CN218344040U - Storage module and blood cabinet - Google Patents

Abstract

The application relates to the technical field of medical equipment, discloses a storage module, includes: the accommodating component comprises a shelf, a first side plate, a second side plate, a top plate and a back plate, and an accommodating cavity is defined by the accommodating component to accommodate the blood bag; the antenna board is arranged on the accommodating component and positioned in the accommodating cavity and used for identifying and reading the information of the blood bag; the shielding door is rotatably connected to the accommodating assembly so as to open or close the opening of the accommodating cavity; the containing assembly is made of metal materials, and the antenna board can only identify and read blood bag information in the containing cavity in the closed state of the shielding door. Be equipped with RFID electronic tags on the blood bag, the RFID electronic tags of antenna panel discernment and reading blood bag acquires information such as corresponding blood information and position, checks the blood bag that holds the intracavity, can avoid the antenna panel misread to be located the information that holds the blood bag outside the subassembly through the shield door, improves the accuracy that the antenna panel read the blood bag information in the current storage module, and has improved the efficiency of blood access. The application also discloses a blood cabinet.

Description

Storage module and blood cabinet

Technical Field

The present application relates to the field of medical equipment technology, for example, to a storage module and a blood cabinet.

Background

At present, in many blood centers and hospitals in China, bar codes or two-dimensional code technologies are still used in blood information management, the operation process is complicated, only one bag of blood can be operated at a time, and blood information cannot be rapidly input in batches. In addition, each layer in the blood cabinet uses stickers or other marks to mark blood type information such as A type, B type, AB type, O type and the like, and scanned blood is put into a corresponding shelf.

SUMMERY OF THE UTILITY MODEL

The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview nor is intended to identify key/critical elements or to delineate the scope of such embodiments but rather as a prelude to the more detailed description that is presented later.

The embodiment of the disclosure provides a storage module and a blood cabinet, so as to improve the working efficiency of blood storage and taking.

In some embodiments, the storage module comprises:

the accommodating assembly comprises a shelf, a first side plate, a second side plate, a top plate and a back plate, and an accommodating cavity is defined by the accommodating assembly to accommodate a blood bag, and the shelf is used for placing the blood bag;

the antenna plate is arranged in the accommodating component, is positioned in the accommodating cavity and is used for identifying and reading blood bag information;

the shielding door is rotatably connected to the accommodating component so as to open or close the opening of the accommodating cavity;

the accommodating assembly is made of metal materials, and the antenna board can only identify and read blood bag information in the accommodating cavity when the shielding door is closed.

In some embodiments, the top plate is disposed opposite the shelf;

the first side plate, the back plate and the second side plate are sequentially and vertically connected, the bottoms of the first side plate, the back plate and the second side plate are connected with the shelf, and the tops of the first side plate, the back plate and the second side plate are connected with the top plate;

the antenna board is arranged on the shelf and radiates upwards to read the blood bag information in the accommodating cavity; or the antenna plate is arranged on the top plate and radiates downwards to read the blood bag information in the containing cavity.

In some embodiments, one end of the shield door is rotatably connected to the first side plate, the second side plate or the top plate;

wherein, under the closed condition, the edge of shield door with the shelf, the roof, first curb plate and the second curb plate contradict, in order to seal hold the opening in chamber.

In some embodiments, the shielding door is a stainless steel door body or a non-metal door body attached with a shielding film.

In some embodiments, the back plate is configured with a plurality of through openings to allow a flow of refrigerated air from the through openings into the receiving cavity to maintain the refrigerated temperature of the blood bag.

In some embodiments, the shelf comprises:

a main body for placing a blood bag;

a first bending part bent from the edge of the main body;

the second bending part is bent from the edge of the first bending part and is arranged opposite to the main body;

the first bent part is arranged along the circumferential direction of the main body, and the second bent part is arranged along the circumferential direction of the first bent part.

In some embodiments, in a state where the antenna board is placed on the shelf, the shelf is configured with a first wire guide hole for passing a wire of the antenna board therethrough to connect to a power supply;

in the case that the antenna board is disposed on the top plate, the top plate is configured with a second wire hole for connecting a wire of the antenna board to a power supply through the second wire hole.

In some embodiments, the storage module further comprises:

and the baffle is arranged on the edge of the shelf or the top plate, which is positioned at the opening side of the accommodating cavity, and is used for stopping the antenna plate from moving out of the opening of the accommodating cavity.

In some embodiments, the blood cabinet comprises a cabinet body and the storage modules provided in the previous embodiments, and a plurality of the storage modules are arranged in the cabinet body.

In some embodiments, the receiving assembly is configured with a plurality of mounting holes for threaded connection with the cabinet.

The storage module and the blood cabinet that this disclosed embodiment provided can realize following technological effect:

deposit the blood bag through holding the subassembly, be equipped with RFID electronic tags on the blood bag, the RFID electronic tags of antenna panel discernment and reading blood bag acquires information such as corresponding blood information and position, checks the blood bag that holds the intracavity, can avoid the antenna panel misreading to be located the information that holds the blood bag outside the subassembly through the shield door, improves the accuracy that the current blood bag information of storing in the module was read to the antenna panel, and has improved the efficiency of blood access.

In addition, the storage module can realize reading blood information and position information in the blood bag in the containing cavity rapidly and in batches, and the blood bag can be positioned without leakage and crosstalk, so that the workload of workers is reduced and the working efficiency is improved compared with the related art.

The foregoing general description and the following description are exemplary and explanatory only and are not restrictive of the application.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the accompanying drawings and not in limitation thereof, in which elements having the same reference numeral designations are shown as like elements and not in limitation thereof, and wherein:

fig. 1 is a schematic structural diagram of the storage module provided in the embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of another view of the storage module provided in the embodiment of the present disclosure;

FIG. 3 is a schematic structural view of the shelf provided by the embodiment of the disclosure;

FIG. 4 is an enlarged partial schematic view at A of FIG. 3;

fig. 5 is a schematic structural diagram of the blood cabinet provided in the embodiment of the present disclosure.

Reference numerals:

10: a shelf; 101: a first wire guide; 102: a main body; 103: a first bent portion; 104: a second bent portion; 20: a first side plate; 30: a second side plate; 40: a top plate; 50: a back plate; 501: a through opening; 502: an avoidance groove; 60: an accommodating chamber; 70: an antenna board; 80: a shield door; 90: a baffle plate; 100: and a storage module.

Detailed Description

So that the manner in which the features and elements of the disclosed embodiments can be understood in detail, a more particular description of the disclosed embodiments, briefly summarized above, may be had by reference to the embodiments, some of which are illustrated in the appended drawings. In the following description of the technology, for purposes of explanation, numerous details are set forth in order to provide a thorough understanding of the disclosed embodiments. However, one or more embodiments may be practiced without these details. In other instances, well-known structures and devices may be shown in simplified form in order to simplify the drawing.

The terms "first," "second," and the like in the description and in the claims, and the above-described drawings of embodiments of the present disclosure, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the present disclosure described herein may be made. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions.

In the embodiments of the present disclosure, the terms "upper", "lower", "inner", "middle", "outer", "front", "rear", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the disclosed embodiments and their embodiments, and are not used to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation. Moreover, some of the above terms may be used in other meanings besides orientation or positional relationship, for example, the term "upper" may also be used in some cases to indicate a certain attaching or connecting relationship. The specific meanings of these terms in the embodiments of the present disclosure can be understood by those of ordinary skill in the art as appropriate.

In addition, the terms "disposed," "connected," and "secured" are to be construed broadly. For example, "connected" may be a fixed connection, a detachable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. Specific meanings of the above terms in the disclosed embodiments can be understood by those of ordinary skill in the art according to specific situations.

The term "plurality" means two or more unless otherwise specified.

In the embodiment of the present disclosure, the character "/" indicates that the preceding and following objects are in an or relationship. For example, A/B represents: a or B.

The term "and/or" is an associative relationship that describes objects, meaning that three relationships may exist. For example, a and/or B, represents: a or B, or A and B.

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments of the present disclosure may be combined with each other.

As shown in fig. 1 to 4, the present disclosure provides a storage module including a receiving assembly, an antenna board 70 and a shield door 80. Deposit the blood bag through holding the subassembly, be equipped with RFID electronic tags on the blood bag, antenna panel 70 discerns and reads the RFID electronic tags of blood bag, acquires information such as corresponding blood information and position, can avoid antenna panel 70 misread to be located the information of holding the blood bag outside the subassembly through shield door 80 in addition, improves the accuracy that antenna panel 70 read the blood bag information in the current storage module 100.

The accommodating assembly comprises a shelf 10, a first side plate 20, a second side plate 30, a top plate 40 and a back plate 50, and defines an accommodating cavity 60 for accommodating a blood bag, wherein the shelf 10 is used for placing the blood bag. The shelf 10, the first side plate 20, the second side plate 30, the top plate 40 and the back plate 50 define the accommodating cavity 60, and one side of the accommodating cavity is of an open structure. The blood bag is located in the containing cavity 60 and is placed on the shelf 10. The blood bag is carried by the shelf 10.

The antenna board 70 is disposed in the accommodating component and located in the accommodating cavity 60 for identifying and reading the blood bag information. The antenna board 70 is located in the containing cavity 60 and can identify and read information of blood bags in the radiation range.

The shield door 80 is rotatably connected to the receiving assembly to open or close the opening of the receiving chamber 60. Wherein, hold the subassembly and adopt metal material to make, under the state that shield door 80 is closed, antenna panel 70 can only discern the blood bag information of reading to be located holding the chamber 60. In the case where the shield door 80 opens the opening of the accommodation chamber 60, the user can take and place the blood bag in the accommodation chamber 60. When the shield door 80 closes the opening of the housing chamber 60, the blood bag in the housing chamber 60 can be prevented from dropping from the opening, and the signal of the blood bag information outside the housing chamber 60 can be recognized by the shield door 80 by shielding the antenna plate 70.

In addition, the accommodating components are made of metal materials, preferably stainless steel materials or other metal materials which can play a role in shielding signals. Like this, under the condition that shield door 80 is closed for antenna board 70 intelligent recognition reads the blood bag information that is located and holds the chamber 60, avoids misreading the blood bag in other storage module 100.

Adopt storage module 100 that this disclosed embodiment provided, deposit the blood bag through holding the subassembly, be equipped with RFID electronic tags on the blood bag, antenna panel 70 discerns and reads the RFID electronic tags of blood bag, acquire information such as corresponding blood information and position, check the blood bag that holds in the chamber 60, can avoid antenna panel 70 misread to be located the information that holds the blood bag outside the subassembly through shield door 80, improve the accuracy that antenna panel 70 reads the blood bag information in the current storage module 100.

In addition, storage module 100 can realize reading blood information and positional information in the blood bag in holding chamber 60 fast and in batches, and leak-proof reading and not reading in series, realizes the purpose of location blood bag, compares relevant art, has alleviateed staff's work load, has improved work efficiency.

Alternatively, the antenna board 70 may be one or more. Wherein, under the condition that there are a plurality of antenna boards 70, a plurality of antenna boards 70 are arranged side by side, and the interval between adjacent antenna boards 70 is preset distance to realize the purpose of accurately reading the blood bag information in the containing cavity 60.

Optionally, the top plate 40 is disposed opposite the shelf 10; the first side plate 20, the back plate 50 and the second side plate 30 are sequentially and vertically connected, the bottoms of the first side plate, the back plate and the second side plate are connected with the shelf 10, and the tops of the first side plate, the back plate and the second side plate are connected with the top plate 40; wherein, the antenna board 70 is arranged on the shelf 10 and radiates upwards to read the blood bag information in the accommodating cavity 60; alternatively, the antenna board 70 is provided on the top plate 40 and radiates downward to read the blood bag information in the containing chamber 60.

The top plate 40 and the shelf 10 are oppositely arranged, and in actual use, the shelf 10 is positioned below the top plate 40 so as to place a blood bag.

The back plate 50 is located between the first side plate 20 and the second side plate 30, and two opposite sides of the back plate 50 are respectively connected to the first side plate 20 and the second side plate 30 and are perpendicular to each other. The connection between the back plate 50 and the first side plate 20 and the second side plate 30 may be a welding connection or a detachable connection. For example, snap-fit, bayonet or by screw connection.

Similarly, the connections between the back plate 50, the first side plate 20 and the second side plate 30, the top plate 40 and the shelf 10 are welded or detachable.

In practical applications, the back plate 50, the first side plate 20, the second side plate 30, the top plate 40 and the shelf 10 may be connected to the adjacent plates in a manner of bending the edges to form folded edges based on practical situations, so that the connection is facilitated, and the stability and firmness of the assembled accommodating assembly can be improved after the connection.

With the antenna board 70 placed on the shelf 10, the blood bag is placed on the antenna board 70, and the antenna board 70 radiates upward to identify and read information of the blood bag.

In the case where the antenna board 70 is provided on the top plate 40, the blood bag is located below the antenna board 70, and the antenna board 70 radiates downward to identify and read information of the blood bag.

Optionally, one end of the shielding door 80 is rotatably connected to the first side plate 20, the second side plate 30 or the top plate 40; wherein, in the closed state, the edge of the shield door 80 is abutted against the shelf 10, the top plate 40, the first side plate 20 and the second side plate 30 to close the opening of the receiving cavity 60.

One end of the shield door 80 is rotatably connected to the first side plate 20, the second side plate 30 or the top plate 40, and it is understood that the shield door 80 is connected between the first side plate 20, the second side plate 30 and the top plate 40 by one of them, and after the connection, the opening direction of the shield door 80 is different, but the opening of the accommodating cavity 60 is closed and the shielding function is not affected.

In addition, no matter whether the shield door 80 is selectively and rotatably connected to one of the first side plate 20, the second side plate 30 or the top plate 40, in the closed state of the shield door 80, the edge of the shield door 80 is in contact with the shelf 10, the top plate 40, the first side plate 20 and the second side plate 30, so that the shield door 80 can close the opening of the accommodating cavity 60 to prevent the electromagnetic signal emitted by the antenna plate 70 from leaking.

For example, the shielding door 80 is rotatably connected to the first side plate 20, and it should be noted that the first side plate 20 may be replaced by the second side plate 30 or the top plate 40.

Alternatively, the shield door 80 may be pivotally connected to the first side plate 20 by a hinge.

Optionally, the edge of the shield door 80 is configured with a column structure, the edge of the first side plate 20 is configured with a groove, and the column structure of the shield door 80 is rotatably connected in the groove of the first side plate 20 and can rotate in the groove, so as to realize the relative rotational connection between the shield door 80 and the first side plate 20.

Alternatively, the shield door 80 is a stainless steel door body or a non-metal door body to which a shield film is attached.

Under the condition that the shielding door 80 is a stainless steel door body, namely, the shielding door 80 is made of stainless steel materials, thereby achieving the purpose of shielding electromagnetic signals.

Under the condition that the shielding door 80 is a non-metal door body attached with a shielding film, the non-metal door body does not have the function of shielding electromagnetic signals, and the shielding door 80 realizes the function of shielding the electromagnetic signals through the shielding film. The non-metal door body can be a plastic door body, such as a transparent acrylic door body. The blood bag condition in the containing cavity 60 of the storage module 100 can be conveniently observed by a user through the transparent acrylic door body.

Optionally, the back plate 50 is configured with a plurality of through openings 501 to allow the flow of cooling air from the through openings 501 into the receiving cavity 60 to maintain the cooling temperature of the blood bag.

During blood bag storage, low temperature refrigeration is required. The storage module 100 is generally placed in a refrigeration device such as a refrigerator or freezer or a blood cabinet with a refrigeration function. Wherein, in the fridge, freezer or blood cabinet, the refrigeration module is generally arranged on the back.

Thus, in the case where the storage module 100 is provided in the above-described refrigeration apparatus, the back plate 50 is disposed opposite to the back of the refrigeration apparatus. By forming a plurality of through openings 501 on the back plate 50 of the storage module 100, the refrigerating airflow of the refrigerating device can flow into the accommodating cavity 60 of the storage module 100 from the through openings 501 to refrigerate the blood bag, i.e. maintain the refrigerating temperature of the blood bag.

Alternatively, the through opening 501 is elongated and disposed transversely. The specific size and number of the through holes 501 can be determined according to actual situations.

Alternatively, the plurality of through openings 501 are arranged in a matrix. This helps to enhance the aesthetic appearance of the storage module 100.

Optionally, the shelf 10 comprises: a body 102 for holding a blood bag; a first bending part 103 bent from an edge of the main body 102; a second bending part 104 bent from the edge of the first bending part 103 and disposed opposite to the main body 102; the first bent portion 103 is disposed along a circumferential direction of the main body 102, and the second bent portion 104 is disposed along the circumferential direction of the first bent portion 103.

The main body of the plate-shaped structure includes an upper surface and a lower surface, the first bending portion 103 bends from the edge of the main body to the lower surface, and the second bending portion 104 bends from the edge of the first bending portion 103 to the side of the main body, and is disposed opposite to the main body after bending. Preferably, the second kink 104 is disposed parallel to the main body.

The shelf 10 is formed with a groove structure by the main body, the first bending part 103 and the second bending part 104, so that not only enough space and installation area are provided to facilitate the assembly of the shelf 10 with other parts, but also the stability and firmness of the shelf 10 as a whole are improved.

The first bending part 103 is bent along the circumferential direction of the main body, and the side portions of two adjacent bending parts can be welded to improve the stability of the two adjacent first bending parts 103.

The second bending portions 104 are disposed along the circumference of the first bending portion 103, and the overlapping portions of two adjacent second bending portions 104 can be overlapped or cut off. Whether the second bent portions 104 are disposed in a stacked manner or in a removed manner, the two adjacent second bent portions 104 may be welded to improve the structural stability and firmness of the shelf 10.

Alternatively, in the case where the antenna board 70 is placed on the shelf 10, the shelf 10 is configured with a first wire guide hole 101 for connecting the wire 701 of the antenna board 70 to the power supply through the first wire guide hole 101. Thus, the surface of the antenna plate 70 is flush with the surface of the shelf 10, and the situation that the antenna plate 70 is inclined due to the problem of the wires 701, so that the blood bag on the antenna plate 70 is placed is avoided. Wherein the first wire guide 101 is opened at the main body portion of the shelf 10.

In practical applications, the antenna plate 70 covers the main body as much as possible, so that the blood bags placed in the accommodating cavities 60 are all located on the antenna plate 70.

It should be noted that the wires 701 of the antenna board 70 are arranged along the groove structure formed on the shelf 10 after passing through the first wire hole 101, and are located in the groove structure, wherein the back plate 50 is configured with an avoiding groove 502 at a side connected to the shelf 10, so that the wires 701 pass through the avoiding groove 502 to be connected with the power module of the refrigeration equipment.

Alternatively, in the case where the antenna board 70 is provided to the top plate 40, the top plate 40 is configured with a second wire guide hole for the wire 701 of the antenna board 70 to pass through to connect to the power supply. Therefore, the surface of the antenna plate 70 is flush with the surface of the top plate 40, the stability and firmness of the connection between the antenna plate 70 and the top plate 40 are improved, and the antenna plate 70 is prevented from being inclined due to the problem of the conducting wire 701.

In practice, the antenna plate 70 covers the top plate 40 as much as possible and is disposed opposite to the main body portion of the shelf 10.

It should be noted that, the back plate 50 is configured with an avoiding groove 502 at one side connected to the top plate 40, and after the wire 701 of the antenna plate 70 passes through the second wire hole, the wire 701 passes through the avoiding groove 502 to be connected to the power module of the refrigeration equipment.

Optionally, the storage module 100 further comprises: and a blocking plate 90 provided at an edge of the shelf 10 or the top plate 40 at the opening side of the receiving cavity 60 to block the antenna board 70 from being removed from the opening of the receiving cavity 60.

In a case where the antenna board 70 is provided at the shelf 10, a blocking plate 90 is provided at an edge of the shelf 10 at the opening side of the receiving cavity 60 to block the antenna board 70.

In the case that the antenna board 70 is provided on the top plate 40, a blocking plate 90 is provided on the top plate 40 at an edge of the opening side of the receiving cavity 60 to block the antenna board 70.

Optionally, the baffle 90 may be removably attached or welded to the shelf 10 or the top plate 40.

Optionally, the length of the baffle 90 matches the length of the opening of the receiving cavity 60.

Alternatively, the height of the baffle 90 is higher than the height of the antenna board 70, or the top surface of the baffle 90 is flush with the top surface of the antenna board 70. In the case where the height of the baffle 90 is higher than the height of the antenna plate 70, the baffle 90 can also stop the blood bag in the accommodating chamber 60 from moving out of the opening.

Referring to fig. 1 to 5, a blood cabinet according to an embodiment of the present disclosure includes a cabinet body and a plurality of storage modules 100 provided in the above embodiment, where the plurality of storage modules 100 are disposed in the cabinet body. Storage module 100 includes a containment assembly, antenna plate 70 and shield door 80. Deposit the blood bag through holding the subassembly, be equipped with RFID electronic tags on the blood bag, antenna panel 70 discernment and read the RFID electronic tags of blood bag acquire information such as corresponding blood information and position, can avoid antenna panel 70 misreading to be located the information of holding the blood bag outside the subassembly through shield door 80 in addition, improve the accuracy that antenna panel 70 read the blood bag information in the current storage module 100.

The accommodating assembly comprises a shelf 10, a first side plate 20, a second side plate 30, a top plate 40 and a back plate 50, and defines an accommodating cavity 60 for accommodating a blood bag, wherein the shelf 10 is used for placing the blood bag. The shelf 10, the first side plate 20, the second side plate 30, the top plate 40 and the back plate 50 define the accommodating cavity 60, and one side of the accommodating cavity is of an open structure. The blood bag is located in the containing cavity 60 and is placed on the shelf 10. The blood bag is carried by the shelf 10. The antenna board 70 is disposed in the accommodating component and located in the accommodating cavity 60 for identifying and reading the blood bag information. The antenna board 70 is located in the containing cavity 60 and can identify and read information of blood bags in the radiation range. The shield door 80 is rotatably connected to the receiving assembly to open or close the opening of the receiving chamber 60. The accommodating component is made of metal material, and the antenna board 70 can only identify and read the blood bag information in the accommodating cavity 60 when the shielding door 80 is closed.

Adopt the blood cabinet that this disclosed embodiment provided, deposit the blood bag through holding the subassembly, be equipped with RFID electronic tags on the blood bag, antenna panel 70 discerns and reads the RFID electronic tags of blood bag, acquire information such as corresponding blood information and position, check the blood bag that holds in the chamber 60, can avoid antenna panel 70 misread to be located the information that holds the blood bag outside the subassembly through shield door 80, improve the accuracy that antenna panel 70 reads the blood bag information in the current storage module 100.

The plurality of storage modules 100 are sequentially stacked in the cabinet body. It should be noted that each storage module 100 is connected to the cabinet, and the adjacent storage modules 100 may be connected or separately disposed, and are not specifically limited herein, and are selected according to specific situations.

The blood cabinet can quickly and massively read the blood information and the position information in the blood bags in each storage module 100 through the antenna plate 70 in each storage module 100, and the read information can be uploaded to the control module of the blood cabinet without leakage and crosstalk of the blood bag information in adjacent or other storage modules 100, so that the purpose of positioning the blood bags by the blood cabinet is realized, and the blood cabinet is convenient to find, take and place and can also know the number and the specific situation of the blood bags in each storage module 100 in real time.

Optionally, the containment assembly is configured with a plurality of mounting holes for threaded connection with the cabinet.

The receiving assembly is configured with a plurality of mounting holes, i.e., mounting holes are configured in some or all of the back plate 50, the top plate 40, the shelf 10, the first side plate 20, and the second side plate 30, so that the storage module 100 is threadedly coupled with the cabinet by screws or bolts to improve stability and firmness of the storage module 100 within the cabinet.

The above description and drawings sufficiently illustrate embodiments of the disclosure to enable those skilled in the art to practice them. Other embodiments may include structural and other changes. The examples merely typify possible variations. Individual components and functions are optional unless explicitly required, and the sequence of operations may vary. Portions and features of some embodiments may be included in or substituted for those of others. The embodiments of the present disclosure are not limited to the structures that have been described above and shown in the drawings, and various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. A storage module, comprising:

the accommodating assembly comprises a shelf, a first side plate, a second side plate, a top plate and a back plate, and an accommodating cavity is defined by the accommodating assembly to accommodate a blood bag, and the shelf is used for placing the blood bag;

the antenna plate is arranged on the accommodating component, is positioned in the accommodating cavity and is used for identifying and reading blood bag information;

the shielding door is rotatably connected to the accommodating component so as to open or close the opening of the accommodating cavity;

the accommodating assembly is made of metal materials, and the antenna board can only identify and read blood bag information in the accommodating cavity when the shielding door is closed.

2. The storage module of claim 1,

the top plate is arranged opposite to the shelf;

the first side plate, the back plate and the second side plate are sequentially and vertically connected, the bottoms of the first side plate, the back plate and the second side plate are connected with the shelf, and the tops of the first side plate, the back plate and the second side plate are connected with the top plate;

the antenna board is arranged on the shelf and radiates upwards to read the blood bag information in the accommodating cavity; or the antenna plate is arranged on the top plate and radiates downwards to read the blood bag information in the containing cavity.

3. The storage module of claim 2,

one end of the shielding door is rotatably connected to the first side plate, the second side plate or the top plate;

wherein, under the closed condition, the edge of shield door with the shelf, the roof, first curb plate and the second curb plate contradict, in order to seal hold the opening in chamber.

4. The storage module of claim 1,

the shielding door is a stainless steel door body or a nonmetal door body attached with a shielding film.

5. The storage module of claim 1,

the back plate is provided with a plurality of through holes, so that the refrigerating air flow flows into the accommodating cavity from the through holes to keep the refrigerating temperature of the blood bag.

6. The storage module of claim 1, wherein the shelf comprises:

a main body for placing a blood bag;

a first bending part bent from the edge of the main body;

the second bending part is bent from the edge of the first bending part and is arranged opposite to the main body;

the first bent part is arranged along the circumferential direction of the main body, and the second bent part is arranged along the circumferential direction of the first bent part.

7. The storage module of claim 1,

the shelf is configured with a first wire hole for connecting the wire of the antenna board with a power supply through the first wire hole under the condition that the antenna board is placed on the shelf;

in the case that the antenna board is disposed on the top plate, the top plate is configured with a second wire hole for connecting a wire of the antenna board to a power supply through the second wire hole.

8. The storage module of any one of claims 1 to 7, further comprising:

and the baffle is arranged on the edge of the shelf or the top plate, which is positioned on the opening side of the accommodating cavity, and is used for stopping the antenna plate from moving out of the opening of the accommodating cavity.

9. A blood cabinet comprising a cabinet body and a storage module according to any one of claims 1 to 8, a plurality of said storage modules being provided within said cabinet body.

10. A blood cabinet according to claim 9,

the containing assembly is provided with a plurality of mounting holes for being in threaded connection with the cabinet body.

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