The present invention relates to a refrigerated logistics box, and more particularly to a refrigerated logistics box comprising a box that is configured with a plurality of thermal insulating layers and temperature equalization plates. A cooling liquid is caused to cool enter the interior of the box to maintain a cold temperature therein for a period of time, or a refrigeration device provides the box with a cold source, which continuously transmits cold into the interior of the box, thereby maintaining the temperature set for the interior of the box and lowering the temperature of goods placed inside, while maintaining a cold temperature in the interior of the box. The present invention is distinct from high cost, high fuel consumption, and large sized refrigeration equipped logistics vehicles. The box maintains goods placed inside at a constant temperature; moreover, the required battery is small in size due to its low power consumption, convenient, and of low cost, and is, thus, suitable for carrying by general trucks and motor vehicles.
It is well known that logistics services providers deliver goods from a consignor to the residence of the consignee; and is currently one of the essential prerequisites for developing and prevailing online shopping operators. However, because logistics services providers must quickly deliver the goods to the designated place, with all manner of goods being delivered, including goods requiring cold storage, such as fresh products, ice products, frozen food products, and the like. Hence, normally, the logistics services provider adopts two models for delivering goods requiring cold storage, one is to use a logistics vehicle fitted with refrigerating equipment, which is able to cold store fresh products, ice products, frozen food products, and the like, at a low temperature for a relatively long period of time. Nonetheless, cost expenditure is relatively large and the vehicle is large in size (a logistics vehicle fitted with refrigerating equipment is equipped with a compressor, which requires a large power expenditure with a power source coming from an electric generator that derives its power from running an internal combustion engine, and running the internal combustion engine requires the consumption of gasoline). The other model uses a low temperature insulation box, which for a short period of time provides a low temperature for goods requiring cold storage. However, the low temperature insulation box has no power source to maintain a low temperature and relies on thermal insulating layers to separate the interior of the low temperature insulation box from the outside temperature. Hence, the low temperature insulation box is only able to maintain a low temperature for a short period of time, thus, both its thermal insulation and period of effectiveness are limited, with numerous drawbacks occurring because of this, such as cold storage goods regularly thawing or spoiling.
Traditional logistics services providers are currently unable to make a breakthrough in the cold storage equipment delivery period, being hindered by the fact that cold storage equipment is only available in high cost logistics vehicle provided with refrigerating equipment. And a low temperature insulation box can only be used to deliver goods over short periods of time, and thus a cause for worry for both consumers and logistics services providers alike.
Accordingly, a refrigerated logistics box of the present invention comprises:
a box for logistics use, which is provided with a cold storage space and a cover, wherein the box is configured with a plurality of thermal insulating layers and temperature equalization plates; the box is separated from outside-in into an outer thermal insulating layer, a plurality of vacuum plates, an inner thermal insulating layer, an inner wall plate, and a plurality of temperature equalization plates; a cooling space is provided between the inner wall plate and the temperature equalization plates, and an inner space surrounded by the temperature equalization plates is a cold storage space; and
a return outlet flow pipe and a return inlet flow pipe, which respectively channel cooling liquid out of and into the cooling space.
Accordingly. a cooling liquid is channeled into the cooling space from the return inlet flow pipe, causing the cold storage space of the box to lower in temperature. When the temperature of the cold storage space rises, the original cooling liquid is channeled out from the return outlet flow pipe, whereupon newly cooled liquid is again channeled into the cooling space from the return inlet flow pipe.
The primary object of the present invention lies in providing the box configured with the plurality of thermal insulating layers and temperature equalization plates to enable a cooling liquid to enter the inside of the box and maintain a cold temperature therein for a period of time.
A second object of the present invention lies in providing a refrigeration device connected to the logistics box, which enables lowering the temperature of goods placed inside while maintaining a cold temperature, and is distinct from high cost, high fuel consumption, and large sized refrigerating equipment logistics vehicles, as well as being distinct from cold storage logistics boxes that are only able to provide temporary thermal insulation.
A third objective of the present invention lies in providing the refrigeration device with the function to maintain continuous temperature control, thereby maintaining goods placed inside the box at a constant temperature; moreover, the required battery is small in size due to its low power consumption, as well as being convenient and low in cost, thus suitable for carrying by general trucks and motor vehicles.
To enable a further understanding of said objectives and the technological methods of the invention herein, a brief description of the drawings is provided below followed by a detailed description of the preferred embodiments.
Referring to
According to the above-described structural assembly, the first embodiment of the present invention channels a cooling liquid into the cooling space 18 from the return inlet flow pipe 241, and after completing filling the cooling space 18 with the cooling liquid, extremities of the return outlet flow pipe 242 and the return inlet flow pipe 241 are respectively sealed (using stopper ends for example), thereby causing the cold storage space 11 of the box 10 to lower in temperature, which enables preserving goods stored inside the cold storage space 11 at a low temperature for a period of time. When the temperature of the cold storage space 11 rises, the original cooling liquid is channeled out from the return outlet flow pipe 242, whereupon newly cooled liquid is again channeled into the cooling space 18 from the return inlet flow pipe 241, which again lowers the temperature of the cold storage space 11. Through such a repeated cooling process, the box 10 is provided with logistics use for over a short distance.
Referring to
According to the above-described structural assembly, in the second embodiment of the present invention shown in
The second embodiment of the present invention uses the refrigeration device 20 connected to the logistics box 10 to lower the temperature of goods placed therein and maintain a cold temperature. The present invention is distinct from high cost, high fuel consumption, and large sized refrigeration equipped logistics vehicles, and is also distinct from cold storage logistics boxes that are only able to provide temporary thermal insulation. The present invention is capable of continuous temperature control and enables maintaining constant temperature of goods. Moreover, the present invention has low power consumption, and can be produced in various size dimensions according to operator requirements, thereby enabling the refrigerated logistics box 10 to be carried on a motorcycle, or a plurality of the refrigerated logistics boxes 10 can be carried in a general truck, thus eliminating having to use high cost logistics vehicles with refrigerating equipment, as well as eliminating worry that the goods will spoil. In addition, because of its low power consumption, the required battery is small in size, and thus can be easily carried by a motorcycle or a truck. Hence, the present invention is convenient and is of low cost, and is also provided with a substantive improved utility function. In addition, the positive and negative poles of the power supply for the refrigeration chip 22 can be interchanged to function as a heating device to maintain the temperature required for thermal insulated food products, while ensuring the temperature will not drop. Accordingly, the present invention can be transformed to produce the required temperature function.
It is of course to be understood that the embodiments described herein are merely illustrative of the principles of the invention and that a wide variety of modifications thereto may be effected by persons skilled in the art without departing from the spirit and scope of the invention as set forth in the following claims.
Number | Date | Country | Kind |
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108206642 | May 2019 | TW | national |
Number | Name | Date | Kind |
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4320626 | Donnelly | Mar 1982 | A |
5653111 | Attey | Aug 1997 | A |
20200216254 | Tanabe | Jul 2020 | A1 |
20200373638 | Lee | Nov 2020 | A1 |
Number | Date | Country |
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209871312 | Apr 2019 | CN |
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CN209871312U translation. |
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20200378674 A1 | Dec 2020 | US |