CN218650917U - Eat material cabinet with prevent dense and leak protection water system - Google Patents

Abstract

The utility model relates to an edible material cabinet with an anti-over-concentration and anti-water leakage system, which comprises a cabinet body with a storage cavity, a main control panel, a liquid storage tank, an electronic sieve oxygen generation module and a circulating pump; a liquid storage cavity for storing electrolyte is arranged in the liquid storage box, and a liquid outlet and an electrolyte return port which are communicated with the liquid storage cavity are arranged on the liquid storage box; an oxygen generating chamber is arranged in the electronic sieve oxygen generating module, an oxygen outlet channel and a liquid supplementing port which are arranged at the upper part of the module and a module liquid outlet which is arranged at the lower part of the module are arranged on the electronic sieve oxygen generating module, and the liquid supplementing port is communicated with the liquid outlet; the circulating pump is provided with a liquid inlet end and a liquid outlet end, the liquid inlet end is communicated with the module liquid outlet, the liquid outlet end is communicated with the electrolyte backflow port, and the circulating pump is driven by the main control panel to enable the electrolyte in the oxygen generation cavity and the electrolyte storage cavity to circularly flow; this structure makes the electrolyte in stock solution chamber and the system oxygen chamber can the circulation flow through the circulating pump, avoids making the electrolyte in the system oxygen chamber local too thick and cause the crystallization condition.

Description

Eat material cabinet with prevent dense and leak protection water system

Technical Field

The utility model relates to an eat the material cabinet field, specifically be an eat material cabinet with prevent excessive concentration and leak protection water system.

Background

At present, as shown in the structure of "a deoxygenation storage cabinet with electrolyte supplement system" of chinese patent document, application No. cn202011509518.X, the deoxygenation storage cabinet removes oxygen part of air in a storage space through an electronic sieve oxygen generation module for fresh-keeping storage (fresh-keeping of dry goods, fruits, food, etc.), preservation storage (storage of valuables such as jewelry, collection, etc.), and in the using process, the oxygen generation module is connected with the electronic sieve oxygen generation module through a liquid storage tank, so as to supplement electrolyte to the electronic sieve oxygen generation module at any time, thereby preventing the oxygen removal efficiency from being reduced due to too little electrolyte in the electronic sieve oxygen generation module, but the liquid storage tank can only supplement liquid to the electronic sieve oxygen generation module in one way, so in the actual using process, the electrolyte at the bottom of the electronic sieve oxygen generation module is too concentrated, which results in crystallization, the case of crystallization can affect the deoxygenation efficiency, seriously damage the electronic sieve oxygen generation module, in addition, when the electronic sieve oxygen generation module leaks liquid due to damage or other factors, the leaked electrolyte can contact with the damage of the storage cabinet, the reduction of the service life of the storage cabinet needs to be further improved, thereby avoiding the defects.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve above-mentioned current problem, provide a simple structure, reasonable one kind have prevent the food material cabinet of concentrated and leak protection water system, its main action is the electrolyte of avoiding making in the oxygen chamber is local too concentrated and causes the crystallization condition.

An food material cabinet with an over-concentration prevention and water leakage prevention system comprises a storage cavity with the storage cavity, a main control panel, a liquid storage tank, an electronic sieve oxygen generation module and a circulating pump, wherein the electronic sieve oxygen generation module and the circulating pump are electrically connected with the main control panel;

a liquid storage cavity for storing electrolyte is arranged in the liquid storage tank, and a liquid outlet and an electrolyte return port which are communicated with the liquid storage cavity are arranged on the liquid storage tank;

an oxygen generation chamber for storing electrolyte is arranged in the electronic sieve oxygen generation module, an oxygen outlet channel and a liquid supplementing port which are arranged at the upper part of the module and a module liquid outlet which is arranged at the lower part of the module are arranged on the electronic sieve oxygen generation module, and the liquid supplementing port is communicated with the liquid outlet;

the circulating pump is provided with a liquid inlet end and a liquid outlet end, the liquid inlet end is communicated with the module liquid outlet, the liquid outlet end is communicated with the electrolyte backflow port, and the circulating pump drives the electrolyte in the oxygen generation cavity and the liquid storage cavity to circularly flow through the main control panel.

The purpose of the utility model can also adopt the following technical measures to solve:

as a more specific scheme, the electronic sieve oxygen generation device further comprises a leaked liquid collection box, a sealed containing cavity is formed in the leaked liquid collection box, the electronic sieve oxygen generation module is arranged in the sealed containing cavity, an oxygen-containing air inlet used for sucking air in the storage cavity into the sealed containing cavity is formed in the lower portion of the leaked liquid collection box, and a deoxygenated air exhaust port used for discharging oxygen-free or hypoxic air in the sealed containing cavity into the storage cavity is formed in the upper portion of the leaked liquid collection box.

As a further scheme, a leakage liquid outlet is formed in the bottom of the leakage liquid collecting box, and a leakage liquid return port is formed in the liquid storage tank corresponding to the leakage liquid outlet; the leakage water pump is provided with a leakage liquid inlet end and a leakage liquid outlet end, the leakage liquid inlet end is communicated with the leakage liquid outlet, and the leakage liquid outlet end is communicated with the leakage liquid return port.

As a further scheme, two electrode assembly ports are arranged at the bottom of the leakage collecting box at intervals, a detection anode and a detection cathode which are electrically connected with the main control panel are respectively installed in the two electrode assembly ports, and when leakage in the closed containing cavity is communicated with the detection anode and the detection cathode, the main control panel starts the leakage water suction pump to work.

As a further scheme, still including the buffer memory water tank, be provided with buffer memory water tank inlet, buffer memory water tank liquid outlet on the buffer memory water tank and be used for overflow drainage, carminative buffer memory water tank external overflow mouth, the buffer memory water tank inlet communicates with the weeping leakage fluid-discharge outlet that the box was collected to the weeping, buffer memory water tank liquid outlet communicates with the weeping inlet end of weeping suction pump.

As a further scheme, the leakage collecting box comprises a lower box body, an upper box body and a box cover; the upper box body covers the upper part of the lower box body and defines a closed containing cavity, the bottom of the upper box body is provided with mounting slots corresponding to the number of the electronic screening oxygen generation modules, and the tops of the electronic screening oxygen generation modules are assembled and connected to the mounting slots; the box cover covers the upper part of the upper box body and limits the liquid supplementing and oxygen discharging cavity, and the liquid supplementing and oxygen discharging cavity is communicated with the liquid supplementing port.

As a further scheme, the bottom of the lower box body is provided with a leakage liquid outlet and two electrode assembly ports, the leakage liquid outlet is arranged between the two electrode assembly ports, and the oxygen-carrying air inlet and the oxygen-removing air outlet are arranged on the same side of the lower box body; the side wall of the upper box body is provided with an upper box body liquid inlet communicated with the liquid supplementing and oxygen discharging cavity, and the upper box body liquid inlet is communicated with the liquid outlet; the top of the box cover is provided with an oxygen discharge port communicated with the liquid supplementing and oxygen discharging cavity, and the oxygen discharge port is communicated with the outside air.

As a further scheme, a liquid supplementing oxygen outlet combining an oxygen outlet channel and a liquid supplementing port is formed in the top of the side face of the electronic sieve oxygen generation module, a connecting pipe extends downwards from the bottom of the upper box body, and the connecting pipe is provided with a connecting pipe liquid outlet in butt joint with the liquid supplementing oxygen outlet; the closed containing cavity is also internally provided with a parallel connection box, the parallel connection box is provided with a parallel connection box liquid inlet which is in butt joint with the module liquid outlet, the bottom of the parallel connection box is provided with a parallel connection box liquid outlet which extends out of the outer side of the lower box body, and the parallel connection box liquid outlet is communicated with the liquid inlet end of the circulating pump.

As a further scheme, the device also comprises a water replenishing tank with a visual window, wherein the water replenishing tank is provided with an oxygen inlet, a water replenishing tank liquid outlet, a balanced air pressure air inlet and an overflow receiving port;

the oxygen inlet is communicated with the oxygen exhaust port;

the liquid storage tank is provided with a water filling port, a balanced air pressure air outlet and a liquid storage tank overflow port which are communicated with the liquid storage cavity; the liquid outlet of the water replenishing tank is communicated with the water filling port, and the balanced air pressure air outlet is communicated with the balanced air pressure air inlet;

the buffer water tank is also provided with an internal overflow port of the buffer water tank, and the internal overflow port of the liquid storage tank and the internal overflow port of the buffer water tank are communicated with the overflow receiving port.

As a further scheme, a threading opening communicated with the upper part of the closed accommodating cavity is formed in the leakage collecting box.

The utility model has the advantages as follows:

the utility model discloses an eat material cabinet with prevent excessive concentration and leak protection water system, this structure makes the electrolyte in the oxygen generation cavity in stock solution chamber and the electron sieve oxygen generation module can the circulation flow through the circulating pump in the use, mainly avoids the electrolyte of oxygen generation cavity bottom to appear local excessive concentration to prevent the crystallization condition that the electrolyte excessive concentration caused, guarantee the deoxidization efficiency of electron sieve oxygen generation module.

The utility model discloses an eat material cabinet with prevent excessive concentration and leak protection water system, collect box-packed electronic sieve system oxygen module of holding through the weeping, when the condition of leaking appears in electronic sieve system oxygen module or tube coupling department, can collect the box through the weeping and collect the weeping, and after the weeping volume intercommunication detects anodal and detects the negative pole, the main control panel can inform the user through the means information of leaking, and can start the weeping suction pump and collect the interior weeping of box with the weeping and take away outward and discharge or recycle, avoid the weeping to spill over the electronic parts work that influences eating the material cabinet.

Drawings

Fig. 1 is a schematic view of the structure of the over-concentration and water leakage preventing system of the present invention.

Fig. 2 is the structural schematic diagram of the leakage collecting box of the present invention.

Fig. 3 is a schematic structural view of the electronic sieve oxygen production module of the present invention.

Fig. 4 is the sectional structure diagram of the electronic sieve oxygen generation module and the leakage collection box of the utility model.

Fig. 5 is the exploded structure schematic diagram of the electronic sieve oxygen generation module and the leakage collection box of the utility model.

Detailed Description

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

As shown in fig. 1 to 5: an food material cabinet with an over-concentration prevention and water leakage prevention system comprises a cabinet body 1 with a storage cavity A, a main control panel 2, a liquid storage tank 3, an electronic sieve oxygen generation module 4 and a circulating pump 5, wherein the electronic sieve oxygen generation module 4 and the circulating pump are electrically connected with the main control panel 2;

a liquid storage cavity for storing electrolyte is arranged in the liquid storage box 3, and a liquid outlet 301 and an electrolyte return opening 302 which are communicated with the liquid storage cavity are arranged on the liquid storage box 3;

an oxygen generating chamber for storing electrolyte is arranged in the electronic sieve oxygen generating module 4, an oxygen outlet channel and a liquid supplementing port which are arranged at the upper part of the module and a module liquid outlet 401 which is arranged at the lower part of the module are arranged on the electronic sieve oxygen generating module 4, and the liquid supplementing port is communicated with the liquid outlet 301;

the circulating pump 5 is provided with a liquid inlet end 501 and a liquid outlet end 502, the liquid inlet end 501 is communicated with the module liquid outlet 401, the liquid outlet end 502 is communicated with the electrolyte return opening 302, and the circulating pump 5 drives the electrolyte in the oxygen making chamber and the liquid storage chamber to circularly flow through the main control panel 2.

The electrolyte in the system oxygen cavity that this structure made liquid storage chamber and electron sieve system oxygen module in the use can circulate and flow through the circulating pump, and the local excessive concentration appears in the electrolyte of mainly avoiding making oxygen cavity bottom to prevent the crystallization condition that electrolyte excessive concentration caused, guarantee the deoxidization efficiency of electron sieve system oxygen module.

The electronic sieve oxygen generation module 4 is assembled and accommodated in the closed accommodating cavity 601 through the leakage collecting box 6, and when the electronic sieve oxygen generation module 4 or a pipeline joint has a water leakage condition, leakage can be collected through the leakage collecting box 6;

an oxygen-containing air inlet 602 for sucking air in the storage cavity A into the closed cavity 601 is arranged at the lower part of the leakage collecting box 6, and a deoxygenated air outlet 603 for discharging oxygen-free or hypoxic air in the closed cavity 601 into the storage cavity A is arranged at the upper part of the leakage collecting box 6;

the principle that the positions of the oxygen-carrying air inlet 602 and the oxygen-removing air outlet 603 are arranged up and down is as follows: two opposite end faces of the electronic sieve oxygen generation module 4 are in contact with air of the leakage collection box 6, the air is sucked from the storage cavity through the air inlet 602 with oxygen, wherein the air enters the oxygen generation chamber from one end face of the electronic sieve oxygen generation module 4, the oxygen-free or low-oxygen air is discharged from the other end face of the electronic sieve oxygen generation module 4 after the oxygen in the air is screened by the oxygen generation chamber, and the oxygen-free or low-oxygen air floats on the upper portion of the closed containing cavity 601 because the density of the oxygen-free or low-oxygen air is lower than that of normal air, and the normal air is deposited on the lower portion of the closed containing cavity 601;

a leakage liquid outlet 604 is formed in the bottom of the leakage liquid collecting box 6, and a leakage liquid return port 303 is formed in the liquid storage tank 3 corresponding to the leakage liquid outlet 604; the leakage water pump is characterized by further comprising a leakage water pump 7, wherein a leakage liquid inlet end 701 and a leakage liquid outlet end 702 are arranged on the leakage water pump 7, the leakage liquid inlet end 701 is communicated with a leakage liquid outlet 604, and the leakage liquid outlet end 702 is communicated with a leakage liquid return port 303.

The bottom of the leaked liquid collecting box 6 is provided with two electrode assembling ports 605 at intervals, a detection anode 81 and a detection cathode 82 which are electrically connected with the main control panel 2 are respectively installed in the two electrode assembling ports 605, and when leaked liquid in the closed containing cavity 601 is communicated with the detection anode 81 and the detection cathode 82, the main control panel 2 starts the leaked liquid water pump 7 to work; the detection anode 81 and the detection cathode 82 are arranged at the bottommost part of the leakage collection box 6, after the leakage amount is enough to communicate the detection anode 81 and the detection cathode 82, the main control panel 2 can inform a user of water leakage information through means, and can start the leakage water suction pump 7 to pump away the leakage in the leakage collection box 6 outwards or recycle the leakage, so that the leakage is prevented from overflowing to affect the work of electronic components of the food material cabinet.

The leakage water collection box is characterized by further comprising a buffer water tank 9, wherein a buffer water tank inlet 901, a buffer water tank outlet 902 and a buffer water tank external overflow port 903 for overflow drainage and exhaust are arranged on the buffer water tank 9, the buffer water tank inlet 901 is communicated with a leakage liquid outlet 604 of the leakage liquid collection box 6, and the buffer water tank outlet 902 is communicated with a leakage liquid inlet end 701 of the leakage liquid water pump 7; in the weeping in the box 6 is collected to the weeping can earlier automatic flow into cache water tank 9, can reduce the operating frequency of weeping suction pump 7, but still there is the stock solution space in the stock solution chamber and cache water tank 9 is full of liquid and trigger and detect anodal 81 and detect negative pole 82 after, the weeping suction pump 7 work piece is with the partial electrolyte suction in the cache water tank 9 stock solution intracavity recycle.

In addition, when liquid reserve tank 3 and buffer tank 9 appeared full liquid simultaneously, can not be through in electrolyte suction liquid reserve tank 3 of weeping suction pump 7 in with buffer tank 9, consequently the weeping can spill over to the outside of eating the material cabinet through buffer tank external overflow mouth 903 to can also be through the exhaust of buffer tank external overflow mouth 903, make can keep atmospheric pressure balanced in the buffer tank 9.

And the buffer water tank 9 can also collect the condensed water generated by the dehumidification module 11 in the food material cabinet in the dehumidification process.

The leakage liquid collecting box 6 comprises a lower box body 61, an upper box body 62 and a box cover 63; the upper box body 62 covers the upper part of the lower box body 61 and defines a closed containing cavity 601, the bottom of the upper box body 62 is provided with mounting slots 621 corresponding to the number of the electronic sieve oxygen generation modules 4, the top of each electronic sieve oxygen generation module 4 is assembled and connected to the mounting slots 621, and two or more electronic sieve oxygen generation modules 4 can be positioned and assembled in the closed containing cavity 601 through the mounting slots 621; the box cover 63 covers the upper part of the upper box body 62 and defines a liquid supplementing and oxygen discharging cavity 622, and the liquid supplementing and oxygen discharging cavity 622 is communicated with the liquid supplementing port; oxygen and the replenished electrolyte can be buffered through the replenishment and oxygen removal chamber 622.

The bottom of the lower box body 61 is provided with a leakage liquid outlet 604 and two electrode assembly ports 605, the leakage liquid outlet 604 is arranged between the two electrode assembly ports 605, and the oxygen-containing air inlet 602 and the oxygen-removing air outlet 603 are arranged on the same side of the lower box body 61; an upper box body liquid inlet 623 communicated with the liquid supplementing and oxygen discharging cavity 622 is arranged on the side wall of the upper box body 62, and the upper box body liquid inlet 623 is communicated with the liquid outlet 301; the top of the box cover 63 is provided with an oxygen discharge port 631 which is communicated with the liquid supplementing and oxygen discharging cavity 622, and the oxygen discharge port 631 is communicated with the outside air.

A liquid supplementing oxygen outlet 402 combining an oxygen outlet channel and a liquid supplementing port is formed in the top of the side face of the electronic sieve oxygen generation module 4, a connecting pipe 624 extends downwards from the bottom of the upper box body 62, and the connecting pipe 624 is provided with a connecting pipe liquid outlet 625 butted with the liquid supplementing oxygen outlet 402; a parallel connection box 64 is further arranged in the closed containing cavity 601, a parallel connection box liquid inlet 641 which is in butt joint with the module liquid outlet 401 is formed in the parallel connection box 64, a parallel connection box liquid outlet 642 which extends out of the outer side of the lower box body 61 is formed in the bottom of the parallel connection box 64, and the parallel connection box liquid outlet 642 is communicated with a liquid inlet end 501 of the circulating pump 5.

Electrolyte in the electronic sieve oxygen generation module 4 sequentially passes through the oxygen generation chamber, the module liquid outlet 401, the parallel connection box liquid inlet 641, the parallel connection box 64 inner cavity, the parallel connection box liquid outlet 642, the circulating pump 5, the electrolyte return opening 302, the liquid storage cavity, the liquid outlet 301, the upper box liquid inlet 623, the liquid supplementing and oxygen discharging cavity 622, the connecting pipe 624 and the connecting pipe liquid outlet 625, and finally enters the oxygen generation chamber again through the liquid supplementing and oxygen outlet 402.

The device also comprises a water replenishing tank 10 with a visual window, wherein the water replenishing tank 10 is provided with an oxygen inlet 101, a water replenishing tank liquid outlet 102, a balanced air pressure air inlet 103 and an overflow receiving port 104;

the oxygen inlet 101 is communicated with the oxygen outlet 631, oxygen generated by the electronic sieve oxygen generation module 4 is discharged into the water replenishing tank 10, the oxygen generates a bubbling phenomenon after entering the water replenishing tank 10, a user can observe the bubbling condition in the water replenishing tank 10 through the visual window, the working state and the working efficiency of the electronic sieve oxygen generation module 4 are visually judged, and the problem that the information is asymmetric due to damage of a detection element of the digital display electronic sieve oxygen generation module 4 is solved;

a water filling port 304 communicated with the liquid storage cavity, a balanced air pressure air outlet 305 and a liquid storage tank overflow port 306 are arranged on the liquid storage tank 3; the liquid outlet 102 of the water replenishing tank is communicated with the water filling port 304, and the liquid storage tank 3 and the water replenishing tank 10 are arranged at the same horizontal height, so that a communicating vessel principle is formed, a user can judge the surplus of the electrolyte in the liquid storage tank 3 by observing the liquid level condition of the water replenishing tank 10 through a visual window, and when the electrolyte in the liquid storage tank 3 is too little, the electrolyte can be added through the water replenishing tank 10 in time;

the balanced air pressure air inlet 103 is communicated with a balanced air pressure air outlet 305; because the liquid storage cavity is in a closed state, when the water replenishing tank 10 adds water to the liquid storage tank 3, air in the liquid storage cavity needs to be released through the balanced air pressure air outlet 305, the balanced air pressure air inlet 103 and the water replenishing tank 10, so that the pressure in the liquid storage tank 3 is balanced;

the buffer water tank 9 is also provided with a buffer water tank inner overflow port 904, and the liquid storage tank overflow port 306 and the buffer water tank inner overflow port 904 are communicated with the overflow receiving port 104; in addition, the buffer water tank 9 and the liquid storage tank 3 can perform overflow drainage and exhaust of the internal overflow port 904 and the liquid storage tank overflow port 306 through the buffer water tank.

The leakage liquid collecting box 6 is provided with a threading port 606 communicated with the upper part of the closed containing cavity 601; the power cord that electron sieve system oxygen module 4 is connected draws out the weeping through the threading mouth and collects the box 6 outer with main control panel 2 electric connection.

The structure and principle of the above-mentioned electronic sieve oxygen generation module 4 belong to the prior art and are not elaborated again.

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 (10)

1. The utility model provides an eat material cabinet with prevent dense and leak protection water system, includes cabinet body (1) and main control panel (2) that have storing chamber (A), its characterized in that: the device also comprises a liquid storage tank (3), an electronic sieve oxygen generation module (4) and a circulating pump (5), wherein the electronic sieve oxygen generation module and the circulating pump are electrically connected with the main control board (2);

a liquid storage cavity for storing electrolyte is arranged in the liquid storage box (3), and a liquid outlet (301) and an electrolyte return port (302) which are communicated with the liquid storage cavity are arranged on the liquid storage box (3);

an oxygen generating chamber for storing electrolyte is arranged in the electronic sieve oxygen generating module (4), an oxygen outlet channel and a liquid supplementing port which are arranged at the upper part of the module and a module liquid outlet (401) which is arranged at the lower part of the module are arranged on the electronic sieve oxygen generating module (4), and the liquid supplementing port is communicated with the liquid outlet (301);

be provided with feed liquor end (501) and play liquid end (502) on circulating pump (5), feed liquor end (501) and module leakage fluid dram (401) intercommunication, go out liquid end (502) and electrolyte backward flow mouth (302) intercommunication, circulating pump (5) make the electrolyte circulation flow in oxygenerator cavity and the stock solution intracavity through main control panel (2) drive.

2. The food material cabinet with the over-concentration and water leakage prevention system as claimed in claim 1, wherein: still collect box (6) including the weeping, it is provided with airtight appearance chamber (601) in weeping collection box (6), electron sieve system oxygen module (4) set up in airtight appearance chamber (601), and the lower part of weeping collection box (6) is provided with and is used for taking oxygen air inlet (602) in airtight appearance chamber (601) with the air suction in storing chamber (A), the upper portion of weeping collection box (6) is provided with and is used for not containing oxygen or the deoxidization air vent (603) of low oxygen air discharge in storing chamber (A) in airtight appearance chamber (601).

3. The food material cabinet with the over-concentration and water leakage prevention system as claimed in claim 2, wherein: a leakage liquid outlet (604) is formed in the bottom of the leakage liquid collecting box (6), and a leakage liquid return port (303) is formed in the liquid storage box (3) corresponding to the leakage liquid outlet (604); still including weeping suction pump (7), be provided with weeping inlet end (701) and weeping play liquid end (702) on weeping suction pump (7), weeping inlet end (701) and weeping leakage fluid-discharge outlet (604) intercommunication, weeping play liquid end (702) and weeping return port (303) intercommunication.

4. The food material cabinet with the over-concentration and water leakage prevention system as claimed in claim 3, wherein: the bottom of the leaked liquid collecting box (6) is provided with two electrode assembling ports (605) at intervals, a detection anode (81) and a detection cathode (82) which are electrically connected with the main control panel (2) are respectively installed in the two electrode assembling ports (605), and when the leaked liquid in the sealed accommodating cavity (601) is communicated with the detection anode (81) and the detection cathode (82), the main control panel (2) starts the leaked liquid water suction pump (7) to work.

5. The food material cabinet with the over-concentration and water leakage prevention system as claimed in claim 3, wherein: the novel sewage treatment device is characterized by further comprising a cache water tank (9), wherein a cache water tank inlet (901), a cache water tank outlet (902) and an external overflow port (903) of the cache water tank for overflow drainage and exhaust are arranged on the cache water tank (9), the cache water tank inlet (901) is communicated with a leakage liquid outlet (604) of the leakage liquid collecting box (6), and the cache water tank outlet (902) is communicated with a leakage liquid inlet end (701) of the leakage liquid suction pump (7).

6. The food material cabinet with the over-concentration and water leakage prevention system as claimed in claim 5, wherein: the leakage liquid collecting box (6) comprises a lower box body (61), an upper box body (62) and a box cover (63); the upper box body (62) covers the upper part of the lower box body (61) and defines a closed containing cavity (601), mounting slots (621) with the number corresponding to that of the electronic sieve oxygen generation modules (4) are formed in the bottom of the upper box body (62), and the tops of the electronic sieve oxygen generation modules (4) are assembled and connected to the mounting slots (621); the box cover (63) covers the upper part of the upper box body (62) and limits a liquid supplementing and oxygen discharging cavity (622), and the liquid supplementing and oxygen discharging cavity (622) is communicated with the liquid supplementing port.

7. The food material cabinet with the over-concentration and water leakage prevention system as claimed in claim 6, wherein: the bottom of the lower box body (61) is provided with a leakage liquid outlet (604) and two electrode assembly ports (605), the leakage liquid outlet (604) is arranged between the two electrode assembly ports (605), and the oxygen-bearing air inlet (602) and the deoxidation air outlet (603) are arranged on the same side of the lower box body (61) and are arranged on the same side of the lower box body; an upper box body liquid inlet (623) communicated with the liquid supplementing and oxygen discharging cavity (622) is formed in the side wall of the upper box body (62), and the upper box body liquid inlet (623) is communicated with the liquid outlet (301); the top of the box cover (63) is provided with an oxygen discharge port (631) communicated with the liquid supplementing and oxygen discharging cavity (622), and the oxygen discharge port (631) is communicated with the outside air.

8. The food material cabinet with the over-concentration and water leakage prevention system as claimed in claim 6, wherein: the top of the side surface of the electronic sieve oxygen generation module (4) is provided with a liquid supplementing oxygen outlet (402) which is combined with an oxygen outlet channel and a liquid supplementing port, the bottom of the upper box body (62) extends downwards to form a connecting pipe (624), and the connecting pipe (624) is provided with a connecting pipe liquid outlet (625) which is butted with the liquid supplementing oxygen outlet (402); a parallel connection box (64) is further arranged in the closed cavity (601), a parallel connection box liquid inlet (641) which is in butt joint with the module liquid outlet (401) is formed in the parallel connection box (64), a parallel connection box liquid outlet (642) which extends out of the outer side of the lower box body (61) is formed in the bottom of the parallel connection box (64), and the parallel connection box liquid outlet (642) is communicated with a liquid inlet end (501) of the circulating pump (5).

9. The food material cabinet with the over-concentration and water leakage prevention system as claimed in claim 5, wherein: the device is characterized by also comprising a water replenishing tank (10) with a visual window, wherein an oxygen inlet (101), a water replenishing tank liquid outlet (102), a balanced air pressure air inlet (103) and an overflow receiving port (104) are arranged on the water replenishing tank (10);

the oxygen inlet (101) is communicated with the oxygen exhaust port (631);

a water filling port (304) communicated with the liquid storage cavity, a balanced air pressure air outlet (305) and a liquid storage tank overflow port (306) are arranged on the liquid storage tank (3); the liquid outlet (102) of the water replenishing tank is communicated with a water filling port (304), and the balanced air pressure air inlet (103) is communicated with a balanced air pressure air outlet (305);

still be provided with buffer water tank internal overflow mouth (904) on buffer water tank (9), internal overflow mouth (904) and overflow receiving port (104) intercommunication are held in buffer water tank overflow mouth (306) and buffer water tank.

10. The food material cabinet with the over-concentration and water leakage prevention system as claimed in claim 2, wherein: and a threading opening (606) communicated with the closed cavity (601) is formed in the leakage collecting box (6).

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