CN219097404U - Endoscope packaging structure - Google Patents

Abstract

An endoscope packaging structure comprising: the sealing bag is used for sealing the inner support, a bag opening is formed in the sealing bag, and the bag opening can be sealed or opened; the inner support comprises: the upper support body, the lower support body and the connecting part are flexibly connected to the connecting part so as to be covered or opened; an endoscope accommodating groove is formed in one side of the upper support body, which faces the lower support body, and/or one side of the lower support body, which faces the upper support body, and a tube sheath notch is formed in the upper support body and/or the lower support body, the tube sheath notch is communicated with the endoscope accommodating groove, and a tightening assembly is arranged on the groove wall of the endoscope accommodating groove; the endoscope accommodating groove is used for accommodating an endoscope, the tightening assembly is used for fastening the endoscope, and the tube sheath notch is used for enabling the tube sheath sleeved on the endoscope inserting part to extend to the outside. The endoscope is arranged in the inner support and sealed by the sealing bag, so that the whole packaging volume of the product can be effectively reduced, the cost of packaging materials of the product can be further reduced, and the transportation cost of the product can be reduced.

Description

Endoscope packaging structure

Technical Field

The application relates to the technical field of medical instrument packaging, in particular to an endoscope packaging structure.

Background

An endoscope is a tube equipped with a light source, which can be used to view the internal condition of a human body or an object through a natural duct, and has a wide range of applications in both medical and industrial fields. The medical endoscope is used as a medical instrument, and is inserted into various cavities in the human body to peep at the pathological changes of internal organs of the human body, thereby having important roles in clinical observation and diagnosis.

As a precision instrument, an endoscope is required to be stored and transported by packaging when being produced, sold, or stored. At present, the package of the endoscope product on the market usually adopts plastic suction package and then paper box package, and the whole volume of the product package is larger due to the larger volume of the endoscope product, so that the transportation cost is correspondingly increased.

Disclosure of Invention

This application aims at providing an endoscope packaging structure, adopts the mode of parcel to pack through the inner support, and rethread sealing bag encapsulates it, can effectively reduce the whole packing volume of product, still can reduce product transportation cost when reducing product packaging cost.

The application provides an endoscope packaging structure, include: the sealing bag is used for sealing the inner support, is provided with a bag opening, and can be sealed or opened;

the inner support comprises: the upper support body and the lower support body are flexibly connected to the connecting part so as to be covered or opened; an endoscope accommodating groove is formed in one side of the upper support body, which faces the lower support body, and/or one side of the lower support body, which faces the upper support body, and/or a tube sheath notch is further formed in the upper support body and/or the lower support body, the tube sheath notch is communicated with the endoscope accommodating groove, and a tightening assembly is arranged on the groove wall of the endoscope accommodating groove; the endoscope accommodating groove is used for accommodating an endoscope, the tightening assembly is used for fastening the endoscope, and the tube sheath notch is used for enabling the tube sheath sleeved on the endoscope inserting portion to extend to the outside.

In an embodiment, the upper support body is towards one side of the lower support body or one side of the lower support body towards the upper support body is further provided with a taking and placing avoiding groove, the taking and placing avoiding groove is communicated with the endoscope containing groove, and the taking and placing avoiding groove is used for avoiding hands of an operator when the operator takes the endoscope from the endoscope containing groove.

In one embodiment, the inner support further comprises: the locking assembly is used for locking the upper support body and the lower support body when the upper support body and the lower support body are covered.

In one embodiment, the locking assembly includes: the upper support body buckle and the lower support body buckle, the upper support body buckle is arranged on one side of the upper support body towards the lower support body, the lower support body buckle is arranged on one side of the lower support body towards the upper support body, and the upper support body and the lower support body are covered, so that the upper support body buckle and the lower support body buckle are in buckling connection.

In one embodiment, the upper support body and/or the lower support body are/is provided with an operation position, and the operation position is used for an operator to open the inner support.

In one embodiment, the upper support body and/or the lower support body is further provided with an interface notch, the interface notch is communicated with the endoscope containing groove, and the interface notch is used for enabling a connecting piece connected with an interface on the endoscope to extend to the outside.

In one embodiment, the tightening assembly includes: the first supporting bulge and the second supporting bulge are respectively and oppositely arranged on two groove walls of the endoscope containing groove, and the first supporting bulge and the second supporting bulge support and fasten the endoscope.

In one embodiment, a T-shaped container is further provided on a side of the upper support body facing the lower support body and/or a side of the lower support body facing the upper support body, and the T-shaped container is used for accommodating a T-shaped valve.

In one embodiment, the upper support body or the lower support body is further provided with an inner support hanging hole.

In one embodiment, the sealed bag is provided with a bag body hanging hole.

According to the endoscope packaging structure of the embodiment, the endoscope is contained in the endoscope containing groove, the upper support body rotates towards the lower support body to enable the upper support body and the lower support body to be covered, the tube sheath sleeved on the insertion portion and the insertion portion extend to the outside of the inner support, then the inner support is filled into the sealing bag through the bag opening, the bag opening is sealed, and therefore the endoscope is filled into the inner support and sealed through the sealing bag, the whole packaging volume of a product can be effectively reduced, the packaging material cost of the product is further reduced, and meanwhile the transportation cost of the product is also reduced.

Drawings

FIG. 1 is an exploded view of an endoscope package structure provided herein;

FIG. 2 is a schematic illustration of an opening of an inner support in an endoscope package structure provided herein;

FIG. 3 is a schematic view of an endoscope package structure with an endoscope open and loaded therein;

FIG. 4 is a schematic view of an endoscope package structure with an endoscope closed and loaded therein;

FIG. 5 is a schematic view of an endoscope with an endoscope deployed and installed in the endoscope packaging structure provided herein;

FIG. 6 is a schematic illustration of an inner holder of an endoscope package structure provided herein in another embodiment;

FIG. 7 is a schematic view of an endoscope in one embodiment;

fig. 8 is a schematic view of an endoscope in another embodiment.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings by way of specific embodiments. Wherein like elements in different embodiments are numbered alike in association. In the following embodiments, numerous specific details are set forth in order to provide a better understanding of the present application. However, one skilled in the art will readily recognize that some of the features may be omitted, or replaced by other elements, materials, or methods in different situations. In some instances, some operations associated with the present application have not been shown or described in the specification to avoid obscuring the core portions of the present application, and may not be necessary for a person skilled in the art to describe in detail the relevant operations based on the description herein and the general knowledge of one skilled in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments, and the operational steps involved in the embodiments may be sequentially exchanged or adjusted in a manner apparent to those skilled in the art. Accordingly, the description and drawings are merely for clarity of describing certain embodiments and are not necessarily intended to imply a required composition and/or order.

The numbering of the components itself, e.g. "first", "second", etc., is used herein merely to distinguish between the described objects and does not have any sequential or technical meaning. The terms "coupled" and "connected," as used herein, are intended to encompass both direct and indirect coupling (coupling), unless otherwise indicated.

Example 1

Fig. 7 is a schematic view of an endoscope 100, and the endoscope 100 is taken as a medical endoscope, and the endoscope 100 includes: the handle 101 and the insert 102, the insert 102 is connected with the distal end of the handle 101, and in an embodiment, an anti-breaking part 107 is further provided between the distal end of the handle 101 and the insert 102, which can play a role of structural buffering. The break-proof portion 107 is generally tapered, with a large diameter end connected to the distal end of the handle 101 and a small diameter end connected to the insertion portion 102. As shown in fig. 1, the endoscope 100 further includes: the sheath 1020, the sheath 1020 is sleeved on the insertion portion 102. The insertion part 102 can be inserted into the human body through the human body cavity, and an image acquisition element is further arranged at the far end of the insertion part 102 far away from the handle 101, and can image the focus area in the human body so as to help medical staff to diagnose. A lever 103 is provided at the proximal end of the handle 101, and the distal end of the insertion portion 102 is bent by operating the lever 103 to rotate forward or backward. In this embodiment, the handle 101 is further provided with a structural member 108, and marks D and U for indicating the rotation direction of the lever 103 are silk-screened on the structural member 108. At the proximal end of the handle 101 is provided a wire outlet 104, which wire outlet 104 may lead out an external cable which may communicatively connect the image acquisition element of the endoscope with the image processor. A multi-port 105 is further provided on the side of the handle 101, and the multi-port 105 is configured to communicate with the instrument channel in the insertion portion 102, for example, to communicate with the infusion channel in the insertion portion 102 via the multi-port 105, so that saline can be injected into the human body or a liquid product in the human body can be sucked. A cap 110 is also provided at the multi-way interface 105 to seal when the multi-way interface 105 is not in use. A suction button 106 is also provided on the side of the handle 101, which suction button 106 is used to operate the suction action, i.e. the suction pump can be turned on or off by pressing the suction button 106.

The endoscope packaging structure provided in this embodiment is used for packaging the endoscope shown in fig. 7, and referring to fig. 1 to 5, the endoscope packaging structure provided in this embodiment includes: the endoscope 100 may be loaded into the inner holder 10, and the sealing bag 20 may be used to seal the inner holder 10, the sealing bag 20 may be provided with a bag opening 21, the bag opening 21 may be sealed or openable (the bag opening is shown in fig. 1 to be in a sealed state), the inner holder 10 may be placed into the sealing bag 20 through the bag opening 21, or may be taken out from the sealing bag 20 through the bag opening 21.

The pouch 20 is typically formed by combining a PE (Polyethylene) film with a spun-bonded olefin (Spunbonded Olefin) material spun-bonded with innumerable fine Polyethylene fibers, which has the advantages of being non-deformable, soft, smooth, lightweight, tough, excellent in opacity, moisture-proof, water-stain-resistant, adhesive-free, etc. In some embodiments, the pocket 21 may be provided with a sealing structure, such as a cinching strap, for cinching and cinching to seal the pocket 21. Of course, the mouth 21 may also be sealed by heat sealing.

In one embodiment, the sealed bag 20 is capable of achieving the corresponding medical sterilization standard, and the bag opening 21 can be sealed by vacuum heat sealing to further ensure the sterility effect.

The inner support 10 includes: the upper support body 11, the lower support body 12 and the connecting part 13, wherein the upper support body 11 and the lower support body 12 are flexibly connected with the connecting part 13, the upper support body 11 can rotate around the connecting part of the upper support body 11 and the connecting part 13 in a flexible connection mode, and the lower support body 12 can also rotate around the connecting part of the lower support body 12 and the connecting part 13, so that the upper support body 11 and the lower support body 12 can be covered or opened.

For convenience of description of the following embodiments, a connection point of the upper supporter 11 and the connection part 13 is referred to as an upper supporter rotation side, the upper supporter 11 is rotatable around the upper supporter rotation side, a connection point of the lower supporter 12 and the connection part 13 is referred to as a lower supporter rotation side, and the lower supporter 12 is rotatable around the lower supporter rotation side.

In one embodiment, the upper support 11, the lower support 12 and the connecting member 13 are integrally formed by a blow molding process.

An endoscope containing groove 121 is formed in one side of the upper support body 11 facing the lower support body 12 and/or one side of the lower support body 12 facing the upper support body 11, a tube sheath notch 122 is further formed in the upper support body 11 and/or the lower support body 12, and the tube sheath notch 122 is communicated with the endoscope containing groove 121. The wall of the endoscope receiving channel 121 is provided with a tightening assembly 123. The endoscope accommodating groove 121 is used for accommodating the endoscope 100, and in this embodiment, the handle 101 of the endoscope 100 is mainly accommodated in the endoscope accommodating groove 121, and the shape of the endoscope accommodating groove 121 is substantially the same as that of the handle 101 of the endoscope 100. The cinching assembly 123 is used to secure the endoscope, i.e., the cinching assembly 123 may secure and position the endoscope 100 received in the endoscope pocket 121 within the endoscope pocket 121. As shown in fig. 3, the sheath notch 122 is used for extending the sheath 1020 sleeved on the insertion portion 102 of the endoscope 100 to the outside, and specifically, the sheath 1020 sleeved on the insertion portion 102 may be extended to the outside of the inner support 10.

In one embodiment of the present application, the endoscope containing groove 121 may be disposed on a side of the upper support 11 facing the lower support 12, may be disposed on a side of the lower support 12 facing the upper support 11, may be disposed on both a side of the upper support 11 facing the lower support 12 and a side of the lower support 12 facing the upper support 11, and may have substantially the same shape and size as the handle 101 when the endoscope containing groove 121 is disposed only on the upper support 11 or the lower support 12, and may have substantially the same shape and size as the handle 101 when the endoscope containing groove 121 is disposed in both the upper support 11 and the lower support 12, and may have substantially the same shape and size as the handle 101 when the upper support 11 is covered on the lower support 12. Similarly, the sheath notch 122 may be provided in the upper support body 11, the lower support body 12, or both the upper support body 11 and the lower support body 12, and when the sheath notch 122 is provided only in the upper support body 11 or the lower support body 12, the sheath notch 122 is circular in shape as the cross-sectional shape of the sheath 1020. When the sheath notch 122 is provided in both the upper bracket 11 and the lower bracket 12, the sheath notch 122 formed by covering the upper bracket 11 and the lower bracket 12 is circular with the same cross-sectional shape as the sheath 1020.

In this embodiment, the upper supporting body 11 and the lower supporting body 12 have the same shape and structure, and only the structure inside the lower supporting body 12 is clearly shown in the figure. The upper support body 11 and the lower support body 12 are provided with an endoscope containing groove 121 and a sheath notch 122, wherein the shapes and the sizes of the two endoscope containing grooves 121 are the same, and the shapes and the sizes of the sheath notch on the upper support body 11 and the sheath notch 122 on the lower support body 12 are the same and are semicircular.

In the above embodiment, the handle 101 of the endoscope 100 is accommodated in the endoscope object groove 121, the upper support body 11 is rotated toward the lower support body 12 to cover the upper support body 11 and the lower support body 12, the sheath 1020 and the insertion portion 101 which are fitted to the insertion portion 102 are extended to the outside of the inner support 10, and then the inner support 10 is accommodated in the sealing bag 20 through the bag opening 21, and the bag opening 21 is sealed. Thus, the handle 101 of the endoscope 100 is arranged in the inner support 10, and the whole packaging volume of the product can be effectively reduced by the sealing mode of the sealing bag 20, so that the cost of packaging materials of the product can be reduced, and meanwhile, the transportation cost of the product can be reduced.

In this embodiment, as shown in fig. 5, the connecting member 13 is preferably a sheet-like structure, and the connecting member 13 has a first side 131 and a side 132 disposed opposite to each other, the first side 131 being flexibly connected to the side edge of the rotating side of the upper bracket 11, and the side 132 being flexibly connected to the side edge of the rotating side of the lower bracket 12. Of course, the first side 131 may be considered as an upper bracket rotating side, the upper bracket 11 may rotate around the first side 131, the second side 132 may be considered as a lower bracket rotating side, and the lower bracket 12 may rotate around the second side 132.

In one embodiment of the application, the side of the upper support body 11 facing the lower support body 12 or the side of the lower support body 12 facing the upper support body 11 is also provided with a taking and placing avoiding groove 124, the taking and placing avoiding groove 124 is communicated with the endoscope containing groove 121, and the taking and placing avoiding groove 124 is used for avoiding the hands of an operator when the operator takes the endoscope 100 from the endoscope containing groove 121 so as to facilitate taking and placing the endoscope.

Of course, the pick-and-place avoiding groove 124 corresponds to a portion of the endoscope containing groove 121 where the handle 101 is placed, and an operator (medical staff) picks up the endoscope 100 from the endoscope containing groove 121 by pinching the handle 101, and the pick-and-place avoiding groove 124 can avoid the hand of the operator.

When the upper support 11 and the lower support 12 are mutually covered, in order to ensure the firmness of the two covers, the inner support 10 of the endoscope packaging structure provided in this embodiment further includes: the locking component 13, the locking component 13 is used for locking the upper support 11 and the lower support 12 when the upper support 11 and the lower support 12 are covered.

In one embodiment, the locking assembly 13 includes: the upper support body buckle 131 and the lower support body buckle 132, the upper support body buckle 131 is arranged on one side of the upper support body 11 facing the lower support body 12, the lower support body buckle 132 is arranged on one side of the lower support body 12 facing the upper support body 11, and the upper support body 11 and the lower support body 12 are covered, so that the upper support body buckle 131 and the lower support body buckle 132 are in buckling connection.

In this embodiment, the upper supporting body buckle 131 is a protrusion protruding from one side of the upper supporting body 11 towards the lower supporting body 12, and the lower supporting body buckle 132 is a slot concavely provided on one side of the lower supporting body 12 towards the upper supporting body 11, and the protrusion can be clamped in the slot, so as to ensure that the upper supporting body 11 and the lower supporting body 12 can be tightly closed when being covered.

In order to facilitate the opening of the upper support 11 and the lower support 12 fastened and connected by the upper support fastener 131 and the lower support fastener 132, in this embodiment, an operation position 125 is provided on the upper support 11 and/or the lower support 12, and the operation position 125 is used for an operator to open the inner support 10.

In one embodiment, the operating position 125 is a recess provided in a side of the upper bracket 11 opposite the side of rotation of the upper bracket and/or a side of the lower bracket 12 opposite the side of rotation of the lower bracket.

In this embodiment, the operation positions 125 are provided on both the upper support 11 and the lower support 12, so that it is unnecessary to specially distinguish the upper support 11 and the lower support 12, and the operation is convenient.

Specifically, the thumb of one hand of the operator can operate the operation position 125 of the upper supporting body 11, the lower supporting body 12 is fixed by the other hand, the upper supporting body 11 is moved upwards, the upper supporting body buckle 131 is separated from the lower supporting body buckle 132, the movement is continued, the upper supporting body 11 continues to rotate upwards around the connection part (upper supporting body rotating side) of the upper supporting body 11 and the connecting part 13, and accordingly the upper supporting body 11 is separated from the lower supporting body 12, and the inner supporting 10 can be opened.

In one embodiment of the present application, the upper support 11 and/or the lower support 12 are further provided with an interface notch, where the interface notch is in communication with the endoscope container 121, and the interface notch is used for extending the connector connected to the interface on the endoscope 100 to the outside.

The interfaces on the endoscope 100 mainly include a wire outlet 104, a multi-way interface 105 and a suction button 106, and the corresponding interface notch may include: first notch 1261, notch 1262, and third notch 1263, first notch 1261 allows the cable connected to outlet 104 to extend to the outside of inner holder 10, notch 1262 allows the tube connected to multi-port interface 105 to extend to the outside of inner holder 10, and third notch 1263 allows the liquid injection tube connected to suction button 106 to extend to the outside of inner holder 10.

In this embodiment, the upper support 11 and the lower support 12 are provided with the interface notch, and the interface notch provided on the upper support 11 and the interface notch provided on the lower support 12 are both semicircular notches.

The tightening assembly 123 is generally configured to tighten and position the endoscope by means of a snap-fit connection, and the tightening assembly 123 includes: the first supporting protrusion 1231 and the second supporting protrusion 1232 are respectively and oppositely arranged at two opposite groove walls of the endoscope containing groove 121, and the first supporting protrusion 1231 and the second supporting protrusion 1232 support the fastening endoscope 100, more specifically, the first supporting protrusion 1231 and the second supporting protrusion 1232 support the handle 101 of the fastening endoscope 100.

The upper support body 11 or the lower support body 12 is further provided with an inner support hanging hole 127, specifically, the lower support body 12 is provided with the inner support hanging hole 127, and the inner support hanging hole 127 is used for hanging accessories of the endoscope which are packaged by sterilization bags, namely, when the endoscope 100 is used, scattered accessories used by the endoscope are loaded into the sterilization bags, and the sterilization bags are hooked or bound on the inner support hanging hole 127.

The sealed bag 20 is also provided with a bag hanging hole 22. After the inner support 10 and the endoscope 100 installed in the inner support 10 are sealed in the sealing bag 20, the sealing bag 20 can be hung on an infusion rod of an operating room through the bag body hanging hole 22, so that the medical staff can conveniently take and put the medical staff.

Embodiment II,

The present embodiment provides an endoscope packaging structure for packaging another endoscope 200, as shown in fig. 8, the another endoscope 200 includes: the handle 201 and the insertion part 202, the insertion part 202 is connected with the distal end of the handle 201, and the fracture preventing part 207 is arranged between the distal end of the handle 201 and the insertion part 202, so that the structure buffering function can be realized. The other endoscope 200 further includes: a sheath (not shown) is sleeved on the insertion portion 202. A lever 203 is provided at the proximal end of the handle 201, and the distal end of the insertion portion 202 is bent by operating the lever 203 to rotate forward or backward. Also, in this embodiment, a structural member 208 is further disposed on the handle 101, and marks D and U for indicating the rotation direction of the lever 203 are silk-screened on the structural member 208. An outlet 204 is provided at one side of the handle 201, and the outlet 204 is provided to the external cable. A multi-way interface 205 is also provided on the other side of the handle 201.

The other endoscope 200 provided in this embodiment is different from the endoscope 100 provided in the first embodiment in that the outlet 204 is provided at a side portion of the other endoscope 200, and accordingly, the shape of the endoscope receiving groove 121 in this embodiment is substantially the same as that of the other endoscope 200.

In this embodiment, the endoscope package may include only: the support 30 and the sealing bag 20 in the first embodiment, the support 30 is provided with a container 31, and the container 31 is used for accommodating another endoscope 200, where the structural features of the container 31 are substantially the same as those of the endoscope container 121, and will not be described herein.

In one embodiment, the multi-way interface 205 provided in this embodiment is connected to a T-valve 209. In this manner, a T-groove 32 may be provided on the side of the upper tray 11 facing the lower tray 12 and/or on the side of the lower tray 12 facing the upper tray 11 to receive the T-valve 209.

As shown in fig. 6, the endoscope package provided in this embodiment is different from that in the first embodiment in that a T-shaped groove 32 is provided in the present holder 30.

In summary, in the endoscope packaging structure provided by the application, the endoscope is accommodated in the endoscope accommodating groove, the upper support body rotates towards the lower support body to enable the upper support body and the lower support body to be covered, the pipe sheath sleeved on the insertion portion and the insertion portion extend to the outside of the inner support, then the inner support is placed in the sealing bag through the bag opening, and the bag opening is sealed, so that the endoscope is placed in the inner support and sealed through the sealing bag, the whole packaging volume of a product can be effectively reduced, the packaging material cost of the product is further reduced, and meanwhile, the transportation cost of the product can be reduced.

The foregoing description of the utility model has been presented for purposes of illustration and description, and is not intended to be limiting. Several simple deductions, modifications or substitutions may also be made by a person skilled in the art to which the utility model pertains, based on the idea of the utility model.

Claims (10)

1. An endoscope package structure, comprising: the sealing bag is used for sealing the inner support, is provided with a bag opening, and can be sealed or opened;

the inner support comprises: the upper support body and the lower support body are flexibly connected to the connecting part so as to be covered or opened; an endoscope accommodating groove is formed in one side of the upper support body, which faces the lower support body, and/or one side of the lower support body, which faces the upper support body, and/or a tube sheath notch is further formed in the upper support body and/or the lower support body, the tube sheath notch is communicated with the endoscope accommodating groove, and a tightening assembly is arranged on the groove wall of the endoscope accommodating groove; the endoscope accommodating groove is used for accommodating an endoscope, the tightening assembly is used for fastening the endoscope, and the tube sheath notch is used for enabling the tube sheath sleeved on the endoscope inserting portion to extend to the outside.

2. The endoscope packaging structure according to claim 1, wherein a pick-and-place avoiding groove is further formed in one side of the upper support body facing the lower support body or one side of the lower support body facing the upper support body, the pick-and-place avoiding groove is communicated with the endoscope accommodating groove, and the pick-and-place avoiding groove is used for avoiding hands of an operator when the operator picks up the endoscope from the endoscope accommodating groove.

3. The endoscope package as in claim 1 wherein the inner support further comprises: the locking assembly is used for locking the upper support body and the lower support body when the upper support body and the lower support body are covered.

4. The endoscope package of claim 3 wherein said locking assembly comprises: the upper support body buckle and the lower support body buckle, the upper support body buckle is arranged on one side of the upper support body towards the lower support body, the lower support body buckle is arranged on one side of the lower support body towards the upper support body, and the upper support body and the lower support body are covered, so that the upper support body buckle and the lower support body buckle are in buckling connection.

5. The endoscope package according to claim 1, wherein the upper support body and/or the lower support body are provided with an operating position for an operator to open the inner support.

6. The endoscope packaging structure as in claim 1 wherein the upper and/or lower support bodies are further provided with an interface notch, the interface notch is in communication with the endoscope receiving channel, and the interface notch is used for extending a connector connected with an interface on an endoscope to the outside.

7. The endoscope package of claim 1, wherein the cinching assembly comprises: the first supporting bulge and the second supporting bulge are respectively and oppositely arranged on two groove walls of the endoscope containing groove, and the first supporting bulge and the second supporting bulge support and fasten the endoscope.

8. The endoscope packaging structure as in claim 1 wherein one side of the upper support body facing the lower support body and/or one side of the lower support body facing the upper support body is further provided with a T-shaped container for receiving a T-shaped valve.

9. The endoscope package structure of claim 1, wherein the upper support body or the lower support body is further provided with an inner support hanging hole.

10. The endoscope package according to claim 1, wherein the sealing bag is provided with a bag body hanging hole.

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