CN217830432U - Remote control high-efficiency atomization disinfection machine - Google Patents

Abstract

The remote control high-efficiency atomization disinfection machine comprises a box body, a liquid storage tank liquid supplement sensor, a liquid pump, an atomization chamber, an atomizer, a mist outlet pipe, a fan and a control part, wherein the box body is provided with a liquid storage tank; the atomizing chamber accommodating cavity is a variable-volume accommodating cavity with a large upper part and a small lower part; an atomizer is installed in a small-size cavity at the bottom of a variable-volume containing cavity with a large upper part and a small lower part of an atomizing chamber in a matched mode; the control part comprises a main control module; the Internet of things background is in interactive connection with the main control module through a 4G or 5G wireless network and the Internet of things module; the output end of the main control module is connected with control switches respectively arranged on the liquid pump, the fan and the atomizer; the main control module is also interactively connected with an interaction module; the interactive module consists of a key interactive module and a display screen interactive module. The utility model adopts the atomizing chamber with the variable volume accommodating cavity, which solves the problem of how to efficiently produce fog and eliminate fog; the remote automatic killing is realized based on the technology of the Internet of things; the atomization effect is excellent, and high-efficiency atomization can be realized; energy conservation and environmental protection, and is suitable for popularization.

Description

Remote control high-efficiency atomization disinfection machine

Technical Field

The utility model belongs to the technical field of mechanical engineering air purification disappears and kills device, concretely relates to high-efficient atomizing sterilizing machine of remote control.

Background

The atomizing sterilizer converts the sterilizing agent into the medicine fog in the aerosol state, and the medicine fog is dispersed in the external space or attached to the surface of an object, thereby achieving the aim of sterilizing bacteria and viruses.

As a disinfection product, the atomization disinfection machine requires to use as little liquid medicine as possible to generate enough medicine mist; meanwhile, the particle size of the fog drops of the medicine fog is kept in an aerosol state, namely the diameter of the fog drops is 0.001-100 um, so that viruses and microorganisms on the surface of an object and in the air can be effectively killed, and the aim of efficient sterilization is fulfilled. However, in the existing atomization chamber, because the ultrasonic atomizer is generally installed on a bottom plate bracket in the atomization chamber, the height from the bottom plate of the atomizer to the working liquid surface of the atomization chamber is about 50mm, and the part of liquid cannot be completely converted into water mist by the atomizer; most of the liquid is ineffective liquid; i.e., the larger the volume of the atomizing chamber, the larger the volume of the ineffective liquid, and thus the requirement for efficient mist production cannot be met. Therefore, the atomizing chamber is always in the optimal mist generating state, the mist generating efficiency is improved, and the design key of the atomizing sterilizer is realized.

Moreover, the existing atomization disinfection machine cannot realize remote automatic opening and closing functions and cannot realize real-time disinfection and timed disinfection functions. In view of this, the following improvements have been proposed.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem: the remotely-controlled efficient atomizing sterilizer is provided, and the atomizing chamber with a variable-volume accommodating cavity structure with a large upper part and a small lower part is adopted, so that the problem of how to efficiently generate mist is solved; based on the internet of things technology, the remote automatic opening and closing function and the timing disinfection function of the atomization disinfection machine are realized, and the intelligent requirement is met.

The utility model adopts the technical proposal that: the remote control high-efficiency atomization disinfection machine comprises a box body, a liquid storage tank liquid supplementing sensor, a liquid pumping pump, an atomization chamber, an atomizer, a fog outlet pipe, a fan and a control part; the containing cavity of the atomizing chamber is a variable-volume containing cavity with a large upper part and a small lower part; an atomizer is installed in a small-size cavity at the bottom of a variable-volume containing cavity with a large upper part and a small lower part of an atomizing chamber in a matched mode; the control part comprises a main control module; the Internet of things background is in interactive connection with the main control module through a 4G or 5G wireless network and the Internet of things module; the output end of the main control module is connected with control switches respectively arranged on the liquid pump, the fan and the atomizer; the main control module is also interactively connected with an interaction module; the interactive module consists of a key interactive module and a display screen interactive module.

In the above technical solution, further: the atomization chamber is communicated with a fog outlet pipe; the mist outlet pipe is a telescopic pipe; the telescopic pipe drives the telescopic pipe to linearly extend and retract through the telescopic actuating mechanism; and when the atomizing sterilizer is not in use: the mist outlet pipe is retracted and hidden in the box body.

In the above technical solution, further: the longitudinal section of the containing cavity of the atomizing chamber is in a T-shaped structure, a trapezoid structure or a triangular structure with a large upper part and a small lower part.

In the above technical solution, further: a liquid outlet is arranged at the bottom of the atomizing chamber; the liquid outlet is communicated with the liquid storage tank through a liquid discharge pipeline.

In the above technical solution, further: a drainage plate is arranged between the position of the atomizing chamber where the fan is arranged and the mist outlet pipe.

In the above technical solution, further: an overflow port is arranged at the transition position of the small-volume accommodating cavity at the bottom of the atomizing chamber and the large-volume accommodating cavity at the top of the atomizing chamber; the overflow port is communicated with the liquid storage tank through an overflow pipeline.

In the above technical solution, further: the side wall of the atomizing chamber is provided with an atomizing chamber liquid supplementing sensor; the atomization chamber liquid supplementing sensor is connected with the input end of the control part; the output end of the control part is connected with a liquid pump, and the liquid pump is used for supplementing liquid at regular time through a timer.

In the above technical solution, further: the liquid storage tank is provided with a high water level mark and a low water level mark; the low water level mark is provided with a non-contact liquid storage tank liquid supplementing sensor.

In the above technical solution, further: the tail end of the mist outlet pipe is provided with a mist outlet; the mist outlet is of an oblate structure; the mist outlet is one of a single-head structure, a double-head structure and a multi-head structure; the included angle between the central line of the fog outlet and the central line of the vertical fog outlet pipe is 90-180 degrees.

In the above technical solution, further: the box body is provided with a top cover; when the atomization sterilizing machine is not used, the mist outlet pipe is hidden in the top cover of the box body with a fully-closed structure.

The utility model has the advantages compared with the prior art:

1. the utility model has the advantages that the volume of the atomizing chamber with large upper part and small lower part, which is the mounting position of the atomizer in the atomizing chamber, is designed according to the optimal mist yield of the atomizer, so that the space size for placing the atomizer is reduced as much as possible; thereby reducing the dosage of the liquid medicine as much as possible and generating more medicine mist; effectively ensures and improves the atomization efficiency, ensures that the device is always in the best mist production state, is favorable for improving the disinfection effect, and is energy-saving and environment-friendly.

2. The utility model discloses realize the long-range automation of atomizing sterilizing machine and open, close function and regularly disinfect the function based on internet of things, satisfy intelligent demand.

3. When the machine is not used, the telescopic pipe can be hidden and stored in the box body, so that the appearance is not influenced, and the collision safety hidden danger is avoided; the use is convenient; the safety is good, and meanwhile, the dust is prevented.

4. The utility model adjusts the liquid level through the combined action of the liquid storage tank liquid supplementing sensor, the atomizing chamber liquid supplementing sensor and the overflow port; the atomization chamber fluid infusion sensor triggers an automatic fluid infusion function, the working time length of the fluid infusion pump is set through a timer, and fluid infusion is performed regularly and quantitatively each time; the water level in the atomizing chamber is kept within the optimal liquid level range all the time by combining the combined action of the overflow port, so that the atomizing effect is ensured; overflow liquid discharged from the overflow port can be effectively collected in the liquid storage tank, so that the utilization rate of the disinfectant is improved, and the disinfectant is energy-saving and environment-friendly.

5. The utility model discloses the setting of liquid storage pot leakage fluid dram when not using the sterilizer, can open leakage fluid dram evacuation liquid medicine, avoids the fault problem's that the liquid medicine deposit crystallization leads to appearance.

6. The utility model discloses the fog outlet adopts oblate mouthful structure, and more round mouth structure can accelerate the blowout atomized liquid, and the range is farther, improves the atomizing area of coverage that disappears.

7. The utility model discloses liquid storage pot fluid infusion sensor non-contact level sensor combines the alarm to use together promptly, can realize the low liquid level automatic alarm of liquid storage pot, reminds the user in time to supply the liquid medicine.

Drawings

Fig. 1 is an intelligent control schematic block diagram based on the internet of things technology;

FIG. 2 is a schematic diagram of the high-efficiency atomization of the present invention;

FIG. 3 is a schematic view of the telescopic actuator of the present invention;

FIG. 4 is a schematic view of an embodiment of the T-shaped atomizing chamber of the present invention;

FIG. 5 is a schematic view of the structure of the drainage plate of the present invention;

fig. 6 is a schematic view of one embodiment of the mist outlet pipe and the mist outlet of the present invention;

fig. 7 is a schematic view of another embodiment of the mist outlet pipe and the mist outlet of the present invention;

fig. 8 is a schematic view of the hidden state of the mist outlet pipe of the present invention;

fig. 9 is a circuit diagram of the intelligent control circuit related to the main control module of the present invention;

fig. 10 is a schematic block diagram of the remote control of the telescopic actuator according to the present invention;

fig. 11 is a control circuit diagram of the first embodiment of the automatic telescopic actuator of the present invention;

fig. 12 is a control circuit diagram of the second embodiment of the automatic telescopic actuator of the present invention;

in the figure: 1-a box body, 2-a liquid storage tank, 3-a liquid storage tank liquid supplementing sensor, 4-a liquid drawing pump, 5-an atomizing chamber, 6-an atomizer, 7-a fog outlet pipe and 8-a fan; 501-a liquid discharge port; 502-overflow port; 9-a mist outlet; 10-a telescopic actuating mechanism, 12-an atomizing chamber liquid supplementing sensor and 13-a drainage plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to fig. 1 to 12 of 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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

A remote control high-efficiency atomization disinfection machine comprises a box body 1, a liquid storage tank 2, a liquid storage tank liquid supplementing sensor 3, a liquid drawing pump 4, an atomization chamber 5, an atomizer 6, a mist outlet pipe 7, a fan 8 and a control part.

A liquid storage tank 2 and an atomizing chamber 5 are arranged in the box body 1, and the liquid storage tank 2 pumps liquid towards the atomizing chamber 5 through a liquid pump 4; an atomizer 6 is arranged in the atomizing chamber 5, and the atomizer 6 is used for generating mist by ultrasonic; the atomizing chamber 5 is communicated with a mist outlet pipe 7, and the mist outlet pipe 7 accelerates mist generated by the atomizer 6 to be sent into the mist outlet pipe 7 through a fan 8; the liquid supplementing sensor 3 of the liquid storage tank is arranged outside the liquid storage tank 2 and is used for alarming the low liquid level in the liquid storage tank 2. It should be noted that the liquid storage tank liquid supplement sensor 3 is connected with the input end of the control part, the output end of the control part is connected with the alarm, and when the liquid level in the liquid storage tank 2 reaches the installation position of the liquid storage tank liquid supplement sensor 3, namely the low liquid level, the alarm is triggered to automatically alarm.

The difference from the prior art is that: the control part of the application also comprises a main control module; the main control module is a singlechip with a brand of Feichka and a model of S9KEAZ128AMLK, and the singlechip with the brand of the main control module can realize a timing disinfection function, an automatic start-stop function and an automatic telescopic function based on the Internet of things technology, which are described later. Specifically, to realize the functions of timed disinfection, automatic start-stop and automatic telescoping, see a control circuit diagram shown in fig. 10.

Regarding the master control module: the internet of things background is in interactive connection with the main control module through a 4G or 5G wireless network and the internet of things module. The 'Internet of things background' refers to a mobile phone, and the mobile phone is provided with 'Internet of things control software'. "thing networking module" is in the utility model discloses install on "high-efficient atomizing sterilizing machine of remote control" promptly. "thing networking module" is used for realizing the utility model discloses a remote control function. The internet of things module is provided with a chip with a brand of high emerging and a model of GM196_ N. Adopt this model chip for realize the utility model discloses the thing of "high-efficient atomizing sterilizing machine of remote control" allies oneself with remote control function promptly.

On the basis, the output end of the main control module is connected with control switches respectively arranged on the liquid pump 4, the fan 8 and the atomizer 6; see fig. 10 for a "smart control circuit diagram associated with a master control module"; through the cell-phone operation promptly, based on internet of things, realize that long-range automation of drawing liquid pump 4, fan 8, atomizer 6 stops control.

The main control module is also interactively connected with an interaction module; the interactive module consists of a key interactive module and a display screen interactive module.

Specifically, the interactive module has the model and is KNY12864-20M, and the brand is the chip of "Ji Di Lun", adopts this chip, is used for realizing the utility model discloses the button control function and the display screen display function of "high-efficient atomizing sterilizing machine of remote control" promptly.

The utility model discloses other improvements still lie in: the accommodating cavity of the atomizing chamber 5 is a variable-volume accommodating cavity with a large upper part and a small lower part; the atomizer 6 is installed in a small-size cavity at the bottom of the variable-volume containing cavity with the large upper part and the small lower part of the atomizing chamber 5 in a matched mode.

I.e. by reducing the volume of the location of the atomiser 6. The liquid level of the liquid medicine is always consistent with the optimal liquid level required by the ultrasonic atomizer.

Because how to improve atomization efficiency, the design of atomizer chamber is the key, for reducing the liquid medicine quantity, nevertheless produces more medicine fog, guarantees simultaneously that ultrasonic nebulizer reaches better atomization effect, the utility model discloses the atomizer chamber adopts the atomizer chamber structure in the little volume space of varactor volume formula of sinking, through reducing atomizer both sides atomizer chamber cavity volume, reaches the purpose of utilizing effective liquid medicine, production more medicine fog.

In the above embodiment, further: the longitudinal section of the accommodating cavity of the atomizing chamber 5 is in one of a T-shaped structure, a trapezoid structure and a triangular structure with a large upper part and a small lower part. The embodiment shown in fig. 2 and 4 is an atomizing chamber embodiment with a T-shaped structure.

The atomizing chamber 5 is connected with a mist outlet pipe 7; in order to improve the mist spraying distance: when the bottom of the mist outlet pipe 7 is vertically connected with the atomizing chamber 5, the axial flow air supply direction of the fan 8 can be vertical to the mist outlet pipe or parallel to the mist outlet pipe. However, the case that the axial flow air supply direction of the fan 8 is in a straight-through type or crossed with the mist outlet pipe 7 is not excluded.

One or more fans 8 can be provided; for carrying the water mist generated by the atomizer out of the tank body 1 by wind force. One or more mist outlets may also be provided at the top of the nebulization chamber 5. The water mist is carried out of the box body 1 from a mist outlet of the atomizing chamber 5 through the airflow generated by the fan 8. Generally, a large-power fan 8 and a plurality of atomizers 6 are adopted to meet the requirements of large-space atomization killing.

On the basis of the above embodiment: the mist outlet pipe 7 is a telescopic pipe. When not in use, the telescopic pipe is hidden and stored in the box body 1, so that the potential safety hazard is prevented from being damaged, and the box body 1 has a compact structure and attractive appearance.

Regarding the specific structure of the telescopic tube: the extension tube adopts a connection mode of small taper or multi-section lap joint. Preferably, the inner wall of the telescopic pipe body is smooth, so that the obstruction and interference of the inner wall of the telescopic pipe body to the fog drops are eliminated.

In order to realize the remote automatic telescopic control function: the telescopic pipe drives the telescopic pipe to linearly extend and retract through the telescopic actuating mechanism 10; and when the atomizing sterilizer is not in use: the telescopic pipe is retracted and hidden in the box body 1. Fig. 11 and 12 show a control schematic diagram and a control circuit diagram of the telescopic actuator 10, i.e., the telescopic member.

In the above embodiment, further: the telescopic actuating mechanism 10 is a cylinder or a screw pair of a lead screw nut driven by a motor. Namely, the telescopic pipe is dragged to linearly extend and retract through a cylinder or a screw pair of a screw nut driven by a motor. And an automatic telescopic driving mode is adopted, so that the operation is simpler and more labor-saving.

Specifically, when the telescopic actuator 10 is a cylinder, the center line of a cylinder piston rod and the center line of a telescopic pipe are arranged in parallel at intervals, the actuating end of the cylinder piston rod is vertically connected with the pipe body of the telescopic pipe through a connecting rod, and the telescopic pipe is pulled to be changed in a telescopic manner through the lifting motion of the cylinder piston rod, so that the automatic telescopic operation is realized.

When the telescopic actuator 10 is a screw nut screw pair driven by a motor, the central line of a screw of the screw nut screw pair is arranged in parallel with the central line of the telescopic pipe at intervals, the motor is coaxially and fixedly connected with the screw to drive the screw to rotate, the rotating screw is screwed to be matched with and provided with a large nut, and the large nut is vertically connected with the pipe body of the telescopic pipe through a connecting rod. The motor drives the screw rod to rotate forwards and backwards, so that the lifting displacement of the large nut on the screw rod is realized, and the large nut for lifting displacement pulls the telescopic pipe to realize the lifting displacement of the telescopic pipe.

It is thus clear that, with the telescopic tube structure, when not in operation: the telescopic pipe is recycled, the telescopic pipe cannot be higher than the sterilizing machine, the attractiveness of the case is not affected, and the potential safety hazard of collision does not exist.

The realization of the automatic control function of the telescopic actuating mechanism comprises the following steps: the control chip of the telescopic actuating mechanism adopts a chip (shown in fig. 9) with the brand name of SGS and the model number of L293. In order to adopt this chip to realize the automatic control function: (as shown in fig. 11 and 12, and in combination with the control schematic diagram of fig. 9), the control input end of the telescopic actuator is connected to the output end of the main control module, that is, when the main control module starts killing, a control signal for controlling the extension of the telescopic tube of the telescopic actuator is output to the control end of the telescopic actuator; when the killing is finished, the main control module outputs a control signal for controlling the telescopic pipe of the telescopic actuating mechanism to retract towards the control end of the telescopic actuating mechanism. The control output end of the telescopic actuating mechanism is also connected with the input end of the main control module, namely when the telescopic actuating mechanism is completely unfolded, the control end of the telescopic actuating mechanism outputs a complete unfolding signal to the main control module, so that the main control module controls the telescopic actuating mechanism to stop unfolding. When the telescopic actuating mechanism is completely retracted, the control end of the telescopic actuating mechanism outputs a complete retraction signal to the input end of the main control module, namely the main control module controls the telescopic actuating mechanism to stop retracting continuously, so that the closed-loop automatic control function of the automatic telescopic function of the telescopic pipe is realized.

The working principle of two embodiments of the telescopic actuator 10 is as follows:

example 1: when the telescopic executing mechanism 10 is an air cylinder, the main control module controls a piston rod of the air cylinder to extend when receiving a sterilization starting command, and the extended piston rod drives the telescopic pipe to extend; the cylinder stops running until the telescopic pipe is completely unfolded; then killing is started. When the main control module receives the command of stopping killing, the killing is immediately stopped, then the main control module controls the cylinder piston rod to retract, and the cylinder piston rod drives the telescopic pipe to retract.

Example 2: when the telescopic executing mechanism 10 is a screw-nut screw pair driven by a motor, and the main control module receives a start killing command, the main control module controls the motor to rotate forwards, the motor rotating forwards pulls the telescopic pipe to extend through the screw-nut screw pair transmission until the telescopic pipe is completely unfolded, the motor stops rotating forwards, and then killing is started. When the main control module receives the command of stopping killing, the killing is immediately stopped, then the main control module controls the motor to rotate reversely, and the reversely rotating motor realizes the folding of the telescopic pipe.

In the above embodiment, further: to solve the problem of emptying the atomization chamber 5: the bottom of the atomizing chamber 5 is provided with a liquid outlet 501. In order to solve the problem of discharged liquid collection: the liquid outlet 501 is communicated with the liquid storage tank 2 through a liquid discharge pipeline. The liquid outlet 501 is provided with a manual liquid outlet switch, and when the liquid outlet is not used for a long time, the liquid in the atomizing chamber 5 is emptied manually.

Moreover, in order to improve and ensure the mist yield: and a drainage plate 13 is arranged between the position of the atomizing chamber 5 where the fan 8 is arranged and the mist outlet pipe 7. The drainage plate 13 is used for guiding the axial flow air supply of the fan 8 to the fog outlet pipe 7, namely one end of the drainage plate 13 is vertically blocked at the axial flow air supply position of the fan 8, and the other end of the drainage plate 13 is bent to extend into the fog outlet pipe 7.

When in use: the fan 8 sucks air outside the box body 1 into the air inlet, the airflow is sprayed on the flow guide plate 13, and turbulent flow in the airflow is reduced under the guide action of the flow guide plate 13, so that the airflow is changed into smooth airflow, and the smooth airflow forms fast flowing airflow outside the box body 1 at an outlet close to the atomizing chamber 5; due to the high-speed rotation of the fan 8, a negative pressure state is formed near the outlet of the atomizing chamber 5, and the medicine mist in the atomizing chamber 5 is sucked into the mist outlet pipe 7 under the negative pressure effect, reaches the mist outlet 9 along with the air flow, and then is sprayed out to the external space of the box body 1.

On this basis, the height control of 5 liquid levels in atomizer chamber also is the key of the high-efficient virus killing of sterilizer: to solve the problem of accurate control of the liquid level of the atomizing chamber 5: in the above embodiment, further: an overflow port 502 is arranged at the transition position of the small-volume accommodating cavity at the bottom of the atomizing chamber 5 and the large-volume accommodating cavity at the top of the atomizing chamber; the overflow port 502 is communicated with the liquid storage tank 2 through an overflow pipeline; the overflow port 502 is used for discharging the redundant liquid medicine back to the liquid storage tank 2 in time, so that the redundant liquid medicine is effectively recovered while the atomization effect is ensured.

Among them, it should be noted that: when the liquid level in the atomizing chamber 5 is too low, the atomizing efficiency of the atomizer 6 is reduced; when the liquid level in the atomizer chamber 5 is high, the atomizer 6 is difficult to mist out. Therefore, when the number and the types of the atomizers 6 are selected, the optimal water level control of the liquid level in the atomizing chamber 5 determines the optimal liquid level range value of the small-volume cavity at the bottom of the atomizing chamber through a plurality of tests.

For realizing the automatic water supply control function in the atomizing chamber 5: an atomization chamber liquid supplementing sensor 12 is arranged on the side wall of the atomization chamber 5; the atomization chamber liquid supplementing sensor 12 is connected with the input end of the control part; the output end of the control part is connected with a liquid pump 4, and the liquid pump 4 supplies liquid at regular time and quantity through a timer.

It should be noted that: when the liquid level in the atomizing chamber 5 is not low enough to enable the atomizer 6 to work normally, the atomizing chamber liquid supplementing sensor 12 triggers the liquid pump 4 to work to begin automatic liquid supplementing; the control of the amount of the liquid supplementing water is realized by setting the working time of the liquid pump 4; and when the fluid infusion is excessive, the surplus water can flow back to the liquid storage tank 2 through the overflow port 502, so that the liquid recovery is realized, the liquid level in the atomizing chamber 5 can be always maintained at the optimal water level height, the atomizer 6 is ensured to be always in the optimal mist production state, the produced mist quantity and the mist particle size meet the requirements, and the sterilizing and killing effect is improved.

On this basis, adopt 5 varactor institutional advancement in atomizer chamber of big-end-up's 5, reduce 6 mounted position's of atomizer 5 volumes, can make 6 liquid levels of atomizer reach optimum range value as early as possible, make atomization effect good, effectively improve the efficiency of killing.

In the above embodiment, further: the liquid storage tank 2 is provided with a high water level mark and a low water level mark; the low water level mark is provided with a non-contact liquid storage tank liquid supplementing sensor 3 in a matching way. The liquid replenishing sensor 3 of the liquid storage tank is also a non-contact liquid level sensor. The liquid storage tank liquid supplement sensor 3 is connected with the input end of a controller, and the output end of the controller is connected with an alarm, such as a buzzer. The liquid in the liquid storage tank 2 is ensured to be sufficiently used by adopting a low liquid level automatic buzzing alarm mode. When in use: when the sterilizer works for a period of time and the liquid level in the liquid storage tank 2 is lower than the low water level mark, the liquid supplement sensor 3 of the liquid storage tank triggers an alarm to remind a user of supplementing liquid medicine in time.

In the above embodiment, further: the tail end of the mist outlet pipe 7 is provided with a mist outlet 9. For solving the long-range atomization function: the mist outlet 9 is of a flat round structure. To increase the atomization coverage area: the mist outlet 9 is one of a single-head structure, a double-head structure and a multi-head structure. In order to avoid the interference of the mist outlet 9 and block the remote spraying of the atomized liquid: the included angle between the central line of the mist outlet 9 and the central line of the vertical mist outlet pipe 7 is 90-180 degrees. In order to realize manual adjustment of spraying in different directions, further; the mist outlet 9 is rotatably arranged at the tail end of the mist outlet pipe 7.

In the above embodiment, further: the box body 1 is provided with a top cover; when the atomization sterilizing machine is not used, the mist outlet pipe 7 is hidden in the top cover of the box body 1 with a fully-closed structure, namely, the protection and dust prevention functions of the telescopic pipe are realized through the top cover. Further, the top cover may be equipped with a door lock.

It should be noted that: when the atomizer does not work, the box body 1 is of a cuboid closed structure, and the height direction size of the box body 1 is larger than the length direction size and the width direction size and is used for hermetically accommodating the mechanisms; when the telescopic pipe works, the telescopic pipe is exposed.

The demisting outlet part of the box body 1 can be opened and opened, other parts adopt closed structures, and opening sealing doors are arranged at necessary positions; in a closed state, the safety of each mechanism is good; the box body 1 has compact integral structure and is suitable for transition movement or vehicle-mounted installation and use in a small space. In order to realize the disinfection of the large space, the number of the required disinfection machines can be calculated according to the large space volume to be disinfected. Through rationally placing the sterilizing machine, the direction of atomizing export is rotated in advance to manual, alright reach the purpose to the disinfection of no dead angle in big space.

The utility model discloses a theory of operation does: manually opening a top cover of the box body 1, switching on a power supply, and remotely controlling the extension tube to extend out of the box body 1; the liquid pump 4 pumps the disinfectant in the liquid storage tank 2 to the upper atomization chamber 5 through a pipeline in a timed and quantitative manner; and reaches the optimal water level in the atomizing chamber 5; it should be noted that if the optimum water level is exceeded, the excess liquid can flow back to the liquid storage tank 2 from the overflow port 502 provided in the atomizing chamber 5; the atomizer 6 in the atomizing chamber 5 can efficiently generate mist within the optimal water level range; when the mist is generated, the fan 8 discharges the atomized liquid drops through the mist outlet pipe 7; the mist outlet 9 with the oblate tail end of the mist outlet pipe 7 effectively increases the mist outlet range, so that the aim of disinfecting a large space is fulfilled; when the disinfection liquid level in the atomizing chamber 5 is low, the atomizing chamber liquid supplementing sensor 12 triggers the liquid pump 4 to continue to pump liquid regularly and quantitatively; when the sterilizer works for a period of time and the liquid level in the liquid storage tank 2 is lower than the low water level mark, the liquid level sensor 3 triggers an alarm, and if a buzzer alarm mode is adopted, a user is reminded to replenish liquid medicine in time. When the sterilizer is not in use, the liquid outlet 501 is opened manually; the liquid medicine is discharged back to the liquid storage tank 2 from the atomizing chamber 5, and then the liquid storage tank 2 is cleaned. The utility model discloses the time of operation at every turn can be set for by oneself to remote control disappears with the realization to regularly in the certain space.

Through the above description, it can be found that: the utility model has the advantages that the size of the atomizing chamber 5 with large upper part and small lower part and the volume of the atomizing chamber at the installation position of the atomizer 6 in the atomizing chamber 5 are designed according to the optimal mist output of the atomizer 6, so that the space size for placing the atomizer is reduced as much as possible; thereby reducing the dosage of the liquid medicine as much as possible and generating more medicine mist; effectively ensures and improves the atomization efficiency, ensures that the device is always in the best mist production state, is favorable for improving the disinfection effect, and is energy-saving and environment-friendly.

The utility model discloses a internet of things realizes long-range opening and stops, long-range flexible pipe telescoping control, regularly atomizing function. The telescopic actuating mechanism 10 drives the telescopic pipe to linearly and telescopically displace so as to extend or retract the box body 1. When the machine is not used, the telescopic pipe can be hidden and stored in the box body 1, so that the appearance is not influenced, and the potential safety hazard of collision does not exist; the use is convenient; the safety is good, and meanwhile, the dust is prevented.

The utility model adjusts the liquid level through the combined action of the liquid supplementing sensor and the overflow port 502, keeps the water level in the atomizing chamber 5 to meet the water level height of the atomizer for the best work, keeps the liquid level height at the best liquid level all the time, and ensures the atomizing effect; meanwhile, overflow liquid discharged from the overflow port 502 can be effectively recovered in the liquid storage tank 2, so that the utilization rate of the disinfectant is improved, and the disinfectant is energy-saving and environment-friendly.

The utility model discloses 2 leakage fluid dram 501's of liquid storage pot sets up, when not using the sterilizing machine, can open the interior liquid medicine of leakage fluid dram 501 evacuation atomizer chamber 5, avoids the appearance of the trouble problem that the liquid medicine deposit crystallization leads to in the atomizer chamber.

The utility model discloses go out fog mouth 9 and adopt oblate mouthful structure, can spout the atomized liquid with higher speed than the round mouth structure, the range is farther, improves the atomizing area of coverage that disappears. The utility model discloses non-contact level sensor is that liquid storage pot fluid infusion sensor combines the alarm to use together, can realize the low liquid level automatic alarm of liquid storage pot 2, reminds the user in time to supply the liquid medicine.

In conclusion, the utility model has high killing efficiency, energy saving and environmental protection; the safety is high; the range is long; compact structure, small in size realizes the remote control function. The atomizing chamber adopts the simple structure improvement of big end up volume-changing, effectively improves and produces fog efficiency, and is high-efficient, energy-conserving, environmental protection, is fit for promoting.

All the embodiments in the present specification are described in a related manner, and the same and similar parts among the embodiments may be referred to each other, and each embodiment focuses on the differences from the other embodiments.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (10)

1. The remote control high-efficiency atomization disinfection machine comprises a box body (1), a liquid storage tank (2), a liquid storage tank liquid supplementing sensor (3), a liquid pump (4), an atomization chamber (5), an atomizer (6), a mist outlet pipe (7), a fan (8) and a control part; the method is characterized in that: the accommodating cavity of the atomizing chamber (5) is a variable-volume accommodating cavity with a large upper part and a small lower part; the atomizer (6) is installed in a small-size cavity at the bottom of a variable-volume containing cavity with a large upper part and a small lower part of the atomizing chamber (5) in a matched mode; the control part comprises a main control module; the Internet of things background is in interactive connection with the main control module through a 4G or 5G wireless network and the Internet of things module; the output end of the main control module is connected with control switches respectively arranged on the liquid pump (4), the fan (8) and the atomizer (6); the main control module is also interactively connected with an interaction module; the interactive module is composed of a key interactive module and a display screen interactive module.

2. The remotely controlled high efficiency atomizing sterilizer of claim 1, wherein: the atomizing chamber (5) is communicated with a mist outlet pipe (7); the mist outlet pipe (7) is a telescopic pipe; the telescopic pipe drives the telescopic pipe to linearly extend and retract through a telescopic actuating mechanism (10); and when the atomizing sterilizer is not in use: the mist outlet pipe (7) is retracted and hidden in the box body (1).

3. The remotely controlled high efficiency atomizing sterilizer of claim 1, wherein: the longitudinal section of the accommodating cavity of the atomizing chamber (5) is in one of a T-shaped structure, a trapezoid structure and a triangular structure with a large upper part and a small lower part.

4. The remote-controlled high-efficiency atomizing sterilizer as set forth in claim 1, 2 or 3, wherein: a liquid outlet (501) is formed in the bottom of the atomizing chamber (5); the liquid outlet (501) is communicated with the liquid storage tank (2) through a liquid discharge pipeline.

5. The remote-controlled high-efficiency atomizing sterilizer of claim 4, characterized in that: and a drainage plate (13) is arranged between the position of the atomizing chamber (5) where the fan (8) is arranged and the mist outlet pipe (7).

6. The remote-controlled high-efficiency atomizing sterilizer of claim 5, wherein: an overflow port (502) is arranged at the transition position of the small-volume containing cavity at the bottom of the atomizing chamber (5) and the large-volume containing cavity at the top of the atomizing chamber; the overflow port (502) is communicated with the liquid storage tank (2) through an overflow pipeline.

7. The remotely controlled high efficiency atomizing sterilizer of claim 6, wherein: an atomization chamber liquid supplementing sensor (12) is arranged on the side wall of the atomization chamber (5); the atomization chamber liquid supplementing sensor (12) is connected with the input end of the control part; the output end of the control part is connected with a liquid pump (4); and the liquid drawing pump (4) supplies liquid regularly through a timer.

8. The remote-controlled high-efficiency atomizing sterilizer of claim 1, characterized in that: the liquid storage tank (2) is provided with a high water level mark and a low water level mark; the low water level mark is provided with a non-contact liquid storage tank liquid supplement sensor (3) in a matching way.

9. The remote-controlled high-efficiency atomizing sterilizer of claim 1, characterized in that: the tail end of the mist outlet pipe (7) is provided with a mist outlet (9); the mist outlet (9) is of a flat round structure; the mist outlet (9) is in one of a single-head structure, a double-head structure and a multi-head structure; the included angle between the central line of the mist outlet (9) and the central line of the vertical mist outlet pipe (7) is 90-180 degrees.

10. The remotely controlled high efficiency atomizing sterilizer of claim 1, wherein: the box body (1) is provided with a top cover; when the atomization sterilizing machine is not used, the mist outlet pipe (7) is hidden in a top cover of the box body (1) with a fully-closed structure.

Images