WO2020024810A1 - Ozone water preparation device - Google Patents

Abstract

An ozone water preparation device, comprising a container (10), an ozone generator (20), an ozone collection cover (30), and a pump (40). A gas outlet of the ozone generator (20) is communicated with an air inlet (11) by means of an ozone output pipeline and is configured to generate ozone and input the ozone into the container (10); the ozone collection cover (30) is upended in the container (10) above the air inlet (11), and the lower opening of the ozone collection cover (30) extends below the water level, so that, inside the ozone collecting cover (30), a collection cavity for collecting ozone is formed above the water level, and the collection cavity is provided with an ozone recovery port (31), which is connected to an air suction port of the ozone generator (20) by means of a return pipeline (21); and the pump (40) is disposed on the ozone output pipeline or the return pipeline (21) as a power source for gas transportation.

Description

一种臭氧水制备装置Ozone water preparation device 技术领域Technical field

本发明涉及臭氧水制备技术领域，尤其是涉及一种无臭氧气体泄漏的一种臭氧水制备装置。The invention relates to the technical field of ozone water preparation, in particular to an ozone water preparation device without ozone gas leakage.

背景技术Background technique

臭氧作为应用100多年的消毒技术，可以有效的灭活细菌，霉菌，病毒，并能分解化学农药等有害物质，对人们的日常保健和卫生意义巨大。臭氧在投放两小时后即可还原成氧原子的化学特性，使其被科学界称为“毫无残留的绿色环保消毒剂”。As a disinfection technology applied for more than 100 years, ozone can effectively inactivate bacteria, molds, viruses, and can decompose harmful substances such as chemical pesticides, which is of great significance to people's daily health and hygiene. The chemical properties of ozone can be reduced to oxygen atoms within two hours after being put into use, making it known by the scientific community as a "green residue-free environmentally friendly disinfectant".

由于臭氧的分解、还原特性，无论是空气消毒、除味，还是活氧水对物体进行除菌和降解农药残留，都需要人为操作即时制备即时使用。尤其是家庭日常活动中，臭氧水的即时制备和即时使用，需要人们在现场进行操作。然而，在制备臭氧水时，臭氧气体的排放和溢出，无疑会对人们造成强烈的伤害，哪怕是微弱的臭氧气体排放，都会造成操作人员(例如使用果蔬消毒机对果蔬进行消毒灭菌除化学农药残留)身边周围空气臭氧浓度很高，对人们造成健康伤害。Due to the decomposition and reduction characteristics of ozone, whether it is air disinfection, deodorization, or the use of active oxygen water to sterilize objects and degrade pesticide residues, human operations are required to prepare and use immediately. Especially in daily household activities, the instant preparation and instant use of ozone water requires people to operate on site. However, in the preparation of ozone water, the emission and overflow of ozone gas will undoubtedly cause strong harm to people. Even the weak ozone gas emission will cause operators (such as the use of fruit and vegetable disinfection machines to disinfect and sterilize fruits and vegetables in addition to chemical Pesticide residues) The ozone concentration in the surrounding air is very high, causing harm to people.

现有的家庭所使用的果蔬消毒机和果蔬消毒清洗机，都存在臭氧水制备简单粗暴，大量臭氧气体排放至空气中，对操作人员造成巨大伤害的客观情况的现象。The existing fruit and vegetable sterilizers and fruit and vegetable sterilizers used in homes have the objective situation of simple and rude preparation of ozone water, a large amount of ozone gas being discharged into the air, and causing great harm to operators.

发明内容Summary of the invention

本发明的目的在于提供一种臭氧水制备装置，主要用于人们在家居生活中安全自制臭氧水，该制备装置在满足人们消除果蔬农药残留、衣物消毒除菌等日常生活中臭氧水使用需要的同时，可有效避免臭氧水制备过程中臭氧气体排放到空气中对人们造成健康伤害，与现有技术相比更加安全和方便。The purpose of the present invention is to provide an ozone water preparation device, which is mainly used for people to make self-made ozone water in the home life. At the same time, it can effectively prevent ozone gas from being discharged into the air during the preparation of ozone water and cause health damage to people, which is safer and more convenient than the prior art.

为解决上述技术问题，本发明提供的一种臭氧水制备装置，包括：容器、臭氧发生器、臭氧收集罩以及泵体；In order to solve the above technical problems, an ozone water preparation device provided by the present invention includes a container, an ozone generator, an ozone collection cover, and a pump body;

所述容器用于容纳水液，容器底部设置有用于通入臭氧的进气口；The container is used for containing water, and the bottom of the container is provided with an air inlet for introducing ozone;

所述臭氧发生器的出气口通过臭氧输出管路与容器进气口连通，用于生成臭氧并将臭氧输入所述容器内；The air outlet of the ozone generator is in communication with the container air inlet through an ozone output pipe, and is used to generate ozone and input ozone into the container;

所述臭氧收集罩倒扣着设置在容器内且容器进气口上方，臭氧收集罩的下方口沿伸入水液面下方；The ozone collection cover is buckled and disposed in the container and above the container air inlet, and the lower mouth of the ozone collection cover extends below the water level;

所述臭氧收集罩内部在水液面上方形成一个用于收集臭氧的集聚腔，集聚腔设置有臭氧回收口，臭氧回收口通过回流管路与臭氧发生器的吸气口连接；An ozone collecting chamber is formed inside the ozone collecting hood above the water level, and the collecting chamber is provided with an ozone recovery port, and the ozone recovery port is connected to the suction port of the ozone generator through a return line;

所述泵体作为气体输送的动力源设置在所述臭氧输出管路或者回流管路上。The pump body is disposed on the ozone output pipeline or the return pipeline as a power source for gas transportation.

进一步地，所述臭氧收集罩跟随所述水液面的升降而可上下浮动设置。Further, the ozone collection cover can be floated up and down following the elevation of the water level.

进一步地，还包括浮漂，所述浮漂与所述臭氧收集罩连接，用于托起所述臭氧收集罩，且使得臭氧收集罩随水液面的升降而上下浮动。Further, it further includes a float, which is connected to the ozone collection cover, and is used for holding the ozone collection cover, and makes the ozone collection cover float up and down as the water level rises and falls.

为实现臭氧收集罩跟随所述水液面的升降而可上下浮动设置， 除了采用浮漂外还可以采用电动机构来实现，如电动伸缩杆和液面监控传感器。或者，臭氧收集罩由密度小于水液密度的材料制成，如塑料、木质等，臭氧收集罩靠自身浮力漂浮在水液上。In order to realize the ozone collection cover to follow the ascent and descent of the water level, it can be set up and down. In addition to floating, it can also be implemented by electric mechanisms, such as electric telescopic rods and level monitoring sensors. Alternatively, the ozone collecting cover is made of a material with a density lower than the density of the water liquid, such as plastic, wood, etc. The ozone collecting cover floats on the water liquid by its own buoyancy.

其中，浮漂一般为中空的密封罐体。当然也可以采用如游泳圈式的中空环体。Among them, the float is generally a hollow sealed tank. Of course, a hollow ring body such as a swimming ring type can also be used.

进一步地，所述臭氧收集罩为口径从下向上逐渐缩小的锥台型。Further, the ozone collection cover is of a truncated cone type whose caliber gradually decreases from bottom to top.

进一步地，所述浮漂设置在所述臭氧收集罩内部。Further, the floatation is disposed inside the ozone collection cover.

或者，所述浮漂数量为多个，多个浮漂均匀地布设在所述臭氧收集罩的外圆上；Alternatively, the number of the floats is multiple, and the multiple floats are evenly arranged on the outer circle of the ozone collection cover;

或者，所述浮漂为中空环体，套装在所述臭氧收集罩的外圆上。Alternatively, the floating float is a hollow ring body, which is sheathed on the outer circle of the ozone collection cover.

进一步地，所述容器内设置有导向结构，所述导向结构用于所述臭氧收集罩上下浮动时限位导向，进而保证臭氧收集罩始终处于所述进气口正上方。Further, a guiding structure is provided in the container, and the guiding structure is used for limiting guidance when the ozone collection cover floats up and down, thereby ensuring that the ozone collection cover is always directly above the air inlet.

进一步地，所述导向结构为设置在所述臭氧收集罩***的限位围栏。Further, the guide structure is a limit fence provided on the periphery of the ozone collection cover.

其中，限位围栏包括若干个设置在臭氧收集罩***周向上的限位杆，更为优选地，限位围栏呈笼式设置进而防止臭氧收集罩脱落。The limit fence includes a plurality of limit rods arranged in the peripheral direction of the ozone collection cover. More preferably, the limit fence is arranged in a cage to prevent the ozone collection cover from falling off.

当然，导向结构的形式很多，例如一个或若干个导向柱，臭氧收集罩上设置有与导向柱相配合的导向孔；或者，容器内垂直设置导轨，臭氧收集罩上设置有与导轨相限位导向配合的滑块。Of course, there are many forms of guide structures, such as one or several guide posts. The ozone collection cover is provided with guide holes that cooperate with the guide posts. Or, the container is provided with a vertical guide rail, and the ozone collection cover is provided with a limit position with the guide rail. Guide-fit slider.

进一步地，所述进气口处设置有爆气盘或者爆气器。Further, an explosive disc or an explosive device is provided at the air inlet.

进一步地，所述容器底部设置有凹槽，所述进气口设置凹槽底部，所述凹槽的内径大于所述臭氧收集罩的外径，以便于当所述水液减少时，所述臭氧收集罩的下端可***所述凹槽内。Further, a groove is provided at the bottom of the container, and a groove bottom is provided at the air inlet, and the inner diameter of the groove is larger than the outer diameter of the ozone collection cover, so that when the water liquid decreases, the The lower end of the ozone collection cover can be inserted into the groove.

在容器倾斜向外倒臭氧水时，凹槽可尽可能地保留部分水液来封闭臭氧收集罩的下方口沿，在避免臭氧泄漏的前提下，倒出尽可 能多的臭氧水。When the container is tilted to pour out ozone water, the groove can retain as much water as possible to close the lower edge of the ozone collection cover. Under the premise of avoiding ozone leakage, pour out as much ozone water as possible.

进一步地，所述容器包括壶状体和盖体，所述臭氧收集罩设置在壶状体内；壶状体的一侧设置有壶口。Further, the container includes a pot-shaped body and a cover body, the ozone collection cover is disposed in the pot-shaped body; a pot mouth is provided on one side of the pot-shaped body.

进一步地，所述臭氧收集罩的下方口沿平面倾斜设置，在逐渐远离所述壶口的方向上，所述臭氧收集罩的下方口沿逐渐向下延伸。Further, the lower mouth of the ozone collection cover is disposed obliquely along a plane, and the lower mouth of the ozone collection cover gradually extends downward in a direction gradually away from the pot mouth.

当容器倾斜倒臭氧水时，水液面相对于臭氧收集罩发生倾斜，在逐渐远离所述壶口的方向上，所述臭氧收集罩的下方口沿逐渐向下延伸，从而避免远离壶口的部分口沿脱离水液，进而防止臭氧收集罩内的臭氧泄漏。When the container is tilted to pour ozone water, the water level is inclined relative to the ozone collection cover. In a direction gradually away from the mouth of the pot, the lower mouth of the ozone collection cover gradually extends downward, thereby avoiding Part of the mouth is detached from the water, thereby preventing the leakage of ozone in the ozone collection cover.

进一步地，所述臭氧收集罩的下方口沿平面的与水平面之间的倾斜角度为20-45度。Further, the inclination angle between the lower mouth of the ozone collection hood along the plane and the horizontal plane is 20-45 degrees.

其中，优选地，所述壶状体在所述壶口的相对一侧设置壶把。Among them, preferably, the pot-shaped body is provided with a pot handle on the opposite side of the pot mouth.

进一步地，所述泵体和所述臭氧发生器设置在所述容器的底部，容器设置有壶把，所述壶把中空设置，所述回流管路的中间部分布设在壶把中。Further, the pump body and the ozone generator are disposed at the bottom of the container, the container is provided with a pot handle, the pot handle is hollow, and the middle portion of the return pipeline is arranged in the pot handle.

进一步地，所述臭氧输出管路的部分管段设置在所述容器最大容量水液液面的上方，以用于防止所述容器内的水液流入所述臭氧发生器；Further, a part of the pipe section of the ozone output pipeline is arranged above the maximum liquid and water level of the container, so as to prevent the liquid in the container from flowing into the ozone generator;

或者，所述臭氧输出管路上设置有逆止阀以用于防止所述容器内的水液流入所述臭氧发生器。Alternatively, a check valve is provided on the ozone output line to prevent water in the container from flowing into the ozone generator.

臭氧输出管路的中间部分通过壶把的内部中空向上延伸，在垂直高度上，臭氧输出管路的部分管段超过容器最大容水量时液面高度后向下折回，并再次通过壶把内中空向下延伸返回容器的底部。臭氧输出管路的一端连接爆气盘或爆气器，另一端则与臭氧发生器或泵体连接。The middle part of the ozone output pipe extends upward through the inner hollow of the pot handle. At a vertical height, part of the pipe section of the ozone output pipe exceeds the liquid level of the container and then folds back downward. The extension extends back to the bottom of the container. One end of the ozone output pipe is connected to an explosion disk or an aerator, and the other end is connected to an ozone generator or a pump body.

进一步地，所述臭氧收集罩顶部设置有曲折且逐渐升高的气体 通道，所述气体通道的出口为所述臭氧回收口，所述集聚腔内的气体依次经过所述气体通道和臭氧回收口进入所述回流管路。Further, a zigzag and gradually rising gas channel is provided on the top of the ozone collection cover, the outlet of the gas channel is the ozone recovery port, and the gas in the accumulation chamber passes through the gas channel and the ozone recovery port in turn. Into the return line.

曲折且逐渐升高的气体通道可以消除气体中的气泡以及凝结水汽，凝结后水滴沿“之”字型的气体通道回流到容器内，从而降低臭氧气体中的水份。The tortuous and gradually rising gas channel can eliminate air bubbles and condensed water vapor in the gas. After condensation, water droplets flow back into the container along the zigzag gas channel, thereby reducing the moisture in the ozone gas.

进一步地，所述回流管路上设置有凝结和回收水汽的沉降槽。Further, a settling tank for condensing and recovering water vapor is provided on the return pipeline.

自所述集聚腔内流出的气体经过沉降槽后进入泵体或者臭氧发生器中，沉降槽可有效降低气体中的水分，从而提高制备臭氧的效率，同时消除水和湿度较大空气对各工作电子单元的不利影响，让臭氧水制备工作能够继续正常安全的进行，延长臭氧发生器和泵体的使用寿命。The gas flowing out of the accumulation chamber enters the pump body or the ozone generator after passing through the sedimentation tank. The sedimentation tank can effectively reduce the moisture in the gas, thereby improving the efficiency of preparing ozone, and at the same time eliminating water and high humidity. The adverse effect of the electronic unit allows the preparation of ozone water to continue normally and safely, and prolongs the service life of the ozone generator and the pump body.

进一步地，还包括电源、控制器以及液面传感器，泵体和臭氧发生器通过控制器与所述电源连接，液面传感器用于监控沉降槽内的积液深度，所述控制器与所述液面传感器连接。Further, it further includes a power source, a controller, and a liquid level sensor. The pump body and the ozone generator are connected to the power source through a controller. The liquid level sensor is used to monitor the depth of liquid accumulation in the sedimentation tank. Level sensor connection.

液面传感器优选地为浮力开关，当沉降槽内的积液较多时，控制器自动切断电源，臭氧制备工作暂停。沉降槽的底部一侧设置有封堵胶塞，将其拔开，可放出沉降槽内积液。The liquid level sensor is preferably a buoyancy switch. When there is a lot of fluid in the sedimentation tank, the controller automatically cuts off the power and the ozone preparation work is suspended. A blocking plug is set on the bottom side of the sedimentation tank, which can be pulled out to discharge the liquid accumulated in the sedimentation tank.

进一步地，所述臭氧收集罩在所述集聚腔对应的侧壁或者顶部设置有连通集聚腔内外的第一通孔，第一通孔上设置有允许空气单向流入所述集聚腔的进气阀门；Further, the ozone collection cover is provided on the side wall or the top of the concentration cavity with a first through hole communicating with the inside and outside of the concentration cavity, and the first through hole is provided with an air inlet that allows air to flow into the concentration cavity in one direction. valve;

和/或，所述臭氧收集罩在所述集聚腔对应的侧壁或者顶部设置有连通集聚腔内外的第二通孔，第二通孔上设置有允许气体单向流出所述集聚腔的出气阀门。And / or, the ozone collection cover is provided with a second through hole communicating with the inside and outside of the accumulation cavity on the corresponding side wall or top of the accumulation cavity, and the second through hole is provided with an outlet gas allowing the gas to flow out of the accumulation cavity unidirectionally valve.

其中，进气阀门用于所述臭氧发生器和所述泵体工作时不断向集聚腔内补充新鲜空气，进而满足不断制备臭氧的空气需要。Wherein, the intake valve is used to continuously supply fresh air into the accumulation cavity when the ozone generator and the pump body are working, so as to meet the air needs for continuously preparing ozone.

而出气阀门用于在臭氧发生器和所述泵体不工作时，将集聚腔 内气体(该气体氮气浓度较高，而氧气含量较低，不及时排出的话会影响下次使用的制备臭氧的效果)排出。The air outlet valve is used to collect the gas in the cavity when the ozone generator and the pump body are not working (the gas has a high nitrogen concentration and a low oxygen content, and if it is not discharged in time, it will affect the ozone preparation next use). Effect).

进一步地，所述臭氧收集罩在所述集聚腔对应的侧壁或者顶部设置有连通集聚腔内外的通孔，通孔上设置有挡片，所述挡片用于倾向于封堵所述通孔、阻止气体流入和流出所述集聚腔；Further, the ozone collection cover is provided with a through hole communicating with the inside and outside of the accumulation cavity on a corresponding side wall or top of the accumulation cavity, and a blocking piece is arranged on the through hole, and the blocking piece is used to tend to block the communication hole. Holes to prevent gas from flowing into and out of the accumulation cavity;

所述挡片在集聚腔内的正压或者负压作用下发生变形与通孔孔壁或孔沿间形成间隙，进而实现集聚腔内气体经间隙排出，或者外部空气经间隙进入所述集聚腔。The baffle is deformed under the action of positive or negative pressure in the accumulation cavity and forms a gap between the hole wall or the edge of the through hole, so that the gas in the accumulation cavity is discharged through the gap, or external air enters the accumulation cavity through the gap. .

其中，挡片优选地采用橡胶材料制成，可以在微小压力下发生变形，进而打开通孔。Among them, the blocking piece is preferably made of a rubber material, which can be deformed under a slight pressure to open the through hole.

具体而言，所述臭氧发生器和所述泵体工作时所述集聚腔内形成负压，在负压作用下，所述挡片(向内)变形与通孔孔壁间形成间隙，外部空气经间隙进入所述集聚腔，进而不断向集聚腔内补充新鲜空气，进而满足不断制备臭氧的空气需要。Specifically, when the ozone generator and the pump body work, a negative pressure is formed in the accumulation cavity. Under the action of the negative pressure, the blocking piece (inwardly) deforms and forms a gap between the wall of the through hole and the outside. The air enters the accumulation cavity through the gap, and then fresh air is continuously replenished into the accumulation cavity, thereby satisfying the air needs for continuously preparing ozone.

所述臭氧发生器和所述泵体停止工作时，所述臭氧收集罩倒扣在容器内，在臭氧收集罩自身重力的作用下，或者向容器内倒入水液，水液液面快速上涨时，集聚腔内形成正压，在正压作用下，所述挡片(向外)变形与通孔孔壁间形成间隙，内部气体经间隙流出所述集聚腔，实现废气的排放。When the ozone generator and the pump body stop working, the ozone collection cover is buckled in the container, and under the action of the gravity of the ozone collection cover itself, or the water liquid is poured into the container, the water liquid level rises rapidly. At this time, a positive pressure is formed in the accumulation cavity. Under the action of the positive pressure, the baffle is deformed (outward) and a gap is formed between the wall of the through hole and the internal gas flows out of the accumulation cavity through the gap to realize exhaust gas discharge.

由此，微压通气挡片兼具出气阀门和进气阀门的双重作用。Therefore, the micro-pressure ventilation flap has the dual functions of an air outlet valve and an air inlet valve.

进一步地，所述臭氧收集罩在所述集聚腔对应的侧壁或者顶部设置有连通集聚腔内外的毛细孔。Further, the ozone collecting cover is provided with a capillary hole communicating with the inside and outside of the accumulation cavity on a corresponding side wall or top of the accumulation cavity.

在集聚腔内外不存在压差的情况下，毛细孔的孔径较小，所述集聚腔内的气体无法流入或流出；在聚集腔发生压力变化时，可以实现集聚腔内外气体的进出，其作用类似于上述挡片。In the case where there is no pressure difference between the inside and outside of the accumulation chamber, the pore diameter of the capillary is small, and the gas in the accumulation chamber cannot flow in or out; when the pressure in the accumulation chamber changes, the in and out of the gas can be realized Similar to the baffle described above.

另外，所述臭氧发生器为任何可生成臭氧的设备，其中优选地 为臭氧发生管。In addition, the ozone generator is any device capable of generating ozone, and preferably an ozone generating tube.

采用上述技术方案，本发明具有如下有益效果：With the above technical solution, the present invention has the following beneficial effects:

本发明提供的一种臭氧水制备装置，设计精巧，在装置内部形成一个较为封闭的臭氧回收和循环***，无臭氧气体对外排放，能够快速、平稳、安全制备臭氧水，高效而安全。The ozone water preparation device provided by the present invention has a delicate design and forms a relatively closed ozone recovery and circulation system inside the device. No ozone gas is discharged to the outside, and ozone water can be prepared quickly, smoothly, and safely, efficiently and safely.

附图说明BRIEF DESCRIPTION OF THE DRAWINGS

为了更清楚地说明本发明具体实施方式或现有技术中的技术方案下面将对具体实施方式或现有技术描述中所需要使用的附图作简单地介绍，显而易见地，下面描述中的附图是本发明的一些实施方式，对于本领域普通技术人员来讲，在不付出创造性劳动的前提下，还可以根据这些附图获得其他的附图。In order to more clearly explain the specific embodiments of the present invention or the technical solutions in the prior art, the drawings used in the specific embodiments or the description of the prior art will be briefly introduced below. Obviously, the drawings in the following description These are some embodiments of the present invention. For those of ordinary skill in the art, other drawings can be obtained according to these drawings without paying creative labor.

图1为本发明实施例提供的臭氧水制备装置的剖视图；FIG. 1 is a sectional view of an ozone water preparation device according to an embodiment of the present invention;

图2为图1所示的臭氧水制备装置的BB剖视图；2 is a BB sectional view of the ozone water preparation device shown in FIG. 1;

图3为图1所示的臭氧水制备装置的DD剖视图；3 is a DD sectional view of the ozone water preparation device shown in FIG. 1;

图4为图1所示的臭氧水制备装置的EE剖视图；4 is an EE sectional view of the ozone water preparation device shown in FIG. 1;

图5为本发明实施例提供的臭氧水制备装置主要部件的分解示意图；FIG. 5 is an exploded schematic diagram of main components of an ozone water preparation device according to an embodiment of the present invention; FIG.

图6为本发明实施例中臭氧收集罩的分解示意图；FIG. 6 is an exploded schematic view of an ozone collecting hood in an embodiment of the present invention; FIG.

图7为本发明实施例中臭氧收集罩的剖视图。FIG. 7 is a cross-sectional view of an ozone collection hood in an embodiment of the present invention.

附图标记：Reference signs:

10-容器；10a-壶状体；10b-盖体；10c-壶把；11-进气口；12-爆气盘；13-凹槽；20-臭氧发生器；30-臭氧收集罩；31-臭氧回收口；32-导向结构；33-气体通道；34-本体；35-分体；40-泵体；50-浮漂；60-沉降槽；70-单向阀门。10-container; 10a-pot-shaped body; 10b-lid; 10c-pot handle; 11-air inlet; 12-explosive gas plate; 13-groove; 20-ozone generator; 30-ozone collection cover; 31 -Ozone recovery port; 32-guide structure; 33-gas channel; 34-body; 35-split; 40- pump body; 50-float; 60- settling tank; 70- one-way valve.

具体实施方式detailed description

下面将结合附图对本发明的技术方案进行清楚、完整地描述，显然，所描述的实施例是本发明一部分实施例，而不是全部的实施例。基于本发明中的实施例，本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例，都属于本发明保护的范围。The technical solution of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are part of the present invention, but not all of them. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

在本发明的描述中，需要说明的是，术语“中心”、“上”、“下”、“左”、“右”、“竖直”、“水平”、“内”、“外”等指示的方位或位置关系为基于附图所示的方位或位置关系，仅是为了便于描述本发明和简化描述，而不是指示或暗示所指的装置或元件必须具有特定的方位、以特定的方位构造和操作，因此不能理解为对本发明的限制。此外，术语“第一”、“第二”、“第三”仅用于描述目的，而不能理解为指示或暗示相对重要性。In the description of the present invention, it should be noted that the terms "center", "up", "down", "left", "right", "vertical", "horizontal", "inside", "outside", etc. The indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, and is only for the convenience of describing the present invention and simplified description, and does not indicate or imply that the device or element referred to must have a specific orientation, a specific orientation Construction and operation should therefore not be construed as limiting the invention. In addition, the terms "first," "second," and "third" are used for descriptive purposes only, and should not be construed to indicate or imply relative importance.

在本发明的描述中，需要说明的是，除非另有明确的规定和限定，术语“安装”、“相连”、“连接”应做广义理解，例如，可以是固定连接，也可以是可拆卸连接，或一体地连接；可以是机械连接，也可以是电连接；可以是直接相连，也可以通过中间媒介间接相连，可以是两个元件内部的连通。对于本领域的普通技术人员而言，可以具体情况理解上述术语在本发明中的具体含义。In the description of the present invention, it should be noted that the terms "installation", "connected", and "connected" should be understood in a broad sense unless otherwise specified and limited. For example, they may be fixed connections or removable. Connected or integrated; it can be mechanical or electrical; it can be directly connected, or it can be indirectly connected through an intermediate medium, or it can be the internal communication of two elements. For those of ordinary skill in the art, the specific meanings of the above terms in the present invention can be understood on a case-by-case basis.

下面结合具体的实施方式对本发明做进一步的解释说明。The present invention is further explained below in combination with specific embodiments.

如图1-5所示，本实施例提供的一种臭氧水制备装置，包括：容器10、臭氧发生器20、臭氧收集罩30以及泵体40。As shown in FIGS. 1-5, an ozone water preparation device provided in this embodiment includes a container 10, an ozone generator 20, an ozone collection cover 30, and a pump body 40.

容器10用于容纳水液，容器10底部设置有用于通入臭氧的进气口11；臭氧发生器20的出气口通过臭氧输出管路与进气口11连通，用于生成臭氧并将臭氧输入容器10内。The container 10 is used for containing water. The bottom of the container 10 is provided with an air inlet 11 for introducing ozone; the air outlet of the ozone generator 20 communicates with the air inlet 11 through an ozone output pipe for generating ozone and inputting ozone. Inside the container 10.

臭氧收集罩30倒扣着设置在容器10内且进气口11上方，臭 氧收集罩30的下方口沿伸入水液面下方；臭氧收集罩30内部在水液面上方形成一个用于收集臭氧的集聚腔，集聚腔设置有臭氧回收口31，臭氧回收口31通过回流管路21与臭氧发生器20的吸气口连接。泵体40作为气体输送的动力源设置在臭氧输出管路上。The ozone collection cover 30 is arranged in the container 10 and above the air inlet 11. The lower edge of the ozone collection cover 30 extends below the water level. The ozone collection cover 30 forms an ozone collection surface above the water level. The collection chamber is provided with an ozone recovery port 31, and the ozone recovery port 31 is connected to the suction port of the ozone generator 20 through a return line 21. The pump body 40 is provided on the ozone output line as a power source for gas transportation.

优选地，臭氧收集罩30跟随水液面的升降而可上下浮动设置。本实施例中包括浮漂50，浮漂50与臭氧收集罩30连接，用于托起臭氧收集罩30，且使得臭氧收集罩30随水液面的升降而上下浮动。Preferably, the ozone collection cover 30 can be floated up and down following the elevation of the water level. This embodiment includes a float 50, which is connected to the ozone collection cover 30, and is used for holding the ozone collection cover 30, and makes the ozone collection cover 30 float up and down as the water level rises and falls.

其中，臭氧收集罩30为口径从下向上逐渐缩小的锥台型。浮漂50一般为中空的密封罐体。浮漂50设置在臭氧收集罩30内部。Among them, the ozone collection cover 30 is of a truncated cone type whose diameter gradually decreases from the bottom to the top. The float 50 is generally a hollow, sealed tank. The float 50 is provided inside the ozone collection hood 30.

为保证臭氧收集罩始终处于进气口11的正上方，容器10内设置有导向结构32，导向结构32用于臭氧收集罩30上下浮动时限位导向。在本实施例中，导向结构32为设置在臭氧收集罩30***的限位围栏。其中，限位围栏包括若干个设置在臭氧收集罩30***周向上的限位杆，更为优选地，限位围栏呈笼式设置进而防止臭氧收集罩30脱落。In order to ensure that the ozone collecting cover is always directly above the air inlet 11, a guiding structure 32 is provided in the container 10. The guiding structure 32 is used for limiting the position of the ozone collecting cover 30 when it is floating up and down. In this embodiment, the guide structure 32 is a limit fence provided on the periphery of the ozone collection cover 30. The limit fence includes a plurality of limit rods arranged in the peripheral direction of the ozone collection cover 30. More preferably, the limit fence is arranged in a cage to prevent the ozone collection cover 30 from falling off.

当然，导向结构32的形式很多，例如一个或若干个导向柱，臭氧收集罩30上设置有与导向柱相配合的导向孔；或者，容器10内垂直设置导轨，臭氧收集罩30上设置有与导轨相限位导向配合的滑块。Of course, there are many forms of the guide structure 32, for example, one or several guide posts. The ozone collection cover 30 is provided with guide holes that cooperate with the guide posts. Guide rail phase limiter guide fits the slider.

在进气口11处还设置有爆气盘12，进而使得臭氧气体以更细小气泡形式输入水液中，以便于快速溶于水液中。An explosive disc 12 is also provided at the air inlet 11, so that the ozone gas is input into the water liquid in the form of finer bubbles, so as to be quickly dissolved in the water liquid.

容器10底部设置有凹槽13，进气口11设置凹槽13底部，凹槽13的内径大于臭氧收集罩30的外径，以便于当水液减少时，臭氧收集罩30的下端可***凹槽13内。在容器10倾斜向外倒臭氧水时，凹槽13可尽可能地保留部分水液来封闭臭氧收集罩30的下方口沿，在避免臭氧泄漏的前提下，倒出尽可能多的臭氧水。The bottom of the container 10 is provided with a groove 13, and the air inlet 11 is provided with a bottom of the groove 13. The inner diameter of the groove 13 is larger than the outer diameter of the ozone collection cover 30, so that when the water liquid decreases, the lower end of the ozone collection cover 30 can be inserted into the recess. Inside the slot 13. When the container 10 is tilted to pour out ozone water, the groove 13 can retain part of the liquid as much as possible to close the lower edge of the ozone collection cover 30. On the premise of avoiding ozone leakage, pour out as much ozone water as possible.

其中，容器10包括壶状体10a和盖体10b，臭氧收集罩30设置在壶状体内；壶状体10a的一侧设置有壶口。壶状体10a在壶口的相对一侧设置壶把10c。在本实施例中，泵体40和臭氧发生器20设置在容器10的底部，壶把10c中空设置，回流管路21的中间部分布设在壶把10c中。The container 10 includes a pot-shaped body 10 a and a cover body 10 b. The ozone collection cover 30 is disposed in the pot-shaped body; a pot mouth is provided on one side of the pot-shaped body 10 a. The pot-shaped body 10a is provided with a handle 10c on the opposite side of the mouth of the pot. In this embodiment, the pump body 40 and the ozone generator 20 are disposed at the bottom of the container 10, the pot handle 10c is hollow, and the middle portion of the return line 21 is arranged in the pot handle 10c.

如图1、6和图7所示，臭氧收集罩30的下方口沿平面倾斜设置，即在逐渐远离壶口的方向上，臭氧收集罩30的下方口沿逐渐向下延伸。当容器10倾斜倒臭氧水时，水液面相对于臭氧收集罩30发生倾斜，在逐渐远离壶口的方向上，臭氧收集罩30的下方口沿逐渐向下延伸，从而避免远离壶口的部分口沿脱离水液，进而防止臭氧收集罩30内的臭氧泄漏。As shown in FIG. 1, FIG. 6 and FIG. 7, the lower mouth of the ozone collection cover 30 is arranged obliquely along the plane, that is, the lower mouth of the ozone collection cover 30 gradually extends downward in a direction gradually away from the mouth of the kettle. When the container 10 is tilted to pour ozone water, the water level is inclined relative to the ozone collection cover 30. In a direction gradually away from the mouth of the kettle, the lower mouth of the ozone collection cover 30 gradually extends downward, thereby avoiding the part far from the mouth The rim is separated from the liquid, thereby preventing the leakage of ozone in the ozone collection cover 30.

其中优选地，臭氧收集罩30的下方口沿平面的与水平面之间的倾斜角度为20-45度。Wherein, the inclination angle between the lower mouth of the ozone collection cover 30 along the plane and the horizontal plane is preferably 20-45 degrees.

参照图1、5、6和7所示，臭氧收集罩30顶部设置有曲折且逐渐升高的气体通道33。在本实施例中，臭氧收集罩30包括分体35和本体34，分体35内设置有回旋上升设置的“之”字形气体通道33。分体35与本体34可拆装地分体设置，从而便于后期维护。臭氧收集罩本体34可以筒状体，上端口沿与分体35密封连接。分体35的底面上设置有气体通道33的进口(本体34还可以为桶状，桶状本体上在进口的对应位置还要设置出口，以保证集聚腔的气体进入气体通道)，分体35上端侧面上设置有气体通道33的出口，即臭氧回收口，集聚腔内的气体依次经过气体通道和臭氧回收口进入回流管路21。曲折且逐渐升高的气体通道33可以消除气体中的气泡以及凝结水汽，凝结后水滴沿“之”字型的气体通道回流到容器10内，从而降低臭氧气体中的水份。Referring to FIGS. 1, 5, 6 and 7, a zigzag and gradually rising gas passage 33 is provided on the top of the ozone collection hood 30. In the present embodiment, the ozone collection cover 30 includes a split body 35 and a body 34, and a zigzag gas passage 33 is provided in the split body 35 in a swirling manner. The split 35 and the main body 34 are detachably installed separately, thereby facilitating later maintenance. The ozone collection cover body 34 may be a cylindrical body, and the upper port is sealedly connected to the sub-body 35 along the edge. The inlet of the gas channel 33 is provided on the bottom surface of the split 35 (the body 34 can also be barrel-shaped, and the barrel-shaped body should also have an outlet at the corresponding position of the inlet to ensure that the gas in the accumulation chamber enters the gas channel). An outlet of the gas channel 33, that is, an ozone recovery port, is provided on the upper side surface, and the gas in the accumulation chamber sequentially passes through the gas channel and the ozone recovery port into the return line 21. The tortuous and gradually rising gas channel 33 can eliminate air bubbles and condensed water vapor in the gas. After condensation, water droplets flow back into the container 10 along the zigzag gas channel, thereby reducing the water content in the ozone gas.

更为优选地，如图3、4和5所示，回流管路21上还设置有 凝结和回收水汽的沉降槽60。自集聚腔内流出的气体经过沉降槽60后进入泵体40或者臭氧发生器20中，沉降槽60可有效降低气体中的水分，从而提高制备臭氧的效率，同时消除水和湿度较大空气对各工作电子单元的不利影响，让臭氧水制备工作能够继续正常安全的进行，延长臭氧发生器20和泵体40的使用寿命。More preferably, as shown in Figs. 3, 4 and 5, the return line 21 is further provided with a settling tank 60 for condensing and recovering water vapor. The gas flowing out of the accumulation chamber enters the pump body 40 or the ozone generator 20 after passing through the sedimentation tank 60. The sedimentation tank 60 can effectively reduce the moisture in the gas, thereby improving the efficiency of preparing ozone, while eliminating water and relatively humid air. The adverse effects of the working electronic units allow the preparation of ozone water to continue normally and safely, and extend the service life of the ozone generator 20 and the pump body 40.

另外本实施例还可以包括电源、控制器以及液面传感器，泵体40和臭氧发生器20通过控制器与电源连接，液面传感器用于监控沉降槽内的积液深度，控制器与液面传感器连接。液面传感器优选地为浮力开关，当沉降槽内的积液较多时，控制器自动切断电源，臭氧制备工作暂停。沉降槽的底部一侧设置有封堵胶塞，将其拔开，可放出沉降槽内积液。In addition, this embodiment may further include a power source, a controller, and a liquid level sensor. The pump body 40 and the ozone generator 20 are connected to the power source through a controller. The liquid level sensor is used to monitor the depth of liquid accumulation in the sedimentation tank. Sensor connection. The liquid level sensor is preferably a buoyancy switch. When there is a lot of fluid in the sedimentation tank, the controller automatically cuts off the power and the ozone preparation work is suspended. A blocking plug is set on the bottom side of the sedimentation tank, which can be pulled out to discharge the liquid accumulated in the sedimentation tank.

如图5所示，臭氧收集罩30在所述集聚腔对应的侧壁或者顶部设置有连通集聚腔内外的通孔，通孔上设置有微压通气挡片70，挡片70用于倾向于封堵所述通孔、阻止气体流入和流出的所述集聚腔。As shown in FIG. 5, the ozone collection cover 30 is provided with a through hole communicating with the inside and outside of the accumulation cavity at a corresponding side wall or top of the accumulation cavity. A through-hole is provided with a micro-pressure ventilation baffle 70. The accumulation cavity that blocks the through hole and prevents gas from flowing in and out.

挡片70在集聚腔内的正压或者负压作用下发生变形与通孔孔壁间形成间隙，进而实现集聚腔内气体经间隙排出，或者外部空气经间隙进入所述集聚腔。The blocking piece 70 is deformed under the action of positive or negative pressure in the accumulation cavity to form a gap between the walls of the through hole, thereby realizing that the gas in the accumulation cavity is discharged through the gap, or external air enters the accumulation cavity through the gap.

其中，挡片优选地采用橡胶材料制成，可以在微小压力下发生变形，进而打开通孔。Among them, the blocking piece is preferably made of a rubber material, which can be deformed under a slight pressure to open the through hole.

具体而言，所述臭氧发生器和所述泵体工作时所述集聚腔内形成负压，在负压作用下，所述挡片(向内)变形与通孔孔壁间形成间隙，外部空气经间隙进入所述集聚腔，进而不断向集聚腔内补充新鲜空气，进而满足不断制备臭氧的空气需要。Specifically, when the ozone generator and the pump body work, a negative pressure is formed in the accumulation cavity. Under the action of the negative pressure, the blocking piece (inwardly) deforms to form a gap between the wall of the through hole and the outside The air enters the accumulation cavity through the gap, and then fresh air is continuously replenished into the accumulation cavity, thereby satisfying the air needs for continuously preparing ozone.

所述臭氧发生器和所述泵体停止工作时，所述臭氧收集罩倒扣在容器内，在臭氧收集罩自身重力的作用下，或者向容器内倒入水 液，水液液面快速上涨时，集聚腔内形成正压，在正压作用下，所述挡片(向外)变形与通孔孔壁间形成间隙，内部气体经间隙流出所述集聚腔，实现废气的排放。When the ozone generator and the pump body stop working, the ozone collection cover is buckled in the container, and under the action of the gravity of the ozone collection cover itself, or the water liquid is poured into the container, the water liquid level rises rapidly. At this time, a positive pressure is formed in the accumulation cavity. Under the action of the positive pressure, the baffle is deformed (outward) and a gap is formed between the wall of the through hole and the internal gas flows out of the accumulation cavity through the gap to realize exhaust gas discharge.

由此，微压通气挡片兼具出气阀门和进气阀门的双重作用。Therefore, the micro-pressure ventilation flap has the dual functions of an air outlet valve and an air inlet valve.

另外，臭氧发生器20优选采用臭氧发生管。The ozone generator 20 is preferably an ozone generating tube.

本发明提供的一种臭氧水制备装置，设计精巧，在装置内部形成一个较为封闭的臭氧回收和循环***，无臭氧气体对外排放，能够快速、平稳、安全制备臭氧水，高效而安全。The ozone water preparation device provided by the present invention has a delicate design and forms a relatively closed ozone recovery and circulation system inside the device. No ozone gas is discharged to the outside, and ozone water can be prepared quickly, smoothly, and safely, efficiently and safely.

最后应说明的是：以上各实施例仅用以说明本发明的技术方案，而非对其限制；尽管参照前述各实施例对本发明进行了详细的说明，本领域的普通技术人员应当理解：其依然可以对前述各实施例所记载的技术方案进行修改，或者对其中部分或者全部技术特征进行等同替换；而这些修改或者替换，并不使相应技术方案的本质脱离本发明各实施例技术方案的范围。Finally, it should be noted that the above embodiments are only used to illustrate the technical solution of the present invention, but not limited thereto. Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: It is still possible to modify the technical solutions described in the foregoing embodiments, or to replace some or all of the technical features equivalently; and these modifications or replacements do not depart from the essence of the corresponding technical solutions of the technical solutions of the embodiments of the present invention. range.

Claims (20)

1. 一种臭氧水制备装置，其特征在于，包括：容器、臭氧发生器、臭氧收集罩以及泵体；An ozone water preparation device, comprising: a container, an ozone generator, an ozone collection cover, and a pump body;

   所述容器用于容纳水液，容器底部设置有用于通入臭氧的进气口；The container is used for containing water, and the bottom of the container is provided with an air inlet for introducing ozone;

   所述臭氧发生器的出气口通过臭氧输出管路与容器进气口连通，用于生成臭氧并将臭氧输入所述容器内；The air outlet of the ozone generator is in communication with the container air inlet through an ozone output pipe, and is used to generate ozone and input ozone into the container;

   所述臭氧收集罩倒扣着设置在容器内且容器进气口上方，臭氧收集罩的下方口沿伸入水液面下方；The ozone collection cover is buckled and disposed in the container and above the container air inlet, and the lower mouth of the ozone collection cover extends below the water level;

   所述臭氧收集罩内部在水液面上方形成一个用于收集臭氧的集聚腔，集聚腔设置有臭氧回收口，臭氧回收口通过回流管路与臭氧发生器的吸气口连接；An ozone collecting chamber is formed inside the ozone collecting hood above the water level, and the collecting chamber is provided with an ozone recovery port, and the ozone recovery port is connected to the suction port of the ozone generator through a return line;

   所述泵体作为气体输送的动力源设置在所述臭氧输出管路或者回流管路上。The pump body is disposed on the ozone output pipeline or the return pipeline as a power source for gas transportation.
2. 根据权利要求1所述的臭氧水制备装置，其特征在于，所述臭氧收集罩跟随所述水液面的升降而可上下浮动设置。The ozone water preparation device according to claim 1, wherein the ozone collection cover can be floated up and down following the rise and fall of the water level.
3. 根据权利要求2所述的臭氧水制备装置，其特征在于，还包括浮漂，所述浮漂与所述臭氧收集罩连接，用于托起所述臭氧收集罩，且使得臭氧收集罩随水液面的升降而上下浮动。The ozone water preparation device according to claim 2, further comprising a float, the float being connected to the ozone collection cover, for holding the ozone collection cover, and allowing the ozone collection cover to follow the water level Up and down while floating.
4. 根据权利要求1所述的臭氧水制备装置，其特征在于，所述臭氧收集罩为口径从下向上逐渐缩小的锥台型。The ozone water preparation device according to claim 1, wherein the ozone collection cover is of a truncated cone type whose diameter gradually decreases from bottom to top.
5. 根据权利要求3所述的臭氧水制备装置，其特征在于，所述浮漂设置在所述臭氧收集罩内部。The ozone water preparation device according to claim 3, wherein the floatation is disposed inside the ozone collection cover.

   或者，所述浮漂数量为多个，多个浮漂均匀地布设在所述臭氧收集罩的外圆上；Alternatively, the number of the floats is multiple, and the multiple floats are evenly arranged on the outer circle of the ozone collection cover;

   或者，所述浮漂为中空环体，套装在所述臭氧收集罩的外圆上。Alternatively, the floating float is a hollow ring body, which is sheathed on the outer circle of the ozone collection cover.
6. 根据权利要求2所述的臭氧水制备装置，其特征在于，所述容器内设置有导向结构，所述导向结构用于所述臭氧收集罩上下浮动时限位导向，进而保证臭氧收集罩始终处于所述进气口正上方。The ozone water preparation device according to claim 2, wherein a guiding structure is provided in the container, and the guiding structure is used for limiting guidance when the ozone collecting cover floats up and down, thereby ensuring that the ozone collecting cover is always in the desired position. The air inlet is directly above.
7. 根据权利要求6所述的臭氧水制备装置，其特征在于，所述导向结构为设置在所述臭氧收集罩***的限位围栏。The ozone water preparation device according to claim 6, wherein the guide structure is a limit fence provided on the periphery of the ozone collection cover.
8. 根据权利要求1所述的臭氧水制备装置，其特征在于，所述进气口处设置有爆气盘或者爆气器。The ozone water preparation device according to claim 1, wherein an air detonation disc or an air detonator is provided at the air inlet.
9. 根据权利要求1所述的臭氧水制备装置，其特征在于，所述容器底部设置有凹槽，所述进气口设置凹槽底部，所述凹槽的内径大于所述臭氧收集罩的外径，以便于当所述水液减少时，所述臭氧收集罩的下端可***所述凹槽内。The ozone water preparation device according to claim 1, wherein a groove is provided at the bottom of the container, and a groove bottom is provided at the air inlet, and an inner diameter of the groove is larger than an outer diameter of the ozone collection cover. In order to facilitate the lower end of the ozone collecting cover to be inserted into the groove when the water level is reduced.
10. 根据权利要求1所述的臭氧水制备装置，其特征在于，所述容器包括壶状体和盖体，所述臭氧收集罩设置在壶状体内；壶状体的一侧设置有壶口。The ozone water preparation device according to claim 1, wherein the container comprises a pot-shaped body and a cover body, the ozone collection cover is disposed in the pot-shaped body; and one side of the pot-shaped body is provided with a pot mouth.
11. 根据权利要求1所述的臭氧水制备装置，其特征在于，所述臭氧收集罩的下方口沿平面倾斜设置，在逐渐远离所述壶口的方向上，所述臭氧收集罩的下方口沿逐渐向下延伸。The ozone water preparation device according to claim 1, characterized in that the lower mouth of the ozone collection hood is arranged obliquely along a plane, and the lower mouth of the ozone collection hood gradually increases in a direction gradually away from the pot mouth. Extend down.
12. 根据权利要求11所述的臭氧水制备装置，其特征在于，所述臭氧收集罩的下方口沿平面的与水平面之间的倾斜角度为20-45度。The ozone water preparation device according to claim 11, wherein the inclination angle between the lower mouth of the ozone collection cover along the plane and the horizontal plane is 20-45 degrees.
13. 根据权利要求1所述的臭氧水制备装置，其特征在于，所述泵体和所述臭氧发生器设置在所述容器的底部，容器设置有壶把，所述壶把中空设置，所述回流管路的中间部分布设在壶把中。The ozone water preparation device according to claim 1, characterized in that the pump body and the ozone generator are disposed at the bottom of the container, the container is provided with a pot handle, the pot handle is hollow, and the reflux The middle part of the pipeline is arranged in the pot handle.
14. 根据权利要求1所述的臭氧水制备装置，其特征在于，所述臭氧输出管路的部分管段设置在所述容器最大容量水液液面的 上方，以用于防止所述容器内的水液流入所述臭氧发生器；The ozone water preparation device according to claim 1, characterized in that a part of the pipe section of the ozone output pipeline is arranged above the maximum liquid water level of the container to prevent the water liquid in the container Flowing into the ozone generator;

    或者，所述臭氧输出管路上设置有逆止阀以用于防止所述容器内的水液流入所述臭氧发生器。Alternatively, a check valve is provided on the ozone output line to prevent water in the container from flowing into the ozone generator.
15. 根据权利要求1所述的臭氧水制备装置，其特征在于，所述臭氧收集罩顶部设置有曲折且逐渐升高的气体通道，所述气体通道的出口为所述臭氧回收口，所述集聚腔内的气体依次经过所述气体通道和臭氧回收口进入所述回流管路。The ozone water preparation device according to claim 1, wherein a zigzag and gradually rising gas channel is provided on the top of the ozone collection cover, and an outlet of the gas channel is the ozone recovery port and the accumulation cavity The internal gas enters the return pipeline through the gas channel and the ozone recovery port in sequence.
16. 根据权利要求1所述的臭氧水制备装置，其特征在于，所述回流管路上设置有凝结和回收水汽的沉降槽。The ozone water preparation device according to claim 1, wherein the return pipe is provided with a sedimentation tank for condensing and recovering water vapor.
17. 根据权利要求16所述的臭氧水制备装置，其特征在于，还包括电源、控制器以及液面传感器，泵体和臭氧发生器通过控制器与所述电源连接，液面传感器用于监控沉降槽内的积液深度，所述控制器与所述液面传感器连接。The ozone water preparation device according to claim 16, further comprising a power source, a controller, and a liquid level sensor, the pump body and the ozone generator are connected to the power source through the controller, and the liquid level sensor is used to monitor the sedimentation tank The depth of fluid accumulation inside, the controller is connected with the liquid level sensor.
18. 根据权利要求1所述的臭氧水制备装置，其特征在于，所述臭氧收集罩在所述集聚腔对应的侧壁或者顶部设置有连通集聚腔内外的第一通孔，第一通孔上设置有允许空气单向流入所述集聚腔的进气阀门；The ozone water preparation device according to claim 1, wherein the ozone collection cover is provided with a first through hole communicating with the inside and outside of the accumulation cavity on the side wall or the top of the corresponding accumulation cavity, and the first through hole is disposed on the first through hole. There is an intake valve that allows air to flow unidirectionally into the accumulation cavity;

    和/或，所述臭氧收集罩在所述集聚腔对应的侧壁或者顶部设置有连通集聚腔内外的第二通孔，第二通孔上设置有允许气体单向流出所述集聚腔的出气阀门。And / or, the ozone collection cover is provided with a second through hole communicating with the inside and outside of the accumulation cavity on the corresponding side wall or top of the accumulation cavity, and the second through hole is provided with an outlet gas allowing the gas to flow out of the accumulation cavity unidirectionally valve.
19. 根据权利要求1所述的臭氧水制备装置，其特征在于，所述臭氧收集罩在所述集聚腔对应的侧壁或者顶部设置有连通集聚腔内外的通孔，通孔上设置有挡片，所述挡片用于倾向于封堵所述通孔、阻止气体流入和流出所述集聚腔；The ozone water preparation device according to claim 1, wherein the ozone collection cover is provided with a through hole communicating with the inside and outside of the accumulation cavity on a corresponding side wall or top of the accumulation cavity, and a blocking piece is disposed on the through hole, The baffle is used to tend to block the through hole and prevent gas from flowing in and out of the accumulation cavity;

    所述挡片在集聚腔内的正压或者负压作用下发生变形与通孔孔壁或孔沿间形成间隙，进而实现集聚腔内气体经间隙排出，或者 外部空气经间隙进入所述集聚腔。The baffle is deformed under the action of positive or negative pressure in the accumulation cavity and forms a gap between the wall of the through hole or the hole edge, so that the gas in the accumulation cavity is discharged through the gap, or external air enters the accumulation cavity through the gap .
20. 根据权利要求1所述的臭氧水制备装置，其特征在于，所述臭氧收集罩在所述集聚腔对应的侧壁或者顶部设置有连通集聚腔内外的毛细孔。The ozone water preparation device according to claim 1, wherein the ozone collecting cover is provided with capillary holes communicating with the inside and outside of the accumulation cavity on the side wall or the top of the accumulation cavity.

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