Refrigerating device, refrigerating box and refrigerating system
A technology for refrigeration devices and refrigerators, which is applied in the direction of household refrigeration devices, refrigerators, refrigeration components, etc., which can solve the problems of heavy refrigeration units, heavy refrigeration equipment, and inconvenient transportation, so as to achieve good refrigeration effect, improve refrigeration effect, Flexible effects
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Embodiment 1
[0018] Please refer to figure 1 , the embodiment of the present invention provides a refrigeration device, including: a housing 101, the housing 101 is used to accommodate a brine 102, the housing 101 is provided with a liquid inlet 103 and a liquid outlet 104, the The brine 102 can flow into the casing 101 through the liquid inlet 103 and flow out of the casing 101 through the liquid outlet 104; the cold storage element 105 is arranged in the casing 101, and Coolant 106 is contained in the cold storage element 105, and the cold storage element 105 is used to contact with the brine 102 to realize heat exchange.
[0019] In the refrigeration device in this embodiment, when in use, the liquid inlet 103 and the liquid outlet 104 can be connected to the brine circulation pipeline, so that the low-temperature brine 102 flows into the container from the liquid inlet 103, and flows from the outlet The liquid port 104 flows out of the container, so that the cold storage part 105 can ...
Embodiment 2
[0021] On the basis of Embodiment 1, the cold storage element 105 is a spherical element. Thus, one or more spherical pieces can be placed in the shell 101, which is beneficial to increase the contact surface between the cold storage piece 105 and the brine 102, and improve the heat exchange efficiency.
[0022] In this embodiment, preferably, the refrigerating device further includes a mesh bag 107, and there are multiple cold storage elements 105, and the plurality of cold storage elements 105 are installed in the mesh bag 107, and the mesh bag 107 is located in the shell. In the body 101 , the brine 102 can flow into the net bag 107 and contact with the cold storage element 105 . Thus, it is beneficial to increase the contact surface between the cold storage element 105 and the brine 102, and improve the heat exchange efficiency. In addition, the net bag 107 can limit the plurality of cold storage components 105 , so that the plurality of cool storage components 105 can be...
Embodiment 3
[0024] On the basis of the first embodiment, the cold storage element 105 is a cylinder, and the side surface of the cold storage element 105 can be in contact with the brine 102 . Therefore, it is beneficial to increase the contact surface between the cold storage element 105 and the brine 102, and improve the heat exchange efficiency.
[0025] In this embodiment, preferably, the casing 101 is also a cylinder, the diameter of the cool storage element 105 is smaller than that of the casing 101 , and the cool storage element 105 is arranged coaxially with the casing 101 . Thus, when the brine 102 is contained in the casing 101, the cool storage element 105 can be immersed in the brine 102 and surrounded by the brine 102, thereby increasing the contact surface contact between the cool storage element 105 and the brine 102. , improve heat exchange efficiency.
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