CN218684795U - Tooth rinsing device containing bubbles rich in hydrogen - Google Patents

Abstract

The utility model belongs to the technical field of towards tooth ware technique and specifically relates to a tooth ware towards that contains hydrogen-rich papaw, including host computer casing one, host computer casing two, host computer casing one is same host computer casing with host computer casing two, host computer casing's upside is equipped with the upper cover, host computer casing's downside is equipped with the bottom, be equipped with plunger pump module in the host computer casing, the inboard bottom of bottom is equipped with electrolysis module, the upside grafting of upper cover is equipped with the nozzle, plunger pump module's downside is connected with electrolysis module's upside, plunger pump module's upside is connected with the downside of nozzle, the inboard of bottom is equipped with the bottom support, this tooth ware towards that contains hydrogen-rich papaw, better waterproof nature has, can reach the separation of hydrogen and oxygen, it is sealed waterproof, battery output is qualified, in the liquid device cavity just, the reasonable row of negative pressure, go into, prevent dry combustion method, the function of diminishing inflammation has.

Description

Tooth rinsing device containing bubbles rich in hydrogen

Technical Field

The utility model relates to a towards tooth ware technical field, especially relate to a towards tooth ware that contains rich hydrogen papaw.

Background

The tooth flusher is an auxiliary cleaning tool for oral cavity and teeth instead of toothpick and dental floss, and its principle is characterized by that it mainly utilizes the plunger pump in the interior of said tooth flusher and utilizes the mechanical transmission pulse principle to pump out the liquid from the liquid containing cavity of tooth flusher, and utilizes the nozzle of tooth flusher to eject to form fine water column so as to attain the goal of cleaning teeth and tooth gap.

At present, tooth irrigators on the market are common, most of the tooth irrigators are cleaning effects, and the effects of diminishing inflammation, resisting oxidation and the like cannot be achieved, in recent years, hydrogen and hydrogen water are researched by many scientists, researches show that hydrogen is the best antioxidant regulator for a human body, hydrogen has strong penetrability, dissolubility and the effect of promoting metabolism of the human body, malignant free radicals in the human body can be selectively eliminated, the immunity of the human body is improved, the sub-health condition of the human body is improved, most of the tooth irrigators cannot achieve the effects of diminishing inflammation, resisting oxidation and the like when in use, only simple flushing operation can be carried out, a few tooth irrigators with the function have dry burning, and the internal water resistance is poor, therefore, the tooth irrigator containing the hydrogen-rich bubbles is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects of 3333 in the prior art and provides a tooth-rinsing device containing bubbles rich in hydrogen.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a tooth washing device who contains rich hydrogen bubble, includes host computer casing one, host computer casing two, host computer casing one is same host computer casing with host computer casing two, the upside of host computer casing is equipped with the upper cover, the downside of host computer casing is equipped with the bottom, be equipped with the plunger pump module in the host computer casing, the inboard bottom of bottom is equipped with the electrolysis module, the upside of upper cover is pegged graft and is equipped with the nozzle, the downside of plunger pump module is connected with the upside of electrolysis module, the upside of plunger pump module is connected with the downside of nozzle, the inboard of bottom is equipped with the bottom support.

Preferably, the fixed hollow post of threading that is equipped with in inboard of host computer casing one, the upside of upper cover is equipped with the upper cover filler, the inboard fixed screw post of host computer casing one, the upside of bottom is fixed and is equipped with the fastening screw post.

Preferably, the outer side of the first host casing is provided with a perspective window, and the inner side of the perspective window is respectively provided with a power key, a gear key and a hydrogen-rich switch key in a buckling connection manner.

Preferably, the electrolysis module comprises: the electrolytic cell support, the outside of electrolytic cell support is pegged graft and is equipped with electrolysis module fastening screw, electrolysis module fastening screw's downside is equipped with the PCB control panel, the downside of PCB control panel is equipped with PCB control panel fastening nut, the inboard of electrolytic cell support is equipped with anodal electrolytic sheet, the upside of anodal electrolytic sheet is equipped with the ionic membrane, the upside of ionic membrane is equipped with negative pole electrolytic sheet, the downside of electrolytic cell support is equipped with the mould nut of moulding plastics in the mould.

Preferably, the upper end and the lower end of the outer side of the bottom cover support are respectively provided with a first waterproof groove and a second waterproof groove, the inner sides of the first waterproof groove and the second waterproof groove are respectively sleeved with a first waterproof ring and a second waterproof ring, and the outer sides of the negative electrode electrolytic sheet and the positive electrode electrolytic sheet are respectively sleeved with a first waterproof silica gel pad and a second waterproof silica gel pad.

Preferably, the downside of bottom is equipped with respectively and dismantles washing window, ozone escape orifice, the inboard of dismantling the washing window is pegged graft and is equipped with the washing window shell, the outside of washing window shell is cup jointed and is equipped with the washing window sealing washer.

Preferably, the front side of bottom is equipped with the USB mouth that charges, the inboard upset connection that the USB charges the mouth is equipped with USB silica gel stopper.

The utility model provides a pair of tooth washing device who contains hydrogen-rich papaw, beneficial effect lies in: the button hydrogen-rich switch button that opens electrolysis module through setting up the cooperation of electrolysis module electrolyzes water earlier, makes water produce the separation of oxyhydrogen, and during the hydrogen molecule can effectually be dissolved into water, open plunger pump button power button again, utilize the gear button to switch to the dynamics that is suitable for the consumer, take out hydrogen-rich bubble water, effectual impact tooth and slit between teeth reach and eliminate gum inflammation effect. The circuit boards work in a staggered mode, so that hydrogen-rich bubble water can be better generated, the output of the battery can be reduced, the single working current of the battery does not exceed 2A, and the service life of the battery is effectively prolonged;

the tooth-washing device containing hydrogen-rich bubbles has better waterproofness, can achieve hydrogen-oxygen separation, sealing and waterproofing, qualified output power of batteries, reasonable arrangement and arrangement of positive and negative air pressure in a cavity of a liquid device, dry burning prevention and anti-inflammation functions.

Drawings

FIG. 1 is a schematic view of an explosive type tooth irrigator containing bubbles rich in hydrogen according to the present invention;

FIG. 2 is a schematic view of the housing of the tooth irrigator containing bubbles rich in hydrogen according to the present invention;

FIG. 3 is a schematic view of an exploded structure of an electrolytic module of the tooth irrigator containing bubbles rich in hydrogen according to the present invention;

fig. 4 is a schematic structural view of a bottom cover bracket and a bottom cover of the tooth rinsing device containing bubbles rich in hydrogen provided by the present invention.

In the figure: the device comprises a first main machine shell 201, a threaded hollow column 202, a transparent window 203, a screw column 204, a nozzle 301, an upper cover water filling port 302, a power supply key 303, a gear key 304, a hydrogen-rich switch key 305, a plunger pump module 306, a second main machine shell 307, an electrolysis module 308, a fastening screw column 309, a USB silica gel plug 310, a first waterproof ring 501, a second waterproof ring 502, a first waterproof groove 503, a second waterproof groove 5003, an in-mold injection molding nut 504, a first waterproof silica gel pad 505, a negative electrode electrolyte sheet 506, an ionic membrane 507, a positive electrode electrolyte sheet 508, a second waterproof silica gel pad 509, an electrolyte sheet bracket 510, an electrolysis module fastening screw 511, a PCB control board 512, a PCB control board fastening nut 513, a detachable cleaning window 514, an ozone discharge hole 515, a cleaning window sealing ring 516, a USB charging port 517, a cleaning window shell 518, a motor module water contact surface bottom cover 601, and reverse surfaces of the electrolysis modules 602 and 603.

Detailed Description

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

The principle of the hydrogen-rich bubble mainly utilizes an electrolytic structure to separate hydrogen and oxygen molecules in water, the hydrogen molecules are dissolved in the water, ozone is discharged through the lower part, and the electrolytic structure needs to dissolve in a liquid dissolving cavity to conveniently remove the ozone in order to achieve the effect of hydrogen and oxygen separation. Influenced by the volume structure of the tooth flushing device, the portable tooth flushing device is small in size, the electrolysis structure module is limited and cannot be too large, the time for producing hydrogen can be longer a little relatively, and under the influence of the output of the battery, the output power of the battery can be exceeded when the plunger pump and the electrolysis structure are started simultaneously. When the plunger pump of the tooth flushing device works, the cavity filled with liquid needs external negative pressure to pump out the liquid in the cavity, otherwise, the impact force of the cavity is influenced or water cannot flow out; in contrast, the bubble electrolysis structure generates strong air pressure in the liquid chamber when it works.

Referring to fig. 1-4, a tooth-rinsing device containing bubbles rich in hydrogen comprises a first host casing 201 and a second host casing 307, wherein the first host casing 201 and the second host casing 307 are both the same host casing, an upper cover is arranged on the upper side of the host casing, a bottom cover 603 is arranged on the lower side of the host casing, a plunger pump module 306 is arranged in the host casing, an electrolysis module 308 is arranged at the bottom of the inner side of the bottom cover 603, a nozzle 301 is inserted and arranged on the upper side of the upper cover, the lower side of the plunger pump module 306 is connected with the upper side of the electrolysis module 308, the upper side of the plunger pump module 306 is connected with the lower side of the nozzle 301, and a bottom cover bracket is arranged on the inner side of the bottom cover 603.

In order to facilitate installation of threading, a threading hollow column 202 is fixedly arranged on the inner side of the first main machine shell 201, an upper cover water filling port 302 is arranged on the upper side of the upper cover, a screw column 204 is fixedly arranged on the inner side of the first main machine shell 201, and a fastening screw column 309 is fixedly arranged on the upper side of the bottom cover 603.

In order to facilitate the control of the plunger pump module 306 and the electrolysis module 308, a transparent window 203 is arranged on the outer side of the first main machine housing 201, and a power button 303, a gear button 304 and a hydrogen-rich switch button 305 are respectively arranged on the inner side of the transparent window 203 in a snap-fit connection manner.

In order to provide a water electrolysis function, the electrolysis module 308 is provided with: an electrolytic sheet support 510, an electrolytic module fastening screw 511 is inserted and arranged on the outer side of the electrolytic sheet support 510, a PCB control board 512 is arranged on the lower side of the electrolytic module fastening screw 511, a PCB control board fastening screw cap 513 is arranged on the lower side of the PCB control board 512, an anode electrolytic sheet 508 is arranged on the inner side of the electrolytic sheet support 510, an ionic membrane 507 is arranged on the upper side of the anode electrolytic sheet 508, a cathode electrolytic sheet 506 is arranged on the upper side of the ionic membrane 507, and an in-mold injection molding screw nut 504 is arranged on the lower side of the electrolytic sheet support 510.

In order to provide a sealing and waterproof function, the upper end and the lower end of the outer side of the bottom cover support are respectively provided with a first waterproof groove 503 and a second waterproof groove 5003, the inner sides of the first waterproof groove 503 and the second waterproof groove 5003 are respectively sleeved with a first waterproof ring 501 and a second waterproof ring 502, and the outer sides of the negative electrode electrolytic sheet 506 and the positive electrode electrolytic sheet 508 are respectively sleeved with a first waterproof silica gel pad 505 and a second waterproof silica gel pad 509.

In order to conveniently detach and clean the bottom, a detachable cleaning window 514 and an ozone discharging hole 515 are respectively arranged on the lower side of the bottom cover 603, a cleaning window shell 518 is inserted into the inner side of the detachable cleaning window 514, and a cleaning window sealing ring 516 is sleeved on the outer side of the cleaning window shell 518.

In order to facilitate the charging operation and provide a sealing effect for the USB charging port 517, the USB charging port 517 is disposed on the front side of the bottom cover 603, and the USB silicone plug 310 is disposed on the inner side of the USB charging port 517 in a flip-over connection manner.

When the electrolytic sheet is installed, a waterproof silica gel pad II 509 is firstly superposed on the electrolytic sheet support 510, two through holes of the negative electrolytic sheet 506 and the positive electrolytic sheet 508 are arranged on the waterproof silica gel pad II 509, an upper boss and a lower boss are respectively arranged above and below the through holes, the upper boss of the through holes is mainly used for preventing the negative electrolytic sheet 506 and the positive electrolytic sheet 508 from short circuit caused by water flowing in, the lower boss is mainly used for preventing water from permeating below the electrolytic sheet support 510 and soaking the lower boss in the PCB control board 512, and a side part and bottom part double waterproof structure is arranged at the joint of the periphery of the waterproof silica gel pad I505 and the waterproof silica gel pad II 509 and the outer edge of the electrode sheet support 510; then, the anode electrolyte sheet 508 is arranged on the second waterproof silica gel pad 509, the conductive screw on the anode electrolyte sheet 508 penetrates through the through hole of the second waterproof silica gel pad 509, and the silica gel through hole is over-pressed by 0.2mm to form waterproof leakage; an ionic membrane 507 is stacked on an anode electrolytic sheet 508 in sequence, a conductive screw on a cathode electrolytic sheet 506 penetrates through the ionic membrane 507, the anode electrolytic sheet 508 and a waterproof silica gel pad II 509 and is stacked on the ionic membrane 507, then a waterproof silica gel pad I505 is stacked on the cathode electrolytic sheet 506, the joint of the outer edge of the waterproof silica gel pad I505 and an electrolytic sheet support 510 is in a waterproof structure to prevent water seepage from the side, the module formed by the above steps is locked at a position 601 shown in a back face of a bottom cover support in a figure 4 by 4 in-mold injection molding nuts 504, the joint of the outer edge of the surface of the waterproof silica gel pad I505 and the bottom cover support is provided with 1-2 bone positions for sealing to prevent water seepage, and the position of the back face of an electrolytic module 602 exposed in the middle is in contact with water in a cavity to generate hydrogen molecules to be dissolved in the water. Then, the PCB control board 512 is fixed on the screws of the negative electrode electrolyte sheet 506 and the positive electrode electrolyte sheet 508 by the PCB control board fastening screw cap 513, so as to play a role in positive and negative conduction. There is a hollow hard tube structure electrolytic cell support 510 lower part, through bottom 603 department ozone escape hole 515 position discharge ozone, PCB control panel 512 winding displacement passes bottom support and the hollow post 202 of host computer shell threading, connect on plunger pump 306 circuit board, by outside rich hydrogen switch button 305 control, can open independent preparation rich hydrogen papaw water, work 3 minutes automatic stop, with water pump start button power button 303 difference independent operation, when starting water pump work in the hydrogen manufacturing course of operation, rich hydrogen electrolysis module can automatic stop work, can reduce the output of battery current, prolong battery life, reduce the mainboard and generate heat and scald the phenomenon.

The reverse side 602 of the electrolysis module is placed at the bottom of the solution cavity of the product device, and the main functions of the electrolysis module are high hydrogen production efficiency, difficult dry burning, separation of hydrogen and oxygen, and discharge of ozone through the bottom. The bottom of the electrolysis module 308 is provided with a PCB control board 512 for control, and the PCB control board 512 is directly fixed on the electrolysis module 308 by screws.

The device is provided with the cavity of plunger pump module 306 of circuit board and structurally prolongs the hollow post 202 of a threading, and it is sealed between the fastening screw post 309 on sealing washer and the bottom support is sheathe in to the outer bottom of the hollow post 202 of threading, forms water-proof effects, and the circuit board on the plunger pump module 306 adopts the winding displacement to pass through the hollow post 202 of threading and is connected with the PCB control panel 512 of bottom electrolysis module 308, reaches control effect.

The periphery of the position of the water filling port 302 of the upper cover is provided with 1-2 grooves with the width of about 0.6mm and the depth of 0.2-0.5mm, so that the internal air pressure can be conveniently discharged and the external air can be conveniently flowed in.

Water is electrolyzed through the button hydrogen-rich switch button 305 which is opened to the electrolysis module 308, so that water is separated into hydrogen and oxygen, hydrogen molecules can be effectively dissolved into water, then the plunger pump button power button 303 is opened, the power button 304 is switched to the force suitable for consumers, hydrogen-rich bubble water is pumped out, teeth and slits are effectively impacted, and the effect of eliminating gum inflammation is achieved. The two circuit boards are staggered to generate hydrogen-rich bubble water, the output of the battery can be reduced, the single working current of the battery does not exceed 2A, and the service life of the battery is effectively prolonged.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front end", "rear end", "both ends", "one end", "the other end" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element to which the reference is made must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, and for example, "connected" may be either fixedly connected or detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. The utility model provides a contain tooth washing device of rich hydrogen bubble, includes host computer casing one (201), host computer casing two (307), host computer casing one (201) is same host computer casing with host computer casing two (307), its characterized in that, the upside of host computer casing is equipped with the upper cover, the downside of host computer casing is equipped with bottom (603), be equipped with plunger pump module (306) in the host computer casing, the inboard bottom of bottom (603) is equipped with electrolysis module (308), the upside grafting of upper cover is equipped with nozzle (301), the downside of plunger pump module (306) is connected with the upside of electrolysis module (308), the upside of plunger pump module (306) is connected with the downside of nozzle (301), the inboard of bottom (603) is equipped with the bottom support.

2. The apparatus as claimed in claim 1, wherein a threading hollow column (202) is fixed to the inside of the main housing (201), an upper water inlet (302) is provided to the upper side of the upper cover, a screw column (204) is fixed to the inside of the main housing (201), and a fastening screw column (309) is fixed to the upper side of the bottom cover (603).

3. The tooth-rinsing device with bubbles containing rich hydrogen as claimed in claim 1, wherein said first main housing (201) has a transparent window (203) on the outside, and said transparent window (203) has a power button (303), a gear button (304), and a rich hydrogen switch button (305) on the inside for snap-fitting connection.

4. The dental irrigator containing a bubble of hydrogen rich gas according to claim 1, wherein said electrolysis module (308) comprises: electrolytic sheet support (510), the outside of electrolytic sheet support (510) is pegged graft and is equipped with electrolysis module fastening screw (511), the downside of electrolysis module fastening screw (511) is equipped with PCB control panel (512), the downside of PCB control panel (512) is equipped with PCB control panel fastening nut (513), the inboard of electrolytic sheet support (510) is equipped with anodal electrolytic sheet (508), the upside of anodal electrolytic sheet (508) is equipped with ionic membrane (507), the upside of ionic membrane (507) is equipped with negative pole electrolytic sheet (506), the downside of electrolytic sheet support (510) is equipped with mould plastics nut (504) in the mould.

5. The tooth-rinsing device containing bubbles rich in hydrogen according to claim 4, wherein the upper and lower ends of the outer side of the bottom cover bracket are respectively provided with a first waterproof groove (503) and a second waterproof groove (5003), the inner sides of the first waterproof groove (503) and the second waterproof groove (5003) are respectively sleeved with a first waterproof ring (501) and a second waterproof ring (502), and the outer sides of the negative electrode electrolytic sheet (506) and the positive electrode electrolytic sheet (508) are respectively sleeved with a first waterproof silica gel pad (505) and a second waterproof silica gel pad (509).

6. The tooth-rinsing device containing bubbles rich in hydrogen as claimed in claim 1, wherein the bottom cover (603) has a detachable cleaning window (514) and an ozone discharging hole (515) on the underside, the inner side of the detachable cleaning window (514) is inserted with a cleaning window housing (518), and the outer side of the cleaning window housing (518) is inserted with a cleaning window sealing ring (516).

7. The tooth irrigator containing bubbles rich in hydrogen according to claim 1, wherein the bottom cover (603) has a USB charging port (517) on the front side, and a USB silicone plug (310) is connected to the inside of the USB charging port (517) in a flip-over manner.

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