KR20120108887A - Sterilizer system with ozone - Google Patents

Abstract

PURPOSE: A washing system with an ozone generating function is provided to generate ozone by electrolyzing water stored in a drain tank. CONSTITUTION: A washing system with an ozone generating function comprises a positive electrode bar(30), a negative electrode bar(31), and a power supply device. The positive and negative electrode bars touch water stored in a drain tank and generate currents. The positive and negative electrode bars are composed of electrode portions(301,311) and terminal portions(302,312). The electrode portions are composed of a material with high oxygen overvoltage. The power supply device supplies power to the positive and negative electrode bars.

Description

Ozone Generation Cleaning System {Sterilizer system with ozone}

The present invention relates to an ozone generating cleaning system capable of disinfecting and cleaning by electrolyzing solid waste due to domestic sewage to generate ozone.

In general, the sink is for cooking, washing dishes, etc. in the kitchen, a bucket (5) for holding water or tableware as shown in Figure 1, and the drain 10 disposed in the bucket (5) Consists of including.

The drain box 10 is connected to the drain pipe 12 with an upper surface open, and a filter net 14 for filtering food waste is mounted therein.

Therefore, the sewage drained by washing dishes, etc. flows into the drain pipe 12 through the drain container 10, and the food waste mixed in the waste water by the filter net 14 in the drain container 10 is filtered out. will be.

On the other hand, the drain box 10 is generally made to enable a so-called trap function to prevent the inflow of the belena or odor flowing through the drain pipe 12 into the room, for the trap function of the drain box 10 A protruding tube portion 101 protruding to a certain height from the bottom surface is formed therein, and a cover 16 covering the upper end of the protruding tube portion 101 in the drain container 10 is provided.

According to the related art, since an appropriate amount of retained water is maintained in the drain 10, odors and insects from the drain pipe 12 side are blocked by the retained water, which is useful for hygiene management of the sink.

However, if the solid matter in the sump (10) is stagnated for a certain period of time, due to the nature of the mixed food residues, such as organic matter decay, odor is generated, harmful bacteria are not only breeding, but the decay organic matter of the drain (10) As a result of sticking to the inner wall and causing adhesion of scale (white film phenomenon), various problems of hygiene occur.

Therefore, in order to clean the sink, it is important to remove the scale adhered to the inner wall of the drain 10, but in order to remove the scale, except to manually wash the inner wall of the drain 10 using a detergent or the like. There is no method, in particular, because the nature of the cover 16 is provided to form a solid, it is difficult to completely clean the inside of the drain container 10 without removing the cover 16, the washing operation of the drain container 10 There is a problem that is very cumbersome.

The present invention has been proposed to solve the above problems, for the purpose of providing an ozone-generating cleaning device to perform the cleaning action by generating ozone by electrolyzing the solids formed in the drain container or the drain pipe. do.

The ozone generating cleaning apparatus according to the present invention having the above object has a positive electrode rod and a negative electrode rod made up of an electrode portion made of a material having a high oxygen overvoltage, a terminal portion for connecting a power supply, and a negative electrode rod and a negative electrode rod. It includes a power supply for supplying power to the electrode rod.

The power supply device includes a current measuring device for measuring a current density of solids, a comparison operation unit for comparing the current density measured from the current measuring unit with a plurality of preset reference values, and the plus electrode bar according to a comparison result value of the comparison operation unit. And a voltage regulating circuit unit for adjusting a voltage applied to the negative electrode rod.

The voltage regulating circuit part of the power supply device has a relatively low output voltage when it is determined that the current density value is increased by the comparison result of the comparison operation part, and is relatively output voltage when it is determined that the current density is low. Is configured to be high.

In the ozone generating cleaning apparatus according to the present invention, the positive electrode rod and the negative electrode rod are installed to be inserted into the drain container of the sink, and the electrode part is in contact with the solids in the drain container. It can be configured to be connected to the power supply from the outside.

In addition, the positive electrode rod and the negative electrode rod is installed in the form of the sink trap pipe of the sink, the electrode portion is in contact with the solids in the inside of the trap trap pipe, the terminal portion is the power source outside the trap trap pipe It may also be configured to be connected to a supply.

According to the ozone generating cleaning apparatus according to the present invention, the composition is simple in terms of the property of performing the cleaning operation by generating ozone by electrolyzing the solids in the sump, and has an advantage of excellent sterilizing effect.

1 is a perspective view showing the configuration of a general sink.
2 is a cross-sectional view showing the structure of a general trap-type drain.
3 is a cross-sectional view showing a structure in which the present invention is applied to a trap-type drain box.
Figure 4 is a bottom perspective view showing the structure of the present invention applied to the trap-type drain.
Figure 5 is a top perspective view showing the structure of the present invention applied to the trap-type drain.
Figure 6 is a cross-sectional view showing the structure of the present invention applied to the U-trap drain pipe of the dehydration drain box.
7 is a cross-sectional view showing a configuration according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying Figures 3 to 7 will be described in detail as follows.

In the ozone generation cleaning system according to the present invention, as shown in FIGS. 3 to 5, a plurality of positive electrode rods 30 and negative electrode rods 31 are provided to allow a current to flow in contact with the solids in the sump 20. And a power supply device 40 for supplying power to the positive electrode rods 30 and 31.

The electrode rods 30 and 31 are composed of electrode parts 301 and 311 made of a material having high oxygen overvoltage, and terminal parts 302 and 312 for power connection.

As a material having a high oxygen overvoltage constituting the electrode parts 301 and 311, a DSE electrode (Dimensionallly Stable Electrode) coated with ruthenium oxide on metal titanium, a platinum group metal coated electrode, a lead dioxide electrode, a diamond electrode, or the like may be used. have.

The terminal parts 302 and 312 of the cathode electrode rods 30 and 31 and the power supply device 40 are connected to each other so that power can be supplied by a wire 401 or the like.

The power supply device 40 is a current meter for measuring the current density of the solids charged by the power is applied through the positive electrode rod 30 and the negative electrode rod 31, and the current density measured from the current meter A comparison operation unit for comparing a plurality of preset reference values, and a voltage adjusting circuit unit for adjusting the voltage applied to the positive electrode bar 30 and the negative electrode bar 31 in accordance with the comparison result value in the comparison operation unit.

Here, the reference value of the comparison operation unit is set in a plurality of steps at regular intervals from the lowest value to the highest value of the current density.

The voltage regulating circuit section is set to receive a constant input voltage such as, for example, a household power supply, and to switch to various output voltages corresponding to each reference value of the comparison operation section.

The voltage regulating circuit is set such that the output voltage is relatively low when the current density value is determined to be higher by the comparison result of the comparison operation unit, and the output voltage is relatively increased when it is determined that the current density is increased. .

On the other hand, since the ozone-generating cleaning system of the present invention generates ozone by electrolyzing solids, the electrode rods 30 and 31 for the so-called trap-type drain 10 in which the solids are formed therein. ) Is inserted into the drain container 10 so that the electrode parts 301 and 311 come into contact with the solids inside the drain container 10, and the terminal parts 302 and 312 are powered from the outside of the drain container 10. It is configured to be connected with the supply device 40.

In this case, the electrode rods 30 and 31 are inserted into and mounted as long as the bottom portion of the drain container 10 in which the solids are formed is not limited, but the electrode rods 30 and 31 and the power supply device ( In consideration of the connection configuration of the 40, both electrode rods 30 and 31 are mounted in the form of being inserted into the bottom portion 102 of the drain container 10, and the power supply device 10 of the drain container 10 It is preferable that the bottom portion 102 is configured to be attached to the outer surface.

In this case, for example, a lower cover 18 that is detachably attached to the bottom of the sump 10 and covers the outer surface of the bottom 102 of the sump 10 may be further provided to supply the power supply 40 and the electrode. The terminal portions 302 and 312 of the rods 30 and 31 may be configured to be called.

According to the present invention, when power is supplied from the power supply device 40 to both electrode rods 30 and 31 so that a current flows in the solids, ozone is generated as the solids are electrolyzed, so that ozone As a result, a cleaning action is performed in which water and various bacteria are removed in the drain container 10.

On the other hand, as shown in Figure 6 is equipped with a rotary filter net 15 is rotated by the motor 151, when the so-called dewatering type drain box 11 that can dehydrate food waste is used motor 151 Since there is no space for the formation of solids in the dehydrating drain box 11 in the structural structure in which is mounted, a trap function is performed by forming a solid in the interior using a so-called U-trap drain pipe 13. Done.

In addition, even when the stagnate stagnates over time due to stagnation of the stagnation, the problem that bad smell and harmful bacteria are generated due to decay may occur, and according to the present invention, the trapping of the Utrap drain pipe 13 may be caused. The positive electrode rods 30 and 31 are inserted into the water forming portion so that the electrode portions 301 and 302 come into contact with the solids formed in the utrap drain pipe 13.

Thus, according to the structure in which the electrode rods 30 and 31 were attached to the utrap drain pipe 13, the solid matter in the utrap drain pipe 13 is decomposed and ozone is generated, and ozone causes the utrap drain pipe 13 to be removed. By flowing toward the sump (11) side through the utrap drain pipe 13 and the sump (11) is cleaned together.

On the other hand, the power supply device 40 is a power source in a so-called feedback method that maintains a constant ozone generation rate by using the current density of solid matter charged by the positive electrode rods 30 and 31 depending on the electrolyte concentration. It will be supplied, which is described as follows.

First, when the cleaning system of the present invention is operated, the voltage regulating circuit part of the power supply device 40 applies a voltage to both electrode rods 30 and 31 so that the solid material is charged. It is measured and compared with the reference value.

The voltage adjusting circuit unit applies the output voltage corresponding to the closest reference value to the two electrode bars according to the comparison result with the reference value.

Therefore, as a result, the output voltage is relatively low when it is determined that the current density value is high, and the output voltage is relatively high when it is determined that the current density is high.

Therefore, according to the present invention, since the output voltage of the electrode rods 30, 31 is continuously changed in a feedback manner according to the electrolyte concentration of the solids, that is, the turbidity of the solids, the electrode in the case where the turbidity of the solids is severe and the electrolyte concentration is large. Even if the voltage applied to the electrode portions 301 and 311 of the rods 30 and 31 is low, a large amount of ozone is generated to perform a sufficient cleaning action.

On the other hand, unlike the present invention, assuming that a constant voltage is always applied to the electrode rods 30 and 31, when the turbidity of the solids is severe, a large amount of ozone is generated unnecessarily, and the voltage is constant. It can be expected that the power consumption of the electrode rods 301 and 311 is rapidly deteriorated and the consumption cycle of the electrode rods 30 and 31 is shortened.

The ozone generation cleaning system according to another embodiment of the present invention includes a reservoir 52 configured to store a predetermined amount of tap water through an inflow pipe 501 branched from the water supply pipe 50 as shown in FIG. And a positive electrode rod 30 and a negative electrode rod 31 mounted on the reservoir 52 and configured to contact the electrode portions 301 and 311 with the tap water stored in the reservoir 52. A power supply for supplying power by being connected to the discharge pipe 521 configured to extend from the 52 to the drain container 11 side, and the terminal portions 302 and 312 of the positive electrode rod 30 and the negative electrode rod 31. It comprises a supply means.

According to another embodiment of the present invention as described above, both the electrode rods (not shown) by the power supply means (not shown) in the state in which tap water is introduced into the reservoir 52 through the inlet pipe 501 from the water supply pipe 50. 30) (31) is supplied with power, and the stored tap water is electrolyzed to generate ozone, and the generated ozone is discharged to the drain container 11 through the discharge pipe 521, thereby cleaning the drain container 11. This is done.

Meanwhile, in another embodiment of the present invention, since the ozone is generated using tap water having a constant electrolyte concentration, it is not necessary to feedback and adjust the voltage of the power supply as in the previous embodiment, so that the power supply means has a constant voltage. It can be said that it has only a function to supply stably.

Another embodiment of the present invention using tap water can be expected to increase the cleaning effect by combining with the configuration of generating the ozone by electrolysis of the solids in the above-described Utrap drain pipe (13).

10: Trap Type Drain 11: Dewatering Drain
13: Utrap drain pipe 18: Lower cover
30: positive electrode bar 31: negative electrode bar
40: power supply 50: reservoir

Claims (6)

A positive electrode rod and a negative electrode rod consisting of an electrode part made of a material having a high oxygen overvoltage, and a terminal part for connecting a power source,
A power supply for supplying power to the positive electrode rod and the negative electrode rod,
And,
The electrode portion of the positive electrode rod and the negative electrode rod is in contact with the solid material and the power supply is connected to the terminal portion to supply power to the positive electrode rod and the negative electrode rod so that the solid material is electrolyzed to generate ozone.
Ozone generation cleaning system characterized in that.
The method of claim 1, wherein the power supply device
A current measuring device for measuring the current density of solid matter,
A comparison operation unit for comparing the current density measured from the current meter with a plurality of preset reference values;
A voltage adjusting circuit unit for adjusting a voltage applied to the plus electrode bar and the minus electrode bar according to the comparison result value in the comparison operation unit;
Ozone generation cleaning system comprising a.
The method of claim 2,
The voltage control circuit part of the power supply device
When the current density value is determined to be increased by the comparison result in the comparison operation unit, the output voltage is relatively decreased, and when it is determined that the current density is decreased, the output voltage is relatively increased.
Ozone generation cleaning system characterized in that.
The method of claim 1,
The positive electrode rod and the negative electrode rod are installed to be inserted into the sink of the sink, so that the electrode portion is in contact with the holding material in the interior of the drain container, the terminal portion is configured to be connected to the power supply from the outside of the drain container Being
Ozone generation cleaning system characterized in that.
The method of claim 1,
The positive electrode rod and the negative electrode rod are installed to be inserted into the sink trap pipe of the sink, the electrode portion is in contact with the solids in the inside of the trap trap pipe, the terminal portion of the power supply outside the trap trap pipe Configured to be connected to
Ozone generation cleaning system characterized in that.
A reservoir which is connected to the water supply pipe and configured to store tap water,
A positive electrode rod and a negative electrode rod formed of an electrode part made of a material having a high oxygen overvoltage, and a terminal part for power connection, and inserted into the reservoir and configured to contact the tap water stored in the reservoir;
A discharge pipe configured to extend from the reservoir to the sink side of the sink;
A power supply means connected to the terminal portions of the positive electrode rod and the negative electrode rod to supply power;
Ozone generation cleaning system comprising a.

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