CN216703978U - Ozone water device with infrared hand waving induction function - Google Patents

Abstract

The utility model discloses an ozone water device with infrared waving induction, which comprises a water outlet device, a bubble producing pipe assembly, an ozone control box and an infrared waving inductor, wherein the bubble producing pipe assembly, the ozone control box and the infrared waving inductor are arranged on the water outlet device, the infrared waving inductor is electrically connected with the ozone control box, the bubble producing pipe assembly is respectively connected with the water outlet device and the ozone control box, induction signals are generated by the infrared waving inductor, the ozone control box is started to generate ozone gas, and the ozone gas is mixed with tap water through the bubble producing pipe assembly to generate bubble type ozone water.

Description

Ozone water device with infrared hand waving induction function

Technical Field

The utility model relates to the technical field of ozone water devices, in particular to an ozone water device with infrared hand waving induction.

Background

Along with the improvement of living standard of people, the quality requirement of people on water is higher and higher, and the ozone water is considered to be a high-efficiency broad-spectrum bactericide because of the outstanding effects of sterilizing, disinfecting and degrading pesticides. The most suitable method for sterilization using ozone is to dissolve ozone in water to form so-called "ozone water". The ozone water has particularly obvious effect on sterilizing and disinfecting clothes, quilts, bags and the like; has the functions of sterilization, disinfection, corrosion prevention, fresh preservation and odor removal on fruits, vegetables and meat, and has the function of degrading residual phosphorus-containing pesticide on the surfaces of the fruits, vegetables and meat.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides an ozone water device with infrared hand waving induction.

The technical scheme of the utility model is as follows:

the utility model relates to an ozone water device with infrared waving induction, comprising:

a water outlet device is arranged at the bottom of the water tank,

a bubble-producing tube component,

an ozone control box, and

the infrared hand waving inductor is installed on the water outlet device and electrically connected with the ozone control box, the bubble producing pipe assembly is respectively connected with the water outlet device and the ozone control box, induction signals are generated by the infrared hand waving inductor, the ozone control box is started to generate ozone gas, and the ozone gas is mixed with tap water through the bubble producing pipe assembly to generate bubble type ozone water.

Furthermore, the bubble producing pipe assembly comprises a water inlet interface, a water outlet interface and an air inlet, wherein the water inlet interface and the water outlet interface are connected with a water outlet device, and the ozone control box is connected with the air inlet.

Furthermore, the water outlet device comprises a water outlet nozzle, a switch handle and a water inlet end, wherein the water inlet end is connected with the water inlet interface, tap water is controlled by the switch handle to flow through the bubble producing pipe assembly from the water inlet end, and the tap water or bubble type ozone water flows out from the water outlet nozzle.

Furthermore, the device also comprises a mixed water outlet pipe, a water outlet hose and an ozone transmission pipe, wherein one end of the mixed water outlet pipe is connected with the water inlet end of the water outlet device, the other end of the mixed water outlet pipe is connected with the water inlet interface of the bubble producing pipe assembly, one end of the water outlet hose is connected with the water outlet nozzle of the water outlet device, the other end of the water outlet hose is connected with the water outlet interface of the bubble producing pipe assembly, one end of the ozone transmission pipe is connected with the bubble producing pipe assembly, and the other end of the ozone transmission pipe is connected with the ozone control box.

Furthermore, check valves are respectively arranged on the water inlet connector and the air inlet, and the backflow of ozone water and tap water is prevented through the check valves.

Furthermore, a sealing ring and a nozzle are arranged on the water inlet interface, the pressure intensity is increased through the nozzle, and the sealing ring reinforces the connection between the nozzle and the check valve.

Furthermore, the water outlet interface is provided with a quick connector and a mounting port, and the water outlet hose is fixed in the water outlet interface by inserting the quick connector into the mounting port.

Further, a signal line is arranged between the infrared hand waving sensor and the ozone control box, the infrared hand waving sensor comprises a transmitting tube and a receiving tube, and infrared ray emitted by the transmitting tube is reflected to the infrared receiving tube due to human body shieldingover, and the signal is sent to the ozone control box through the signal line.

Further, the end of intaking still connects a hot water intake hose, cold water intake hose, hot water angle valve and cold water angle valve, the end of intaking is connected to the one end of hot water intake hose, the hot water angle valve is connected to the other end of hot water intake hose, the end of intaking is connected to the one end of cold water intake hose, cold water angle valve is connected to the other end of cold water intake hose.

Furthermore, the ozone control box is connected with a power adapter, and the power adapter supplies power to the ozone control box.

The utility model has the beneficial effects that: aiming at using ozone water more conveniently, an infrared wave hand sensor, an ozone control box, a bubble producing pipe assembly and a water outlet device are designed to be connected, so that a device capable of producing ozone water by matching infrared induction with tap boiled water is formed, and then vegetables, fruits and clothes are sterilized and disinfected.

Drawings

FIG. 1 is a schematic view of an apparatus for producing ozone water with infrared hand waving induction according to the present invention;

FIG. 2 is a schematic view of an ozone control box of an ozone water apparatus with infrared hand waving induction according to the present invention;

FIG. 3 is a schematic view of the overall structure of a bubble producing tube assembly of an ozone water apparatus with infrared hand waving induction according to the present invention;

Fig. 4 is a schematic view of an exploded structure of a bubble producing tube assembly of an ozone water apparatus with infrared hand waving induction according to the present invention;

FIG. 5 is a schematic cross-sectional view illustrating a bubble producing tube assembly of an ozone water apparatus with infrared hand waving sensing according to the present invention;

FIG. 6 is a schematic view of the overall structure of an infrared hand waving inductor of an ozone water apparatus with infrared hand waving induction according to the present invention;

FIG. 7 is a schematic view of an exploded structure of an infrared hand waving sensor of an ozone water apparatus with infrared hand waving sensing according to the present invention;

fig. 8 is a schematic cross-sectional view of an infrared hand waving inductor of an ozone water apparatus with infrared hand waving induction according to the present invention.

In the figure, 100 is a water outlet device, 101 is a water outlet nozzle, 102 is a switch handle, 103 is a water inlet end, 200 is an ozone control box, 201 is a power indicator, 202 is a start indicator, 203 is a power switch, 204 is a power adapter, 205 is a power connecting line, 300 is a bubble producing tube assembly, 301 is a water inlet interface, 302 is a water outlet interface, 3021 is a quick connector, 3022 is a mounting port, 303 is an air inlet, 304 is a check valve, 305 is a sealing ring, 306 is a nozzle, 400 is an infrared waving sensor, 401 is a transmitting tube, 402 is a receiving tube, 403 is an LED lamp, 404 is a sensing screen, 405 is an isolation cover, 500 is a mixed water outlet pipe, 501 is a water outlet hose, 502 is an ozone conveying pipe, 503 is a signal line, 504 is a hot water inlet hose, 505 is a cold water inlet hose, 506 is a hot water angle valve, and 507 is a cold water angle valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings of the present invention.

Referring to fig. 1 to 8, the present invention provides an ozone water apparatus with infrared hand waving induction, comprising: the ozone generating device comprises a water outlet device 100, a bubble generating pipe assembly 300, an ozone control box 200 and an infrared hand waving inductor 400, wherein the infrared hand waving inductor 400 is installed on the water outlet device 100, the infrared hand waving inductor 400 is electrically connected with the ozone control box 200, the bubble generating pipe assembly 300 is respectively connected with the water outlet device 100 and the ozone control box 200, induction signals are generated by the infrared hand waving inductor 400, the ozone control box 200 is started to generate ozone gas, and the ozone gas is mixed with tap water through the bubble generating pipe assembly 300 to generate bubble type ozone water.

Above-mentioned infrared hand inductor 400 of waving is not traditional induction faucet's the mode of setting up, and induction position is tap's side, can not just produce ozone water as soon as being close to water outlet device.

The bubble producing tube assembly 300 comprises a water inlet interface 301, a water outlet interface 302 and an air inlet 303, wherein the water inlet interface 301 and the water outlet interface 302 are connected with the water outlet device 100, and the ozone control box 200 is connected with the air inlet 303. The water inlet joint 301 is provided with threads.

The water outlet device 100 comprises a water outlet nozzle 101, a switch handle 102 and a water inlet end 103, wherein the water inlet end 103 is connected with a water inlet interface 301, tap water is controlled to flow from the water inlet end 103 through a bubble generating pipe assembly 300 through the switch handle 102, and the tap water or bubble type ozone water flows out of the water outlet nozzle 101.

The ozone water device further comprises a mixed water outlet pipe 500, a water outlet hose 501 and an ozone transmission pipe 502, wherein one end of the mixed water outlet pipe 500 is connected with the water inlet end 103 of the water outlet device 100, the other end of the mixed water outlet pipe 500 is connected with the water inlet interface 301 of the bubble generating pipe assembly 300, one end of the water outlet hose 501 is connected with the water outlet nozzle 101 of the water outlet device 100, the other end of the water outlet hose 501 is connected with the water outlet interface 302 of the bubble generating pipe assembly 300, one end of the ozone transmission pipe 502 is connected with the bubble generating pipe assembly 300, and the other end of the ozone transmission pipe 502 is connected with the ozone control box 200.

The ozone transferring tube 502 is further connected to a fixing seat 5021 for fixing the ozone transferring tube 502, and the ozone transferring tube 502 is an ozone-resistant silicone tube.

Check valves 304 are respectively arranged on the water inlet interface 301 and the air inlet 303, and the backflow of ozone water and tap water is prevented through the check valves 304. Since the air inlet 303 is provided with the check valve 304, the tap water remaining on the bubble producing tube assembly 300 does not flow back into the ozone control box 200 due to the pressure, causing damage to the ozone control box 200.

A sealing ring 305 and a nozzle 306 are arranged on the water inlet interface 301, the pressure is increased through the nozzle 306, and the sealing ring 305 reinforces the connection between the nozzle 306 and the check valve 304.

The water outlet port 302 is provided with a quick connector 3021 and a mounting port 3022, and the water outlet hose 501 is fixed in the water outlet port 302 by inserting the quick connector 3021 into the mounting port 3022.

A signal line 503 is arranged between the infrared hand waving sensor 400 and the ozone control box 200, the infrared hand waving sensor 4 comprises a transmitting tube 401 and a receiving tube 402, infrared ray emitted by the transmitting tube 401 is reflected to the receiving tube 402 due to human body shieldinging, and the signal is sent to the ozone control box 200 through the signal line 503.

The end 103 of intaking still connects a hot water inlet hose 504, cold water inlet hose 505, hot water angle valve 506 and cold water angle valve 507, the end 103 of intaking is connected to the one end of hot water inlet hose 504, hot water angle valve 506 is connected to the other end of hot water inlet hose 504, end 103 is connected into to the one end of cold water inlet hose 505, cold water angle valve 507 is connected to the other end of cold water inlet hose 505.

Therefore, a three-way pipe can be arranged on the water inlet end 103 and is respectively connected with the mixed water outlet pipe 500, the hot water inlet hose 504 and the cold water inlet hose 505.

The ozone control box 200 is connected with a power adapter 204, and the power adapter 204 supplies power to the ozone control box 200. The power adapter 204 may be a switch power supply or a transformer, and a power connection line 205 is provided between the ozone control box 200 and the power adapter 204.

The infrared hand waving sensor 400 further comprises an LED lamp 403, a sensing screen 404 and an isolation cover 405, wherein the LED lamp 403 is arranged between the transmitting tube 401 and the receiving tube 402, the LED lamp 403, the transmitting tube 401 and the receiving tube 402 are arranged on a circuit board together, the isolation cover 405 covers the transmitting tube 401, the receiving tube 402 and the LED lamp 403, and the sensing screen 404 is wrapped by the isolation cover 405; LED lamp 403 is green, can flash when starting ozone, and the suggestion is going out ozone water, and response screen 404 can pass through the natural light, does not influence green LED lamp printing opacity effect.

The ozone control box 200 is also provided with a power indicator 201, a starting indicator 202 and a power switch 203, and even if a power adapter 204 is plugged, the ozone control box 200 also needs the power switch 203 to control the work.

The infrared hand waving inductor 400 is an electric control switch for controlling the ozone control box 200 to be started or closed, is a non-contact induction switch, generates a starting or closing electric signal, and when ozone is started, a green LED lamp 403 in the infrared hand waving inductor 400 flickers to prompt that ozone water is being produced, and is electrically connected to the ozone control box 200 through a signal line 503; the ozone control box 200 is also controlled by the water flow signal of the bubble producing tube assembly 300 when being started or closed, when the switch handle is not opened, namely no tap water flows through the bubble producing tube assembly 300, the ozone control box 200 does not detect the signal that the water flows through, and the ozone is not started; the condition of starting out ozone is that the signal that the bubble producing pipe assembly 300 has water to flow through and the starting signal of the infrared waving hand sensor 400 above the tap are satisfied at the same time, the ozone control box 200 can start out ozone, the problem that ozone water is started out as soon as the tap goes out water is effectively avoided, and the function of using ozone water as required is realized.

Working principle of the ozone control box 200: the ozone generator and the high voltage generator are arranged in the ozone generator, the high voltage generator is electrified to transmit electricity to a metal conductive electrode of the ozone generator, under the action of a high-frequency high-voltage strong electric field, the gas generates pulse corona discharge along the surface of the ozone generator to generate plasma, so that oxygen molecules are instantly decomposed into monatomic oxygen, and the atomic oxygen is rapidly combined with the oxygen into ozone.

The above-mentioned embodiments only express one embodiment of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. An ozone water device with infrared hand waving induction is characterized by comprising:

a water outlet device is arranged at the bottom of the water tank,

a bubble-producing tube component,

an ozone control box, and

the infrared hand waving inductor is installed on the water outlet device and electrically connected with the ozone control box, the bubble producing pipe assembly is respectively connected with the water outlet device and the ozone control box, induction signals are generated by the infrared hand waving inductor, the ozone control box is started to generate ozone gas, and the ozone gas is mixed with tap water through the bubble producing pipe assembly to generate bubble type ozone water.

2. The ozonated water device according to claim 1, wherein the bubble generating tube assembly comprises a water inlet port, a water outlet port and an air inlet port, the water inlet port and the water outlet port are connected to the water outlet device, and the ozone control box is connected to the air inlet port.

3. The ozonated water device with infrared waving induction according to claim 2, wherein the water outlet device comprises a water outlet nozzle, a switch handle and a water inlet end, the water inlet end is connected with the water inlet interface, tap water is controlled to flow from the water inlet end through the bubble generating tube assembly by the switch handle, and the tap water or bubble type ozonated water flows out of the water outlet nozzle.

4. The ozonated water device with infrared waving induction according to claim 3, further comprising a mixed water outlet pipe, a water outlet hose and an ozone transmission pipe, wherein one end of the mixed water outlet pipe is connected with the water inlet end of the water outlet device, the other end of the mixed water outlet pipe is connected with the water inlet interface of the bubble generating pipe assembly, one end of the water outlet hose is connected with the water outlet nozzle of the water outlet device, the other end of the water outlet hose is connected with the water outlet interface of the bubble generating pipe assembly, one end of the ozone transmission pipe is connected with the bubble generating pipe assembly, and the other end of the ozone transmission pipe is connected with the ozone control box.

5. The apparatus for ozonated water with infrared hand waving induction according to claim 4, wherein check valves are provided on the water inlet port and the air inlet port, respectively, and the backflow of ozonated water and tap water is prevented by the check valves.

6. The apparatus according to claim 5, wherein a sealing ring and a nozzle are provided on the water inlet, and the nozzle increases pressure, and the sealing ring reinforces the connection between the nozzle and the check valve.

7. The apparatus according to claim 6, wherein the water outlet port comprises a quick connector and a mounting hole, and the quick connector is inserted into the mounting hole to fix the water outlet hose in the water outlet port.

8. The ozone water apparatus having infrared hand waving induction as claimed in claim 7, wherein a signal line is arranged between the infrared hand waving inductor and the ozone control box, the infrared hand waving inductor comprises a transmitting tube and a receiving tube, and the infrared ray emitted from the transmitting tube is reflected to the infrared receiving tube by a human body shadow and is transmitted to the ozone control box through the signal line.

9. The apparatus according to claim 8, wherein the water inlet end is further connected to a hot water inlet hose, a cold water inlet hose, a hot water angle valve, and a cold water angle valve, wherein one end of the hot water inlet hose is connected to the water inlet end, the other end of the hot water inlet hose is connected to the hot water angle valve, one end of the cold water inlet hose is connected to the water inlet end, and the other end of the cold water inlet hose is connected to the cold water angle valve.

10. The apparatus according to claim 9, wherein the ozone control box is connected to a power adapter, and power is supplied to the ozone control box through the power adapter.

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