CN210961684U - Vegetable washer with water catalyst - Google Patents

Abstract

The utility model provides a vegetable washer with water catalyst belongs to cleaning equipment technical field, include: the first tank body is internally provided with a cleaning space, and the cleaning space is provided with a first water inlet and a first water outlet, wherein the first water inlet is connected with a first water pump; a second water inlet and a second water outlet are formed in the second tank body, wherein the second water inlet is communicated with the cleaning space, and the second water outlet is connected with a second water pump; one end of the water catalyst generator is connected with the second water pump, and the other end of the water catalyst generator is communicated with the cleaning space. The utility model provides a pair of wash dish machine with water catalyst adds an electrolysis water route outside washing water route to increase hydrogen ion, the oxygen ion in the rivers in the washing space, and then detach the pesticide residue on vegetables surface, realize the effect of purification, disinfection, the sterilization of vegetables, improve the edible security of vegetables.

Description

Vegetable washer with water catalyst

Technical Field

The utility model belongs to the technical field of cleaning equipment, a wash dish machine is related to, especially a wash dish machine with water catalyst.

Background

Pesticide and toxic heavy metal are remained in the existing vegetables and fruits, and along with more and more attention paid to the safety problem of food, the removal of the pesticide remained on the surfaces of the vegetables and fruits is also more and more focused. Due to market demands and to meet the demands of the consuming public. Vegetable and fruit washing machines capable of degrading pesticides have been introduced on the market. There are two main categories: mechanical vegetable washing machine: the pesticide and the like attached to the surfaces of the vegetables and the fruits are removed in a water circulation washing mode or an ultrasonic vibration mode, and the defect is that the pesticide removing efficiency is low; ozone type vegetable washing machine: by generating ozone and utilizing the strengthening effect of the ozone, the efficiency of degrading pesticides is superior to that of a mechanical vegetable cleaning machine. However, the fatal problem of ozone oxidation is accompanied by pungent odor, and particularly strong carcinogen, bromate, may be generated. A vegetable and fruit cleaner with an electrolysis function appears in the market, but the structure is complex, and the rotation of the impeller can damage vegetables and fruits.

In summary, in order to solve the structural defects of the existing vegetable washing machine, a vegetable washing machine which has a simple structure, a good cleaning effect and does not generate toxic substances in the cleaning process needs to be designed.

Disclosure of Invention

The utility model aims at solving the problems in the prior art, and provides a vegetable washing machine which has simple structure, good cleaning effect and can not generate toxic substances in the clear process.

The purpose of the utility model can be realized by the following technical proposal: a vegetable washer with water catalyst comprises: the first tank body is internally provided with a cleaning space, and the cleaning space is provided with a first water inlet and a first water outlet, wherein the first water inlet is connected with a first water pump; a second water inlet and a second water outlet are formed in the second tank body, wherein the second water inlet is communicated with the cleaning space, and the second water outlet is connected with a second water pump; one end of the water catalyst generator is connected with the second water pump, and the other end of the water catalyst generator is communicated with the cleaning space.

In the vegetable washer with the water catalyst, the water flow enters the water catalyst generator from bottom to top.

In the above-mentioned vegetable washer with water catalyst, the water catalyst generator includes the box, installs the electrolysis subassembly of arranging the setting with the array mode in the built-in, wherein, is provided with the third inlet and the third delivery port that are linked together with the box inside respectively at the both ends of box, and wherein, the third inlet links to each other with the second water pump, and the third delivery port is linked together with the fourth inlet on the washing space.

In the vegetable washer with the water catalyst, the third water inlet is arranged in a horn-shaped structure.

In the vegetable washer with the water catalyst, the third water outlet is arranged in a horn-shaped structure.

In the above-mentioned vegetable washer with water catalyst, first water inlet and fourth water inlet distribute the setting from top to bottom.

In the vegetable washer with the water catalyst, the second water outlet is provided with the first filter screen plate.

In the vegetable washer with the water catalyst, the fourth water inlet is provided with the second filter screen plate.

In the above-mentioned vegetable washer with water catalyst, be provided with a rack in one side of second cell body, wherein, install first water pump, second water pump and water catalyst generator in the rack to install the electrical control box who controls first water pump, second water pump and water catalyst generator on the rack.

In the vegetable washer with the water catalyst, the plane where the opening end of the first groove body is located is higher than the plane where the opening end of the second groove body is located.

In the vegetable washer with the water catalyst, a funnel is movably arranged in the cleaning space.

In the above vegetable washer with water catalyst, the funnel is connected to the first tank body in an overturning manner.

In the vegetable washer with the water catalyst, the funnel comprises a hopper body formed by splicing a U-shaped arc plate, a left side plate and a right side plate, and rotating arms are arranged on the left side plate and the right side plate, wherein a rotating shaft is arranged on the first tank body, and the two rotating arms are respectively connected to two ends of the rotating shaft; and the driving mechanism is arranged on one side of the first groove body, and the output end of the driving mechanism is connected with one end of the rotating shaft.

In the vegetable washer with the water catalyst, the driving mechanism comprises a hydraulic base station arranged in the cabinet, and the hydraulic base station is electrically connected with the electric control box; the hydraulic cylinder comprises a cylinder body and a piston rod, wherein the cylinder body is installed on the first groove body through a fastening piece, the piston rod is connected with the cylinder body in a sliding mode, and one end of the piston rod is connected with one end of the rotating shaft through a rotating plate.

In the above-mentioned vegetable washer with water catalyst, first water inlet is installed on the U type arc board of bucket body.

In the vegetable washer with the water catalyst, the opening end of the bucket body is connected with the panel, the panel is nested with the opening end of the cleaning space, and the plane of the side plates on two sides of the opening end of the bucket body is higher than the plane of the panel.

Compared with the prior art, the utility model provides a pair of vegetable washing machine with water catalyst adds an electrolysis water route outside washing water route to increase hydrogen ion, the oxygen ion in the rivers in the washing space, and then detach the incomplete of farming on vegetables surface, realize the effect of purification, disinfection, the sterilization of vegetables, improve the edible security of vegetables.

Drawings

Fig. 1 is a schematic structural view of a vegetable washer with water catalyst in a cleaning state.

Fig. 2 is a schematic view of a partial structure of the vegetable washer shown in fig. 1.

Fig. 3 is a schematic view of a partial structure of the vegetable washer shown in fig. 1.

Fig. 4 is a schematic structural view of the vegetable washer with water catalyst of the present invention in a toppling state.

Fig. 5 is a schematic structural diagram of a water catalyst generator according to a preferred embodiment of the present invention.

Fig. 6 is a schematic partial structure diagram of a water catalyst generator according to a preferred embodiment of the present invention.

Fig. 7 is a schematic structural view of a funnel according to a preferred embodiment of the present invention.

In the figure, 100, a first trough body; 110. cleaning the space; 120. a first water inlet; 130. a first water outlet; 140. a fourth water inlet; 150. a second filter screen plate; 160. a rotating shaft; 200. a first water pump; 300. a second tank body; 310. a second water inlet; 320. a second water outlet; 330. a first filter screen plate; 340. a fourth water outlet; 400. a second water pump; 500. a water catalyst generator; 510. a box body; 520. an electrolytic assembly; 530. a third water inlet; 540. a third water outlet; 550. a support; 600. a cabinet; 700. an electrical control box; 800. a funnel; 810. mesh openings; 820. a bucket body; 821. a U-shaped arc plate; 822. a side plate; 830. a rotating arm; 840. a panel; 900. a drive mechanism; 910. a hydraulic base station; 920. a cylinder body; 930. a piston rod.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 7, the utility model provides a vegetable washer with water catalyst, including: a first tank 100 having a cleaning space 110 therein, and a first water inlet 120 and a first water outlet 130 formed in the cleaning space 110, wherein the first water inlet 120 is connected to a first water pump 200; a second tank 300, and a second water inlet 310 and a second water outlet 320 are arranged on the second tank 300, wherein the second water inlet 310 is communicated with the cleaning space 110, and the second water outlet 320 is connected with a second water pump 400; one end of the water catalyst generator 500 is connected to the second water pump 400, and the other end is connected to the cleaning space 110.

In this embodiment, an external water flow (water flow in the municipal waterway) enters the cleaning space 110 through the pipe by the first water pump 200, so as to flush vegetables in the cleaning space 110, when the water amount in the cleaning space 110 exceeds the volume of the cleaning space (the first tank 100), the excess water flow enters the second tank 300 through the second water inlet 310, when the water amount in the second tank 300 increases gradually, the water in the second water tank is pumped away by the second water pump 400, and is introduced into the water catalyst generator 500, the water flow electrolyzed by the water catalyst generator 500 is sent into the cleaning space 110 through the pipe again, and through the above water circulation, the hydrogen ion and oxygen ion contents in the cleaning space 110 are increased, and at this time, because the oxygen ion has a property of forming a stable structure by combining with other oxygen ions, the water flow is finally combined into oxygen molecules (O2). Due to the strong electrochemical energy of the low-temperature plasma, hydrogen atoms (H) are separated from negative ions to form H +, and oxygen molecules (O2) receive electrons of the surrounding negative ions and partially convert with oxygen negative ions to form O3. This electrochemically dissociated state is reduced in an atmosphere for 2 to 5 hours, generally within about 48 hours in a closed loop, and water has a pH of 7 to 7.4 and is neutral or weakly alkaline. The hydrogen positive ions (H +) and the oxygen negative ions (O2 —) thus generated react with the surrounding water molecules (H2O) to form various oxygen-based active ions such as hydroxyl groups and negative ions in cluster form. At this time, the hydrogen peroxide generated at the same time is evaporated to the upper part of the water surface, and the hydroxyl radicals adhere to bacteria and decompose and eliminate the bacteria.

As described above, hydroxyl groups, which are very unstable in molecular properties, deprive hydrogen ions (H) on the cell membrane of bacteria and reduce the hydrogen ions (H) to water molecules (H2O), and the bacteria deprived of hydrogen ions (H) become inactive harmful substances to the bacteria along with the destruction of the cell membrane, and can also eliminate algae such as mold and moss by the action of ozone (O3) which is an oxygen-based active substance generated at the same time. In addition, many tiny bubbles in water generated by the electric field with strong positive and negative electric force can generate strong electric field among the bubbles to eliminate microorganisms and other organic and inorganic substances in the water, so that the aims of purifying, disinfecting and sterilizing vegetables in the funnel 800 are fulfilled by the mode, and the safety of food eating is improved.

The utility model provides a pair of wash dish machine with water catalyst adds an electrolysis water route outside washing water route to increase hydrogen ion, the oxygen ion in the rivers in the washing space 110, and then detach the pesticide residue on vegetables surface, realize the effect of purification, disinfection, the sterilization of vegetables, improve the edible security of vegetables.

Further preferably, in order to further improve the sufficiency of water flow electrolysis and ensure that the water flow entering the water catalyst generator 500 can be effectively electrolyzed, the water flow enters the water catalyst generator 500 from bottom to top, i.e., the water flow enters from the lower end of the water catalyst generator 500, and after the electrolysis is completed, the water flow flows out from the upper end of the water catalyst generator 500 and enters the cleaning space 110.

Further preferably, the water catalyst generator 500 includes a box 510, which is internally installed with electrolysis assemblies 520 arranged in an array manner, wherein a water inlet and a water outlet which are communicated with the inside of the box 510 are respectively arranged at two ends of the box 510, and the water inlet and the water outlet are divided into a third water inlet 530 and a third water outlet 540, wherein the third water inlet 530 is connected with the second water pump 400, and the third water outlet 540 is communicated with the fourth water inlet 140 on the cleaning space 110.

It is further preferable that the third water inlet 530 is formed in a trumpet shape (or funnel shape) in order to ensure that the water flow introduced from the third water inlet 530 can move upwards gradually at the same speed and synchronously pass through the electrolysis module 520 at each position, that is, the end close to the electrolysis module 520 has a large caliber and the end far from the electrolysis module 520 has a small caliber. In this embodiment, the third water inlet 530 is set to be horn-shaped, in addition to the above-mentioned purpose of enabling the water flow to uniformly flow through the electrolytic component 520 and improving the electrolytic effect, on the other hand, the flow rate of the water flow entering the interior of the tank 510 from the third water inlet 530 is reduced, because the third water inlet 530 is directly connected to the second water pump 400, when the second water pump 400 enters the tank 510 from the second tank 300 through the third water inlet 530, the flow rate is relatively high, if the water flow at this flow rate is directly introduced into the tank 510, a part of the water flow cannot be sufficiently electrolyzed, in other words, a part of the electrolytic component 520 does not have the effect of electrolyzing the water flow, which causes the waste of resources of the electrolytic component 520, and therefore, the third water inlet 530 needs to be set to be horn-shaped.

Further preferably, the third water outlet 540 is also arranged in a horn-shaped structure, wherein one end close to the electrolytic assembly 520 is of a large caliber, and the other end far away from the electrolytic assembly 520 is of a small caliber. In this embodiment, the third water outlet 540 is flared to accelerate the speed of the electrolyzed water entering the washing space 110, and the increase of the speed of the electrolyzed water entering the funnel 800 is opposite to the effect of the third water inlet 530 being flared to slow down the speed of the electrolyzed water, because the water flowing in the washing space 110 needs to be formed into a "surging" shape to improve the washing effect of the vegetables, and thus the speed of the electrolyzed water flowing in the funnel 800 needs to be increased.

Further preferably, the first water inlet 120 and the fourth water inlet 140 are distributed up and down. In this embodiment, be provided with two shower nozzles side by side at first water inlet 120, because the rivers that flow from the shower nozzle department have certain impact force, can make the rivers in the cleaning space 110 present "swell form" form, and through water catalyst generator 500, get into the rivers of cleaning space 110 by fourth water inlet 140, certain velocity of flow has equally, thereby make the rivers in the cleaning space 110 form "swell form" form again, because first water inlet 120 is upper and lower setting with fourth water inlet 140, thereby make the rivers realization "the form of rolling up and down" of cleaning space 110, the vegetables sanitization that will clean space 110 on the one hand, on the other hand accelerates "ordinary rivers" that will clean space 110 to become "electrolysis rivers".

Further preferably, in order to improve the stability of the installation of the water-catalyst generator 500, a bracket 550 is provided on the housing 510, and the bracket 550 is close to one end of the third water inlet 530.

Preferably, in order to improve the quality of the water entering the cleaning space 110 through the fourth water inlet 140 after the electrolysis, the first filter screen 330 is disposed at the second water outlet 320, so that the quality of the water flowing into the water catalyst generator 500 is guaranteed, and the sanitation and health of the vegetables after cleaning are guaranteed.

Further preferably, since the water catalyst generator 500 is communicated with the cleaning space 110, in order to prevent impurities in the cleaning space 110 from entering the water catalyst generator 500 through pipes and to prevent the fourth water inlet 140 from being blocked, the second filter screen plate 150 is disposed at the fourth water inlet 140, thereby further improving the sanitation and health of the vegetables after cleaning.

Further preferably, in order to arrange the first water pump 200, the second water pump 400 and the photocatalyst generator 500 such that the whole vegetable washer has a more compact structure, a cabinet 600 is provided at one side of the second tank 300, wherein the first water pump 200, the second water pump 400 and the photocatalyst generator 500 are installed in the cabinet 600, and an electric control box 700 (containing a control element therein) for controlling the first water pump 200, the second water pump 400 and the photocatalyst generator 500 is installed on the cabinet 600.

Further preferably, the cabinet 600 and the second trough body 300 are arranged in parallel from front to back, and the cabinet 600 and the first trough body 100 are arranged in parallel from left to right, so that on one hand, the overall structure of the vegetable washing machine becomes more compact, on the other hand, the length of pipe connection between the parts is shortened, and the situation of water leakage caused by poor contact is reduced.

Preferably, as shown in fig. 1 to 7, the plane of the open end of the first channel 100 is higher than the plane of the open end of the second channel 300. Since the second water inlet 310 is opened near the open end of the second tank 300, the second water inlet 310 is used as an overflow port. That is, when the water storage amount in the cleaning space 110 of the first tank body 100 exceeds the self-volume of the cleaning space 110, the water flow enters the second tank body 300 through the second water inlet 310, and therefore, the water flow in the second tank body 300 is formed by injecting the excessive water flow when the first tank body 100 is full without injecting the water flow from the outside.

In order to further improve the quality of the water entering the water catalyst generator 500, a collecting frame may be installed at the open end of the second tank 300 to further filter the water overflowing from the first tank 100.

In order to quickly discharge the stored water in the second tank 300 and facilitate the cleaning of the second tank 300 by the operator, a fourth water outlet 340 may be formed on the second tank 300, wherein the first water outlet 130 of the first tank 100 is used to quickly discharge the water flow of the cleaning space 110.

Preferably, as shown in fig. 1 to 7, in order to arrange the vegetables in the cleaning space 110 and prevent the vegetables from being adhered to the inner wall of the cleaning space 110 after cleaning, which is not conducive to quick taking, a funnel 800 is movably installed in the cleaning space 110. Wherein, be provided with a plurality of mesh 810 on the funnel 800 in this embodiment for funnel 800 not only conveniently washs taking of back vegetables, the water droplet on the vegetables of also being convenient for drop moreover, avoids operating artifical follow-up vegetable waterlogging caused by excessive rainfall operation after to wasing again, installs funnel 800 promptly and makes vegetables from wasing, to taking, to the waterlogging caused by excessive rainfall again, puts in place in one step, has improved work efficiency.

In order to further facilitate the operation of the worker to conveniently take the washed vegetables in the funnel 800, i.e., to achieve the automatic vegetable taking function, the funnel 800 is connected to the first tank 100 in an inverted manner.

Preferably, as shown in fig. 1 to 7, the funnel 800 includes a body 820 formed by splicing a U-shaped arc plate 821 with left and right side plates 822, and a rotating arm 830 is installed on the left and right side plates 822, wherein a rotating shaft 160 is installed on the first tank 100, and the two rotating arms 830 are respectively connected to two ends of the rotating shaft 160; the driving mechanism 900 is installed at one side of the first tank 100, and an output end of the driving mechanism 900 is connected to one end of the rotating shaft 160.

In this embodiment, the driving mechanism 900 drives the rotating shaft 160 to rotate, so as to rotate the funnel 800, and further to automatically dump vegetables.

Further preferably, the driving mechanism 900 includes a hydraulic base station 910 installed in the cabinet 600, and the hydraulic base station 910 is electrically connected to the electrical control box 700; and the hydraulic cylinder comprises a cylinder body 920 mounted on the first tank body 100 through a fastener, and a piston rod 930 slidably connected with the cylinder body 920, wherein one end of the piston rod 930 is connected with one end of the rotating shaft 160 through a rotating plate.

Preferably, as shown in fig. 1 to 7, the first water inlet 120 (i.e., two nozzles) is installed on the U-shaped arc plate 821 of the bucket body 820, so as to avoid that the funnel 800 still needs to correspond to the position of the first water inlet 120 when the funnel is reset after the vegetables are poured.

Further preferably, in order to limit the degree of freedom of the funnel 800 in the washing space 110, a panel 840 is connected to the open end of the bucket body 820, and the panel 840 is nested with the open end of the washing space 110, wherein the plane of the side plate 822 on both sides of the open end of the bucket body 820 is higher than the plane of the panel 840, and the panel is used as a guide part when vegetables are poured.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (10)

1. A vegetable washer with water catalyst, characterized in that includes: the first tank body is internally provided with a cleaning space, and the cleaning space is provided with a first water inlet and a first water outlet, wherein the first water inlet is connected with a first water pump; a second water inlet and a second water outlet are formed in the second tank body, wherein the second water inlet is communicated with the cleaning space, and the second water outlet is connected with a second water pump; one end of the water catalyst generator is connected with the second water pump, and the other end of the water catalyst generator is communicated with the cleaning space.

2. The vegetable washing machine with water catalyst as claimed in claim 1, wherein the water flow enters the water catalyst generator from bottom to top.

3. The vegetable washing machine with the water catalyst as claimed in claim 1 or 2, wherein the water catalyst generator comprises a box body, in which the electrolytic components are installed in an array manner, wherein a third water inlet and a third water outlet communicated with the inside of the box body are respectively arranged at two ends of the box body, wherein the third water inlet is connected with the second water pump, and the third water outlet is communicated with a fourth water inlet on the cleaning space.

4. The vegetable washing machine with water catalyst as claimed in claim 3, wherein the third water inlet and the third water outlet are both in a trumpet-shaped structure.

5. The vegetable washing machine with water catalyst as claimed in claim 3, wherein the first water inlet and the fourth water inlet are distributed vertically.

6. The vegetable washer with water catalyst as claimed in claim 3, wherein a first filter screen and a second filter screen are respectively disposed at the second water outlet and the fourth water inlet.

7. The vegetable washer with the water catalyst as claimed in claim 1, wherein the plane of the open end of the first tank body is higher than the plane of the open end of the second tank body.

8. The vegetable washing machine with the water catalyst as claimed in claim 1, wherein a funnel is rotatably connected to the first tank body.

9. The vegetable washing machine with the water catalyst is characterized in that the funnel comprises a funnel body formed by splicing a U-shaped arc plate, a left side plate and a right side plate, and a rotating arm is arranged on the left side plate and the right side plate, wherein a rotating shaft is arranged on the first groove body, and the two rotating arms are respectively connected to two ends of the rotating shaft; and the driving mechanism is arranged on one side of the first groove body, and the output end of the driving mechanism is connected with one end of the rotating shaft.

10. The vegetable washing machine with the water catalyst as claimed in claim 9, wherein a panel is connected to the open end of the bucket body and is nested with the open end of the washing space, wherein the plane of the side plates at both sides of the open end of the bucket body is higher than the plane of the panel.

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