KR200208109Y1 - 0zonied-water generating apparatus - Google Patents

Abstract

The present invention relates to an ozone water generating device that mixes ozone according to the pressure of water introduced in the process of mixing and discharging water and ozone, and prevents external discharge of unmixed residual ozone.

To this end, the pressure outlet 104 is formed in the water discharge port of the solenoid valve for controlling the flow of water to increase the pressure of the water and the air, and the ozone inlet 105 is formed at the water discharge port of the solenoid valve to supply ozone, and the solenoid The water separator and ozone that flows through the valve are introduced together to separate ozone and ozone water that are not mixed with water from the ozone water of a constant concentration, and a bubble separator 110 installed at the end of the supply pipe at the discharge side, and is installed at the top of the bubble separator. Ozone transfer line 111 to transfer ozone to the ozone inlet of the solenoid valve so that the unmixed ozone can be recycled again, and at any position of the ozone transfer line 111 to supply ozone to the ozone inlet of the solenoid valve. It is characterized by consisting of the connected ozone supply line 112, thereby reducing the number of parts of the product As well as to simplify the assembly process, and also to prevent the leakage of ozone remaining in the product is effective to prevent injury and prevent damage to critical components around the coated body.

Description

Ozone water generating apparatus {0zonied-water generating apparatus}

The present invention relates to an ozone water generating device, in particular, to mix the ozone according to the pressure of the water input without the air pump in the process of mixing and discharging water and ozone, to provide a residual ozone not mixed with water to prevent external discharge It relates to an ozone water generator.

In general, the ozone water generating device is to purify and sterilize by injecting ozone into the object to be treated, and ozone water generating methods include an acid method, a pressurized injector method, a venturi injector method, and the like.

As shown in FIG. 1, the main part of the pressurized injector system includes an air pump 1 for suctioning external air and forcibly sending air to change ozone in the air sent through the air pump 1 into ozone. Ozone generator (3) having generator (2), Occlusal (4) for mixing ozone and water supplied through the ozone generator (3), Occlusal (4) from the water source (5) It consists of a solenoid valve (7) and the like installed in the water supply line (6) to control the flow of water supplied to.

When the air pump 1 forcibly discharges general air and sends it to the ozone generator 2, the ozone generator 3 converts oxygen in the air into ozone, and the changed ozone is decomposed into oxygen again, but undecomposed ozone is mixed with the occlusion. It is pushed into the part (4), mixed with water, dissolved and discharged into ozone water.

But. The ozone water generating device has to mix ozone with liquid by the pressure of the air pump, which makes the assembly process difficult due to the assembly and installation of parts and peripheral parts of the air pump. It becomes large, and because of this, there is a problem that installation is difficult in the place where the movement and the narrow.

In addition, the pressurized injector method and the venturi injector method use ozone water to discharge ozone water in a state where gas and liquid are mixed by using ozone to generate negative pressure while passing an object to be processed through a supply line under pressure by an air pump. In addition, ozone with low pressure when discharging ozone water is not mixed with water and leaks into the atmosphere at the same time as it is discharged. The ozone leaking into the air has a strong oxidizing power, which may cause a fatal injury to the human body or adversely affect the equipment of an important part, thereby causing a high price. Important parts of the device did not work was a disadvantage.

Therefore, to solve the conventional problems as described above, an object of the present invention is to remove the air pump installed in the product to increase the pressure of the water flowing in instead of the pressure provided from the air pump, assembly due to the reduction of the number of parts It is an object of the present invention to provide an ozone water generating device that is easy to install and move regardless of a place by simplifying a process and miniaturizing a volume and size of a product.

Another object of the present invention is to prevent the external discharge of residual ozone that is not mixed with water in the process of mixing and discharging water and ozone, to reuse ozone remaining in the product, and to prevent injury to the human body caused by the external leakage of ozone and An object of the present invention is to provide an ozone water generator that can prevent damage to important parts around.

In order to achieve the above object, the ozone water generating device of the present invention includes a water inlet side inlet provided in a main body so that a treatment object flows in, a first water supply pipe connected to the water inlet side inlet, and a solenoid valve for controlling the flow of water. And an ozone generator having an ozone generator for converting oxygen into ozone, an occlusal portion mixed with water to form a constant concentration of ozonated water, and a second water supply pipe connected to the occlusal portion and connected to a discharge side supply pipe. In the ozone water generating device, the ozone water generating device is formed in the water discharge port of the solenoid valve to increase the pressure of the water flowing in with the air and at the same time to increase the pressure of the air flowing in, the water discharge port of the solenoid valve Water and ozone formed in the through the pressure outlet to flow into the occlusal portion together The ozone inlet for supplying the zone, the water passing through the solenoid valve and the ozone flow into the occlusal portion together to form a constant concentration of ozone water, and the ozone water is separated from the ozone water to separate ozone and ozone water that are not mixed with water. A bubble separator installed at the end of the supply pipe, an ozone conveying line installed at the top of the bubble separator, and transferring ozone to the ozone inlet of the solenoid valve so as to recycle ozone which is not mixed with water in the bubble separator, and the ozone generator The ozone generated from the ozone inlet of the solenoid valve is characterized in that the ozone supply line connected to any position of the ozone transfer line is configured to supply.

1 is a block diagram for explaining a general ozone water generating device,

Figure 2a is a side cross-sectional view showing the configuration of an ozone water generating device according to an embodiment of the present invention,

Figure 2b is a bottom view showing the configuration of the ozone water generator of Figure 2a,

Figure 3a is a side cross-sectional view showing a solenoid valve of the general ozone water generator,

Figure 3b is one side cross-sectional view showing a solenoid valve of the ozone water generator of the present invention,

4 is a fragmentary perspective view showing an operating state of the ozone water generating device of the present invention,

<Explanation of symbols for main parts of the drawings>

100: main body 101: water inlet side inlet

102: first water supply pipe 103: solenoid valve

103a: water inlet 103b: water outlet

104: pressure outlet 105: ozone inlet

106: occlusal part 107: discharge side supply pipe

108: ozone generator 108a: ozone generator

109: second water supply pipe 110: bubble separator

110a: ozone supply port 110b: ozone water outlet

111: ozone feed line 112: ozone feed line

1000: ozone 2000: ozone water

Hereinafter, an ozone water generating device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2a is a side cross-sectional view showing the configuration of the ozone water generator according to an embodiment of the present invention, Figure 2b is a bottom view showing the configuration of the ozone water generator of Figure 2a, Figure 3a is a solenoid valve of a general ozone water generator 3B is a sectional side view showing a solenoid valve of the ozone water generator of the present invention, and FIG. 4 is a fragmentary perspective view showing an operating state of the ozone water generator of the present invention.

As shown in Figures 2 to 4, the ozone water generating apparatus main body 100 of the present invention is to purify and sterilize by incorporating ozone (1000) in the object to be treated.

The main body 100 is provided with a water inlet side inlet 101 so that the object to be treated is introduced.

The water inlet side inlet 101 is connected to the water inlet side inlet 101 and at the same time connected to the water inlet 103a of the solenoid valve 103 to be described later so that the treatment object is moved and introduced into the first water supply pipe 102. ) Is connected.

The first water supply pipe 102 is provided with a solenoid valve 103 for controlling the flow of water.

In the water outlet 103b of the solenoid valve 103, a pressure outlet 104 is formed to increase the pressure of the air introduced while increasing the pressure of the water introduced with the air.

The ozone inlet 105 for supplying the ozone 1000 so that water and ozone passing through the pressure outlet 104 into the water outlet 103b of the solenoid valve 103 flows into the occlusal portion 106 which will be described later. Formed.

An ozone generator 108 having an ozone generator 108a is provided between the solenoid valve 103 and the discharge side supply pipe 107 to change oxygen in the air into ozone.

Under the ozone generator 108, the ozone 1000 from the ozone generator 108 and water supplied through the solenoid valve 103 and the ozone 1000 are mixed to form an ozone water 2000 having a constant concentration. The part 106 is comprised.

The occlusal portion 106 is formed with an occlusal block 106a to seat the ozone generator 108a.

The occlusal block 106a is provided with a second water supply pipe 109 connected to the water outlet 103b of the solenoid valve 103 and through-connected to the occlusal block 106a.

When water and ozone 1000 are introduced into the second water supply pipe 109 through the water outlet 103b of the solenoid valve 103, a plurality of turbulences are formed to mix the introduced water and ozone 1000. The ball 109a is inserted.

The water and ozone 1000 passing through the second water supply pipe 109 are made of ozone water 2000 having a constant concentration and are supplied to the discharge side supply pipe 107 so that the second water supply pipe 109 and the discharge side supply 107 are provided. The pipes are connected to each other.

At the end of the discharge side supply pipe 107, water and ozone 1000 passing through the solenoid valve 103 flow into the occlusal unit 106 to form ozone water 2000 having a constant concentration, and from the ozone water 2000 A bubble separator 110 is installed to separate the ozone 1000 and the ozone water 2000 which are not mixed with water.

The bubble separator 110 is provided with an ozone transfer line 111 to transfer the ozone 1000 to the ozone inlet 105 of the solenoid valve 103 so that ozone that is not mixed with water can be recycled again.

Ozone connected to the ozone generator 108 to supply the ozone 1000 made by the ozone generator 108 to the ozone inlet 105 of the solenoid valve 103 at any position of the ozone transfer line 111. Supply line 112 is provided.

The ozone supply line 112 is provided with the ozone 1000 produced by the ozone generator 108 to be supplied to the ozone transport line 111 and to prevent the supplied ozone 1000 from flowing back to the ozone generator 108. The reverse side 112a is provided.

In addition, the bubble separator 110 is connected to the ozone transfer line 111, the ozone supply port to collect the residual ozone (1000) rising in the bubble separator 110 to send to the ozone transfer line (111). 110a is formed.

In addition, an ozone water outlet 110b is formed under the bubble separator 110 to discharge only the separated ozone water 2000 at a predetermined concentration to the outside.

Then, the operation of the ozone water generating device according to an embodiment of the present invention having the above configuration will be described in more detail with reference to FIGS. 2 to 4.

First, as shown in FIG. 2A and FIG. 2B, since the water inlet side inlet 101 is provided in the ozone water generator main body 100 so that the object to be treated is introduced, the object to be treated through the water inlet side inlet 101 is provided. It flows in.

At this time, as shown in Figure 3a, the water introduced through the water inlet side inlet 101 is introduced into the first water supply pipe 102 connected to the water inlet side inlet 101, the first water supply pipe 102 is connected to the water inlet 103a of the solenoid valve 103, so that water flows into the solenoid valve 103 through the first water supply pipe 102.

Here, as shown in Figure 3b, the solenoid valve 103 for controlling the water controls the flow of water to move to the water outlet 103b of the solenoid valve 103.

In the water outlet 103b of the solenoid valve 103, since the pressure outlet 104 is formed to increase the pressure of the water introduced with the air and at the same time, the pressure outlet 104 is also formed. The water that has passed increases the pressure and air pressure.

At the same time, since the ozone inlet 105 for supplying ozone to the water outlet 103b of the solenoid valve 103 is formed so that water passing through the pressure outlet 104 flows into the occlusal unit 106 together with ozone. In addition, ozone and water supplied through the ozone inlet 105 are introduced into the occlusal unit 106.

In this case, a second water supply pipe 109 connected to the water outlet 103b of the solenoid valve 103 and through-coupled to the occlusal block 106a is installed at the occlusal block 106a of the occlusal portion 106. Therefore, water and ozone 1000 flow into the second water supply pipe 109.

As shown in FIG. 4, when water and ozone 1000 are introduced into the second water supply pipe 109, a plurality of balls 109a for turbulence formation are inserted such that the introduced water and ozone 1000 are mixed. Therefore, the water and ozone 1000 passing through the bowl 109a are mixed with each other to form ozone water 2000 at a constant concentration.

The ozone water 2000 made at a constant concentration as described above moves to the discharge-side supply pipe 107.

At the end of the discharge side supply pipe 107 is a bubble separator 110 to separate the ozone (1000) and ozone water (2000) that is not mixed with water in the ozone water (2000) of a constant concentration passing through the discharge side supply pipe (107). ) Is installed, the ozone (1000) which is not mixed with water by the bubble separator 110 rises to the top of the bubble separator 110, the ozone water (2000) mixed with water and ozone (1000) is lower Descend to,

At this time, the residual ozone 1000 rising to the top of the bubble separator 110 is connected to the ozone inlet 105 of the solenoid valve 103 through an ozone supply port 110a formed on the bubble separator 110. Supplied to line 111.

At the same time, the ozone water 2000 descending to the lower portion of the bubble separator 110 is formed with an ozone water outlet 110b so as to be discharged to the outside, so that the ozone water 2000 is discharged through the ozone water outlet 110b.

At this time, the ozone 1000 is introduced into the ozone inlet 105 of the solenoid valve 103 through the ozone transfer line 111 and at the same time the ozone 1000 generated by the ozone generator 108 is received from the solenoid valve 103. Since the ozone supply line 112 is connected to an arbitrary position of the ozone transfer line 111 to supply the ozone inlet 105 of the ozone, the ozone of the solenoid valve 103 is passed through the ozone supply line 112. The ozone 1000 is supplied to the inlet 105.

In this way, the air pump is removed from the product to reduce the number of parts and to reduce the volume and size to simplify the assembly process, installation and movement, and to prevent the external discharge of residual ozone that is not mixed with water to recycle and coat the residual ozone on the human body. Injury can be prevented.

On the other hand, the present invention as described so far is not limited to the above embodiments and can be variously modified within the scope without departing from the spirit and scope of the present invention.

As described above, according to the ozone water generator according to the present invention,

By removing the air pump installed in the product to increase the pressure of the incoming water instead of the pressure provided by the air pump, the assembly process is simplified due to the reduction of the number of parts, and the volume and size of the product is miniaturized and installed in any place And it is easy to move, and by preventing the discharge of unmixed residual ozone in the process of mixing water and ozone, it not only recycles ozone remaining in the product, but also prevents injury to the human body due to external leakage of ozone. And it is effective to prevent the damage of important parts around.

Claims (2)

Ozone having a water inlet side inlet provided in the main body so that the object to be treated flows in, a first water supply pipe connected to the water inlet side inlet, a solenoid valve that controls the flow of water, and an ozone generator that changes oxygen into ozone In the ozone water generating device comprising a generator, an occlusal portion mixed with water to form a constant concentration of ozone water, and a second water supply tube connected to the occlusal portion and connected to a discharge-side supply pipe, The ozone water generator, A pressure discharge port formed in the water discharge port of the solenoid valve to increase the pressure of the water introduced at the same time as the pressure of the water introduced with the air; An ozone inlet formed at the water outlet of the solenoid valve and supplying ozone such that water and ozone having passed through the pressure outlet are introduced into the occlusal unit; A bubble separator installed at an end of the supply side supply pipe so that water and ozone passing through the solenoid valve are introduced into the occlusal part to form ozone water having a constant concentration, and to separate ozone and ozone water which are not mixed with water from the ozone water; An ozone transfer line installed at an upper portion of the bubble separator and transferring ozone to the ozone inlet of the solenoid valve so as to recycle ozone which is not mixed with water in the bubble separator; And an ozone supply line connected to an arbitrary position of the ozone transfer line so as to supply ozone generated from the ozone generator to an ozone inlet of the solenoid valve. The method of claim 1, The bubble separator, an ozone supply port formed on the bubble separator and collecting the residual ozone rising in the bubble separator and sent to the ozone transfer line; An ozone water generator, characterized in that the ozone water outlet is formed in the lower part of the bubble separator to discharge the ozone water to the outside.