CN217868237U - Active water generating device - Google Patents

Abstract

An active water generating device belongs to the technical field of plasma active water production equipment. The method is characterized in that: including power (8), infiltration subassembly and outer electrode (10), outer electrode (10) interval sets up in one side of infiltration subassembly, is provided with the infiltration portion on the infiltration subassembly, and the portion that seeps water sets up the upside at outer electrode (10), and an electrode and outer electrode (10) of power (8) link to each other, and another electrode switches on with the water that seeps water of portion that seeps water. The water that this active water generating device's infiltration portion oozed flows downwards through infiltration subassembly outer wall, and water is little at the thickness of infiltration subassembly outer wall, and water is as an electrode of ionization, discharges between water directness and the outer electrode, guarantees to the ionization effect of water good, and more stable, even to the ionization of water, and the aquatic active ingredient's after the ionization content is high, and the bactericidal effect of the active water of producing through this active water generating device is good.

Description

Active water generating device

Technical Field

An active water generating device belongs to the technical field of plasma active water production equipment.

Background

The plasma active water can kill microorganisms in various water sources, has a certain optimization effect on water quality, can promote reaction while improving the cleaning efficiency, and achieves the purpose of saving water. Plasma active water is produced by ionization, i.e. water flows between two electrodes, and active water is produced by electric discharge between the two electrodes, but the existing plasma active water production equipment has the following problems: because the water is between the two electrodes, the water is ionized through the discharge of the two electrodes, only part of the water is ionized, the ionization of the water is uneven, and the content of active ingredients in the water is low, so that the sterilization efficiency of the active water is low.

Disclosure of Invention

The to-be-solved technical problem of the utility model is: overcomes the defects of the prior art, and provides the active water generating device which is stable in ionization of water and has high active ingredient content in ionized active water.

The utility model provides a technical scheme that its technical problem adopted is: the active water generating device is characterized in that: including power, infiltration subassembly and outer electrode, the outer electrode interval sets up in one side of infiltration subassembly, is provided with infiltration portion on the infiltration subassembly, and infiltration portion sets up the upside at the outer electrode, and an electrode and the outer electrode of power link to each other, and another electrode switches on with the water that infiltration portion oozed.

Preferably, the infiltration subassembly include ceramic membrane and isolation plywood, the ceramic membrane is cylindric, and the isolation plywood sets up in the ceramic membrane, keeps apart plywood and ceramic membrane inner wall sealing connection to form at the upside of keeping apart the plywood infiltration portion, the outer electrode encircles the ceramic membrane setting.

Preferably, the water seepage device further comprises an insulating cylinder, the insulating cylinder is sleeved outside the water seepage component at intervals, and the outer electrode is arranged around the insulating cylinder.

Preferably, the outer electrode is a spiral shape arranged along the insulating cylinder.

Preferably, still include the locking cap, the top of infiltration subassembly and insulating cylinder all links to each other with the locking cap, is provided with the water inlet with the intercommunication of infiltration subassembly inner chamber on the locking cap.

Preferably, the device further comprises an exhaust gas treatment device, and the exhaust gas treatment device is communicated with the insulating cylinder.

Preferably, the waste gas treatment device comprises an air outlet pipe, the bottom of the insulating cylinder is open, and the air outlet pipe is communicated with the top of the insulating cylinder.

Preferably, the insulation barrel further comprises a cooling device, and the cooling device is arranged around the insulation barrel.

Preferably, cooling device include the dustcoat, the dustcoat encircles the insulating cylinder setting, the top and the bottom of dustcoat all with insulating cylinder sealing connection, the one end of dustcoat is provided with the intake pipe, the other end is provided with the venthole.

Compared with the prior art, the utility model discloses the beneficial effect who has is:

an electrode of this active water generating device's power switches on with the water that seeps of infiltration subassembly, the other end switches on with the outer electrode, the water that seeps of infiltration portion seeps flows downwards along the infiltration subassembly, because the speed of infiltration portion infiltration is slow, can make the outer wall of the water process infiltration subassembly of seeping of seepage flow downwards, water is little at the thickness of infiltration subassembly outer wall, and water itself is electrified, water is as an electrode of ionization, discharge between water directness and the outer electrode, guarantee that the ionization effect to water is good, and it is more stable, even to the ionization of water, the aquatic active ingredient's after the ionization content is high, the bactericidal effect of the active water of producing through this active water generating device is good.

Drawings

Fig. 1 is a front sectional view of an active water generator.

Fig. 2 is a partially enlarged view of a portion a in fig. 1.

Fig. 3 is a schematic sectional top view of the active water generator.

In the figure: 1. the device comprises a fixing cap 101, a water inlet 102, an outward flanging 103, a mounting groove 2, an inner electrode connecting wire 3, an inner electrode water cavity 4, an insulating cylinder 5, an outer cover 6, a ceramic membrane 601, a mounting part 7, an isolation layer plate 8, a power supply 9, a threading pipe 10, an outer electrode 11, a discharge region 12, an air inlet pipe 13, an air outlet pipe 1301 and an air outlet.

Detailed Description

The present invention is further described with reference to specific embodiments, however, it will be understood by those skilled in the art that the detailed description given herein with respect to the drawings is for better explanation and that the present invention is necessarily to be construed as limited to those embodiments, and equivalents or common means thereof will not be described in detail but will fall within the scope of the present application.

Fig. 1 to 3 are preferred embodiments of the present invention, and the present invention will be further explained with reference to fig. 1 to 3.

The utility model provides an active water generating device, includes power 8, infiltration subassembly and outer electrode 10, and outer electrode 10 interval sets up in one side of infiltration subassembly, is provided with infiltration portion on the infiltration subassembly, and infiltration portion sets up the upside at outer electrode 10, and an electrode of power 8 links to each other with outer electrode 10, and another electrode switches on with the water that infiltration portion oozes. This active water generating device's an electrode of power and the water that oozes of infiltration subassembly switch on, the other end switches on with outer electrode 10, the water that oozes of infiltration portion flows downwards along the infiltration subassembly, because the speed of infiltration portion infiltration is slow, can make the water that oozes through the outer wall of infiltration subassembly downward flow, water is little at the thickness of infiltration subassembly outer wall, and water itself is electrified, water is as an electrode of ionization, discharge between water directness and outer electrode 10, it is good to guarantee the ionization effect of water, and it is more stable to the ionization of water, even, the aquatic active ingredient's content after the ionization is high, the bactericidal effect of the active water of generating device production through this active water is good.

Specifically, the method comprises the following steps: as shown in FIGS. 1 to 3: the active water generating device also comprises an insulating cylinder 4, wherein the insulating cylinder 4 is a cylinder with upper and lower ends both open, and the insulating cylinder 4 is made of inorganic materials. The water seepage component comprises a ceramic membrane 6 and an isolation layer plate 7, the ceramic membrane 6 is cylindrical, the top of the ceramic membrane 6 is open, the bottom of the ceramic membrane 6 is closed, and the bottom of the ceramic membrane 6 is hemispherical with the middle part protruding downwards so that ionized active water can flow down from the bottom of the ceramic membrane 6 conveniently. The diameter of the ceramic membrane 6 is smaller than that of the insulating cylinder 4, the ceramic membrane 6 is coaxially arranged in the insulating cylinder 4, a flow channel for water to flow down is formed between the ceramic membrane 6 and the insulating cylinder 4, the isolation layer plate 7 is disc-shaped, the isolation layer plate 7 is arranged in the ceramic membrane 6, the isolation layer plate 7 is arranged in the middle of the ceramic membrane 6, the side portion of the isolation layer plate 7 is connected with the inner wall of the ceramic membrane 6 in a sealing mode, the inner electrode water cavity 3 is formed in the inner cavity of the upper portion of the ceramic membrane 6, and the water seepage portion is formed in the upper portion of the ceramic membrane 6. The outer electrode 10 is arranged around the lower part of the insulating cylinder 4, the outer electrode 10 is in a spiral shape arranged along the insulating cylinder 4, the outer electrode 10 is arranged on the lower side of the isolation layer plate 7, and the area of the flow channel corresponding to the outer electrode 10 is a discharge area 11. It is also possible to provide only the ceramic film 6 without the insulating cylinder 4.

The water penetration member may also be a plate-shaped ceramic membrane 6, and the external electrodes 10 are provided at one side of the plate-shaped ceramic membrane 6, and water penetrates to the other side through the ceramic membrane 6.

The active water generating device further comprises a fixing cap 1, the fixing cap 1 is a cylinder with a closed top, an installation part 601 is arranged at the top of the ceramic membrane 6, the installation part 601 extends into the fixing cap 1 and is connected with the fixing cap 1 in a sealing mode, a water inlet 101 is arranged at the top of the fixing cap 1, and the water inlet 101 is communicated with the inner electrode water cavity 3.

An outward flange 102 is arranged around the bottom of the fixing cap 1, and the top of the insulating cylinder 4 extends into the flange 102 and is connected with the flange 102 in a sealing manner.

The active water generating device also comprises a cooling device which is arranged around the insulating cylinder 4. The cooling device comprises an outer cover 5, the outer cover 5 is sleeved outside the insulating cylinder 4, the outer cover 5 and the insulating cylinder 4 are arranged at intervals, a cooling cavity is formed between the insulating cylinder 4 and the outer cover 5, the bottom of the outer cover 5 is connected with the bottom of the insulating cylinder 4 in a sealing mode, and the top of the outer cover 5 extends into the flanging 102 and is connected with the flanging 102 in a sealing mode. The bottom of the outer cover 5 is provided with an air inlet pipe 12, and the air inlet pipe 12 is communicated with the cooling cavity.

The bottom of flanging 102 of locking cap 1 is provided with the mounting groove 103 of indent, and mounting groove 103 has two, and the top of insulator 4 and the top of dustcoat 5 all stretch into in mounting groove 103 to all with locking cap 1 sealing connection.

This active water generating device still includes exhaust treatment device, and exhaust treatment device includes outlet duct 13, and outlet duct 13 sets up at the top of insulating cylinder 4, and the one end and the 4 inner chambers of insulating cylinder intercommunication of outlet duct 13, the other end pass dustcoat 5 and outwards stretch out, and sealed the setting between dustcoat 5 and the outlet duct 13 is provided with the venthole 1301 with the cooling chamber intercommunication on the outlet duct 13, makes outlet duct 13 communicate with insulating cylinder 4 and dustcoat 5 simultaneously.

The middle part of the outer cover 5 is provided with a threading pipe 9, one electrode of the power supply 8 is connected with an outer electrode 10 through a lead which passes through the threading pipe 9, the other electrode of the power supply 8 is connected with an inner electrode connecting wire 2, and the inner electrode connecting wire 2 extends into the inner electrode water cavity 3 and is communicated with water in the inner electrode water cavity 3.

The working process of the active water generating device is as follows: water to be ionized is introduced into the inner electrode water cavity 3 through the water inlet 101, and common water is adopted and has certain conductivity. The water seeps out from the upper part of the ceramic membrane 6 and flows downwards along the inner wall of the ceramic membrane 6, when the water flows to the discharge area 11 corresponding to the outer electrode 10, the water is used as the inner electrode and is ionized with the outer electrode 10, the ionization of the water is more stable and uniform, and the content of active ingredients in the ionized water is high.

In the ionization process, part of ozone is generated, and negative pressure is pumped through the air outlet pipe 13, so that part of ozone gas generated in the insulating cylinder 4 can be pumped away and concentrated, and the environment pollution is avoided. Cooling air is introduced into the outer cover 5 through the air inlet pipe 12, enters the air outlet pipe 13 through the air outlet hole 1301, and is discharged through the air outlet pipe 13, so that the insulating cylinder 4 is cooled. The housing 5 is preferably a transparent housing.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made without departing from the spirit and scope of the invention. However, any simple modification, equivalent change and modification made to the above embodiments according to the technical substance of the present invention still belong to the protection scope of the technical solution of the present invention.

Claims (9)

1. An active water generating device, characterized in that: including power (8), infiltration subassembly and outer electrode (10), outer electrode (10) interval sets up in one side of infiltration subassembly, is provided with infiltration portion on the infiltration subassembly, and infiltration portion sets up the upside at outer electrode (10), and an electrode of power (8) links to each other with outer electrode (10), and another electrode switches on with the water that the portion of infiltrating oozes.

2. The activated water generator of claim 1, wherein: the infiltration subassembly include ceramic membrane (6) and keep apart plywood (7), ceramic membrane (6) are cylindric, keep apart plywood (7) and set up in ceramic membrane (6), keep apart plywood (7) and ceramic membrane (6) inner wall sealing connection to form at the upside of keeping apart plywood (7) infiltration portion, outer electrode (10) encircle ceramic membrane (6) and set up.

3. Active water generating device according to claim 1 or 2, characterized in that: still include insulating cylinder (4), insulating cylinder (4) interval cover is established outside the infiltration subassembly, and outer electrode (10) encircle insulating cylinder (4) and set up.

4. Active water generating device according to claim 3, characterized in that: the outer electrode (10) is spiral along the insulating cylinder (4).

5. Active water generating device according to claim 3, characterized in that: still include locking cap (1), the top of infiltration subassembly and insulating cylinder (4) all links to each other with locking cap (1), is provided with water inlet (101) with the intercommunication of infiltration subassembly inner chamber on locking cap (1).

6. Active water generating device according to claim 3, characterized in that: the device also comprises an exhaust gas treatment device, and the exhaust gas treatment device is communicated with the insulating cylinder (4).

7. The activated water generating apparatus according to claim 6, wherein: the waste gas treatment device comprises an air outlet pipe (13), the bottom of the insulating cylinder (4) is open, and the air outlet pipe (13) is communicated with the top of the insulating cylinder (4).

8. Active water generating device according to claim 3, characterized in that: the insulating cylinder is characterized by further comprising a cooling device, wherein the cooling device is arranged around the insulating cylinder (4).

9. The activated water generator of claim 8, wherein: the cooling device comprises an outer cover (5), the outer cover (5) is arranged around an insulating cylinder (4), the top and the bottom of the outer cover (5) are both in sealing connection with the insulating cylinder (4), an air inlet pipe (12) is arranged at one end of the outer cover (5), and an air outlet hole (1301) is formed in the other end of the outer cover.

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