CN215125974U

CN215125974U - Take deoxidization locker of comdenstion water moisturizing function

Info

Publication number: CN215125974U
Application number: CN202023088120.1U
Authority: CN
Inventors: 陈善中
Original assignee: Foshan Shunde Gelinmei Electronic Product Co ltd
Current assignee: Foshan Shunde Gelinmei Electronic Product Co ltd
Priority date: 2020-12-18
Filing date: 2020-12-18
Publication date: 2021-12-14
Anticipated expiration: 2030-12-18

Abstract

A deoxidizing storage cabinet with a condensed water replenishing function comprises a cabinet body with a storage space, and further comprises an electronic sieve oxygen generation module, a liquid storage tank, a water storage tank and a dehumidifying device; the electronic sieve oxygen generation module is provided with an air inlet end and a liquid inlet end, and the air inlet end is communicated with the storage space; a liquid storage cavity for storing electrolyte is arranged in the liquid storage tank, a liquid outlet end and a water inlet end which are communicated with the liquid storage cavity are arranged on the liquid storage tank, and the liquid outlet end is communicated with a liquid inlet end of the electronic sieve oxygen production module; the dehumidifying device is communicated with the storage space, a water receiving box is arranged below the dehumidifying device, and the water receiving box is provided with a drainage end; the water storage tank is provided with a water inlet end and a water outlet end, the water inlet end is communicated with the water discharge end of the water receiving box and collects condensed water generated by the dehumidifying device, and the water outlet end is communicated with the water inlet end of the liquid storage tank; the structure collects the condensed water generated by the dehumidifying device and supplements the liquid storage tank with the moisture function, so that the liquid storage tank has enough electrolyte to supply the electronic sieve oxygen production module.

Description

Take deoxidization locker of comdenstion water moisturizing function

Technical Field

The utility model relates to a deoxidization locker field specifically is a take deoxidization locker of comdenstion water moisturizing function.

Background

At present, the nitrogen-containing fresh-keeping storage device is used for fresh-keeping storage (fresh keeping of dry goods, fruits, food and the like) and preservation storage (storage of valuables such as jewelry, collectibles and the like), generally only adopts a special and sealed box body for storage, or improves technical means such as vacuumizing a storage space, and the like, and even if nitrogen is used for preservation or preservation, nitrogen is only flushed into the storage space by a nitrogen tank and then sealed. The technical means has the defects of complex operation, high operation cost, complex operation and the like.

Therefore, the applicant proposes a structure of a storage system for self-generated nitrogen (patent number: CN201810942420.X) at 2018, 08 and 17, but the electronic sieve oxygen generation module gradually consumes the internal electrolyte during the use process, so that further improvement is needed for solving the electrolyte supplement problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve above-mentioned current problem, provide a simple structure, reasonable take deoxidization locker of comdenstion water moisturizing function, its effect is that the comdenstion water that can form through dehydrating unit realizes carrying out the function of replenishing aqueous solution to the liquid reserve tank that the electron sieve system oxygen module supplied with after flowing into the storage water tank.

A deoxidizing storage cabinet with a condensed water replenishing function comprises a cabinet body with a storage space, and further comprises an electronic sieve oxygen generation module, a liquid storage tank, a water storage tank and a dehumidifying device;

the electronic sieve oxygen generation module is provided with an air inlet end and a liquid inlet end, and the air inlet end is communicated with the storage space;

a liquid storage cavity for storing electrolyte is arranged in the liquid storage tank, a liquid outlet end and a first water inlet end which are communicated with the liquid storage cavity are arranged on the liquid storage tank, and the liquid outlet end is communicated with a liquid inlet end of the electronic sieve oxygen production module;

the dehumidification device is communicated with the storage space, a water receiving box is arranged below the dehumidification device, and the water receiving box is provided with a first water discharging end;

the water storage tank is provided with a second water inlet end and a water outlet end, the second water inlet end is communicated with the first water discharging end of the water receiving box and collects condensed water generated by the dehumidifying device, and the water outlet end is communicated with the first water inlet end of the liquid storage tank.

The utility model discloses can also adopt following technical measure to solve:

further explaining, install the suction pump between storage water tank and the liquid reserve tank, the end of drawing water of suction pump is connected with the play water end that sets up in the storage water tank bottom, the second drainage end of suction pump is connected with the first end of intaking of liquid reserve tank.

Further, the liquid storage tank is provided with an electrolytic liquid level detection element connected with the water suction pump, and the electrolytic liquid level detection element at least comprises a high liquid level monitoring point, a middle liquid level detection point and a low liquid level detection point.

Further explaining, a hot air system and an evaporation device which are matched with the dehumidification device are also arranged on the cabinet body; the water storage tank is internally provided with a water storage cavity, the top of the water storage cavity is provided with a water level detector for detecting the high level liquid level of the water storage cavity, and the water storage tank is provided with a water replenishing end corresponding to the high level liquid level; the evaporation device is provided with a water inlet end, the water inlet end is communicated with a water supplementing end through a water supplementing pump, the water supplementing pump is connected with a water level detector, the evaporation device is installed at a hot air outlet of a hot air system, and hot air is blown out through the hot air system to accelerate water evaporation on the evaporation device.

Further, an air exhaust port is further formed in the electronic sieve oxygen production module, an air inlet communicated with the liquid storage cavity is further formed in the liquid storage box, and the air inlet is communicated with the air exhaust port.

Further, the dehumidification device comprises a refrigeration sheet and a heat absorption fin which are arranged in the storage space, the heat absorption end surface of the refrigeration sheet faces the storage space and is in contact with air in the storage space, the heat absorption fin is arranged on the heat absorption end surface of the refrigeration sheet, the water receiving box is arranged below the heat absorption fin, and the first water discharging end of the water receiving box extends out of the storage space.

Further, the hot air system comprises a fan and radiating fins, the radiating fins are connected to the radiating end faces of the refrigerating fins, a plurality of radiating air channels are formed in the radiating fins, the fan is installed on one side of each radiating air channel, an air outlet of the fan and the radiating air channels are arranged in the same direction, an air guide cover is installed on the other side of each radiating air channel, and the evaporation device is installed in the air guide cover.

Further explaining, the evaporation device comprises an evaporation box, a box inner cavity communicated with the water inlet end is formed in the evaporation box, absorbent cotton is flatly paved at the bottom of the box inner cavity, and a water blocking cover is detachably arranged in the box inner cavity corresponding to the water inlet end.

Further, the cabinet body comprises an inner container which limits a storage space, the electronic sieve oxygen generation module is attached to the side wall of the inner container, the side wall is provided with a plurality of communication ports which are communicated with the air inlet end of the electronic sieve oxygen generation module and the storage space, and the liquid storage box is arranged at the top of the inner container.

Further, an air exhaust end is arranged at the top of the water storage tank and communicated with the storage space.

The utility model has the advantages as follows:

the utility model discloses a take deoxidization locker of comdenstion water moisturizing function, moreover, the steam generator is simple in structure, low in use cost, assembly connection is convenient, the comdenstion water that this structure produced through dehydrating unit is collected and is supplemented the moisture function to the liquid reserve tank, make the liquid reserve tank have sufficient electrolyte to supply with electronic sieve system oxygen module, make electronic sieve system oxygen module be in the full liquid state at any time, electronic sieve system oxygen module can keep good system oxygen efficiency, increase the life of electronic sieve system oxygen module, the deoxidization effect is more ideal, the waste water that produces after can the make full use of deoxidization locker dehumidification, realize the utilization of waste, waste reduction is extravagant, accomplish self-sufficiency.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the electronic sieve oxygen generation module and the inner container decomposition structure of the present invention.

Fig. 3 is a schematic view of the exploded structure of the liquid storage tank of the present invention.

Fig. 4 is a schematic view of the local exploded structure of the present invention.

Fig. 5 is a schematic view of the sectional structure of the water storage tank of the present invention.

Fig. 6 is a schematic view of the water replenishing principle of the present invention.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

As shown in figures 1 to 6, the deoxidizing storage cabinet with the condensed water replenishing function comprises a cabinet body 1 with a storage space A, an electronic sieve oxygen generation module 2, a liquid storage tank 3, a water storage tank 4 and a dehumidifying device 5;

the electronic sieve oxygen production module 2 is provided with an air inlet end 21 and a liquid inlet end 23, and the air inlet end 21 is communicated with the storage space A;

a liquid storage cavity B for storing electrolyte is arranged in the liquid storage tank 3, a liquid outlet end 31 and a first water inlet end 32 which are communicated with the liquid storage cavity B are arranged on the liquid storage tank 3, and the liquid outlet end 31 is communicated with the liquid inlet end 23 of the electronic sieve oxygen production module 2;

the dehumidification device 5 is communicated with the storage space A, a water receiving box 6 is arranged below the dehumidification device 5, and the water receiving box 6 is provided with a first water discharging end 61;

the water storage tank 4 is provided with a second water inlet end 41 and a second water outlet end 42, the second water inlet end 41 is communicated with the first water discharge end 61 of the water receiving box 6 and collects condensed water generated by the dehumidifier 5, and the water outlet end 42 is communicated with the first water inlet end 32 of the liquid storage tank 3.

Install suction pump 7 between storage water tank 4 and the liquid reserve tank 3, the end 71 that draws water of suction pump 7 is connected with the play water end 42 that sets up in storage water tank 4 bottom, the second drainage end 72 of suction pump 7 is connected with the first end 32 of intaking of liquid reserve tank 3.

This structure can install storage water tank 4 be connected with humidification device 5 in the deoxidization locker, can carry out the moisturizing back through the comdenstion water that humidification device 5 produced to storage water tank 4, makes aqueous solution flow in liquid reserve tank 3 and replenishes electrolyte to electron sieve oxygen generation module 2, makes electron sieve oxygen generation module 2 can keep good oxygen generation efficiency, increases electron sieve oxygen generation module 2's life.

In this embodiment, two electron sieve system oxygen module 2 are installed to the deoxidization locker mainly include deoxidization membrane and electrolyte, through deoxidization membrane oxygen in the adsorbed air and discharge, realize the deoxidization function, and at this in-process, the electrolyte in the electron sieve system oxygen module 2 can reduce gradually along with the lapse of time, needs in time to supply and ensures the deoxidization effect.

The structure of the electronic sieve oxygen generation module belongs to the prior art, so the detailed description is omitted, and the structure, application and principle of the electronic sieve oxygen generation module are disclosed in the publication number CN210262023U (name: a universal electronic sieve oxygen generation module).

The oxygen-removing storage cabinet can inhibit bacteria and resist oxidation, so that the survival rate of microorganisms is reduced in an oxygen-free or low-oxygen state or even the microorganisms cannot survive, the insect-proof, moisture-proof, mildew-proof, corrosion-proof, oxidation-proof and fresh-keeping effects are high, pests and germs in the storage cabinet are effectively killed, the moisture removal can be realized to keep the inside of the storage cabinet dry, and in addition, the oxygen-removing storage cabinet can be a food storage cabinet and can also be used for storing other articles needing oxidation resistance and bacteria resistance, such as jewelry, files, important properties and the like.

An electrolytic liquid level detection element 8 connected with a water suction pump 7 is installed on the liquid storage tank 3, and the electrolytic liquid level detection element 8 at least comprises a high liquid level monitoring point, a middle liquid level detection point and a low liquid level detection point; when the electrolytic liquid level detection element 8 detects that the liquid storage tank 3 is at a middle liquid level detection point or a low liquid level detection point, the water suction pump 7 is controlled to work, and condensed water in the water storage tank 4 is pumped into the liquid storage tank 3 until the liquid storage tank 3 returns to a high liquid level position.

The cabinet body 1 is also provided with a hot air system 9 and an evaporation device 10 which are matched with the dehumidification device 5; a water storage cavity 4a is arranged in the water storage tank 4, a water level detector 11 for detecting the high level of the water storage cavity 4a is arranged at the top of the water storage tank 4, and a water replenishing end 43 is arranged on the water storage tank 4 corresponding to the high level; the evaporation device 10 is provided with a water inlet end 1001, the water inlet end 1001 is communicated with the water replenishing end 43 through a water replenishing pump 12, the water replenishing pump 12 is connected with the water level detector 11, the evaporation device 10 is installed at a hot air outlet of the hot air system 9, and hot air is blown out through the hot air system 9 to accelerate water evaporation on the evaporation device 10; the water storage tank 4 and the liquid storage tank 3 are fully loaded through a hot air system 9 and an evaporation device 10, and redundant condensed water is evaporated.

Still be provided with air vent 24 on the electronic sieve system oxygen module 2, still be provided with the air inlet 33 with stock solution chamber B intercommunication on the liquid reserve tank 3, air inlet 33 and air vent 24 intercommunication, air inlet 33 and air vent 24 make the air in the electronic sieve system oxygen module 2 and the air in the stock solution chamber B return circuit, because electronic sieve system oxygen module 2 and liquid reserve tank 3 are confined space, consequently when liquid reserve tank 3 carries out the fluid infusion to electronic sieve system oxygen module 2, the air in the electronic sieve system oxygen module 2 can flow in stock solution chamber B through the trachea way, effectual steam separation intracavity atmospheric pressure that keeps stock solution chamber B and electronic sieve system oxygen module 2 is balanced stable, and then guarantee that oxygen can normally carry constantly, satisfy user's oxygen suppliment demand, improve user's use and embody.

The method comprises the following steps:

the electronic sieve oxygen generation module 2 can adsorb oxygen in air in the using process, the oxygen in the storage space A is reduced by discharging the part of oxygen, the electrolyte in the electronic sieve oxygen generation module 2 is gradually reduced in the oxygen adsorption process, so the electrolyte in the electronic sieve oxygen generation module 2 can be supplemented by being connected with the liquid storage tank 3, the electronic sieve oxygen generation module 2, the liquid storage tank 3 with larger capacity and the water storage tank 4 are all packaged in the cabinet body 1 in the assembling process, a user cannot disassemble the cabinet body when needing water supplement, a self-sufficient water supply source is needed, the liquid storage tank 3 is filled with the electrolyte in the production process, when the storage cabinet is used in the early stage, enough electrolyte is supplemented into the electronic sieve oxygen generation module 2, the oxygen generation effect of the electronic sieve oxygen generation module 2 is ensured, but the electrolyte or aqueous solution cannot be directly supplemented to the liquid storage tank 3, therefore, the liquid storage tank 3 is required to be connected with the water storage tank 4 to replenish the liquid storage tank 3, and the liquid storage tank 3 can realize water source supply through the dehumidifying device 5;

the liquid supplementing process comprises the following steps: dehumidification device 5 dehumidifies the space in the storage space A, and the comdenstion water that produces can be through in water receiving box 6 inflow storage water tank 4, and when the electrolysis liquid level detecting element 8 of liquid reserve tank 3 detected out liquid reserve chamber B and is in well liquid level, drive suction pump 7 work, resume high liquid level until liquid in the comdenstion water suction liquid reserve tank 3 in with storage water tank 4, with make liquid reserve tank 3 can incessantly carry out electrolyte to electron sieve oxygen module 2 and supply.

The dehumidifying device 5 comprises a refrigerating sheet 501 and a heat absorbing fin 502 which are arranged in the storage space A, the heat absorbing end surface of the refrigerating sheet 501 faces the storage space A and is in contact with the air in the storage space A, the heat absorbing fin 502 is installed on the heat absorbing end surface of the refrigerating sheet 501, the water receiving box 6 is arranged below the heat absorbing fin 502, and the first water discharging end 61 of the water receiving box 6 extends out of the storage space A; utilize the physical characteristic that air contact low temperature terminal surface produced the comdenstion water to realize dehumidifying, because storage space A is in encapsulated situation for a long time, consequently storage space A's moisture can reduce gradually, and the humidity that reaches storage space A satisfies the storage demand.

The hot air system 9 comprises a fan 91 and radiating fins 92, the radiating fins 92 are connected to the radiating end surfaces of the refrigerating fins 501, a plurality of radiating air channels 921 are arranged in the radiating fins 92, the fan 91 is installed on one side of each radiating air channel 921, an air outlet 911 of the fan 91 is arranged in the same direction as the radiating air channels 921, an air guide cover 93 is installed on the other side of each radiating air channel 921, and the evaporation device 10 is installed in the air guide cover 93; the hot air system 9 with the structure can radiate the heat of the dehumidifier 5 on one hand, and can form hot air to evaporate condensed water on the other hand, thereby fully utilizing waste heat and reducing heat energy waste.

The evaporation device 10 comprises an evaporation box 1002, an inner cavity 1003 communicated with a water inlet end 1001 is formed in the evaporation box 1002, absorbent cotton 1004 is flatly paved at the bottom of the inner cavity 1003, and a water retaining cover 1005 is detachably mounted in the inner cavity 1003 corresponding to the water inlet end 1001; the water inlet end 1001 of the evaporation device 10 is arranged at the bottom of the evaporation box 1002, when the water replenishing pump 12 pumps condensed water into the box inner cavity 1003, the water absorption cotton 1004 absorbs water, the condensed water is rapidly dispersed, the area of the condensed water contacting air is increased to the maximum extent, the evaporation speed is improved, and the condensed water is pumped into the box inner cavity 1003 from bottom to top, so that when the water flow is large, the water can upwards flush out of the upper part of the evaporation box 1002, other positions are splashed out, other parts of the cabinet are easily damaged, the water flow can be shielded through the water shielding cover 1005, and the condensed water is prevented from flowing back to the water absorption cotton 1004 in the box inner cavity 1003.

The specific working process of the structure is as follows:

the heat absorption end surface of the refrigeration sheet 501 absorbs the heat of the heat absorption fins 502, so that after the air in the storage space A contacts the heat absorption fins 502, water is condensed on the surfaces of the heat absorption fins 502, and the condensed water drops into the water receiving box 6 and then flows into the water storage tank 4 along a water pipeline;

the water storage tank 4 collects condensed water flowing in from the water receiving box 6, when the liquid storage tank 3 of the deoxidizing storage cabinet needs to be supplemented with electrolyte, the water suction pump 7 works to pump out the condensed water in the water storage tank 4 and send the condensed water into the liquid storage tank 3, and the condensed water can be recycled;

when the electronic sieve oxygen generation module 2 does not need to supplement electrolyte and the liquid storage tank 3 is in a full liquid state, and the deoxidizing storage cabinet continues to dehumidify the storage space A, when the liquid level of condensed water collected in the water storage tank 4 is higher than the liquid level from the water outlet end 42 to the high level, the water level detector 11 is triggered, the water supplementing pump 12 is driven to work to pump a small amount of condensed water in the water storage tank 4 to the inner cavity 1003 of the evaporation box 1002, so that the absorbent cotton 1004 in the inner cavity 1003 absorbs the condensed water, the condensed water is dispersed, the area of the condensed water contacting air is increased, the evaporation process is realized, when the water supplementing pump 12 detects that no load state exists (no water can be pumped), the water level in the water storage tank 4 is judged to be lower than the water supplementing end 43, and the water supplementing pump 12 stops working;

in this process, radiating fin 92 absorbs the heat of the cooling terminal surface of refrigeration piece 501, and the air outlet 911 of fan 91 is then just to radiating fin 92's heat dissipation wind channel 921, the air flows through heat dissipation wind channel 921 and takes away the heat realization heat dissipation of refrigeration piece 501, and it is hot-blast to form, hot-blast cotton 1004 that absorbs water that blows makes the evaporation of water and takes away the cabinet body, liquid level in until storage water tank 4 is less than the detection position of level detector 11 or sets for the liquid level value, should set for and guarantee that can deposit in storage water tank 4 and be close to the water yield full-load and supply liquid reserve tank 3 to use, and the storage water tank 4 overfilling problem can not appear.

The cabinet body 1 comprises an inner container 101 for limiting a storage space, the electronic sieve oxygen generation module 2 is attached to the side wall of the inner container 101, the side wall is provided with a plurality of communication ports 102 for communicating an air inlet end 21 of the electronic sieve oxygen generation module 2 with the storage space A, and the liquid storage tank 3 is arranged at the top of the inner container 101; the position of installing liquid reserve tank 3 is higher than electronic sieve system oxygen module 2, can make electrolyte can flow into electronic sieve system oxygen module 2 automatically in the liquid reserve tank 3, need not set up the pump body and carry out mechanical fluid infusion.

The top of the water storage tank 4 is provided with an air exhaust end 44, and the air exhaust end 44 is communicated with the storage space A; when water receiving box 6 when 4 discharge comdenstion waters of storage water tank, sealed storage water tank 4 need outside exhaust air, and with the air-discharge storage space A in, can guarantee the leakproofness in the storage space A at the deoxidization in-process, prevent that the oxygen content in the storage space A from resumeing into in the storage space A through storage water tank 4, causes the storage space A to restore.

Offer one time filling opening 301 on the liquid reserve tank 3, be connected with spiral cover 302 on one time filling opening 301, during production assembly, the workman can seal more firmly through spiral cover 302 and establish one time filling opening 301 in pouring into liquid reserve tank 3 with electrolyte through one time filling opening 301, avoids transporting the weeping problem in the handling.

The foregoing is a preferred embodiment of the present invention showing and describing the basic principles, main features and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, but rather that various changes and modifications may be made without departing from the spirit and scope of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. The utility model provides a take deoxidization locker of comdenstion water moisturizing function, includes cabinet body (1) that has storage space (A), its characterized in that: the device also comprises an electronic sieve oxygen generation module (2), a liquid storage tank (3), a water storage tank (4) and a dehumidifying device (5);

the electronic sieve oxygen generation module (2) is provided with an air inlet end (21) and a liquid inlet end (23), and the air inlet end (21) is communicated with the storage space (A);

a liquid storage cavity (B) for storing electrolyte is arranged in the liquid storage tank (3), a liquid outlet end (31) and a first water inlet end (32) which are communicated with the liquid storage cavity (B) are arranged on the liquid storage tank (3), and the liquid outlet end (31) is communicated with a liquid inlet end (23) of the electronic screening oxygen production module (2);

the dehumidification device (5) is communicated with the storage space (A), a water receiving box (6) is mounted below the dehumidification device (5), and the water receiving box (6) is provided with a first water discharging end (61);

the water storage tank (4) is provided with a second water inlet end (41) and a water outlet end (42), the second water inlet end (41) is communicated with a first water discharging end (61) of the water receiving box (6) and collects condensed water generated by the dehumidifying device (5), and the water outlet end (42) is communicated with a first water inlet end (32) of the liquid storage tank (3).

2. The oxygen removal storage cabinet with the condensate water replenishing function as claimed in claim 1, wherein: install suction pump (7) between storage water tank (4) and liquid reserve tank (3), the end (71) of drawing water of suction pump (7) is connected with the play water end (42) that set up in storage water tank (4) bottom, the second drainage end (72) of suction pump (7) is connected with the first end (32) of intaking of liquid reserve tank (3).

3. The oxygen removal storage cabinet with the condensate water replenishing function as claimed in claim 2, wherein: install electrolytic liquid level detecting element (8) with suction pump (7) hookup on liquid reserve tank (3), electrolytic liquid level detecting element (8) include high liquid level monitoring point, well liquid level check point and low liquid level check point at least.

4. The oxygen removal storage cabinet with the condensate water replenishing function as claimed in claim 1, wherein: the cabinet body (1) is also provided with a hot air system (9) and an evaporation device (10) which are matched with the dehumidification device (5); a water storage cavity (4a) is arranged in the water storage tank (4), a water level detector (11) for detecting the high-level liquid level of the water storage cavity (4a) is installed at the top of the water storage cavity, and a water replenishing end (43) is arranged on the water storage tank (4) corresponding to the high-level liquid level; the evaporation device (10) is provided with a water inlet end (1001), the water inlet end (1001) is communicated with a water supplementing end (43) through a water supplementing pump (12), the water supplementing pump (12) is connected with a water level detector (11), the evaporation device (10) is installed at a hot air outlet of a hot air system (9), and hot air is blown out through the hot air system (9) to accelerate water evaporation on the evaporation device (10).

5. The oxygen removal storage cabinet with the condensate water replenishing function as claimed in claim 1, wherein: still be provided with air exhaust port (24) on electron sieve system oxygen module (2), still be provided with air inlet (33) with stock solution chamber (B) intercommunication on liquid reserve tank (3), air inlet (33) and air exhaust port (24) intercommunication.

6. The oxygen removal storage cabinet with the condensate water replenishing function as claimed in claim 4, wherein: dehumidification device (5) are including setting up refrigeration piece (501) and endothermic fin (502) in storage space (A), the heat absorption terminal surface of refrigeration piece (501) contacts towards the air in storage space (A) and the storage space (A), heat absorption fin (502) are installed on the heat absorption terminal surface of refrigeration piece (501), water receiving box (6) set up the below at heat absorption fin (502), and outside first drainage end (61) of water receiving box (6) extended storage space (A).

7. The oxygen removal storage cabinet with the condensate water replenishing function of claim 6, wherein: the hot air system (9) comprises a fan (91) and radiating fins (92), the radiating fins (92) are connected to the radiating end face of the refrigerating sheet (501), a plurality of radiating air ducts (921) are arranged in the radiating fins (92), the fan (91) is installed on one side of each radiating air duct (921), an air outlet (911) of the fan (91) and the corresponding radiating air duct (921) are arranged in the same direction, an air guide cover (93) is installed on the other side of each radiating air duct (921), and the evaporation device (10) is installed in the air guide cover (93).

8. The oxygen removal storage cabinet with the condensate water replenishing function as claimed in claim 4, wherein: the evaporation device (10) comprises an evaporation box (1002), a box inner cavity (1003) communicated with the water inlet end (1001) is formed in the evaporation box (1002), absorbent cotton (1004) is flatly paved at the bottom of the box inner cavity (1003), and a water blocking cover (1005) is detachably installed in the box inner cavity (1003) corresponding to the water inlet end (1001).

9. The oxygen removal storage cabinet with the condensate water replenishing function as claimed in claim 1, wherein: the cabinet body (1) is including injecing inner bag (101) of storage space, electron sieve system oxygen module (2) are by pasting and install on the lateral wall of inner bag (101), set up a plurality of intercommunication mouth (102) of air inlet end (21) and storage space (A) of intercommunication electron sieve system oxygen module (2) on the lateral wall, the top at inner bag (101) is installed in liquid reserve tank (3).

10. The oxygen removal storage cabinet with the condensate water replenishing function as claimed in claim 1, wherein: the top of the water storage tank (4) is provided with an air exhaust end (44), and the air exhaust end (44) is communicated with the storage space (A).