JP4618953B2 - Biosensor sheet, biosensor cartridge, and biosensor dispensing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a biosensor capable of quickly and easily quantifying specific components in various biological samples with high accuracy, a biosensor sheet in which a plurality of the biosensors are formed, and a biosensor containing the biosensor sheet The present invention relates to a sensor cartridge, and a biosensor dispensing apparatus that is loaded with the biosensor cartridge and can measure a plurality of times with an easy operation.
[0002]
[Prior art]
In recent years, various biosensors using specific catalytic action of enzymes have been developed, and biosensors capable of measuring rapidly and accurately have been put to practical use while being applied to clinical fields.
[0003]
Taking glucose sensors as an example, today's increase in the number of diabetic patients is remarkable, and in order to measure and manage blood glucose levels, it is very complicated to centrifuge blood and measure plasma as in the past. Therefore, there is a demand for a sensor that can measure whole blood, and a biosensor described in Japanese Patent Application Laid-Open No. 61-294351 has already been proposed to meet this demand. This biosensor supplies a predetermined voltage to the electrode system of the sensor from a dedicated measuring instrument, measures the current value flowing between the electrodes, calculates the substrate concentration in the sample solution based on this signal, Is shown on the display unit of the measuring instrument.
[0004]
On the other hand, regarding the form of the biosensor and the measuring instrument, as described in, for example, JP-A-8-262026, a biosensor cartridge in which a plurality of biosensors are set is loaded into the measuring instrument and the knob is operated. As a result, biosensor dispensing devices that can perform multiple measurements have already been developed, which makes it easy for users such as diabetics who have many elderly people to easily operate and feel complicated during measurement. Has been improved.
[0005]
This is because, for example, when the sensor is attached to the attachment port of the measuring instrument body, the sensor cannot be attached well to the attachment port, and the sensor is dropped as it is, the sensor is inserted in the reverse direction, or the reverse direction is inserted. This is a measure against mishandling in handling such as measuring as it is, and it is possible to perform reliable measurement with simple operation.
[0006]
4 and 5 are schematic views showing the configuration of a biosensor dispensing apparatus using the conventional biosensor pack.
In the figure, a plurality of biosensors 46 are accommodated in a radial pattern with reference to the center of a substantially circular sensor pack 120. The sensor pack 120 has a desiccant cavity in which the desiccant material 112 is disposed and sensor holding cavities that hold the individual sensors. The desiccant cavity and the sensor holding cavity are fluids. Communication, that is, the cavities communicate with each other.
[0007]
The biosensor dispensing device 30 has a shape suitable for receiving the biosensor pack 120, and the dispensing device has an upper case 35 and a lower case 36, and the upper case and the lower case are separated from each other. The outer housing has an outer housing that can be opened and closed by rotating relative to each other like a bivalve shell with these fitting portions as axes, and can be arranged to use the biosensor pack therein. With the biosensor pack so arranged in the housing, a sliding latch 58 on the sliding actuator 40 arranged on the upper case of the housing controls the setting of the device to display / data processing mode or test mode.
[0008]
The biosensor dispensing device 30 is set to the display mode by moving the sliding latch to its display mode position, i.e. to the side on the sliding actuator. That is, when the sliding actuator is pushed from its standby position near the rear of the device housing to the front end of the device housing, the user of the device can visually check the data displayed on the display unit in the upper case, Data can be entered into the dispensing device via a manual button at the rear. On the other hand, when the sliding latch is in its test position and the sliding actuator is pushed from its standby position to a test position near the front end of the device housing, the biosensor dispensing device 30 enters a test mode. That is, when the sliding actuator is pushed to its activated or test position, the sensor is ejected from one of the sensor cavities so that it is placed in its test position and the sensor test end. Protrudes from the test end of the housing and contacts on the sensor are coupled to at least one of a microprocessor or other data processing circuit on a printed wiring board disposed in a bivalve shell on the top of the outer housing. As a result, data obtained from the sensor can be processed when the sensor is inserted into the blood to be tested. The processed data can then be displayed on a screen in the upper case of the device or can then be stored for supply to other analytical instruments via a data port connector.
[0009]
Once the blood analysis test is complete, the sliding actuator is moved to its standby position in the opposite direction toward the rear of the device housing. As the sliding actuator is moved back from its test position, the sensor is removed from the dispenser and the biosensor pack is advanced (rotated), resulting in another sensor being released from the biosensor pack and the sensor being It can be used for the blood glucose test to be performed.
[0010]
[Problems to be solved by the invention]
The conventional biosensor dispensing device is configured as described above, and a plurality of biosensors are mounted in advance in a roughly circular biosensor pack having an appropriate size, and the dispensing device has a bivalve shape. Therefore, the sensor pack can be easily installed just by opening it, and once set in the dispensing device, the biosensor pack can be operated from the outside of the case, and individual sensors can be easily removed. In addition, since the biosensor dispensing device itself is also a measuring device, it is possible to perform dispensing and measurement of individual sensors together, making it easy to handle even for elderly people, etc., and causing almost no misoperation. It can be carried out.
[0011]
However, the above-described conventional biosensor dispensing apparatus has a hygienic problem that the biosensor must be discarded with the biological sample such as blood adhered to each time measurement is completed, and measurement is performed. Since the disposal operation must be performed every time, there is a problem that it is very complicated for the user.
[0012]
The present invention has been made to solve the above-described problems. The biosensor in the biosensor cartridge can be sent out and set at the measurement position by simple manual operation such as a lever or dial operation of the dispensing device. In addition, the collection of the sensor after completion of the measurement can be continuously performed in the biosensor cartridge, and it is possible to easily and easily perform a plurality of biological value measurements. An object is to provide a biosensor cartridge and a biosensor dispensing device.
[0013]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the biosensor sheet according to claim 1 of the present invention is a biosensor sheet formed by arranging a plurality of biosensors for obtaining electrical data of a sample, The base from the sample spotting part to the vicinity of the electrode part has a U-shaped notch and can be folded or lowered with respect to the base biosensor sheet as a tongue piece It is.
[0014]
The biosensor sheet according to claim 2 of the present invention is the biosensor sheet according to claim 1, wherein the base biosensor sheet on which the plurality of biosensors are formed is in a tape shape. It is characterized by.
[0015]
A biosensor cartridge according to claim 3 of the present invention is a biosensor cartridge that houses the biosensor sheet according to claim 2, wherein the biosensor sheet is housed in the housing, and the housing Is loaded into the biosensor dispensing device, and when performing the target sample measurement, the biosensor dispensing device can be dispensed and measured by operating the biosensor dispensing device.
[0016]
Further, the biosensor cartridge according to claim 4 of the present invention is the biosensor cartridge according to claim 3, wherein the biosensor sheet before use is wound and the biosensor sheet formed on the biosensor sheet is measured. A biosensor supply roller for supplying the biosensor sheet at times, a take-up roller for sequentially collecting the biosensors used for winding the biosensor sheet, a biosensor supply chamber for storing the biosensor supply roller, And a biosensor recovery chamber for accommodating the winding roller.
[0017]
The biosensor cartridge according to claim 5 of the present invention is the biosensor cartridge according to claim 4, wherein the biosensor supply chamber contains a desiccant. .
[0018]
The biosensor cartridge according to claim 6 of the present invention is the biosensor cartridge according to claim 4, wherein the biosensor supply chamber includes a sealing member for suppressing communication with outside air. It is characterized by.
[0019]
A biosensor cartridge according to a seventh aspect of the present invention is the biosensor cartridge according to the sixth aspect, wherein the sealing member is a sealing roller.
[0020]
The biosensor cartridge according to an eighth aspect of the present invention is the biosensor cartridge according to the sixth aspect, wherein the sealing member is a sealing blade.
[0021]
The biosensor cartridge according to claim 9 of the present invention is the biosensor cartridge according to claim 4, wherein the biosensor recovery chamber is an absorption roller for wiping off the sample solution adhering to the used biosensor. It is characterized by having.
[0022]
According to a tenth aspect of the present invention, in the biosensor cartridge according to the third aspect, the biosensor sheet is conveyed in the longitudinal direction thereof.
[0023]
The biosensor cartridge according to claim 11 of the present invention is the biosensor cartridge according to claim 3, wherein the tip of each biosensor is upstream in the feed direction of the biosensor in the housing. It is arranged to face the side.
[0024]
A biosensor cartridge according to claim 12 of the present invention is the biosensor cartridge according to claim 3, wherein a window is provided in a part of the housing, and the tip of the biosensor arranged in the tape shape. It is possible to project the sensor measurement part of the biosensor cartridge from the window to the outside of the biosensor cartridge.
[0025]
According to a thirteenth aspect of the present invention, in the biosensor cartridge according to the third aspect, the sensor measurement unit of each biosensor of the biosensor sheet projects outside the biosensor cartridge. The slide member is provided.
[0026]
According to a fourteenth aspect of the present invention, there is provided the biosensor cartridge according to the twelfth aspect, wherein the window is provided with an open / close lid.
[0027]
The biosensor cartridge according to claim 15 of the present invention is the biosensor cartridge according to claim 3, further comprising a latch for engaging with the biosensor dispensing device. It is.
[0028]
The biosensor cartridge according to claim 16 of the present invention is the biosensor cartridge according to claim 4, wherein the biosensor supply roller and the take-up roller are slip clutches with respect to their respective rotation shafts. It is characterized by having.
[0029]
The biosensor cartridge according to claim 17 of the present invention is the biosensor cartridge according to claim 3, further comprising an electrode arm introduction window for introducing an electrode arm of the biosensor dispensing device. It is what.
[0030]
A biosensor dispensing apparatus according to claim 18 of the present invention sets the biosensor cartridge according to claim 3 to a measurement position, dispenses each biosensor, and performs target solution component measurement a plurality of times. A biosensor dispensing device capable of continuously performing biosensor transport means for transporting a biosensor sheet in the biosensor cartridge, and a transport path for each measurement unit of the biosensor measurement unit of the biosensor sheet Each measurement of the biosensor comprising a carry-out means for carrying out to a predetermined measurement position from above and an electrode arm having an electrode contact connected to the electrode portion of the biosensor, and being sequentially fed in the longitudinal direction by the carrying means The part is spotted on the sample in a state where it is carried to the predetermined measurement position by the carry-out means, and the electrode part and the electrode contact of the electrode arm are connected to each measurement part. By continued, and to obtain electrical data from the biosensor, it is characterized in.
[0031]
Moreover, the biosensor dispensing device according to claim 19 of the present invention is the biosensor dispensing device according to claim 18, wherein the biosensor transport means is a manual dial. It is.
[0032]
The biosensor dispensing device according to claim 20 of the present invention is the biosensor dispensing device according to claim 18, wherein the biosensor transport means is provided on one side of the main body of the biosensor dispensing device. It is characterized by being arranged.
[0033]
The biosensor dispensing device according to claim 21 of the present invention is the biosensor dispensing device according to claim 18, further comprising a recess for loading the biosensor cartridge. To do.
[0034]
The biosensor dispensing device according to claim 22 of the present invention is the biosensor dispensing device according to claim 18, further comprising a latch for engaging with the biosensor cartridge. To do.
[0035]
The biosensor dispensing device according to claim 23 of the present invention is the biosensor dispensing device according to claim 18, wherein the carry-out means is a projecting drive member that slides the slide member of the biosensor cartridge. It is characterized by that.
[0036]
According to a twenty-fourth aspect of the present invention, in the biosensor dispensing apparatus according to the eighteenth aspect, the biosensor dispensing apparatus includes drive rollers that respectively drive a supply roller and a collection roller of the biosensor cartridge. It is characterized by that.
[0037]
The biosensor dispensing device according to claim 25 of the present invention is the biosensor dispensing device according to claim 18, further comprising a display unit for displaying a measurement result of the biosensor. It is what.
[0038]
A biosensor dispensing device according to claim 26 of the present invention is the biosensor dispensing device according to claim 18, wherein the biosensor dispensing device controls the biosensor dispensing device or the biosensor dispensing device. It is characterized by having an input means for inputting information.
[0039]
The biosensor dispensing device according to claim 27 of the present invention is the biosensor dispensing device according to claim 18, wherein the output for outputting information accumulated in the biosensor dispensing device to the outside is provided. It is provided with the means.
[0041]
DETAILED DESCRIPTION OF THE INVENTION
(Embodiment 1)
Hereinafter, the present invention According to the first embodiment Biosensor sheet , Ba Io sensor cartridge , Ba Io sensor dispensing device, and Biba Io sensor The figure Description will be made with reference to FIGS. 1, 2, 3, and 6.
[0042]
The embodiment shown here is merely an example, and the present invention is not necessarily limited to this embodiment. Similarly, in the following description, measurement of blood glucose will be described as an example, but the present invention is not limited to measurement of glucose.
[0043]
First, the configuration of the biosensor according to the first embodiment will be described.
3A is an external perspective view of one biosensor in a biosensor group having a tape-like form according to the first embodiment, FIG. 3B is a schematic cross-sectional view of the biosensor, and FIG. c) is a schematic diagram showing the relative positional relationship between the electrode contact portion of the biosensor and the contact portion of the electrode arm of the biosensor dispensing device.
[0044]
The biosensor 46 is formed using a tape-like resin sheet (biosensor sheet 61, base biosensor sheet) such as polyethylene terephthalate (PET), which is a basic configuration of the biosensor 46, as a base, and the biosensor is in the longitudinal direction. Each biosensor has a sample spotting part 100, an enzyme reaction part 60, a sensor base part 56, a sensor electrode part 109, and an electrode pattern part 63.
[0045]
Further, at the time of sample measurement, the biosensor 46 enzyme is included so that the measurement section having the sample spotting section 100, the enzyme reaction section 60, etc. of the biosensor protrudes out of the storage biosensor cartridge. The base portion 56 between the padding portion 100 and the sensor electrode portion 109 is joined to the peripheral resin sheet only in the resin sheet region near the sensor electrode portion 109. The biosensor sheet 61 is cut so as to be U-shaped along the outer peripheral side of the measurement part of the biosensor so as to enable this partial joining. Accordingly, the biosensor 46 is connected to the resin sheet only in the periphery of the electrode portion while the outer peripheral portion thereof has a substantially U-shaped cutout 55. The measuring part can be folded up or down, and can be advanced toward the protruding window 119 of the biosensor cartridge as the biosensor sheet 61 is fed forward without being separated from the resin sheet.
[0046]
In addition, as shown in FIG.3 (c), the sensor electrode part 109 is formed in the surface side on the biosensor sheet | seat 61, and the size and positional relationship of the sample spotting part 100 of the biosensor and the electrode part 109 are the samples. In order to prevent the electrode arm 117 of the biosensor dispensing device 30 and its contact point 96 from being soiled by the spotting, the distance b between the electrodes in the electrode part 109 is larger than the dimension a of the sample spotting part 100. The dimension b is set to be substantially equal to the dimension c of the distance between the contact points 96 of the electrode arm 117.
The biosensors arranged in the longitudinal direction in a column and connected so as to exhibit a tape-like form are wound around a roller and housed in a cartridge.
[0047]
Next, the configuration of the biosensor cartridge that houses the tape-shaped biosensor will be described.
FIG. 2A is a cross-sectional view of the biosensor cartridge according to Embodiment 1 of the present invention.
FIG. 2B is a cross-sectional view of a state in which the measurement unit of the biosensor protrudes from the biosensor cartridge according to Embodiment 1 of the present invention.
[0048]
As shown in FIG. 2, the biosensor cartridge 38 includes a cartridge case (housing) 110 having an introduction window 123 for the electrode arm 117, a sensor supply roller 103, a sensor collection roller 115, a desiccant 112, and the like. Since the biosensor 46 is sequentially sent from the sensor supply roller 103, a predetermined measurement operation such as applying a sample such as a body fluid to the biosensor 46 is enabled.
[0049]
FIG. 1 shows a perspective view of a biosensor cartridge 38 protruding from a measurement part of the biosensor according to Embodiment 1 of the present invention. It can be seen that the biosensor cartridge 38 has a cartridge case 110, a test end 44, and a latch recess 97 for mating with the biosensor dispensing device.
[0050]
2A, the biosensor cartridge 38 includes a biosensor tape 114, a sensor supply chamber (biosensor supply chamber) 98, a sensor recovery chamber (biosensor recovery chamber) 102, and a biosensor cartridge. It has a projecting pin (sliding member) 48, its biasing means 122, a biosensor projecting window (window) 119, an opening / closing lid 121 provided on the window 119, and an electrode arm introduction window 123. The sensor supply chamber 98 includes a sensor supply roller (biosensor supply roller) 103, a sealing roller (sealing member) 118 and a sealing blade (sealing member) 116 for isolating the outside air, and a sensor supply chamber. 98, a desiccant 112 for keeping the inside of the apparatus 98 dry, and in the sensor collection chamber 102, a sensor collection roller (winding roller) 115 and an absorption roller that absorbs the sample attached to the measurement unit of the used biosensor. 111 is provided.
[0051]
However, since the sensor supply roller 103 that feeds out the biosensor 46 and the sensor recovery roller 115 for winding up the used sensor unit perform a rotating motion in conjunction with each other, the biosensor 46 wound around each roller is wound. The diameter will change. When a driving force for sequentially feeding the biosensor 46 is applied to the sensor collection roller 115, the sensor supply roller 103 and the sensor collection roller 115 are driven by the winding force of the biosensor 46. The sensor supply roller 103 and the sensor collection roller 115 are configured such that the take-up roller portion has a slip clutch (not shown) with respect to the rotation shaft thereof and forms a sliding pair. Thus, the change in the feed amount of the biosensor due to the change in the wound diameter of the biosensor is absorbed by the amount of biosensor used at the time of winding.
[0052]
Further, as described above, in the sensor supply chamber 98 of the biosensor cartridge 38, the individual biosensors 46 are kept in a dry state without communicating with the outside air, and the sealing roller 118 and the sealing blade 116 are maintained. It is isolated and sealed by a sealing means such as. As a result, the opening operation of the biosensor 46 to the atmosphere that occurs during the measurement operation of each individual biosensor 46 does not affect the dry state of the unused biosensor 46 loaded in the biosensor supply chamber 98. .
[0053]
In addition, the biosensor 46 that has passed through the sealing means such as the sealing roller 118 and the sealing blade 116 prevents the tip portion (the spotted portion 100 or the like) of the biosensor 46 from being caught by each member when sequentially fed. Therefore, as shown in FIG. 3A, the base portion 56 of the sensor is such that the spotted portion 100 side of the notch portion 55 formed in the U-shape is upstream with respect to the feed side of the biosensor 46. It arrange | positions so that it may become.
[0054]
When the biosensor 46 is conveyed in the longitudinal direction and sent directly below the biosensor protruding window 119, the sensor electrode portion 109 of the biosensor 46 and the contact portion 96 of the electrode arm 119 are in an electrically connected state. . In this position, as shown in FIG. 2B, a protruding pin drive member 47 disposed on the biosensor dispensing device 30 side for sliding the protruding pin (sliding member) 48 in the axial direction is provided. By operating, the base portion 56 of the biosensor 46 is pushed up. As a result, the spotting portion 100 of the biosensor 46 protrudes from the inside of the biosensor cartridge 38, passes through the opening / closing lid 121 of the cartridge 38, and completes preparation for spotting a biological sample such as blood. become.
[0055]
Next, the configuration of the biosensor dispensing device according to Embodiment 1 of the present invention will be described.
FIG. 1 is an external perspective view of a biosensor dispensing device according to Embodiment 1 of the present invention.
[0056]
In FIG. 1, reference numeral 30 denotes a biosensor dispensing apparatus according to the first embodiment. Reference numeral 34 denotes a main body case. The main body case 34 displays a front end (test end) 44, a rear end 42, a side surface having an actuating actuator (biosensor conveying means, manual dial) 40, measurement results, and the like. A display screen (display unit) 52, a recess 59 for fitting the biosensor cartridge 38, a latch 58 for fixing the biosensor cartridge 38 to the recess 59, and a protrusion pin 48 of the biosensor cartridge 38 A protruding pin driving member (carrying means, protruding driving member) 47 and the like are included.
[0057]
The recess 59 is provided with a driving roller 105a and a driving roller 105b for driving a supply roller and a collection roller of the biosensor cartridge, respectively, and an electrode arm 117 having two contact portions 96.
[0058]
If the biosensor cartridge 38 is disposed in the recess 59, the actuating actuator 40 on the side surface portion of the main body case 34 is moved to the front end of the main body case 34 at an arrangement position (one side surface of the main body) adjacent to the biosensor cartridge 38. Side or test end 44 side can be actuated or pivoted. However, the rotation of the actuation actuator 40 is effective only on the test end 44 side (clockwise), and even if the actuation actuator 40 is rotated on the front end side (counterclockwise) of the main body case 34, the biosensor cartridge The sensor supply roller 103 and the sensor collection roller 115 are not rotated in this direction by the slip clutch, and the sensor biosensor to be sequentially fed to the collection roller side is not fed back to the supply roller side.
[0059]
As shown in FIGS. 1 and 2, the main body case 34 is a container having a recess 59 in part, and the main body case 34 for sensor dispensing and the biosensor cartridge 38 are fitted to each other by a latch 58. Therefore, it has a complementary shape so that it becomes a substantially rectangular parallelepiped. In addition, the sensor supply roller 103 for sequentially feeding the biosensor 46 loaded in the biosensor cartridge 38 and the drive rollers 105a and 105b for driving the sensor collection roller 115 extend in the recess of the main body case 34. Thus, a close engagement relationship with the biosensor cartridge 38 is maintained by the latch 58 protruding into the recess 59 of the main body case 34.
[0060]
Next, an operation when the biosensor cartridge 38 is loaded into the biosensor dispensing device 30 will be described.
In order for a person to use the sensor dispensing device 30 to test blood glucose using a biological sample such as blood, the result is that the recess 59 formed in a part of the sensor dispensing device 30 is opened. It is necessary that the biosensor cartridge 38 can be mounted so as to form a part of the main body case 34. As shown in FIG. 1, the biosensor cartridge 38 is loaded in the recess 59 of the biosensor dispensing device 30 with the test end 44 facing forward. At this time, the electrode arm 117 provided in the recess 59 enters the electrode arm introduction window 123 of the biosensor cartridge 38, and the drive roller 105a and the drive roller 105b are the sensor supply roller 103 and the sensor collection roller 115 of the biosensor cartridge, respectively. It is attached to the empty part at the center of the. After mounting the biosensor cartridge 38, a latch 58 that protrudes into the recess 59 provided in a portion adjacent to the recess 59 of the biosensor dispensing device 30 is protruded (locked), and the biosensor cartridge 38 is The biosensor dispenser 30 is fixed and fitted in a complementary manner via a latch recess 97 provided in the biosensor cartridge 38. By installing the biosensor cartridge 38 in this way and engaging the latch 58 in the latch recess 97, it can be fastened to the body case 34. Further, in the sensor dispensing device 30, the latch 58 is released by moving it from the position where the biosensor cartridge 38 is fastened in the recess 59 of the main body case 34. By releasing the latch 58 in this manner, the biosensor cartridge 38 can be removed from the body case 34 and a new biosensor cartridge 38 can be attached to the body case 34.
[0061]
Once the biosensor 46 is moved to the test end 44 by the actuating actuator 40, the sensor dispensing device 30 is set to be activated to its display mode. In addition, the operation of the actuation actuator 40 does not prevent the display screen 52 from being viewed from above the main body case 34. Information regarding the biosensor cartridge 38 and the tests performed can be displayed on a display screen 52 such as a liquid crystal display unit. The displayed information can be controlled by operating buttons 82 and 84 (see FIG. 6) protruding from the rear end 42 of the main body case 34. These buttons are also used to input information to a circuit (not shown) on a printed wiring board (not shown) in the main body case 30 according to the display of the liquid crystal display unit 52.
[0062]
When the user of the sensor dispensing device 30 completes acquisition of information or data input, the biosensor 46 is sent from the test end 44 to the collection path side by operating the actuator 40. Next, the sensor dispensing device 30 is turned off or in a standby state.
[0063]
Next, a method of using the biosensor dispensing device 30 loaded with the biosensor cartridge 38 as described above will be described.
The primary use of sensor dispensing device 30 is for blood glucose testing. When trying to perform such a test, the user of the sensor dispensing device 30 rotates the operating actuator 40 toward the test end 44, whereby the device 30 is set to the test mode.
[0064]
When the biosensor cartridge 38 is loaded into the biosensor dispensing device 30 and ready, the actuator 40 disposed at a position adjacent to the recess 59 is provided on the side surface of the main body case 34 of the biosensor dispensing device 30. The main body case 34 is actuated or rotated toward the front end or the test end 44 side.
[0065]
By operating the actuation actuator 40 in its actuation direction, the dispensing device 30 is set to the test mode. Further, by this operation, the biosensor cartridge 38 is sent out, and the spotting part 100 of one biological sample of the plurality of biosensors 46 (see FIG. 3) arranged in a row in the biosensor cartridge 38 is replaced with the biosensor cartridge 38. The biosensor protrudes by the protruding pin 48 at the position of the protruding window 119. Further, the biosensor 46 that has reached the test end 44 stops the feeding of the protruding pin 48 at a position where the base portion 56 protrudes from the biosensor protruding window 119 formed on the test end 44 of the biosensor cartridge 38. When the protruding biosensor 46 stays protruding from the biosensor protruding window 119 at the test end 44, the sensor electrode portion 109 of the biosensor 46 is printed in the main body case 34 via the electrode arm 117. It is electrically coupled to an electronic circuit on a substrate (not shown).
[0066]
This operation is described in detail as follows. That is, when the operating actuator 40 is operated in the operating direction, the driving roller 105a and the driving roller 105b are rotated by a driving mechanism such as a gear (not shown), whereby the sensor supply roller 103 and the sensor collection roller 115 of the biosensor cartridge are rotated. Is driven, and biosensor tapes (a plurality of biosensors 46) arranged in a column in the biosensor cartridge are sequentially fed. When one of the biosensors 46 is sequentially advanced to a position corresponding to the biosensor ejection window 119, the display screen 52 is activated to the display mode. Thereafter, when the user slides the protruding pin drive member 47 provided at a position adjacent to the concave portion 59 of the biosensor dispensing device 30 in the direction of the concave portion 59, the protruding pin 48 of the sensor cartridge 38 moves in the axial direction. The biosensor sheet 61 passes through the U-shaped cutout, pushes up the base portion 56 of the biosensor 46 and protrudes into the window 119. The measuring part end of the biosensor 46 protrudes from the protruding window 119 by the protruding pin 48, and stops feeding the protruding pin 48 while passing through the opening / closing lid 121. In that state, the sensor electrode 109 of the biosensor 46 is connected to an electronic circuit (not shown) on a printed circuit board (not shown) disposed in the main body case 34 via the electrode arm 117 of the dispensing device 30. Electrically coupled with. Further, the electronic circuit of the printed circuit board may include a microprocessor or the like for processing, storing, or displaying the data generated during the blood glucose test operation on the display screen 52.
[0067]
The sample spotting portion 100 of the biosensor 46 is provided with a capillary (not shown) extending to the biological sensing material or reagent material.
When a biological solution (for example, blood accumulated in a finger after puncturing a person's finger) is applied to the spot 100 of the biosensor 46, a part of the solution is sucked into the capillary tube by capillary action. A sufficient amount of solution is drawn into the biosensor 46 and diffuses and chemically reacts with the reagent material of the biosensor 46. As a result, an electrical signal indicative of the solution component to be tested, eg, blood glucose level of the blood, is applied to the electrode contact 96 of the electrode arm 117 coupled to the electrical circuit of the printed wiring board. Further, through a predetermined process, information on the biosensor cartridge 38 and the performed test is displayed on the display screen 52. The displayed information can also be controlled by operating buttons (input means) 82 and 84 protruding from the rear end 42 of the main body case 34 shown in FIG. As described above, this button can also input information to a circuit (not shown) on a printed wiring board (not shown) according to the display on the display screen 52.
[0068]
Further, as described above, the operating actuator 40 is attached to the side surface of the main body case 34 and can be rotated or slid as shown in FIGS. 1 and 2, but the operating actuator 40 is moved to the test end 44 side. In performing the turning operation, the visibility of the display screen 52 of the main body case 34 is not hindered.
[0069]
When the blood analysis test is completed, the biosensor 46 is moved from the test end 44 of the biosensor cartridge 38 by manually operating the actuation actuator 40 toward the test end 44 side or the rear end 42 side of the main body case 34. It retracts and is stored in the sensor recovery chamber 102 while retracting from the biosensor protruding window 119 of the biosensor cartridge 38.
[0070]
Next, after the predetermined measurement operation is finished, the urging force of the protruding pin driving member 47 on the biosensor dispensing device 30 side is released, so that the protruding pin 48 provided in the biosensor cartridge 38 is removed from the biosensor cartridge 38. By retracting from the sensor protruding window 119, the spotting portion 100 of the biosensor 46 is also accommodated in the biosensor cartridge 38.
[0071]
Thereafter, with respect to the biosensor 46 disposed in the biosensor cartridge 38, the end of the biosensor sheet 61 is guided to the path for collecting the biosensor 46, and the sensor collection roller in the sensor collection chamber 102 is obtained. 115.
[0072]
More specifically, after the predetermined measurement operation of the biological solution analysis test is completed, the biasing of the protruding pin driving member 47 on the biosensor dispensing device 30 side is released, so that the biosensor cartridge 38 is provided in the biosensor cartridge 38. The protruding pin 48 thus retracted from the biosensor protruding window 119, and the spotted portion 100 of the biosensor 46 is accommodated in the biosensor cartridge 38.
[0073]
That is, when the operation actuator 40 is manually operated toward the test end 44 and / or the rear end 42 side of the main body case 34, the biosensor sheet 61 is guided and sequentially fed, and the biosensor 46 is The base portion 56 of the sensor is gradually pulled toward the collection chamber side 102 while being in contact with the ejection pin 48 and the opening / closing lid 121, and the bias of the ejection pin 48 is completely released, so that the biosensor 46 is completely The biosensor protrudes from the window 119, enters the sensor collection chamber 102, and then the open / close lid 121 is closed.
[0074]
The biological solution attached to the used biosensor drawn and collected in the biosensor cartridge 38 is absorbed by the absorption roller 111 provided in the collection chamber of the biosensor cartridge 38, or other sanitary treatment. Is given. Thereafter, the biosensor 46 is wound around the sensor collection roller 115 together with the biosensor sheet 61. The biosensor dispensing device 30 will then be in an off or standby state.
[0075]
In the above-described series of operations, the biosensor 46 prevents the contact failure with the contact 96 of the electrode arm 117 of the biosensor dispensing device 30 from coming into contact with the spotted spot where a biological sample such as blood is attached. As shown in FIG. 3C, the spotting portion 100 is guided to the sensor recovery chamber 102 while passing between the contacts 96 of the electrode arm 117 configured to straddle the spotting portion 100. That is, by making the dimension c in the figure larger than the dimension a and making the dimension b and the dimension c substantially equal, blood or the like does not adhere to the electrode contact portion 96, and the biosensor 46 and the contact 96 of the electrode arm The reliability of the contact portion is ensured.
[0076]
Thus, a series of operations for one biosensor 46 is completed.
[0077]
By repeating this series of operations for each biosensor, measurement can be continuously performed by the plurality of biosensors 46 housed in the biosensor cartridge 38.
[0078]
Next, an operation when the biosensor cartridge 38 is removed from the biosensor dispensing device 30 will be described.
The biosensor cartridge 38 can be removed from the biosensor dispensing device 30 when all biosensor measurements have been completed or when it is desired to end the measurement.
[0079]
It is possible to easily remove the biosensor cartridge 38 from the main body case 34 and to place a new biosensor cartridge 38 in the main body case 34 by releasing the protruding latch 58 provided in the main body case 34.
[0080]
The biosensor dispensing device 30 needs to be relatively compact in size so that it can be easily carried and handled by a user, but the biosensor cartridge 38 disposed therein is advanced (rotated). The individualized biosensor 46 is released from the storage position of the biosensor cartridge 38, and the released biosensor 46 is moved to the test position, and the measured biosensor is later transferred to the biosensor cartridge 38. It is also necessary to enclose the mechanical elements required for recovery. In addition, the biosensor dispensing device 30 is provided with a microprocessor or other data processing circuit 49 on a printed circuit board to acquire and execute data generated by the biosensor 46 during a test operation. In order to provide information about the test being performed, the input from the manual buttons 82 and 84 is also processed, and the accumulated information is given to the display screen 52, or the accumulated information is sent to the data port connector (output means of FIG. ) 86 to other analytical or computer equipment. In the first embodiment, the biosensor dispensing device is configured based on such consideration.
[0081]
Thus, according to the biosensor, the biosensor cartridge, and the biosensor dispensing apparatus according to Embodiment 1 of the present invention, the biosensor tape having a plurality of biosensor sensors is accommodated in the biosensor cartridge, By loading the biosensor dispensing device, the troublesomeness of inserting a conventional biosensor into the main body of the measuring device can be reduced, and multiple measurements using the biosensor can be performed continuously and easily. it can. In addition, since used biosensors are reliably collected inside the biosensor cartridge, it is possible to reduce unnecessary hygiene concerns such as the operator's hands getting dirty with biological samples such as blood as before. it can.
[0082]
As already mentioned, the biosensor dispensing device 30 can also be used to test fluids other than blood glucose and can be used to measure any type of chemical fluid that can be analyzed using reagent materials. Also relevant can be used.
[0083]
【The invention's effect】
As described above, according to the biosensor sheet according to claim 1 of the present invention, a biosensor sheet formed by arranging a plurality of biosensors for obtaining electrical data of a sample, the sample of the biosensor Since the base from the spotted part to the vicinity of the electrode part has a U-shaped cutout, it becomes a tongue piece and can be folded or lowered with respect to the base biosensor sheet. Even if the biosensor is not separated from the sheet, the measurement part can protrude, and measurement can be performed without affecting other biosensors. There is an effect that it becomes possible.
[0084]
According to the biosensor sheet according to claim 2 of the present invention, in the biosensor sheet according to claim 1, the shape of the base biosensor sheet on which the plurality of biosensors are formed is a tape shape. As described above, since a part of the outer peripheral portion of the biosensor is connected to the base film of the tape-shaped sensor, there is an effect that it is possible to prevent individual biosensors from falling off.
[0085]
The biosensor cartridge according to claim 3 of the present invention is a biosensor cartridge for storing the biosensor sheet according to claim 2, wherein the biosensor sheet is stored in a housing, When the case is loaded into the biosensor dispensing device and the target sample is measured, the biosensor can be dispensed and measured by operating the biosensor dispensing device. There is an effect that a plurality of measurements of biological components from can be easily and easily performed continuously.
[0086]
Moreover, according to the biosensor cartridge according to claim 4 of the present invention, in the biosensor cartridge according to claim 3, each biosensor formed on the biosensor sheet by winding the biosensor sheet before use. A biosensor supply roller for sequentially supplying the biosensor, a take-up roller for sequentially collecting each biosensor that has been wound up and used for the biosensor sheet, and a biosensor supply chamber that houses the biosensor supply roller And a biosensor recovery chamber that accommodates the take-up roller, so that biosensors can be sent out sequentially, continuous measurement can be performed, and winding can be performed. Can be recovered.
[0087]
Moreover, according to the biosensor cartridge according to claim 5 of the present invention, in the biosensor cartridge according to claim 4, the biosensor supply chamber contains a desiccant. There is an effect that the characteristic deterioration of the reagent substance used in the sensor can be prevented and the maintenance of the performance can be guaranteed.
[0088]
According to the biosensor cartridge of claim 6 of the present invention, in the biosensor cartridge of claim 4, the biosensor supply chamber includes a sealing member for suppressing communication with outside air. Therefore, there is an effect that the characteristic deterioration of the reagent substance used in the biosensor can be prevented by sealing the biosensor and preventing exposure to the outside air.
[0089]
According to the biosensor cartridge of claim 7 of the present invention, in the biosensor cartridge of claim 6, since the sealing member is a sealing roller, the biosensor is sealed. By preventing the exposure to the outside air in such a state, there is an effect that the characteristic deterioration of the reagent substance used in the biosensor can be prevented.
[0090]
Moreover, according to the biosensor cartridge according to claim 8 of the present invention, in the biosensor cartridge according to claim 6, since the sealing member is a sealing blade, the biosensor is sealed. By preventing the exposure to the outside air in such a state, there is an effect that the characteristic deterioration of the reagent substance used in the biosensor can be prevented.
[0091]
Moreover, according to the biosensor cartridge according to claim 9 of the present invention, in the biosensor cartridge according to claim 4, the biosensor recovery chamber wipes off the sample solution adhering to the used biosensor. Since the absorption roller is provided, there is an effect that the biosensor can be handled more hygienically.
[0092]
Moreover, according to the biosensor cartridge according to claim 10 of the present invention, in the biosensor cartridge according to claim 3, the biosensor sheet is conveyed in the longitudinal direction thereof. The biosensor of the form is sequentially sent out, and there is an effect that a plurality of measurements can be continuously performed.
[0093]
According to the biosensor cartridge of claim 11 of the present invention, in the biosensor cartridge of claim 3, the tip of each biosensor is in the housing with respect to the feed direction of the biosensor. Since all of them are arranged to face the upstream side, the measurement part of the biosensor is prevented from being caught by the measurement device after measurement, and the biological sample adheres to the measurer and prevents the recovery operation. There is an effect that can be prevented.
[0094]
Moreover, according to the biosensor cartridge according to claim 12 of the present invention, in the biosensor cartridge according to claim 3, a window is provided in a part of the casing, and the biosensor cartridge arranged in the tape shape is provided. Since the sensor measurement unit at the tip can be projected from the window to the outside of the biosensor cartridge, when the biosensors in the form of tape are sequentially sent out, the measurement unit is By projecting to the outside, there is an effect that it becomes possible to spot the reagent and to connect the electrode of the biosensor and the electrode of the measuring instrument.
[0095]
Moreover, according to the biosensor cartridge according to claim 13 of the present invention, in the biosensor cartridge according to claim 3, the sensor measurement portion of each biosensor of the biosensor sheet protrudes outside the biosensor cartridge. Since the slide member is provided for the measurement, the measurement part of the biosensor protrudes outside the cartridge when measuring, so that the reagent can be spotted and the connection between the electrode of the biosensor and the electrode of the measuring instrument can be established. There is an effect that it can be surely performed.
[0096]
According to the biosensor cartridge of claim 14 of the present invention, in the biosensor cartridge of claim 12, since the window is provided with an open / close lid, the biosensor cartridge can be used when measurement is not performed. It has the effect of protecting the inside of the camera from outside air and dirt.
[0097]
According to the biosensor cartridge according to claim 15 of the present invention, the biosensor cartridge according to claim 3 is provided with a latch for engaging with the biosensor dispensing device. There is an effect that the mounting with the apparatus can be performed more reliably.
[0098]
According to the biosensor cartridge described in claim 16 of the present invention, in the biosensor cartridge described in claim 4, the biosensor supply roller and the take-up roller are arranged with respect to the respective rotation shafts. Since a slip clutch is provided, there is an effect that a change in the feed amount of the biosensor due to a change in the winding diameter of the biosensor can be absorbed by the amount of biosensor used at the time of winding.
[0099]
According to the biosensor cartridge of claim 17 of the present invention, in the biosensor cartridge of claim 3, an electrode arm introduction window for introducing the electrode arm of the biosensor dispensing device is provided. Therefore, there is an effect that it is possible to connect the electrode of the biosensor and the electrode of the dispensing device and obtain electrical data.
[0100]
In addition, according to the biosensor dispensing device according to claim 18 of the present invention, the biosensor cartridge according to claim 3 is set at a measurement position, and each biosensor is dispensed to measure a target solution component. A biosensor dispensing device capable of performing a plurality of times continuously, a biosensor transport means for transporting a biosensor sheet in the biosensor cartridge, and a biosensor measurement unit of the biosensor sheet for each measurement unit An unloading means for unloading from the transfer path to a predetermined measurement position; and an electrode arm having an electrode contact connected to the electrode portion of the biosensor, and the biosensor of the biosensor fed forward in the longitudinal direction by the transfer means Each measurement unit performs spotting of a sample in a state where the measurement unit is carried out to a predetermined measurement position by the carry-out means, and the electrode unit and the electrode arm are connected to each measurement unit. Since the electrical data from each biosensor is obtained by connecting to each other, the measurement of a specific component of a biological sample can be performed easily, continuously, and continuously. There is an effect that the recovery can be easily and hygienically performed.
[0101]
Moreover, according to the biosensor dispensing device according to claim 19 of the present invention, in the biosensor dispensing device according to claim 18, the biosensor transport means is a manual dial. The biosensor housed in the biosensor cartridge can be repeatedly sent out.
[0102]
Further, according to the biosensor dispensing apparatus according to claim 20 of the present invention, in the biosensor dispensing apparatus according to claim 18, the biosensor transport means is a main body of the biosensor dispensing apparatus. Since it is arranged on the side, it is possible to prevent the user from manually covering the front surface of the measuring device body and obstructing the sensor sending operation by manual operation. There is an effect that it is possible to provide an arrangement structure capable of providing a display unit of measurement values without distinction.
[0103]
In addition, according to the biosensor dispensing device according to claim 21 of the present invention, the biosensor dispensing device according to claim 18 is provided with a recess for loading the biosensor cartridge. There is an effect that the biosensor cartridge can be stably and surely loaded.
[0104]
Moreover, according to the biosensor dispensing device according to claim 22 of the present invention, in the biosensor dispensing device according to claim 18, the latch for engaging with the biosensor cartridge is provided. There is an effect that the biosensor cartridge can be loaded more reliably.
[0105]
Moreover, according to the biosensor dispensing device according to claim 23 of the present invention, in the biosensor dispensing device according to claim 18, the carry-out means is a projecting drive for sliding the slide member of the biosensor cartridge. Since it is a member, it is possible to operate and control individual biosensors with the dispensing device, and there is an effect that measurement of the biosensor can be performed easily and reliably.
[0106]
Further, according to the biosensor dispensing apparatus according to claim 24 of the present invention, in the biosensor dispensing apparatus according to claim 18, drive rollers that respectively drive the supply roller and the collection roller of the biosensor cartridge are provided. Since it was equipped, there exists an effect that a biosensor tape can be sent out by operation by the side of a measuring device.
[0107]
Moreover, according to the biosensor dispensing device according to claim 25 of the present invention, the biosensor dispensing device according to claim 18 is provided with a display unit that displays the measurement result of the biosensor. Therefore, there is an effect that the measurement result can be confirmed quickly.
[0108]
Moreover, according to the biosensor dispensing apparatus according to claim 26 of the present invention, in the biosensor dispensing apparatus according to claim 18, the biosensor dispensing apparatus is controlled or the biosensor dispensing apparatus is controlled. Since the input device is provided with an input means for inputting information, it is possible to provide information for measurement analysis and to control to obtain an accurate measurement result.
[0109]
Moreover, according to the biosensor dispensing apparatus according to claim 27 of the present invention, in the biosensor dispensing apparatus according to claim 18, the information accumulated in the biosensor dispensing apparatus is output to the outside. Since the output means is provided, the measurement results can be accumulated and further analysis can be performed.
[Brief description of the drawings]
FIG. 1 is an external perspective view of a biosensor dispensing device and a biosensor cartridge according to Embodiment 1 of the present invention.
2 is a schematic cross-sectional view of a biosensor cartridge according to Embodiment 1 of the present invention, FIG. 2 (a) is a schematic cross-sectional view of the biosensor cartridge, and FIG. 2 (b) is a measurement of the biosensor of the biosensor cartridge. It is a cross-sectional schematic diagram of the state from which the part protruded.
3 is an external perspective view of the biosensor according to Embodiment 1 of the present invention, FIG. 3 (a) is an external perspective view of the biosensor unit, FIG. 3 (b) is a schematic cross-sectional view of the biosensor, and FIG. (C) is a schematic diagram which shows the relative positional relationship of the electrode contact part of a biosensor, and the electrode arm part by the side of a cartridge.
FIG. 4 is an external perspective view of a conventional biosensor dispensing device.
FIG. 5 is an external perspective view of a conventional biosensor dispensing device and a biosensor pack.
FIG. 6 is a front view of the biosensor dispensing device according to the first embodiment of the present invention as seen from the rear end side.
[Explanation of symbols]
30 Biosensor dispensing device
34 Body case
35 Upper case
36 Lower case
38 Biosensor cartridge
40 Actuator
42 Rear end
43 Rear edge of upper case
44 Test end
46 Biosensor
47 Protruding pin drive member
48 protruding pin
52 Display screen
55 Notch
56 Sensor base
58 Latch
59 Concave part on the front edge of the case
60 Enzyme reaction part
61 Biosensor sheet
63 Electrode pattern section
82,84 buttons
86 Data port connector
96 Contact of electrode arm
97 Latch recess
98 Sensor supply room
100 spots
102 Sensor recovery chamber
103 Sensor supply roller
105a, 105b Driving roller
109 Sensor electrode section
110 Cartridge case
111 Absorption roller
112 Desiccant
113 Electrode contact
114 biosensor tape
115 Sensor recovery roller
116 Sealing blade
117 Electrode arm
118 Sealing roller
119 Biosensor protruding window
120 biosensor pack
121 Open / close lid
122 Energizing means
123 Electrode arm introduction window
130 Calibration coded label
131 Internal conductive trace
132 Instruction arrow

Claims (27)

A biosensor sheet formed by forming a plurality of biosensors for obtaining electrical data of a sample,
The base from the sample spotting part of the biosensor to the vicinity of the electrode part has a U-shaped notch, becomes a tongue, and can be folded or folded with respect to the base biosensor sheet.
A biosensor sheet characterized by that. The biosensor sheet according to claim 1,
The shape of the base biosensor sheet on which the plurality of biosensors are formed is a tape shape.
A biosensor sheet characterized by that. A biosensor cartridge containing the biosensor sheet according to claim 2,
The biosensor sheet is stored in a housing,
The housing is loaded into the biosensor dispensing device,
When performing the target sample measurement, it is possible to dispense and measure each biosensor by operating the biosensor dispensing device.
A biosensor cartridge characterized by the above. The biosensor cartridge according to claim 3, wherein
A biosensor supply roller for winding the biosensor sheet before use and supplying each biosensor formed on the biosensor sheet sequentially at the time of measurement;
A take-up roller for sequentially collecting each biosensor that has been used for winding the biosensor sheet;
A biosensor supply chamber that houses the biosensor supply roller;
A biosensor recovery chamber that houses the take-up roller,
A biosensor cartridge characterized by the above. The biosensor cartridge according to claim 4, wherein
The biosensor supply chamber contains a desiccant,
A biosensor cartridge characterized by the above. The biosensor cartridge according to claim 4, wherein
The biosensor supply chamber includes a sealing member for suppressing communication with outside air.
A biosensor cartridge characterized by the above. The biosensor cartridge according to claim 6, wherein
The sealing member is a sealing roller;
A biosensor cartridge characterized by the above. The biosensor cartridge according to claim 6, wherein
The sealing member is a sealing blade,
A biosensor cartridge characterized by the above. The biosensor cartridge according to claim 4, wherein
The biosensor recovery chamber includes an absorption roller for wiping off a sample solution adhering to a used biosensor.
A biosensor cartridge characterized by the above. The biosensor cartridge according to claim 3, wherein
The biosensor sheet is conveyed in its longitudinal direction,
A biosensor cartridge characterized by the above. The biosensor cartridge according to claim 3, wherein
Within the housing, the biosensor is arranged so that the tip of each biosensor faces the upstream side with respect to the feed direction of the biosensor.
A biosensor cartridge characterized by the above. The biosensor cartridge according to claim 3, wherein
A window is provided in a part of the housing,
It is possible to project the sensor measurement unit at the tip of the biosensor arranged in a tape shape from the window to the outside of the biosensor cartridge.
A biosensor cartridge characterized by the above. The biosensor cartridge according to claim 3, wherein
A slide member for projecting the sensor measurement part of each biosensor of the biosensor sheet to the outside of the biosensor cartridge,
A biosensor cartridge characterized by the above. The biosensor cartridge according to claim 12, wherein
The window is provided with an open / close lid,
A biosensor cartridge characterized by the above. The biosensor cartridge according to claim 3, wherein
Provided with a latch for engaging with the biosensor dispensing device;
A biosensor cartridge characterized by the above. The biosensor cartridge according to claim 4, wherein
The biosensor supply roller and the take-up roller have slip clutches with respect to their respective rotation shafts.
A biosensor cartridge characterized by the above. The biosensor cartridge according to claim 3, wherein
An electrode arm introduction window for introducing the electrode arm of the biosensor dispensing device was provided.
A biosensor cartridge characterized by the above. A biosensor dispensing device, wherein the biosensor cartridge according to claim 3 is set at a measurement position, and each biosensor is dispensed to continuously measure a target solution component a plurality of times.
Biosensor transport means for transporting the biosensor sheet in the biosensor cartridge;
Unloading means for unloading the measurement part of the biosensor of the biosensor sheet from the transfer path to a predetermined measurement position for each measurement part;
An electrode arm having an electrode contact connected to the electrode part of the biosensor,
Each measurement part of the biosensor that is sequentially sent in the longitudinal direction by the transport means performs spotting of the sample in a state where the biosensor is carried to the predetermined measurement position by the carry-out means, and each measurement part has its electrode part and Electrical data from each biosensor was obtained by connecting the electrode contacts of the electrode arm.
A biosensor dispensing device characterized by that. The biosensor dispensing device according to claim 18,
The biosensor transport means is a manual dial,
A biosensor dispensing device characterized by that. The biosensor dispensing device according to claim 18,
The biosensor transport means is disposed on one side of the main body of the biosensor dispensing device,
A biosensor dispensing device characterized by that. The biosensor dispensing device according to claim 18,
A recess for loading the biosensor cartridge;
A biosensor dispensing device characterized by that. The biosensor dispensing device according to claim 18,
A latch for engaging with the biosensor cartridge;
A biosensor dispensing device characterized by that. The biosensor dispensing device according to claim 18,
The carry-out means is a projecting drive member that slides the slide member of the biosensor cartridge.
A biosensor dispensing device characterized by that. The biosensor dispensing device according to claim 18,
Provided with drive rollers for driving the supply roller and the recovery roller of the biosensor cartridge,
A biosensor dispensing device characterized by that. The biosensor dispensing device according to claim 18,
A display unit for displaying the measurement result of the biosensor;
A biosensor dispensing device characterized by that. The biosensor dispensing device according to claim 18,
The biosensor dispensing device is controlled or provided with input means for inputting information to the biosensor dispensing device.
A biosensor dispensing device characterized by that. The biosensor dispensing device according to claim 18,
Comprising output means for outputting information stored in the biosensor dispensing device to the outside;
A biosensor dispensing device characterized by that.

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