WO2013099262A1 - Package-type carrier and method for unwrapping same - Google Patents

Abstract

A package-type carrier, wherein a packaged object that is a biosensor can be easily taken out of the package-type carrier and attached to a measuring device without touching the packaged object. A package-type carrier (10) has an unsealed portion (15) outside a sealed portion (12) and near a connection electrode of a biosensor (16), and has, at the end of or near the unsealed portion (15), a leading end processed portion (14) such that a space (18) is provided in a portion between an upper cover (11a) and a lower cover (11b) of the package-type carrier (10).

Description

Packaging type carrier and its opening method

The present invention relates to a wrapping type transport body in which a body to be packaged is wrapped with a wrapping body and a method for opening the wrapping body.

Conventional packaging type carriers have a configuration in which packages to be packaged such as foods and drinks, pharmaceuticals, electronic parts, and machine parts are packaged in a package.

That is, the packaging body has an upper surface cover and a lower surface cover arranged above and below the package body, and the upper surface cover and the lower surface cover are covered with the upper surface cover and the lower surface cover in a state where the package body is covered. It was the structure which adhered on the outer peripheral part of the package. A similar technique is disclosed in, for example, Patent Document 1.

JP 2000-203600 A

In the conventional configuration described above, the package body cannot be easily taken out from the package body, which is extremely inconvenient. That is, as described above, the package body is constituted by the upper surface cover and the lower surface cover, and both are in contact with each other on the outer peripheral surface.

Therefore, when unpacking the packaging type carrier, part of the contact surface between the upper surface cover and the lower surface cover on the outer peripheral surface is peeled off, and then the peeled outer peripheral surface is held with a finger so that the upper surface cover and the lower surface cover are attached. Peel off all contact surfaces. However, it is extremely difficult to remove the upper surface cover and the lower surface cover at the contact surface. For this reason, the package body cannot be easily taken out from the package body, and the usability is deteriorated.

The present invention relates to a wrapping type carrier that improves usability by allowing the contact surface between the upper surface cover and the lower surface cover to be easily peeled off, and a method for opening the wrapping type carrier.

A packaging type carrier according to one embodiment of the present invention includes a package and a package body packaged by the package body, and the package body has a flat plate shape and a connection electrode at one end. The package includes a sheet-like upper surface cover and a lower surface cover disposed above and below the package body, and the package body includes the upper surface cover sandwiching the package body and the An adhesive portion that seals the package body by adhering a lower surface cover to the periphery of the package body, and at least one of the upper surface cover and the lower surface cover is located outward of the adhesion portion. A convex portion or a concave portion on a surface of the upper surface cover or the lower surface cover, which is a portion close to the connection electrode, and the upper surface cover and the lower surface cover are not provided in a peripheral portion of the convex portion or the concave portion. A contact space is constructed, Take the deposition.

The present invention has a convex portion or a concave portion on at least one surface of the upper surface cover and the lower surface cover, and a non-contact space between the upper surface cover and the lower surface cover is formed around the convex portion or the concave portion. Thereby, the user can peel off the contact surface of an upper surface cover and a lower surface cover easily. As a result, the usability of the packaging type carrier can be improved. Furthermore, according to the present invention, since the convex portion or the concave portion is provided in a portion close to the connection electrode, the user can attach the sensor to the measuring apparatus without touching the sensor.

That is, according to the present invention, when opening the packaging-type transport body, it is easy to put a finger on the convex portion or the concave portion. In addition, according to the present invention, the contact area between the upper surface cover and the lower surface cover is reduced by the non-contact space formed around the convex portion or the concave portion, so that the upper surface cover and the lower surface cover can be easily peeled off. Furthermore, in the present invention, the non-contact space becomes a starting point when the upper surface cover and the lower surface cover are peeled off. As a result, according to the present invention, the user can easily peel off the contact surface between the upper surface cover and the lower surface cover, and the usability of the packaging type carrier can be improved.

Further, in the present invention, when the user expands and peels the upper surface cover and the lower surface cover on the side where the convex portion or the concave portion is provided, first, the user peels off until the connection electrode is exposed. Leave the glue on the opposite side glued. Then, after the user attaches the connection electrode to the measuring device, all of the bonded portion is peeled off. In the present invention, the user can attach the sensor to the measuring device without touching the sensor by adopting this unpacking method.

The perspective view which showed the state before opening of the packaging type conveyance body of this invention The perspective view and structure figure which showed the state before opening of the packaging type conveyance body of this invention The perspective view and structure figure which showed the state after opening of the packaging type conveyance body of this invention The figure which shows the unpacking method using the packaging type conveyance body of this invention The figure which shows another unpacking method using the packaging type conveyance body of this invention The perspective view which shows the usage method after opening of the packaging type conveyance body of this invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention The figure which shows the surface and back surface of the packaging type conveyance body of this invention shown in FIG. The figure which shows the cross section of the packaging type conveyance body of this invention shown in FIG. Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention Structural drawing showing another example of the packaging type carrier of the present invention

Hereinafter, the packaging carrier according to the first embodiment of the present invention will be described with reference to the drawings. In the present embodiment, a case where a flat plate-shaped biosensor that measures a substrate concentration (eg, glucose concentration) of a biological sample is used as an example of a packaged body of a package-type carrier will be described. 1 to 36 are only uniform embodiments of the present invention, and the embodiments are not limited thereto.

(Embodiment 1)
FIG. 1 is a perspective view showing a state before opening of a packaging-type transport body according to Embodiment 1 of the present invention. FIG. 1 is a diagram illustrating a state in which five packaging type carriers 10 are connected.

As can be understood from FIGS. 1 to 3, the package-type transport body 10 of the present embodiment includes a biosensor 16 as an example of a flat-plate-shaped package body in the package body 11. The package 11 has a rectangular shape and is composed of a sheet-like upper cover 11a and lower cover 11b. The biosensor 16 is sandwiched between the upper surface cover 11a and the lower surface cover 11b.

A first processed portion 13, a seal portion 12, and a non-seal portion 15 are formed on at least one of the upper surface cover 11a and the lower surface cover 11b. The first processing portion 13 is convex and constitutes a space 18 for housing the biosensor 16. The seal portion 12 is provided around the biosensor 16 at a predetermined interval in order to seal the biosensor 16 accommodated in the space 18.

The seal part 12 is formed by heat-welding the upper surface cover 11a and the lower surface cover 11b. The upper surface cover 11a and the lower surface cover 11b have a seal layer inside. The biosensor 16 is completely sealed off from the outside air by the seal portion 12. For this reason, the biosensor 16 is not contaminated by dust or dust, and is not affected by external humidity. Therefore, the packaging type carrier 10 improves the storage stability of the biosensor 16.

Further, the non-seal portion 15 is a portion that is not sealed (for example, heat welded) on one end side of the space 18 between the upper surface cover 11a and the lower surface cover 11b. The non-seal portion 15 can be gripping margins 15a and 15b when the packaging-type transport body 10 is opened (see FIG. 4B).

The front end processing part 14 is provided in a part of the non-seal part 15 and is disposed at the end of the packaging type carrier 10. The user opens the unsealed portion 15 as the gripping margins 15a and 15b by grasping with the finger. At this time, the tip processing portion 14 becomes a fulcrum for gripping the margins 15a and 15b with fingers. As a result, the user can easily grasp the margins 15a and 15b with a finger, peel off the upper surface cover 11a and the lower surface cover 11b, open the package, and take out the biosensor 16 as the package body. (See FIG. 3).

FIG. 3 shows a state in which the packaging body 11 of the packaging-type transport body 10 is opened from the tip processing portion 14 side.

1st processing part 13 can constitute space 18 between upper surface cover 11a and lower surface cover 11b.

Further, when the packaging type carrier 10 is manufactured, the packaging body 11 is processed so as to form a space 18 having a size slightly larger than the size of the biosensor 16 that is the packaged body. That is, the package 11 is appropriately processed according to the size of the package to be stored inside the package 11. Thereby, size reduction of the packaging type conveyance body 10 can be achieved. Furthermore, the orientation of the biosensor 16 accommodated in the space 18 can be maintained.

As shown in FIG. 6, the user opens the packaging carrier 10 and exposes the connection electrode portion of the biosensor 16 accommodated therein. Thereafter, the user can insert the biosensor 16 into the sensor mounting portion 21 of the measuring apparatus 20 without directly touching the biosensor 16 with a finger. For this reason, deposits such as moisture and oil adhering to the user's finger do not adhere to the biosensor 16. Therefore, the certainty of measurement by the biosensor 16 can be increased. In addition, a measurement result etc. are displayed on the display part 22 of the measuring apparatus 20. FIG.

Next, a method for opening the packaging carrier 10 according to the first embodiment will be described with reference to FIGS. 4 and 5.

FIG. 4 shows an example of an unpacking method for unpacking in the order of FIG. 4A → FIG. 4B → FIG. 4C → FIG. 4D.

In FIG. 4A, the user grasps the packaging type carrier 10 with the finger 17 of the left hand. Then, the user peels off the upper surface cover 11a and the lower surface cover 11b from the front end processing portion 14 at the end of the packaging transporter 10 with the finger 19 of the right hand. Since the front end processed portion 14 is provided, in the case of FIG. 4A, it can be caught with the finger 19 of the right hand, and the non-seal portion 15 can be easily peeled off. That is, the gripping margin 15a of the upper surface cover 11a and the gripping margin 15b of the lower surface cover 11b can be easily opened with the tip processing portion 14 as a fulcrum. Next, in FIG. 4B, the user grasps the gripping margin 15 a (the portion of the non-seal part 15 described above) of the peeled top cover 11 a with the finger 19 of the right hand. In FIG. 4C, the user grasps the grip margin 15b (the portion of the non-seal portion 15 described above) of the lower surface cover 11b with the finger 17 of the left hand. Thereafter, in FIG. 4D, the user pulls the upper surface cover 11a and the lower surface cover 11b left and right with the left finger 17 and the right finger 19 respectively. As a result, the seal portion 12 (see FIGS. 2 and 3) shielded by thermal welding or the like is peeled off, and the biosensor 16 is a packaged body sealed inside the package body 11 of the package-type transport body 10. Is exposed (state shown in FIG. 3).

Here, the packaging body 11 of the packaging-type transport body 10 has a tip processing portion 14 that is blistered (projection processing). A gap is formed by the tip processing portion 14 between the upper surface cover 11a and the lower surface cover 11b. For this reason, the upper surface cover 11a and the lower surface cover 11b do not adhere to each other at the tip processing portion 14, and the tip processing portion 14 also becomes a catching portion such as the finger 17 or the finger 19. Therefore, the user can easily separate the upper surface cover 11a and the lower surface cover 11b with the tip processing portion 14 and pinch the gripping margin 15a with a finger. Therefore, the packaging type carrier 10 is excellent in unpacking workability.

Further, the planar shape of the seal portion 12 of the package 11 processed by heat welding or the like is not particularly limited. For example, the frame shape of the seal portion 12 is a polygon (for example, a pentagon as shown in FIG. 2), and the vertex of the polygon is directed to the tip processing portion 14. Thereby, when peeling the upper surface cover 11a and the lower surface cover 11b from the front-end | tip process part 14 side, the package 11 is opened from the vertex of a polygon. For this reason, since the load required for unpacking gradually increases, adjustment of the load force by the user's finger becomes easy.

Furthermore, in the present embodiment, the sensor mounting portion of the measuring device 20 is opened in a state in which only a part is opened without completely opening the space 18 in which the biosensor 16 is stored (see FIG. 3 and the like). 21 is configured so that the biosensor 16 can be attached thereto. Therefore, the wrapping type transport body 10 can be easily opened by the person with weak power and can be equipped with the biosensor 16.

Next, an example of another unpacking method shown in FIGS. 5A to 5D will be described. 5A to 5D, the upper cover 11a and the lower cover 11b are separated from each other by sliding the finger of one hand holding the package 11 (the finger 19 in the right hand in the example of FIG. 5).

In FIG. 5A, the user first sandwiches the end of the packaging type carrier 10 on the non-seal part 15 side with a finger of one hand. That is, the user pinches the tip processing portion 14 provided at the end of the packaging type carrier 10 with a finger. Next, the user can easily peel the upper surface cover 11a from the lower surface cover 11b by sliding the finger 19 sandwiching the packaging type carrier 10.

The effect is that the blistered portion applied to the surface of the tip processed portion 14 prevents the fingers from slipping, and the surfaces where the upper surface cover 11a and the lower surface cover 11b contact each other are less slipped. It is obtained because it is made of a good material or surface treatment.

That is, since it has the front end processing part 14 which is a part which the upper surface cover 11a and the lower surface cover 11b do not contact | abut, the friction between those both covers is reduced, and the finger of one hand (FIG. In the example of FIG. 5, the tip processing portion 14 is caught on the finger 19) of the right hand. Thereby, the non-seal part 15 part of the upper surface cover 11a and the lower surface cover 11b is easily scooped.

In FIG. 5B, when the finger 19 slides, the upper surface cover 11a is beaten by the finger, and the grip margin 15b on the rear surface side of the lower surface cover 11b is exposed. Therefore, the user grasps the grip margin 15b with the finger 19 of the right hand. Thereafter, in FIG. 5C, the user grasps the gripping margin 15 a having the tip processed portion 14 on the surface with the finger 17 of the left hand. In FIG. 5D, the user can open the package 11 by peeling the seal portion 12 of the package 11 by pulling the upper surface cover 11a and the lower surface cover 11b to the left and right. Then, the user can expose the biosensor 16 stored in the first processing unit 13.

The package 11 has a contact area between the upper surface cover 11a and the lower surface cover 11b reduced by forming the tip processing portion 14 at the end. Therefore, the unpacking operation by the method shown in FIG. 4 and the method shown in FIG. 5 can be easily performed.

Next, a method of using the biosensor 16 exposed by opening the packaging carrier 10 will be described with reference to FIGS. 6A and 6B.

The biosensor 16 in the package carrier 10 opened by the method shown in FIG. 4 or FIG. 5 is not entirely exposed, and 1/3 to 2/3 of the biosensor 16 is not exposed. The degree is exposed. The exposure width of the biosensor 16 may be equal to or greater than the depth of the sensor mounting portion 21 of the measurement apparatus 20 to which the biosensor 16 is mounted. Here, the “depth” refers to a contact portion (not shown) provided inside the sensor mounting portion 21 that contacts the connection electrode portion when the biosensor 16 is inserted to the back of the sensor mounting portion 21. Means the distance to the entrance of the sensor mounting portion 21.

Therefore, the exposure width of the biosensor 16 may be equal to or greater than the above “depth”. More preferably, the exposure width should be equal to or greater than the distance from the back of the sensor mounting portion 21 to the entrance of the sensor mounting portion 21.

Thereby, a user who intends to perform measurement using the biosensor 16 can attach the biosensor 16 to the sensor attachment portion 21 of the measurement apparatus 20 without directly touching the biosensor 16 with a finger. For this reason, an artificial adverse effect on the biosensor 16 due to the opening operation of the package 11 is suppressed. That is, in a state in which a part of the biosensor 16 is accommodated in the package 11, the user can put the biosensor 16 on the measurement device 20 by sandwiching the outside of the unopened portion of the package carrier 10 with the finger 19 ( FIG. 6). Therefore, the packaging type carrier 10 can improve measurement reliability and workability.

Here, as an artificial adverse effect, if the connection electrode part of the biosensor 16 is touched with a wet finger, the measurement is impossible due to a short circuit between the electrodes, or the reagent of the biosensor 16 is not touched with the wet finger. It is conceivable that, when the placed part is touched, the reagent dissolves before the spotting of blood and an abnormal measurement value is shown.

In addition, the area ratio of the sealed packaging part (seal part 12 + first processing part 13) and the non-seal part 15 in the packaging type carrier 10 may be in the range of about 5: 1 to 1: 5, more preferably. 4: 1 to 1: 1.

In the present embodiment, the seal part 12 and the non-seal part 15 are arranged on one side and the other side in the longitudinal direction of the packaging type carrier 10, respectively. Thereby, workability | operativity of the unpacking operation | work of pinching with a finger | toe etc. can be improved.

When the connection electrode portion of the biosensor 16 is inserted into the sensor mounting portion 21 of the measurement device 20, the connection electrode contacts a connector (not shown) in the sensor mounting portion 21 and is electrically connected to a measurement circuit or the like. To do. And the biosensor 16 is hold | maintained at the measuring apparatus 20 with the contact pressure of the connector. For this reason, with the biosensor 16 attached to the measurement device 20, only the package 11 of the package carrier 10 can be pulled out by the finger 19 and separated from the biosensor 16 (FIG. 6B). Thereafter, the user punctures the finger with an external puncture device, exudes the biological sample from the punctured skin, and places the biological sample on the biosensor 16. Thereby, the measuring device 20 measures and analyzes the concentration of the substrate of the biological sample spotted on the biosensor 16.

Here, the upper surface cover 11a and the lower surface cover 11b of the package 11 may be laminated films such as PET (polyethylene terephthalate, base material layer) / AL (aluminum material) / PE (polyethylene, seal layer). It can be a laminated configuration. The configuration of the top cover 11a or the bottom cover 11b is not limited to this stacked configuration.

For example, a dry layer (also referred to as a moisture absorption layer or a dehumidification layer) in which a desiccant is kneaded may be laminated on the upper surface cover 11a and the lower surface cover 11b. By laminating the dry layer, it becomes unnecessary to separately enclose a desiccant such as silica gel or alumina in the space 18 in which the biosensor 16 is housed as a countermeasure against moisture of the biosensor 16 as in the prior art.

Also, the sealing layer 12 of the packaging type carrier 10 can be formed by superimposing the sealing layer of the upper surface cover 11a and the sealing layer of the lower surface cover 11b so as to face each other and thermally welding at 100 to 200 ° C. Further, the seal portion 12 can be formed by thermocompression bonding or the like.

Furthermore, a dry layer in which the above desiccant is kneaded may be provided between the base material layer and the seal layer constituting the upper surface cover 11a or the lower surface cover 11b.

Since the dry layer is a measure against moisture of the biosensor 16, it may be disposed between the outside air and the biosensor 15, and is not limited to the case where it is provided between the base material layer and the seal layer as described above. However, it is appropriate to dispose the dry layer inside other than the outermost layer.

The size of the base of the packaging carrier 10 is not particularly limited. For example, the size of the biosensor 16 having a flat plate shape can range from 10 to 60 mm in total length, 3 to 20 mm in width, and 0.1 to 3 mm in thickness. Preferably, the size of the biosensor 16 may range from 20 to 35 mm in total length, 4 to 10 mm in width, and 0.2 to 1 mm in thickness. The biosensor 16 of the present embodiment has a total length of about 30 mm, a width of about 7 mm, and a thickness of about 0.4 mm. Therefore, the overall size of the package-type transport body 10 is a dimension that includes the biosensor 16 that is the package body, and can be about 60 mm in total length, about 22.5 mm in width, and about 0.2 mm in thickness. Therefore, the packaging type carrier 10 can be downsized to about 2/3 of the conventional size of about 70 mm in total length, about 30 mm in width, and about 0.2 mm in thickness.

In addition, the thickness direction of the packaging type carrier 10 is expanded to the extent that the biosensor 16 can be accommodated by blister processing. That is, the space for storing the biosensor 16 is secured by blistering the seal portion 12 and the first processing portion 13.

(Embodiment 2)
Another embodiment of the packaging type carrier 10 according to the present invention will be described below with reference to FIGS. In addition, the same code | symbol is attached | subjected about the same thing as the content shown in the above-mentioned Embodiment 1, and description is abbreviate | omitted.

7 to 36 are a perspective view of the packaging type carrier 10 showing a modified example of the tip processing portion 14 and an enlarged plan view of a main part when the tip processing portion 14 is viewed from above. However, the example of FIG. 7 is the same as that of the first embodiment. This will be described in detail below.

In the example of FIG. 7, the first processing portion 13 and the seal portion 12 are provided so as to form a space 18 in which the biosensor 16 (see FIG. 3, etc.) is housed in the substantially rectangular packaging type carrier 10. It has been. With this configuration, the packaging transporter 10 seals and stores the biosensor 16 housed therein. The 1st process part 13 is the shaded part in FIG. 7, and is blister processed. The seal portion 12 is a shaded portion in FIG. 7 and seals the periphery of the first processed portion 13 by heat welding or the like. The frame of the seal portion 12 is a polygon (pentagon in the example of FIG. 7).

In FIG. 7, the boundary portion (white portion) between the seal portion 12 and the first processing portion 13 is blistered on the first processing portion 13, so that the height of the seal portion 12 and the first processing portion 13 are It shows that there is a difference in height.

A non-seal part 15 that serves as the knobs 15a and 15b (see FIGS. 4 and 5) at the time of opening is provided at a position adjacent to the seal part 12 of the packaging type carrier 10 in the longitudinal direction. The non-seal portion 15 is a portion where the upper surface cover 11a and the lower surface cover 11b are not bonded.

A tip processing portion 14a (same as the tip processing portion 14 shown in FIG. 2B) is provided at the end of the non-seal portion 15 on the upper surface cover 11a side. The tip processing portion 14a (shaded portion) is subjected to processing such as blister processing in a range showing a rectangle. A gap 18a, which is a region where the upper surface cover 11a and the lower surface cover 11b do not contact each other, is formed in a part of the tip processing portion 14a. The processing (blister processing) of the tip processing portion 14a may be performed simultaneously with the first processing portion 13, or may be integrally processed when the upper surface cover 11a is manufactured. Thereby, production cost can be held down.

7, the cross section of the gap 18a perpendicular to the longitudinal direction of the packaging carrier 10 is rectangular, trapezoidal, or the like.

The gap 18a is easily caught with the user's finger when opening. For this reason, workability | operativity of unpacking work can be improved with a user's finger | toe.

Next, FIG. 8 will be described. The tip processed portion 14b of FIG. 8 is different in arrangement from the tip processed portion 14a of FIG. That is, in the example of FIG. 8, the front end processed portion 14b is provided inside the end portion, not the end portion of the packaging type transport body 10 (specifically, the non-seal portion 15). In FIG. 8, similarly to the configuration of FIG. 7, a region where the upper surface cover 11 a and the lower surface cover 11 b do not contact each other is provided, and a tip processing portion 14 b that is a convex portion on a part of the non-seal portion 15 during opening And the finger are easily caught, so that the workability of the unpacking operation can be improved. In particular, in the method of unpacking by sliding the finger shown in FIG. 5, the configuration of FIG. 8 facilitates smooth separation and peeling of the upper surface cover 11a and the lower surface cover 11b.

Next, FIG. 9 will be described. In FIG. 9, the front end processed portion 14 c is provided over the entire width direction in the short direction of the packaging mold carrier 10. That is, the tip processing portion 14c is longer in the configuration of FIG. 9 than the configuration of FIG. 8, and the tip processing portion 14c extends from the end of one long side to the end of the other long side. Accordingly, the configuration of FIG. 9 increases the degree of freedom of the part to be grasped with the finger in the unpacking operation, and can improve the workability of the unpacking operation equal to or higher than the configuration of FIG.

That is, the tip processed portion 14c has a wider area where the upper surface cover 11a and the lower surface cover 11b are not in contact with each other than the tip processed portions 14a and 14b of FIGS. The range of gripping with a finger can also be set arbitrarily. Therefore, the workability can be equal to or higher than that of the configuration of FIG. 7 or FIG.

Next, FIG. 10 will be described. In FIG. 10, the tip processing portion 14 d is provided at the end portion of the non-seal portion 15 of the packaging type transport body 10 in the same manner as the configuration of FIG. 7. However, in FIG. 10, the shape of the tip processed portion 14 d when viewed from above the packaging type carrier 10 is substantially a trapezoidal shape, a semicircular shape, or a hilly shape (filled shape), unlike the rectangular shape of FIG. 7. It has become. The configuration of FIG. 10 can also obtain the same effect as the configuration of FIG.

Next, FIG. 11 will be described. In FIG. 11, the tip processing portion 14e is different from the case where the tip processing portion 14a in FIG. 7 is provided only at the end of the upper surface cover 11a (or the lower surface cover 11b, but one of them). It is also provided at the end of the cover 11b.

Thereby, the width of the gap 18a between the upper surface cover 11a and the lower surface cover 11b by the tip processing portion 14e becomes wider than that in the case of FIG. For this reason, when the user grasps the tip processing portion 14e with a finger, both fingers are easily caught on the tip processing portion 14e. Therefore, the tip processing portion 14e in FIG. 11 can more easily shift, separate, and peel off the upper surface cover 11a and the lower surface cover 11b than the tip processing portion 14a in FIG.

Next, FIG. 12 will be described. 12 f is provided at the end of the non-seal part 15 of the package 11 of the package carrier 10 in a bank shape over the entire width in the short direction. The configuration of FIG. 12 can obtain the same effects as the configuration of FIG.

Next, FIG. 13 will be described. The tip processed portions 14g and 14g 'shown in FIGS. 13A and 13B are different from the tip processed portions of FIGS. That is, the tip processed portions 14g and 14g 'have a plurality of triangular prism-shaped convex portions. In FIG. 13A, the plurality of convex portions are configured such that one of the apexes of the triangle of each convex portion faces the first processing portion 13 in which the biosensor 16 is accommodated. In FIG. 13B, the plurality of convex portions are configured such that one of the vertices of the triangle of each convex portion faces the end surface of the non-seal portion 15.

Thereby, the user can visually recognize the direction in which the non-seal portion 15 is peeled off and the position where the finger is picked. As a result, the configuration of FIG. 13 can appropriately perform the unpacking operation and improve the workability of the unpacking operation.

In FIG. 13, the tip processed portion 14g is a triangular prism-shaped convex portion, but the present invention is not limited to this. For example, the tip processed portion 14g is formed in a polygonal shape, a cloud shape, a circular shape, or a semicircular shape. It is good also as convex parts, such as.

Next, FIGS. 14 and 15 will be described. The tip processing portion 14h shown in FIG. 14 and the tip processing portion 14i shown in FIG. 15 are indications indicating the location of opening and instructions for opening instead of the convex portions such as the tip processing portions 14a to 14g described above. It functions as a part. In FIG. 14, the tip processing portion 14 h is an indication (character information) “OPEN” that instructs opening. The marking is formed so as to protrude from the surface of the end portion of the packaging type carrier 10. In FIG. 15, the front end processed portion 14 i is braille corresponding to “OPEN”, and is formed to protrude from the end portion surface of the packaging mold carrier 10.

In FIG. 14, characters such as “OPEN” are formed by projecting the upper surface cover 11a or the lower surface cover 11b. In addition, the characters themselves can be arbitrarily selected, and can be realized by printing / printing a notation in a national language. Of course, it is not limited to characters, and may be pictograms, diagrams, symbols, graphics, marks, and the like.

14, the user can directly perceive (visually or tactilely) the instruction to open and the location to open. 15 is convenient for a person with a visual impairment or the like.

Further, the tip processing portion 14h in FIG. 14 and the tip processing portion 14i in FIG. 15 can be used together with tip processing portions (14a to 14g, 14j, 14k, etc.) according to other modified examples.

Next, FIG. 16 will be described. The tip processed portion 14j shown in FIG. 16 does not have a convex portion like the tip processed portions (14a to 14g) of the above-described modified example, but is one end of either the upper surface cover 11a or the lower surface cover 11b. It is formed by cutting the part. Thereby, the user can reliably grasp the end of one sheet without the cutting process of the upper surface cover 11a or the lower surface cover 11b. Therefore, the user can separate the upper surface cover 11a and the lower surface cover 11b, and can easily open the package 11.

Next, FIG. 17 will be described. A tip processing portion 14k shown in FIG. 17 is a modification of the tip processing portion 14j of FIG. That is, the front end processed portion 14k is provided with a cut-off processed portion on both the upper surface cover 11a and the lower surface cover 11b and at different positions (positions that do not face each other). In FIG. 17, a total of two tip processing portions 14k are provided, one each on the front surface (upper surface cover 11a) and the rear surface (lower surface cover 11b). In the present invention, the number of the tip processed portions 14k is not limited, and may be set to an arbitrary number as necessary.

Thereby, the user can more smoothly separate the upper surface cover 11a and the lower surface cover 11b, so that the workability of the unpacking operation can be improved.

In addition, in FIG. 16, FIG. 17, the front end process parts 14j and 14k may form a protrusion part in the upper surface cover 11a or the lower surface cover 11b of the part adjacent to it.

Next, FIG. 18 will be described. The tip processing portion 14L shown in FIG. 18 is configured by an arc-shaped convex portion provided on the non-seal portion 15 of the top cover 11a. The convex portion constituting the tip processed portion 14L is different from a straight processed shape (the tip processed portion 14b in FIG. 8, the tip processed portion 14c in FIG. 9, etc.). Therefore, even if the unpacking operation is performed from any direction of the tip processing portion 14L, the finger and the tip processing portion 14L are easily caught. Therefore, the gripping margins 15a and 15b can be reliably separated, and a reliable unpacking operation can be performed.

Next, FIG. 19 will be described. The projecting portion constituting the projecting tip processing portion 14m shown in FIG. 19 is different from the arc-shaped projecting portion in FIG. 18 in that the direction of the arc of the arc shape is reversed. In the configuration shown in FIG. 19, like the tip processing portion 14L in FIG. 18, the finger and the tip processing portion 14m are easily caught even if the unpacking operation is performed from any direction of the tip processing portion 14m. Therefore, the gripping margins 15a and 15b can be reliably separated. Further, in the configuration shown in FIG. 19, the arc shape of the distal end processed portion 14 m extends toward the outside of the packaging type transport body 10. For this reason, the user can hold the packaging type transport body 10 by applying a finger along the arc-shaped raised portion of the tip processing portion 14m. That is, in the configuration shown in FIG. 19, the fingers are easily caught by the gripping margins 15 a and 15 b (see FIGS. 4 and 5) of the non-seal portion 15, and the grip force is increased. Therefore, the protruding tip processing portion 14m shown in FIG. 19 can further improve the certainty of the unpacking operation than the tip processing portion 14L shown in FIG.

Next, FIG. 20 will be described. The tip processing portion 14n shown in FIG. 20 is composed of a plurality of linear convex portions provided in parallel to each other on the portion of the non-seal portion 15 of the upper surface cover 11a of the packaging type carrier 10.

Moreover, when viewed from the top surface, a plurality of elongated quadrangular convex portions are provided on the tip processing portion 14n in parallel with the short-side direction of the packaging-type transport body 10. In addition, the length of the elongated rectangular shape is the longest at the end portion side of the packaging-type transport body 10 and is shorter toward the inside.

According to the tip processing portion 14n shown in FIG. 20, a hook is generated between the flat surface of the user's finger and the tip processing portion 14n at the time of unpacking. Therefore, the user can more easily separate the grip margin 15a and the grip margin 15b (see FIGS. 4 and 5) of the non-seal portion 15 from each other. Therefore, according to the tip processing portion 14n shown in FIG. 20, the workability of the unpacking operation can be further improved.

In FIG. 20, the tip processed portion 14n is provided with three elongated quadrangular convex portions in parallel. However, the present invention is not limited to the number of convex portions, and even with two, Four or more may be sufficient. In FIG. 20, the widths of the plurality of elongated quadrangular convex portions that are parallel to the tip processed portion 14 n are different from each other. However, the present invention is not limited to this, and the width of all the convex portions is the same. Well, the widths of some of the convex portions may be the same.

Next, FIGS. 21, 22, and 23 will be described. In the non-sealed portion 15 of the top cover 11a (see FIG. 3), the packaging type carrier 10 shown in FIG. 21A is provided with the tip processing portion 14n shown in FIG. 20 in the vicinity of the end of the packaging type carrier 10. . The package type transport body 10 shown in FIG. 21B is provided with a tip processing portion 14 n ′ in the vicinity of the end of the package type transport body 10. Unlike the tip processed portion 14n, the lengths of the three elongated rectangular convex portions constituting the tip processed portion 14n ′ are the shortest at the end portion side of the packaging mold carrier 10, and become longer toward the inside. Yes. 21A and 21B are additionally provided with a tip processed portion 14o that has been extracted on the entire end of one side of the package-type carrier 10.

22A is a top view of the packaging carrier 10 shown in FIG. 21A, and FIG. 22B is a bottom view of the packaging carrier 10 shown in FIG. 21A. In FIG. 23, 100 shows the surface of the packaging type carrier 10 shown in FIG. 21A (the same figure as FIG. 22A), and 200 is a cross section of the packaging type carrier 10 in the short direction (vertical one-dot chain line portion). 300 indicates a cross section in the longitudinal direction of the packaging-type transport body 10 (the portion indicated by the alternate long and short dashed lines).

The front end processed portion 14o is configured by extracting only the end portion of the upper surface cover 11a (similarly, the grip margin 15a also see FIGS. 3 to 5). In other words, the end surface of the upper surface cover 11a and the end surface of the lower surface cover 11b (similarly, the grip margin 15b also refer to FIGS. 3 to 5) are not aligned and shifted. In the unpacking method described with reference to FIG. 4, the user uses the finger 17 and the finger 19 to separate the grip margin 15 a and the grip margin 15 b of the non-seal portion 15. At this time, only one gripping margin (in this case, the gripping margin 15b on the lower surface cover 11b side) can be gripped first. Then, the user can hit the grip margin 15a first, and then grip the other grip margin (in this case, the grip margin 15a on the top cover 11a side). For this reason, the user can easily grasp the end of the package 11 with a finger and can easily open the package 11.

In addition, as shown in FIGS. 21A and 21B, the tip processed portion 14n provided with three elongated quadrangular convex portions and the finger 19 are hooked so that the user can surely and easily. The gripping margins 15a and 15b can be separated.

That is, since the tip processed portion 14n or 14n ′ is provided with a plurality of convex portions as in the configuration of FIG. 20, a wider contact surface is ensured compared to the configurations of FIGS. There are many contact portions with the finger, and the hook between the finger and the tip processed portion 14n or 14n ′ becomes easier.

Thereafter, the user unwraps the package 11 from the front end side of the angled shape of the seal portion 12 by grasping the grip margin 15a and the grip margin 15b with the fingers 17 and 19 and pulling in the opposite directions. Can do. Then, the user can separate the upper surface cover 11a and the lower surface cover 11b to expose the biosensor 16 that is the packaged body housed in the first processed portion 13 (see FIG. 4).

21 is not only suitable for the unpacking method shown in FIG. 4, but is also suitable for the unpacking method shown in FIG. The unpacking method shown in FIG. 5 is a method of separating the gripping margin 15a and the gripping margin 15b while sliding the finger 19 of one hand (right hand in FIG. 5).

In the unpacking method shown in FIG. 5, the user sandwiches the gripping margins 15 a and 15 b of the non-seal portion 15 of the packaging type transport body 10 with the finger 19 of one hand and moves the sandwiched fingers 19 alternately. As a result, the tip end processing portion 14n provided on the grip margin 15a side (that is, the upper surface cover 11a) and the finger 19 are caught, and the grip margin 15b is separated so that only the grip margin 15a side is pinched.

At this time, if an arbitrary position of the finger 19 is caught on any of the plurality of convex portions of the tip processed portion 14n, the user can easily separate the gripping margin 15a and the gripping margin 15b.

21 is configured such that the end portion of the upper surface cover 11a and the end portion of the lower surface cover 11b are shifted at the front end processed portion 14o. That is, the end of the gripping margin 15a is on the inner side than the end of the gripping margin 15b. Therefore, when the user slides with the finger 19 of one hand, the one finger holds the gripping margin 15b whose end is on the outside, while the other finger has the end on the inside, and a plurality of elongated squares. The gripping margin 15a having the tip processed portion 14n having a convex portion having a shape is slid. As a result, the user can reliably and easily separate the gripping margin 15a and the gripping margin 15b.

Thereafter, the user unwraps the package 11 from the front end side of the angled shape of the seal portion 12 by grasping the grip margin 15a and the grip margin 15b with the fingers 17 and 19 and pulling in the opposite directions. Can do. Then, the user can separate the upper surface cover 11a and the lower surface cover 11b to expose the biosensor 16 that is a packaged body housed in the first processed portion 13 (see FIG. 5).

In addition, although the case where the front end processed part 14o is formed by extracting is shown in the above description, the present invention is not limited to this, and the front end processed part 14o may be formed by cutting. Further, in the present invention, the front end processed portion 14o may be formed by a method in which, in the step of bonding the upper surface cover 11a and the lower surface cover 11b, the respective end surfaces are bonded so as to be shifted.

Furthermore, according to the present invention, in the packaging type carrier 10 in FIG. 21, the surface of the upper surface cover 11a and the lower surface cover 11b constituting the packaging body 11 may be subjected to uneven processing.

Thereby, irregularities are formed on the surfaces of the upper surface cover 11a and the lower surface cover 11b that are in contact with each other and the grip margins 15a and 15b constituting the non-seal portion 15. As a result, the gripping margins 15a and 15b do not come into close contact with each other, and the gripping margins 15a and 15b and the fingers are easily caught, thereby increasing the gripping force.

In particular, when the gripping margins 15a and 15b are gripped with fingers by performing uneven processing on the surface of the lower surface cover 11b as well as the upper surface cover 11a having the tip processed portion 14n, each of the upper surface cover 11a and the lower surface cover 11b. The finger is easily caught in the unevenness arranged in the. Therefore, the separation operation can be performed more reliably.

Next, FIG. 24 will be described. Next, the packaging type transport body 10 shown in FIG. 24 is a modification of the packaging type transport body 10 shown in FIG. That is, the packaging type transport body 10 in FIG. 24 has both the front end processing portion 14j (see FIG. 16) and the front end processing portion 14n (see FIG. 20), and the shape of the sampling processing portion is the front end processing in FIG. It is different from the part 14o. With the configuration of FIG. 24, the same effect as the configuration of FIG. 21 can be obtained.

As shown in FIG. 16, the front end processed portion 14j in FIG. 24 is formed by extracting or cutting one end of either the upper surface cover 11a or the lower surface cover 11b.

As shown in FIG. 20, the tip processing portion 14n in FIG. 24 is provided with a plurality of linear convex portions parallel to each other at the portion of the non-seal portion 15 of the upper surface cover 11a of the packaging type carrier 10. It is. That is, when viewed from the upper surface, the tip processing portion 14n is provided with a plurality of elongated rectangular shapes parallel to the short-side direction of the packaging transporter 10. And the length of the elongate rectangular shape is the longest at the end side of the wrapping-type transport body 10 and is shorter toward the inside.

According to the configuration in FIG. 24, the user can surely grasp the end of one sheet without cutting of the upper cover 11a or the lower cover 11b with a finger. In addition, according to the configuration of FIG. 24, the finger plane and the tip processed portion 14n are caught. As a result, the user can grasp the grip margin 15a and the grip margin 15b (see FIGS. 4 and 5) of the non-seal portion 15 more reliably and easily. Therefore, the configuration of FIG. 24 is excellent in workability of unpacking work.

Next, FIG. 25 will be described. The tip processing portion 14p shown in FIG. 25 is composed of a plurality of substantially circular convex portions. These convex portions are provided on the upper surface cover 11 a (see FIG. 3 and others) near the end of the packaging type transport body 10, and are arranged in parallel with the short direction of the packaging type transport body 10.

The plurality of convex portions constituting the front end processed portion 14p are arranged in parallel with the lateral direction at the end portion of the packaging mold carrier 10. For this reason, even when the user brings the finger 19 to any position of the upper surface cover 11a at the time of unpacking, the finger 19 can always be hooked on any of the plurality of convex portions. For this reason, the configuration of FIG. 25 increases the certainty in the unpacking operation.

Next, FIG. 26 will be described. The tip processing portion 14q shown in FIG. 26 is composed of a plurality of substantially circular recesses. These concave portions are provided on the upper surface cover 11 a (see FIG. 3 and others) near the end of the packaging type transport body 10, and are arranged in parallel with the lateral direction of the packaging type transport body 10.

The plurality of recesses constituting the tip processed portion 14q are arranged in two rows and a zigzag as shown in FIG. As a result, a portion (that is, a gap) between the gripping margin 15a of the upper surface cover 11a and the gripping margin 15b of the lower surface cover 11b (see FIG. 3) is formed. Therefore, the configuration of FIG. 26 allows the user to easily grasp the gripping margin 15a and the gripping margin 15b when opening the package.

Next, FIG. 27 will be described. A tip processing portion 14r shown in FIG. 27 is a modification of the tip processing portion 14q of FIG. That is, the tip processed portion 14q has a concave shape, whereas the tip processed portion 14r has a convex shape. In addition, the some convex part which comprises the front-end | tip process part 14r is arrange | positioned in the edge part vicinity of the upper surface cover 11a (refer FIG. 3) similarly to FIG. 26, and is arranged in multiple rows in parallel with the end surface. And each convex part is arrange | positioned in zigzag form similarly to FIG. For this reason, since the structure of FIG. 27 can hook a finger reliably on the convex part provided in the front end processing part 14r, similarly to the packaging-type carrier 10 of FIG. 25, the certainty of the unpacking operation is improved. .

Next, FIG. 28 will be described. The tip processing portion 14s shown in FIG. 28 is a combination of the tip processing portion 14q of FIG. 26 and the tip processing portion 14r of FIG. The tip processed portion 14s is disposed in the vicinity of the end portion of the upper surface cover 11a, and the convex portion and the concave portion are arranged in two rows in parallel with the end surface of the upper surface cover 11a. And in each row | line | column, the convex part and the recessed part are arrange | positioned alternately.

28, when the user brings the finger 19 to any position of the upper surface cover 11a at the time of unpacking, the finger 19 can always be hooked on any of the plurality of convex portions. Therefore, the configuration of FIG. 28 increases certainty in the unpacking operation. In addition, according to the configuration of FIG. 28, the plurality of concave portions form portions (that is, gaps) where the grip margin 15a of the upper surface cover 11a and the grip margin 15b of the lower surface cover 11b (see FIG. 3) do not contact. Therefore, the user can easily grasp the grip margin 15a and the grip margin 15b at the time of unpacking. That is, the packaging type transport body 10 having the tip processing portion 14s shown in FIG. 28 can improve the certainty and ease of opening.

Next, FIG. 29 will be described. The tip processed portion 14t shown in FIG. 29 is provided with a convex shape and a concave shape over the entire width of the packaging type transport body 10 in the short direction. That is, in FIG. 29, a plurality of bank-like protrusions are provided as the tip processing portion 14t. In FIG. 29, since the plurality of bank-shaped protrusions are arranged in parallel with the lateral direction, a non-contact portion (that is, a gap) between the gripping margin 15a and the gripping margin 15b (see FIG. 3 and others) is caused by the bank-shaped projections. Composed. Therefore, according to the configuration shown in FIG. 29, the load of separation work is reduced. Further, in FIG. 29, at the time of unpacking, the user can always hook the finger on the bank-like projections regardless of the position of the bank-like projections. Therefore, the packaging type conveyance body 10 shown in FIG. 29 can improve the certainty and ease of unpacking.

Next, FIG. 30 will be described. The tip processing portion 14u shown in FIG. 30 has a configuration in which the convex and concave arrangements are reversed with respect to the tip processing portion 14t shown in FIG. Therefore, the configuration of FIG. 30 has the same effect as the configuration shown in FIG.

Next, FIG. 31 will be described. 31 has a large rectangular recess in the vicinity of the end of the non-seal portion 15 of the top cover 11a.

A non-contact portion (that is, a gap) is formed between the grip margin 15a and the grip margin 15b around the large rectangular recess. For this reason, a non-contact part is comprised in the edge part of the packaging type conveyance body 10. FIG. Thereby, when a user grasps the margins 15a and 15b with a finger and opens it, the finger can be easily hooked on the tip processing portion 14v. Therefore, the configuration shown in FIG. 31 increases the ease of separation work.

Next, FIG. 32 will be described. 32 has a plurality of triangular recesses at the end of the non-seal part 15 on the top cover 11a side. Thereby, a gap which is a non-contact portion is formed between the upper surface cover 11a and the lower surface cover 11b.

The triangular recess is arranged so that one side of the triangle faces the end of the non-seal portion 15. Further, the triangular recesses are arranged along the end face of the non-seal portion 15. Therefore, the configuration shown in FIG. 32 allows the user to easily hook the finger with the tip processing portion 14w during unpacking. Therefore, the configuration shown in FIG. 32 improves the ease of separation work.

Next, FIG. 33 will be described. The tip processing portion 14x shown in FIG. 33 has a large rectangular recess at a part of the end portion of the non-seal portion 15 on the upper surface cover 11a side. Thereby, a non-contact portion (that is, a gap) is formed between the gripping margin 15a and the gripping margin 15b at the end portion of the packaging mold carrier 10.

As a result, the configuration shown in FIG. 33 allows the finger to be easily hooked to the end portion of the tip processing portion 14x when the user grasps the margins 15a and 15b and opens the bag. Therefore, the configuration shown in FIG. 33 increases the ease of separation work.

Next, FIG. 34 will be described. The tip processing portion 14y shown in FIG. 34 has a quadrangular concave portion and a quadrangular convex portion at a part of the end portion of the non-seal portion 15 on the top cover 11a side. The quadrangular concave portion and the quadrangular convex portion are arranged along the end portion of the non-seal portion 15. In the configuration shown in FIG. 34, a plurality of non-contact portions (that is, gaps) are formed between the gripping margins 15a and the gripping margins 15b at the end portion of the packaging mold carrier 10.

34, the user can easily hook the finger on the end portion of the tip processing portion 14y when the user grasps the margins 15a and 15b and opens the fingers. Therefore, the configuration shown in FIG. 33 increases the ease of separation work.

Next, FIG. 35 will be described. Next, the packaging type carrier 10 shown in FIG. 35 is shown in the vicinity of the end portion of the non-seal portion 15 of the upper surface cover 11a (see FIG. 3), as shown in FIG. It has a tip processing portion 14o.

The front end processed portion 14o is configured by extracting only the end portion of the upper surface cover 11a (similarly, the grip margin 15a also see FIGS. 3 to 5). That is, the bottom cover 11b (the gripping margin 15b is also shifted without matching with the end face of FIG. 3 to FIG. 5). In the unpacking method described with reference to FIG. 4, the user uses the finger 17 and the finger 19 to separate the grip margin 15 a and the grip margin 15 b of the non-seal portion 15. At this time, only one gripping margin (in this case, the gripping margin 15b on the lower surface cover 11b side) can be gripped first. Then, the user can hit the grip margin 15a first, and then grip the other grip margin (in this case, the grip margin 15a on the top cover 11a side). For this reason, the user can open the package 11 easily.

Further, in the configuration shown in FIG. 35, a rectangular convex portion of the tip processing portion 14 b is provided in the vicinity of the end portion of the packaging type carrier 10. For this reason, this convex part and the finger | toe 19 are easily caught, and the user can grasp the margins 15a and 15b reliably and easily.

Furthermore, the configuration shown in FIG. 35 is also suitable for the unpacking method shown in FIG. That is, the user holds the gripping margins 15a and 15b of the non-seal portion 15 of the packaging type carrier 10 with one finger 19 and moves the pinched fingers 19 alternately. As a result, the tip end processing portion 14n provided on the grip margin 15a side (that is, the upper surface cover 11a) and the finger 19 are caught, and the grip margin 15b is separated so that only the grip margin 15a side is pinched.

Further, the packaging type carrier 10 of FIG. 35 is provided with a tip processing portion 14o by sampling on one side of the end portion. Therefore, the end portion of the upper surface cover 11a and the end portion of the lower surface cover 11b are configured to be shifted. That is, the end portion of the gripping margin 15a is disposed inside the end portion of the gripping margin 15b. Therefore, when the user slides with the finger 19 of one hand, while holding the gripping margin 15b (the end is on the outside) with one finger, the tip processed portion 14n (the end is on the inside) with the other finger. And has a plurality of elongated quadrangular convex portions). As a result, the user can reliably and easily separate the gripping margin 15a and the gripping margin 15b.

Next, FIG. 36 will be described. A packaging type transport body 10 shown in FIG. 36 is a modification of the packaging type transport body 10 shown in FIG. That is, the configuration shown in FIG. 36 is a combination of the tip processing portion 14j (see FIG. 16) and the tip processing portion 14b (see FIG. 8), and the shape of the sampling portion is the tip processing shown in FIG. It is different from the shape of the part 14o. The configuration shown in FIG. 36 can obtain the same effect as the configuration shown in FIG.

As described above, the packaging type transport body described in each embodiment of the present invention has a tip processing portion that provides a space in a part between the upper surface cover and the lower surface cover of the packaging type transport body at or near the end of the non-seal portion. Is provided in advance. By utilizing this tip processed portion, it is possible to improve the unpacking workability when the user separates the upper surface cover and the lower surface cover. In addition, the packaging type conveyance body demonstrated above is useful as packaging type conveyance bodies, such as a highly accurate biosensor. When the biosensor is packaged, the user performs the unpacking operation and the mounting operation of the biosensor to the measuring device in an interlocking manner without touching the biosensor as the contents directly with a finger or the like before use. be able to.

As mentioned above, although each embodiment of this invention was described, the said description is an example and various deformation | transformation are possible.

The disclosure of the specification, drawings and abstract contained in the Japanese application of Japanese Patent Application No. 2011-285027 filed on December 27, 2011 and the Japanese application of Japanese Patent Application No. 2012-181475 filed on August 20, 2012 are all Incorporated herein by reference.

The present invention is useful for a wrapping type transport body in which a body to be packaged is packaged with a wrapping body and a method for opening the wrapping body.

DESCRIPTION OF SYMBOLS 10 Packaging type conveyance body 11 Packaging body 11a Upper surface cover 11b Lower surface cover 12 Seal part 13 1st process part 14, 14a, 14b, 14c, 14d, 14e, 14f Tip process part 14g, 14g ', 14h, 14i, 14j, 14k, 14L, 14m Tip processing part 14n, 14n ', 14o, 14p, 14q, 14r, 14s, 14t Tip processing part 14u, 14v, 14w, 14x, 14y Tip processing part 15 Non-seal part 15a, 15b Grab 16 Bio Sensor 17, 19 Finger 18 Space 18a Clearance 20 Measuring device 21 Sensor mounting part

Claims (11)

1. A package body, and a packaged body packaged by the package body,
   The package body is a sensor having a flat plate shape and a connection electrode at one end;
   The package has a sheet-like upper surface cover and a lower surface cover arranged above and below the package body,
   The packaging body has an adhesive portion that seals the package body by bonding the upper surface cover and the lower surface cover sandwiching the package body at a peripheral portion of the package body,
   At least one of the upper surface cover and the lower surface cover has a convex portion or a concave portion on the surface of the upper surface cover or the lower surface cover, which is an outer portion of the adhesive portion and close to the connection electrode,
   A non-contact space between the upper surface cover and the lower surface cover is configured in a peripheral portion of the convex portion or the concave portion,
   Packaging carrier.
2. At least one of the upper surface cover and the lower surface cover has the convex portion or the concave portion in an outer peripheral portion,
   The package type carrier according to claim 1.
3. At least one of the upper surface cover and the lower surface cover has the convex portion or the concave portion inside the outer peripheral portion,
   The package type carrier according to claim 1.
4. At least one of the upper surface cover and the lower surface cover has a plurality of the convex portions or the concave portions,
   The package type carrier according to claim 2.
5. The widths of the plurality of convex portions or concave portions are not constant to each other,
   The width of the convex portion or the concave portion in the vicinity of the end portion of the upper surface cover or the lower surface cover is wider than the width of the convex portion or the concave portion located inward from the end portion,
   The packaging type conveyance body of Claim 4.
6. The convex portion or the concave portion has a use display function.
   The package type carrier according to claim 1.
7. The convex portion or the concave portion has a Braille display function.
   The package type carrier according to claim 1.
8. At least one of the upper surface cover and the lower surface cover is a laminated film, and has a desiccant on the surface facing the packaged body,
   The package type carrier according to claim 1.
9. An end portion of one outer peripheral portion of the upper surface cover and the lower surface cover is displaced inward from an outer peripheral end portion of the other cover in the vicinity of the convex portion or the concave portion,
   The package type carrier according to claim 1.
10. The upper surface cover and the lower surface cover have a rectangular shape,
    At least one of the upper surface cover and the lower surface cover has the convex portion or the concave portion on the short side close to the connection electrode,
    The package type carrier according to claim 1.
11. A method for unwrapping a packaging carrier according to claim 1,
    The upper surface cover and the lower surface cover are peeled off until the connection electrode is exposed in a state where the adhesive portion on the side opposite to the convex portion is left on the short side where the convex portion is provided,
    Attaching the connection electrode to a measuring device,
    The upper surface cover and the lower surface cover are peeled off at all of the adhesive portions.
    How to open a packaging carrier.

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