identification test piece 11 or hold test parameter or correction parameter.In addition, this permutation and combination also can be included the position of the sub-27a of hook end in consideration.For example: calibrating terminal 27 can be one group 10 or more conducting terminal, and can be arranged at the front and the reverse side of test piece 11, therefore can possess more conducting terminal.When multipurpose test system 10 is inserted in test piece 11, then can utilize the conducting terminal of one or more ad-hoc locations, get final product the kind of the test event of this test piece 11 of identification, for example can be the test piece 11 of testing blood sugar, blood fat or can measuring other health parameters.Promptly be, when multipurpose test systems 10 are inserted in test piece 11, can be according to the distribution situation of the conducting terminal of the calibrating terminal in the test piece 11 27, judge, and can in the middle of memory cell 24, read corresponding test parameter and correction parameter according to these distribution situations, can test.And, in the present embodiment, also the front and the reverse side of the calibrating terminal 27 of test piece 11 can be got through boring, so that one or more conducting terminals of one or more conducting terminals in test piece 11 fronts and test piece 11 reverse side electrically connect, the variation of more permutation and combination can be produced whereby so that hold more test parameter or the information of correction parameter.In addition, can get through the mode of boring by this kind, make the front of test piece 11 and the conducting terminal of reverse side can replace the sub-27a of aforesaid hook end, with the connection state of test test piece 11, thereby avoid test piece 11 and multipurpose test system 10 to produce wrong test result because of connectivity problem with multipurpose test system 10.

In addition, temperature sensing unit 25 and humidity unit 26 are disposed at the both sides of test piece 11, and the conducting terminal with calibrating terminal 27 electrically connects respectively, wherein, can distinguish the temperature and the humidity of the test medicament in sensing test environment and the test cell 12, and temperature and the moisture signal that is detected is sent to microprocessing unit 23 by calibrating terminal 27 and fetch interface unit 22.Microprocessing unit 23 receives this temperature and moisture signals, and adjusts the test parameter of test piece 11 according to this, even can be when this temperature or humidity surpass a predetermined value, i.e. the test cell 12 of decidable test piece 11 includes medicament and lost efficacy.Related description repeats no more as previously mentioned.

Please also refer to Fig. 2 B and Fig. 3 A, Fig. 3 B.After multipurpose test system 10 is inserted in test piece 11, fetch interface unit 22 promptly reads the identification signal 32 of identification unit 21, the identification signal 32 of the 16-bits of continuous conductors pattern 31 as mentioned above, and this identification signal 32 is sent to microprocessing unit 23 by fetch interface unit 22, wherein, identification signal 32 can comprise the correction parameter of test piece 11 in addition.Microprocessing unit 23 receives this identification signal 32, then the identification signal 32 and the test parameter of the various test pieces of 24 internal memories of memory cell is compared, and can obtain one group of test parameter corresponding to test piece 11.Microprocessing unit 23 is promptly according to this test parameter, and provide corresponding test voltage or measuring current to carry out electrochemical reaction for the test cell 12 of test piece 11 by fetch interface unit 22, at last again by fetch interface unit 22 and calibrating terminal 27 read test signals.The test signal of microprocessing unit 23 acceptance test unit 12, and the temperature and the moisture signal of temperature sensing unit 25, humidity unit 26, cooperate again corresponding to the test parameter of test piece 11 and the correction parameter that is stored in the identification unit 21 of test piece 11 and calculate, can obtain a test result at last, and test result is shown in display unit 13.

Embodiment as Fig. 3 C, when multipurpose test systems 10 are inserted in test piece 11, then the arrangement mode of the quantity of the conducting terminal that multipurpose test system 10 can be by calibrating terminal 27 and position is judged the test approaches of test piece 11 and is obtained the test parameter and the correction parameter of test piece 11 according to the arrangement mode of the conducting terminal of calibrating terminal 27.The quantity of conducting terminal 27 that perhaps, can be by calibrating terminal 27 and the arrangement mode of position are obtained the corresponding test parameter and the correction parameter of the memory cell 24 that is stored in multipurpose test system 10.Therefore can make that multipurpose test system 10 is able to test at different types of test piece 11.Other testing process repeats no more as mentioned above.

In addition, because identification unit 21 can have a large amount of bit quantity, therefore also can store the dependence test parameter or the correction parameter of test piece 11.

Figure 4 shows that test piece structural drawing with discriminating function according to another embodiment of the utility model.

Please refer to Fig. 4.Figure 4 shows that structural drawing according to the test piece with discriminating function 11 of another embodiment of the present utility model.The test cell 12 of test piece 11, temperature sensing unit 25, humidity unit 26 and calibrating terminal 27 are all identical with Fig. 3 C with Fig. 3 A, Fig. 3 B.The identification unit 21 of different structure is proposed in the present embodiment.The identification unit 21 of present embodiment also can adopt an identification memory cell 41 with memory function to store the correction parameter that is relevant to test piece 11, perhaps also can store the test parameter of test piece 11.When the multipurpose test system 10 of test piece 11 insertions shown in Fig. 2 A and Fig. 2 B, then can read the correction parameter and the test parameter of identification memory cell 41 internal memories of identification unit 21 by fetch interface unit 22, and this correction parameter and test parameter are sent to microprocessing unit 23.Microprocessing unit 23 receives this correction parameter and test parameter, and provides driving voltage or power supply to carry out electrochemical reaction for test cell 12 according to this, and according to this test signal of test cell 12 is carried out computing, thereby can obtain test result accurately.

Identification memory cell 41 at present embodiment can utilize common memory component or chip as memory carrier, according to spirit of the present utility model, with the memory technology of limits storage unit 41 not.

Fig. 5 is the test flow chart according to the utility model embodiment.

Please also refer to Fig. 2 B and Fig. 5.Figure 5 shows that process flow diagram according to the test of the utility model embodiment.At first, test piece 11 must be inserted, shown in step S51 in multipurpose test system 10.At this moment, the supplemental characteristic that the microprocessing unit 23 of multipurpose test system 10 will read test piece 11 by fetch interface unit 22 reads with the interpretation of carrying out test piece 11 kinds and test data, shown in step S52.Wherein, supplemental characteristic comprises correction parameter and identification signal.Fetch interface unit 22 will read as the contained supplemental characteristic of Fig. 3 A to Fig. 3 C or identification unit shown in Figure 4 21, and supplemental characteristic is sent to microprocessing unit 23, microprocessing unit 23 can be compared identification signal and memory cell 24 that this supplemental characteristic included, and obtains this test piece 11 pairing test parameters.Then, microprocessing unit 23 is understood according to test piece 11 pairing test parameters, and provides test voltage or measuring current by fetch interface unit 22, carries out electrochemical reaction to test, shown in step S53 for test cell 12.Test is finished in unit 12 to be tested, can read the test signal of test piece 11 by fetch interface unit 22, shown in step S54.Microprocessing unit 23 receives the test signal of test pieces 11, promptly cooperates the temperature of test piece 11 pairing test parameters, temperature sensing unit 25 and humidity unit 26 and moisture signal and correction parameter to calculate test signal, shown in step S55.At last, microprocessing unit 23 will show test results in display unit 13, shown in step S56.

Device according to the utility model embodiment, can in the test piece 11 shown in Fig. 2 A and Fig. 2 B, install an identification unit 21, make the test piece of various models and specification or the test piece of different test purposes, be able in a multipurpose test system 10, can test, and can in identification unit 21, store test piece 11 pairing correction parameters, can further save the step of correction, therefore can utilize high-tech technology to enrich and the convenience that improves human daily life.

The above, only be the detailed description and the accompanying drawing of specific embodiment of the utility model, be not in order to restriction the utility model, all scopes of the present utility model should be as the criterion with appended claim, any those of ordinary skills in field of the present utility model, can think easily and variation or modify and all can be encompassed in the claim that appended claim of the present utility model defines.

Claims (42)

1. test piece structure, it can be contained in the multipurpose test system, it is characterized in that, comprising:

One test cell is positioned in this test piece;

One calibrating terminal is positioned at an end of this test piece, has a plurality of conducting terminals, and described a plurality of conducting terminal electrically connects with this test cell one of at least; And

One identification unit is positioned at a side of this test piece, and this identification unit is that a continuous conductors pattern reads and produce an identification signal for this multipurpose test system.

2. test piece structure as claimed in claim 1 is characterized in that, wherein this multipurpose test system comprises a fetch interface, a display unit, a microprocessing unit and a memory cell.

3. test piece structure as claimed in claim 2 is characterized in that, wherein this microprocessing unit electrically connects with this display unit, this fetch interface unit and this memory cell respectively.

4. test piece structure as claimed in claim 3 is characterized in that, wherein at least one test parameter of this memory cell stores.

5. test piece structure as claimed in claim 4 is characterized in that, wherein this microprocessing unit is compared according to this identification signal and this memory cell of this identification unit, and obtains this test parameter of corresponding this test piece.

6. test piece structure as claimed in claim 5 is characterized in that, wherein this microprocessor unit provides a test voltage or measuring current to this calibrating terminal according to this test parameter of this corresponding test piece by this fetch interface unit.

7. test piece structure as claimed in claim 6 is characterized in that, wherein this test cell carries out electrochemical reaction according to this test voltage or electric current, and produces a test signal.

8. test piece structure as claimed in claim 7 is characterized in that wherein this microprocessing unit receives this test signal, and calculates obtaining a test result according to the test parameter of corresponding this test piece, and is shown in this display unit.

9. test piece structure as claimed in claim 8 is characterized in that, wherein this test piece also comprises a temperature sensing unit and a humidity unit.

10. test piece structure as claimed in claim 9 is characterized in that, wherein this microprocessing unit is also adjusted the test parameter of this test piece according to the temperature and the moisture signal of this temperature sensing unit and this humidity unit.

11. test piece structure as claimed in claim 1 is characterized in that, wherein this calibrating terminal also comprises hook end.

12. a test macro is characterized in that, comprising:

One multipurpose test system comprises a microprocessing unit, a fetch interface unit, a memory cell and a display unit, and wherein this microprocessing unit electrically connects with this display unit, this fetch interface unit and this memory cell respectively; And

One test piece comprises a test cell, a calibrating terminal and an identification unit, and this test piece is connected with this fetch interface unit of this multipurpose test system by this calibrating terminal;

Wherein, this test cell and this calibrating terminal electrically connect, and this identification unit is a continuous conductors pattern.

13. test macro as claimed in claim 12 is characterized in that, wherein this identification unit produces an identification signal.

14. test macro as claimed in claim 13, it is characterized in that, wherein this microprocessing unit is compared according to identification signal and this memory cell of this identification unit, and obtains a test parameter of corresponding this test piece, and wherein this test parameter is stored in this memory cell.

15. test macro as claimed in claim 14 is characterized in that, wherein this microprocessor unit provides a test voltage or electric current to this calibrating terminal according to the test parameter of this corresponding test piece by this fetch interface unit.

16. test macro as claimed in claim 15 is characterized in that, wherein this test cell carries out electrochemical reaction according to this test voltage or electric current, and produces a test signal.

17. test macro as claimed in claim 16 is characterized in that, wherein this microprocessing unit receives this test signal, and calculates obtaining a test result according to the test parameter of corresponding this test piece, and is shown in this display unit.

18. test macro as claimed in claim 17 is characterized in that, wherein this test piece also comprises a temperature sensing unit and a humidity unit.

19. test macro as claimed in claim 18 is characterized in that, wherein this microprocessing unit is also adjusted the test parameter of this test piece according to the temperature and the moisture signal of this temperature sensing unit and this humidity unit.

20. test macro as claimed in claim 12 is characterized in that, wherein this calibrating terminal also comprises hook end.

21. a test piece structure, it can be contained in the multipurpose test system, it is characterized in that, comprising:

One test cell is positioned in this test piece;

One calibrating terminal is positioned in this test piece, has a plurality of conducting terminals, and described a plurality of conducting terminal electrically connects with this test cell one of at least; And

One identification unit is integrated in this calibrating terminal, and the permutation and combination of its quantity by described a plurality of conducting terminals and position to be producing an identification signal, and reads this identification signal for this multipurpose test system.

22. test piece structure as claimed in claim 21 is characterized in that, wherein this multipurpose test system comprises a fetch interface, a display unit, a microprocessing unit and a memory cell.

23. test piece structure as claimed in claim 22 is characterized in that, wherein this microprocessing unit electrically connects with this display unit, this fetch interface unit and this memory cell respectively.

24. test piece structure as claimed in claim 23 is characterized in that, wherein at least one test parameter of this memory cell stores.

25. test piece structure as claimed in claim 24 is characterized in that, wherein this microprocessing unit is compared according to this identification signal and this memory cell of this identification unit, and obtains this test parameter of corresponding this test piece.

26. test piece structure as claimed in claim 25 is characterized in that, wherein this microprocessor unit provides a test voltage or measuring current to this calibrating terminal according to this test parameter of this corresponding test piece by this fetch interface unit.

27. test piece structure as claimed in claim 26 is characterized in that, wherein this test cell carries out electrochemical reaction according to this test voltage or electric current, and produces a test signal.

28. test piece structure as claimed in claim 27 is characterized in that wherein this microprocessing unit receives this test signal, and calculates obtaining a test result according to the test parameter of corresponding this test piece, and is shown in this display unit.

29. test piece structure as claimed in claim 28 is characterized in that, wherein this test piece also comprises a temperature sensing unit and a humidity unit.

30. test piece structure as claimed in claim 29 is characterized in that, wherein this microprocessing unit is also adjusted the test parameter of this test piece according to the temperature and the moisture signal of this temperature sensing unit and this humidity unit.

31. test piece structure as claimed in claim 21 is characterized in that, wherein this calibrating terminal also comprises hook end.

32. a test piece structure, it can be contained in the multipurpose test system, it is characterized in that, comprising:

One test cell is positioned in this test piece;

One calibrating terminal is positioned at an end of positive and a reverse side of this test piece, has a plurality of conducting terminals, and described a plurality of conducting terminal electrically connects with this test cell one of at least; And

One identification unit is integrated in this calibrating terminal, and the permutation and combination of its quantity by described a plurality of conducting terminals and position to be producing an identification signal, and reads this identification signal for this multipurpose test system;

Wherein, this identification unit has at least one boring so that be positioned at this front of this test piece separately and described a plurality of conducting terminals of this reverse side have one of at least an electrical connection.

33. test piece structure as claimed in claim 32 is characterized in that, wherein this multipurpose test system comprises a fetch interface, a display unit, a microprocessing unit and a memory cell.

34. test piece structure as claimed in claim 33 is characterized in that, wherein this microprocessing unit electrically connects with this display unit, this fetch interface unit and this memory cell respectively.

35. test piece structure as claimed in claim 34 is characterized in that, wherein at least one test parameter of this memory cell stores.

36. test piece structure as claimed in claim 35 is characterized in that, wherein this microprocessing unit is compared according to this identification signal and this memory cell of this identification unit, and obtains this test parameter of corresponding this test piece.

37. test piece structure as claimed in claim 36 is characterized in that, wherein this microprocessor unit provides a test voltage or measuring current to this calibrating terminal according to this test parameter of this corresponding test piece by this fetch interface unit.

38. test piece structure as claimed in claim 37 is characterized in that, wherein this test cell carries out electrochemical reaction according to this test voltage or electric current, and produces a test signal.

39. test piece structure as claimed in claim 38 is characterized in that wherein this microprocessing unit receives this test signal, and calculates obtaining a test result according to the test parameter of corresponding this test piece, and is shown in this display unit.

40. test piece structure as claimed in claim 39 is characterized in that, wherein this test piece also comprises a temperature sensing unit and a humidity unit.

41. test piece structure as claimed in claim 40 is characterized in that, wherein this microprocessing unit is also adjusted the test parameter of this test piece according to the temperature and the moisture signal of this temperature sensing unit and this humidity unit.

42. test piece structure as claimed in claim 32 is characterized in that, wherein this calibrating terminal also comprises hook end.

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