CN217272109U - Ozone tap - Google Patents

Abstract

The utility model discloses an ozone tap, including leading subassembly module, ozone module and control panel, the ozone module is including inlet tube, ozone generator and ozone outlet pipe, the inlet tube with install the on-off device between the ozone generator, the on-off device with the ozone module connect in the control panel, the ozone outlet pipe with the play water end of leading subassembly module is linked together. The utility model discloses an ozone tap is large-traffic STREAMING ozone tap promptly, and ozone mixes the proportion height in aqueous, and the security is good, and this ozone tap controls ozone module or on-off unit's work through the control panel simultaneously whether to realize the play water model of ozone water or ordinary water, avoid running water and ozone water to mix the production of going out the water problem, humanized degree is high.

Description

Ozone tap

Technical Field

The utility model relates to an ozone tap.

Background

The faucet is an indispensable product in families, and with the increasing requirements of people on sterilization, a faucet structure for sterilizing by using ozone appears, secondary pollution is avoided in ozone sterilization, and no harmful residue is left on the surfaces of treated food, water and other objects. However, the taps for ozonated water on the market today have the following drawbacks: firstly, the flow is small or a water storage structure is adopted, so that the product size is large; second, low concentration: the proportion of ozone mixed in water is low, the sterilization effect is poor, much ozone is leaked in air, and the safety is poor; thirdly, the ozone water and tap water are mixed out, which is unsafe; fourthly, the ozone water is directly connected with the water outlet end of the faucet, so that the integrity of the appearance is influenced.

Disclosure of Invention

In order to solve the technical problem, the utility model aims to provide an ozone tap.

The utility model discloses a following technical scheme realizes: the ozone faucet comprises a faucet component module, an ozone module and a control panel, wherein the ozone module comprises a water inlet pipe, an ozone generator and an ozone outlet pipe, an on-off device is installed between the water inlet pipe and the ozone generator, the on-off device is connected with the ozone module to the control panel, and the ozone outlet pipe is communicated with the water outlet end of the faucet component module.

Preferably, the ozone module is internally provided with an electrolysis cavity, and the ozone generator is arranged in the electrolysis cavity; the ozone generator is formed by arranging a positive plate, an insulating sheet and a negative plate at intervals, wherein the positive plate or the negative plate at least comprises two electrode plates with the same polarity, and the negative plate or the positive plate is arranged between the two electrode plates.

Preferably, the positive plate and the negative plate are provided with openings.

Preferably, one end of the negative plate is provided with a first abdicating notch, and the positive plate is electrically connected by the positive connecting piece through the first abdicating notch; the positive plate is provided with a second abdicating notch, and the negative connecting piece is used for electrically connecting the negative plate through the second abdicating notch.

Preferably, the ozone water control device further comprises an ozone water switch, the on-off device is an electromagnetic valve, the ozone water switch controls the electromagnetic valve and the ozone generator to be opened or closed, and the ozone generator is opened or closed along with the opening and closing of the electromagnetic valve.

Preferably, the ozone water supply device further comprises an ozone water switch, the on-off device is a water flow sensing device, the water flow sensing device detects the on-off of the ozone water switch, the water flow sensing device and the ozone generator are connected to the control board, and the ozone generator is turned on or turned off according to a signal of the water flow sensing device.

Preferably, the faucet component module comprises a faucet body, a faucet control switch and an ozone water switch, wherein a control valve is arranged in the faucet control switch and controls the on-off of a water channel of the faucet component module; a waterway control module is arranged between the ozone generator and the faucet assembly for communication.

Preferably, the water path control module comprises a water inlet, a water passing cavity and a water outlet, the water outlet is communicated with a water outlet pipeline of the faucet assembly module, the water path control module is further provided with a water passing pipeline, and the ozone water outlet pipe is communicated with the water passing pipeline.

Preferably, the waterway control module comprises two water inlets and a water outlet, the two water inlets are respectively communicated with the common water waterway and the ozone water waterway, and the two water inlets are communicated to the water outlet.

Preferably, the waterway control module includes two water inlets and two water outlets, the two water inlets are respectively communicated with a common water waterway and an ozone water waterway, the two water outlets are respectively connected to the water outlet pipelines of the faucet assembly module, and the common water waterway and the ozone water waterway are respectively and independently disposed.

Preferably, the faucet assembly module or the waterway control module is provided with a detection piece, the detection piece is used for detecting the waterway on-off of the control valve, and when the control panel receives a signal of opening the control valve, the on-off device and the ozone generator are disabled, the ordinary water waterway is conducted, and the ozone water waterway is disabled.

The utility model discloses an ozone tap is large-traffic STREAMING ozone tap promptly, and ozone mixes the proportion height in aqueous, and the security is good, and this ozone tap controls ozone module or on-off unit's work through the control panel simultaneously whether to realize the play water model of ozone water or ordinary water, avoid running water and ozone water to mix the production of going out the water problem, humanized degree is high.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed for the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a structural diagram of a first embodiment of the present invention.

Fig. 2A is an exploded view of the present invention.

Figure 2B is an exploded view of the ozone module of the present invention.

Fig. 3 is a perspective view of the control box module of the present invention.

Fig. 4 is a cross-sectional view of the control box module of the present invention.

Fig. 5 is a perspective view of the control box module of the present invention.

Figure 6 is an exploded view of the faucet of the present invention including another ozone module.

Figure 7 is a cross-sectional view of a control box module of the present invention including another ozone module.

Figure 8 is a partial cross-sectional view of a control box module of the present invention including another ozone module.

Fig. 9 is a structural diagram of a second embodiment of the present invention.

Fig. 10 is a sectional view of a control box module according to a third embodiment of the present invention.

Fig. 11 is a structural diagram of a third embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Example one

Referring to the attached drawings 1 to 4 of the specification, an ozone faucet comprises a faucet assembly module 1 and a control box module 2, wherein the faucet assembly module 1 comprises a faucet body 11, a faucet control switch 12 and an ozone water switch 13, a control valve is arranged in the faucet body 11, two water inlets of the control valve are respectively communicated with a hot water inlet pipe a1 and a cold water inlet pipe a2, and water after being mixed through a valve plate flows into a mixed water outlet pipe a 3; the ozone water switch 13 and the faucet control switch 12 can be integrated on the same element, for example, the ozone water switch 13 is disposed on the faucet control switch 12, and different water outlet functions can be realized by controlling the faucet control switch or the ozone water switch, of course, the ozone water switch 13 and the faucet control switch 12 can be separately disposed, and they can both realize different water outlet function modes; in addition, the ozone water switch can be controlled by a remote controller device or an intelligent terminal, and is intelligently controlled to be turned on through other control modes such as wireless or human body induction and voice.

The control box module 2 comprises a waterway control module 21, an electromagnetic valve 22, an ozone module 23 and a control panel 24, wherein the control panel 24 is connected to a power supply through a power line b, the waterway control module 21 is provided with a water inlet 21a, a water passing cavity 21b and a water outlet 21c, the water inlet 21a is communicated with a mixed water outlet pipe a3 of the faucet assembly module, and the water outlet 21c connects a waterway to a water outlet pipe of the faucet body 11 through a pipeline c; in addition, a water passing pipeline 21d is further opened on the water passing cavity 21b, and the water passing cavity 21b is communicated with the ozone water through the water passing pipeline 21 d.

The ozone module 23 and the control panel 24 are installed in a casing 25, the casing 25 forms a left casing and a right casing, and installation frame bodies d are distributed on two sides of the left casing or the right casing and are matched with each other through the installation frame bodies d in the left casing and the right casing to install the ozone module 23 in the casing 25; the ozone module 23 comprises a water inlet pipe s1, an electrolysis cavity p4 and an ozone water outlet s3, the water inlet pipe s1 can be integrated with the ozone module, or the water inlet pipe s1 can be formed by connecting the valve body with the water inlet of the ozone module, the water inlet pipe s1 is communicated with a cold water pipeline, the electromagnetic valve 22 is arranged on the water inlet pipe s1, that is, the water inlet pipe s1 is communicated with the electromagnetic valve 22 to control the on-off of the water inlet, the electromagnetic valve 22 and the ozone generator s2 are both connected with the control board 24, the control board realizes the water inlet of the ozone module by controlling the on-off of the water path of the electromagnetic valve 22, wherein the ozone generator s2 is switched on and off in response to the switching of the solenoid valve 22, for example, the ozone generator s2 is opened or closed in synchronization with the solenoid valve 22, and of course, the ozone generator and the electromagnetic valve can be opened or closed to have a certain delay difference to carry out cooperative work, and the effects of the utility model can be realized; an ozone generator s2 is arranged in the electrolysis cavity p4, the ozone generator s2 is composed of a plurality of negative electrode plates p21, positive electrode plates p22 and insulating sheets, the negative electrode plates p21 and the positive electrode plates p22 are arranged at intervals, and the insulating sheets are arranged between the negative electrode plates p21 and the positive electrode plates p22, wherein the negative electrode plates p21 or the positive electrode plates p22 at least comprise two electrode plates with the same polarity, and the positive electrode plates p22 or the negative electrode plates p21 are arranged between the two electrode plates; preferably, the negative plate p21 and the positive plate p22 are provided with a plurality of openings p23, the positive pole pieces p22 are connected to the circuit by a positive pole connecting piece p24, the negative pole pieces p21 are connected to the circuit by a negative pole connecting piece p25, the positive or negative connectors are, for example, screws, and as shown in fig. 2B, one end of the negative plates p21 arranged in parallel is provided with a first abdicating notch h1, the positive connector p24 connects the positive plates p22 through the first abdicating notches h1, and similarly, the positive plates p22 arranged in parallel are also provided with second abdicating notches, the negative connecting piece p25 connects the negative plates p21 through the second abdicating notches, the electrode plates are connected to the outside, so that water entering the electrolytic cavity is electrolyzed by using low-pressure electrolytic water to generate ozone, and ozone water is generated for users; further, the above-mentioned ozone water outlet s3 is communicated with the electrolytic chamber for outputting the water mixed with ozone generated in the electrolytic chamber, and the ozone water outlet s3 is communicated with the water passing line 21 d.

Referring to fig. 3, the waterway control module 21 and the ozone module 23 are integrally connected to each other, but in another embodiment, referring to fig. 5, the waterway control module 21 may be separately provided from the ozone module 23, and the water passing pipe 21d of the waterway control module is inserted into the ozone water outlet s3, and a sealing ring is provided between the water passing pipe 21d and the ozone water outlet s3 to ensure the sealing performance of the two, so that the ozone water in the ozone water outlet pipe s3 is output to the water passing cavity 21b, and finally the ozone water flows out from the water outlet 21c of the waterway control module to the faucet body 11 for use.

Further, a detecting member 211 is further disposed in the waterway control module 21, the detecting member 211 is used to detect whether the control valve is in an open state, the detecting member 211 is disposed between the water inlet 21a and the water passing pipeline 21d, when the detecting member 211 detects that the control valve is in the open state, i.e. the mixed water flows into the water passing cavity from the water inlet 21a, at this time, the electromagnetic valve 22 and the ozone generator s2 are in a failure state, and the faucet flows out normal water for the user. Certainly in other arrangement, this detection piece 211 can also be placed in leading subassembly module 1, and whether the play water of direct detection control valve, it also can realize the utility model discloses detect the purpose of the play water state of control valve.

Thus, when the faucet control switch 12 is closed, the ozone water switch 13 is opened, at this time, under the control of the control panel 24, the electromagnetic valve 22 is opened, the ozone module 23 is in a working state, water flows into the water inlet pipe s1 of the ozone module from the cold water pipeline, then enters the electrolytic cavity, is electrolyzed by the ozone generator s2, water is electrolyzed to generate ozone and is mixed in water to form ozone water, then the ozone water enters the water passing cavity 21b through the ozone water outlet s3, and then sequentially flows to the faucet water outlet terminal from the water outlet 21c and the pipeline c to form ozone water for a user to use; in addition, if the faucet control switch 12 is in the open state, at this time, the detector 211 detects that the control valve is in the open state, that is, the mixed water flows into the water passing cavity from the water inlet 21a, when the control panel 24 receives the open signal of the detector 211, the electromagnetic valve 22 and the ozone module 23 are disabled, and in the closed state, after the water flows into the control valve from the hot water inlet pipe a1 and the cold water inlet pipe a2 and is mixed, the mixed water flows into the water passing cavity 21b through the mixed water outlet pipe a3, and then flows from the water outlet 21c of the water path control module to the faucet water outlet terminal, so as to form normal water for the user. The utility model discloses an ozone tap is large-traffic STREAMING ozone tap promptly, and ozone mixes the proportion height in aqueous, and the security is good, and this ozone tap controls the work of ozone module or solenoid valve through the control panel simultaneously whether to realize the play water model of ozone water or ordinary water, avoid running water and ozone water to mix the production of going out the water problem, humanized degree is high. In the above embodiment, the waterway control module is designed to be in a two-inlet one-outlet water outlet mode, and the outlet water of the ozone water and the outlet water of the ordinary water share one water outlet, but in other embodiments, the outlet water waterway of the ozone water can also be completely separated from the outlet water waterway of the ordinary water.

In another preferred embodiment, referring to fig. 6 to 8, the ozone module 23 'comprises an ozone generator s 2' and a water-gas mixing device s4, the ozone generator s2 'comprises a gas inlet s21, an ozone generating chamber s22 and a gas outlet s23, the ozone generator s 2' comprises electrodes (e.g., an outer electrode and a discharge electrode), an inner tube and a dielectric tube, the inner tube and the dielectric tube form the ozone generating chamber s22, gas enters the ozone generating chamber s22 from the gas inlet s21 and is ionized in the ozone generating chamber to generate ozone, and the ionized gas enters the water-gas mixing device s4 through the gas outlet s 23. The water-gas mixing device s4 is provided with an ozone gas inlet s40, the ozone gas inlet s40 is communicated with the air outlet s23 of the ozone generator, wherein a one-way valve p1 is arranged at the ozone gas inlet s40, so as to prevent the backflow phenomenon; the water-air mixing device s4 further comprises a main body s41, an ozone inlet hole s42 and a water-air stirrer s43, wherein an electromagnetic valve 22 is arranged at a water inlet pipe s1 'of the main body, the electromagnetic valve 22 is connected with a control plate 24, the electromagnetic valve 22 can be used for controlling whether the water inlet pipe s 1' enters water or not, meanwhile, a plurality of pore diameter channels are arranged in the main body s41, specifically, the main body s41 at least comprises a water channel k2 and a jet flow channel k3 which have different pore diameters, the water channel k2 is a channel with the smallest pore diameter, the pore diameter of the water channel k2 is smaller than that of the jet flow channel k3, the water channel k2 is respectively communicated with the water inlet pipe s1 'and the jet flow channel k3, namely, after flowing in from the water inlet pipe s 1', the water flows through the water channel k2 and then flows into the jet flow channel k 3; the ozone air inlet hole s42 is communicated with the ozone gas inlet hole s40, the ozone air inlet hole s42 is arranged at the position close to the water passing channel k2 at the inner wall of the jet flow channel k3, namely the ozone air inlet hole s42 is arranged at the position of the jet flow channel k3, and the ozone air inlet hole s42 is arranged at the position close to the joint of the water passing channel k2 and the jet flow channel k3, so that water and ozone are uniformly mixed, and the ozone content in the water is improved; the outlet of the jet flow channel k3 is provided with a stirring cavity k4, the water-gas stirrer s43 is arranged in the stirring cavity k4, and preferably, the side surface of the water-gas stirrer s43 is provided with a spiral opening which can be solid or hollow, so that the water-gas mixing is more complete; therefore, water flows into the water passage k2 and the jet flow passage k3 from the water inlet pipe s1 ', simultaneously the water flows are mixed with ozone discharged from the ozone inlet hole s42 in the jet flow passage k3, and then the water flows are uniformly stirred in the stirring cavity k4 through the water-gas stirrer s43, so that the water-gas mixing ratio is improved, and then ozone water enters the water passing cavity 21b in the waterway control module through the ozone water outlet s3 ', wherein the water passing pipeline 21d of the waterway control module is inserted into the ozone water outlet s3 ' and is arranged in a communicated manner. The ozone tap of the utility model is a large-flow instant-flow ozone tap, the proportion of ozone mixed in water is high, and the safety is good.

Example two

Referring to fig. 9, an ozone faucet includes a faucet assembly module 1 and a control box module 2, where the control box module 2 includes a waterway control module 21, a solenoid valve 22, an ozone module 23 (or 23'), and a control board 24, and the control board 24 is connected to a power supply through a power line b, which is the same as that of the above embodiment and will not be described again. This leading subassembly module 1 includes leading body 11 and ozone water switch 13, and this ozone tap's ozone water outlet s3 is direct or indirect through pipeline c and leading body 11 outlet pipe way intercommunication to realize leading ozone water play water function, this embodiment utilizes single water route direct with the current formula of large-traffic formula ozone water promptly to carry to the play water end of leading subassembly module, and is simple and convenient, can satisfy most users' demand, and the practicality is strong.

EXAMPLE III

The solenoid valve 22 in the above embodiment is one embodiment of the on-off device of the present invention, and in other embodiments, referring to fig. 10 and 11, the on-off device may be, for example, a water flow sensing device 4, the water flow sensing device 4 is disposed between a water inlet pipe s1 and an ozone generator s2/s2 ', the water flow sensing device 4 is capable of detecting the opening and closing of an ozone water switch 13 ', and the water flow sensing device 4 and the ozone generator s2/s2 ' are connected to a control board 24; when the water flow sensing device 4 detects that the ozone water switch 13' is in an open state, the water flow sensing device 4 sends a sensing signal to the control board 24, the control board 24 starts the ozone generator to operate to prepare ozone water, and then the prepared ozone water is conveyed to the water outlet end of the faucet body for a user to use; of course, if the ozone water switch 13' is in the off state, the ozone generator is in the off state, that is, the ozone generator is in the on or off state according to the sensing signal of the water flow sensing device.

While the foregoing description shows and describes the preferred embodiments of the present invention, it is to be understood that the invention is not limited to the forms disclosed herein, but is not intended to be exhaustive or to exclude other embodiments and may be used in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (10)

1. An ozone faucet is characterized by comprising a faucet component module, an ozone module and a control panel, wherein the ozone module comprises a water inlet pipe, an ozone generator and an ozone outlet pipe; the ozone generator is formed by arranging a positive plate, an insulating sheet and a negative plate at intervals, wherein the positive plate or the negative plate at least comprises two electrode plates with the same polarity, and the negative plate or the positive plate is arranged between the two electrode plates.

2. The ozone faucet of claim 1, wherein the positive plate and the negative plate are provided with openings.

3. The ozone faucet of claim 1, wherein one end of the negative plate is provided with a first abdicating notch, and the positive plate is electrically connected by the positive connecting piece through the first abdicating notch; the positive plate is provided with a second abdicating notch, and the negative connecting piece is used for electrically connecting the negative plate through the second abdicating notch.

4. The ozone faucet of claim 1, further comprising an ozone water switch, wherein the on-off device is a solenoid valve, the ozone water switch controls the on-off of the solenoid valve and the ozone generator, and the ozone generator is turned on or off along with the on-off of the solenoid valve.

5. The ozone faucet of claim 1, further comprising an ozone water switch, wherein the on/off device is a water flow sensing device, the water flow sensing device detects the on/off of the ozone water switch, the water flow sensing device and the ozone generator are connected to the control board, and the ozone generator is turned on or off according to a signal of the water flow sensing device.

6. The ozone faucet of claim 1, wherein the faucet assembly module comprises a faucet body, a faucet control switch and an ozone water switch, a control valve is arranged in the faucet control switch, and the control valve controls the on-off of a waterway of the faucet assembly module; a waterway control module is arranged between the ozone generator and the faucet assembly for communication.

7. The ozone faucet of claim 6, wherein the waterway control module comprises a water inlet, a water passing cavity and a water outlet, the water outlet is communicated with a water outlet pipeline of the faucet assembly module, the waterway control module is further provided with a water passing pipeline, and the ozone outlet pipe is communicated with the water passing pipeline.

8. The ozone faucet of claim 6, wherein the waterway control module comprises two water inlets and a water outlet, the two water inlets are respectively communicated with the ordinary water waterway and the ozone water waterway, and the two water inlets are communicated to the water outlet.

9. The ozone faucet of claim 6, wherein the waterway control module comprises two water inlets and two water outlets, the two water inlets are respectively communicated with a normal water waterway and an ozone water waterway, the two water outlets are respectively connected to the water outlet pipelines of the faucet assembly module, and the normal water waterway and the ozone water waterway are respectively and independently arranged.

10. The ozone faucet of claim 6, wherein the faucet assembly module or the waterway control module is provided with a detection element, the detection element is used for detecting the waterway connection and disconnection of the control valve, and when the control board receives a signal that the control valve is opened, the connection and disconnection device and the ozone generator are disabled, the ordinary water waterway is connected, and the ozone water waterway is disabled.

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