KR102488190B1 - Refrigerating system - Google Patents

Abstract

The present invention provides a refrigerating system including an ice making cabinet, a refrigerating/freezing device, a refrigerating device, and at least one cooling storage module, wherein the refrigerating device is in communication with at least one of the ice making cabinet and the refrigerating/freezing device so as to make the ice performing cooling on at least one of a cabinet and the refrigerating/freezing appliance; The refrigerating/freezing appliance includes at least one movable refrigerating/freezing unit, the refrigerating/freezing unit refrigerating/freezing items; The cold storage module is detachably installed in the ice making cabinet or the refrigerating/freezing unit. The present invention can transport items using room temperature vehicles, and significantly reduces shipping costs.

Description

Refrigeration system {REFRIGERATING SYSTEM}

The present invention relates to the technical field of refrigeration equipment, and more particularly to refrigeration systems.

With the rapid development of e-commerce, the field of logistics is rapidly rising, and speed and stability are the most basic requirements for the field of logistics. Cold chain logistics is a more specialized logistics field, and the transported goods must be stored at 0 ° C to 5 ° C or -10 ° C to -18 ° C.

In the prior art, refrigerated/freezing vehicles are generally used to transport items requiring refrigerated or frozen storage, such as transport of frozen foods, dairy products, vegetables, fruits, vaccines, and the like. In a common refrigerating/freezing vehicle, there are members such as a refrigerating device, an insulated container (usually composed of polyurethane material, glass fiber reinforced plastic (FRP), colored steel sheet, stainless steel, etc.), and a temperature gauge in the vehicle container. is fitted The insulated container of a refrigerated/frozen vehicle should be sealed to reduce heat exchange between the inside and the outside world, and the temperature gauge in the vehicle container measures and displays the temperature inside the vehicle container in real time, and the refrigerant facility communicates with the insulated container to continuously refrigerate. By providing, it is ensured that the inside of the thermal container in which the article is stored maintains a lower temperature.

However, the above method requires transportation in a refrigerated/refrigerated vehicle equipped with an insulated container, and the transportation cost is higher.

In order to solve at least one problem mentioned in the background art, the present invention provides a cooling system capable of significantly reducing shipping costs by allowing articles to be transported in a room temperature vehicle.

In order to realize the above object, the present invention provides a refrigeration system including an ice cabinet, a refrigerating/freezing device, a refrigerating device, and at least one cooling module, wherein the refrigerating device is selected from among the ice making cabinet and the refrigerating/freezing device. communicates with at least one to perform cooling on at least one of the ice-making cabinet and the refrigerating/freezing appliance; The refrigerating/freezing appliance includes at least one movable refrigerating/freezing unit, the refrigerating/freezing unit refrigerating/freezing items.

The cold storage module is detachably installed in the ice making cabinet or the refrigerating/freezing unit.

In the above cooling system, optionally, a port is installed on the cooling storage module to communicate both the inside and the outside of the cooling storage module; When the cooling storage module is installed in the ice storage cabinet, a port of the cooling storage module communicates with the ice cabinet through a pipe, and a refrigerant for cooling the cooling storage module flows in the pipe.

When the cold storage module is installed in the refrigerating/freezing unit, the cold storage module cools the refrigerating/freezing unit.

In the aforementioned cooling system, optionally, when the cooling storage module is disposed in the refrigerating/freezing unit, a port of the cooling storage module is sealed.

In the above cooling system, optionally, a mounting frame is installed in the ice making cabinet, and the cooling storage module is detachably installed in the mounting frame.

In the above system, optionally, the refrigerating/freezing unit includes a refrigerating/freezing keeping box, a cooling tube is installed on an inner wall of a box body of the refrigerating/refrigerating keeping keeping box, and the cooling storage module is detachably attached to the shaft. It is installed in the cold box.

In the above-described system, optionally, the cooling storage module includes an external cassette and an internal cassette installed inside the external cassette, wherein a refrigerant for cooling is accommodated in the internal cassette; The refrigerant is accommodated in a gap between the outer cassette and the inner cassette.

The port includes a liquid inlet and a liquid outlet provided on the outer cassette, and the liquid inlet introduces the refrigerant into the gap so that the refrigerant and the inner cassette perform heat exchange, and the liquid outlet performs heat exchange. and allows the refrigerant to flow out of the outer cassette.

In the above system, optionally, quick couplers are installed at one end close to the liquid inlet in the piping and at one end close to the liquid outlet in the piping.

In the above system, optionally, the cooling module further includes a ventilation pipe; A gas inlet and a gas outlet are installed on the external cassette, and the ventilation pipe is installed through the inside of the cooling module; Both ends of the ventilation pipe communicate with the gas inlet and the gas outlet, respectively; the gas inlet is for providing a cooling air flow into the ventilation piping; The gas outlet is for outflow of the heat-exchanged cooling airflow.

In the above system, optionally, the refrigerating/freezing unit further includes an intermediate module communicating with the refrigerating/freezing keeping box; The intermediate module includes an evaporator and a first blower and a second blower installed at both ends of the evaporator, respectively, the evaporator communicates with the cooling facility, and the evaporator transmits wind sucked by the first blower and the cooling facility. By heat-exchanging the refrigerant introduced from the refrigerant, the second blower supplies the heat-exchanged wind to the inside of the refrigerating/freezing keeping box.

In the above system, optionally, the cooling device includes a first cooling host and a second cooling host communicating with the first cooling host; The first refrigerant host includes a compressor and a condenser communicating with the compressor, wherein the compressor compresses the refrigerant in a gaseous state and supplies the refrigerant in a gaseous state to the condenser, and the condenser releases heat from the refrigerant in a gaseous state to form a liquid state. to be converted into a refrigerant of

The second cooling host includes a heat exchanger and a water tank for storing a refrigerant, one end of the heat exchanger communicates with the condenser, and the other end of the heat exchanger communicates with the water tank, and the heat exchanger communicates with the liquid Heat is exchanged between the refrigerant in the state and the refrigerant in the water tank.

According to the cooling system of the present invention, the cooling system includes an ice-making cabinet, a refrigerating/freezing mechanism, a cooling device, and at least one cooling storage module, wherein the cooling device communicates with at least one of the ice-making cabinet and the refrigerating/freezing mechanism. and performs cooling on at least one of the ice-making cabinet and the refrigerating/freezing device. The refrigerating/freezing appliance includes at least one movable refrigerating/freezing unit, the refrigerating/freezing unit refrigerates/freezes products, and the cold storage module is detachably installed in the ice making cabinet or the refrigerating/freezing unit. do.

During the non-transportation process, the refrigerating device, the ice cabinet, and the refrigerating/freezing appliance are simultaneously communicated, and the cold storage module is installed in the ice cabinet, thereby realizing refrigeration for the cold storage module in the ice cabinet and cooling for items within the refrigerating/freezing appliance. there is. In the course of transportation, the refrigerating/frozen warming box is separated from the refrigerating/freezing mechanism, the refrigerating/frozen warming box is mounted on the transport vehicle, and then the cold storage module is installed in the cold storage box of the refrigerating/frozen warming box, thereby refrigerating during transportation. / It is possible to implement refrigeration / freezing for items in a frozen warming box. Therefore, the present invention can transport items through a room temperature vehicle, maximally reducing delivery costs.

The structure of the present invention and other objects and advantageous effects of the present invention will be more clearly understood through preferred embodiments described with reference to the drawings.

In order to more clearly describe the technical solutions according to the embodiments of the present invention or the prior art, the following briefly introduces drawings necessary for explaining the embodiments or the prior art. The drawings described below are only some embodiments of the present invention, and it is obvious that a person skilled in the art can obtain other drawings based on these drawings without inventive efforts.
1 is a diagram showing a structure of a cooling system according to an embodiment of the present invention.
2 is a view showing another structure of a cooling system according to an embodiment of the present invention.
3 is a diagram showing the structure of a first cooling host of a cooling apparatus of a cooling system according to an embodiment of the present invention.
4 is a diagram showing the structure of a second cooling host of a cooling apparatus of a cooling system according to an embodiment of the present invention.
5 is a diagram showing the structure of an ice-making cabinet of a cooling system according to an embodiment of the present invention.
6 is a diagram showing the structure of a cooling storage module of a cooling system according to an embodiment of the present invention.
7 is a diagram showing the structure of a refrigerating/freezing mechanism of a cooling system according to an embodiment of the present invention.
8 is a diagram showing the structure of an intermediate module of a refrigerating/freezing mechanism of a cooling system according to an embodiment of the present invention.

In order to make the objects, technical solutions and advantages of the present invention clearer, the following describes the technical solutions according to the embodiments of the present invention in more detail by combining the drawings according to the preferred embodiments of the present invention. The same or similar reference numbers in the drawings indicate the same or similar elements or elements having the same or similar functions throughout the various aspects. The described embodiments are only some embodiments of the present invention, not all embodiments. The embodiments described below with reference to the drawings are illustrative and are intended to interpret the present invention, and should not be construed as limiting the present invention. On the basis of the embodiments of the present invention, all other embodiments obtained by those skilled in the art without inventive labor shall fall within the protection scope of the present invention. Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

In the description of the present invention, specifically described, the terms "mounting", "connecting to each other", and "connection" should be understood in a wide range, unless there is a separate clear definition and limitation, for example, a fixed connection It may be an indirect connection through an intermediate medium, internal communication between two elements, or an interactive relationship between two elements. A person skilled in the art may understand the specific meaning of the above-mentioned terms in the present invention according to specific circumstances.

1 is a diagram showing a structure of a cooling system according to an embodiment of the present invention. 2 is a view showing another structure of a cooling system according to an embodiment of the present invention. 3 is a diagram showing the structure of a first cooling host of a cooling apparatus of a cooling system according to an embodiment of the present invention. 4 is a diagram showing the structure of the second cooling host of the cooling system of the cooling system according to the embodiment of the present invention. 5 is a diagram showing the structure of an ice-making cabinet of a cooling system according to an embodiment of the present invention. 6 is a diagram showing the structure of a cooling storage module of a cooling system according to an embodiment of the present invention. 7 is a diagram showing the structure of a refrigerating/freezing mechanism of a cooling system according to an embodiment of the present invention. 8 is a diagram showing the structure of an intermediate module of a refrigerating/freezing mechanism of a cooling system according to an embodiment of the present invention.

1 and 2, an embodiment of the present invention provides a cooling system 100, which includes an ice cabinet 2, a refrigerating / freezing appliance 3, and a cooling device 1 and at least one cold storage module 4, wherein the refrigerating device 1 is in communication with at least one of the ice making cabinet 2 and the refrigerating/freezing mechanism 3, so that the ice cabinet 2 and the refrigerating/freezing mechanism ( At least one of 3) is refrigerated.

For example, the refrigerating device 1 communicates only with the ice-making cabinet 2, can perform refrigeration for the ice-making cabinet 2, and communicates only with the refrigerating/freezing mechanism 3, so that the refrigerating/freezing mechanism 3 ), it is also possible to communicate with the ice cabinet 2 and the refrigerating/freezing mechanism 3 at the same time, and perform cooling for the ice cabinet 2 and the refrigerating/freezing mechanism 3 at the same time. Do.

The cooling apparatus 1 includes a first cooling host 11 and a second cooling host 12 communicating with the first cooling host 11 . Here, as shown in FIG. 3, the first refrigerant host 11 includes a compressor 111 and a condenser 112 communicating with the compressor 111, and the compressor 111 compresses the refrigerant in a gaseous state. and supplied to the condenser 112, and the condenser 112 releases heat from the gaseous refrigerant to be converted into a liquid refrigerant.

As shown in FIG. 4, the second cooling host 12 includes a heat exchanger 121 and a water tank 122 for storing refrigerant, but one end of the heat exchanger 121 communicates with the condenser 112. The other end of the heat exchanger 121 communicates with the water tank 122, and the heat exchanger 121 allows the liquid refrigerant and the refrigerant in the water tank 122 to exchange heat.

As one selectable embodiment, a pump 123 may be further installed on the second cooling host 12, and a pipe and / Alternatively, rapid cooling of the ice making cabinet 2 and the refrigerating/freezing mechanism 3 may be implemented by pumping through a pipe that communicates the refrigerating device 1 and the refrigerating/freezing device 3 .

In this embodiment, as shown in FIG. 5, the mounting frame 22 may be installed in the ice making cabinet 2, and the cooling storage module 4 is detachably installed in the mounting frame 22. At this time, the cold storage module 4 and the ice making cabinet 2 communicate with each other through a pipe 21, and a refrigerant for cooling the cold storage module 4 flows in the pipe 21.

As one selectable embodiment, the pipe 21 may be a plate-shaped pipe, and the plate-shaped pipe is installed to correspond to the cold storage module 4 to perform cooling on the cold storage module 4 . Since a heat sink forming a plurality of staggered ducts may be installed in the plate-shaped tube, higher cooling efficiency may be obtained when the refrigerant flows into the plate-shaped tube.

In this embodiment, as shown in FIG. 6, a port 41 is installed on the cold storage module 4 to communicate both the inside and outside of the cold storage module 4. When the cold storage module 4 is installed in the ice-making cabinet 2, the port 41 of the cold storage module 4 and the ice-making cabinet 2 communicate with each other through a pipe 21, and the cold storage module 4 is in communication with the ice-making cabinet 2. A refrigerant for cooling the module 4 flows.

Continuing to refer to FIG. 6 , the cooling storage module 4 includes an external cassette 42 and an internal cassette 43 installed inside the external cassette 42, and performs cooling inside the internal cassette 43. The coolant is accommodated, and the refrigerant is accommodated in the gap 44 between the outer cassette 42 and the inner cassette 43. The inner cassette 43 is immersed in the refrigerant, and the refrigerant absorbs heat of the refrigerant through the housing of the inner cassette 43 to perform cooling of the refrigerant inside the inner cassette 43, so that the refrigerant has a longer life. It is possible to maintain a low-temperature environment within a small range of itself and surroundings for a period of time.

As one optional embodiment, the inner cassette 43 and the outer cassette 42 are detachably connected. Accordingly, first, the internal cassette 43 is taken out and put into other cooling facilities to be pre-cooled, and then, when it is necessary to use, the pre-cooled internal cassette 43 is loaded into the external cassette 42 and the internal cassette 43 is passed through the refrigerant. ), the cooling time of the inner cassette 43 can be shortened.

Specifically, the port 41 communicating both the inside and outside of the cooling storage module 4 includes a liquid inlet 411 and a liquid outlet 412 installed on the external cassette 42, but the liquid inlet 411 is the refrigerant in the gap. 44, so that the refrigerant and the inner cassette 43 perform heat exchange, and the liquid outlet 412 is for expelling the heat-exchanged refrigerant from the outer cassette 42.

Therefore, when the cooling storage module 4 is installed in the ice cabinet 2, the low-temperature refrigerant flows into the gap 44 between the outer cassette 42 and the inner cassette 43 through the liquid inlet 411, and the liquid It flows out from the outer cassette 42 through the outlet 412, so that the inner cassette 43 can be refrigerated.

When the cold storage module 4 is installed in the refrigerating/freezing keeping box 311, since the refrigerating/freezing is accommodated in the internal cassette 43 of the cold storage module 4, the inside of the refrigerating/freezing keeping keeping box 311 It is possible to implement cooling of the article, and since the refrigerant can maintain a low-temperature environment within a small range of itself and its surroundings for a longer time, the cooling effect can be improved by extending the cooling time.

In this embodiment, the cooling module 4 may further include a ventilation pipe 45, a gas inlet 451 and a gas outlet 452 are installed on the external cassette 42, and the ventilation pipe 45 ) is installed through the cooling module 4, and both ends of the ventilation pipe 45 communicate with the gas inlet 451 and the gas outlet 452, respectively. Here, the gas inlet 451 is for supplying a cooling airflow into the ventilation pipe 45, and the gas outlet 452 is for flowing out the heat-exchanged cooling airflow.

Meanwhile, referring to FIGS. 5 and 6, a quick coupler 211 is installed at one end close to the liquid inlet 411 and one end close to the liquid outlet 412 in the pipe 21, so that the pipe 21 and the cooling module It is possible to quickly connect and disconnect between the ports 41 of (4). In other words, the cold storage module 4 communicates with the ice making cabinet 2 through the quick coupler 211, and the cold storage module 4 can be easily moved.

Specifically, the quick coupler refers to a coupler capable of connecting or disconnecting pipes without tools. Illustratively, the quick coupler 211 according to the embodiment of the present invention may be a quick coupler for air, a quick coupler for liquid, and the like. Embodiments of the present invention are not limited to a specific type of the quick coupler 211, nor are they limited by the above examples.

In this embodiment, as shown in Fig. 7, the refrigerating/freezing appliance 3 includes at least one movable refrigerating/freezing unit 31, which refrigerating/freezing items. let it Specifically, the refrigerating/freezing mechanism 3 may be formed by detachably connecting a plurality of refrigerating/freezing units 31 . Accordingly, the user can select the quantity of refrigerating/freezing units 31 provided in the refrigerating/freezing appliance 3 according to actual demand, and refrigerating/freezing by combining different quantities of refrigerating/freezing units 31. The mechanism 3 can be made to have different sizes and shapes, and the operation is flexible and the use is convenient.

In addition, when the refrigerating/freezing appliance 3 includes two or more refrigerating/freezing units 31, different types of items can be classified and stored in different refrigerating/freezing units 31, so that the user It is convenient to find necessary items, and the convenience of use of the refrigerating/freezing appliance 3 is improved.

In this embodiment, the refrigerating / freezing unit 31 may include a refrigerating / freezing warming box 311, and the refrigerating / freezing warming box 311 is detachably installed in the refrigerating / freezing unit 31, A cold storage tube (not shown) may be installed on the inner wall of the box body of the refrigeration/freezing keeping box 311, and the cold storage module 4 is detachably installed inside the cooling tube. By detachably installing the cold storage module 4 in the cold storage cylinder, the cold storage module 4 can be moved easily.

Here, when the cold storage module 4 is installed in the refrigerating/freezing keeping box 311, the cooling storage module 4 cools the refrigerating/freezing keeping box 311.

When the cold storage module 4 is placed in the refrigeration/freezing box 311, the port 401 of the cold storage module 4 is in a sealed state, and the refrigerant flowing inside the cold storage module 4 passes through the port 401. It can be understood that it is prevented from entering the refrigerating / freezing warming box 311 through the.

Specifically, the cold storage container may be installed on the bottom of the box body of the refrigerating/freezing warming box 311, or may be installed on the side wall of the box main body of the refrigerating/freezing warming box 311. ) may be installed on the box lid. In addition to the above-described solution, a cold storage container may be installed on at least two of the bottom of the box body, the side wall of the box body and the box cover of the refrigeration/freezing keeping box 311, and at least one cooling storage module (4) is installed inside each cold storage box. ) can be placed.

As one selectable embodiment, the refrigeration/freezing keeping box 311 may be an insulated box body, in which the refrigerant in the cold storage module 4 exchanges heat with the outside of the refrigeration/freezing keeping box 311. By preventing this, it is possible to secure a refrigerating effect for the articles in the refrigerating/freezing keeping box 311.

In this embodiment, at least one cooling module 4 is detachably installed in the ice cabinet 2 or the refrigerating/freezing unit 31, and includes, but is not limited to, the following two implementations.

As one possible implementation method, at least one cooling module 4 is detachably installed in the refrigerating/freezing keeping box 311, and, for example, in a non-transportation process, the refrigerating device 1 is each ice-making cabinet 2 ) and the refrigerating/frozen warming box 311, and items requiring refrigeration/freezing are stored in the refrigerating/frozen warming box 311, and the refrigerating device 1 is an item in the refrigerating/freezing warming box 311. Refrigeration can be performed on At this time, since the cooling module 4 is installed in the ice-making cabinet 2 and the cooling device 1 and the ice-making cabinet 2 are in communication, the cooling device 1 simultaneously operates the cooling module 4 in the ice-making cabinet 2. ) can also be refrigerated.

As another possible implementation method, at least one cold storage module 4 is detachably installed in the refrigerating/freezing keeping box 311, and, for example, during transportation, the cooling storage module 4 in the ice cabinet 2 is taken out, installed in the refrigerated/frozen warming box 311, and the refrigerated/frozen warming box 311 containing the goods is transported using a transportation vehicle. Since the cold storage module 4 can perform refrigeration/freezing of the items in the refrigerated/frozen warming box 311, the refrigerated/frozen warming box 311 can be transported using a room temperature vehicle, and therefore, maximum delivery is possible. Cut costs.

Specifically, the different implementation modes described above may refer to different usage scenarios of the cooling system 100, and the cooling system 100 has correspondingly different implementation modes according to different scenarios (non-transportation process or transportation process). By selecting, a corresponding cooling effect can be realized.

In this embodiment, the number of cold storage modules 4 may be one, two or plural, and the present invention is not limited to a specific number of cold storage modules 4 .

As one selectable embodiment, there are a plurality of cold storage modules 4, and the cold storage modules 4 are detachably mounted inside each refrigerating/freezing keeping box 311. In use, the cold storage module 4 is taken out from the inside of the refrigerating/freezing keeping box 311, put into the ice cabinet 2, and ice making cabinet 2 is cooled through the cooling device 1, so that the cold storage module ( 4) can reach the set temperature, and the set temperature of the cold storage module 4 can be determined according to the refrigerating/freezing temperature required for the items stored in the refrigerating/freezing keeping box 311, respectively, and then The arrived cold storage module 4 is loaded into the corresponding refrigerating/freezing keeping box 311 so that the cooling storage module 4 can perform cooling in the closed space in the refrigerating/freezing keeping box 311, Accordingly, since the plurality of refrigerating/freezing warming boxes 311 have different refrigerating/freezing temperatures, the user puts items requiring refrigerating/freezing in the refrigerating/freezing warming boxes 311 having corresponding refrigerating/freezing temperatures and refrigerates them. / By freezing, the refrigerating/freezing effect of the article in the refrigerating/freezing keeping box 311 is improved.

As shown in FIG. 8, the refrigerating/freezing unit 31 further includes an intermediate module 312 communicating with the refrigerating/freezing keeping box 311; The intermediate module 312 includes an evaporator 3121 and a first blower 3122 and a second blower 3123 installed at both ends of the evaporator 3121, respectively, and the evaporator 3121 communicates with the refrigerating device 1, The evaporator 3121 heat-exchanges the wind sucked in by the first blower 3122 with the refrigerant introduced from the refrigerating device 1, and the second blower 3123 transfers the heat-exchanged wind to the refrigerating/freezing keeping box 311. to be provided with

Meanwhile, a universal wheel (not shown) may be installed at the bottom of the refrigerating/freezing box 311 . Accordingly, the movement of the refrigerating/freezing box 311 becomes convenient.

According to the cooling system of an embodiment of the present invention, the cooling system includes an ice-making cabinet, a refrigerating/freezing mechanism, a refrigerating device, and at least one cooling storage module, wherein the cooling device communicates with at least one of the ice-making cabinet and the refrigerating/freezing mechanism. , performing cooling on at least one of an ice-making cabinet and a refrigerating/freezing appliance. The refrigerating/freezing appliance includes at least one movable refrigerating/freezing unit, the refrigerating/freezing unit refrigerating/freezing items, and the refrigerating storage module detachably installed in the ice cabinet or the refrigerating/freezing unit.

During the non-transportation process, the refrigerating device, the ice cabinet, and the refrigerating/freezing appliance are simultaneously communicated, and the cold storage module is installed in the ice cabinet, thereby realizing refrigeration for the cold storage module in the ice cabinet and cooling for items within the refrigerating/freezing appliance. there is. In the course of transportation, the refrigerating/frozen warming box is separated from the refrigerating/freezing mechanism, the refrigerating/frozen warming box is mounted on the transport vehicle, and then the cold storage module is installed in the cold storage box of the refrigerating/frozen warming box, thereby refrigerating during transportation. / It is possible to implement refrigeration / freezing for items in a frozen warming box. Therefore, the present invention can transport items through a room temperature vehicle, maximally reducing delivery costs.

In the description of the present invention, terms such as "upper", "lower", "front", "back", "vertical", "horizontal", "above", "below", "inside", "outside" indicate The orientation or positional relationship is an orientation or positional relationship based on the drawings, and is intended to easily explain the present invention and simplify the description, and indicates or implies that the device or element must be configured and operated in a specific orientation or specific orientation. Since it should be understood that it does not, it should not be understood as limiting to the present invention. In the description of the present invention, "plurality" represents two or more than one unless otherwise clearly specified.

The terms "first", "second", "third", "fourth", etc. (if present) in the specification and claims of the present application and the above drawings are for distinguishing similar objects, and in a specific order. or need not indicate the order of precedence or precedence. The data so used may be used interchangeably where appropriate so that the embodiments of the present application described herein may, for example, be practiced in an order other than as shown or described herein. On the other hand, the terms “comprising,” “comprising,” and any variations thereof are intended to cover a non-exclusive inclusion, for example, a process, method, system, product, or device comprising a series of steps or units It may include other steps or units not explicitly listed or inherent to such process, method, product, or apparatus without needing to be limited to those explicitly listed steps or units.

Finally, the various embodiments described above are only for explaining the technical solutions of the present invention, but not limiting thereto; Although the present invention has been described in detail with reference to the various embodiments described above, those skilled in the art may still modify the technical solutions described in the various embodiments described above, or modify some or all of the technical features. It should be understood that equivalent substitutions may be made for the same, and the nature of the technical solutions corresponding to these modifications or substitutions does not deviate from the scope of the technical solutions according to various embodiments of the present invention.

100: cooling system 1: cooling system
11: first cooling host 111: compressor
112: condenser 12: second cooling host
121: heat exchanger 122: water tank
123: pump 2: ice cabinet
21: pipe 211: quick coupler
22: mounting frame 3: refrigerating / freezing appliance
31: refrigeration/freezing unit 311: refrigeration/freezing warming box
312: intermediate module 3121: evaporator
3122: first blower 3123: second blower
4: cooling module 41: port
411: liquid inlet 412: liquid outlet
42: external cassette 43: internal cassette
44: gap 45: ventilation piping
451: gas inlet 452: gas outlet

Claims (10)

In the cooling system,
An ice-making cabinet, a refrigerating/freezing device, a refrigerating device, and at least one cooling storage module, wherein the refrigerating device communicates with at least one of the ice-making cabinet and the refrigerating/freezing device, and performing cooling on at least one; The refrigerating/freezing appliance includes at least one movable refrigerating/freezing unit, the refrigerating/freezing unit refrigerating/freezing items;
The cooling module is detachably installed in the ice making cabinet or the refrigerating/freezing unit,
A port is installed on the cold storage module to communicate both inside and outside of the cold storage module; When the cooling storage module is installed in the ice storage module, a port of the cooling storage module communicates with the ice cabinet through a pipe, and a refrigerant for cooling the cooling storage module flows in the pipe;
The cooling system, characterized in that, when the cooling storage module is installed in the refrigerating/freezing unit, the cooling storage module cools the refrigerating/freezing unit. delete According to claim 1,
The cooling system, characterized in that, when the cooling storage module is disposed in the refrigerating/freezing unit, a port of the cooling storage module is in a sealed state. According to claim 1,
A cooling system, characterized in that a mounting frame is installed in the ice-making cabinet, and the cooling storage module is detachably installed in the mounting frame. According to claim 1,
The refrigerating/freezing unit includes a refrigerating/freezing warming box, a cold storage box is installed on an inner wall of a box body of the refrigerating/freezing warming box, and the cold storage module is detachably installed in the cold storage box. cooling system. The method of any one of claims 1 and 3 to 5,
The cooling module includes an external cassette and an internal cassette installed inside the external cassette, and a refrigerant for cooling is accommodated in the internal cassette; The refrigerant is accommodated in a gap between the outer cassette and the inner cassette;
The port includes a liquid inlet and a liquid outlet provided on the outer cassette, and the liquid inlet introduces the refrigerant into the gap so that the refrigerant and the inner cassette perform heat exchange, and the liquid outlet performs heat exchange. The refrigerant system characterized in that the refrigerant flowing out from the external cassette. According to claim 6,
A cooling system characterized in that quick couplers are installed at one end close to the liquid inlet in the pipe and at one end close to the liquid outlet in the pipe. According to claim 7,
The cooling module further includes a ventilation pipe; A gas inlet and a gas outlet are installed on the external cassette, and the ventilation pipe is installed through the inside of the cooling module; Both ends of the ventilation pipe communicate with the gas inlet and the gas outlet, respectively; the gas inlet is for providing a cooling air flow into the ventilation piping; The cooling system according to claim 1, wherein the gas outlet is for outflow of the heat-exchanged cooling airflow. According to claim 5,
The refrigerating/freezing unit further includes an intermediate module communicating with the refrigerating/freezing keeping box; The intermediate module includes an evaporator and a first blower and a second blower respectively installed at both ends of the evaporator, the evaporator communicates with the refrigerant device, and the evaporator generates wind sucked by the first blower and the refrigerant device. The refrigerant system characterized in that by heat-exchanging the refrigerant introduced from the second blower to supply the heat-exchanged wind to the inside of the refrigerating/freezing keeping box. According to claim 7,
The cooling device includes a first cooling host and a second cooling host communicating with the first cooling host; The first refrigerant host includes a compressor and a condenser communicating with the compressor, wherein the compressor compresses the refrigerant in a gaseous state and supplies the refrigerant in a gaseous state to the condenser, and the condenser releases heat from the refrigerant in a gaseous state to form a liquid state. to be converted into a refrigerant of;
The second cooling host includes a heat exchanger and a water tank for storing a refrigerant, one end of the heat exchanger communicates with the condenser, and the other end of the heat exchanger communicates with the water tank, and the heat exchanger communicates with the liquid A cooling system characterized in that heat exchange between the refrigerant in the state and the refrigerant in the water tank.

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