KR200214676Y1 - Electrolytic separator - Google Patents

Abstract

The present invention relates to an electrolytic separator, the upper and lower parts of the upper and lower parts of the main body formed with a large diameter screw hole and a small diameter circular hole,

Both sides of the circular rods are inserted into the circular hole of the upper and lower support portions, while the lower side is fastened with bolts while the metal plate and the sealing silicon plate are positioned therebetween, so that a stable coupling is made and at the same time a negative power is applied thereto.

The screw holes formed on both sides of the circular pipe are fastened to the screw holes of the upper and lower support parts so that a stable coupling is made and a positive power is applied thereto.

In the supply part for supplying the raw water, the opening and closing port is pushed upward together with the magnet at the bottom only when it is supplied at a predetermined pressure, so that the water is released in a sealed state,

The raw water is discharged through the water supply hole of the upper support part and is discharged to the use water through the water discharge hole of the lower support part after being electrolyzed by discharge while passing through the narrow space between the circular rod and the circular tube. By using the kitchen utensils, fruits, vegetables, etc. where easy to use sterilized cleaning is to be used.

Description

Electrolytic Separator {.}

The present invention relates to an electrolytic separator, and in particular, a negative power is applied to an inner circular rod while a positive power is applied to an outer circular tube, and water is discharged by passing water through a narrow space between the circular rod and the circular tube. By electrolytic separation is made by the water to be purified by using the discharged water to the kitchen appliance, fruit, vegetables, etc. It relates to an electrolytic separator to be used easily in places requiring sterilization cleaning.

In modern times, many household wastes, including garbage, are emitted from homes, factories, and farms, so that waters with self-cleaning capacity are severely polluted and cannot be directly used for drinking water, as well as damaging many ecosystems such as rivers and seas. It is already well known.

And once polluted water is used for the purification process to clean the water, various apparatuses and methods are used a lot, and research for more efficient water purification is still being conducted.

Looking at some methods of integers known to date, there are some biological methods using activated sludge or microorganisms, chemical methods using chemical reactions, and physical methods using electrons or ultrasonic waves.

However, according to the conventional waste water purification method as described above, not only stable and complete water purification is performed, but also high operating costs required for water purification cannot increase water purification efficiency.

Therefore, many people use small water purifiers to directly purify water they want to drink or water used for sanitary washing.

As described above, one method of directly purifying water is to insert ozone between a ground electrode and a ground electrode to apply high voltage of alternating current while passing water through the gap to obtain ozone, and to be discharged from the electrode. The electrons collide with the oxygen molecules contained in the water passing through to dissociate the oxygen into the atomic state and generate oxygen molecules in the excited state by the electrons, and the oxygen atoms and the excited oxygen molecules react with other oxygen molecules to generate ozone. As a result, the dissolved ozone amount is increased to disinfect water and to have a washing power.

However, the conventional ozone water purification device as described above does not generate enough ozone to have sterilization and cleaning power by the power supplied through the positive electrode, so that the effect is weak and the electricity is supplied only when water is supplied. There was a disadvantage that the configuration is not equipped to damage the device by high pressure.

The present invention devised to solve the conventional closed end as described above allows a negative power to be applied to the inner circular rod while a positive power is applied to the outer circular tube and the water into a narrow space between the circular rod and the circular tube. It is an object of the present invention to provide an electrolytic separator that is easily used in places requiring sterilization and washing, such as kitchen utensils, fruits and vegetables, by using the discharged water to make the water purified by passing the electrolytic separation through discharge. .

The present invention for achieving the above object is located in the upper portion of the upper portion of the main body is formed with a large diameter screw hole and a small diameter circular hole,

In the lower part of the main body, the lower support part in which the large diameter screw hole and the small diameter circular hole are formed is located,

Both sides of the circular rod of the metal are fitted into the circular hole of the upper support and the lower support, while the lower side is placed between the metal plate and the sealing silicon plate by fastening with bolts for stable coupling and at the same time negative power is applied. Make sure,

The screw holes formed on both sides of the circular pipe are fastened to the screw holes of the upper support part and the lower support part by tightening the screws so that a stable coupling is achieved and positive power is applied thereto.

In the supply unit for supplying raw water for water purification, the opening and closing port is pushed upward together with the magnet at the bottom while the water is supplied at a predetermined pressure, so that the water is released in a sealed state.

The raw water is introduced into the narrow space between the circular rod and the circular tube through the water supply hole of the upper support, and is electrolyzed by discharge while passing through the water, and then discharged into the use water through the water discharge hole of the lower support. By using the water, kitchen utensils, fruits, vegetables, etc., where it is easy to use where sterilization cleaning is required.

1 is a cross-sectional view of an electrolytic separator according to the present invention.

*** Explanation of symbols for the main parts of the drawing ***

1: main body 2: upper support

6: lower support part 10: round rod

11 metal plate 12 silicon plate

14: round tube 17: supply unit

18: opening and closing 19: magnet

20: narrow space 21: switch

Hereinafter, with reference to the accompanying drawings the present invention will be described in detail.

1 is a cross-sectional view showing the structure of an electrolytic separator according to the present invention,

In the upper part of the main body 1 is placed the upper support portion 2, which is formed with a large diameter screw hole 3 and a small diameter circular hole 4,

In the lower part of the main body 1 is placed a lower support portion 6 is formed with a large diameter screw hole 7 and a small diameter circular hole 8,

Both sides of the circular rods 10 of metal are fitted into the circular holes 4 and 8 of the upper support part 2 and the lower support part 6, and the metal plate 11 and the sealing silicon plate 12 are disposed on the lower side. While being positioned between the fastening with a bolt (13) to achieve a stable coupling at the same time through which the negative power is applied,

The screw holes 3 and 7 of the upper support part 2 and the lower support part 6 are fastened by screwing the screw parts 15 and 16 formed on both sides of the circular tube 14 to form a stable coupling. At the same time, positive power is applied,

In the supply unit 17 for supplying raw water for water purification, the opening and closing 18 is pushed upward together with the magnet 19 at the lower end while the water is supplied at a predetermined pressure, so that the water flows. ,

The raw water is introduced into the narrow space 20 of 1 mm to 3 mm between the circular rod 10 and the circular tube 14 through the water supply hole 5 of the upper support part 2, and is discharged by electricity. Decomposition is made to be purified and then discharged into the use water through the water discharge hole (9) of the lower support (6).

And the negative power supplied to the circular rod 10 and the positive power supplied to the circular tube 14 through the switch 21, the power of AC 220V from the outside is turned on / off by the magnet It is supplied so that the voltage drops to 50V by the transformer and is converted into DC power while being supplied via the rectifier.

The declining rod 10 and the circular tube 14 are made of metal, such as aluminum and stainless steel, and has a high electrical conductivity and high water resistance.

The electrolytic separator of the present invention configured as described above allows negative power to be applied to the inner circular rod, while positive power is applied to the outer circular tube, and passes water through a narrow space between the circular rod and the circular tube. Electrolytic separation is made to purify the water,

In the upper and lower parts of the main body 1, the upper support part 2 and the lower support part 6 in which the large diameter screw holes 3 and 7 and the small diameter circular holes 4 and 8 are formed are positioned, respectively.

Both sides of the circular rods 10 of metal are fitted into the circular holes 4 and 8 of the upper support part 2 and the lower support part 6, and the metal plate 11 and the sealing silicon plate 12 are disposed on the lower side. While interposed between the bolts 13 to make a stable coupling,

The screw holes 3 and 7 of the upper support part 2 and the lower support part 6 are fastened by screwing the screw parts 15 and 16 formed on both sides of the circular tube 14 to form a stable coupling. After completing the assembly is built in the case not shown in the drawings.

The electrolytic separator of the present invention assembled by the above process is supplied with AC 220V power from the outside through the switch 21, the voltage drop to 50V by the transformer and converted to DC power while passing through the rectifier The circular tube 14 is supplied with a positive power while the circular rod 10 is supplied with a negative power.

And while the raw water for purified water is supplied to the supply unit 17 at a predetermined pressure, the opening and closing 18 is pushed upward together with the magnet 19 at the bottom to be released in a sealed state and smoothly supplied to the magnet 19 It is so far away from the lower switch 21.

The raw water is introduced into the narrow space 20 of 1 mm to 3 mm between the circular rod 10 and the circular tube 14 through the water supply hole 5 of the upper support part 2, and is discharged by electricity. Decomposition is made to be purified and then discharged into the use water through the water discharge hole (9) of the lower support (6).

As described above, the electrolytic separator of the present invention fits both sides of the circular rod in the circular hole of the upper and lower support parts, while the metal plate and the sealing silicon plate are positioned between the lower side to be fastened by bolts, and at the same time, Negative power is applied,

The screw holes formed on both sides of the circular pipe are fastened to the screw holes of the upper and lower support parts so that a stable coupling is made and a positive power is applied thereto.

In the supply part for supplying the raw water, the opening and closing port is pushed upward together with the magnet at the bottom only when it is supplied at a predetermined pressure, so that the water is released in a sealed state,

The raw water is discharged through the water supply hole of the upper support part and is discharged to the use water through the water discharge hole of the lower support part after being electrolyzed by discharge while passing through the narrow space between the circular rod and the circular tube. By using the kitchen utensils, fruits, vegetables, etc. where easy to use sterilized cleaning is to be used.

Claims (1)

In the upper part of the main body 1 is placed the upper support portion 2, which is formed with a large diameter screw hole 3 and a small diameter circular hole 4, In the lower part of the main body 1 is placed a lower support portion 6 is formed with a large diameter screw hole 7 and a small diameter circular hole 8, Both sides of the circular rods 10 of metal are fitted into the circular holes 4 and 8 of the upper support part 2 and the lower support part 6, and the metal plate 11 and the sealing silicon plate 12 are disposed on the lower side. Fasten to the lower support 6 with bolts 13 while being positioned in between, The screw holes (3) (7) of the upper support portion (2) and the lower support portion (6) are fastened by screwing the screw portions (15) (16) formed on both sides of the circular tube (14), The supply unit 17 for supplying the raw water has a built-in opening and closing 18 which is pushed upward with the magnet 19 at the bottom by the pressure, The raw water passing through the supply part 17 is introduced into the narrow space 20 of 1 mm to 3 mm between the circular rod 10 and the circular pipe 14 through the water supply hole 5 of the upper support part 2. After passing through and discharged to the water discharge hole (9) of the lower support (6), After the AC power from the outside is supplied through the switch 21 is turned on / off by the magnet and the voltage drop and rectified, the negative power is supplied to the circular rod 10 while the positive power is Electrolytic separator configured to be supplied to the circular tube (14).