1. A transfer pot, comprising:

the cooling system comprises a shell, wherein the shell comprises a shell body (1) and a cover body (2), the shell body (1) is provided with an accommodating space, the cover body (2) is arranged at an opening of the accommodating space, and a cooling liquid injection port which can be opened and closed is arranged on the cover body (2);

vacuum inner bag subassembly (3), set up in the accommodation space of casing (1), vacuum inner bag subassembly (3) are including the vacuum tank body (31) and keep warm lid (32), keep warm lid (32) set up the jar mouth department of the vacuum tank body (31), have in the vacuum tank body (31) and put thing chamber (301) and coolant liquid chamber (302), it is provided with the intercommunication on lid (32) to keep warm coolant liquid inlet with annotate liquid passageway (303) of coolant liquid chamber (302), coolant liquid chamber (302) encircle put thing chamber (301) and set up, it is used for placing biological cell goods to put thing chamber (301).

2. Transport tank according to claim 1,

the transfer tank still includes coolant liquid injection subassembly (4), coolant liquid injection subassembly (4) set up on lid (2), coolant liquid injection subassembly (4) are including filling opening inner cup (41) and filling opening apron (42), the top of filling opening inner cup (41) is provided with the coolant liquid inlet, the bottom of filling opening inner cup (41) is provided with the coolant liquid export, filling opening apron (42) slide to set up the coolant liquid inlet department, in order to open and close the coolant liquid inlet mouth, the coolant liquid export with the import of notes liquid passageway (303) is just to setting up.

3. Transport tank according to claim 2,

the cooling liquid injection assembly (4) further comprises a resetting elastic piece (44), one end of the resetting elastic piece (44) is connected with the filling opening inner cover (41), and the other end of the resetting elastic piece (44) is connected with the filling opening cover plate (42).

4. Transport tank according to claim 3,

and a limiting structure is arranged on the filling opening inner cover (41) and is used for limiting the stretching direction and the resetting direction of the resetting elastic piece (44).

5. Transport tank according to claim 1,

the vacuum tank body (31) comprises an inner tank (312) and an outer tank (311) which are arranged in a nested mode, a vacuum interlayer (304) is arranged between the inner tank (312) and the outer tank (311), and a heat insulation structure and a heat reflection structure are arranged in the vacuum interlayer (304).

6. Transport tank according to claim 1,

and a cooling liquid adsorption body is arranged in the cooling liquid cavity (302).

7. Transport tank according to claim 1,

the cover body (2) comprises an installation seat (21) and a cover plate (22), the installation seat (21) is arranged at an opening of the shell (1), and one end of the cover plate (22) is rotatably connected to the installation seat (21);

an electromagnetic lock is arranged between the other end of the cover plate (22) and the other end of the mounting seat (21).

8. Transport tank according to claim 1,

the transfer tank further comprises a temperature sensor (316), the top of the object placing cavity (301) is provided with a fixing plate (315), the temperature sensor (316) is arranged on the plane of the fixing plate (315), the temperature sensor (316) is communicated with the PCBA assembly (63), the PCBA assembly (63) is provided with an alarm module, and the alarm module is used for sending out an alarm signal when the temperature of the object placing cavity (301) top at the plane position of the fixing plate (315) exceeds a preset range.

9. Transport tank according to claim 8,

the transfer tank also comprises a display module (6), and the display module (6) is used for displaying the information of the biological cell product.

10. Transport tank according to claim 9,

the transfer tank further comprises a charging module (7), the charging module (7) is provided with a charging wire interface and a wireless charging receiver (73), and the charging module (7) is communicated with the PCBA assembly (63).

11. Transport tank according to claim 8,

the PCBA assembly (63) comprises a positioning module (66), and the positioning module (66) comprises a GPS module and a Beidou module.

Background

The storage environment of the biological cell product needs to be strictly controlled during the storage and transportation process so as to prevent the biological cell product from deteriorating due to environmental discomfort. The existing biological cell products are generally transported by using a transport tank filled with cooling liquid, so that the biological cell products can be transported for a long time and in a long distance under the low-temperature condition of the cooling liquid, and the cold chain management of the biological cell products is realized.

The general structure of current transport jar is fairly simple, and the leakproofness is relatively poor to when needing to supply the coolant liquid, need open the transport jar completely, caused low temperature environment's short time inefficacy, thereby the coolant liquid low temperature environment stability that leads to storing biological cell goods is relatively poor, has caused serious restriction to the length of time and the distance of transporting biological cell goods.

Disclosure of Invention

The invention aims to provide a transfer tank which has a compact structure, good sealing performance and high operability of supplementing cooling liquid and can provide a long-term and stable low-temperature environment for biological cell products.

In order to achieve the purpose, the invention adopts the following technical scheme:

a transfer pot comprising:

the cooling system comprises a shell and a cooling system, wherein the shell comprises a shell body and a cover body, the shell body is provided with an accommodating space, the cover body is arranged at an opening of the accommodating space, and a cooling liquid injection port capable of being opened and closed is arranged on the cover body;

the vacuum inner bag subassembly sets up in the accommodation space of casing, the vacuum inner bag subassembly includes the vacuum tank body and keeps warm the lid, it sets up to keep warm the lid the jar mouth department of the vacuum tank body, the internal thing chamber and the coolant liquid chamber of putting that has of vacuum tank, keep warm to cover and be provided with the intercommunication the coolant liquid entry with the filling liquid passageway in coolant liquid chamber, the coolant liquid chamber encircles put the thing chamber and set up, it is used for placing biological cell goods to put the thing chamber.

As preferred, the transport jar still includes coolant liquid injection subassembly, the coolant liquid injection subassembly sets up on the lid, the coolant liquid injection subassembly includes filling opening inner cup and filling opening apron, the top of filling opening inner cup is provided with the coolant liquid inlet, the bottom of filling opening inner cup is provided with the coolant liquid export, the setting of sliding of filling opening apron is in the coolant liquid inlet department, in order to open and close the coolant liquid inlet, the coolant liquid export with the import of notes liquid passageway is just to setting up.

Preferably, the cooling liquid injection assembly further comprises a resetting elastic piece, one end of the resetting elastic piece is connected with the filling opening inner cover, and the other end of the resetting elastic piece is connected with the filling opening cover plate.

Preferably, the inner cover of the liquid filling port is provided with a limiting structure for limiting the stretching direction and the resetting direction of the resetting elastic piece.

Preferably, the vacuum tank body comprises an inner tank and an outer tank which are nested, a vacuum interlayer is arranged between the inner tank and the outer tank, and a heat insulation structure and a heat reflection structure are arranged in the vacuum interlayer.

Preferably, a cooling liquid adsorbent is arranged in the cooling liquid cavity.

Preferably, the cover body comprises an installation seat and a cover plate, the installation seat is arranged at the opening of the shell, and one end of the cover plate is rotatably connected to the installation seat;

an electromagnetic lock is arranged between the other end of the cover plate and the other end of the mounting seat.

As preferred, the transport jar still includes temperature sensor, the top of putting the thing chamber is provided with the fixed plate, temperature sensor sets up on the plane of fixed plate, temperature sensor and PCBA subassembly intercommunication, the PCBA subassembly has alarm module, alarm module is used for put the thing chamber top the temperature of fixed plate plane position department sends alarm signal when surpassing preset range.

Preferably, the transfer tank further comprises a display module for displaying information of the biological cell product.

Preferably, the transfer tank further comprises a charging module, the charging module is provided with a charging wire interface and a wireless charging receiver, and the charging module is communicated with the PCBA assembly.

Preferably, the PCBA component comprises a positioning module, and the positioning module comprises a GPS module and a Beidou module.

The invention has the beneficial effects that:

the invention provides a transfer tank which comprises a shell and a vacuum liner assembly, wherein the shell comprises a shell body and a cover body, the shell body is provided with an accommodating space, the cover body is arranged at an opening of the accommodating space, and a cooling liquid injection port capable of being opened and closed is arranged on the cover body; the vacuum inner bag subassembly sets up in the accommodation space of casing, and the vacuum inner bag subassembly includes the vacuum tank body and keeps warm the lid, keeps warm the lid and sets up jar mouth department at the vacuum tank body, and the internal thing chamber and the coolant liquid chamber of putting that has of vacuum tank, keeps warm to cover and is provided with the notes liquid passageway that communicates coolant liquid inlet and coolant liquid chamber, and the coolant liquid chamber is encircleed and is put the thing chamber setting, puts the thing chamber and is used for placing biological cell goods. This transport tank sets up the heat preservation lid through jar mouthful department at the vacuum tank body, has improved its seal and heat insulating ability to, through be provided with the coolant liquid inlet that can open and close on the lid, set up the notes liquid passageway on the heat preservation lid, thereby can add the coolant liquid to the coolant liquid chamber under the prerequisite that need not open the heat preservation lid, further guaranteed the internal low temperature environment's of vacuum tank stability, be favorable to prolonging the length and the distance that biological cell goods can be transported.

Drawings

FIG. 1 is a schematic structural diagram of a transfer tank provided by the present invention;

FIG. 2 is an exploded view of a transfer pot provided by the present invention;

FIG. 3 is an exploded view of the cover, handle and coolant injection assembly of the transfer pot provided by the present invention;

FIG. 4 is an assembly view of the vacuum bladder assembly and the bladder mounting flange of the transfer pot provided by the present invention;

FIG. 5 is an exploded view of the vacuum bladder assembly of the transfer pot provided by the present invention;

FIG. 6 is a cross-sectional view of a vacuum bladder assembly of a transfer pot provided by the present invention;

FIG. 7 is an exploded view of a display module of a transfer tank provided by the present invention;

FIG. 8 is a schematic structural view of a base of a transfer pot provided in the present invention;

fig. 9 is an exploded view of the base of the transfer pot and the charging module provided by the present invention.

In the figure:

1. a housing;

11. a front housing; 12. a rear housing; 13. a base; 14. a bottom flange; 15. a flange knob;

2. a cover body;

21. a mounting seat; 22. a cover plate;

3. a vacuum liner assembly;

31. a vacuum tank body; 311. an outer tank; 312. an inner tank; 313. a heat insulating pipe; 314. a storage box; 315. a fixing plate; 316. a temperature sensor; 317. a vacuumizing nozzle;

32. a heat preservation cover; 321. a heat preservation cover main body; 322. injecting a liquid block; 323. a handle;

301. a storage cavity; 302. a cooling fluid chamber; 303. a liquid injection channel; 304. vacuum interlayer;

4. a coolant injection assembly;

41. an inner cover of the liquid feeding port; 42. a liquid filling port cover plate; 43. a handle; 44. a restoring elastic member;

5. a handle;

6. a display module;

61. a protective shell; 62. a display screen; 63. a PCBA component; 64. a Bluetooth-wifi module; 65. a communication module; 66. a positioning module; 67. a touch switch;

7. a charging module;

71. TYPE-C patch cord, 72, lithium cell; 73. a wireless charging receiver; 74. a battery cover; 75. a wireless charging receiver cover;

8. an emergency unlocking assembly;

9. and (5) installing a flange on the inner container.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of 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 thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Wherein the terms "first position" and "second position" are two different positions.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection or a removable connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The invention provides a transfer tank which can provide a low-temperature environment which can be kept for a long time for an object to be transported, so as to achieve the purpose of keeping the activity of the object to be transported in the process of transportation or storage.

As shown in fig. 1 to 9, the transfer tank includes an outer shell, a vacuum bladder assembly 3, a base 13, a display module 6, and a charging module 7. Wherein, the shell is the outward appearance piece of whole transport jar, and it mainly includes casing 1 and lid 2, and casing 1 has accommodation space, and in this embodiment, accommodation space's open-top, lid 2 include mount pad 21 and apron 22, and apron 22 lid is established at mount pad 21 to can open and close for mount pad 21. The cover body 2 is provided with a cooling liquid injection port which can be opened and closed, and cooling liquid can be injected through the cooling liquid injection port before or during the use of the transfer tank. Optionally, the cooling liquid is liquid nitrogen.

The vacuum inner container assembly 3 is arranged in the accommodating space of the shell through an inner container mounting flange 9. The vacuum liner assembly 3 specifically includes a vacuum tank 31 and a heat-insulating cover 32, in this embodiment, a tank opening is formed at the top of the vacuum tank 31, and the heat-insulating cover 32 is covered on the tank opening at the top of the vacuum tank 31. The vacuum tank 31 is internally provided with an object placing cavity 301 and a cooling liquid cavity 302, the heat preservation cover 32 is provided with a liquid injection channel 303 communicated with a cooling liquid injection port and the cooling liquid cavity 302, and cooling liquid injected through the cooling liquid injection port can enter the cooling liquid cavity 302 through the liquid injection channel 303. The coolant cavity 302 surrounds the thing chamber 301 and sets up, puts thing chamber 301 and is used for placing biological cell goods, and the coolant temperature that pours into coolant cavity 302 is lower to can provide a low temperature storage environment for biological cell goods.

This transport tank sets up heat preservation lid 32 through jar mouth department at the vacuum tank body 31, utilizes heat preservation lid 32 shutoff vacuum tank body 31's jar mouth to realized lieing in putting the biological cell goods in the thing chamber 301 and lie in the sealed of the coolant liquid in coolant liquid chamber 302, improved this transport tank's seal nature and heat insulating ability, thereby guaranteed transport tank storage biological cell goods's stability and quality. In addition, the transfer tank is provided with a cooling liquid injection port which can be independently opened and closed on the cover body 2, and the heat preservation cover 32 is provided with a liquid injection channel 303 communicated with the cooling liquid injection port and the cooling liquid channel, so that the cooling liquid can be added into the cooling liquid cavity 302 on the premise of not opening the heat preservation cover 32, the stability of the low-temperature environment in the vacuum tank body 31 is further ensured, and the transportation time and distance of the biological cell product can be prolonged.

With continued reference to fig. 2, the casing 1 includes a front casing 11, a rear casing 12 and a base 13, the front casing 11 and the rear casing 12 are assembled to form an annular structure with an upper opening and a lower opening, the base 13 is disposed at the bottom of the annular side wall, and the cover 2 is disposed at the top of the annular side wall. Specifically, the front case 11 and the rear case 12 may be thin-walled parts formed by plastic injection molding, which has advantages of light weight, easy manufacturing, beautiful shape, and low cost.

The front case 11 includes an upper ring plate, a lower ring plate, and a front wall plate disposed between the upper ring plate and the lower ring plate. The front wall plate is semi-cylindrical, and an installation opening for installing the display module 6 is formed in the front wall plate during injection molding, and the shape and the size of the installation opening are set according to the shape and the size of the display module 6. The front wall plate is connected only between the front half ring of the upper ring plate and the front half ring of the lower ring plate, so that a mounting gap for mounting the rear housing 12 is formed between the rear half ring of the upper ring plate and the rear half ring of the lower ring plate, and the mounting gap is matched with the shape of the rear housing 12, and in the embodiment, the rear housing 12 is U-shaped. The front case 11 and the rear case 12 may be provided with a plurality of reinforcing ribs according to structural strength requirements. In order to realize the fast assembly of the front housing 11 and the rear housing 12, a joint structure such as a joint block and a joint groove may be provided at the joint of the front housing 11 and the rear housing 12.

The base 13 is disposed below the front case 11. Be provided with a plurality of spliced poles on base 13, be provided with the spliced eye on the spliced pole, correspondingly, be provided with a plurality of spliced poles on the lower crown plate of preceding casing 11, the spliced pole can peg graft to in the spliced eye to realize base 13 and procapsid 11's fast assembly. Optionally, a connecting hole may be provided on the connecting column, and the connecting member is provided through the connecting hole to further improve the connecting strength. Optionally, be provided with the slipmat on the bottom surface of base 13 to improve this transportation tank's non-slip nature, avoid the transportation tank to topple over in the transportation. The number of the non-slip mat can be one or more according to the requirement, in this embodiment, six non-slip mats are arranged, and the six non-slip mats are uniformly distributed on the base 13. Further optionally, the non-slip mat is a rubber mat made of rubber.

With continued reference to fig. 1 and 2, cover 22 is pivotally attached to mount 21. Specifically, as shown in fig. 3, the cover body 2 includes a mounting seat 21 and a cover plate 22, and the mounting seat 21 is detachably mounted at the top opening of the housing 1, which may be realized by matching a plug-in post and a plug-in hole, or by matching a connecting member and a connecting hole. The middle part of the mounting seat 21 is provided with a hole in a penetrating manner, the rear part of the mounting seat is provided with a rotating shaft seat, one end of the cover plate 22 is connected to the rotating shaft seat through the rotating shaft, the other end of the cover plate is provided with a handle buckling plate protruding downwards, and correspondingly, a handle buckling groove for accommodating the handle buckling plate is formed in the mounting seat 21.

With continued reference to fig. 3, the cover 2 further includes a handle 5, and the handle 5 is pivotally connected to the mounting seat 21 through a pivot. Optionally, a semicircular accommodating groove is formed in the mounting base 21, and the handle 5 is arranged in the accommodating groove to improve the compactness of the whole transfer tank. An electromagnetic lock is further arranged between the cover plate 22 and the mounting seat 21, and the cover plate 22 is controlled to be opened through the electromagnetic lock, so that cover opening authority management is achieved.

Optionally, continuing to refer to fig. 2, this transport jar still includes emergent subassembly 8 of unblanking, and emergent subassembly 8 of unblanking includes emergent support, emergent unlocking shaft, emergent unlocking spring, emergent unlocking button and emergent unlocking nut of unblanking. Emergent support of unblanking is fixed on casing 1, and emergent the axle of unblanking passes emergent the support setting of unblanking, and it passes the pot head and is equipped with emergent nut of unblanking to realize spacingly, the epaxial cover of emergent unlocking is equipped with emergent unlocking spring, and the top of emergent unlocking axle is provided with emergent unlocking button, and emergent unlocking button is provided with and is used for the male pinhole with emergent unlocking spring butt, emergent unlocking button top. When the electromagnetic lock fails to open due to a failure, the cover plate 22 can be opened by inserting the needle into the needle hole and applying a force.

With continued reference to fig. 3, the transfer tank further includes a coolant injection assembly 4, the coolant injection assembly 4 being disposed on the lid 2. Specifically, coolant liquid injection subassembly 4 includes filling opening inner cover 41 and filling opening apron 42, and the top of filling opening inner cover 41 is provided with coolant liquid and annotates the mouth, and the bottom of filling opening inner cover 41 is provided with the coolant liquid export, and filling opening apron 42 slides and sets up in coolant liquid notes mouth department to open and close coolant liquid notes mouth, the coolant liquid export is just to setting up with the import of notes liquid passageway 303.

Optionally, the coolant injection assembly 4 further includes a return elastic member 44, and one end of the return elastic member 44 is connected to the filler lid 41 and the other end is connected to the filler lid 42. In this embodiment, the return elastic member 44 is two springs disposed at an interval. When staff's application of force promoted filler opening apron 42, the coolant liquid inlet was opened, and the spring is stretched, can carry out the injection of liquid nitrogen, waits that the liquid nitrogen adds the back that finishes, and filler opening apron 42 resets, shelters from the coolant liquid inlet again.

Further optionally, in order to improve the moving and resetting precision of the filler opening cover plate 42, a limiting structure is further disposed on the filler opening inner cover 41, and the limiting structure is used for limiting the stretching direction and the resetting direction of the resetting elastic member 44. In this embodiment, the limiting structure is a limiting groove disposed in the filling opening inner cover 41, and the limiting groove may be opened on the filling opening inner cover 41, or may be formed by two limiting plates disposed at intervals. In order to facilitate the staff to drive the filling opening cover plate 42 to move, a handle 43 is further arranged on the filling opening cover plate 42, and the staff can push the filling opening cover plate 42 to move by holding the handle 43.

As shown in fig. 5 and 6, the vacuum canister body 31 of the vacuum bladder assembly 3 includes an inner canister 312 and an outer canister 311 that are nested. In this embodiment, the outer tank 311 and the inner tank 312 are both cylindrical structures and are made of pure aluminum. An insulating pipe 313 is provided between the top of the inner tank 312 and the top of the outer tank 311, and the provision of the insulating pipe 313 can reduce heat conduction between the inner and outer tanks. A sealed space is formed between the heat insulating pipe 313, the outer wall surface of the inner tank 312, and the inner wall surface of the outer tank 311, and the vacuum interlayer 304 can be formed after the space is evacuated. Specifically, a vacuum nozzle 317 may be provided at the bottom of the outer tank 311, and the vacuum nozzle 317 passes through the outer tank 311 to communicate with the space, so that vacuum can be applied to the space. Before vacuuming, a thermal insulation layer may be disposed in the vacuum interlayer 304 to further reduce heat loss. Optionally, the heat insulation layer may be heat insulation cotton attached with an aluminum foil reflection film.

With continued reference to fig. 5, a storage compartment 314 is provided within the inner canister 312. In this embodiment, the storage box 314 is a cubic box made of aluminum material, the top of the box is open, a fixing plate 315 is arranged along the circumferential direction of the top, and the storage box 314 is fixed in the inner tank 312. The inner wall surface of the storage box 314 is surrounded to form a storage cavity 301, and a cooling liquid cavity 302 is formed between the outer wall surface of the storage box 314 and the inner wall surface of the inner layer tank 312. Optionally, an adsorption layer may be disposed within the cooling liquid chamber 302 to adsorb liquid nitrogen, reducing the risk of liquid nitrogen overflow. The absorbent layer is made of a material capable of absorbing liquid, and the specific material is not limited herein.

With continued reference to fig. 5 and 6, the thermal insulation cover 32 includes a thermal insulation cover main body 321 and a liquid injection block 322, and the thermal insulation cover main body 321 is a columnar structure with a notch at an edge. The liquid injection block 322 is a notch which can be assembled on the heat preservation cover main body 321. The assembled insulation cover main body 321 and the liquid injection block 322 form a complete cylindrical mechanism with the size and the shape matched with the tank opening of the vacuum tank body 31. Run through along the direction of height who annotates liquid piece 322 and be provided with notes liquid channel 303, the top of annotating liquid channel 303 is hourglass hopper-shaped to reduce and annotate the liquid degree of difficulty, avoid the coolant liquid to spill over.

Optionally, a handle 323 is provided on the top of the thermal cover main body 321 to facilitate the operation of the worker by hand. The top of the heat preservation cover main body 321 is sunken to form a pit, and the handle 323 is arranged in the pit so as to reduce the height of the whole heat preservation cover 32 and improve the structure compactness. Further optionally, a temperature detection module is disposed in the vacuum tank 31, and the temperature detection module is configured to monitor the temperature of the cooling liquid in real time, specifically, the temperature detection module is a temperature sensor 316, and the temperature sensor 316 is disposed on the fixing plate 315 and configured to detect the temperature inside the storage box 314. The transfer tank further comprises an alarm module, the alarm module is electrically connected with the temperature sensing module, when the temperature detected by the temperature sensing module exceeds a preset range, the alarm module can send out an alarm signal, and optionally, the alarm module can be an alarm lamp or an alarm bell and the like.

As shown in fig. 7, the display module 6 specifically includes a protective shell 61, a display 62 and a PCBA assembly 63, the protective shell 61 is mounted on the front housing 11, the display 62 is mounted on the protective shell 61, the PCBA assembly 63 is located in the protective shell 61, the display 62 is connected with the PCBA assembly 63, and the display 62 is used for displaying information related to the biological cell product and a software operating system interface. Optionally, the PCBA component 63 may also be coupled to a temperature sensing module to display temperature information detected by the temperature sensing module. Further, a two-dimensional code can be displayed on the display screen 62, and the staff can scan the two-dimensional code to open the electromagnetic lock.

With continued reference to FIG. 7, the PCBA assembly 63 includes a control board and a Bluetooth-wifi module 64, a communication module 65 and a positioning module 66 integrated on the control board, the Bluetooth-wifi module 64, the communication module 65 and the positioning module 66 being connected to the control board via a Bluetooth-wifi module antenna, a communication module antenna and a positioning module antenna, respectively. The positioning module 66 includes a GPS module and a beidou module to realize position location. The PCBA component 63 can be arranged by applying the technologies of integrated circuit chip micro-electronics Internet of things and the like, and the important information such as the position, the temperature and the like of the biological cell product can be remotely and dynamically monitored in real time through uploading the information to a server through a wireless communication network. In this embodiment, the control panel may be a centralized or distributed controller, for example, the controller may be a single-chip microcomputer or may be formed by a plurality of distributed single-chip microcomputers, and a control program may be run in the single-chip microcomputers to control each component to realize its function.

With continued reference to fig. 7, the display module 6 further includes a switch button disposed below the display screen 62, and the touch switch 67 is activated by pressing or touching the switch button, thereby activating the display screen module 6.

As shown in fig. 8 and 9, the transfer tank further comprises a charging module 7, and the charging module 7 is connected with the PCBA assembly 63 so as to supply power to the components such as the temperature detection module, the alarm module and the display module 6. Specifically, the charging module 7 includes a lithium battery 72, a wireless charging receiver 73, and a TYPE-C patch cord 71, wherein a bottom surface of the base 13 is provided with mounting grooves for respectively mounting the lithium battery 72 and the wireless charging receiver 73, a battery cover 74 covers an opening of the mounting groove for mounting the lithium battery 72, and a wireless charging receiver cover 75 covers an opening of the mounting groove for mounting the wireless charging receiver 73. TYPE-C patch cord 71 forms a charging wire interface on base 13.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.