CN111184896A - Intelligent disinfection robot for acidic electrolyzed oxidizing water - Google Patents

Abstract

An intelligent acidic electrolyzed oxidizing water disinfection robot comprises a disinfection robot and a host fixedly arranged on a bottom plate, wherein the disinfection robot is parked on the bottom plate, the host containing an acidic electrolyzed oxidizing water generator is effectively combined with the disinfection robot, the host can automatically electrolyze water into acidic disinfectant and store the acidic disinfectant into a disinfectant tank of the host under the condition of power-on, the disinfection robot automatically moves to the position of the host, the acidic disinfectant in the host is extracted into the disinfectant storage tank in the disinfection robot through a connecting conduit for standby, the acidic disinfectant is separated from the host after being filled, and the host automatically moves to a disinfection area to automatically spray disinfection operation; the acidic electrolyzed oxidizing water disinfectant can be directly used without being diluted in proportion. The unmanned autonomous disinfection is realized, so that the automation and the intellectualization of the disinfection work are realized, the labor intensity and the infection risk of disinfection and sterilization and cleaning personnel are obviously reduced.

Description

Intelligent disinfection robot for acidic electrolyzed oxidizing water

Technical Field

The invention relates to the technical field of disinfection and intelligent equipment, in particular to an intelligent disinfection robot for electrolyzed oxidizing water.

Background

At present, the environment disinfection mode is mainly carried out by manually spraying common disinfectant, a large amount of labor and time are consumed, but dead zones and dead angles of disinfection are easily caused, and manual disinfection of personnel cannot be adopted particularly in the environment where certain disinfection personnel cannot enter. In addition, the electrolyzed oxidizing water generator on the current market is mostly fixed, is inconvenient to use, has poor disinfection mode and influences the disinfection effect. By adopting the disinfection robot, most of the people need to buy common disinfection preparations to dilute the disinfection preparations in proportion and then add the diluted disinfection preparations into the robot for disinfection, the cost is high, and the common disinfection preparations have toxicity and are easy to cause harm to human bodies and the like.

Disclosure of Invention

The invention aims to provide an intelligent acidic electrolyzed oxidizing water disinfection robot, which effectively combines a host machine containing an acidic electrolyzed oxidizing water generator with a disinfection robot, the host machine can electrolyze water into acidic disinfectant under the condition of electrifying, the disinfection robot automatically moves to the position of the host machine, the acidic disinfectant in the host machine is extracted to a disinfectant storage box in the disinfection robot for standby through a robot insertion pipe, the host machine is separated after being filled with the acidic disinfectant, the disinfection robot automatically sprays disinfection operation to a disinfection area, and when the electric quantity is insufficient and the disinfectant is insufficient, the host machine can be automatically charged to supplement the disinfectant; and the unmanned autonomous disinfection is realized.

In order to achieve the purpose, the invention provides an intelligent acidic electrolyzed oxidizing water disinfection robot, which comprises a disinfection robot 1 and a host machine 2 fixedly arranged on a bottom plate 3, wherein the disinfection robot 1 is parked on the bottom plate 3, and a robot charging head 8 is arranged at the lower part of the rear end of the disinfection robot 1; a bottom moving device 11 is installed at the bottom of the disinfection robot 1, a disinfectant spraying system 12 is installed on the bottom moving device 11, and the upper end of the disinfectant spraying system 12 is connected with a disinfectant storage box 13; a spraying system 16 is arranged in the disinfectant spraying system 12, an atomizing nozzle 6 is connected to the outer portion of the front end of the spraying system 16, a gate valve starting button 7 is arranged on the outer portion of the disinfectant spraying system 12 and used for controlling the spraying work of the disinfection robot 1, and heat dissipation holes 10 are formed in the bottom of the disinfectant spraying system 12; a host charging seat 9 matched with the robot charging head 8 is arranged at the bottom of the front end of the host 2; the lower part of the host machine 2 is provided with an acid oxidation potential water generator 22, the upper part is provided with a host machine disinfectant storage part 23, a host machine water inlet 4 is arranged outside the acid oxidation potential water generator 22, and a robot inserting pipe 5 is arranged on the disinfectant storage box 13; the host disinfectant storage part 23 is provided with a host liquid receiving port 28 corresponding to the robot insertion tube 5, and the disinfection robot 1 is connected with the host 2 by inserting the robot insertion tube 5 into the host liquid receiving port 28.

Further, the bottom moving device 11 includes a driving wheel 14, a universal wheel 15, and a motor, and the driving wheel 14 and the universal wheel 15 move when the motor is powered on.

Further, an acid disinfectant liquid tank B24 and a conduit 20 are arranged in the disinfectant liquid storage tank 13, the acid disinfectant liquid tank B24 is fixedly connected with the robot insertion pipe 5, and the conduit 20 connects the acid disinfectant liquid tank B24 with the spraying system 16; a pH indicator 21 is externally mounted.

Further, the spraying system 16 is composed of a liquid inlet 17, a gate valve propeller 18 and a liquid outlet 19, the liquid inlet 17 and the liquid outlet 19 are vertically connected through a nut, the gate valve propeller 18 is fixedly installed at the lower end of the liquid inlet 17, and the gate valve propeller 18 is fixedly connected with the gate valve starting button 7; the liquid outlet 19 is connected with the atomizing nozzle 6 through threads.

Furthermore, the number of the liquid outlets 19 and the atomizing nozzles 6 is at least 3.

Furthermore, an electrolytic tank 23 is arranged in the electrolyzed oxidizing water generator 22, an acid disinfectant tank A27 and a conduit 20 are arranged in the host disinfectant storage part 23, the acid disinfectant tank A27 is connected with the robot insertion pipe 5, and the conduit 20 connects the acid disinfectant tank A27 with the electrolyzed oxidizing water generator 22.

Further, a liquid level sensor 25 and a pH value sensor 26 are installed inside the acid disinfectant liquid tank B24 and the acid disinfectant liquid tank A27.

Further, the disinfection robot 1 can be provided with a detection system and a control system; the control system is connected with a wired terminal or a wireless terminal to control the disinfection robot, and the detection system is provided with an infrared camera and an LED lighting device to detect and control the disinfection area.

The invention relates to an intelligent acidic electrolyzed oxidizing water disinfection robot, which effectively combines a host machine containing an acidic electrolyzed oxidizing water generator with the disinfection robot, the host machine can electrolyze water into acidic disinfectant under the condition of electrifying, the disinfection robot automatically moves to the position of the host machine, the acidic disinfectant in the host machine is extracted to a disinfectant storage box in the disinfection robot through a robot insertion pipe for standby, the host machine is separated after being filled with the disinfectant, the disinfection robot automatically sprays disinfection operation to a disinfection area, and when the electric quantity is insufficient and the disinfectant is insufficient, the host machine can be automatically charged to supplement the disinfectant; the unmanned autonomous disinfection is realized, so that the automation and the intellectualization of the disinfection work are realized, and the labor intensity of cleaning personnel is obviously reduced; accessible cell-phone end manual operation also can preset disinfection route and environment, regularly disinfects automatically, and human-computer interaction is strong and can realize remote control, need not add other disinfectant circumstances, prepares the acid disinfection liquid through the brineelectrolysis, can ensure the supply of sterile water, reduce cost, and the suitability is strong, and market uses extensively, and social is high.

Drawings

FIG. 1 is a schematic view of the present application in its entirety;

FIG. 2 is a schematic view of the present application as a whole;

FIG. 3 is a partial schematic view of the present application;

FIG. 4 is a schematic view of the sterilization robot of the present application;

FIG. 5 is a schematic view of the bottom moving means of the present application;

FIG. 6 is a schematic view of a robotic charging head of the present application;

FIG. 7 is a schematic view of a disinfectant fluid dispensing system of the present application;

FIG. 8 is a schematic view of a sprinkler system 16 of the present application;

FIG. 9 is a schematic view of a disinfectant storage tank of the present application;

FIG. 10 is a schematic view of a pH indicator of the present application;

FIG. 11 is a schematic diagram of the host computer of the present application;

FIG. 12 is a schematic view of an electrolyzed oxidizing water generator according to the present application;

FIG. 13 is a schematic view of a disinfectant storage portion of the host of the present application;

FIG. 14 is a schematic view of the acid disinfectant tank B according to the present application;

FIG. 15 is a schematic view of the acid disinfectant tank A of the present application.

FIG. 16 is a schematic view of a host fluid port of the present application.

Figure 17 is a schematic illustration of a robotic insertion tube according to the present application.

A part name;

1. sterilizing the robot; 2. A host; 3. A base plate; 4. A water inlet of the main machine; 5. a robotic insertion tube; 6. An atomizing spray head; 7. a gate valve start button; 8. a robot charging head; 9. A host charging seat; 10. heat dissipation holes; 11. a bottom moving device; 12. a disinfectant spraying system; 13. a disinfectant storage box; 14. a driving wheel; 15. a universal wheel; 16. a spraying system; 17. a liquid inlet; 18. a gate valve pusher; 19. a liquid outlet; 20. a conduit; 21. a pH value display; 22. an electrolyzed oxidizing water generator; 23. a host disinfectant storage part; 24. an acid disinfectant water tank B; 25. a liquid level sensor; 26. a pH sensor; 27. a first acid disinfectant tank; 28 host computer connects the liquid mouth.

Detailed Description

The invention is described in further detail below with reference to the following detailed description and accompanying drawings:

the invention provides an intelligent acidic electrolyzed oxidizing water disinfection robot, which comprises a disinfection robot 1 and a host machine 2 fixedly arranged on a bottom plate 3, wherein the disinfection robot 1 is parked on the bottom plate 3, and a robot charging head 8 is arranged at the lower part of the rear end of the disinfection robot 1; a bottom moving device 11 is installed at the bottom of the disinfection robot 1, a disinfectant spraying system 12 is installed on the bottom moving device 11, and the upper end of the disinfectant spraying system 12 is connected with a disinfectant storage box 13; a spraying system 16 is arranged in the disinfectant spraying system 12, an atomizing nozzle 6 is connected to the outer portion of the front end of the spraying system 16, a gate valve starting button 7 is arranged on the outer portion of the disinfectant spraying system 12 and used for controlling the spraying work of the disinfection robot 1, and heat dissipation holes 10 are formed in the bottom of the disinfectant spraying system 12; a host charging seat 9 matched with the robot charging head 8 is arranged at the bottom of the front end of the host 2; the lower part of the host machine 2 is provided with an acid oxidation potential water generator 22, the upper part is provided with a host machine disinfectant storage part 23, a host machine water inlet 4 is arranged outside the acid oxidation potential water generator 22, and a robot inserting pipe 5 is arranged on the disinfectant storage box 13; the host disinfectant storage part 23 is provided with a host liquid receiving port 28 corresponding to the robot insertion tube 5, and the disinfection robot 1 is connected with the host 2 by inserting the robot insertion tube 5 into the host liquid receiving port 28.

Further, the bottom moving device 11 includes a driving wheel 14, a universal wheel 15, and a motor, and the driving wheel 14 and the universal wheel 15 move when the motor is powered on.

Further, an acid disinfectant liquid tank B24 and a conduit 20 are arranged in the disinfectant liquid storage tank 13, the acid disinfectant liquid tank B24 is fixedly connected with the robot insertion pipe 5, and the conduit 20 connects the acid disinfectant liquid tank B24 with the spraying system 16; a pH indicator 21 is externally mounted.

Further, the spraying system 16 is composed of a liquid inlet 17, a gate valve propeller 18 and a liquid outlet 19, the liquid inlet 17 and the liquid outlet 19 are vertically connected through a nut, the gate valve propeller 18 is fixedly installed at the lower end of the liquid inlet 17, and the gate valve propeller 18 is fixedly connected with the gate valve starting button 7; the liquid outlet 19 is connected with the atomizing nozzle 6 through threads.

Furthermore, an electrolytic tank 23 is arranged in the electrolyzed oxidizing water generator 22, an acid disinfectant tank A27 and a conduit 20 are arranged in the host disinfectant storage part 23, the acid disinfectant tank A27 is connected with the robot insertion pipe 5, and the conduit 20 connects the acid disinfectant tank A27 with the electrolyzed oxidizing water generator 22.

In another embodiment of the present invention, under the power-on condition, tap water is introduced from the outside through the water inlet of the main body 2, flows into the electrolyzed oxidizing water generator 22, is electrolyzed by the electrolytic cell 25 therein to form an acid disinfectant, and is introduced into the acid disinfectant tank 27 through the conduit 20, wherein the acid disinfectant tank 27 has the liquid level sensor 25 therein, and the pH sensor 26 monitors the state of the acid disinfectant.

The disinfection robot 1 can be close to the host computer 2 automatically, when the robot charging head 8 is fully matched with the host computer charging seat 9, the host computer 2 charges the disinfection robot 1, at the moment, the robot insertion pipe 5 on the disinfectant storage box 13 is inserted into the host computer liquid receiving port 28 to realize the connection of the disinfection robot (1) and the host computer (2), the disinfectant in the acid disinfectant tank A27 is sent into the acid disinfectant tank B24, the liquid level sensor 25 is also arranged in the acid disinfectant tank B24, and the pH sensor 26 monitors the state of the acid disinfectant.

The disinfectant is introduced into the liquid inlet 17 of the spraying system 16 in the disinfectant spraying system 12 through the conduit 20, and the pH value of the disinfectant is displayed by a pH value display 21 arranged outside the disinfectant storage tank 13. When the disinfection robot 1 is fully charged and the acid disinfectant liquid tank B24 is fully filled with disinfectant liquid, the disinfection robot 1 is separated from the host machine 2, the disinfection robot is driven to a disinfection area according to the instruction of a control system in the disinfection robot 1, and the gate valve propeller 18 is pushed after the gate valve starting button 7 is pressed, so that the disinfectant liquid in the liquid inlet hole 17 is reserved from the liquid outlet 19 and is sprayed through the atomizing nozzle 6; the number of the liquid outlets 19 and the atomizing spray heads 6 is at least 3, and the number can be increased or decreased according to the environment of the disinfection area.

When the electric quantity of the disinfection robot 1 is insufficient or the stock of the disinfection solution is insufficient, the disinfection robot 1 returns to the host machine 2 to automatically charge and supplement the disinfection solution.

The disinfection robot 1 can be provided with a detection system and a control system; the control system is connected with a wired terminal or a wireless terminal to control the disinfection robot, if manual operation can be carried out through a mobile phone end, disinfection paths and environments can be preset, disinfection can be carried out automatically at regular time, man-machine interaction is strong, remote control can be achieved, and the detection system is provided with an infrared camera and an LED lighting device to carry out disinfection area detection and route control.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, but any modifications or equivalent variations made according to the technical spirit of the present invention are within the scope of the present invention as claimed.

Claims (8)

1. An intelligent acidic electrolyzed oxidizing water disinfection robot is characterized by comprising a disinfection robot (1) and a host (2) fixedly arranged on a bottom plate (3), wherein the disinfection robot (1) is parked on the bottom plate (3), and a robot charging head (8) is arranged at the lower part of the rear end of the disinfection robot (1); a bottom moving device (11) is installed at the bottom of the disinfection robot (1), a disinfectant spraying system (12) is installed on the bottom moving device (11), and the upper end of the disinfectant spraying system (12) is connected with a disinfectant storage box (13); a spraying system (16) is arranged in the disinfectant spraying system (12), an atomizing nozzle (6) is connected to the outer portion of the front end of the spraying system (16), a gate valve starting button (7) is arranged on the outer portion of the disinfectant spraying system (12) and used for controlling the spraying work of the disinfection robot (1), and radiating holes (10) are formed in the bottom of the disinfectant spraying system (12); a host charging seat (9) matched with the robot charging head (8) is arranged at the bottom of the front end of the host (2); the lower part of the host (2) is provided with an acid oxidation potential water generator (22), the upper part is provided with a host disinfectant storage part (23), a host water inlet (4) is arranged outside the acid oxidation potential water generator (22), and the disinfectant storage box (13) is provided with a robot insertion pipe (5); the host disinfection liquid storage part (23) is provided with a host liquid receiving port (28) corresponding to the robot insertion tube (5), and the disinfection robot (1) is connected with the host (2) by inserting the robot insertion tube (5) into the host liquid receiving port (28).

2. The intelligent electrolyzed oxidizing water sterilization robot according to claim 1, wherein the bottom moving device (11) comprises a driving wheel (14), a universal wheel (15) and a motor, and the driving wheel (14) and the universal wheel (15) move under the condition that the motor is powered on.

3. The intelligent electrolyzed oxidizing water sterilization robot as claimed in claim 1, wherein a second acidic disinfectant tank (24) and a conduit (20) are installed inside the disinfectant storage tank (13), the second acidic disinfectant tank (24) is fixedly connected with the robot insertion tube (5), and the conduit (20) connects the second acidic disinfectant tank (24) with the spraying system (16); the pH value display (21) is arranged outside.

4. The intelligent electrolyzed oxidizing water sterilization robot as claimed in claim 1, wherein the spraying system (16) is composed of a liquid inlet (17), a gate valve propeller (18) and a liquid outlet (19), the liquid inlet (17) and the liquid outlet (19) are vertically connected through a nut, the gate valve propeller (18) is fixedly arranged at the lower end of the liquid inlet (17), and the gate valve propeller (18) is fixedly connected with a gate valve starting button (7); the liquid outlet (19) is connected with the atomizing nozzle (6) through threads.

5. The intelligent electrolyzed oxidizing water sterilization robot as claimed in claim 4, wherein the number of the liquid outlet (19) and the atomizing spray heads (6) is at least 3.

6. The intelligent electrolyzed oxidizing water sterilization robot as claimed in claim 1, wherein an electrolytic cell (23) is arranged in the electrolyzed oxidizing water generator (22), a first acidic disinfectant tank (27) and a conduit (20) are arranged in the host disinfectant storage portion (23), the first acidic disinfectant tank (27) is connected with the robot insertion tube (5), and the conduit (20) connects the first acidic disinfectant tank (27) with the electrolyzed oxidizing water generator (22).

7. The intelligent electrolyzed oxidizing water sterilization robot as claimed in claim 1, wherein a liquid level sensor (25) and a pH sensor (26) are respectively installed inside the acidic disinfectant liquid tank B (24) and the acidic disinfectant liquid tank A (27).

8. The intelligent electrolyzed oxidizing water disinfection robot as claimed in claim 1, wherein a detection system and a control system can be installed on the disinfection robot (1); the control system is connected with a wired terminal or a wireless terminal to control the disinfection robot, and the detection system is provided with an infrared camera and an LED lighting device to detect and control the disinfection area.

Images