The present application claims the priority of Chinese Patent Application No. 201910647038.0, filed on Jul. 17, 2019 and titled “Air Duct System and a Refrigeration Appliance Having the Same”, which is incorporated herein by reference in its entirety.
The present invention relates to the field of refrigeration appliance and particularly to an air duct system and a refrigeration appliance having the same.
Currently, in an air duct system, when air in a refrigeration compartment passes by a surface of an evaporator, the moisture in the air will condense on the surface of the evaporator. Since the evaporator is at a low temperature, the condensate water will be converted into frost after a period of time.
In the prior art, generally a defrosting heater is disposed nearby the evaporator and heats the frost on the evaporator to defrost. This defrosting manner is less efficient, increases the freezing load of the refrigerator, and finally reduces the cooling efficiency of the refrigerator.
Hence, it is necessary to provide an air duct system which avoids frosting on the evaporator.
To solve the above technical problems, the present invention provides an air duct system avoiding frosting on the evaporator and a refrigeration appliance having the same.
To achieve the above object, the present invention employs the following technical solutions:
An air duct system, wherein the air duct system comprises a drying system and a cooling system which are arranged in cooperation with each other, the cooling system comprises an evaporator, and an air return port and an air supply port provided on two sides of the evaporator, the drying system is disposed between the air return port and the evaporator, and the drying system comprises an air compressor and an air storage tank that are connected to each other, so that the air discharged through the air return port sequentially passes through the air compressor and the air storage tank and then flows to the evaporator.
As a further improved technical solution of the present invention, wherein a bottom of the air storage tank is provided with a drainage outlet and a water drainage valve connected to the drainage outlet.
As a further improved technical solution of the present invention, wherein the air duct system further comprises at least one drying module which is disposed between the air storage tank and the evaporator.
As a further improved technical solution of the present invention, wherein the cooling system comprises a cooling chamber for receiving the evaporator, and the cooling chamber comprises a first opening connected to the drying system and a second opening connected to the air supply port.
As a further improved technical solution of the present invention, wherein the drying module is disposed in the first opening or disposed adjacent to the first opening.
As a further improved technical solution of the present invention, wherein there are two said drying modules, and the other is disposed in the drying system and located at an output end of the air storage tank.
As a further improved technical solution of the present invention, wherein the air duct system further comprises a deodorizing module which is disposed between the air storage tank and the first opening.
As a further improved technical solution of the present invention, wherein the air duct system comprises a first check valve disposed at the first opening, and a second check valve disposed at the second opening or the air supply port.
As a further improved technical solution of the present invention, wherein the drying system is provided with a drying compartment, and the air compressor and the air storage tank are both disposed in the drying compartment.
The invention also provides a refrigeration appliance having any of the said air duct system above, the refrigeration appliance comprises a cabinet having a refrigeration compartment, the air duct system is disposed on the cabinet and used to supply cool to the refrigeration compartment, and the air return port and the air supply port are disposed on an inner wall of the refrigeration compartment.
Advantageous effects of the present invention are as follows: in the air duct system and the refrigeration appliance having the same in the present invention, the drying system and the cooling system are arranged in cooperation with each other, so that the air discharged through the air return port sequentially passes through the air compressor and the air storage tank, and then flows to the evaporator so that the air passing through the evaporator is dried, thereby avoiding the frosting phenomenon, omitting the defrosting process, and avoiding problems such as the increase of the load and low efficiency.
The figures presented here are used to provide further understanding of the present application and constitute a portion of the present application. The exemplary embodiments of the present application and the description thereof are used to explain the present application, and are not intended to limit the present application. In the figures:
Wherein, 1—air duct system, 11—drying system, 111—air compressor, 112—air storage tank, 1121—drainage outlet, 1122—water drainage valve, 1123—output end, 12—cooling system, 121—evaporator, 122—air return port, 123—supply port, 13—drying module, 14—deodorizing module, 15—cooling chamber, 151—first opening, 152—second opening, 16—first check valve, 17—second check valve, 18—drying compartment, 2—refrigeration appliance, 21—cabinet, 22—refrigeration compartment, 23—water collecting box.
To make the objects, the technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described clearly and completely in conjunction with specific embodiments and corresponding figures. Based on embodiments in the present application, all other embodiments obtained by those having ordinary skill in the art without making inventive efforts all fall within the extent of protection of the present application.
As shown in
The cooling system 12 comprises an evaporator 121, and an air return port 122 and an air supply port 123 provided on two sides of the evaporator 121, and the drying system 11 is disposed between the air return port 122 and the evaporator 121 so that the air flowing towards the evaporator 121 is dried, thereby avoiding the frosting phenomenon.
Specifically, the cooling system 12 is provided with a cooling chamber 15, and the evaporator 121 is disposed in the cooling chamber 15. To avoid leakage of cold, the said cooling chamber 15 is usually enclosed by a thermal insulating material; in the present embodiment, the drying system 11 is disposed outside the cooling chamber 15, and supplies dried air to the cooling chamber 15, thereby reducing the space occupied by the cooling chamber 15 so that the drying system 11 may utilize other external space which don't need to be thermally insulated. Certainly, as another preferred embodiment of the present invention, the drying system 11 may also be disposed in the cooling chamber 15.
In the present embodiment, the cooling chamber 15 has a first opening 151 connected to the drying system 11 and a second opening 152 connected to the air supply port 123. The first opening 151 and the second opening 152 are respectively located on two sides of the evaporator 121, so that the dry air discharged from the drying system 11 enters the cooling chamber 15 through the first opening 151, then flows to the evaporator 121, and then is discharged out of the air supply port 123 through the second opening 152.
Preferably, in the present embodiment, the air duct system 1 further comprises a first check valve 16 disposed at the first opening 151, and a second check valve 16 disposed at the second opening 152 or the air supply port 123; the first check valve 16 is capable of preventing reverse flow of air discharged from the drying system 11, and the second check valve 17 is capable of preventing reverse flow of air discharged from the air supply port 123.
As shown in
Specifically, the air compressor 111 draws and compresses air from the air return port 122 to reduce the saturation of water vapor, so that most of the water vapor in the air storage tank 112 is condensed into water, in order to dry the air passing through the evaporator 121, avoiding the frosting phenomenon, omitting the defrosting process, and avoiding problems such as the increase of the load and low efficiency.
Wherein the bottom of the air storage tank 112 is provided with a drainage outlet 1121 and a water drainage valve 1122 connected to the drainage outlet 1121, so that the condensed water is discharged to the external through the water drainage valve 1122.
In order to further ensure the drying effect, the air duct system 1 of the present invention is further provided with at least one drying module 13. The drying module 13 is disposed between the air storage tank 112 and the evaporator 121 to further dry the air, ensure that the air discharged to the evaporator 121 is dry air and avoid frosting on the evaporator 121.
In a specific embodiment of the present invention, as shown in
Specifically, the drying module 13 disposed close to the evaporator 121 is disposed in the first opening 151 or disposed adjacent to the first opening 151. The drying module 13 disposed close to the air storage tank 112 is directly disposed at an output end 1123 of the air storage tank 112.
Furthermore, in the present invention, the air duct system 1 further comprises at least one deodorizing module 14. In the present embodiment, as shown in
In addition, as a preferred embodiment of the present invention, in order to facilitate an operation such as installation, the drying system 11 is provided with a drying compartment 18, and the air compressor 111 and the air storage tank 112 are both disposed in the drying compartment 18. However, the drying system 11 is still connected the air compressor 111 and the air return port 122 through a pipeline or air duct, and the drying system 11 is communicated with the cooling chamber 15 through a pipeline or air duct.
Certainly, the air compressor 111 and the air storage tank 112 may also be set to an open type, which facilitates the heat dissipation of the air compressor 111.
As shown in
The refrigeration appliance 2 further comprises a water collecting box 23 arranged in the cabinet 21, and the drainage outlet 1121 of the air storage tank 112 is connected with the water collecting box 23, thereby preventing water from flowing to the external and causing possible safety hazards, and meanwhile improving the heat dissipation efficiency of the refrigeration appliance 2.
In summary, in the air duct system 1 and the refrigeration appliance 2 having the same in the present invention, the drying system 11 and the cooling system 12 are arranged in cooperation with each other, so that the air discharged through the air return port 122 sequentially passes through the air compressor 111 and the air storage tank 112, and then flows to the evaporator 121 so that the air passing through the evaporator 121 is dried, thereby avoiding the frosting phenomenon, omitting the defrosting process, and avoiding problems such as the increase of the load and low efficiency.
What are described above are only preferred embodiments of the present invention. It should be appreciated that those having ordinary skill in the art may make several variations and improvements without departing from the inventive ideas of the present invention, which all fall within the extent of protection of the present invention.
Number | Date | Country | Kind |
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201910647038.0 | Jul 2019 | CN | national |
Filing Document | Filing Date | Country | Kind |
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PCT/CN2020/077546 | 3/3/2020 | WO |