CN215744233U - Instant ozone water spraying device - Google Patents

Abstract

The utility model discloses an instant ozone water spraying device which comprises a body, an ozone water outlet device, a water tank assembly and a control assembly, wherein the ozone water outlet device is arranged in the body; the water tank assembly comprises a water storage tank and a water pump, the ozone water outlet device comprises a water inlet and a water outlet, an ozone module is arranged between the water inlet and the water outlet, the water storage tank utilizes the water pump to convey water in the water storage tank to the water inlet, and the water outlet is communicated with the atomizing nozzle. The spraying device has simple structure and low cost, can generate ozone water instantly, has high efficiency, and avoids wasting the time waiting for electrolysis; in addition, the disinfection stock solution is only municipal tap water, so that the disinfection stock solution is convenient and safe to obtain, has no secondary pollution and is strong in environmental protection.

Description

Instant ozone water spraying device

Technical Field

The utility model relates to an immediate ozone water spraying device.

Background

The disinfection liquid used by the existing disinfection spraying device on the market is 84 disinfection liquid, alcohol or other disinfection liquid, and the disinfection spraying device has the common defects that the raw liquid is difficult to obtain and the use safety hazard exists.

Ozone is the most widely recognized and effective germ and bacteria killer, and the U.S. food and drug administration has approved the use of ozone as a sanitizer for food contact surfaces and for direct application to food, and more importantly, ozone is reduced to oxygen after sterilization, and is an environmentally friendly disinfectant, and ozone is soluble in water and forms ozone water, which, in addition to killing bacteria in the water, can also decompose harmful pollutants in the water, and thus has been widely used and has been introduced into people's daily lives.

The existing water electrolysis method for preparing ozone water is mature day by day, can meet the needs of common consumers, and has similar products on the market, one is to utilize salt water to electrolyze into sodium hypochlorite, the other is to electrolyze ozone gas and then dissolve in water to mix into ozone water, or direct water electrolysis becomes ozone water, all three can be used for daily sterilization, but all need wait for electrolysis time, and the unused ozone water is left to stand and reduced, when using again, need repeat the above-mentioned step, waste time cost, experience sense is not good; moreover, the inside unable sanitization of storage water tank of watering can device on the market, long-term the use, other pollutants such as incrustation scale can be piled up to inside, influence the use.

Disclosure of Invention

In order to solve the above technical problems, the present invention provides an instant ozone water spraying device.

The utility model is realized by the following technical scheme: an instant ozone water spraying device comprises a body, an ozone water outlet device, a water tank assembly and a control assembly, wherein the ozone water outlet device is arranged in the body, the body is provided with a pressing assembly and a spraying opening, and the pressing assembly is electrically connected with the control assembly; the water tank assembly comprises a water storage tank and a water pump, the ozone water outlet device comprises a water inlet and a water outlet, an ozone module is arranged between the water inlet and the water outlet, the water storage tank utilizes the water pump to convey water in the water storage tank to the water inlet, and the water outlet is communicated with the atomizing nozzle.

Preferably, the body comprises a shell and an upper cover plate, the upper cover plate is provided with a light-transmitting component, the light-transmitting component comprises a light-transmitting piece and an LED circuit board, and the LED circuit board is electrically connected to the control board.

Preferably, the bottom of the water storage tank is detachably provided with a water storage tank base.

Preferably, the water outlet is connected with a spraying base body, and a spraying plug is arranged in the spraying base body.

Preferably, the ozone module comprises a first electrode, a second electrode and an insulating part, wherein the polarity of the first electrode is opposite to that of the second electrode, the first electrode and the second electrode are arranged at intervals by using the insulating part to form an electrolysis cavity, and the electrolysis cavity is communicated with the water inlet and the water outlet; the ozone module further comprises a first connecting piece and a second connecting piece, the first connecting piece penetrates through the second electrode in a non-contact mode and then is connected with the first electrode in a conducting mode, and the second connecting piece penetrates through the first electrode in a non-contact mode and then is connected with the second electrode in a conducting mode.

Preferably, the ozone module comprises a first electrode, a second electrode and an insulating part, the first electrode comprises two electrode plates with the same polarity, the second electrode is arranged between the two electrode plates, the second electrode and the first electrode are arranged at intervals by using the insulating part to form an electrolysis cavity, and the electrolysis cavity is communicated with the water inlet and the water outlet.

Preferably, the first electrode is provided with a first conduction small hole and a first abdicating big hole, the second electrode is provided with a second conduction small hole and a second abdicating big hole, the first conduction small hole is opposite to the second abdicating big hole, and the first abdicating big hole is opposite to the second conduction small hole; the first connecting piece passes through the second yields the macropore with first the aperture electricity that switches on is connected, the second connecting piece passes through first yield the macropore with the second switches on the aperture electricity and connects, first connecting piece with be in the non-contact state between the second yield the macropore, the second connecting piece with also be in the non-contact state between the first macropore of stepping down.

Preferably, the two electrode plates are both positive electrode plates, and the second electrode is a negative electrode plate.

Preferably, the two electrode plates are both negative electrode plates, and the second electrode is a positive electrode plate.

Preferably, the insulating portion includes a first insulating portion and a second insulating portion, and the first insulating portion and the second insulating portion are respectively disposed on two sides of the second electrode.

Preferably, the two electrode plates are arranged in a split manner or at least one sides of the two electrode plates are connected with each other.

Compared with the prior art, the spraying device has the advantages of simple structure, low cost, capability of generating ozone water in real time, high efficiency and avoidance of waste of time for waiting for electrolysis; in addition, because its disinfection stoste is municipal tap water only, it is convenient and safe to acquire, and ozone in the above-mentioned ozone atomizer stews after a period of time, and the automatic reduction is oxygen and water, does not have secondary pollution, and the feature of environmental protection is strong.

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 to obtain other drawings without creative efforts.

Fig. 1 is a perspective view of the present invention.

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

Fig. 3 is a cross-sectional view of the present invention.

Fig. 4A to 4C are schematic views of water paths according to the present invention.

Fig. 5 is a perspective view of one embodiment of the ozone water outlet device of the present invention.

Fig. 6 is an exploded view of one embodiment of the ozone water outlet device of the present invention.

Fig. 7 is a sectional view of one embodiment of the ozone water outlet device of the utility model.

FIG. 8 is a schematic view of the water flow of one embodiment of the ozone water outlet device of the present invention.

Figure 9 is a perspective view of another embodiment of the ozone water outlet device of the present invention.

Fig. 10 is an exploded view of another embodiment of the ozone water outlet device of the present invention.

Figure 11 is a cross-sectional view of another embodiment of the ozone water outlet device of the present invention.

Fig. 12 is a water flow diagram of another embodiment of the ozone water outlet device of the utility model.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without any inventive step, are within the scope of the present invention.

Referring to fig. 1 to 4A to 4C, an instant ozone water spraying device comprises a body 4, an ozone water outlet device a or a', a water tank assembly 5 and a control assembly 6, wherein the control assembly 6 comprises a power source 61 and a control panel 62, and the control panel 62 is connected with the power source 61; the body 4 comprises a shell 41 and an upper cover plate 42, a light-transmitting component is mounted on the upper cover plate 42, the light-transmitting component comprises a light-transmitting piece 421 and an LED circuit board 422, the light-transmitting piece 421 is mounted on the upper cover plate 42, the LED circuit board is electrically connected to the control board 62, and the LED circuit board 422 is penetrated out through the light-transmitting piece 421, so that a user can be prompted about the working state or the charging state of the device; the housing 41 is also provided with a pressing assembly 4a, which pressing assembly 4a is connected to the control panel for controlling the start-up operation of the device. In addition, a decorative ring 4b can be erected between the shell 41 and the upper cover plate 42, so that the device is more attractive and meets the requirements of different users.

The water tank assembly 5 comprises a water tank 51 and a water pump 52, wherein the water tank 51 is provided with an opening part 51a, a fixed seat 55 is sleeved on the opening part 51a, a connecting port 55a is formed in the fixed seat 55, the connecting port 55a is communicated with the opening part 51a, and the water pump 52 is arranged on the connecting port 55 a; this storage water tank 51 upper end is connected with above-mentioned body 4, this storage water tank 51 can use with 4 dismouting of body, and simultaneously, storage water tank base 53 can also be installed with dismantled and assembled mode to this storage water tank 51's bottom, and like this, above-mentioned storage water tank except can be used for adorning water with the body dismouting, the dismouting is do to its bottom, its purpose is in order to wash the inside of storage water tank, use more reassurance, avoid piling up because of the inside dirt of water tank that the storage water tank long-term use leads to, and avoided simultaneously thoroughly cleaing away clean problem to the storage water tank because of conventional washing. The water outlet channel of the water pump 52 is communicated with the water inlet a1 of the ozone water outlet device, the water outlet a2 of the ozone water outlet device a or a' is connected with a spray seat k, a spray plug k1 is arranged in the spray seat k, when a user starts the pressing component 4a, the device starts to operate under the control of the control panel to generate ozone water, and the spray seat k can spray the ozone water flowing out of the ozone water outlet device out of a spray opening k2 of the spray seat, so that the ozone water can be used by the user.

Referring to fig. 4A to 4C, when the user presses the pressing member 4A to start the ozone spraying device, the control board 62 is started to control the water pump 52 to suck the water in the water storage tank 51 into the water pump through the opening 51a and the connection port 55a, and then to push the water flow of the water pump 52 into the electrolytic cavity C of the ozone water outlet device through the water outlet channel of the water pump, and at the same time, the water is electrolyzed in the electrolytic cavity C, and the ozone is dissolved in the water to form ozone water and is delivered to the spraying port k2, so as to generate ozone spray immediately, wherein the spraying time can be preset, and the ozone spraying device automatically closes the spraying after reaching a certain spraying time. Compared with the prior art, the spraying device has the advantages that the structure is simple, the cost is low, ozone water can be generated in real time, the efficiency is high, and the waste of time waiting for electrolysis is avoided; in addition, because its disinfection stoste is municipal tap water only, it is convenient and safe to acquire, and ozone in the above-mentioned ozone atomizer stews after a period of time, and the automatic reduction is oxygen and water, does not have secondary pollution, and the feature of environmental protection is strong.

In an embodiment, the structure of the ozone water outlet device a is shown in fig. 5 to 8. The ozone water outlet device A comprises a shell 1 and an ozone module 2, wherein the ozone module 2 is arranged in the shell 1, the shell 1 comprises a base 11 and an upper cover 12, the base 11 and the upper cover 12 are connected with each other to form a cavity 13, the ozone module 2 is arranged in the cavity 13, the base 11 comprises a water inlet a1 and a water outlet a2, a water inlet connector a3 can be connected and arranged at the water inlet a1, as long as the water inlet of the cavity 13 can be realized, and in addition, a position-yielding part a4 can be arranged at the bottom in the base 11; the upper cover 12 is mounted on the upper end of the base 11, and two mounting holes b1 are opened on the upper cover 12.

The ozone module 2 comprises two positive plates 21 and a negative plate 22, wherein the negative plate 22 is located between the two positive plates 21, and an electrolysis cavity c is formed between the negative plate 22 and the two positive plates 21 and is formed by an insulating part 23. Specifically, the insulating portion 23 includes a first insulating portion 23a and a second insulating portion 23b, a first receiving portion d1 is formed in the middle of the first insulating portion 23a, a plurality of first extending portions d2 are respectively formed at two ends of the first receiving portion d1, and similarly, a second receiving portion d3 is formed in the second insulating portion 23b, and a plurality of second extending portions d4 are respectively formed at two ends of the second receiving portion d 3; the negative electrode tab 22 is inserted through the first extension portions d2 at both ends and then placed in the first receiving portion d1, and the other side is inserted through the second extension portions d4 at both ends and then placed in the second receiving portion d3, and the two positive electrode tabs 21 are respectively placed at both ends of the insulating portion 23, and the first insulating portion 23a and the second insulating portion 23b form the electrolysis chamber c between the negative electrode tab 22 and the positive electrode tab 21. Preferably, in an embodiment, a step d5 is formed between the upper surface s1 of the insulating portion 23 and the first or second extending portion d2 or d4, wherein a positive plate 21 is placed in the step d5, and preferably, the positive plate 21 is flush with the upper surface s1 of the insulating portion after being placed on the step d 5; similarly, another step part is formed between the lower surface of the insulating part and the first or second extending part d2 or d4, and another positive plate 21 is placed in the other step part, so that a compact connection structure is formed by the positive plate, the negative plate and the insulating part, and the work efficiency of electrolysis is improved.

Further, the positive plate 21 is further provided with a plurality of pore channels 21a, and the negative plate can also be provided with the pore channels, preferably, the pore channels 21a are arranged in a certain arrangement and combination manner, so that the time of water flow for electrolysis is prolonged, and the formation of ozone is ensured; the positive plate 21 is further provided with a positive conducting small hole 21b and a positive pole abdicating large hole 21c, the negative plate 22 is provided with a negative conducting small hole 22a and a negative abdicating large hole 22b, the positive conducting small hole 21b and the negative abdicating large hole 22b are oppositely arranged, and the positive pole abdicating large hole 21c is oppositely arranged with the negative conducting small hole 22 a. The ozone water outlet device also comprises a first connecting piece 31 and a second connecting piece 32, wherein the first connecting piece 31 is in contact fit connection with the anode conducting small hole 21b of the anode plate arranged on two sides of the anode plate through the anode abdicating big hole 22b, the diameter of the first connecting piece 31 is smaller than that of the anode abdicating big hole 22b, the first connecting piece 31 and the anode conducting small hole are not in mutual contact, the upper end of the first connecting piece 31 is fixedly connected through the mounting hole b1 of the upper cover by using a first fastening piece 33, and then the first connecting piece 31 is communicated with an anode power supply; similarly, the second connecting member 32 is connected to the negative conducting small hole 22a of the negative plate through two positive offset large holes 21c in a contact fit manner, then extends out of the mounting hole b1 of the upper cover, and is then connected and fixed by the second fastening member 34, and then the second connecting member 32 is connected to the negative power supply, wherein the diameter of the second connecting member 32 is smaller than that of the positive offset large hole 21c, and the two are not in contact with each other. Preferably, the first or second connector 31 or 32 further has a head portion a5, the head portion a5 is engaged with the seat offset portion a4 of the base.

Preferably, the positive plate 21 is, for example, a stainless steel positive plate, the negative plate 22 is, for example, a ceramic silver negative plate, an electrolysis device is manufactured by using the ceramic silver negative plate and the stainless steel positive plate as two electrode plates, an electrolysis cavity c is formed in a reserved space between the two plates, the ceramic silver membrane is a cathode, the stainless steel plate is an anode, when a corresponding power supply is connected, referring to fig. 8, water flows through the electrolysis cavity c from a water inlet a1, ozone is generated by electrolysis at the anode and then is immediately dissolved in water to form ozone water, and then the ozone water flows to a water outlet a2, so that ozone water can be generated immediately. Compared with the ozone water generating device on the market at present, the ozone water generating device has the advantages that only one water channel is arranged in the middle of the structure, the structure is simple, the circuit is simplified, the cost is low, the ozone water can be generated in real time, the efficiency is high, and the waste of waiting electrolysis time is avoided.

In another embodiment, the structure of the ozone water outlet device a' is shown in fig. 9 to 12. The ozone water outlet device a 'comprises a shell 1 and an ozone module 2', wherein the ozone module 2 'is arranged in the shell 1, the shell 1 comprises a base 11 and an upper cover 12, the base 11 and the upper cover 12 are connected with each other to form a cavity 13, the ozone module 2' is arranged in the cavity 13, the base 11 comprises a water inlet a1 and a water outlet a2, a water inlet connector a3 can be connected and arranged at the water inlet a1, as long as water can enter the cavity 13, and in addition, a position-giving part a4 can be arranged at the bottom in the base 11; the upper cover 12 is mounted on the upper end of the base 11, and two mounting holes b1 are opened on the upper cover 12.

The ozone module 2 ' includes a positive plate 21 ' and two negative plates 22 ', the negative plates 22 ' can be formed by bending as shown in the first embodiment, or by bending as shown in the drawings, the positive plate 21 ' is disposed between the two negative plates 22 ', and an electrolytic cavity c is formed between the two negative plates 22 ' and the positive plate 21 ', and the electrolytic cavity c is formed by using an insulating portion 23 '. Specifically, the insulating portion 23 ' includes a first insulating portion 23a ' and a second insulating portion 23b ', a first accommodating portion d1 ' is opened at a middle portion of the first insulating portion 23a ', and a second accommodating portion d3 ' is also opened at a middle portion of the second insulating portion 23b '; the positive electrode tab 21 ' is mounted and disposed at both sides of the first and second receiving portions d1 ' and d3 ', respectively, and the first and second insulating portions 23a ' and 23b ' form the electrolytic chamber c between the negative electrode tab 22 ' and the positive electrode tab 21 '.

Further, the positive plate 21 'or the negative plate 22' is further provided with a plurality of pore channels p, preferably, the pore channels p are arranged in a certain arrangement and combination manner, so that the time of water flow for electrolysis is prolonged, and the formation of ozone is ensured; the positive plate 21 'is further provided with a positive conducting small hole 21 b' and a positive pole abdicating large hole 21c ', the negative plate 22' is provided with a negative conducting small hole 22a 'and a negative pole abdicating large hole 22 b', the positive conducting small hole 21b 'and the negative pole abdicating large hole 22 b' are oppositely arranged, and the positive pole abdicating large hole 21c 'is oppositely arranged with the negative pole conducting small hole 22 a'. The ozone water outlet device also comprises a first connecting piece 31 and a second connecting piece 32, wherein the first connecting piece 31 is in contact fit connection with the anode conducting small hole 21b ' of the anode plate through the anode abdicating big hole 22b ', the diameter of the first connecting piece 31 is smaller than that of the anode abdicating big hole 22b ', the two are not in contact with each other, the first connecting piece 31 is connected and fixed by a first fastener 33 after passing through the mounting hole b1 of the upper cover at the upper end of the first connecting piece 31, and then the first connecting piece 31 is communicated with the anode power supply, so that the complex circuit in the prior art is simplified by skillfully utilizing the fixing and conducting functions of the first connecting piece, the structure is simple, and the assembly and the arrangement are facilitated; similarly, the second connecting member 32 is connected with the negative conducting small hole 22a ' of the negative plate in a contact fit manner through the positive abdicating big hole 21c ', then extends out of the mounting hole b1 of the upper cover, and then is connected and fixed by the second fastening member 34, and then the second connecting member 32 is communicated with the negative power supply, wherein the diameter of the second connecting member 32 is smaller than that of the positive abdicating big hole 21c ' and the two are not in contact with each other. Preferably, the first or second connector 31 or 32 further has a head portion a5, the head portion a5 is engaged with the seat offset portion a4 of the base.

Preferably, the positive plate 21 'is, for example, a titanium plate positive plate, the negative plate 22' is, for example, a stainless steel negative plate, an electrolysis device is manufactured by taking a titanium plate coating plate and a stainless steel plate as two electrode plates, a space is reserved between the two plates to form an electrolysis cavity c, the titanium plate coating plate is an anode, the stainless steel plate is a cathode, when a corresponding power supply is connected, referring to fig. 12, water flows through the electrolysis cavity c from a water inlet a1, ozone is generated by electrolysis at the anode and then is immediately dissolved in water to form ozone water, and then the ozone water flows to a water outlet a2, so that ozone water can be generated immediately. Compared with the ozone water generating device on the market at present, the ozone water generating device has the advantages that only one water channel is arranged in the middle of the structure, the structure is simple, the circuit is simplified, the cost is low, the ozone water can be generated in real time, the efficiency is high, and the waste of waiting electrolysis time is avoided.

While the foregoing description shows and describes the preferred embodiments of the present invention, it is to be understood that the utility model 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. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (10)

1. An instant ozone water spraying device is characterized by comprising a body, an ozone water outlet device, a water tank assembly and a control assembly, wherein the ozone water outlet device is arranged in the body; the water tank assembly comprises a water storage tank and a water pump, the ozone water outlet device comprises a water inlet and a water outlet, an ozone module is arranged between the water inlet and the water outlet, the water storage tank utilizes the water pump to convey water in the water storage tank to the water inlet, and the water outlet is communicated with the atomizing nozzle.

2. The instant ozone water atomizer of claim 1, wherein said body comprises a housing and an upper cover plate, said upper cover plate being provided with a light transmitting member, said light transmitting member comprising a light transmitting member and an LED circuit board, said LED circuit board being electrically connected to said control assembly.

3. An instant ozone water spraying apparatus as claimed in claim 1, wherein the bottom of the water tank is detachably mounted with a base of the water tank.

4. An instant ozone water spraying device as claimed in claim 1, wherein the water outlet is connected to a spraying base body, and a spraying plug is arranged in the spraying base body.

5. The instant ozone water spraying device as claimed in claim 1, wherein the ozone module comprises a first electrode, a second electrode and an insulating part, the first electrode and the second electrode are opposite in polarity, the first electrode and the second electrode are arranged at a distance by the insulating part to form an electrolysis cavity, and the electrolysis cavity is communicated with the water inlet and the water outlet; the ozone module further comprises a first connecting piece and a second connecting piece, the first connecting piece penetrates through the second electrode in a non-contact mode and then is connected with the first electrode in a conducting mode, and the second connecting piece penetrates through the first electrode in a non-contact mode and then is connected with the second electrode in a conducting mode.

6. The instant ozone water spraying device as claimed in claim 1, wherein the ozone module comprises a first electrode, a second electrode and an insulating part, the first electrode comprises two electrode plates with the same polarity, the second electrode is arranged between the two electrode plates, the second electrode is arranged at a distance from the first electrode by the insulating part to form an electrolysis cavity, and the electrolysis cavity is communicated with the water inlet and the water outlet.

7. The instant ozone water spraying device as claimed in any one of claims 5 or 6, wherein the first electrode is provided with a first conducting small hole and a first abdicating large hole, the second electrode is provided with a second conducting small hole and a second abdicating large hole, the first conducting small hole is arranged opposite to the second abdicating large hole, and the first abdicating large hole is arranged opposite to the second conducting small hole; the first connecting piece passes through the second yields the macropore with first the aperture electricity that switches on is connected, the second connecting piece passes through first yield the macropore with the second switches on the aperture electricity and connects, first connecting piece with be in the non-contact state between the second yield the macropore, the second connecting piece with also be in the non-contact state between the first macropore of stepping down.

8. The immediate ozone water atomizer of claim 6, wherein both of the two electrode plates are positive electrode plates, and the second electrode plate is a negative electrode plate.

9. The immediate ozone water atomizer of claim 6, wherein both of the two electrode plates are negative electrode plates, and the second electrode plate is a positive electrode plate.

10. An instant ozone water atomizer according to claim 5 or 6, wherein said insulating portion comprises a first insulating portion and a second insulating portion, said first insulating portion and said second insulating portion being disposed on either side of said second electrode.

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