KR0160599B1 - Water sterilization mixer apparatus using ozone - Google Patents

Abstract

The present invention relates to a water sterilizing mixer apparatus using ozone, and more particularly, to a system and method for sterilizing and sterilizing ozone, which is capable of inducing smooth mixing of ozone and charged water and ozone in a plurality of chambers provided in a mixer trough, The present invention relates to a water sterilization mixer apparatus using ozone, which has a sterilizing capability remarkably improved by sequentially and uniformly discharging drinking water (disinfecting water), and has an inlet 29 formed at a lower side thereof, A plurality of chambers 33 having a discharge port 36a in communication with the inlet 29 at the lower side in a radial manner and forming discharge chambers 51 communicating with the discharge ports 36a, A mixer barrel 20 formed above the chamber 33 and an auxiliary port 38 for opening or closing the discharge port 36a by buoyancy of the mixture introduced into the chamber 33, Of A geared motor 52 having a rotary shaft 54 extending to the discharge chamber 51 is provided on the upper surface of the mixer cylinder 20 and a rotary arm 56 connected to the rotary shaft 54 And the adjacent ejection openings 36a of the respective chambers 33 are sequentially opened and closed so as to open and close the adjacent ejection openings 36a of the chambers 33. [ do.

Description

Water sterilization mixer device using ozone

FIG. 1 is a view schematically showing an example of a purifier installed in a conventional swimming pool; FIG.

FIG. 2 is a partially cut-away whole perspective view of the water sterilization mixer device of the present invention. FIG.

FIG. 3 is an enlarged view of the Z part of FIG. 1.

FIG. 4 is an operational state diagram of a semi-spherical operating cam and a semi-spherical ball applied to the embodiment of the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

20: mixer barrel 29: inlet

32: partition wall 33: chamber

36a: Discharge port 38:

51: discharge chamber 52: geared motor

56: rotary arm 58:

58a, 58b: cam surface 62:

The present invention relates to a water sterilization mixer apparatus using ozone, and more particularly to a water sterilization apparatus using ozone, which is capable of inducing smooth mixing of water intake and ozone in a plurality of chambers provided in a mixer trough, The present invention also relates to a water sterilization mixer apparatus using ozone, which has a sterilizing capability remarkably improved by sequentially and uniformly discharging ozone.

Generally, in order to use tap water or ground water as drinking water, a process of sterilization and disinfection is required, and general chlorine disinfection or ozone (O ₃ ) is usually used.

As an example of such sterilization and disinfection using ozone, there is a purification and sterilization apparatus installed in the pool. As shown in FIG. 1, contaminants overflowing in the pool 5 are stored in the balance tank 10, A hair cap 11 is installed on the outlet side of the hair clipper 10 to filter out hair and the like and water serving as the hair capturer 11 is supplied to the mixer tube 13 by the pumping device 12, The mixture is sterilized by mixing with the ozone supplied by the ozone generator 14 in the mixer cistern 13 and then sent to the filtration device 15 so that the drinking water (sterilized water) that has passed through the filtration device 15 And then supplied again to the pool 5 through the heat exchanger 16.

The conventional mixer barrel 13 used therein forms one volumetric chamber therein so that the contaminants flowing into the mixer barrel 13 and the ozone supplied by the ozone generator 14 are mixed together. At this time, The drinking water is not completely sterilized in a state of being completely stationary in the mixer cylinder 13 but is completely mixed with contaminants newly introduced during the sterilizing action and is discharged before the sterilizing action occurs so that the total dissolving time of the ozone is insufficient and the sterilizing power is lowered As a result, it is impossible to completely sterilize by uneven sterilizing action.

Furthermore, in order to increase the sterilizing power, not only the amount of ozone injected must be excessively increased but also the capacity of the ozone generating device must be increased.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide an ozonizer and an ozonizer, which are capable of forming a plurality of chambers in a mixer vessel in which ozone and contaminants are mixed, (Disinfected water) is continuously discharged continuously to uniformize the sterilizing power, and at the same time, the sterilizing efficiency can be remarkably improved, and an object thereof is to provide a water sterilizing mixer apparatus using ozone.

According to an aspect of the present invention, there is provided a method of manufacturing a plasma display panel, comprising the steps of: forming an inlet at one side of a lower portion of the chamber; forming a plurality of chambers radially outwardly of the chamber to communicate with the inlet at the lower portion, And a discharge port communicating with the discharge port is formed above the chamber, and a port through which the discharge port is opened or closed by buoyancy of water introduced into the chamber is installed so as to be movable up and down at a predetermined height from the upper portion of the chamber A geared motor is provided on the upper surface of the mixer bar to extend the rotary shaft to the discharge chamber and a floating gauge is lifted and moved in a state in which it is buoyant by a semi-spherical operation cam rotating through a rotary arm connected to the rotary shaft, And the adjacent discharge ports of the discharge port are sequentially opened and closed.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings of FIG. 2 to FIG. 4.

As shown in FIG. 2, reference numeral 20 denotes a mixer barrel.

The mixer barrel 20 includes a lower lid portion 22, a cylindrical portion 30, and an upper lid portion 50.

The lower lid portion 22 is provided with a plurality of legs 27 on the lower convex bottom surface and an inlet 29 through which the inlet pipe 28 is connected.

The cylindrical portion 30 is connected to the upper portion of the lower lid portion 22 and a plurality of partition walls 32 are radially formed in the cylindrical portion 30 so that the mixed space of water and ozone flowing between the partition walls 32, Thereby forming a chamber 33 constituting a chamber.

The partition wall 32 has an inner end attached to the diaphragm support rod 34 which is inserted in the center of the cylindrical portion 30 and an outer end attached to the inner wall of the cylindrical portion 20.

A lower portion of the lower portion of the cylindrical portion 30 is provided with an inlet 35a through which the contaminants passing through the inlet 29 flow into the chambers 33, And a chamber upper blocking plate 36 for forming the respective discharge ports 36a is provided in each of the chambers 33 as shown in FIG.

The opening of the discharge port 36a is controlled by the buoyancy of the water introduced into the chamber 33 and the opening 38 of the chamber upper shielding plate 36 is opened or closed at a predetermined height As shown in Fig.

As shown in FIG. 3, a lifting rod 40 is connected to the upper end of the lifting rod 38. A steel ball 42 is connected to the upper end of the lifting rod 40. The lifting rod 40 is connected to a discharge port 36a of the chamber upper shielding plate 36. The guide tube 44 is rotatably supported by the rotary arm 56 of the flange 45 fixed to the upper surface of the chamber upper shielding plate 36, Respectively.

As shown in FIG. 2, a discharge port 62 communicating with the discharge pipe 60 is formed on one side surface of the upper lid unit 50, and a geared motor 52 is disposed at the center of the upper surface thereof. The rotary shaft 54 of the geared motor 52 is rotatably supported on the upper end of the diaphragm support rod 34 and one end of the rotary arm 56 is vertically connected to one end of the rotary shaft 54, A semi-spherical operation cam 58 which is in contact with the steel ball 42 at the other end of the rotary shaft 56 to sequentially open and close the discharge port 36a formed in each chamber 33 in accordance with the rotation of the rotary shaft 54, .

As shown in FIG. 4, the semi-spherical operation cam 58 is constructed so that one steel ball 42 or two adjacent steel balls 42, which are brought into contact with each other in accordance with rotation of the rotary shaft 54 of the geared motor 52, A cam surface 58a for adjusting the discharge amount of the sterilized drinking water (disinfecting water) is formed at a predetermined inclination at both ends and extends between the cam surfaces 58a so as to completely push the auxiliary port 38 inward from the discharge port 36a Thereby forming a cam surface 58b for opening the discharge port 36a to the maximum.

On the other hand, in the lower part of the chamber 33, that is, the bottom surface of the lower lid part 22, ozone supplied by an ozone generator (not shown) is dispersed with fine ozone gas droplets, A stone 70 is connected to each of the ozone supply pipes 62 penetrating through the inlet 35a and connected to a control valve under the control of an unillustrated control device, 33, the control valve is opened and closed to selectively transport ozone from the ozone supply device.

The operation and effect of this embodiment will be described.

First, when contaminants in the pool are introduced into the inlet 29 of the mixer tank 20 through the inlet pipe 28 in the direction A in FIG. 2, the contaminants initially start to fill from the bottom of the lower cover 22 And is filled into the chamber 33 formed between the partition walls 32 through the inlet 35a of the chamber lower shield plate 35. [

At this time, when the contaminant ascending in the chamber 33 comes into contact with the port 38, the port 38 is gradually raised while being buoyant, and at the same time, the ascending bar 40 is lifted together with the sliding guide of the guide pipe 44 .

In this way, the port 38 closes the discharge port 36a of the upper chamber blocking plate 36, and the contaminants are completely filled in the chambers 33.

At the same time, the ozone having passed through the ozone supply pipe 62 from the oxygen stone 70 connected to the ozone generating device (not shown) is sprayed with fine droplets and is dispersed and risen into the contaminants. At this time, the operation state will be described when the rotation of the rotary shaft 54 of the geared motor 52 is made one rotation per minute and the number of the chambers 33 is eight.

First, in the state where the position of the semi-spherical operation cam 58 is the same as that of the fourth diagram, the semi-spherical portion 38 in the left chamber 33 is brought into contact with the cam surface 58b of the semi-spherical operation cam 58 The auxiliary port 38 in the right chamber 33 is brought into a state in which the discharge port 36a is opened so that the steel ball 42 comes into contact with the tip of the tilted cam surface 58a of the sub- It is completely closed.

In this state, the sterilized water having been sterilized is discharged to the discharge chamber (51) in the upper lid part (50) through the open discharge port (36a) of the left chamber (33).

The discharge port 36a of the left chamber 33 is moved in the counterclockwise direction by the ascending slope surface of the cam surface 58a of the semi-spherical operation cam 58, And the discharge port 36a of the right chamber 33 is moved downward by the descending inclined surface of the cam surface 58a of the additional operation cam 58 via the steel ball 42, (38) descends and becomes larger.

While the steel ball 42 is in contact with the cam surface 58a of the semi-spherical operation cam 58 as described above, the disinfection water sterilized and filled in the two adjacent chambers 33 are different from each other in the chambers 33 The flow rate is simultaneously discharged.

When the cam surface 58b shown by the one-dot chain line of the semi-spherical operation cam 58 is pressed against the steel ball 42 connected to the negative hole 38 in the right chamber 33, the discharge port 36a of the right chamber 33, The discharge port 36a in the left chamber 33 is completely closed.

Therefore, only the disinfection water in the right chamber 33 is discharged through the discharge port 36a (at this time, new contaminants are introduced into the right chamber 33 by a reduced amount of disinfection, and ozone is supplied from the corresponding selected ozone supply pipe 62 ) The sterilized water in the remaining chamber (33) continues to be sterilized with the sterilized state.

In this way, it is necessary to wait for the set time (1 minute) so that the first discharge opening 36a is opened again.

Thus, during this time, the contaminants are completely sterilized and in a state of waiting for release.

The disinfection water discharged through each discharge port 36a is filled into the discharge chamber 51 of the upper lid unit 50 and discharged through the discharge pipe 60 again.

In this way, the water filled in the plurality of chambers 33 is sterilized for a predetermined period of time and is sterilized. At the same time, the disinfection ability of the disinfectable water is improved by discharging the disinfected water continuously and continuously to the pool At the same time, a uniform sterilization effect can be obtained.

In addition, since the water introduced by the amount of the disinfecting water discharged from the chamber 33 is sterilized, there is no need to supply the ozone excessively, which is advantageous in reducing the size of the ozone generating device.

In the meantime, although the embodiment of the present invention has been described as a sterilizing mixer device installed in a swimming pool, it is also applicable to a general water purification device such as an apartment and a residential complex.

As described above, according to the present invention, the contaminated water in each chamber is allowed to react with ozone for a predetermined time to be sterilized, and at the same time, disinfecting water is sterilized consecutively by a predetermined amount in each chamber, , There is an outstanding advantage that a uniform sterilization effect can be obtained.

Claims (3)

And a plurality of chambers 33 having radially outwardly extending partition walls 32 and communicating with the inflow ports 29 at the lower part and having discharge ports 36a at the upper surface thereof, And a discharge chamber 51 communicating with the discharge port 36a is formed in the upper part of the chamber 33. The mixing chamber 20 has a discharge port 36a formed in the chamber 33, And a rotary shaft 54 is provided on the upper surface of the mixer cylinder 20 to the discharge chamber 51. The rotary shaft 54 is provided on the upper surface of the mixer cylinder 20 so as to be movable up and down at a predetermined height from the upper portion of the chamber 33, And the auxiliary gear 38 is lifted and moved in a state in which it is buoyant by the auxiliary operating cam 58 rotating through the rotary arm 56 connected to the rotary shaft 54 And the adjacent discharge ports (36a) of the chambers (33) are sequentially opened and closed. Water sterilization mixer device. The water sterilizing mixer apparatus according to claim 1, wherein an oxygen stone (70) for dispersing ozone as fine air bubbles is provided below the chamber (33). The cam follower according to claim 1, characterized by comprising two cam surfaces (58a) having a predetermined inclination at both ends of the semi-spherical operation cam (58) and a cam surface (58b) extending in a plane between the cam surface (58a) Water sterilization mixer device using ozone.