CN113446805A

CN113446805A - Storage container and refrigerator

Info

Publication number: CN113446805A
Application number: CN202010212518.7A
Authority: CN
Inventors: 任相华; 周新; 唐学强
Original assignee: Hefei Hualing Co Ltd; Midea Group Co Ltd; Hefei Midea Refrigerator Co Ltd
Current assignee: Hefei Hualing Co Ltd; Midea Group Co Ltd; Hefei Midea Refrigerator Co Ltd
Priority date: 2020-03-24
Filing date: 2020-03-24
Publication date: 2021-09-28
Also published as: WO2021190012A1

Abstract

The invention discloses a storage container and a refrigerator. The storage container comprises a container frame, a deoxidizing module and a sealing ring, wherein a storage space is defined in the container frame and is provided with an opening; the deoxidizing module is detachably arranged at the opening; the sealing washer detachable sets up the container frame with between the deoxidization module for with the clearance seal between container frame and the deoxidization module. Install the sealing washer between deoxidization module and container frame, improve the leakproofness between deoxidization module and the container frame, prevent the condition of gas leakage.

Description

Storage container and refrigerator

Technical Field

The invention relates to refrigeration storage equipment, in particular to a storage container and a refrigerator.

Background

At present, the refrigerating equipment generally adopts an oxygen removal module to perform low-oxygen fresh-keeping. The deoxidization module is installed outside the lateral wall of container frame, utilizes electrolyte etc. to carry out the deoxidization, but because shape, the size of deoxidization module are fixed, and the shape that is used for installing the deoxidization module among the container frame is changeable, like cambered surface, inclined plane etc. lead to the assembling nature of deoxidization module poor, the equipment difficulty. There may be a mounting gap between the oxygen scavenging module and the container frame, with the potential for air leakage. In addition, because there are multiple parts between the oxygen scavenging module and the container frame, the gaps between the parts are prone to air leakage.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the invention provides a storage container and a refrigerator, which can improve the sealing property between an oxygen removal module and a container frame.

According to a first aspect of the present invention, there is provided a storage container comprising:

a container frame defining a storage space therein and provided with an opening;

the deoxidizing module is detachably arranged at the opening;

and the sealing ring is arranged between the container frame and the deoxidizing module and used for sealing a gap between the container frame and the deoxidizing module.

The storage container further comprises a front cover, the front cover is detachably arranged on the container frame, one end of the sealing ring is in press contact with the front cover, and the other end of the sealing ring is in press contact with the oxygen removal module.

According to the storage container of the first aspect of the invention, the rear side surface of the front cover is provided with the front cover protrusion, and the front cover protrusion is embedded into the protrusion embedding groove on the side surface of the oxygen removal module.

According to the storage container of the first aspect of the invention, the front side surface of the front cover has a seal caulking groove, and one end of the seal ring is fitted in the seal caulking groove by interference fit.

According to the storage container of the first aspect of the invention, the water guide member is provided below the inner top surface of the container frame, the water guide member has the water guide groove, and the water guide groove has the drain hole.

According to the storage container of the first aspect of the invention, the lowest part of the water chute is provided with the water guide pipe, one end of the water guide pipe penetrates through the rear wall of the container frame and is connected with the water inlet of the oxygen removal module, and the drain hole is arranged in the water guide pipe.

According to the storage container of the first aspect of the invention, the water guide has a first gap with the inner top surface of the container frame.

The storage container according to the first aspect of the present invention further includes a drawer having one end capable of being inserted into the container frame.

According to the storage container of the first aspect of the present invention, the container frame has an inner frame and an outer frame, and the insulating layer is filled between the inner frame and the outer frame.

According to a second aspect of the present invention, there is provided a refrigerator including the above-described storage container.

Has the advantages that: according to the storage container and the refrigerator, the sealing ring is arranged between the deoxidizing module and the container frame, so that the sealing property between the deoxidizing module and the container frame is improved, and the air leakage is prevented.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic view of a refrigerator according to an embodiment of the present invention;

FIG. 2 is a schematic view of a storage container according to an embodiment of the present invention;

FIG. 3 is a cross-sectional view of the storage container of FIG. 2;

FIG. 4 is an exploded view of an oxygen scavenging module in accordance with an embodiment of the present invention;

FIG. 5 is a cross-sectional view of the oxygen scavenging module of FIG. 4;

FIG. 6 is a schematic view of a front cover of an embodiment of the present invention;

FIG. 7 is a schematic view of the installation of a water deflector according to an embodiment of the present invention;

FIG. 8 is a cross-sectional view taken in the direction N-N of FIG. 7;

fig. 9 is a cross-sectional view taken along the direction M-M in fig. 7.

Reference numerals:

the oxygen removing container comprises a box body 100, a storage container 101, a container frame 102, a drawer 103, an oxygen removing frame 104, a water inlet 105, an exhaust hole 106, a mounting hole 107, a sealing ring 108, a front cover 109, an oxygen passing hole 110, a front cover bulge 111, a middle bulge 112, a sealing caulking groove 113, a bulge caulking groove 114, a water guide 115, a water guide pipe 116, a water guide groove 117, a water guide plate 118, a water discharge hole 119, a first gap 120, an opening 121, a front cover hole 122, an inlet 123 and a sealing strip 124.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, the meaning of a plurality of means is one or more, the meaning of a plurality of means is two or more, and larger, smaller, larger, etc. are understood as excluding the number, and larger, smaller, inner, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

Referring to fig. 1 to 4, an embodiment of the present invention provides a refrigerator, which includes a refrigerator body 100, a storage container 101, and an oxygen removal module. The refrigerator body has a storage space formed therein. The storage container 101 is located inside the storage space. The storage container 101 includes a container frame 102 and a drawer 103, a storage space is defined in the container frame 102, one end of the drawer 103 can be placed in the storage space of the container frame 102, an opening 121 is formed in a rear side surface of the container frame 102, and a plurality of oxygen transmission holes 110 are formed in the opening 121. In this embodiment, the oxygen removal module is an electrochemical oxygen removal module, and the oxygen removal module is installed in the opening 121, and consumes oxygen inside the storage space through an electrolytic reaction. A seal 108 is removably disposed between the container frame 102 and the oxygen scavenging module, the seal 108 being configured to seal the gap between the container frame 102 and the oxygen scavenging module. A sealing strip 124 is provided between the drawer 103 and the container frame 102, and the sealing strip 124 seals a gap between the drawer 103 and the container frame 102.

In some embodiments, referring to fig. 4, the oxygen scavenging module comprises an oxygen scavenging frame 104 and mounting holes 107 for securing the container frame 102 and the oxygen scavenging module, the oxygen scavenging frame 104 having an oxygen-consuming oxygen scavenging assembly therein, the oxygen scavenging frame 104 having an inlet 123 on a front side thereof for oxygen to enter the oxygen scavenging assembly; the front cover 109 is detachably arranged on the oxygen removing frame 104, the sealing ring 108 is detachably arranged on the front side surface of the front cover 109, and the middle part of the front cover 109 is provided with a front cover hole 122 communicated with the inlet 123; before the deoxidization module is installed, install the protecgulum 109 on deoxidization frame 104 in advance, install the sealing washer 108 in the leading flank of protecgulum 109, make a preinstallation subassembly with sealing washer 108, protecgulum 109 and deoxidization frame 104, pass container frame 102 and mounting hole 107 with the screw, with deoxidization module fixed mounting on container frame 102, reduce the installation degree of difficulty. An end face of one side of the gasket 108 is pressed against the rear side of the container frame 102, and the gasket 108 seals a gap between the front cover 109 and the container frame 102. Because the rear side of the container frame 102 can be a plane, an inclined plane, a combination of a plane and an arc surface, or a combination of an inclined plane and an arc surface, the elastic contact between the sealing ring 108 and the container frame 102 is utilized, so that the sealing ring 108 is suitable for the rear side of the container frame 102, the assembly performance of the oxygen removal module is improved, the sealing performance between the oxygen removal module and the container frame 102 is also improved, and the air leakage is prevented.

Note that the mounting hole 107 is provided in the oxygen-removing frame 104. The front cover 109 is secured to the oxygen scavenging frame 104, the gasket 108 is secured to the front cover 109, the gasket 108, the front cover 109 and the oxygen scavenging frame 104 are formed as a pre-assembled assembly, and the oxygen scavenging module is fixedly mounted to the container frame 102 by screws through the mounting holes 107 in the container frame 102 and the oxygen scavenging frame 104. The oxygen removing frame 104 is provided with mounting holes 107, and the front cover 109 is fixed to the oxygen removing frame 104 by a snap-fit method without providing the mounting holes 107 on the front cover 109. The screw is turned so that the oxygen scavenging frame 104 drives the front cover 109 and the sealing ring 108 towards the container frame 102 so that one end face of the sealing ring 108 is in close contact with the container frame 102.

Note that the mounting hole 107 is provided in the front cover 109. The front cover 109 is secured to the oxygen scavenging frame 104, the gasket 108 is secured to the front cover 109, the gasket 108, the front cover 109 and the oxygen scavenging frame 104 are formed as a pre-assembled assembly, and the oxygen scavenging module is fixedly mounted to the container frame 102 by screws through the mounting holes 107 of the container frame 102 and the front cover 109. The mounting holes 107 are provided in the front cover 109 without additional machining of the oxygen-removing frame 104, so that the front cover 109 is suitable for container frames 102 of different specifications. The screw is turned so that the front cover 109 drives the sealing ring 108 to move towards the container frame 102, so that one end face of the sealing ring 108 is tightly attached to the container frame 102.

Note that the mounting holes 107 are provided in the oxygen-removing frame 104 and the front cover 109. The front cover 109 is fixed on the oxygen removing frame 104, the sealing ring 108 is fixed on the front cover 109, the sealing ring 108, the front cover 109 and the oxygen removing frame 104 are made into a pre-assembly, and screws are used for penetrating through the container frame 102, the mounting holes 107 of the front cover 109 and the mounting holes 107 of the oxygen removing frame 104, so that the connection stability of the container frame 102, the front cover 109 and the oxygen removing frame 104 is improved. The screws are turned so that the front cover 109 and the oxygen scavenging frame 104 urge the gasket 108 toward the container frame 102 so that an end face of the gasket 108 is in close contact with the container frame 102.

In some embodiments, as shown in fig. 4, a mounting hole 107 is formed in the front cover 109, the front cover 109 is fixed to the container frame 102 after the front cover 109 passes through the container frame 102 and the mounting hole 107 through screws, and then the sealing ring 108 and the oxygen removing module are mounted, the sealing ring 108 is located between the front cover 109 and the oxygen removing module, the container frame 102 and the oxygen removing module are fixed through screws, the screws are tightened to enable the oxygen removing module to squeeze the sealing ring 108, one end of the sealing ring 108 is in pressure contact with the front cover 109, and the other end of the sealing ring 108 is in pressure contact with the oxygen removing module, so that sealing between the oxygen removing module and the container frame 102 is achieved. Because the back side of the container frame 102 can be a plane, an inclined plane, a combination of a plane and an arc surface, and a combination of an inclined plane and an arc surface, the surface of the front cover 109 contacting with the container frame 102 is similar to the back side of the container frame 102, and the surface of the front cover 109 contacting with the sealing ring 108 is a plane, so that when the sealing ring 108 is pressed with the front cover 109, the deformation amount of each part of the sealing ring 108 is approximately the same, and the service life of the sealing ring 108 is prolonged.

Referring to fig. 5, in the present embodiment, the rear side of the front cover 109 is provided with a front cover projection 111, and the front cover projection 111 is fitted into a projection fitting groove 114 in the front side of the oxygen-removing frame 104. Specifically, the front cover protrusion 111 is arranged on the rear side face of the front cover 109 in a rectangular shape, the front cover protrusion 111 is embedded in the protrusion embedding groove 114, the inner side face of the front cover protrusion 111 is in pressure contact with the side wall of the protrusion embedding groove 114, the front cover 109 and the deoxidizing frame 104 are fixed, and an operator can install the front cover 109 and the deoxidizing frame 104 quickly. It should be noted that the protrusion insertion groove 114 may be provided on the left side, right side, upper side, or lower side of the oxygen removing frame 104, the cross section of the protrusion insertion groove 114 is rectangular, and the front cover protrusion 111 is L-shaped. In this embodiment, the front cover 109 and the oxygen-removing frame 104 are pre-mounted by screws. The pre-mounting of the front cover 109 and the oxygen-scavenging frame 104 with screws improves the stability of the connection between the two.

It should be noted that the front cover 109 may be preliminarily mounted to the oxygen-removing frame 104 by fitting the front cover protrusion 111 into the protrusion fitting groove 114, and then the front cover 109 and the oxygen-removing frame 104 are fixed by screws for improving the stability of the connection between the front cover 109 and the oxygen-removing frame 104.

It is emphasized that the front cover 109 is provided with mounting holes 107, the front cover 109 and the oxygen-removing frame 104 are connected by screws, the sealing ring 108 is fixed on the front cover 109, the sealing ring 108, the front cover 109 and the oxygen-removing frame 104 are made into a pre-assembled assembly, and the oxygen-removing module is fixedly mounted on the container frame 102 by screws penetrating through the mounting holes 107 of the container frame 102 and the front cover 109. The screws between the container frame 102 and the front cover 109 are turned so that the oxygen scavenging frame 104 forces the container frame 102, the front cover 109 and the sealing ring 108 towards the container frame 102 so that one end face of the sealing ring 108 is in close contact with the container frame 102.

In some embodiments, the front cover 109 is recessed in a middle portion of its front side to form a sealing nest 113, and one end of the sealing ring 108 is fitted into the sealing nest 113. Specifically, the seal ring 108 is rectangular. The outer diameter of the sealing ring 108 is slightly larger than the inner diameter of the sealing caulking groove 113, one end of the sealing ring 108 is installed in the sealing caulking groove 113 through interference fit, the outer diameter refers to the distance between two opposite outer walls in the sealing ring 108, and the inner diameter refers to the distance between two opposite inner walls in the sealing caulking groove 113. The end face of the other end of the seal ring 108 is higher than the front face of the front cover 109, i.e., the thickness of the seal ring 108 is larger than the height of the seal caulking groove 113. When mounted to the vessel frame 102, the seal ring 108 contacts the rear side of the vessel frame 102. Because the rear side of the container frame 102 can be a plane, an inclined plane, a combination of a plane and an arc surface, or a combination of an inclined plane and an arc surface, the elastic contact between the sealing ring 108 and the container frame 102 is utilized, so that the sealing ring 108 is suitable for the rear side of the container frame 102, the assembly performance of the oxygen removal module is improved, the sealing performance between the oxygen removal module and the container frame 102 is also improved, and the air leakage is prevented.

In some embodiments, referring to fig. 6, after the front middle of the front cover 109 is recessed to form the sealing nest 113, the rear middle of the front cover 109 is raised to form the middle protrusion 112. The middle protrusion 112 and the front cover 109 are connected by a connection block, and the thickness of the middle protrusion 112 is the same as that of the front cover 109. It should be noted that a first space 121 is provided between the middle protrusion 112 and the front cover protrusion 111 to avoid the front side surface of the oxygen removing frame 104, and a front cover hole 122 is provided in the middle protrusion 112. The center boss 112 is fitted into the inlet 123 of the oxygen-removing frame 104, and the front cover hole 122 communicates with the inlet 123. Oxygen in the storage space enters the oxygen removing assembly after passing through the oxygen passing hole 110, the through hole in the middle of the sealing ring 108, the front cover hole 122 and the inlet 123 of the oxygen removing frame 104, and the oxygen entering the oxygen removing assembly is consumed through electrolytic reaction.

In some embodiments, as shown in fig. 7, a water guide 115 is disposed below the inner top surface of the container frame 102, the water guide 115 includes two obliquely disposed water guide plates 118, a water guide groove 117 is formed between the two water guide plates 118, and the water guide groove 117 has a water discharge hole 119. After the air with water vapor in the storage space touches the inner top surface of the container frame 102, condensation is formed on the inner top surface, the condensation drops on the water guide plate 118, the condensation flows into the water guide groove 117 along the water guide plate 118, the condensation is discharged outside the storage space through the water guide groove 117 and the drain hole 119, the condensation on the inner top surface is prevented from dropping on vegetables and fruits in the storage space, and the spoilage probability of the vegetables and fruits is reduced. The water guide 115 may include more than two water guide plates 118, a water guide groove 117 is formed between two adjacent water guide plates 118, and the water guide grooves 117 are collected to the same water discharge hole 119.

In some embodiments, as shown in fig. 8, the lowest part of the water chute 117 is provided with a water conduit 116, the rear wall of the container frame 102 is provided with a through hole, one end of the water conduit 116 passes through the through hole of the rear wall of the container frame 102 and is connected to the water inlet 105 of the oxygen removing module, a sealing member is arranged between the water conduit 116 and the through hole, and a drain hole 119 is arranged in the water conduit 116. Since the water guide 115 has a light weight, the water guide 115 is fixed by inserting the water guide pipe 116 into the through hole at the rear of the container frame 102, that is, most of the water guide 115 is suspended in a free state. Deoxidization module during operation, water in the electrolyte is oxygen and hydrogen by the electrolysis, hydrogen and deoxidization subassembly oxygen reaction back generate vapor, vapor is discharged from the exhaust hole 106 of deoxidization module, the water of electrolyte is except that the part is decomposed, vapor in the part electrolyte can be taken away by the oxygen part that produces in addition, lead to electrolyte to reduce gradually, the condensation that aqueduct 116 received is supplied to electrolyte through the water inlet 105 of deoxidization module, realize the function of adding water. It should be noted that the water conduit 116 delivers the condensation to the water inlet 105 of the oxygen removal module to play a role of supplementary water supply, and the main water supply of the oxygen removal module is realized by the water supply system of the refrigerator.

It is emphasized that the water guide 115 is primarily fixed by inserting the water guide pipe 116 into the through hole at the rear of the container frame 102, and the water guide 115 and the inner top surface of the container frame 102 are fixed by a screw or a magnetic member.

In some embodiments, as shown in fig. 9, there is a first gap 120 between the front side edge of the water guide 115 and the inner top surface of the container frame 102, the first gap 120 for air to contact to the first plane. After the air with water vapor in the storage space rises, the air enters between the water guide member 115 and the inner top surface of the container frame 102 through the first gap 120, condensation is generated after the air is contacted with the first plane, the condensation drops on the water guide member 115, the condensation flows into the water guide groove 117 along the water guide plate 118, and the condensation is discharged out of the storage space through the water guide groove 117 and the water discharge hole 119.

It should be noted that a first gap 120 is provided between the left side edge of the water guide 115 and the inner top surface of the container frame 102, a first gap 120 is provided between the right side edge of the water guide 115 and the inner top surface of the container frame 102, and the first gap 120 is provided at the front side edge of the water guide 115. Air with water vapor in the storage space can enter between the water guide 115 and the inner top surface of the container frame 102 through the three first gaps 120, so that the probability of air entering between the water guide 115 and the inner top surface of the container frame 102 is increased, and the probability of condensation on the inner top surface is increased. In some embodiments, to avoid interference between the drawer 103 and the water guide 115, the lowest elevation of the water guide 115 is higher than the highest elevation of the rear sidewall of the drawer 103, such that the drawer 103 is free to enter the storage space. It should be noted that the water conduit 116 is installed at a position higher than the highest position of the rear sidewall of the drawer 103, so as to prevent the drawer 103 from interfering with the water conduit 116.

In some embodiments, the container frame 102 is provided with an inner frame and an outer frame with insulation layers therebetween. The storage container 101 is located in the storage space, and since the overall sealing performance is good, the container frame 102 is generally not provided with a heat insulating layer, and the temperatures of the inner top surface, the inner bottom surface, the rear inner side surface, the left inner side surface and the right inner side surface of the container frame 102 are the same as the temperature of the storage space. The reason for the condensation is that the inner wall of the container frame 102 has a temperature lower than that of water vapor in the air, and the temperature difference between the inner wall and the air vapor makes condensation easily generated on the inner top surface, the inner bottom surface, the rear inner side surface, the left inner side surface and the right inner side surface of the container frame 102. The heat insulation layer is filled between the inner frame and the outer frame, so that the temperature between the inner wall of the container frame 102 and the storage space is inconsistent, the temperature difference between the inner wall of the container frame 102 and the storage space is reduced, and the probability of condensation is reduced.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims

1. Storage container, its characterized in that includes:

the deoxidizing module is detachably arranged at the opening;

2. A storage container as claimed in claim 1, further comprising a front cover detachably disposed on the container frame, wherein one end of the sealing ring is in press contact with the front cover, and the other end of the sealing ring is in press contact with the oxygen removal module.

3. A storage container as claimed in claim 2, wherein the front cover is provided with a front cover projection which fits into a projection nest in a side of the oxygen scavenging module.

4. A storage container as claimed in claim 2, wherein the front cover has a sealing rebate on a side thereof, and one end of the sealing ring is mounted in the sealing rebate by interference fit.

5. The storage container as claimed in claim 1, wherein a water guide member having a water guide groove with a drain hole is provided under the inner top surface of the container frame.

6. A storage container as claimed in claim 5, wherein a water conduit is provided at the lowest part of the water chute, one end of the water conduit passes through the rear wall of the container frame and is connected to the water inlet of the oxygen removing module, and the water discharge hole is provided in the water conduit.

7. A storage container as claimed in claim 5, wherein there is a first gap between the water guide and the inner top surface of the container frame.

8. A storage container as claimed in claim 5, further comprising a drawer insertable into the container frame.

9. A storage container as claimed in claim 1, wherein the container frame has an inner frame and an outer frame, and wherein a thermal insulation layer is filled between the inner frame and the outer frame.

10. Refrigerator, characterized in that it comprises a storage container according to any one of claims 1 to 9.