CN215249741U - Purification structure of basin - Google Patents

Abstract

A purification structure of a water tank comprises an electrode purification device connected to the outer side wall of a water tank body, wherein the electrode purification device comprises a shell, a plurality of electrode plates are arranged in the shell at intervals, and the electrode plates are alternately arranged at intervals according to cathodes and anodes; lead terminals which are consistent with the number of the electrode plates and are communicated with a lead outside the shell are arranged on the rear wall surface of the shell, and each electrode plate is correspondingly connected with each lead terminal one by one; a water outlet butted with the through hole on the water tank body is arranged on the front wall surface of the shell, and a water inlet is arranged on the rear wall surface of the shell; the water inlet is communicated with a water diversion structure which leads water in the water tank body into the electrode purification device. The purification structure of the water tank can effectively sterilize and disinfect the surface of the soft object to remove pesticide residues.

Description

Purification structure of basin

Technical Field

The utility model relates to a purification structure of basin.

Background

Vegetables, fruits, bowls and chopsticks are usually cleaned in a kitchen sink, while the existing kitchen sink only simply washes the vegetables, fruits, bowls and chopsticks and uses an ultrasonic vibrator to sterilize and disinfect the vegetables, fruits, bowls and chopsticks to remove pesticide residues. However, the ultrasonic vibrator has a good sterilization and disinfection effect on hard objects or objects with slightly hard surfaces, and is not ideal for sterilization and disinfection on soft objects.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a disinfect the purification structure of disinfecting the soft thing and remove incomplete effectual basin of farming.

The utility model relates to a purification structure of a water tank, which comprises an electrode purification device connected on the outer side wall of a water tank body, wherein the electrode purification device comprises a shell, a plurality of electrode plates are arranged in the shell at intervals, and the electrode plates are alternately arranged at intervals according to a cathode and an anode; lead terminals which are consistent with the number of the electrode plates and are communicated with a lead outside the shell are arranged on the rear wall surface of the shell, and each electrode plate is correspondingly connected with each lead terminal one by one; a water outlet butted with the through hole on the water tank body is arranged on the front wall surface of the shell, and a water inlet is arranged on the rear wall surface of the shell; the water inlet is communicated with a water diversion structure which leads water in the water tank body into the electrode purification device.

A purification structure of basin, in introducing the electrode purification device through the water of diversion structure in with the basin body, through the electrode slice brineelectrolysis in the electrode purification device, can produce the free radical, the brineelectrolysis that contains the free radical passes through the delivery port of electrode purification device again and flows in the basin body to soft thing such as fruit vegetables in to the basin body is degraded through the free radical on the surface harmful substance, removes incomplete farming with the disinfection of disinfecting to soft thing surfaces such as fruit vegetables. The water tank has a simple purification structure, can effectively remove harmful substances on the surface of soft objects, and is beneficial to human health.

Drawings

Fig. 1 is an exploded schematic view of the middle electrode purification device of the present invention.

Fig. 2 is a front view of the middle electrode purification device of the present invention.

Fig. 3 is a sectional view of the left side view of the middle electrode purification device of the present invention.

Fig. 4 is a sectional view of the bottom view of the middle electrode purification apparatus of the present invention.

Fig. 5 is a schematic view of the installation structure of the present invention.

Detailed Description

A purification structure of a water tank is shown in figures 1 to 5 and comprises an electrode purification device 2 connected to the side wall of a water tank body 1, wherein the electrode purification device 2 comprises a shell, a plurality of electrode plates are arranged in the shell at intervals, and the electrode plates are alternately arranged at intervals according to cathodes and anodes; lead terminals which are consistent with the number of the electrode plates and are communicated with a lead outside the shell are arranged on the rear wall surface of the shell, and each electrode plate is correspondingly connected with each lead terminal one by one; a water outlet 3 is arranged on the front wall surface of the shell, and a water inlet 4 is arranged on the rear wall surface of the shell; the water inlet 4 is communicated with a water diversion structure for leading water in the water tank body 1 into the electrode purification device 2. The principle of electrolyzing water and degrading harmful substances by an electrode plate belongs to the prior art, the electrode plate is coated with binary and ternary metal oxide coatings (such as ruthenium iridium, platinum and the like), when an electrode purifying device 2 is electrified, the electrode plate decomposes the water into hydrogen ions and hydroxyl radicals, the decomposed hydroxyl radicals act on the surface of food materials and surround harmful compounds such as pesticide residues, hormones or bacteria on the surface of the food materials, acid substances are degraded (mainly the original chemical structure of the acid substances is changed) by relying on the characteristic that the hydroxyl radicals have strong oxidizing property, the chemical structure covalent bonds of the acid substances are degraded and inactivated to form independent substances, and the harmful compounds are converted into substances harmless to human bodies such as water, carbon dioxide, inorganic salt and the like after being degraded and inactivated, and finally the substances are discharged to finish the purification of the surface of a soft object. The number of the electrode plates can be two or more, the electrode plates can be arranged alternately according to the cathode and the anode in sequence, or can be arranged alternately according to the anode and the cathode in sequence, when more than three electrode plates are provided, wherein when the number of the electrode plates is singular, the number of the anode electrode plates or the number of the cathode electrode plates is one less than that of the other type of electrode plates, and when the number of the electrode plates is even, the number of the anode electrode plates is as large as that of the cathode electrode plates; in the present embodiment, three electrode sheets are provided, two cathode electrode sheets 5 are provided, one anode electrode sheet 6 is provided, and the three electrode sheets are sequentially arranged in a cathode-anode-cathode manner, so that the three electrode sheets not only can effectively purify harmful substances, but also can save space and reduce cost due to limited space of the casing, and the cathode electrode sheets 5 are more expensive than the anode electrode sheets 6, and further can save cost while ensuring effective purification.

The distance between the adjacent electrode plates ranges from 0.8mm to 1.2mm, such as 0.8mm, 0.9mm, 1mm, 1.1 mm or 1.2 mm. The electrode plates are arranged at intervals, so that the purpose of electrolyzing water is achieved, theoretically, the closer the distance between the adjacent electrode plates is, the smaller the resistance is, the larger the generated current is, the better the effect of electrolyzing water is, but the too close distance is, and the scaling problem is caused, the faster the electrolysis is, the more serious the structure is on the electrode plates, and finally, the surface of the electrode plates is coated by scale, so that the point electrolysis effect is poor, the service life of the electrode plates is reduced, therefore, through creative labor, the situation that the distance between the adjacent electrolyte plates is controlled to be 0.8 mm-1.2 mm is achieved, the service life of the electrolyte plates can be greatly prolonged, and the effect of electrolysis and the service life of the electrolyte plates are simultaneously in the optimal state.

A pair of electrode plate supports 7 are arranged in the shell, and all electrode plates are positioned in an accommodating cavity formed after the two electrode plate supports 7 are butted.

A spacer 8 is arranged between adjacent electrode plates, positioning columns 9 matched with the electrode plate support 7 on the adjacent side are arranged on the spacer 8, the electrode plates are of a net-shaped structure, and a plurality of positioning columns 9 on the spacer 8 penetrate through meshes on the electrode plates on the corresponding side and then are inserted into positioning holes 10 on the electrode plate support 7 on the corresponding side to connect the electrode plates and the electrode plate support 7 into a whole; and the thickness of the spacer 8 is the distance between the adjacent electrode plates.

Through setting up electrode slice support 7 and spacer 8, can easily be as a whole with the connection of a plurality of electrode slices, be convenient for with the installation of casing.

A plurality of lead terminals all include the screw 11 of titanium material, all are provided with a plurality of holes 12 of dodging relative with screw 11 on a plurality of electrode slices and spacer 8, and still be provided with an pilot hole with screw 11 matched with on a plurality of electrode slices, every screw 11 passes behind a plurality of holes 12 of dodging and the pilot hole of dodging that set up relatively, screw with locknut 13 after running through the back wall of casing, screw 11 runs through the tail end and the external conductor connection of casing back wall. The avoiding holes 12 are formed in the electrode plates, the diameter of each avoiding hole 12 is larger than that of each screw 11, so that when the screws 11 penetrate through the plurality of avoiding holes 12 and the assembling hole which are oppositely formed, one screw 11 can only ensure the connection of one electrode plate and an external lead, and the short circuit caused by the contact of one screw 11 and the plurality of electrode plates is avoided.

An I-shaped sealing ring 14 is arranged between the screw 11 and the rear wall surface of the shell to realize sealing and avoid short circuit caused by water inflow.

The water outlet 3 is higher than the overflow port of the water tank body 1. When washing fruit vegetables or tableware, aquatic can be mixed and have more dirty, in order to avoid water direct get into electrode purifier 5 inside and pollute the electrode slice by electrode purifier 5's delivery port 51, especially set up the position of the relative gap of overflow ware 3 on the basin body 1 lateral wall with the height of delivery port 51, effectively avoid having dirty water and enter into electrode purifier 2 inside and pollute the electrode slice by delivery port 3.

The shell comprises a front shell 15 and a rear shell 16, the front shell 15 and the rear shell 16 are butted to form a shell with a cavity, and an annular sealing strip 17 is arranged at the joint of the front shell 15 and the rear shell 16. Effectively seal the inside of the electrode purification device 2 and avoid water inflow.

The water diversion structure comprises a water taking hole formed in the side wall of the water tank body 1, a water suction pump is arranged below the water tank body 1, and the water taking hole, the water suction pump and a water inlet 4 of the electrode purification device 2 are connected in series into a whole through a pipeline. The filter screens are arranged at the water intake hole and the water inlet of the water suction pump to filter dirt and particles in water and avoid polluting electrode plates in the electrode purification device 5.

The purification structure of the water tank also comprises a pair of bulges which are integrally formed on the bottom surface of the water tank body 1, and ultrasonic vibrators connected with the bottom surfaces of the corresponding pits are arranged below the bottom surface of the water tank body 1 and in the concave pits of each bulge. Through the vibration of the ultrasonic vibrator, the vibration energy generated by the ultrasonic vibrator can be transmitted through the bulge on the water tank body 1, and dirt and pesticide residues on the surface of hard objects can be cleaned through vibration, so that the aim of sterilizing and disinfecting both soft and hard objects to remove pesticide residues is fulfilled; the bulge on the water tank body 1 and the water tank body 1 are integrally formed, so that no gap exists between the bulge and the water tank body, no dirty dead angle is generated, and the water tank is more beneficial to cleaning; in addition, the bulge and the water tank body 1 are integrally formed without a gap, so that the water tank body 1 has higher integral strength; in addition, because ultrasonic vibrator adopts the connected mode of gluing usually, current basin body 1 bottom surface is the plane, ultrasonic vibrator directly glues on basin body 1's bottom surface, when putting hot water or cold water in basin body 1, can make basin body 1 produce certain expend with heat and contract with cold, thereby produce certain deformation, this kind of deformation can make ultrasonic vibrator's bonding department produce and drop, lead to its installation unstable, and protruding through 1 bottom surface integrated into one piece in basin body, and connect ultrasonic vibrator on the bottom surface of bellied pit one side, absorbed the deflection that basin body 1 produced because of expend with heat and contract with cold through the arch, effectively avoid falling of ultrasonic vibrator, guarantee that its connection is more firm, ensure its effective work. Two bulges are respectively positioned on two sides of the lower water hole of the water tank body 1 and are symmetrically arranged, so that water can vibrate uniformly.

Claims (14)

1. A purification structure of basin which characterized in that: the electrode purification device (2) comprises a shell, wherein a plurality of electrode plates are arranged in the shell at intervals, and the electrode plates are alternately arranged at intervals according to cathodes and anodes; lead terminals which are consistent with the number of the electrode plates and are communicated with a lead outside the shell are arranged on the rear wall surface of the shell, and each electrode plate is correspondingly connected with each lead terminal one by one; a water outlet (3) butted with the through hole on the water tank body (1) is arranged on the front wall surface of the shell, and a water inlet (4) is arranged on the rear wall surface of the shell; the water inlet (4) is communicated with a water diversion structure for leading water in the water tank body (1) into the electrode purification device (2).

2. A sink cleansing structure according to claim 1, wherein: the number of the electrode plates is three, two cathode electrode plates (5) are provided, one anode electrode plate (6) is provided, and the cathode electrode plates and the anode electrode plates are sequentially arranged in a cathode-anode-cathode mode.

3. A purification structure for sink according to claim 1 or 2, wherein: the distance between the adjacent electrode plates ranges from 0.8mm to 1.2 mm.

4. A sink cleansing structure according to claim 3, wherein: a pair of electrode plate supports (7) are arranged in the shell, and all electrode plates are positioned in an accommodating cavity formed after the two electrode plate supports (7) are butted.

5. A sink purification structure as claimed in claim 4, wherein: a spacer (8) is arranged between adjacent electrolytic sheets, positioning columns (9) matched with electrode sheet supports (7) on the adjacent sides are arranged on the spacer (8), the electrode sheets are of a net-shaped structure, a plurality of positioning columns (9) on the spacer (8) penetrate through meshes on electrode sheets on the corresponding sides and then are inserted into positioning holes (10) on the electrode sheet supports (7) on the corresponding sides, and the electrode sheets and the electrode sheet supports (7) are connected into a whole; and the thickness of the spacer (8) is the distance between the adjacent electrolytic sheets.

6. A sink purification structure as claimed in claim 5, wherein: a plurality of lead terminals all include screw (11) of titanium material, all be provided with on a plurality of electrode slices and spacer (8) and dodge hole (12) a plurality of relative with screw (11), and still be provided with on a plurality of electrode slices and screw (11) matched with pilot hole, after every screw (11) passed a plurality of holes (12) and pilot holes of dodging that set up relatively, screwed with lock nut (13) after running through the back wall of casing, screw (11) run through the tail end and the external conductor connection of casing back wall.

7. A sink cleansing structure according to claim 6, wherein: an I-shaped sealing ring (14) is arranged between the screw (11) and the rear wall surface of the shell.

8. A purification structure for a sink according to any one of claims 1 or 2 or 4 to 7, wherein: the water outlet (3) is higher than the overflow port on the water tank body (1).

9. A sink cleansing structure according to claim 3, wherein: the water outlet (3) is higher than the overflow port on the water tank body (1).

10. A purification structure for a sink according to any one of claims 1 or 2 or 4 to 7 or 9, wherein: the purification structure of the water tank also comprises a pair of bulges which are integrally formed on the bottom surface of the water tank body (1), and ultrasonic vibrators connected with the bottom surfaces of the corresponding pits are arranged below the bottom surface of the water tank body (1) and in the pits of each bulge.

11. A sink cleansing structure according to claim 3, wherein: the purification structure of the water tank also comprises a pair of bulges which are integrally formed on the bottom surface of the water tank body (1), and ultrasonic vibrators connected with the bottom surfaces of the corresponding pits are arranged below the bottom surface of the water tank body (1) and in the pits of each bulge.

12. A sink cleansing structure according to claim 8, wherein: the purification structure of the water tank also comprises a pair of bulges which are integrally formed on the bottom surface of the water tank body (1), and ultrasonic vibrators connected with the bottom surfaces of the corresponding pits are arranged below the bottom surface of the water tank body (1) and in the pits of each bulge.

13. A sink cleansing structure according to claim 10, wherein: the water diversion structure comprises a water taking hole formed in the side wall of the water tank body (1), a water suction pump is arranged below the water tank body (1), and the water taking hole, the water suction pump and a water inlet (4) of the electrode purification device (2) are connected into a whole in series through a pipeline.

14. A sink cleansing structure according to claim 11 or 12, wherein: the water diversion structure comprises a water taking hole formed in the side wall of the water tank body (1), a water suction pump is arranged below the water tank body (1), and the water taking hole, the water suction pump and a water inlet (4) of the electrode purification device (2) are connected into a whole in series through a pipeline.

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