CN108937812A

CN108937812A - A kind of intelligence cleaning equipment

Info

Publication number: CN108937812A
Application number: CN201810784615.6A
Authority: CN
Inventors: 胡耀骏
Original assignee: Guangzhou Wo'an Industrial Co Ltd
Current assignee: Guangzhou Wo'an Industrial Co Ltd
Priority date: 2018-07-17
Filing date: 2018-07-17
Publication date: 2018-12-07

Abstract

The invention discloses a kind of intelligent cleaning equipments, including bottom case and the horizontal cleaner and erecting brush cleaner that are mounted in bottom case；Wherein, the erecting brush cleaner at least provided with two groups and is spaced setting, and the gap between two adjacent erecting brush cleaners is as boots outer surface clear area；The horizontal cleaner is for cleaning the bottom surface of boots.By that automatically can carry out high-efficiency cleaning to the outer surface of boots and bottom surface with this intelligence cleaning equipment, whole process is cleaned without manual operation, so as to reduce the generation that boots does not wash clean clearly phenomenon.

Description

Intelligent cleaning equipment

Technical Field

The invention relates to cleaning equipment, in particular to intelligent cleaning equipment.

Background

In the industries with high sanitary requirements such as food processing enterprises, beverages, dairy products, pharmacy and the like, cleaning and disinfection work needs to be done to personnel entering a workshop so as to prevent the pollution from bringing bacteria, viruses, dirt and the like into the workshop to pollute the workshop products, cause enterprise loss and increase the sanitary risk. At present, most of traditional cleaning and disinfecting methods adopt modes of manual operation such as a hand washing pool, a disinfecting sprayer, a cement soaking pool and the like, especially for cleaning boots, the mode of manual washing is adopted at present, and the mode of manual washing is adopted.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide intelligent cleaning equipment so as to clean and disinfect personnel entering a workshop conveniently.

In order to achieve the purpose, the technical scheme of the invention is as follows:

an intelligent cleaning device comprises a bottom shell, and a horizontal brush cleaner and a vertical brush cleaner which are arranged in the bottom shell; wherein,

the vertical brush cleaners are at least provided with two groups and are arranged at intervals, and a gap between two adjacent vertical brush cleaners is used as a boot outer surface cleaning area;

the transverse brush cleaner is used for cleaning the bottom surface of the boot.

A partition board is arranged in the bottom shell to divide the bottom shell into two areas, namely a boot cleaning area and a boot disinfection area; the vertical brush cleaner and the horizontal brush cleaner are both arranged in the boot cleaning area, the position where the vertical brush cleaner is arranged is used as an inlet of the intelligent cleaning equipment, and the horizontal brush cleaner is arranged side by side at intervals along the length direction of the bottom shell; the boot disinfection area is used as a disinfection solution soaking pool and is used for disinfecting cleaned boots.

The intelligent cleaning equipment further comprises a gate entrance guard, and the gate entrance guard is arranged at an outlet of the intelligent cleaning equipment.

The vertical brush cleaner comprises a vertical brush, a motor, a transmission belt, a vertical brush protective cover, a cleaning nozzle, a stop wheel set and an output wheel; the vertical brush protective cover is arranged on the outer side of the vertical brush so as to shield the vertical brush from being positioned on the outer side of the outer surface cleaning area of the boot; the stopping wheel set is arranged in the output shaft end of the motor, the output wheel is arranged in the rotating shaft of the vertical brush, and the driving belt is arranged between the stopping wheel set and the output wheel and used for realizing the transmission of the motor and driving the vertical brush to rotate; the cleaning nozzle is communicated with a cleaning solution source and is used for spraying cleaning solution to the bristles of the vertical brush;

the transverse brush cleaner comprises a transverse brush, a motor, a transmission belt, a cleaning nozzle, a stop wheel set and an output wheel; the stopping wheel set is arranged in the output shaft end of the motor, the output wheel is arranged in the rotating shaft of the transverse brush, and the driving belt is arranged between the stopping wheel set and the output wheel and is used for realizing the transmission of the motor and driving the transverse brush to rotate; the cleaning nozzle is communicated with a cleaning liquid source and is used for spraying cleaning liquid to the bristles of the transverse brush.

The stop wheel set comprises an outer rotating body, an inner rotating body, a pressing adjusting rod and a spring; the circumferential side surface of the outer rotating body is used as a mounting position of the transmission belt, a circular groove is formed in the end surface of the outer rotating body, and pressing adjusting rod mounting holes are formed in the circumferential side surface of the circular groove at intervals; the inner rotating body is arranged in the circular groove, the outer diameter of the inner rotating body is smaller than the diameter of the circular groove, and sliding grooves corresponding to the mounting holes of the pressing adjusting rods are arranged in the circumferential side surface of the inner rotating body at intervals; one end of the pressing adjusting rod is arranged in the sliding chute, the other end of the pressing adjusting rod is arranged in the pressing adjusting rod mounting hole, a spring mounting neck ring is convexly arranged in the circumferential side surface of the pressing adjusting rod, the spring is sleeved in the pressing adjusting rod, one end of the spring abuts against the spring mounting neck ring, and the other end of the spring abuts against the circumferential side surface of the circular groove; the output shaft of the motor penetrates through the outer rotating body and is fixedly installed with the inner rotating body.

The locking wheel set further comprises a protective cover, mounting columns are arranged on the end face of the outer rotating body, the end face is provided with the circular grooves, mounting holes corresponding to the mounting columns are formed in the protective cover, and when the mounting holes and the mounting columns are installed in a matched mode, the mounting columns are screwed with nuts so that the protective cover can be fixed in the end face of the outer rotating body.

The hand cleaning box is arranged above a boot disinfection area, a disinfectant nozzle is arranged in the hand cleaning box, and the disinfectant nozzle is communicated with a hand disinfectant source and used for spraying, washing and disinfecting hands.

The intelligent cleaning equipment also comprises a controller, a counter and a photoelectric switch, wherein the photoelectric switch is arranged at the inlet of the intelligent cleaning equipment; a solenoid valve switch is arranged in a pipeline for communicating the cleaning nozzle with the cleaning liquid source, and a hand disinfectant pump is arranged in a pipeline for communicating the disinfectant nozzle with the disinfectant source; a disinfectant outlet is arranged in the boot disinfection area and communicated with a foot disinfectant source, and a foot disinfectant pump is arranged in a pipeline communicated with the disinfectant outlet and the foot disinfectant source; the controller is respectively in signal connection with the photoelectric switch, the gate entrance guard, the motor, the electromagnetic valve switch, the hand disinfection liquid pump and the foot disinfection liquid pump, and when the photoelectric switch detects that a person enters the position of the inlet of the intelligent cleaning equipment, the controller controls the starting of the motor, the hand disinfection liquid pump, the foot disinfection liquid pump and the opening of the electromagnetic valve switch; when the cleaning of the outer surface and the bottom of the boot and the cleaning and disinfection of the boot and the hand are finished, the controller controls the gate entrance guard to automatically unlock, and the counter is respectively in signal connection with the gate entrance guard and the controller and is used for recording the times of the gate entrance guard to automatically unlock; when the boots do not need to be cleaned, the controller controls the vertical brushes and the horizontal brushes to automatically clean at regular time.

And a draining step is arranged at the outlet of the intelligent cleaning equipment.

The bottom of the bottom shell is funnel-shaped, and the sewage draining outlet is arranged at the bottom of the funnel-shaped bottom

Compared with the prior art, the invention has the beneficial effects that:

1. the full-automatic operation is realized, the man-machine interaction is simple, the operation is convenient, and the whole machine is made of stainless steel, so that the machine is firm and durable;

2. the energy consumption is reduced, and the cleaning and disinfection cost of enterprises is reduced;

3. because the machine is used, the problems of inaccurate concentration, uncontrollable personnel and the like in the traditional method are solved;

4. the cleaning and disinfection personnel can be prevented from entering the workshop, and the enterprise risk is reduced.

5. The cleaning machine can clean itself, the whole machine adopts a sanitary design, the risk of storing dirt and dirt is avoided, and the sanitary standard of the equipment is thoroughly improved.

6. The wearing piece is quickly disassembled and designed, so that the maintenance and management are convenient;

7. the machine has compact design, small occupied area and good environmental suitability;

8. the machine has the functions of remote monitoring and data management, realizes the functions of advanced forecasting, remote monitoring, data analysis and the like, and is used as a base station for next big data analysis.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent cleaning apparatus provided in an embodiment of the present invention;

FIG. 2 is a fluid path diagram of an intelligent cleaning apparatus according to an embodiment of the present invention;

FIG. 3 is a rear view of an intelligent cleaning apparatus provided in an embodiment of the present invention;

FIG. 4 is a left side view of an intelligent cleaning apparatus provided in an embodiment of the present invention;

FIG. 5 is a schematic view of a vertical brush or horizontal brush cleaner;

FIG. 6 is a schematic view of the structure of FIG. 5 from another perspective;

FIG. 7 is an exploded view of the locking wheel set;

in the figure: 1. a bottom case; 2. a horizontal brush cleaner; 3. a vertical brush cleaner; 4. gate entrance guard; 5. a handrail; 6. a hand cleaning tank; 7. a controller; 8. draining steps; 9. a grid; 10. a partition plate; 11. a boot cleaning zone; 12. a boot disinfection zone; 13. a sewage draining outlet; 21/31, motor; 22/32, brush body; 23/33, transmission belt; 24/34, cleaning the nozzle; 25/35, stop wheel set; 26/36, output wheel; 37. a vertical brush protective cover; 40. a photoelectric switch; 41/42, electromagnetic valve switch; 43. a hand disinfection liquid pump; 44. a foot disinfectant pump; 61. a disinfectant nozzle; 100. an outer rotor; 101. an inner rotating body; 102. compressing the adjusting rod; 103. a spring; 104. a protective cover; 105. a nut; 120. a disinfectant liquid outlet; 1000. a circular groove; 1001. pressing the adjusting rod mounting hole; 1002. mounting a column; 1010. a chute; 1020. a spring mounting neck ring; 1040. and (7) installing holes.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and detailed description.

Example (b):

referring to fig. 1-4, the complete machine of the intelligent cleaning device provided by the embodiment is made of stainless steel, is firm and durable, has complete functions, is compact in structure, only occupies about 2 square meters of land, is suitable for high-sanitary-requirement industries such as food processing enterprises, beverages, dairy products and pharmacy, and specifically comprises a bottom shell 1, and a transverse brush cleaner 2 and a vertical brush cleaner 3 which are installed in the bottom shell 1.

The three groups of vertical brush cleaners 3 are arranged side by side at intervals and used as inlets of intelligent cleaning equipment, and gaps between two adjacent vertical brush cleaners are used as boot outer surface cleaning areas, namely, the three groups of vertical brush cleaners 3 are provided with two boot outer surface cleaning areas so as to clean the outer surfaces of left and right boots of personnel entering a workshop; the horizontal brush cleaners 2 are provided in two groups and are arranged side by side at intervals along the length direction of the bottom case 1 to clean the bottom surfaces of the left and right boots. This intelligence cleaning equipment when using will be placed the entrance in workshop, so, when personnel need get into the workshop, then must pass through this intelligence cleaning equipment, when personnel get into this intelligence cleaning equipment, then can place left and right feet boots in boot surface cleaning zone, under the effect of upright brush cleaner 3, then can wash the surface of left and right feet boots, the surface of boot finishes the back, then can walk to the region at horizontal brush cleaner 2 place, then place the bottom surface of boot on horizontal brush cleaner 2 can realize wasing the bottom surface of boot. Therefore, the intelligent cleaning equipment can be used for automatically and efficiently cleaning the outer surface and the bottom surface of the boot, and the whole process is not required to be manually cleaned, so that the phenomenon that the boot is not cleaned completely can be reduced.

In addition, in order to prevent the phenomenon that the workers enter the workshop without cleaning the boots, the intelligent cleaning equipment further comprises a gate entrance guard 4, the gate entrance guard 4 is arranged at an outlet of the intelligent cleaning equipment, when the cleaning of the outer surfaces and the bottom surfaces of the boots is completed, the gate entrance guard 4 can be automatically unlocked, and therefore the workers can enter the workshop only when the boots are cleaned, and each worker can be guaranteed to clean the boots. In addition, in order to further improve the cleanliness of workers entering the workshop, a partition plate 10 is further installed in the bottom shell 1 to divide the bottom shell 1 into two areas, namely a boot cleaning area 11 and a boot disinfection area 12, grids 9 are installed in the boot cleaning area 11 and the boot disinfection area 12 to facilitate walking of the workers, the vertical brush cleaner 3 and the horizontal brush cleaner 2 are installed in the boot cleaning area 11, and the boot disinfection area 12 is used as a disinfectant soaking pool for disinfecting cleaned boots, namely, after the boots are cleaned, the workers need to enter the boot disinfection area 12 to soak and disinfect the boots, and the workers can go out of the gate machine 4 after the boot soaking and disinfection are finished. Specifically, in this embodiment, the gate 4 is a triple-roller gate, and when the gate can pass, the indicator light turns green.

Preferably, in order to facilitate the walking of workers on the grating and ensure the walking safety of the workers, handrails 5 are installed on both sides of the bottom case 1 in the length direction. In addition, in order to realize relatively comprehensive disinfection and cleaning of workers, a hand cleaning box 6 is further installed in one handrail 5, the hand cleaning box 6 is located above the boot disinfection area 12, a disinfectant nozzle 61 is arranged in the hand cleaning box 6, and the disinfectant nozzle 61 is communicated with a hand disinfectant source and used for spraying, cleaning and disinfecting hands. Therefore, when the worker stays in the boot disinfection area 12 for soaking and disinfection, the worker can stretch the hands into the hand cleaning box 6 so as to clean and disinfect the hands, time steps for cleaning and disinfection are saved, and the worker can go out of the gate entrance guard 4 only after the outer surface and the bottom of the boot and the cleaning and disinfection of the boot and the hands are finished. In addition, in order to facilitate counting of the number of people entering the workshop, the gate entrance guard 4 is in signal connection with the calculator and used for recording and counting the number of times of gate entrance guard unlocking, the recorded number of times is transmitted to the controller 7, the controller 7 sends related data to a mobile phone or a mailbox of a manager, and the manager can remotely know related conditions.

Specifically, as shown in fig. 5 to 6, the above-described vertical brush cleaner 3 and horizontal brush cleaner 2 are substantially the same in structure, and the same parts each include a motor 21/31, a brush body 22/32, a transmission belt 23/33, a cleaning nozzle 24/34, a stopper wheel group 25/35, and an output wheel 26/36; the stopping wheel set 25/35 is arranged in the output shaft end of the motor 21/31, the output wheel 26/36 is arranged in the rotating shaft of the brush body 22/32, the transmission belt 23/33 is arranged between the stopping wheel set 25/35 and the output wheel 26/36 to realize the transmission of the motor 21/31 and drive the brush body 22/32 to rotate, and the cleaning nozzle 24/34 is communicated with a cleaning liquid source to spray cleaning liquid to the bristles of the brush body 22/32; the difference is that the brush body 22 of the horizontal brush cleaner 2 is horizontally arranged as a horizontal brush, and the brush body 32 of the vertical brush cleaner 3 is vertically arranged as a vertical brush, and in order to prevent workers from wearing standard rubber boots, inserting boots into the vertical brush artificially, or putting foreign matters into the vertical brush, the vertical brush cleaner 3 further comprises a vertical brush protective cover 37, the vertical brush protective cover 37 is arranged on the outer side of the vertical brush to shield the vertical brush from being positioned on the outer side of the outer surface cleaning area of the boots, and the vertical brush protective cover 37 can effectively reduce the occurrence of the miscollowing phenomenon and ensure the use safety.

However, in order to further ensure that the boots, trousers, etc. of the worker are not rolled into the brush body 22/32, the inventor skillfully designs the stopping wheel set 25/35, specifically, as shown in fig. 7, the stopping wheel set 25/35 comprises an outer rotating body 100, an inner rotating body 101, a pressure adjusting rod 102 and a spring 103; wherein, the circumferential side of the outer rotating body 100 is used as the mounting position of the transmission belt 23/33, a circular groove 1000 is opened in the end face of the outer rotating body 100, and four mounting holes 1001 for the pressing adjusting rod are uniformly arranged in the circumferential side of the circular groove 1000 at intervals; the inner rotary body 101 is arranged in the circular groove 1000, the outer diameter of the inner rotary body 101 is smaller than the diameter of the circular groove 1000, and arc-shaped sliding grooves 1010 corresponding to the pressing adjusting rod mounting holes 1001 are arranged in the circumferential side surface of the inner rotary body 101 at intervals; one end of the pressing adjusting rod 102 is arranged in the sliding groove 1010, the end of the pressing adjusting rod where the sliding groove is arranged is semi-spherical so as to slide relative to the sliding groove 1010, the other end of the pressing adjusting rod 102 is arranged in a pressing adjusting rod mounting hole 1001, a spring mounting neck ring 1020 is arranged in the circumferential side face of the pressing adjusting rod 102 in a protruding mode, the spring 103 is sleeved in the pressing adjusting rod 102, one end of the spring 103 abuts against the spring mounting neck ring 1020, and the other end of the spring 103 abuts against the circumferential side face of the circular groove 1000; the output shaft of the motor 21/31 penetrates the outer rotary body 100 and is fixedly mounted with the inner rotary body 101. Thus, under the condition of normal operation, as shown in fig. 3, the motor 21/31 and the stopping wheel set 25/35 operate in a stable transmission manner, that is, the force F borne by the brush 22/32 is less than or equal to the torque force N of the motor, the inner rotating body 101 and the outer rotating body 100 are pressed tightly by the pressing adjusting rod 102 and the spring 103, and the inner rotating body 101 and the outer rotating body 100 are in a stable transmission manner, so as to achieve the transmission effect; under the condition of overload work (namely, an article is involved in the brush body), namely, the force F borne by the brush is greater than the torque force N of the motor, the inner rotating body 101 is driven, meanwhile, the four sliding grooves 1010 of the inner rotating body 101 and the pressing adjusting rod 102 continuously perform a slipping function and are separated from being driven by the outer rotating body 100, and the outer rotating body 100 is not driven at the moment, so that the brush body 22/32 cannot be continuously driven to rotate, the safety protection effect is further realized, and personnel and machines are not damaged.

In addition, in order to prevent the inner rotary body 101 from being separated from the outer rotary body 100, the stopping wheel set 25/35 further includes a protecting cover 104, mounting posts 1002 are spaced apart from each other on the end surface of the outer rotary body 100 where the circular recess 1000 is formed, and mounting holes 1040 corresponding to the mounting posts are formed in the protecting cover 104, and when the mounting holes 1040 and the mounting posts 1002 are fitted, nuts 105 are screwed to the mounting posts to fix the protecting cover 104 in the end surface of the outer rotary body 100. Therefore, the whole locking wheel set is simple in structure, ingenious in design and convenient to maintain, and adopts a detachable structure, so that the use cost is low.

In order to further improve the automation degree of the intelligent cleaning machine, a photoelectric switch 40 is arranged at the inlet of the intelligent cleaning machine, an electromagnetic valve switch 41/42 is arranged in a pipeline for communicating the cleaning nozzle 24/34 with a cleaning liquid source, and a hand disinfection liquid pump 43 is arranged in a pipeline for communicating the disinfection liquid nozzle 61 with a disinfection liquid source; a disinfectant outlet 120 is arranged in the boot disinfection area, the disinfectant outlet 120 is communicated with a foot disinfectant source, and a foot disinfectant pump 44 is arranged in a pipeline for communicating the disinfectant outlet 120 with the foot disinfectant source; the controller 7 is respectively connected with the photoelectric switch 40, the gate entrance guard 4, the motor 21/31, the electromagnetic valve switch 41/42, the hand disinfection liquid pump 43 and the foot disinfection liquid pump 44 in a signal mode, when the photoelectric switch 40 detects that a person enters the position of an inlet of the intelligent cleaning equipment, the controller 7 controls the starting motor 21/31, the hand disinfection liquid pump 43, the foot disinfection liquid pump 44 and the electromagnetic valve switch 41/42 to be opened, namely, the whole cleaning machine can be automatically started; when the cleaning of the outer surface and the bottom of the boot and the cleaning and the disinfection of the boot and the hand are finished, the controller 7 correspondingly controls the gate entrance guard 4 to unlock automatically, and when the boot does not need to be cleaned, the controller 7 can control the vertical brush and the horizontal brush to clean automatically at regular time through a control program, so that manual disassembly is avoided, manual cleaning is not needed, and the cleaning efficiency is high. When the foot disinfection liquid pump 44 is started, the foot disinfection liquid is delivered to the boot disinfection area 12 according to a certain concentration ratio, so that reasonable concentration is automatically configured, and an optimal disinfection effect is achieved. Meanwhile, the controller 7 also sends the statistical data of the energy consumption such as water, cleaning liquid, disinfectant and the like to a manager mobile phone or a mailbox through a remote transmission function.

Staff's boot washs the disinfection and finishes from the back of coming out, and the surface of boot often still can have some water stains, in order to further reduce these water stains and count into the workshop, all is provided with waterlogging caused by excessive rainfall step 8 in this intelligent cleaning equipment's access & exit position department. Meanwhile, in order to discharge the dirt in the shell groove, the bottom of the bottom shell 1 is funnel-shaped, and the drain outlet 13 is arranged at the bottom of the funnel-shaped to reduce the dirt collection.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention accordingly, and not to limit the protection scope of the present invention accordingly. All equivalent changes or modifications made in accordance with the spirit of the present disclosure are intended to be covered by the scope of the present disclosure.

Claims

1. The intelligent cleaning equipment is characterized by comprising a bottom shell, and a horizontal brush cleaner and a vertical brush cleaner which are arranged in the bottom shell; wherein,

2. The intelligent cleaning apparatus according to claim 1, wherein a partition is installed in the bottom case to divide the bottom case into two areas, a boot cleaning area and a boot sterilizing area; the vertical brush cleaner and the horizontal brush cleaner are both arranged in the boot cleaning area, the position where the vertical brush cleaner is arranged is used as an inlet of the intelligent cleaning equipment, and the horizontal brush cleaner is arranged side by side at intervals along the length direction of the bottom shell; the boot disinfection area is used as a disinfection solution soaking pool and is used for disinfecting cleaned boots.

3. The intelligent cleaning apparatus according to claim 1 or 2, further comprising a gate entrance, the gate entrance being disposed at an outlet of the intelligent cleaning apparatus.

4. The intelligent cleaning device according to claim 1 or 2, wherein the vertical brush cleaner comprises a vertical brush, a motor, a transmission belt, a vertical brush protective cover, a cleaning nozzle, a stop wheel set and an output wheel; the vertical brush protective cover is arranged on the outer side of the vertical brush so as to shield the vertical brush from being positioned on the outer side of the outer surface cleaning area of the boot; the stopping wheel set is arranged in the output shaft end of the motor, the output wheel is arranged in the rotating shaft of the vertical brush, and the driving belt is arranged between the stopping wheel set and the output wheel and used for realizing the transmission of the motor and driving the vertical brush to rotate; the cleaning nozzle is communicated with a cleaning solution source and is used for spraying cleaning solution to the bristles of the vertical brush;

5. The intelligent cleaning apparatus according to claim 4, wherein the stopping wheel set comprises an outer rotating body, an inner rotating body, a pressure regulating rod and a spring; the circumferential side surface of the outer rotating body is used as a mounting position of the transmission belt, a circular groove is formed in the end surface of the outer rotating body, and pressing adjusting rod mounting holes are formed in the circumferential side surface of the circular groove at intervals; the inner rotating body is arranged in the circular groove, the outer diameter of the inner rotating body is smaller than the diameter of the circular groove, and sliding grooves corresponding to the mounting holes of the pressing adjusting rods are arranged in the circumferential side surface of the inner rotating body at intervals; one end of the pressing adjusting rod is arranged in the sliding chute, the other end of the pressing adjusting rod is arranged in the pressing adjusting rod mounting hole, a spring mounting neck ring is convexly arranged in the circumferential side surface of the pressing adjusting rod, the spring is sleeved in the pressing adjusting rod, one end of the spring abuts against the spring mounting neck ring, and the other end of the spring abuts against the circumferential side surface of the circular groove; the output shaft of the motor penetrates through the outer rotating body and is fixedly installed with the inner rotating body.

6. The intelligent cleaning device as claimed in claim 5, wherein the stopping wheel set further comprises a protective cover, mounting posts are spaced apart from each other on the end surface of the outer rotating body where the circular groove is formed, mounting holes corresponding to the mounting posts are formed in the protective cover, and when the mounting holes and the mounting posts are fitted, the mounting posts are screwed with nuts to fix the protective cover in the end surface of the outer rotating body.

7. The intelligent washing device as claimed in claim 3, wherein handrails are installed on two sides of the bottom case in the length direction, a hand cleaning box is installed in one of the handrails, the hand cleaning box is located above a boot disinfection area, and a disinfectant nozzle is arranged in the hand cleaning box and communicated with a hand disinfectant source to spray and disinfect hands.

8. The intelligent cleaning apparatus according to claim 7, further comprising a controller, a counter, and a photoelectric switch, the photoelectric switch being disposed at an inlet of the intelligent cleaning apparatus; a solenoid valve switch is arranged in a pipeline for communicating the cleaning nozzle with the cleaning liquid source, and a hand disinfectant pump is arranged in a pipeline for communicating the disinfectant nozzle with the disinfectant source; a disinfectant outlet is arranged in the boot disinfection area and communicated with a foot disinfectant source, and a foot disinfectant pump is arranged in a pipeline communicated with the disinfectant outlet and the foot disinfectant source; the controller is respectively in signal connection with the photoelectric switch, the gate entrance guard, the motor, the electromagnetic valve switch, the hand disinfection liquid pump and the foot disinfection liquid pump, and when the photoelectric switch detects that a person enters the position of the inlet of the intelligent cleaning equipment, the controller controls the starting of the motor, the hand disinfection liquid pump, the foot disinfection liquid pump and the opening of the electromagnetic valve switch; when the cleaning of the outer surface and the bottom of the boot and the cleaning and disinfection of the boot and the hand are finished, the controller controls the gate entrance guard to automatically unlock, and the counter is respectively in signal connection with the gate entrance guard and the controller and is used for recording the times of the gate entrance guard to automatically unlock; when the boots do not need to be cleaned, the controller controls the vertical brushes and the horizontal brushes to automatically clean at regular time.

9. The intelligent cleaning apparatus according to claim 3, wherein a draining step is provided at an outlet position of the intelligent cleaning apparatus.

10. The intelligent cleaning equipment as claimed in claim 1 or 2, wherein the bottom of the bottom shell is funnel-shaped, and the sewage draining outlet is arranged at the bottom of the funnel-shaped.