CN218738737U - Disinfection and killing robot - Google Patents

Abstract

The utility model provides a kill robot belongs to and kills equipment technical field. It has solved the problem how to ensure ozone water utilization ratio. The sterilizing robot comprises an atomizing pipe and an ozone generation box provided with a mist outlet channel, wherein the atomizing pipe is installed on the ozone generation box and communicated with the mist outlet channel, a filtering pad provided with a plurality of filtering holes in the surface is arranged at the outlet of the mist outlet channel, a blocking pipe communicated with the mist outlet channel is arranged in the ozone generation box, and a communicating port communicated with the inside of the ozone generation box is arranged at the lower end of the blocking pipe. The sterilizing robot can effectively improve the utilization rate of ozone water.

Description

Disinfection and killing robot

Technical Field

The utility model belongs to the technical field of the equipment of killing disappears, a robot disappears is related to.

Background

The robot that kills is comparatively common equipment that kills among the prior art, it is generally including removing the base, install the dustcoat on removing the base and install the water tank in the dustcoat, box and spray pipe are taken place to ozone, the water tank leads to pipe and box intercommunication is taken place to ozone, install electrolytic device in the box is taken place to ozone, ultrasonic vibrator and fan, carry out the during operation, the water tank lets in water in the ozone takes place the box and electrolyzes through electrolytic device by the water pump, convert water into the ozone water mixture of water and ozone mixture, then ultrasonic vibrator and fan simultaneous working, the air current that is blown out by the fan after atomizing ozone water through ultrasonic vibrator passes through the outside blowout of spray pipe with ozone water smoke, with this effect that reaches disinfection and sterilization.

But in the actual operation in-process, the unable even water smoke granule that forms of ultrasonic vibrator's atomization effect, some vibrations form large granule drop of water along with strong air current by the spray tube blowout to the external world, under the normal condition, exquisite ozone water fog can float gradually in the air for a long time and evaporate to this purifies the sterilization to the air, and these some large granule drops of water are because the reason of self gravity directly drips to subaerial, can't reach anticipated killing effect, the ozone water consumption in the box also can cause ozone to take place simultaneously is too fast, the low-usage.

Disclosure of Invention

The utility model aims at having the above-mentioned problem to current technique, provided a kill robot, the utility model aims to solve the technical problem that: how to ensure the utilization rate of ozone water.

The purpose of the utility model can be realized by the following technical proposal: the utility model provides a disinfection robot, includes that the atomizer pipe takes place the box with the ozone of seting up out the fog passageway, and the atomizer pipe is installed on ozone takes place the box and with a fog passageway intercommunication, its characterized in that, a fog passageway exit has the filter pad that a plurality of filtration pores were seted up on the surface, ozone takes place to be equipped with in the box and blocks the pipe with a fog passageway intercommunication, just block the intercommunication mouth that the pipe lower extreme is for taking place box inside intercommunication with ozone.

This disinfection robot includes that spray tube and ozone take place the box, ozone takes place the box and has a fog passageway, be used for the produced ozone water smoke of outside discharge work, the spray tube is installed on ozone takes place the box and with a fog passageway intercommunication, make ozone water smoke can spout to the external world through the spray tube, the robot is killed in the disinfection of this case disclosed sets up inside hollow form and blocks the pipe in ozone takes place the box, and set up intercommunication ozone on blocking the pipe and take place the box inside and go out the fog passageway, under the normal operating condition, ozone water smoke that produces in the ozone takes place the box enters into to a fog passageway through the intercommunication mouth of hollow pipe, rethread spray tube blowout to the external world, in this process, a part ozone water smoke can enter into to the cavity that blocks the pipe through the intercommunication mouth, and another part ozone water smoke is blockked the outside pipe wall and is blockked, filter the once with this, prevent that a large amount of ozone water smoke and drop from entering and recondensation formation forms the spray tube again in its inside, the water smoke that then enters into in the fog passageway, the filter ozone water smoke and filter the box through setting, thereby the ozone filter the ozone water smoke and can improve the utilization ratio after this filtration, thereby the ozone water smoke can be more fine and the higher sterilization of the mist disinfection efficiency of ozone filter the mist that can take place.

In the above-mentioned sterilizing robot, the mist outlet channel is located at the top of the ozone generating box, the blocking pipe is located below the mist outlet channel, and the upper end of the blocking pipe and the inner wall of the ozone generating box are integrally formed.

The fog outlet channel is specifically positioned at the top of the ozone generation box, the blocking pipe is arranged in the ozone generation box and positioned below the fog outlet channel, the upper end of the blocking pipe is integrally formed with the inner wall of the ozone generation box, the lower end of the fog outlet channel is communicated with the upper end of the cavity in the blocking pipe, so that the cavity in the blocking pipe is connected with the fog outlet channel in a straight cylinder shape, the ozone water fog is prevented from being condensed into small water drops on the inner wall of the cavity in the conveying process, and the conveying rate of the ozone water fog is ensured on the premise of ensuring the filtering effect.

In the above-mentioned robot that kills, the filter pad comprises elastic material, and the filter pad hot melt is fixed go out fog passageway's upper end port department.

The filter pad specifically comprises elastic material, like rubber, silica gel material, low in manufacturing cost, and the filter pad is fixed in the last port department of a fog passageway with the mode of hot melt, guarantees the connection stability of filter pad to guarantee the filter effect to ozone water smoke.

In the above-mentioned sterilizing robot, the aperture of each of the filter holes is not more than 3 mm.

The aperture of a plurality of filter holes formed in the filter pad is less than or equal to 3 mm, so that the filtered ozone water mist (namely the ozone water mist entering the part of the spray pipe) is more exquisite, and the utilization rate of the ozone water is ensured.

In the above-mentioned robot that kills, the lower extreme of spray tube with ozone takes place the box joint and fixes, and the spray tube reduces from the middle part to upper end pipe diameter gradually.

The lower extreme of spray tube takes place the box with ozone and fixes through the mode of joint, guarantees the convenience that the maintenance was dismantled in later stage, and the spray tube reduces gradually from middle part to upper end pipe diameter, under the circumstances that flow space diminishes, guarantees farther, higher that can propagate from spray tube spun ozone water smoke to this guarantees the sterile effect of disinfecting.

Compared with the prior art, the sterilizing robot has the following advantages:

1. this robot that disappears carries out the secondary filtration to ozone water smoke through the filter pad that sets up in the passageway that fog simultaneously through the intercommunication mouth transmission ozone water smoke to ozone water smoke once filtering through setting up the inside pipe that blocks that sets up in ozone takes place the box for by the more exquisite of atomizer pipe spun ozone water smoke, guarantee the sterile effect of disinfecting and the utilization ratio to the ozone water.

Drawings

Figure 1 is the ozone generating box and the spray pipe structure diagram.

Figure 2 is the ozone generating box structure diagram.

Figure 3 is the ozone generating box section view and its part enlarged.

Fig. 4 is a schematic view of the structure of the spray tube.

In the figure, 1, ozone generating box; 11. a mist outlet channel; 111. a filter pad; 1111. a filtration pore; 12. a barrier tube; 121. a communication port; 2. and (4) a spray pipe.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1-3, the disinfection robot comprises an ozone generation box 1 and an atomizing pipe 2, wherein the ozone generation box 1 is formed by detachably connecting an upper shell and a lower shell, the lower shell is used for bearing ozone water, an ultrasonic oscillator and a fan are arranged in the lower shell, a connecting joint is integrally formed at the top of the upper shell, a mist outlet channel 11 is formed between the connecting joint and the upper shell, a blocking pipe 12 is integrally formed below the mist outlet channel 11 in the upper shell, the upper end of the blocking pipe 12 and the inner wall of the upper shell are integrally formed, so that a cavity in the blocking pipe 12 is communicated with the mist outlet channel 11, and the lower end of the blocking pipe 12 is a communication port 121.

As shown in fig. 2, a filter pad 111 made of elastic material (such as silica gel and rubber) is fixed in the connection joint of the upper housing (i.e. at the outlet of the mist outlet channel 11) by hot melting, a plurality of filter holes 1111 penetrating through the upper and lower side surfaces of the filter pad 111 are formed, and the aperture of each filter hole 1111 is smaller than 3 mm.

As shown in fig. 4, the spray tube 2 is in a long strip shape, and the lower end of the spray tube is clamped and fixed with the connection joint of the upper housing, so that the lower end of the spray tube 2 is communicated with the mist outlet channel 11, and the diameter of the spray tube 2 is gradually reduced from the middle to the upper end.

The working principle is as follows: ultrasonic oscillator work forms ozone water smoke with ozone water atomization, fan work forms the air current in ozone generation box 1 simultaneously, the air current is wrapped up and is being held ozone water smoke and is got into by intercommunication mouth 121 and block in pipe 12, some ozone water smoke of this in-process gets into the cavity that blocks pipe 12 through intercommunication mouth 121, another part is blockked the pipe 12 outer wall and is blockked, form once filtering, then this part ozone water smoke that gets into in blocking pipe 12 cavity passes through out the fog mouth and gets into spray tube 2 along with the air current, this in-process carries out secondary filter to ozone water smoke through each filtration hole 1111 on the filter pad 111, make the ozone water smoke that passes through more fine and smooth, final ozone water smoke is by spray tube 2's upper end to external blowout under the effect of fan, with this completion killing work.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the terms ozone generating cartridge 1, mist outlet channel 11, filter pad 111, filter hole 1111, barrier tube 12, communication port 121, spray tube 2, etc. are used more herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any one of the additional limitations of the present invention.

Claims (5)

1. The utility model provides a disinfection robot, includes that spray tube (2) and ozone who offers out fog passageway (11) take place box (1), and spray tube (2) are installed on ozone takes place box (1) and with a fog passageway (11) intercommunication, its characterized in that, go out fog passageway (11) exit and have filter pad (111) that a plurality of filtration pores (1111) were seted up on the surface, ozone takes place to be equipped with in box (1) and blocks pipe (12) with a fog passageway (11) intercommunication, just block that pipe (12) lower extreme is for taking place intercommunication mouth (121) of box (1) inside intercommunication with ozone.

2. A killing robot as claimed in claim 1, wherein the mist outlet channel (11) is located at the top of the ozone generating box (1), the blocking pipe (12) is located below the mist outlet channel (11), and the upper end of the blocking pipe (12) is integrally formed with the inner wall of the ozone generating box (1).

3. A killing robot according to claim 1 or 2, characterized in that the filter pad (111) is made of an elastic material, and that the filter pad (111) is heat-fused at the upper port of the mist outlet channel (11).

4. A killing robot as claimed in claim 3, characterized in that the aperture of each filter hole (1111) is equal to or less than 3 mm.

5. A killing robot as claimed in claim 4, characterized in that the lower end of the spraying pipe (2) is fixed with the ozone generating box (1) in a clamping manner, and the diameter of the spraying pipe (2) is gradually reduced from the middle part to the upper end.

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