CN217375480U - Capsule endoscope packing box - Google Patents

Abstract

The application is suitable for the technical field of instrument packaging, and particularly provides a capsule endoscope packaging box which comprises an upper cover, a base and a lining; the upper cover is made of transparent material with infrared interception function; the base is provided with an accommodating space, the upper cover is used for covering the base and closing the opening side of the accommodating space, the lining is arranged in the accommodating space and provided with an accommodating groove for accommodating the capsule endoscope, a groove opening of the accommodating groove is opposite to the upper cover, and the upper cover and/or the base are/is provided with vent holes communicated with the accommodating groove; a first constraint structure is arranged between the upper cover and the lining, and a second constraint structure is arranged between the lining and the base. The technical problems that a packaging box of a conventional capsule endoscope in the prior art cannot play the effects of transparency and infrared filtration at the same time, the packaging box is complex in structural design and high in cost, and sterilization dead angles exist are solved.

Description

Capsule endoscope packing box

Technical Field

The application relates to the technical field of instrument packaging, in particular to a capsule endoscope packaging box.

Background

Capsule endoscopes, as a medical device, are commonly used for diagnosing the health of the digestive tract of a human body. Therefore, it is particularly important to ensure the stability of the structure and performance of the capsule endoscope during the storage and transportation.

The infrared photoelectric switch generally selects the infrared photoelectric switch as a switch of a capsule endoscope (especially an active magnetic control capsule endoscope) due to the advantages of long triggering distance, sensitive triggering response, simple structure, stable performance, long service life, no magnetic interference and the like. However, sunlight and lamplight have infrared rays, and an infrared switch is inevitably triggered during storage and transportation of the capsule. The existing capsule endoscope packaging box can not effectively isolate infrared band light, and an opaque shell can not present the appearance of a capsule endoscope under the condition of not being unsealed. In addition, in order to prevent damage in the transportation process, the existing capsule endoscope packaging box is complex in structural design, cost is increased, sterilization dead angles exist, and sterilization difficulty is increased.

SUMMERY OF THE UTILITY MODEL

An object of the application is to provide a capsule endoscope packing carton, the packing carton of solving the conventional capsule endoscope that exists among the prior art can't play transparent and infrared filterable effect simultaneously, and packing carton structural design is complicated, and is with high costs, has the technical problem at sterilization dead angle.

In order to achieve the purpose, the technical scheme adopted by the application is as follows: provided is a capsule endoscope packaging box including:

an upper cover; the upper cover is made of transparent material with an infrared interception function;

the base is provided with an accommodating space, and the upper cover is used for covering the base and closing the opening side of the accommodating space; and

the inner liner is arranged in the accommodating space and is provided with an accommodating groove for accommodating the capsule endoscope, a notch of the accommodating groove is over against the upper cover, and a vent hole communicated with the accommodating groove is formed in the upper cover and/or the base;

a first constraint structure is arranged between the upper cover and the lining and used for preventing the capsule endoscope from shaking in the accommodating groove, and a second constraint structure is arranged between the lining and the base and used for preventing the lining and the base from shaking relatively.

In one embodiment, the upper cover is plastic or glass with an infrared interception function.

In one embodiment, the base is made of the same material as the upper cover.

In one embodiment, the liner is made of soft material.

In one embodiment, the first constraint structure comprises:

the placing groove is formed at the bottom of the containing groove and used for placing the capsule endoscope, and the placing groove is an arc-shaped groove matched with the surface of the capsule endoscope;

the first limiting bulges are arranged in the accommodating groove, the number of the first limiting bulges is at least two, the first limiting bulges are respectively arranged on two sides of the placing groove, and the side surface of the first limiting bulge facing the placing groove is an arc surface matched with the surface of the capsule endoscope; and

the second limiting bulges are arranged on the inner side of the upper cover, the number of the second limiting bulges is at least two, and the second limiting bulges are respectively positioned on two sides of the placing groove and are limited in the capsule endoscope in the placing groove after the upper cover is covered.

In one embodiment, the first restriction structure further comprises a third limiting protrusion arranged on the side of the accommodating groove, the third limiting protrusion is provided with an abutting groove matched with the shape of the end of the capsule endoscope, and the abutting groove is used for abutting and limiting the end of the capsule endoscope.

In one embodiment, the second constraint structure comprises:

the circular bulge is arranged on the bottom surface of the lining; and

the annular bulge is arranged on the bottom surface of the accommodating space, and the circular bulge is used for being inserted into the annular bulge.

In one embodiment, the second constraint structure further comprises:

the annular bulge is provided with a plurality of notches for avoiding the convex strips; and

the convex block is arranged on the bottom surface of the accommodating space and is used for abutting against the side part of the convex strip.

In one embodiment, a first vent hole is formed in the bottom surface of the base, a second vent hole communicated with the bottom surface of the lining and the accommodating groove is formed in the lining, and the first vent hole and the second vent hole are communicated with the space between two adjacent raised strips.

In one embodiment, the upper cover and the base are covered through a matched stepped structure, a first fingerprint concave surface is arranged on the outer surface of the upper cover, a second fingerprint concave surface is arranged on the outer surface of the base, and the first fingerprint concave surface is connected with the second fingerprint concave surface when the upper cover and the base are covered.

The application provides a capsule endoscope packing carton's upper cover adopts the transparent material that has infrared interception function, at first it is transparent, can look over the form of the inside capsule endoscope of box under the condition of not tearing open the box, and it has infrared interception function, can keep apart the penetration of infrared ray, prevent to trigger capsule endoscope's infrared photoelectric switch, secondly, this application is equipped with first restraint structure and second restraint structure, first restraint structure can prevent that capsule endoscope from taking place to rock in the holding tank, second restraint structure can prevent to take place to rock between inside lining and the base, capsule endoscope's stability has been guaranteed effectively, and owing to there are first restraint structure and second restraint structure, so just so the structure that makes packing carton body is in excessive complicacy, can not exist, the disinfection dead angle is unlikely to.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a capsule endoscope packaging box provided by an embodiment of the application;

FIG. 2 is a schematic view of the structure of FIG. 1 with the liner removed;

FIG. 3 is a schematic structural view of the liner of FIG. 1;

fig. 4 is a schematic structural view of the back of fig. 3.

In the figure, 1, an upper cover; 2. a base; 3. lining; 4. a first vent hole; 5. a second vent hole; 6. accommodating grooves; 7. a placement groove; 8. a first limit protrusion; 9. a second limit bulge; 10. a third limiting bulge; 11. a butt joint groove; 12. a circular protrusion; 13. an annular projection; 14. a notch; 15. a convex strip; 16. a bump; 17. a first fingerprint concavity; 18. a second fingerprint concavity.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise. The meaning of "a number" is one or more unless specifically limited otherwise.

In the description of the present application, it is to be understood that the terms "center," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings, which are based on the orientations and positional relationships indicated in the drawings, and are used merely for convenience in describing the present application and to simplify the description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present application.

In the description of the present application, it should be noted that, unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, a fixed connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

Referring to fig. 1, 2, 3 and 4, the present application provides an embodiment of a capsule endoscope packaging box, which comprises an upper cover 1, a base 2, and an inner liner 3;

the upper cover 1 is made of transparent materials with infrared interception functions, is transparent firstly, can penetrate through the upper cover 1 to check the capsule endoscope, and cannot penetrate through the upper cover 1 to avoid triggering a switch of the capsule endoscope;

the base 2 is provided with an accommodating space, and the upper cover 1 is used for covering the base 2 and closing the opening side of the accommodating space; the containing space is used for placing a lining 3, and the capsule endoscope is arranged on the lining 3;

specifically, inside lining 3 is located in the accommodation space, the outline of inside lining 3 matches with accommodation space's interior profile shape, and the surface of inside lining 3 laminates with accommodation space's internal surface when inside lining 3 is placed in the accommodation space, is favorable to the stability of inside lining 3, and inside lining 3 is equipped with the holding tank 6 that is used for holding the capsule endoscope, and the notch of holding tank 6 is just right upper cover 1 can observe the capsule endoscope in the holding tank 6 like this, sets up the intercommunication on upper cover 1 and/or base 2 the vent of holding tank 6, the vent is used for letting in sterile gas to guarantee that the capsule endoscope is in sterile environment.

The capsule endoscope packing carton that this embodiment provided makes the capsule endoscope remain stable in order to guarantee in the transportation, does not take place to rock, so set up first restraint structure, first restraint structure is located between upper cover 1 and inside lining 3, and first restraint structure is arranged in preventing that the capsule endoscope from rocking in holding tank 6, is equipped with second restraint structure between inside lining 3 and the base 2, and second restraint structure is used for preventing to rock relatively between inside lining 3 and the base 2.

The application provides a capsule endoscope packing carton's upper cover 1 adopts the transparent material that has infrared interception function, at first it is transparent, can look over the form of the inside capsule endoscope of box under the condition of not tearing open the box, and it has infrared interception function, can keep apart the penetration of infrared ray, prevent to trigger capsule endoscope's infrared photoelectric switch, secondly, this application is equipped with first restraint structure and second restraint structure, first restraint structure can prevent that capsule endoscope from taking place to rock in holding tank 6, second restraint structure can prevent to take place to rock between inside lining 3 and base 2, capsule endoscope's stability has been guaranteed effectively, and owing to there are first restraint structure and second restraint structure, so just so make packing carton body's structure be unlikely to excessive complicacy, can not exist, the sterilization dead angle.

As a preferred embodiment of the capsule endoscope packaging box provided in this embodiment, the upper cover 1 is plastic or glass having an infrared blocking function. The upper cover 1 can be made of plastic or glass base materials, and special dyes are added into the plastic or glass base materials to attenuate (absorb) infrared light waves, so that the infrared isolation effect is achieved, a certain transparency is kept, and the upper cover is convenient to be used for completely observing the inner capsule.

The material used by the upper cover 1 can also be transparent material such as glass or plastic, and the material has infrared isolation function and certain transparency by methods such as sputtering, evaporation, spraying, deposition, or sticking an optical film.

Further, in the present embodiment, the base 2 may be made of the same material as that of the upper cover 1, so that the capsule endoscope on the liner 3 can be seen through the base 2 in a certain condition.

As a preferred embodiment of the capsule endoscope packaging box provided in this embodiment, a soft material is used for the inner liner 3. The lining 3 is made of soft materials, so that the capsule endoscope placed in the lining 3 can be well protected, and hard contact cannot occur.

Specifically, the material of the liner 3 may be silicone rubber or the like.

As shown in fig. 1 and 3, as a preferred embodiment of the capsule endoscope packaging box provided by the embodiment, the first restriction structure comprises a placement groove 7, a first limit projection 8 and a second limit projection 9;

the placing groove 7 is formed at the bottom of the containing groove 6, the placing groove 7 is used for placing the capsule endoscope, and the placing groove 7 is an arc-shaped groove matched with the surface of the capsule endoscope;

the first limiting bulges 8 are arranged in the accommodating groove 6, the number of the first limiting bulges 8 is at least two, the first limiting bulges 8 are respectively arranged on two sides of the placing groove 7, and the side surface of the first limiting bulge 8 facing the placing groove 7 is an arc-shaped surface matched with the surface of the capsule endoscope.

The second limiting bulges 9 are arranged on the inner side of the upper cover 1, at least two second limiting bulges 9 are arranged, and after the upper cover 1 is covered, the second limiting bulges 9 are respectively positioned on two sides of the placing groove 7 and are limited in the placing groove 7.

Specifically, the inner liner 3 is provided with the accommodating groove 6, the groove bottom of the accommodating groove 6 is further provided with the placing groove 7, the accommodating groove 6 is larger than the placing groove 7 in volume, the shape of the placing groove 7 is matched with the surface shape of the capsule endoscope, it is required to be noted that the capsule endoscope is horizontally placed in the placing groove 7, the size of the placing groove 7 is smaller than or equal to half of the volume of the whole capsule endoscope, and the endoscope can be well placed in the placing groove 7 because the shape of the placing groove 7 is matched with the surface shape of the capsule endoscope.

The inner surface of the placement groove 7 may also be provided with a plurality of protrusions, such as strip-shaped or circular or oval protrusions, which may increase the friction with the surface of the endoscope.

In order to strengthen the restraint effect, first spacing arch 8 has still been set up in holding tank 6, first spacing arch 8 is two at least, but must guarantee all must be equipped with a first spacing arch 8 at least at every side of standing tank 7 to can follow the endoscope that the both sides butt was put in standing tank 7, effectively guaranteed the stable effect of endoscope in standing tank 7, specifically, first spacing arch 8 is for standing the structure at the 6 tank bottoms of holding tank, its side towards standing tank 7 is the cambered surface with capsule endoscope surface looks adaptation, two first spacing archs 8 are respectively from both sides butt endoscope, what need explain, first spacing arch 8 is located 7 length direction's of holding tank both sides respectively.

Furthermore, the mode can also be set, at least two first limit bulges 8 are oppositely arranged and respectively contact two opposite positions at two sides of the endoscope, a clamping piece can be arranged between the two first limiting bulges 8, the clamping piece can be in a long strip shape, two clamping bodies which are arranged side by side are respectively arranged at two ends of the clamping piece, a crack is arranged between the two clamping bodies, the top ends of the two first limiting bulges 8 are respectively inserted into the cracks at the corresponding sides, thus the clamping piece stretches across the two first limiting bulges 8, and a clamping surface facing the placing groove 7 is arranged at the middle part of the clamping piece, the clamping surface is a cambered surface matched with the surface shape of the endoscope, further, the endoscope can be brought into contact with the surface of the endoscope from the upper side thereof, whereby the endoscope can be brought into contact with all the sides thereof, and the stability of the endoscope can be further ensured (not shown in the drawings of the present embodiment).

Further, under the embodiment that increases the screens piece, can also set up in one side that the screens piece deviates from standing groove 7 and touch the casting die, touch the casting die and can set to and form by the superposition of a plurality of cylinders lists of coaxial setting, wherein the cylinder diameter of the lower extreme of being connected with the screens piece is the biggest, upwards reduce in proper order, when upper cover 1 lid closed on base 2, then the inboard of upper cover 1 can butt the cylinder that the diameter is the minimum of the top, thereby produce a decurrent pressure to whole screens piece, thereby make the screens face of the downside of screens piece can be fine push down the endoscope. Increasing stability (not shown in the figures of this embodiment).

Therefore, the present embodiment has an effect that the pressing member is added, the pressing member can transmit the pressure to the stopper after receiving the pressure from the upper cover 1, and the stopper presses the endoscope, thereby adding the fixing force from the upper side and stabilizing the capsule endoscope. In addition, it forms to set to the laminating by a plurality of cylinders of coaxial setting to touch the casting die, at first save material, secondly after upper cover 1 contacts the minimum cylinder in upper end, can transmit pressure to the biggest cylinder in lower extreme, make the pressure to the screens piece balanced, avoid producing local force, because the cylinder is less, the stress point is less, can make little cylindrical everywhere all receive the pressure of upper cover 1, if upper cover 1 presses on a great cylinder, probably each department atress of cylinder is showing unevenly, produce crooked, secondly transmit to the big cylinder in bottom after the little cylinder atress, big cylinder also can the atress evenly, realize the even atress of screens piece.

As shown in fig. 1 and fig. 2, the first constraint structure provided by this embodiment further includes two second limiting protrusions 9, the two second limiting protrusions 9 are respectively located on the bottom surface of the upper cover 1, the two second limiting protrusions 9 are oppositely disposed and have a gap, when the upper cover 1 is closed, the two second limiting protrusions 9 are respectively located on two sides of the capsule endoscope, so as to constrain the capsule endoscope from the upper side, and further increase the stability of the capsule endoscope.

In particular, the opposite side of the second stop lug 9 may also assume an arc shape adapted to the shape of the surface of the capsule endoscope.

Moreover, first spacing arch 8, second spacing arch 9, screens piece and touch the casting die and all can adopt the same material with inside lining 3, guarantee can not cause rigid injury to the endoscope.

As shown in fig. 1 and 3, the first constraining structure further comprises a third limiting protrusion 10 disposed at a side of the receiving groove 6, the third limiting protrusion 10 has an abutting groove 11 adapted to the shape of the end of the capsule endoscope, and the abutting groove 11 is used for abutting and limiting the end of the capsule endoscope.

After the endoscope is restrained from the left and right and up and down, the third limiting protrusion 10 plays a role in restraining the end part of the endoscope, the end part of the endoscope is a spherical end surface, so that the third limiting protrusion 10 is provided with a spherical abutting groove 11 matched with the shape of the end part of the endoscope, the end part of the endoscope can be well limited, the end part is stable, the third limiting protrusion 10 can be two, the third limiting protrusion is respectively arranged at two ends of the placing groove 7, and the third limiting protrusion can also be one, and is positioned at any one end of the placing groove 7. Specifically, the third limiting protrusion 10 is fixedly disposed on the groove wall of the accommodating groove 6.

As shown in fig. 2 and 4, the second constraint structure includes a circular protrusion 12 and an annular protrusion 13, which are preferred embodiments of the capsule endoscope packaging box provided in the present embodiment.

Wherein, the circular bulge 12 is arranged on the bottom surface of the inner liner 3;

wherein, annular bulge 13 is located on the bottom surface of accommodation space, circular bulge 12 is used for pegging graft in annular bulge 13.

Specifically, after the inside lining 3 is placed in the accommodation space, it is necessary to prevent relative shaking between the inside lining 3 and the base 2, so a circular protrusion 12 is disposed at the bottom of the inside lining 3, the circular protrusion 12 is specifically a cylindrical structure with a circular cross section, the circular protrusion 12 is disposed at the middle position of the bottom surface of the inside lining 3, and an annular protrusion 13 is disposed at the middle position of the bottom surface of the accommodation space, the outer diameter of the circular protrusion 12 is equal to the inner diameter of the annular protrusion 13, so after the inside lining 3 is placed, the circular protrusion 12 is inserted into the annular protrusion 13, and relative stability between the two is ensured.

In order to further ensure the relative stability between the two, the second constraint structure further comprises a convex strip 15 and a convex block 16.

Specifically, circular arch 12 is connected to sand grip 15, and circular arch 12 forms an overall structure, and sand grip 15 is a plurality of, sand grip 15 is located on the bottom surface of inside lining 3, sand grip 15 one end is connected circular arch 12, sand grip 15 along the circumferencial direction evenly distributed of circular arch 12 still be equipped with on the annular arch 13 and be used for dodging the breach 14 of sand grip 15.

One end of each convex strip 15 is connected with the circular bulge 12, the other end of each convex strip 15 is connected with the edge of the bottom surface, the convex strips 15 are arranged into a symmetrical structure, specifically, the number of the convex strips 15 can be four, and the convex strips are arranged in a divergent mode by taking the circular bulge 12 as the center; when passing through the annular protrusion 13, the circular protrusion 12 is clamped with the annular protrusion 13 through the notch 14 on the annular protrusion 13, and the convex strip 15 is clamped with the notch 14, so that the stability is better.

In order to further increase the relative stability between the liner 3 and the base 2, a projection 16 is further provided on the bottom surface of the receiving space, the projection 16 being adapted to abut against the side portion of the rib 15.

Specifically, the protrusion 16 abuts against the side portion of the protruding strip 15, and the inner liner 3 and the base 2 can be further kept relatively stable.

It should be noted that, a circle of convex edge is arranged at the bottom edge of the lining 3, the outer end of the convex strip 15 is connected with the convex edge, and the bottom surfaces of the convex edge, the convex strip 15 and the circular protrusion 12 are on the same plane, and can be stably placed on the bottom surface of the accommodating space.

Furthermore, a plurality of vertical grooves can be formed in the inner side wall of the base 2, the tops of the vertical grooves penetrate through the top of the base 2, a plurality of first vertical rods are correspondingly arranged on the outer side wall of the lining 3, the sectional shapes of the first vertical rods are matched with the sectional shapes of the vertical grooves, but the lengths of the first vertical rods are smaller than those of the vertical grooves, when the lining 3 is placed inside the base 2, the first vertical rods are correspondingly inserted into the vertical grooves, because the lengths of the first vertical rods are smaller than those of the vertical grooves, the upper half parts of the vertical grooves are empty, a plurality of corresponding second vertical rods can be arranged at the edge of the upper cover 1, the sectional shapes of the second vertical rods are the same as those of the vertical grooves, when the upper cover is closed, the second vertical rods on the upper cover 1 are inserted into the upper half parts of the corresponding vertical grooves in a following manner, so that the stability between the lining 3 and the base 2 is further increased, and after the second vertical rods are inserted into the vertical grooves, but also abuts against the top end of the first vertical rod, so that the liner 3 is fixed, and the connection between the upper cover 1 and the base 2 is strengthened (not shown in the figure of the embodiment).

In addition, the vertical slots may be shaped as dovetail slots.

And because the upper cover 1 can separate with between the base 2, after the upper cover 1 left base 2, the second montant was in the state of stretching out from upper cover 1 all the time, then it is not very convenient, so can set up the folding form with the second montant, fold the body of rod of the part second montant that stretches out from upper cover 1, make it fold to in the upper cover 1 (not drawn in this embodiment picture).

Further, the form that can also set up is, the vertical groove pierces through the bottom surface of base 2, after first montant can insert the vertical groove, expose from base 2 bottom surface, the first montant that exposes base 2 bottom surface can adopt the form of fixed setting, avoids lining 3 to deviate from and rock relatively in base 2 like this, the concrete form of fixed setting can be for, set to the form that has the external screw thread at the end that exposes of first montant, and set up with the nut of external screw thread looks adaptation, twist the nut on the external screw thread structure that exposes the end, can fix it like this, and then prevent that lining 3 from rocking in base 2, deviate from even (not drawn in this embodiment mode figure).

As shown in fig. 1, 2, 3 and 4, in the preferred embodiment of the capsule endoscope packaging box according to the present embodiment, since the endoscope needs to be in a sterile environment, it is necessary to fill the packaging box with a sterilizing gas from time to time, and if the vent hole is provided in the base 2, the vent hole is a first vent hole 4 provided in the bottom surface of the base 2, and the liner 3 is provided with a second vent hole 5 communicating the bottom surface of the liner 3 with the receiving groove 6, and the first vent hole 4 and the second vent hole 5 communicate the space between two adjacent convex strips 15.

Specifically, the first vent hole 4 communicates with the bottom surface and the inner surface of the base 2, the second vent hole 5 communicates with the bottom surface of the accommodating groove 6 and the lining 3, and a gap is formed between two adjacent convex strips 15, so that when gas enters from the first vent hole 4, the gas can enter the accommodating groove 6 through the gap and the second vent hole 5, and the endoscope in the accommodating groove 6 is sterilized.

Further, the upper cover 1 and the base 2 are covered through the ladder structure of looks adaptation, namely, the upper cover 1 is provided with a first ladder structure, the base 2 is provided with a second ladder structure, the first ladder structure and the second ladder structure can be matched with each other in a ladder manner when the upper cover 1 and the base are covered, namely, the ladder concave part of the upper cover 1 is covered on the ladder convex part of the base 2, the ladder convex part of the upper cover 1 is covered on the ladder concave part of the base 2, the outer surface of the upper cover 1 is provided with a first fingerprint concave surface 17, the outer surface of the base 2 is provided with a second fingerprint concave surface 18, when the upper cover 1 and the base 2 are covered, the first fingerprint concave surface 17 is connected with the second fingerprint concave surface 18.

The first fingerprint concave surface 17 and the second fingerprint concave surface 18 are connected to form a fingerprint whole, and the upper cover 1 can be opened by touching the fingerprint position with hands during opening, so that the opening is very convenient.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. Capsule endoscope packing carton, its characterized in that includes:

the upper cover is made of transparent materials with infrared interception functions;

the base is provided with an accommodating space, and the upper cover is used for covering the base and closing the opening side of the accommodating space; and

the inner liner is arranged in the accommodating space and is provided with an accommodating groove for accommodating the capsule endoscope, a notch of the accommodating groove is over against the upper cover, and a vent hole communicated with the accommodating groove is formed in the upper cover and/or the base;

be equipped with first restraint structure between upper cover and the inside lining, first restraint structure is used for preventing that capsule endoscope from rocking in the holding tank, be equipped with second restraint structure between inside lining and the base, second restraint structure is used for preventing to rock relatively between inside lining and the base.

2. The capsule endoscope packaging box of claim 1, wherein the upper cover is plastic or glass having an infrared interception function.

3. The package for a capsule endoscope according to claim 1 or 2, characterized in that the material of the base is the same as that of the upper cover.

4. A capsule endoscope packaging according to claim 1 or 2, characterized in that said inner lining is made of soft material.

5. The capsule endoscope packaging of claim 1, wherein the first constraint structure comprises:

the placing groove is formed at the bottom of the containing groove and used for placing the capsule endoscope, and the placing groove is an arc-shaped groove matched with the surface of the capsule endoscope;

the first limiting bulges are arranged in the accommodating groove, the number of the first limiting bulges is at least two, the first limiting bulges are respectively arranged on two sides of the placing groove, and the side surface of the first limiting bulge facing the placing groove is an arc surface matched with the surface of the capsule endoscope; and

the second limiting bulges are arranged on the inner side of the upper cover, the number of the second limiting bulges is at least two, and after the upper cover is covered, the second limiting bulges are respectively positioned on two sides of the placing groove and are limited in the placing groove.

6. The packaging box for capsule endoscopes as claimed in claim 5, wherein the first restriction structure further comprises a third limit projection provided at the side of the receiving groove, the third limit projection having an abutment groove adapted to the shape of the end of the capsule endoscope, the abutment groove being used for abutting and limiting the end of the capsule endoscope.

7. A capsule endoscope packaging according to claim 1 or 2, characterized in that said second constraint structure comprises:

the circular bulge is arranged on the bottom surface of the lining; and

the annular bulge is arranged on the bottom surface of the accommodating space, and the circular bulge is used for being inserted into the annular bulge.

8. The capsule endoscope packaging of claim 7, wherein the second constraining structure further comprises:

the annular bulge is provided with a plurality of notches for avoiding the convex strips; and

the convex block is arranged on the bottom surface of the accommodating space and is used for abutting against the side part of the convex strip.

9. The packaging box for capsule endoscopes as claimed in claim 8, wherein a first vent hole is provided on the bottom surface of the base, a second vent hole communicating the bottom surface of the inner liner with the receiving groove is provided on the inner liner, and the first vent hole and the second vent hole are communicated with the space between two adjacent convex strips.

10. The packaging box for capsule endoscopes as claimed in claim 1, wherein the upper cover and the base are closed by a step structure, a first concave finger print is provided on the outer surface of the upper cover, a second concave finger print is provided on the outer surface of the base, and the first concave finger print and the second concave finger print are engaged when the upper cover and the base are closed.

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