CN218977991U - Basin formula food material clarifier - Google Patents

Abstract

The utility model discloses a water tank type food material purifier, which comprises a shell, an electrolytic cover arranged at the top of the shell and an electrode assembly for electrolyzing water, wherein the electrode assembly is arranged on the electrolytic cover; the electrolytic cover is arranged on the shell, and the electrolytic cover is arranged on the shell. The utility model can sterilize and disinfect food materials, remove pesticide residues and hormone residues, and avoid excessive electrolysis of water.

Description

Basin formula food material clarifier

Technical Field

The utility model relates to the technical field of food material purification, in particular to a water tank type food material purifier.

Background

Along with the improvement of the living standard of people, the requirements of people on food safety are also increasing. Therefore, a large number of purifiers for sterilizing and disinfecting food materials by means of electrolyzed water appear in the existing market, and although the purifiers can be used for purifying the food materials, the purifiers are often excessively used based on the operation habits of general consumers so as to ensure that the food materials are completely sterilized and purified. Therefore, excessive sodium hypochlorite is generated in the water body after excessive electrolysis, and particularly, the cleaner or common sodium chloride is used in combination at the same time, so that the sodium hypochlorite with high concentration is generated, and certain potential safety hazard exists for the human body.

Disclosure of Invention

The utility model aims to solve the technical problem of providing the water tank type food purifier which can sterilize and disinfect food, remove pesticide residues, hormone residues and the like, and can avoid excessive electrolysis of water.

In order to solve the technical problems, the utility model provides a water tank type food purifier, which comprises a shell, an electrolytic cover arranged at the top of the shell and an electrode assembly for electrolyzing water, wherein the electrode assembly is arranged on the electrolytic cover;

the electrolytic cover is arranged on the shell, and the electrolytic cover is arranged on the shell.

As an improvement of the scheme, the electrode assembly comprises an electrode plate and a conductive column electrically connected with the power supply element, the electrode plate is electrically connected with the conductive column, and the electrolytic cover is provided with a conductive hole for the conductive column to penetrate out.

As an improvement of the above scheme, the electrode plate is provided with a monitoring hole corresponding to the sensing end, and the sensing end passes through the monitoring hole.

The magnetic ring transmitting end is used for wireless power supply, the power supply element is a power supply coil corresponding to the magnetic ring transmitting end, and the magnetic ring transmitting end is sleeved outside the shell.

As the improvement of above-mentioned scheme, still include drainage joint, drainage joint be equipped with the purification chamber of casing looks adaptation, the casing is located purification intracavity.

As an improvement of the scheme, the drainage joint further comprises a magnetic ring shell sleeved outside the drainage joint, and the magnetic ring transmitting end is arranged in the magnetic ring shell.

As an improvement of the scheme, the electrolytic cell also comprises a sterilizing lamp arranged in the shell, wherein the sterilizing lamp is positioned below the electrolytic cover, and the electrolytic cover is made of a light-transmitting material.

As an improvement of the scheme, a pole piece groove for placing the electrode piece is formed in the electrolytic cover, the electrolytic cover is provided with an electrode cover for covering the pole piece groove, and the electrode cover is provided with a water through hole for communicating with the outside.

As an improvement of the scheme, the electrode cover also comprises a host cover covered on the top of the shell, a transition space is formed between the electrode cover and the host cover, and the host cover is provided with a water inlet hole for communicating with the outside.

As an improvement of the above scheme, the electrode assembly further comprises an insulating sheet, and the insulating sheet is sandwiched between two adjacent electrode sheets.

The implementation of the utility model has the following beneficial effects:

the utility model discloses a water tank type food material purifier which comprises a machine shell, an electrolytic cover arranged at the top of the machine shell and an electrode assembly for electrolyzing water, wherein the electrode assembly is arranged on the electrolytic cover, so that when food materials are required to be sterilized and disinfected, the food materials can be soaked in tap water, and then a solution with sterilizing and disinfecting effects, such as hydroxyl water, hydrogen-rich water, hypochlorite solution and the like, is produced in a water body through electrolysis of the electrode assembly.

And the shell is internally provided with a power supply element for supplying power to the electrode assembly and a concentration sensor for controlling the electrode assembly to work, and the sensing end of the concentration sensor penetrates out of the electrolytic cover to detect the concentration of the external preset substances, so that when the concentration sensor detects that the concentration of the predicted substances of the water body reaches a preset value, the working of the electrode assembly can be interrupted to avoid excessive electrolytic work of the electrode assembly, and the occurrence of excessive sodium hypochlorite concentration for example can be prevented.

Drawings

FIG. 1 is a schematic perspective view of a trough-type food purifier according to the present utility model;

FIG. 2 is a schematic cross-sectional view of the trough-type food purifier of the present utility model;

fig. 3 is a schematic exploded view of the water tank type food material purifier of the present utility model.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings, for the purpose of making the objects, technical solutions and advantages of the present utility model more apparent.

Referring to fig. 1, 2 and 3, the present utility model provides a sink-type food purifier, comprising a housing 1, an electrolysis cover 2 provided on the top of the housing 1, and an electrode assembly for electrolyzing water, wherein the electrode assembly is provided on the electrolysis cover 2;

wherein, the casing 1 is internally provided with a power supply element 3 for supplying power to the electrode assembly and a concentration sensor 4 for controlling the electrode assembly to work, and a sensing end 41 of the concentration sensor 4 penetrates out of the electrolytic cover 2 so as to detect the concentration of an external preset substance.

Specifically, the electrode assembly comprises an electrode plate 5 and a conductive post 6 electrically connected with the power supply element 3, the electrode plate 5 is electrically connected with the conductive post 6, and the electrolytic cover 2 is provided with a conductive hole 21 for the conductive post 6 to penetrate. At least 2 electrode plates 5, namely, the electrode plates electrically connected with the cathode and the electrode plates electrically connected with the anode, can be added to improve the electrolysis efficiency. Preferably, electrode tabs 5 electrically connected to the anode are provided between two adjacent electrode tabs 5 electrically connected to the cathode. Since the electrode plates 5 cannot be in direct contact with each other, the electrode assembly further includes an insulating plate 61 between two adjacent electrode plates 5 with the insulating plate 6 interposed therebetween for the convenience of installation between the electrode plates 5. On the other hand, the spacing between the electrode plates 5 can be set at a certain distance by the spacing between the insulating plates 61, so that the mounting pitch between the electrode plates 5 can be prevented from being too small or too large.

Preferably, the electrode sheet 5 has a mesh structure.

Moreover, in order to protect the electrode tab 5 from contact impact of external objects, a tab slot 22 for receiving the electrode tab 5 is provided in the electrolytic cover 2, and an electrode cover 23 for covering the tab slot 22 is provided in the electrolytic cover 2. The electrode cover 23 is provided with a water through hole 231 for communicating with the outside, so that an external water source can flow to the electrode plate 5 through the water through hole 231 for electrolytic treatment.

Further, this embodiment further includes a main cover 11 covering the top of the casing 1, a transition space a is formed between the electrode cover 23 and the main cover 11, the main cover 11 is provided with a water inlet 111 for communicating with the outside, and the arrangement of the electrode cover 23 primarily blocks external foreign matters or sundries, so as to avoid the foreign matters from directly passing through the water inlet 231 of the electrolytic cover 2 and damaging the electrode plate 5.

Based on the water environment of the product, more sodium hypochlorite can be generated after the water body is electrolyzed, the concentration sensor 4 can be a sodium hypochlorite sensor, the sensing end 41 of the concentration sensor is generally a titanium alloy probe, the PH value of tap water is 6.5-8.5 because sodium hypochlorite belongs to strong alkali weak acid salt, the PH value can be reduced along with the rise of the concentration of sodium hypochlorite in the electrolysis process, the current efficiency of a titanium alloy anode can be reduced slowly, and the concentration of sodium hypochlorite in the water body can be calculated according to the current efficiency, so that the technology is the prior art, and the detailed structural principle of the technology is not repeated.

Therefore, when the concentration sensor 4 detects that the predicted substance concentration of the water body reaches the preset value, the excessive electrolysis operation of the electrode assembly can be avoided by interrupting the operation of the electrode assembly, and the occurrence of, for example, the excessive concentration of sodium hypochlorite can be prevented. Correspondingly, for different water environments, the corresponding concentration sensor can be selected according to main harmful substances generated after electrolysis.

In order to make the detection of the concentration sensor 4 more sensitive, it is ensured that the monitored concentration value is larger than the average concentration of the whole water body, the electrode plate 5 is provided with a monitoring hole 51 corresponding to the sensing end 41, and the sensing end 41 passes through the monitoring hole 51. By this arrangement, the sensing end 41 of the concentration sensor 4 can be made closer to the source of the desired monitoring substance, and since the concentration of the desired monitoring substance is higher at the source than elsewhere, when the concentration monitored there is no more than a preset value, the corresponding substance concentration of the whole water body can be ensured not to exceed a preset safety value.

For the power supply of the electrode assembly and the concentration sensor 4, the power supply element 3 may be a battery.

More preferably, the power supply element 3 is a power supply coil, and a coil slot 12 and a coil frame 13 for mounting the power supply coil are provided in the housing 1. Correspondingly, the embodiment further comprises a magnetic ring transmitting end 7 for wireless power supply, and the magnetic ring transmitting end 7 and the power supply coil are correspondingly arranged. The power supply coil and the magnetic ring transmitting end 7 are equivalent to a split sensing transformer, which is the prior art, namely, the primary and the secondary of the transformer are independently separated, and when combined, the electromagnetic effect is utilized to realize the effect of wireless power supply. Correspondingly, the magnetic ring transmitting end 7 is electrically connected with a household appliance power supply.

The embodiment further comprises a drainage joint 8 and a magnetic ring shell 9 sleeved outside the drainage joint 8, the drainage joint 8 is provided with a purification cavity 81 matched with the shell 1, the shell 1 is arranged in the purification cavity 81, and the magnetic ring transmitting end 7 is arranged in the magnetic ring shell 9. The inner wall of the magnetic ring shell 9 and the outer wall of the drain joint 8 are respectively provided with a threaded part for mutual threaded connection.

The drain connector can serve as a drainer of a bowl washing groove, the bottom of the drain connector is provided with a drain port, when food materials are required to be purified, the shell 1 can be utilized to be inserted into the purifying cavity 81 of the drain connector 8, and the drain port is plugged, so that the requirements of water storage and food material soaking are met. Accordingly, when the purge is completed or the purge is not required, the casing 1 may be pulled out.

Further, in order to improve the sterilization effect on the food material, the embodiment further includes a UVC sterilization lamp 14 disposed in the housing 1, the UVC sterilization lamp 14 is located below the electrolytic cover 2, the UVC sterilization lamp 14 is electrically connected with the power supply element 3, and the electrolytic cover 2 is made of a food-grade light-transmitting material. Preferably, the sterilizing lamp is a UVC ultraviolet LED lamp. The electrolytic cover 2 can make ultraviolet rays irradiate food materials and water more directly so as to effectively realize the sterilization and disinfection effect of the ultraviolet rays.

While the foregoing is directed to the preferred embodiments of the present utility model, it will be appreciated by those skilled in the art that changes and modifications may be made without departing from the principles of the utility model, such changes and modifications are also intended to be within the scope of the utility model.

Claims (10)

1. The water tank type food purifier is characterized by comprising a shell, an electrolytic cover arranged at the top of the shell and an electrode assembly for electrolyzing water, wherein the electrode assembly is arranged on the electrolytic cover;

the electrolytic cover is arranged on the shell, and the electrolytic cover is arranged on the shell.

2. The sink-type food purifier of claim 1, wherein the electrode assembly comprises an electrode sheet and a conductive post electrically connected to the power supply element, the electrode sheet is electrically connected to the conductive post, and the electrolytic cap is provided with a conductive hole through which the conductive post passes.

3. The sink-type food purifier of claim 2 wherein the electrode sheet is provided with a monitor hole corresponding to the sensing end, the sensing end passing through the monitor hole.

4. The sink type food purifier of claim 1 further comprising a magnetic ring transmitting end for wireless power supply, wherein the power supply element is a power supply coil corresponding to the magnetic ring transmitting end, and the magnetic ring transmitting end is sleeved outside the casing.

5. The sink type food purifier of claim 4 further comprising a drain connector, wherein the drain connector is provided with a purification chamber adapted to the housing, and wherein the housing is disposed within the purification chamber.

6. The sink type food purifier of claim 5 further comprising a magnetic ring housing sleeved outside the drain joint, the magnetic ring transmitting end being disposed in the magnetic ring housing.

7. The sink type food purifier of claim 1 further comprising a germicidal lamp disposed within the housing, the germicidal lamp being positioned below the electrolytic cover, the electrolytic cover being made of a light transmissive material.

8. The water tank type food purifier as set forth in claim 2, wherein a pole piece groove for placing the electrode piece is provided in the electrolytic cover, the electrolytic cover is provided with an electrode cover for covering the pole piece groove, and the electrode cover is provided with a water through hole for communicating with the outside.

9. The sink type food purifier of claim 8 further comprising a main cover covering the top of the housing, wherein a transition space is formed between the electrode cover and the main cover, and the main cover is provided with a water inlet hole for communicating with the outside.

10. The sink-type food purifier of claim 2 wherein the electrode assembly further comprises an insulating sheet, the insulating sheet being sandwiched between adjacent electrode sheets.

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