CN216369179U - High-pressure flushing device for automatic cleaning robot - Google Patents

Abstract

The utility model discloses a high-pressure flushing device for an automatic cleaning robot, which is arranged on a ceiling and comprises a frame body; the high-pressure water supply assembly is arranged on the frame body; the output pipe is connected to the high-pressure water supply assembly; the spray head is connected to the output pipe; the telescopic assembly is connected with the frame body and extends out of the frame body or contracts into the frame body; the spray head is detachably connected to the telescopic assembly. The problem of current washing robot with whole flushing system hand-carry, lead to whole robot very heavy and the electric power that consumes in the removal process is very big is solved.

Description

High-pressure flushing device for automatic cleaning robot

Technical Field

The utility model relates to the field of automatic cleaning of toilets, in particular to a high-pressure flushing device for an automatic cleaning robot.

Background

The existing high-rise buildings such as office buildings and the like need cleaners to clean toilets regularly. In order to save human resources and labor cost, automatic cleaning robots are used for replacing manpower to clean and maintain the toilets in many places.

However, the existing washing robot carries the whole flushing system, so that the size of the whole washing robot is large, the whole robot is heavy due to the fact that the robot body is provided with flushing water, electric power consumed in the moving process of the robot is very large, under the condition that the battery capacity is certain, electric power is seriously wasted, the running time of the whole robot is not long, and the efficiency is low.

Accordingly, the prior art is yet to be improved and developed.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned shortcomings of the prior art, an object of the present invention is to provide a high pressure flushing device for an automatic cleaning robot, which solves the problems that the existing flushing robot carries the whole flushing system with him, resulting in the whole robot being heavy and the power consumed during moving is very large.

The technical scheme of the utility model is as follows:

a high-pressure flushing device for an automatic cleaning robot is arranged on a ceiling and comprises a frame body;

the high-pressure water supply assembly is arranged on the frame body;

the output pipe is connected to the high-pressure water supply assembly;

the spray head is connected to the output pipe;

the telescopic assembly is connected with the frame body and extends out of the frame body or contracts into the frame body;

the spray head is detachably connected to the telescopic assembly.

Further, the frame body is further provided with a coil winding and unwinding assembly, and the output pipe is wound on the coil winding and unwinding assembly.

Further, the retraction assembly comprises:

the telescopic parts are sequentially connected and are used for forming multi-stage telescopic;

the connecting part is arranged on the telescopic part far away from the frame body in the plurality of telescopic parts, and the spray head is detachably connected to the connecting part.

Further, the connection portion includes:

the connecting bracket is connected to the telescopic part;

the clamp is connected to the connecting bracket and used for clamping the spray head;

the inductive switch is arranged on the clamp and used for detecting whether the spray head is connected to the clamp or not.

Further, the high pressure water supply assembly includes:

the high-pressure water tank is arranged on the frame body;

the input end of the high-pressure water pump is connected with the high-pressure water tank, and the output end of the high-pressure water pump is communicated with the output pipe.

Further, still be provided with the disinfection subassembly on the support body, the disinfection subassembly includes:

the disinfectant tank is arranged on the frame body; and

the input end of the disinfection water pump is communicated with the disinfectant tank, and the output end of the disinfection water pump is connected with the output pipe.

Further, still be provided with fresh air subassembly on the support body, fresh air subassembly includes:

the freshener box is arranged on the frame body; and

the input end of the freshener output pump is communicated with the freshener box, and the output end of the freshener output pump is connected with the output pipe.

Furthermore, the input end of the output pipe is connected with a multi-way joint, and the high-pressure water pump, the disinfection water pump and the freshener output pump are respectively connected to the multi-way joint;

the device is characterized in that a first electromagnetic valve is arranged on a connecting pipeline of the high-pressure water pump and the multi-way connector, a second electromagnetic valve is arranged on a connecting pipeline of the disinfection water pump and the multi-way connector, and a third electromagnetic valve is arranged on a connecting pipeline of the freshener output pump and the multi-way connector.

Further, the high pressure flushing device still includes the subassembly that absorbs water, the subassembly that absorbs water includes: a water storage tank arranged on the frame body,

the negative pressure pump is connected with the water storage tank;

the water suction pipe is arranged in parallel with the output pipe;

the water suction head is connected with the spray head.

Furthermore, the frame body is connected with a driving mechanism, and the driving mechanism is used for driving the frame body to move along the X direction or/and the Y direction.

The high-pressure flushing device has the advantages that the high-pressure flushing device for the automatic cleaning robot is provided, by the aid of the scheme, the support body is independently arranged, the high-pressure water supply assembly is arranged on the support body, the part flushed by the robot can be independently discharged, the spray head and the high-pressure water supply assembly are connected through the output pipe, the spray head can spray high-pressure water to flush toilets in a toilet and the toilet, dirt on the toilet can be completely flushed through the high-pressure water, the toilet after the toilet is cleaned, and the use of the next user is facilitated. When the automatic cleaning robot needs to wash the closestool, set up flexible subassembly on the support body and drive the shower nozzle and stretch out, by automatic cleaning robot centre gripping shower nozzle again, drive the shower nozzle adjustment through automatic cleaning robot and wash the angle to wash the closestool. After the closestool is washed and is accomplished, on the flexible subassembly was placed to the self-cleaning robot with the shower nozzle, drive the shower nozzle through flexible subassembly and retrieve on the support body or remove the position that does not interfere the user to accomplish the process of washing. Set up support body and high pressure water supply subassembly alone like this, alleviateed self weight of self-cleaning robot, reduced self-cleaning robot's volume to reduce the power consumption when self-cleaning robot removes, increased self-cleaning robot's operating duration, increased efficiency.

Drawings

Fig. 1 is a schematic structural view of a high pressure flushing device for an automatic cleaning robot according to the present invention.

Fig. 2 is a structural diagram of another view of a high pressure flushing device for an automatic cleaning robot according to the present invention.

Fig. 3 is a schematic structural view of a main part of a high pressure flushing device for an automatic cleaning robot according to the present invention.

Fig. 4 is a structural diagram of a main part of a high pressure flushing device for an automatic cleaning robot according to a bottom view of the present invention.

Fig. 5 is a structural view of another perspective view of a main part of a high pressure flushing device for an automatic cleaning robot according to the present invention.

The figures are marked with 100, frame body; 110. a reel retrieving and releasing assembly; 200. a high pressure water supply assembly; 210. a high pressure water tank; 220. a high pressure water pump; 300. an output pipe; 310. a multi-way joint; 320. a first electromagnetic valve; 330. a second electromagnetic valve; 340. a third electromagnetic valve; 400. a spray head; 410. a handle; 500. a telescoping assembly; 510. a telescopic part; 520. a connecting portion; 521. connecting a bracket; 522. a clip; 600. a sterilizing assembly; 610. a disinfectant tank; 620. a sterilizing water pump; 700. an air freshening assembly; 710. a freshener tank; 720. a freshener output pump; 800. a water absorbing assembly; 810. a water storage tank; 820. a negative pressure pump; 830. a suction head; 840. a suction pipe; 900. a drive mechanism; 910. a first pulley drive mechanism; 920. a second pulley drive.

Detailed Description

The present invention provides a high pressure flushing device for an automatic cleaning robot, which is described in further detail below with reference to the accompanying drawings and examples in order to make the objects, technical solutions and effects of the present invention clearer and clearer. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

The existing automatic cleaning robot for the toilet cleans through a brush, cleaning cloth and a mop cloth, the cleaning cloth needs to be replaced manually, and the automatic cleaning robot is troublesome to operate and high in cost. And adopt the water under high pressure to replace traditional cleaning machines people, can need not change consumptive materials such as brush, rag, wash efficiently moreover, can wash in the interval time quantum of two people who go to the lavatory, it is efficient, can not bring too much latency to the people who goes to the lavatory next. However, the existing automatic cleaning robot is provided with a washing system and moves with the washing system, so that the whole robot is heavy, the consumed power in the moving process is very large, the working time is limited under the condition of certain battery capacity, the practicability is not strong, and the development of the automatic cleaning robot is restricted.

Therefore, as shown in fig. 1 and 2, the present embodiment provides a high pressure flushing device for an automatic cleaning robot, which comprises a frame body 100, a high pressure water supply assembly 200, an output pipe 300, a nozzle 400, and a telescopic assembly 500. The frame body 100 may be movably installed on the ceiling of the toilet or fixedly installed on the ceiling of the toilet. The automatic cleaning robot moves on the bottom surface of the toilet and can move to different toilet sections to clean each section independently. The high pressure water supply assembly 200 is provided in the housing 100 such that the high pressure water supply assembly 200 is separately provided at a ceiling position of the toilet, allowing the high pressure water supply assembly 200 to be separated from the robot cleaner. The output pipe 300 is connected to the high pressure water supply assembly 200, the spray head 400 is connected to the output pipe 300, and high pressure water is output to the spray head 400 through the output pipe 300, so that the toilet in the toilet can be flushed at high pressure. The telescopic assembly 500 is connected to the frame body 100, and extends out of the frame body 100 or is retracted into the frame body 100, and the spray head 400 is detachably connected to the telescopic assembly 500. The output pipe 300 is a hose, so that the output pipe 300 can be bent, extended or rolled and the like.

When the automatic cleaning robot needs to wash the closestool, set up flexible subassembly 500 in the support body 100 and drive shower nozzle 400 and stretch out, again by automatic cleaning robot (not drawn in the figure) centre gripping shower nozzle 400, drive shower nozzle 400 through the automatic cleaning robot and adjust and wash the angle to wash the closestool. After the toilet is flushed, the automatic cleaning robot places the spray head 400 on the telescopic assembly 500, and drives the spray head 400 to be retracted into the frame body 100 or move to a position where the user is not interfered through the telescopic assembly 500, so that the flushing process is completed. Thus, the frame body 100 and the high-pressure water supply assembly 200 are separately arranged, the weight of the automatic cleaning robot is reduced, and the volume of the automatic cleaning robot is reduced, so that the power consumption of the automatic cleaning robot during moving is reduced, the running time of the automatic cleaning robot is increased, and the efficiency is increased.

As shown in fig. 2 and 4, the high-pressure water supply assembly 200 in this embodiment specifically includes: a high pressure water tank 210, and a high pressure water pump 220. The high pressure water tank 210 is arranged in the frame body 100, the input end of the high pressure water pump 220 is connected with the high pressure water tank 210, and the output end is communicated with the output pipe 300. This disengages the high pressure water tank 210 and the high pressure water pump 220 from the automatic cleaning robot, thereby reducing the volume and weight of the automatic cleaning robot. In addition, water is supplied through the high-pressure water tank 210, and then the water is output after being pressurized through the high-pressure water pump 220, so that the high-pressure flushing of the wrapping surface of the toilet can be realized, the use trace of the previous user is eliminated, and the next user can use the toilet more safely. The pressure of the high-pressure flushing in the embodiment is 5-8MPa, and the pressure can be used for cleaning the closestool with good effect and high cleaning efficiency.

As shown in fig. 2 and 4, in the specific structure of this embodiment, a winding and unwinding assembly 110 is further disposed in the frame body 100, and the output tube 300 is wound on the winding and unwinding assembly 110. The winding and unwinding assembly 110 can specifically adopt a water pipe automatic winding and unwinding reel, and the working principle of the water pipe automatic winding and unwinding reel is as follows: the water pipe outside the input end is connected with a water source (without an automatic telescopic function), and the water pipe at the output end can be telescopic back and forth. In addition, a self-locking device can be arranged, an automatic wire arranging function is arranged in the automatic telescopic pipe coiling device of the water pipe, the self-locking device is acted (the water pipe stops moving) after the water pipe is pulled out for one section, if the water pipe is required to be pulled out for one section, the water pipe is loosened after the water pipe passes through the self-locking device, and the water pipe is retracted. The fixed reel can horizontally swing by 180 degrees. Therefore, the output tube 300 is mounted on the water pipe automatic retraction reel, so that the input end of the output tube 300 is stationary, and the output end of the output tube 300 can be automatically retracted without causing the output end of the output tube 300 to be too long or too short. The output end of the output tube 300 is connected to the nozzle 400, and specifically, when the telescopic assembly 500 drives the nozzle 400 to extend, the output tube 300 is driven by the nozzle 400 to be pulled out from the winding and unwinding assembly 110; when the retractable assembly 500 drives the nozzle 400 to retract, the output tube 300 is retracted by the retracting and releasing assembly 110, so that the output tube 300 can be retracted and released along with the retractable assembly 500.

As shown in fig. 2, 4 and 5, the telescopic assembly 500 in the present embodiment includes: a plurality of bellows 510, and a connecting portion 520. The plurality of telescopic parts 510 are sequentially connected and are used for forming multi-stage telescopic, the connection part 520 is disposed on the telescopic part 510 far away from the frame body 100 among the plurality of telescopic parts 510, and the spray head 400 is detachably connected to the connection part 520. In a specific structure, the telescopic portion 510 may be a ball screw transmission structure, for example, a long support plate is disposed on a movable table of a screw, and another telescopic portion 510 is disposed at a lower end of the long support plate, so that the plurality of telescopic portions 510 are spliced to extend out in sequence. In the structure of the other telescopic part 510, an electric push rod can be adopted, and a plurality of electric push rods are connected in sequence, so that the telescopic part can extend out or retract step by step. The structure of the telescopic part 510 can also adopt a synchronous belt driving mode, and a next synchronous belt driving structure is connected to the output end of a last synchronous belt in a multi-stage synchronous belt driving structure, so that the telescopic part can be extended or retracted step by step.

As shown in fig. 3 and 5, the connection portion 520 in this embodiment includes: a connecting bracket 521, a clamp 522, and an inductive switch (not shown). The connecting bracket 521 is connected to the lower end of the telescopic part 510 by a screw, and the connecting bracket 521 is a Y-shaped bracket. The telescopic assembly 500 in this embodiment is telescopic in the up-down direction, and the connecting bracket 521 is disposed in the horizontal direction. The two clips 522 are provided, and the two clips 522 are attached to the left and right sides of the connection bracket 521 by screws and are used to hold the head 400. Handles 410 are correspondingly arranged on the left side and the right side of the sprayer 400, and the handles 410 on the left side and the right side can be clamped and embedded in the clamps 522 on the left side and the right side. The clamp 522 in this embodiment is a spring clamp, and an opening is formed on a side of the spring clamp away from the connecting bracket 521, and the opening is also opened by a certain angle in a clamping state of the spring clamp. Thus, when the automatic cleaning robot feeds the nozzle 400 backward to the connection part 520, the handles 410 at both sides are fed to the opening, and then the opening is pushed open, and the opening is closed after the handles are put into the clip 522. The inductive switch is disposed on the clip 522, and the inductive switch is connected to the control module and is used for detecting whether the nozzle 400 is connected to the clip 522. For example, upon detecting that spray head 400 is disengaged from clip 522, control module may control retraction assembly 500 to be raised a distance or retracted so as not to interfere with the movement of the automatic cleaning robot. After the cleaning is finished, the control module controls the telescopic assembly 500 to descend, the spray head 400 is placed in the clamp 522 through the movement of the automatic cleaning robot, and the spray head 400 is sensed by the sensing switch after being in place, so that the telescopic assembly 500 is controlled to drive the spray head 400 to ascend. The high pressure flush procedure is completed.

As shown in fig. 3 and 5, in addition to the toilet high-pressure flushing, the frame body 100 of the present embodiment is further provided with a sterilizing assembly 600, and the sterilizing assembly 600 includes: a disinfectant tank 610 and a disinfectant pump 620. The sterilizing liquid tank 610 is disposed in the housing 100. The input end of the disinfection water pump 620 is communicated with the disinfection liquid tank 610, and the output end is connected with the output pipe 300. Thus, after the flushing is finished, the toilet is further ensured to be clean and sanitary, and the next user is not influenced. The sterilizing water pump 620 is activated to pump out the sterilizing liquid in the sterilizing liquid tank 610 and deliver the sterilizing liquid to the spray head 400 through the output pipe 300, and the sterilizing liquid is sprayed out through the spray head 400, thereby sterilizing the flushed toilet.

In addition, as shown in fig. 3 and 5, a fresh air assembly 700 is further disposed in the frame body 100, and the fresh air assembly 700 includes: a freshener tank 710, and a freshener output pump 720. The freshener tank 710 is disposed in the frame body 100, an input end of the freshener output pump 720 is communicated with the freshener tank 710, and an output end of the freshener output pump is connected to the output pipe 300. After the disinfection process of the toilet is completed, the peculiar smell in the toilet needs to be removed, so that the next user has better use experience. Accordingly, the freshener discharging pump 720 is actuated to pump out the freshener in the freshener tank 710 and supply the same to the spray head 400 through the outlet pipe 300, and spray the same through the spray head 400, thereby performing an air freshening process for the washed lavatory.

As shown in fig. 3 and 4, in order to facilitate connection of the pipes, the input end of the output pipe 300 is connected to a multi-way connector 310, and the high pressure water pump 220, the sterilizing water pump 620 and the freshener output pump 720 are respectively connected to the multi-way connector 310. A first electromagnetic valve 320 is arranged on a connecting pipeline of the high-pressure water pump 220 and the multi-way connector 310, a second electromagnetic valve 330 is arranged on a connecting pipeline of the disinfection water pump 620 and the multi-way connector 310, and a third electromagnetic valve 340 is arranged on a connecting pipeline of the freshener output pump 720 and the multi-way connector 310. When the high pressure water pump 220 is started, the first solenoid valve 320 is opened, and the second solenoid valve 330 and the third solenoid valve 340 are closed, so that the high pressure water pump 220 outputs the washing water from the output pipe 300, thereby implementing the high pressure flushing process of the toilet. When the sterilizing water pump 620 is started, the second electromagnetic valve 330 is opened, and the first electromagnetic valve 320 and the third electromagnetic valve 340 are closed, so that the sterilizing liquid is output from the output pipe 300 through the sterilizing water pump 620, thereby realizing the sterilizing process of the toilet. When the freshener output pump 720 is started, the third solenoid valve 340 is opened, and the second solenoid valve 330 and the first solenoid valve 320 are closed, so that the wash water is output from the output pipe 300 through the freshener output pump 720, thereby performing an air freshening process for the toilet. In addition, the first solenoid valve 320 and the second solenoid valve 330 can be opened simultaneously, so that the high-pressure washing and disinfecting processes can work simultaneously, and the working efficiency is improved.

As shown in fig. 3 and 4, the high pressure flush apparatus further includes a water absorption unit 800, and the water absorption unit 800 absorbs water because the water needs to be absorbed after the toilet is flushed. The water absorption assembly 800 includes: a water reservoir 810, a negative pressure pump 820, a suction tube 840, and a suction head 830. The water storage tank 810 is arranged in the rack body 100, the negative pressure pump 820 is connected with the water storage tank 810, the water suction pipe 840 is arranged in parallel with the output pipe 300, and the water suction head 830 is connected with the spray head 400. When the high pressure flush is completed, the excess water needs to be sucked dry, so that the water is sucked into the reservoir 810 through the water sucking assembly 800, and thus the toilet is clean. The water in the water storage tank 810 can be purified through filtration and the like, and can be sent into the high-pressure water tank 210, so that the water resource can be fully utilized, and the energy conservation and the environmental protection are realized.

It is also conceivable to air dry, or dry, the flushed toilet. For example, a high-pressure air outlet device is added, and a heating wire is arranged on the device, so that hot air can be formed, and the drying process of the surface of the toilet bowl is accelerated.

As shown in fig. 1 and 2, a driving mechanism 900 is connected to the rack body 100 in this embodiment, and the driving mechanism 900 is used for driving the rack body 100 to move along the X direction or/and the Y direction. In a conventional toilet, a single toilet station or two opposite toilet stations are provided, so that the entire high pressure flushing apparatus is required to be moved to move the frame body 100 above each toilet station, and thus the driving mechanism 900 is provided to move the frame body 100. In the present embodiment, the driving structure is installed on the rectangular toilet ceiling, and the longitudinal direction of the rectangular toilet ceiling is the X direction and the width direction is the Y direction. The driving mechanism 900 is provided with two belt wheel transmission mechanisms, wherein the first belt wheel transmission mechanism 910 is provided along the X direction, and the second belt wheel transmission mechanism is provided on the first belt wheel transmission mechanism 910 along the Y direction. Thus, the entire frame body 100 and the second pulley transmission structure are driven by the first pulley transmission mechanism 910 to move in the X direction, and the frame body 100 is driven by the second pulley transmission mechanism 920 to move in the X direction. Thereby realizing the movement of the frame body 100 in the X direction and the Y direction, and enabling the spray head 400 to be located in different toilet sections. Thus, the automatic cleaning robot can clean each section by moving to the corresponding toilet section and connecting to the spray head 400. The cleaning efficiency is greatly improved.

In conclusion, this scheme provides a high pressure bath device for self-cleaning robot, through above-mentioned scheme, set up support body 100 alone to set up high pressure water supply assembly 200 in support body 100, the part that makes the robot wash can independently come out, connect shower nozzle 400 and high pressure water supply assembly 200 through output tube 300, thereby can make shower nozzle 400 can spout the high pressure water and wash by water to the closestool in lavatory and the lavatory, can wash the dirt on the closestool clean through the high pressure water, guarantee like the closestool after the lavatory clean, be convenient for next user's use. When the automatic cleaning robot needs to wash the closestool, set up flexible subassembly 500 in the support body 100 and drive shower nozzle 400 and stretch out, again by automatic cleaning robot centre gripping shower nozzle 400, drive shower nozzle 400 through the automatic cleaning robot and adjust and wash the angle to wash the closestool. After the toilet is flushed, the automatic cleaning robot places the spray head 400 on the telescopic assembly 500, and drives the spray head 400 to be retracted into the frame body 100 or move to a position where the user is not interfered through the telescopic assembly 500, so that the flushing process is completed. Thus, the frame body 100 and the high-pressure water supply assembly 200 are separately arranged, the weight of the automatic cleaning robot is reduced, and the volume of the automatic cleaning robot is reduced, so that the power consumption of the automatic cleaning robot during moving is reduced, the running time of the automatic cleaning robot is increased, and the efficiency is increased.

It is to be understood that the utility model is not limited to the examples described above, but that modifications and variations may be effected thereto by those of ordinary skill in the art in light of the foregoing description, and that all such modifications and variations are intended to be within the scope of the utility model as defined by the appended claims.

Claims (10)

1. A high-pressure flushing device for an automatic cleaning robot is arranged on a ceiling and is characterized by comprising a frame body;

the high-pressure water supply assembly is arranged on the frame body;

the output pipe is connected to the high-pressure water supply assembly;

the spray head is connected to the output pipe;

the telescopic assembly is connected with the frame body and extends out of the frame body or contracts into the frame body;

the spray head is detachably connected to the telescopic assembly.

2. The high pressure flushing device for an automatic cleaning robot as claimed in claim 1, wherein a take-up and pay-off assembly is further provided on the frame body, and the output pipe is wound around the take-up and pay-off assembly.

3. A high pressure flush device for a robot cleaner as recited in claim 1, wherein said telescoping assembly comprises:

the telescopic parts are sequentially connected and are used for forming multi-stage telescopic;

the connecting part is arranged on the telescopic part far away from the frame body in the plurality of telescopic parts, and the spray head is detachably connected to the connecting part.

4. The high pressure flushing device for an automatic cleaning robot of claim 3, wherein the connection part comprises:

the connecting bracket is connected to the telescopic part;

the clamp is connected to the connecting bracket and used for clamping the spray head;

the inductive switch is arranged on the clamp and used for detecting whether the spray head is connected to the clamp or not.

5. The high pressure flushing device for an automatic cleaning robot of claim 1, wherein the high pressure water supply assembly comprises:

the high-pressure water tank is arranged on the frame body;

the input end of the high-pressure water pump is connected with the high-pressure water tank, and the output end of the high-pressure water pump is communicated with the output pipe.

6. The high pressure flushing device for automatic cleaning robot of claim 5, wherein a sterilizing assembly is further provided on the frame body, the sterilizing assembly comprising:

the disinfectant tank is arranged on the frame body; and

the input end of the disinfection water pump is communicated with the disinfectant tank, and the output end of the disinfection water pump is connected with the output pipe.

7. The high pressure flushing device for an automatic cleaning robot of claim 6, wherein a fresh air assembly is further provided on the frame body, the fresh air assembly comprising:

the freshener box is arranged on the frame body; and

the input end of the freshener output pump is communicated with the freshener box, and the output end of the freshener output pump is connected with the output pipe.

8. The high pressure flushing device for an automatic cleaning robot as claimed in claim 7, wherein a multi-way joint is connected to an input end of the output pipe, and the high pressure water pump, the sterilizing water pump and the freshener output pump are respectively connected to the multi-way joint;

the device is characterized in that a first electromagnetic valve is arranged on a connecting pipeline of the high-pressure water pump and the multi-way connector, a second electromagnetic valve is arranged on a connecting pipeline of the disinfection water pump and the multi-way connector, and a third electromagnetic valve is arranged on a connecting pipeline of the freshener output pump and the multi-way connector.

9. The high pressure flush device for an automatic cleaning robot of claim 1, further comprising a water absorbing assembly, the water absorbing assembly comprising: a water storage tank arranged on the frame body,

the negative pressure pump is connected with the water storage tank;

the water suction pipe is arranged in parallel with the output pipe;

the water suction head is connected with the spray head.

10. The high pressure flushing device for the automatic cleaning robot as claimed in claim 1, wherein a driving mechanism is connected to the frame body, and the driving mechanism is used for driving the frame body to move in the X direction or/and the Y direction.

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