CN216835234U - Cold chain insulation can that can remote monitoring - Google Patents

Abstract

The utility model discloses a cold chain incubator capable of remote monitoring, which comprises an outer box and an inner incubator arranged in the outer box, wherein the outer box comprises an outer box body and an outer box cover which can be buckled and sealed and connected; the heat preservation inner box comprises a heat preservation box body and a heat preservation box cover, wherein an ice plate fixing frame is arranged at the top in the heat preservation box body, the top edge of the ice plate fixing frame, which extends outwards, is placed at the top of the inner wall of the outer box body, the heat preservation box cover is embedded in the outer box cover, and when the outer box cover covers the outer box body, the heat preservation box cover covers the ice plate fixing frame to seal the heat preservation box body; a temperature sensing probe is arranged in the heat-preservation inner box; the temperature sensing probe is connected with a temperature recorder, and the temperature recorder is connected with a data gateway. The utility model discloses set up temperature probe in the insulation can and detect the temperature and through temperature recorder real-time recording temperature, set up the temperature teletransmission of data gateway with the temperature recorder record, realize the remote monitoring of temperature.

Description

Cold chain insulation can that can remote monitoring

Technical Field

The utility model relates to an insulation can especially relates to a but cold chain insulation can of remote monitoring.

Background

Cold chain transportation refers to transportation in which the transported goods are kept at a certain temperature throughout the transportation process, no matter in the links of loading, unloading, carrying, changing transportation modes, changing packaging equipment and the like. The cold chain transportation mode can be road transportation, waterway transportation, railway transportation and air transportation, and also can be a comprehensive transportation mode formed by a plurality of transportation modes. Cold chain transportation is an important link of cold chain logistics, the cold chain transportation cost is high, a more complex mobile refrigeration technology and an insulation can manufacturing technology are included, and the cold chain transportation management contains more risks and uncertainties.

The most important link in cold chain delivery is an insulation box, the insulation box which is commonly used at present is mainly a simple insulation box made of EPS (expanded polystyrene), the insulation box made of the material has two using modes, one mode is that the foam box is directly transported after being sealed by an adhesive tape, and the other mode is that the foam box is transported after being additionally provided with a corrugated carton. The heat preservation effect of two kinds of modes is all not good, and its heat preservation effect can not guarantee that the commodity of heat-preserving box inside does not melt to freeze or not frostbite in the delivery process.

At present, many companies also develop and design heat-insulating boxes comprising outer boxes and inner boxes, and the heat-insulating boxes can greatly improve the heat-insulating effect of the heat-insulating boxes and prevent heat and freeze. However, in cold chain transportation, more and more customers need to master the full chain temperature of goods, and the whole-course remote monitoring of the temperature in the transportation process cannot be realized by the conventional insulation can. Thus, there is a need for improvements and enhancements in the art.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a but cold chain insulation can of remote monitoring is provided, solve the unable problem that realizes transportation overall process temperature remote monitoring of current insulation can.

The technical scheme adopted by the utility model for solving the technical problems is to provide a cold chain incubator capable of remote monitoring, which comprises an outer box and an inner incubator arranged in the outer box, wherein the outer box comprises an outer box body and an outer box cover which can be buckled and closed; the inner heat-preservation box comprises a heat-preservation box body and a heat-preservation box cover, wherein an ice plate fixing frame is arranged at the top in the heat-preservation box body, the top edge of the ice plate fixing frame, which extends outwards, is placed at the top of the inner wall of the outer box body, the heat-preservation box cover is embedded in the outer box cover, and when the outer box cover covers the outer box body, the heat-preservation box cover covers the ice plate fixing frame to seal the heat-preservation box body; a temperature sensing probe is arranged in the heat-preservation inner box; the temperature sensing probe is connected with a temperature recorder, the temperature recorder is connected with a data gateway, and the data gateway uploads temperature data through a wireless network.

Furthermore, the temperature recorder comprises a microprocessor, a storage, a Bluetooth module and a battery for supplying power, and the temperature sensing probe is connected with the temperature recorder to transmit the temperature signal to the temperature recorder for storage; the data gateway comprises a microprocessor, a storage, a Bluetooth module, a communication module and a battery for supplying power, the data gateway is connected with the temperature recorder in a Bluetooth mode, and the data gateway receives and stores temperature data sent by the temperature recorder; the communication module comprises a Lora module, a 4G module and a WIFI module, and the data gateway transmits temperature data to the server through a wireless network.

Furthermore, the heat insulation box body is clamped and connected into a whole by a heat insulation plate, the heat insulation box cover is made of the heat insulation plate, and the heat insulation plate comprises an aluminum plate layer and a PU foaming layer which is integrally foamed and formed and is arranged on the outer side of the aluminum plate layer; the heat insulation box body comprises side plates and a bottom plate, wherein the side plates comprise two first side plates and two second side plates, the two first side plates are oppositely arranged, the two second side plates are oppositely arranged, insertion bulges are arranged at two ends of each first side plate, insertion grooves matched with the insertion bulges are arranged at two ends of each second side plate, and the first side plates and the second side plates are sequentially spliced with the insertion grooves through the insertion bulges; the bottom plate is provided with a groove matched with the side plates, and the spliced side plates are clamped into the groove of the bottom plate to be fixed.

Furthermore, the bottom of the ice plate fixing frame is hollow, an ice plate fixing frame for fixing the ice plates is arranged on the inner wall of the ice plate fixing frame, and the temperature sensing probe is fixed in the ice plate fixing frame through a fixing buckle.

Furthermore, an embedded boss matched with the heat preservation box cover is arranged on the inner side of the outer box cover, and the heat preservation box cover is arranged in the center of the embedded boss; the inner side edge of the outer box cover is provided with a buckling boss, the top of the outer box body is provided with a buckling groove matched with the buckling boss, and the outer box cover and the outer box body are embedded into the buckling groove through the buckling boss to be connected in a sealing mode; the inner side of the top of the outer box body is also provided with a placing groove matched with the edge of the top of the ice board fixing frame.

Furthermore, both end faces of the outer box body are provided with first lock catches, both ends of the outer box cover are provided with second lock catches corresponding to the first lock catches, and when the outer box cover covers the outer box body, the first lock catches and the second lock catches can be locked through the lock bodies.

Furthermore, four corners of the bottom of the outer box body are provided with stacking protrusions, and four corners of the top of the outer box cover are provided with stacking grooves matched with the stacking protrusions.

Furthermore, trapezoidal grooves are formed in two end faces of the outer box body, and holding grooves are formed in the tops of the trapezoidal grooves in an upward extending mode.

Further, the edges of the outer box body and the outer box cover are subjected to smoothing treatment; a cover opening groove is formed in the corner of the contact surface of the outer box body and the outer box cover; the front side of the outer box body is provided with a surface single-sheet sticking area and a bar code fixing area.

Further, the ice plate fixing frame is made of low-temperature-resistant food-grade polypropylene; the outer box body and the outer box cover are both integrally formed by foaming EPP materials.

The utility model discloses contrast prior art has following beneficial effect: the utility model provides a but cold chain insulation can of remote monitoring, set up temperature probe in the insulation can and detect the temperature and record the temperature in real time through the temperature recorder, set up the data gateway and transmit the temperature that the temperature recorder recorded remotely, realize the remote monitoring of temperature; the heat preservation inner box is arranged for heat preservation, the outer box is sealed, the heat preservation effect of the heat preservation box is improved, heat and freeze are prevented, and the sealing performance is good; the heat-insulating inner box is assembled and embedded in the outer box through the heat-insulating plates in a tenon-and-mortise structure, so that the assembly is simple and convenient, and the structure is stable; the heat preservation plate is attached to the PU foaming layer by adopting an aluminum plate, so that the heat preservation effect is good; a fixing frame for fixing the ice plate is arranged in the heat-insulation inner box, so that the ice plate can be fixed conveniently without pressing goods, and meanwhile, the temperature probe can be installed and fixed conveniently; the outer container is provided with the hasp, can be locked by the intelligence lock, the control of the transportation of being convenient for.

Drawings

Fig. 1 is a schematic structural view of a cold chain incubator which can be remotely monitored according to an embodiment of the present invention;

FIG. 2 is a schematic view of the cold chain incubator of the embodiment of the present invention when the incubator is opened;

FIG. 3 is an exploded view of a cold chain incubator in accordance with an embodiment of the present invention;

fig. 4 is a schematic view illustrating the installation of the ice board fixing frame according to the embodiment of the present invention;

FIG. 5 is a schematic diagram of a thermometer mounting according to an embodiment of the present invention;

fig. 6 is a data gateway architecture diagram according to an embodiment of the present invention.

In the figure:

1. an outer case; 2. an outer case cover; 3. a heat preservation box cover; 4. an ice plate fixing frame; 5. a side plate; 6. a base plate; 7. a temperature sensing probe; 8. a temperature recorder; 9. a bar code card; 10. a fixing buckle; 11. stacking the bulges; 12. opening the cover groove; 13. facing the single pasting area; 14. a bar code fixing area; 15. buckling the groove; 16. a placement groove; 17. a trapezoidal groove; 18. a first lock catch; 21. stacking the grooves; 23. embedding a boss; 24. buckling the lug bosses; 29. a second lock catch; 41. an ice plate fixing frame; 51. a first side plate; 52. a second side plate.

Detailed Description

The invention is further described with reference to the following figures and examples.

In the present invention, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings. These terms are used primarily to better describe the invention and its embodiments, and are not intended to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

Fig. 1 is a schematic structural view of a cold chain incubator which can be remotely monitored according to an embodiment of the present invention; FIG. 2 is a schematic view of the cold chain incubator in an embodiment of the present invention when the outer box is opened; fig. 3 is an exploded view of the cold chain incubator of the embodiment of the present invention.

Referring to fig. 1-3, a cold chain incubator capable of remote monitoring according to an embodiment of the present invention includes an outer box and an inner incubator disposed in the outer box, wherein the outer box includes an outer box body 1 and an outer box cover 2 capable of being fastened and sealed; the inner heat-preservation box comprises a heat-preservation box body and a heat-preservation box cover 3, wherein an ice plate fixing frame 4 is arranged at the top in the heat-preservation box body, the edge of the top, extending outwards, of the ice plate fixing frame 4 is placed at the top of the inner wall of the outer box body 1, the heat-preservation box cover 3 is embedded in the outer box cover 2, and when the outer box cover 2 covers the outer box body 1, the heat-preservation box cover 3 covers the ice plate fixing frame 4 to seal the heat-preservation box body; a temperature sensing probe 7 is arranged in the heat-preservation inner box; the temperature sensing probe 7 is connected with a temperature recorder 8, the temperature recorder 8 is connected with a data gateway (not shown), and the data gateway uploads temperature data through a wireless network.

With reference to fig. 2 and fig. 3, in the cold chain incubator of the embodiment of the present invention, an embedded boss 23 matching with the incubator cover 3 is disposed inside the outer casing cover 2, and the incubator cover 3 is disposed in the center of the embedded boss 23; the edge of the inner side of the outer box cover 2 is provided with a buckling boss 24, the top of the outer box body 1 is provided with a buckling groove 15 matched with the buckling boss 24, and the outer box cover 2 and the outer box body 1 are embedded into the buckling groove 15 through the buckling boss 24 to be connected in a sealing manner; the inner side of the top of the outer box 1 is also provided with a placing groove 16 matched with the edge of the top of the ice board fixing frame 4.

Specifically, the heat preservation box body is clamped and connected into a whole by a heat preservation plate, the heat preservation box cover 3 is made of the heat preservation plate, and the heat preservation plate comprises an aluminum plate layer and a PU foaming layer which is formed in an integrated foaming mode and is arranged on the outer side of the aluminum plate layer; the heat insulation box body comprises side plates 5 and a bottom plate 6, wherein each side plate 5 comprises two first side plates 51 and two second side plates 52, the two first side plates 51 are arranged oppositely, the two second side plates 52 are arranged oppositely, insertion bulges are arranged at two ends of each first side plate 51, insertion grooves matched with the insertion bulges are arranged at two ends of each second side plate 52, and the first side plates 51 and the second side plates 52 are sequentially spliced with the insertion grooves through the insertion bulges; the bottom plate 6 is provided with a groove matched with the side plate 5, and the spliced side plate 5 is clamped into the groove of the bottom plate 6 for fixation.

Please refer to fig. 4 at the same time, the embodiment of the present invention provides a cold chain incubator capable of remote monitoring, wherein the bottom of the ice plate fixing frame 4 is hollowed, the inner wall of the ice plate fixing frame 4 is provided with an ice plate fixing frame 41 for fixing the ice plate, and the temperature sensing probe 7 is fixed in the ice plate fixing frame 41 through the fixing buckle 10. In a specific embodiment, the four corners of the ice plate fixing frame 4 are provided with ice plate fixing frames 41, the middle part of the long side of the ice plate fixing frame 4 is provided with the ice plate fixing frame 41, two ice plates can be respectively and vertically fixed on the front side and the rear side of the ice plate fixing frame 4 through the ice plate fixing frames 41, one ice plate can be respectively and vertically fixed on the left side and the right side of the ice plate fixing frame 4, two ice plates can be horizontally fixed on the top of the ice plate fixing frame 41, and the ice plates are respectively arranged on the top surface, the front side, the rear side, the left side and the right side of a stored article, so that the cooling effect is ensured; and meanwhile, the ice board is fixed reliably and cannot be pressed to the goods.

Referring to fig. 5 and 6, in the cold chain incubator capable of remote monitoring of the embodiment of the present invention, the temperature recorder 8 includes a microprocessor, a memory, a bluetooth module and a battery for power supply, and the temperature sensing probe 7 is connected with the temperature recorder 8 to transmit the temperature signal to the temperature recorder 8 for storage; the data gateway comprises a microprocessor, a storage, a Bluetooth module, a communication module and a power supply battery, is connected with the temperature recorder 8 in a Bluetooth mode, and receives and stores temperature data sent by the temperature recorder; the communication module comprises a Lora module, a 4G module and a WIFI module, and the data gateway transmits temperature data to the server through a wireless network.

In a specific embodiment, the temperature recorder 8 automatically records the temperature value detected by the temperature sensing probe 7 at regular time, and when the temperature recorder 8 is in the service range of the data gateway, the temperature data is simultaneously transmitted to the data gateway in response to the instruction of the data gateway. The temperature recorder 8 can transmit temperature records to a network database of the server through the Bluetooth module and the mobile phone APP or the matched data gateway. The temperature recording interval may be set to an interval suitable for the requirements of the usage scenario. The temperature recorder 8 is powered by a disposable battery, ensuring that the device is not recharged and the battery replaced within a preset time. The data gateway is actively connected with/monitors Internet of things equipment such as a temperature recorder or a LORA thermometer and the like, collects relevant temperature data and transmits the relevant temperature data to a server data port through a WIFI or 4G network for storage/processing; and meanwhile, the configuration of the server management port on the Internet of things equipment is updated. The data gateway adopts a 220v power supply for power supply, and a rechargeable battery is embedded in the data gateway to ensure that the data gateway can continuously work for three hours under the condition of power failure.

Preferably, four corners of the bottom of the outer box body 1 are provided with stacking protrusions 11, and four corners of the top of the outer box cover 2 are provided with stacking grooves 21 matched with the stacking protrusions 11. The insulation can be stacked, and is anti-skidding, wear-resistant and long in service life when stacked.

Preferably, both end surfaces of the outer box 1 are provided with first latches 18, both ends of the outer box cover 2 are provided with second latches 29 corresponding to the first latches 18, and when the outer box cover 2 is closed to the outer box 1, the first latches 18 and the second latches 29 can be locked by the lock body. The first lock catch 18 and the second lock catch 29 may be steel wires pre-installed in the outer case 1 and the outer case cover 2, and the lock body may be an intelligent lock with a positioning function.

Preferably, trapezoidal grooves 17 are formed on both end surfaces of the outer case 1, and a holding groove is formed at the top of the trapezoidal groove 17 extending upward. Is convenient for hands to hold and carry.

Preferably, the edges of the outer box body 1 and the outer box cover 2 are smoothly processed, so that the box is safer; the edge of the contact surface of the outer box body 1 and the outer box cover 2 is provided with an uncovering groove 12, which is convenient for opening the outer box cover 2; the front side of outer box 1 is provided with face sola pad pasting 13 and bar code fixed area 14, and face is singly posted the district 13 and is provided with the arch and is convenient for tear the face and singly, and bar code fixed area 14 is fixed with bar code card 9. In one embodiment, the barcode card 9 is made of PVC, the variable barcode is printed on the barcode card 9 by UV, the barcode card 9 is fixed to the barcode fixing area 14 by tapping screws, and the number of the barcode fixing areas 14 may be plural.

Preferably, the ice board fixing frame 4 is made of low temperature resistant food grade polypropylene and can be used in an environment of 20 ℃ below zero. The outer box body 1 and the outer box cover 2 are integrally foamed and molded by EPP materials.

To sum up, in the cold chain incubator capable of remote monitoring of the embodiment of the present invention, a temperature probe is arranged in the incubator to detect the temperature and record the temperature in real time through a temperature recorder 8, and a data gateway is arranged to remotely transmit the temperature recorded by the temperature recorder 8, so as to realize remote monitoring of the temperature; the heat preservation inner box is arranged for heat preservation, the outer box is sealed, the heat preservation effect of the heat preservation box is improved, heat and freeze are prevented, and the sealing performance is good; the heat-insulating inner box is assembled and embedded in the outer box through the heat-insulating plates in a tenon-and-mortise structure, so that the assembly is simple and convenient, and the structure is stable; the heat preservation plate is attached to the PU foaming layer by adopting an aluminum plate, so that the heat preservation effect is good; a fixing frame for fixing the ice plate is arranged in the heat-insulation inner box, so that the ice plate can be fixed conveniently without pressing goods, and meanwhile, the temperature probe can be installed and fixed conveniently; the outer container is provided with the hasp, can be locked by the intelligence lock, the control of the transportation of being convenient for.

Although the present invention has been described with reference to the preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A cold chain insulation can capable of being remotely monitored is characterized by comprising an outer box and an insulation inner box arranged in the outer box, wherein the outer box comprises an outer box body and an outer box cover which can be buckled and connected in a closed mode; the inner heat-preservation box comprises a heat-preservation box body and a heat-preservation box cover, wherein an ice plate fixing frame is arranged at the top in the heat-preservation box body, the top edge of the ice plate fixing frame, which extends outwards, is placed at the top of the inner wall of the outer box body, the heat-preservation box cover is embedded in the outer box cover, and when the outer box cover covers the outer box body, the heat-preservation box cover covers the ice plate fixing frame to seal the heat-preservation box body; a temperature sensing probe is arranged in the heat-preservation inner box; the temperature sensing probe is connected with a temperature recorder, the temperature recorder is connected with a data gateway, and the data gateway uploads temperature data through a wireless network.

2. The remotely monitorable cold chain incubator according to claim 1 and wherein the temperature recorder comprises a microprocessor, a memory, a bluetooth module and a battery for power supply, the temperature sensing probe being connected to the temperature recorder for transmitting the temperature signal to the temperature recorder for storage; the data gateway comprises a microprocessor, a storage, a Bluetooth module, a communication module and a battery for supplying power, the data gateway is connected with the temperature recorder in a Bluetooth mode, and the data gateway receives and stores temperature data sent by the temperature recorder; the communication module comprises a Lora module, a 4G module and a WIFI module, and the data gateway transmits temperature data to the server through a wireless network.

3. The cold chain incubator capable of being remotely monitored according to claim 1, wherein the incubator body is integrally clamped by a heat insulation plate, the incubator cover is made of a heat insulation plate, and the heat insulation plate comprises an aluminum plate layer and a PU foaming layer which is integrally foamed and formed and is arranged on the outer side of the aluminum plate layer; the heat insulation box body comprises side plates and a bottom plate, the side plates comprise two first side plates which are oppositely arranged and two second side plates which are oppositely arranged, insertion bulges are arranged at two ends of each first side plate, insertion grooves which are matched with the insertion bulges are arranged at two ends of each second side plate, and the first side plates and the second side plates are sequentially spliced with the insertion grooves through the insertion bulges; the bottom plate is provided with a groove matched with the side plates, and the spliced side plates are clamped into the groove of the bottom plate to be fixed.

4. The cold chain incubator capable of being remotely monitored according to claim 1, wherein the bottom of the ice board fixing frame is hollow, an ice board fixing frame for fixing the ice boards is arranged on the inner wall of the ice board fixing frame, and the temperature sensing probe is fixed in the ice board fixing frame through a fixing buckle.

5. The remotely monitorable cold chain incubator according to claim 1 and wherein the inner side of the outer enclosure cover is provided with an insert boss which mates with the enclosure cover, the enclosure cover being centrally disposed within the insert boss; the inner side edge of the outer box cover is provided with a buckling boss, the top of the outer box body is provided with a buckling groove matched with the buckling boss, and the outer box cover and the outer box body are embedded into the buckling groove through the buckling boss to be connected in a sealing mode; the inner side of the top of the outer box body is also provided with a placing groove matched with the edge of the top of the ice board fixing frame.

6. The cold chain incubator as claimed in claim 1, wherein the outer box has two ends each provided with a first lock, and the outer box has two ends each provided with a second lock corresponding to the first lock, and the first and second locks are locked by a lock when the outer box is closed to the outer box.

7. The remotely monitorable cold chain incubator according to claim 1 and wherein four corners of the bottom of the outer box are provided with stacking projections and four corners of the top of the outer box cover are provided with stacking recesses matching the stacking projections.

8. The remotely monitorable cold chain incubator according to claim 1 and wherein the outer housing is formed with trapezoidal channels at both ends and the top of the trapezoidal channels extends upwardly to form gripping channels.

9. The remotely monitorable cold chain incubator of claim 1 wherein the edges of the outer box and outer box cover are smoothed; a cover opening groove is formed in the corner of the contact surface of the outer box body and the outer box cover; the front side of the outer box body is provided with a surface single-sheet sticking area and a bar code fixing area.

10. The remotely monitorable cold chain incubator according to claim 1 and wherein the ice board holding frame is made of low temperature resistant food grade polypropylene; the outer box body and the outer box cover are both integrally formed by foaming EPP materials.

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