CN216962681U

CN216962681U - Multifunctional cleaning integrated machine

Info

Publication number: CN216962681U
Application number: CN202121831381.XU
Authority: CN
Inventors: 王佩英
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-06
Filing date: 2021-08-06
Publication date: 2022-07-15
Anticipated expiration: 2031-08-06

Abstract

The utility model provides at least one multifunctional cleaning all-in-one machine, in particular a multifunctional cleaning all-in-one machine at least used for cleaning and nursing teeth, and/or slits between teeth, and/or oral cavities, and/or nasal cavities, and/or ear cavities of people or animals, at least comprising a shell, an actuating device, and/or a driving device, and/or a transmission device, and/or a hydraulic pump, and/or a pneumatic pump, and/or an energy storage device, and/or a water tank, and/or an air storage tank, and/or a sand bin, and/or a one-way valve, and/or a fluid valve, and/or a filter, and/or a controller, and/or a battery, and/or a detection device, and/or a vibration damping device, the shell is directly or indirectly combined and connected with the modules or the devices, and can realize various cleaning and nursing functions. Compared with the prior art, the utility model has the advantages of multiple functions, small volume, light weight, simple structure, high cost performance and low manufacturing cost.

Description

Multifunctional cleaning integrated machine

Technical Field

The utility model relates to at least one multifunctional cleaning all-in-one machine, in particular to a multifunctional cleaning all-in-one machine which is at least used for cleaning and nursing teeth, and/or slits between teeth, and/or oral cavity, and/or nasal cavity, and/or ear cavity of people or animals.

Background

Along with the increasing standard of living, more and more personal cleaning supplies are gushed into people's daily life: electric toothbrushes, interdental brushes, orthodontic toothbrushes … …, and even many of the special cleaning devices that have been used in hospitals or professional medical institutions in the past, such as electric dental flosses, nasal irrigators, ear irrigators, sand blasting tooth cleaners, etc., are gradually entering the families of ordinary people, thereby greatly facilitating people's lives.

However, many personal cleansing products are single in function, and a specific cleaner can only achieve a specific function. Also, since most cleaners are limited to personal use and cannot be shared among family members, if each person of a family member has a need for use, a large number of similar products are purchased. This not only occupies a limited space for placing in a home, but also occupies a large amount of expenses for the home, thereby further limiting the wide use of various cleaners.

Thus, an all-in-one machine integrating an electric toothbrush and an electric dental floss has emerged. However, the conventional integrated machine is actually a simple combination of the electric toothbrush and the electric dental floss, and the electric toothbrush and the electric dental floss are respectively driven by two power sources, which not only causes power and configuration waste, but also causes the integrated machine to have higher cost. In addition, the existing integrated machine only has two functions of electric tooth cleaning and tooth gap flushing, and does not have the functions of cleaning the nasal cavity and the ear cavity.

Therefore, if the functions of the commonly used cleaners are integrated into one machine, the limited household placing space is saved, a large amount of expenditure is saved for the whole household, the market space of the cleaners can be further expanded, and high-quality and low-price commodities are provided for more people.

Disclosure of Invention

The present invention has been made in view of the above problems occurring in the conventional cleaner. The utility model aims to provide a plurality of multifunctional integrated cleaning machines at least used for cleaning and nursing teeth, and/or slits between teeth, and/or oral cavity, and/or nasal cavity, and/or ear cavity of people or animals.

The utility model is realized by the following scheme:

multifunctional cleaning all-in-one machine MC at least comprises: the housing EH, the actuator ED, and/or the drive DM, and/or the transmission TM, and/or the hydraulic pump HP, and/or the pneumatic pump AP, and/or the energy storage ES, and/or the water reservoir WT, and/or the air reservoir AT, and/or the sand silo SS, and/or the non-return valve CV, and/or the fluid valve LV, and/or the filter FF, and/or the controller CS, and/or the battery EB, and/or the detection device, and/or the damping device. The housing EH is at least configured as a base, and/or as a mounting, and/or as a connection, and/or as a support, and/or as a fastening, and/or as a peripheral envelope of the all-in-one cleaning machine MC. And/or the housing EH is configured to at least function to connect to, and/or mount, and/or locate, and/or support, and/or envelope, the components of the all-in-one multi-function cleaning machine MC. And/or said housing EH is configured to have at least the function of being directly or indirectly fixable with respect to a human hand, and/or an operating table, and/or a wall of a mounting room. And/or the housing EH is configured to function at least as a modular connection and assembly. And/or the housing EH includes at least one or more devices. And/or the housing EH comprises at least one component. The actuator ED is arranged in the housing EH or is connected to the housing EH. And/or the actuating device ED is configured at least to have a function of cleaning or caring for the teeth. And/or the actuating device ED is configured at least to have the function of cleaning or caring for teeth directly or indirectly by means of a toothbrush. And/or the actuating device ED is configured at least with the function of spraying water directly or indirectly through the toothbrush in order to clean or care for the teeth. And/or the actuating device ED is configured at least with the function of cleaning or caring for the teeth by spraying directly or indirectly through the toothbrush. And/or the actuating device ED is configured at least with the function of spraying a water-air mixture directly or indirectly through the toothbrush in order to clean or care for the teeth. And/or the actuating device ED is configured at least with the function of cleaning or caring for the teeth by means of a jet of air directly or indirectly through the toothbrush. And/or the actuating device ED is configured at least to have the function of cleaning or caring for interdental spaces. And/or the actuator ED is configured to have at least the function of spraying water directly or indirectly through the spray head in order to clean or care for interdental spaces. And/or the actuator ED is configured to have at least the function of spraying directly or indirectly through the spray head in order to clean or care for interdental spaces. And/or the actuator ED is configured to have at least the function of spraying a mixture of water and air directly or indirectly through the spray head in order to clean or care for interdental spaces. And/or the actuator ED is configured to have at least the function of blowing air directly or indirectly through the nozzle head in order to clean or care for interdental spaces. And/or the actuator ED is configured to at least function to clean or care for interdental spaces directly or indirectly by means of an interdental brush. And/or the actuator ED is configured to have at least the function of spraying water directly or indirectly through the interdental brush to clean or care interdental spaces. And/or the actuator ED is configured to have at least the function of spraying directly or indirectly through the spray head in order to clean or care for interdental spaces. And/or the actuator ED is configured to have at least the function of spraying a mixture of water and air directly or indirectly through the spray head in order to clean or care for interdental spaces. And/or the actuator ED is configured to have at least the function of blowing air directly or indirectly through the nozzle head in order to clean or care for interdental spaces. And/or the actuating device ED is configured at least to have the function of cleaning or caring for the oral cavity. And/or the actuating device ED is configured at least with the function of spraying water directly or indirectly through the spray head in order to clean or care for the oral cavity. And/or the actuating device ED is configured at least with the function of spraying directly or indirectly through the spray head in order to clean or care for the oral cavity. And/or the actuating device ED is configured at least with the function of injecting a water-air mixture directly or indirectly via the spray head in order to clean or care for the oral cavity. And/or the actuator ED is configured to have at least the function of blowing air directly or indirectly through the nozzle head in order to clean or care for the oral cavity. And/or the actuating device ED is configured at least to have a function of cleaning or caring for the ear cavity. And/or the actuating device ED is configured at least with the function of spraying water directly or indirectly via the spray head in order to clean or care for the ear cavity. And/or the actuating device ED is configured at least with the function of spraying directly or indirectly through the spray head in order to clean or care for the ear cavity. And/or the actuating device ED is configured at least with the function of spraying a mixture of water and air directly or indirectly via the spray head in order to clean or care for the ear cavity. And/or the actuator ED is configured at least to have the function of blowing air directly or indirectly through the nozzle head in order to clean or care for the ear cavity. And/or the actuating device ED is configured at least to have a function of cleaning or caring for the nasal cavity. And/or the actuating device ED is configured at least with the function of spraying water directly or indirectly through the spray head in order to clean or care for the nasal cavity. And/or the actuating device ED is configured at least with the function of spraying directly or indirectly through the spray head in order to clean or care for the nasal cavity. And/or the actuator ED is configured at least with the function of spraying a mixture of water and air directly or indirectly through the spray head, so as to clean or care for the nasal cavity. And/or the actuator ED is configured at least with the function of blowing air directly or indirectly through the nozzle head in order to clean or care for the nasal cavity. And/or the actuating device ED is configured at least to have the function of cleaning or caring for the orthodontic retainer. And/or the actuating device ED is configured at least to have the function of cleaning or caring for teeth directly or indirectly by means of orthodontic brushes. And/or the actuating device ED is configured at least with the function of spraying water directly or indirectly through the orthodontic brush in order to clean or care for the teeth. And/or the actuating device ED is configured at least with the function of spraying directly or indirectly through the orthodontic brush in order to clean or care for the teeth. And/or the actuating device ED is configured at least with the function of spraying a mixture of water and air directly or indirectly through the orthodontic brush, so as to clean or care for the teeth. And/or the actuating device ED is configured at least with the function of blowing air directly or indirectly through the orthodontic brush in order to clean or care for the teeth. And/or the actuating device ED is configured at least to function as an orthodontic retainer for cleaning or caring for teeth directly or indirectly by means of orthodontic brushes. And/or the actuating device ED is configured at least with the function of spraying water directly or indirectly through the orthodontic brush in order to clean or care for the orthodontic retainers. And/or the actuating device ED is configured to have at least the function of spraying directly or indirectly through the orthodontic brush to clean or care for the orthodontic retainers. And/or the actuating device ED is configured at least with the function of spraying a mixture of water and air directly or indirectly through the orthodontic brush in order to clean or care the orthodontic retainer. And/or the actuating device ED is configured at least to have the function of blowing air directly or indirectly through the orthodontic brush in order to clean or care the orthodontic retainers. And/or the actuating device ED is configured at least to have the function of cleaning or caring for dentures. And/or the actuation device ED is configured at least with the function of displaying the status of the hair follicle. And/or the actuator ED is configured at least with a function of massaging the skin. And/or the actuator ED is configured to have at least a function of massaging the gums. And/or the actuator ED is configured to have at least the function of massaging the gums by spraying water directly or indirectly through the spray head. And/or the actuator ED is configured to have at least the function of massaging the gums by spraying directly or indirectly through the spray head. And/or the actuator ED is configured to have at least the function of massaging the gums by injecting a water-air mixture directly or indirectly through the nozzles. And/or the actuator ED is configured to have at least the function of massaging the gums by blowing air directly or indirectly through the nozzles. And/or the actuator ED is configured to have at least the function of massaging the mouth. And/or the actuator ED is configured to have at least the function of massaging the oral cavity by spraying water directly or indirectly through the spray head. And/or the actuator ED is configured to have at least the function of massaging the mouth by spraying directly or indirectly through the spray head. And/or the actuator ED is configured to have at least the function of massaging the gums by injecting a water-air mixture directly or indirectly through the nozzles. And/or the actuator ED is configured to have at least the function of massaging the gums by blowing air directly or indirectly through the nozzles. And/or the actuator ED is configured at least with a function of massaging the nasal cavity. And/or said actuating means ED are configured at least with the function of massaging the nasal cavity by spraying water directly or indirectly through the spray head. And/or the actuator ED is configured at least with the function of massaging the nasal cavity by spraying directly or indirectly through the spray head. And/or said actuating means ED are configured to have at least the function of massaging the nasal cavity by injecting a mixture of water and air directly or indirectly through the nozzle. And/or the actuator ED is configured at least to have the function of massaging the nasal cavity by blowing air directly or indirectly through the nozzle. And/or the actuator ED is configured at least to have the function of massaging the ear cavity. And/or said actuator ED is configured at least with the function of massaging the ear cavity by spraying water directly or indirectly through the spray head. And/or the actuator ED is configured at least to have the function of massaging the ear cavity by spraying directly or indirectly through the spray head. And/or said actuating means ED are configured to have at least the function of massaging the nasal cavity by injecting a mixture of water and air directly or indirectly through the nozzle. And/or the actuator ED is configured at least to have the function of massaging the nasal cavity by blowing air directly or indirectly through the nozzle. And/or said actuating means ED are configured to have at least the function of driving the tooth-brushing head directly or indirectly by means of mechanical energy, so as to obtain a vibration, and/or oscillation, and/or rotation, and/or movement, and/or water spraying, and/or mist spraying, and/or water-air mixture spraying, and/or air jet of the tooth-brushing head. And/or said actuating means ED are configured to have at least the function of driving the interdental brush head directly or indirectly by means of mechanical energy, so as to achieve a vibration, and/or oscillation, and/or rotation, and/or movement, and/or water spraying, and/or mist spraying, and/or water-air mixture spraying, and/or air jet of the interdental brush head. And/or said actuating device ED is configured to have at least the function of driving the orthodontic brushhead directly or indirectly by mechanical energy, so as to achieve a vibration, and/or oscillation, and/or rotation, and/or movement, and/or water spraying, and/or mist spraying, and/or water-air mixture spraying, and/or air blasting of the orthodontic brushhead. And/or said actuating means ED are configured at least with the function of driving the tooth brush head directly or indirectly by means of hydraulic energy so as to obtain a vibration, and/or oscillation, and/or rotation, and/or movement, and/or water spray, and/or mist spray, and/or water-air mixture, and/or air jet of the tooth brush head. And/or said actuating means ED are configured to have at least the function of driving the interdental brush head directly or indirectly by hydraulic energy, so as to achieve a vibration, and/or oscillation, and/or rotation, and/or movement, and/or water spraying, and/or mist spraying, and/or water-air mixture spraying, and/or air jet of the interdental brush head. And/or said actuating device ED is configured to have at least the function of driving the orthodontic brushhead directly or indirectly by hydraulic energy, so as to achieve the oscillation, and/or rotation, and/or movement, and/or water spraying, and/or mist spraying, and/or water-air mixture spraying, and/or air blowing of the orthodontic brushhead. And/or said actuating means ED are configured at least with the function of driving the dental brush head directly or indirectly by means of pneumatic energy so as to obtain a vibration, and/or oscillation, and/or rotation, and/or movement, and/or air injection, and/or water injection, and/or mist injection, and/or water-air mixture injection, and/or air injection of the dental brush head. And/or said actuating means ED are configured at least with the function of driving the interdental brush head directly or indirectly by means of pneumatic energy, so as to obtain a vibration, and/or oscillation, and/or rotation, and/or movement, and/or air injection, and/or water injection, and/or mist injection, and/or water-air mixture injection, and/or air injection of the interdental brush head. And/or said actuating means ED are configured to at least have the function of driving the orthodontic brushhead directly or indirectly by means of pneumatic energy, so as to obtain a vibration, and/or oscillation, and/or rotation, and/or movement, and/or air injection, and/or water injection, and/or mist injection, and/or water-air mixture injection, and/or air injection of the orthodontic brushhead. And/or the actuating device ED is configured at least to have the function of driving the spray head to spray water directly or indirectly through mechanical energy. And/or the actuating device ED is configured at least with the function of driving the spray head to spray water directly or indirectly through hydraulic energy. And/or the actuating device ED is configured to have at least the function of driving the spray head to spray water directly or indirectly by means of pneumatic energy. And/or the actuating device ED is configured at least to have the function of driving the spray head to spray directly or indirectly by means of mechanical energy. And/or the actuating device ED is configured at least to function as a spray head driven directly or indirectly by hydraulic energy. And/or the actuating device ED is configured at least with the function of driving the spray head to spray, directly or indirectly by means of pneumatic pressure. And/or the actuating device ED is configured at least with the function of driving the spray head directly or indirectly by means of mechanical energy to spray the water-air mixture. And/or the actuator ED is configured at least with the function of injecting the water-air mixture directly or indirectly through the hydraulic energy driven nozzle. And/or the actuating device ED is configured to have at least the function of driving the spray head to spray the water-air mixture directly or indirectly through air pressure. And/or the actuator ED is configured to have at least the function of driving the nozzle to inject air directly or indirectly by means of mechanical energy. And/or the actuator ED is configured to have at least the function of driving the spray head to spray air directly or indirectly through hydraulic energy. And/or the actuating device ED is configured to have at least the function of driving the spray head to spray air directly or indirectly by means of air pressure. And/or the actuating device ED is configured at least with the function of driving the blasting head directly or indirectly by means of mechanical energy. And/or the actuating device ED is configured at least with the function of blasting sand directly or indirectly by means of hydraulically powered nozzles. And/or the actuating device ED is configured at least with the function of driving the jet head to blast sand directly or indirectly by means of pneumatic energy. And/or the actuator ED is configured at least to have the function of driving the nozzle directly or indirectly by means of mechanical energy to spray the air-sand mixture. And/or the actuator ED is configured at least to have the function of injecting the air-sand mixture directly or indirectly through a hydraulic energy-driven nozzle. And/or said actuating device ED is configured at least with the function of driving the spraying head to spray the air-sand mixture, directly or indirectly by means of pneumatic energy. And/or the actuating device ED is configured at least to have the function of driving the spray head to spray the water-air-sand mixture directly or indirectly through mechanical energy. And/or the actuating device ED is configured at least to function directly or indirectly by means of hydraulic energy to drive the spray head to spray the water-air-sand mixture. And/or the actuating device ED is configured to have at least the function of driving the spray head to spray the water-air-sand mixture directly or indirectly through air pressure. And/or the actuating device ED is configured at least to have the function of driving the spray head directly or indirectly by means of mechanical energy to spray the mist-sand mixture. And/or the actuator ED is configured at least to have the function of driving the spray head directly or indirectly through hydraulic energy to spray the fog and sand mixture. And/or the actuating device ED is configured at least to have the function of driving the spray head to spray the sand-mist mixture directly or indirectly by means of pneumatic energy. And/or the actuating device ED is configured at least with the function of driving the suction head to suck water directly or indirectly by means of mechanical energy. And/or the actuating device ED is configured at least with the function of driving the suction nozzle to suck water directly or indirectly by means of hydraulic energy. And/or the actuating device ED is configured to have at least the function of driving the suction head to suck water directly or indirectly by means of pneumatic energy. And/or the actuating device ED is configured at least with the function of driving the suction head to suck sand directly or indirectly by means of mechanical energy. And/or the actuating device ED is configured at least with the function of driving the suction head to suck sand directly or indirectly by means of hydraulic energy. And/or the actuating device ED is configured at least to have the function of driving the suction head to suck sand directly or indirectly by means of pneumatic energy. And/or the actuating device ED is configured at least with the function of driving the suction head away from the air-sand mixture, directly or indirectly via mechanical energy. And/or the actuator ED is configured at least with the function of driving the suction head away the air-sand mixture directly or indirectly by means of hydraulic energy. And/or said actuating device ED is configured at least with the function of driving the suction head, directly or indirectly by means of pneumatic energy, to suck away the air-sand mixture. And/or the actuating device ED is configured at least with the function of driving the suction head directly or indirectly by means of mechanical energy to suck off the water-sand mixture. And/or the actuating device ED is configured at least with the function of driving the suction head to suck off the water-sand-water mixture directly or indirectly by means of hydraulic energy. And/or the actuating device ED is configured at least with the function of driving the suction head to suck the water-sand-water mixture directly or indirectly by means of pneumatic pressure. And/or the actuating device ED is configured at least with the function of driving the grater directly or indirectly by means of mechanical energy in order to grind the teeth. And/or the actuating device ED is configured at least with the function of driving the grater directly or indirectly via hydraulic energy in order to grind the teeth. And/or the actuating device ED is configured at least with the function of driving the grater directly or indirectly by means of pneumatic energy in order to polish the teeth. And/or the actuator ED is configured to have at least the function of driving a polishing head directly or indirectly by means of mechanical energy in order to polish the teeth. And/or the actuator ED is configured to have at least the function of driving a polishing head directly or indirectly by means of hydraulic energy in order to polish the teeth. And/or the actuating device ED is configured at least with the function of driving a polishing head directly or indirectly by means of pneumatic energy in order to polish the teeth. And/or the actuating device ED is configured at least with the function of driving the drill directly or indirectly by means of mechanical energy in order to drill a hole in a tooth. And/or the actuating device ED is configured at least with the function of driving the drill directly or indirectly via hydraulic energy in order to drill a hole in a tooth. And/or the actuating device ED is configured at least with the function of driving the drill directly or indirectly by means of pneumatic energy in order to drill a hole in a tooth. And/or the actuator ED is configured to have at least the function of driving the massage heads directly or indirectly by means of mechanical energy in order to massage the skin. And/or the actuator ED is configured to have at least the function of driving the massage heads directly or indirectly via hydraulic energy in order to massage the skin. And/or the actuator ED is configured to have at least the function of driving the massage heads directly or indirectly by means of pneumatic pressure in order to massage the skin. And/or the actuator ED is configured to have at least the function of driving the massage heads directly or indirectly by means of mechanical energy so as to massage the gums. And/or the actuator ED is configured to have at least the function of driving the massage heads directly or indirectly by means of hydraulic energy so as to massage the gums. And/or the actuator ED is configured to have at least the function of driving the massage head directly or indirectly by means of pneumatic energy to massage the gums. And/or the actuator ED is configured to have at least the function of driving the massage heads directly or indirectly by means of mechanical energy so as to massage the oral cavity. And/or the actuator ED is configured to have at least the function of driving the massage heads directly or indirectly by hydraulic energy to massage the oral cavity. And/or the actuator ED is configured to have at least the function of driving the massage head directly or indirectly by means of pneumatic energy to massage the oral cavity. And/or the actuator ED is configured to have at least the function of massaging the nasal cavity by driving the massaging heads directly or indirectly by means of mechanical energy. And/or the actuation means ED are configured at least to have the function of driving the massage heads directly or indirectly by means of hydraulic energy, so as to massage the nasal cavities. And/or the actuator ED is configured to have at least the function of driving the massage heads directly or indirectly by pneumatic pressure, so as to massage the nasal cavities. And/or the actuator ED is configured to have at least the function of driving the massage heads directly or indirectly by means of mechanical energy in order to massage the ear cavity. And/or the actuator ED is configured to have at least the function of driving the massage heads directly or indirectly via hydraulic energy in order to massage the ear cavity. And/or said actuating means ED are configured at least to have the function of driving the massage heads directly or indirectly by pneumatic energy, so as to massage the ear cavities. And/or the actuator ED is configured to have at least the function of massaging the gums by spraying water directly or indirectly through the spray head. And/or the actuator ED is configured to have at least the function of massaging the oral cavity by spraying water directly or indirectly through the spray head. And/or said actuating means ED are configured at least with the function of massaging the nasal cavity by spraying water directly or indirectly through the spray head. And/or said actuator ED is configured at least with the function of massaging the ear cavity by spraying water directly or indirectly through the spray head. And/or said actuator ED is configured at least with the function of massaging the skin by spraying water directly or indirectly through the spray head. And/or the actuator ED is configured to have at least the function of massaging the gums by blowing air directly or indirectly through the nozzles. And/or the actuator ED is configured to have at least the function of massaging the oral cavity by blowing air directly or indirectly through the nozzle. And/or the actuator ED is configured at least to have the function of massaging the nasal cavity by blowing air directly or indirectly through the nozzle. And/or the actuator ED is configured to have at least the function of massaging the ear cavity by blowing air directly or indirectly through the nozzle. And/or the actuator ED is configured to have at least the function of massaging the skin by blowing air directly or indirectly through the nozzle. And/or the actuator ED is configured to have at least the function of massaging the gums by injecting a water-air mixture directly or indirectly through the nozzles. And/or said actuator means ED are configured to have at least the function of massaging the oral cavity by injecting a mixture of water and air directly or indirectly through the nozzle. And/or said actuating means ED are configured to have at least the function of massaging the nasal cavity by injecting a mixture of water and air directly or indirectly through the nozzle. And/or said actuator means ED are configured at least to have the function of massaging the ear cavity by spraying a mixture of water and air directly or indirectly through the spray head. And/or said actuator ED is configured at least with the function of massaging the skin by spraying a water-air mixture directly or indirectly through a spray head. And/or the actuating device ED is configured at least with the function of cleaning or caring for the teeth by blasting directly or indirectly through the nozzle. And/or the actuating device ED is configured at least with the function of spraying a gas-sand mixture directly or indirectly through a spray head in order to clean or care for the teeth. And/or the actuating device ED is configured at least with the function of spraying a water-air-sand mixture directly or indirectly through a spray head in order to clean or care for teeth. And/or the actuator ED is configured to have at least the function of directly or indirectly transmitting the state of the teeth, and/or the crevices of the teeth, and/or the oral cavity, and/or the nasal cavity, and/or the ear cavity, and/or the hair follicles to the all-in-one machine MC. And/or the actuator ED is configured to have at least the function of directly or indirectly transmitting information of teeth, and/or slits between teeth, and/or oral cavity, and/or nasal cavity, and/or ear cavity, and/or hair follicle to the all-in-one machine MC. And/or the actuator ED is configured with at least the function of directly or indirectly displaying the state of the teeth, and/or the interdental spaces, and/or the oral cavity, and/or the nasal cavity, and/or the ear cavity, and/or the hair follicles to the operator. And/or the actuator ED is configured with at least the function of displaying information directly or indirectly to the operator of the teeth, and/or the interdental spaces, and/or the oral cavity, and/or the nasal cavity, and/or the ear cavity, and/or the hair follicles. And/or the actuator ED is configured at least with the function of directly or indirectly emitting and/or receiving laser light in a certain wavelength range. And/or the actuator ED is configured at least with the function of directly or indirectly emitting and/or receiving infrared radiation in a certain wavelength range. And/or the actuator ED is configured at least with the function of directly or indirectly emitting and/or receiving ultraviolet radiation in a certain wavelength range. And/or the actuator ED is configured at least to directly or indirectly emit and/or receive light in a certain wavelength range. And/or the actuating device ED is configured at least with the functionality of a wireless and/or wired network connection. And/or the actuator ED is configured at least to transmit and/or receive wireless signals. And/or the actuator ED is configured at least to transmit and/or receive wired signals. And/or the execution means ED are configured at least with the function of establishing a local area network. And/or the actuator ED is configured at least with the function of directly or indirectly transferring data. And/or the actuating device ED is configured at least with the function of receiving data directly or indirectly. And/or the actuating device ED is configured at least with the function of sending data directly or indirectly. And/or the actuating device ED is configured at least with the function of processing data directly or indirectly. And/or the actuator ED is configured at least to function directly or indirectly to take pictures. And/or the actuating device ED is configured at least to have the function of recording video directly or indirectly. And/or the actuating device ED is configured to have at least the function of displaying and processing pictures. And/or the execution means ED are configured at least with video display and processing functions. And/or the actuating device ED is configured at least with the function of directly or indirectly visualizing the operating process. And/or the actuating device ED is configured at least with a selectively exchangeable function. And/or the actuating device ED is configured at least as a modular connection and assembly function. And/or said executing means ED comprise at least one or more means. And/or said actuating device ED comprises at least one component. And/or the drive device DM is arranged in or connected to the housing EH. And/or the drive means DM is at least configured as a power source for the all-in-one multipurpose cleaning machine MC. And/or the driving device DM is directly or indirectly connected with the human power MP. And/or the drive means DM are directly or indirectly connected to the electric power EP. And/or the human power MP is a human input power. And/or the electric power EP is an external power supply. And/or the driving means DM is configured to have at least a function of directly or indirectly converting the human power MP into a power for driving the multipurpose cleaning all-in-one MC. And/or the driving means DM is configured to have at least a function of directly or indirectly converting the electric power EP into power for driving the all-in-one multifunction cleaning machine MC. And/or the driving means DM is configured to have at least a function of directly or indirectly converting the internal energy or the chemical energy into power for driving the multipurpose cleaning all-in-one MC. And/or the driving means DM is configured to have at least a function of directly or indirectly converting the internal energy or chemical energy into mechanical energy for driving the multipurpose cleaning all-in-one MC. And/or the driving means DM is configured to have at least a function of directly or indirectly converting the internal energy or chemical energy into hydraulic energy for driving the multifunctional cleaning all-in-one MC. And/or the driving means DM is configured to have at least a function of directly or indirectly converting the internal energy or chemical energy into pneumatic energy for driving the multifunction cleaning all-in-one MC. And/or the driving device DM is configured to have at least a function of directly or indirectly converting electric energy into power for driving the multifunctional cleaning all-in-one MC. And/or the driving means DM is configured to have at least a function of directly or indirectly converting electric energy into mechanical energy for driving the multipurpose cleaning all-in-one MC. And/or the driving means DM is configured to have at least a function of directly or indirectly converting electric energy into hydraulic energy for driving the multipurpose cleaning all-in-one MC. And/or the driving device DM is configured to have at least a function of directly or indirectly converting the electric energy into the pneumatic energy for driving the multifunction cleaning all-in-one machine MC. And/or the drive means DM are configured to have at least a selectively replaceable function. And/or the driving device DM is configured to have at least a function of modular connection and assembly. And/or said driving means DM comprise at least one or more devices. And/or said driving means DM comprises at least one component. And/or the transmission TM is disposed within or connected to the housing EH. And/or the transmission TM is configured to have at least a function of transmitting power. And/or the transmission TM is configured to function as at least one transmission ratio. And/or the transmission TM is configured to function at least as a plurality of transmission ratios. And/or the transmission TM is configured to transmit power at least over a range of transmission ratios. And/or the transmission TM is configured to function at least as a power split. And/or the transmission TM is configured to function at least as a power combining device. And/or the transmission TM is configured to function at least as a multiple power input. And/or the transmission TM is configured to function at least as a multiple power output. And/or the transmission TM is configured to have at least a function of manual shifting. And/or the transmission TM is configured to have at least an automatic shifting function. And/or the transmission TM is configured to have at least a selectively replaceable function. And/or the transmission TM is configured to have at least the function of modular connection and assembly. And/or said transmission TM comprises at least one or more devices. And/or said transmission TM comprises at least one component. And/or the hydraulic pump HP is disposed within or connected to the housing EH. And/or said hydraulic pump HP is configured at least with the function of converting mechanical energy directly or indirectly into hydraulic energy. And/or said hydraulic pump HP is configured at least with the function of converting pneumatic energy directly or indirectly into hydraulic energy. And/or the hydraulic pump HP is configured at least with a selectively replaceable function. And/or the hydraulic pump HP is configured at least with the function of modular connection and assembly. And/or said hydraulic pump HP comprises at least one or more pumps. And/or said hydraulic pump HP comprises at least one component. And/or the pneumatic pump AP is disposed within or connected to the housing EH. And/or the pneumatic pump AP is configured to have at least a function of directly or indirectly converting mechanical energy into pneumatic energy. And/or the pneumatic pump AP is configured to have at least a function of directly or indirectly converting hydraulic energy into pneumatic energy. And/or the pneumatic pump AP is configured to have at least a selectively replaceable function. And/or the pneumatic pump AP is configured to have at least a function of modular connection and assembly. And/or said pneumatic pump AP comprises at least one or more pumps. And/or the pneumatic pump AP comprises at least one component. And/or the energy accumulator ES is arranged in the housing EH or is connected to the housing EH. And/or the energy storage ES is configured to at least function to store hydraulic energy directly or indirectly. And/or the energy storage ES is configured to at least function to store air pressure energy, either directly or indirectly. And/or the accumulator ES is configured to at least function to store fluid energy, directly or indirectly. And/or the energy storage ES is configured at least with the function of directly or indirectly reducing pressure shocks. And/or the accumulator ES is configured to at least function to directly or indirectly reduce or increase fluid pulsations. And/or the accumulator ES is configured to have at least a function of directly or indirectly maintaining a constant pressure within a certain range. And/or the energy storage ES is configured at least with a selectively replaceable function. And/or the energy storage ES is configured to have at least the function of modular connection and assembly. And/or the energy storage ES comprises at least one or more devices. And/or the energy storage ES comprises at least one component. And/or the water tank WT is provided in or connected to the housing EH. And/or said tank WT is configured to at least function to store liquid, directly or indirectly. And/or the tank WT is configured to at least function to filter liquid, directly or indirectly. And/or the tank WT is configured to have at least a function of directly or indirectly maintaining a certain degree of cleanliness of the liquid. And/or the tank WT is configured to at least function to directly or indirectly maintain the temperature of the liquid within a certain temperature range. And/or said tank WT is configured at least to function directly or indirectly to heat a liquid to a temperature range. And/or the water tank WT is configured to function at least to directly or indirectly cool the liquid to a temperature range. And/or the water tank WT is configured to have at least a selectively replaceable function. And/or the water tank WT is constructed to have at least a function of modular connection and assembly. And/or said tank WT comprises at least one or more devices. And/or said tank WT comprises at least one component. And/or the sand silo SS is arranged in the shell EH or is connected with the shell EH. And/or the sand silo SS is configured to at least function to store particulate solids. And/or the sand silo SS is configured to function at least directly or indirectly to filter particulate solids within a range of sizes. And/or the sand silo SS is configured to at least function to directly or indirectly maintain a certain dryness of the granular solids. And/or the sand silo SS is configured to at least function to directly or indirectly maintain a moisture content of the granular solids. And/or the sand silo SS is configured to be at least selectively replaceable. And/or the sand silo SS is configured to function at least as a modular connection and assembly. And/or the sand silo SS comprises at least one or more devices. And/or the sand silo SS comprises at least one component. And/or the air storage tank AT is arranged in the shell EH or is connected with the shell EH. And/or the gas reservoir AT is configured to AT least function to store gas directly or indirectly. And/or the air reservoir AT is configured to have AT least the function of filtering dust in a certain size range directly or indirectly. And/or the gas container AT is configured to have AT least the function of directly or indirectly keeping the gas AT a certain dryness. And/or the gas container AT is configured to have AT least the function of directly or indirectly maintaining a certain water content of the gas. And/or the air reservoir AT is configured to have AT least a selectively replaceable function. And/or the gas tank AT is configured to have AT least the function of modular connection and assembly. And/or said gas tank AT comprises AT least one or more devices. And/or the air reservoir AT comprises AT least one component. And/or the check valve CV is provided in or connected to the housing EH. And/or the one-way valve CV is configured to have at least the function of directly or indirectly allowing the free flow of fluid in one direction and blocking the flow in the opposite direction. And/or the one-way valve CV is configured to have at least a function of selectively causing a one-way flow of fluid directly or indirectly. And/or the one-way valve CV is configured to have at least a function of selectively blocking the flow of the fluid in one direction directly or indirectly. And/or said one-way valve CV is configured at least with a selectively replaceable function. And/or the non-return valve CV is configured to have at least the function of modular connection and assembly. And/or said one-way valve CV comprises at least one or more devices. And/or said check valve CV comprises at least one component. And/or the fluid valve LV is disposed within or connected to the housing EH. And/or the fluid valve LV is configured to have at least the function of selectively controlling the direction of the fluid, directly or indirectly. And/or the fluid valve LV is configured to function at least to selectively maintain fluid flow within a certain range, either directly or indirectly. And/or the fluid valve LV is configured to function at least to selectively maintain fluid pressure within a certain range, either directly or indirectly. And/or the fluid valve LV is configured to have at least the function of selectively controlling the fluid on/off, directly or indirectly. And/or the fluid valve LV is configured to have at least a selectively replaceable function. And/or the fluid valve LV is configured to function at least as a modular connection and assembly. And/or said fluid valve LV comprises at least one or more devices. And/or said fluid valve LV comprises at least one component. And/or the filter FF is disposed within or coupled to the housing EH. And/or the filter FF is configured to at least function to selectively separate solid particles from the fluid, either directly or indirectly. And/or said filter FF is configured at least to function to selectively separate dust from the fluid, directly or indirectly. And/or the filter FF is configured to at least function to selectively separate solid particles having a size greater than a certain range from the fluid, either directly or indirectly. And/or said filter FF is configured at least with the function of selectively separating, directly or indirectly, from the fluid dust of a size greater than a certain range. And/or said filter FF is configured at least with the function of directly or indirectly maintaining a certain dryness of the fluid. And/or said filter FF is configured at least to function directly or indirectly selectively to maintain fluid cleanliness within a certain range. And/or the filter FF is configured to have at least a selectively replaceable function. And/or the filter FF is configured to have at least the function of modular connection and assembly. And/or said filter FF comprises at least one or more devices. And/or said filter FF comprises at least one component. And/or the controller CS is disposed within or connected to the housing EH. And/or the controller CS is configured to have at least a function of selectively switching on and off the electric power EP directly or indirectly. And/or the controller CS is configured to have at least a function of selectively controlling the driving device DM directly or indirectly. And/or the controller CS is configured to at least function to selectively control the transmission TM, either directly or indirectly. And/or the controller CS is configured to have at least the function of selectively controlling the check valve CV directly or indirectly. And/or the controller CS is configured to at least function to selectively control the hydraulic pump HP directly or indirectly. And/or the controller CS is configured to have at least a function of selectively controlling the pneumatic pump AP directly or indirectly. And/or the controller CS is configured to have at least a function of selectively controlling the energy storage ES directly or indirectly. And/or the controller CS is configured to have at least a function of selectively controlling the water tank WT directly or indirectly. And/or the controller CS is configured to function at least to selectively control the sand silo SS directly or indirectly. And/or the controller CS is configured to at least function to selectively control the fluid valve LV, either directly or indirectly. And/or the controller CS is configured to have at least the function of selectively controlling the filter FF directly or indirectly. And/or the controller CS is configured to have at least a function of directly or indirectly performing a human-machine interaction with a user of the all-in-one multifunctional cleaning machine MC. And/or the controller CS is configured to have at least a function of performing a human-machine interaction with a user of the multifunctional cleaning all-in-one MC directly or indirectly through a button. And/or the controller CS is configured to at least have a function of performing human-computer interaction with a user of the multifunctional cleaning all-in-one machine MC directly or indirectly through light. And/or the controller CS is configured to have at least the function of enabling human-computer interaction with a user of the all-in-one multifunctional cleaning machine MC directly or indirectly through a display. And/or the controller CS is configured to at least have the function of realizing human-computer interaction with a user of the multifunctional cleaning all-in-one machine MC directly or indirectly through mobile phone software. And/or the controller CS is configured to at least provide human-computer interaction with a user of the all-in-one multifunctional cleaning machine MC directly or indirectly through a wireless network. And/or the controller CS is configured to at least have a function of performing a human-computer interaction with a user of the multifunctional cleaning all-in-one machine MC directly or indirectly through bluetooth. And/or the controller CS is configured to have at least the function of performing human-computer interaction with a user of the all-in-one multifunctional cleaning machine MC directly or indirectly through infrared detection. And/or the controller CS is configured to have at least a function of performing a man-machine interaction with a user of the all-in-one cleaning machine MC directly or indirectly through an audio signal. And/or the controller CS is configured to have at least the function of human-computer interaction with the user of the all-in-one multifunctional cleaning machine MC directly or indirectly through a microphone. And/or the controller CS is configured to at least have a function of performing human-computer interaction with a user of the multifunctional cleaning all-in-one machine MC directly or indirectly through image sensing signals. And/or the controller CS is configured to have at least a function of performing a man-machine interaction with a user of the all-in-one multifunctional cleaning machine MC directly or indirectly through a remote control signal. And/or the controller CS is configured to have at least the function of performing human-computer interaction with a user of the all-in-one multi-function cleaning machine MC directly or indirectly through a remote control panel. And/or the controller CS is configured to have at least a function of directly or indirectly setting the operation mode. And/or the controller CS is configured to have at least a function of directly or indirectly memorizing a general setting of a user of the all-in-one multifunction cleaning machine MC. And/or the controller CS is configured to have at least the function of directly or indirectly performing self-learning and optimization improvement. And/or the controller CS is configured to have at least a function of directly or indirectly memorizing a plurality of operation modes. And/or the controller CS is configured to have at least a function of directly or indirectly performing one-touch setting of a plurality of operation modes. And/or the controller CS is configured to have at least a selectively replaceable function. And/or the controller CS is configured to have at least a function of modular connection and assembly. And/or said controller CS comprises at least one or more devices. And/or said controller CS comprises at least one component. And/or the battery EB is disposed within or connected to the housing EH. And/or said battery EB is configured at least with the function of storing electrical energy directly or indirectly. And/or said battery EB is directly or indirectly connected to said controller CS. And/or the battery EB is configured to have at least a function of selectively charging and discharging under direct or indirect control of the controller CS. And/or the battery EB is configured to have at least a function of selectively autonomously charging and discharging. And/or said battery EB is directly or indirectly connected to said power EP. And/or the battery EB is directly or indirectly connected to the driving device DM. And/or the battery EB is configured to have at least a function of directly or indirectly supplying electric power to the driving device DM. And/or the battery EB is configured to function at least to directly or indirectly supply the controller CS with electric energy. And/or said battery EB is configured at least with the function of supplying electrical energy directly or indirectly to said transmission TM. And/or the battery EB is configured to function at least to directly or indirectly supply electrical energy to the all-in-one multifunction cleaning machine MC. And/or the battery EB is configured to have at least a selectively replaceable function. And/or the battery EB is configured to have at least a function of modular connection and assembly. And/or said battery EB comprises at least one or more devices. And/or the battery EB comprises at least one component. And/or the detection device is disposed within or connected to the housing EH. And/or the detection means are configured at least with the function of directly or indirectly measuring a physical quantity and converting the measured physical quantity into a corresponding information format which is then transmitted or fed back to the controller CS and/or the all-in-one cleaning machine MC and/or a user of the all-in-one cleaning machine MC. And/or the detection device is configured at least for directly or indirectly detecting the fluid pressure, and/or the fluid flow direction, and/or the fluid temperature, and/or the vibration, and/or the impact, and/or the position, and/or the speed, and/or the acceleration, and/or the load to be borne, and/or the torque to be transmitted of the all-in-one multifunctional cleaning machine MC. And/or the detection device is configured at least for directly or indirectly detecting the temperature, and/or the humidity, and/or the altitude, and/or the pressure, and/or the position, and/or the inclination angle of the environment in which the all-in-one multifunctional cleaning machine MC is located. And/or the detection means are configured at least for directly or indirectly detecting the size, and/or the position, and/or the strength, and/or the speed of the human power MP. And/or the detection means are configured at least for directly or indirectly detecting the current level, and/or the voltage level, and/or the power level of the electrical power EP. And/or the detection means are configured at least for directly or indirectly detecting a deformation, and/or a load, and/or a temperature, and/or a vibration of the housing EH. And/or the detection means are configured at least for directly or indirectly detecting the pressure, and/or the flow, and/or the temperature, and/or the speed, and/or the position, and/or the angle, and/or the brightness, and/or the contrast, and/or the sharpness of the actuation means ED. And/or the detection means are configured at least for directly or indirectly detecting the input power, and/or the input rotational speed, and/or the input torque, and/or the input current, and/or the input voltage, and/or the input power, and/or the output rotational speed, and/or the output torque, and/or the output current, and/or the output voltage, and/or the output power of the driving means DM. And/or said detection means are configured at least for directly or indirectly detecting the input power, and/or the input rotation speed, and/or the input torque, and/or the position, and/or the angle, and/or the output power, and/or the output rotation speed, and/or the output torque of said transmission TM. And/or said detection means are configured at least for directly or indirectly detecting the input flow, and/or the input pressure, and/or the output flow, and/or the output pressure, and/or whether there is a leak, of said hydraulic pump HP. And/or said detection means are configured at least for directly or indirectly detecting the input flow, and/or the input pressure, and/or the output flow, and/or the output pressure, and/or whether a leak is present, of said pneumatic pump AP. And/or the detection device is configured at least for directly or indirectly detecting an input flow and/or an input pressure and/or an output flow and/or an output pressure and/or a leakage of the energy storage ES. And/or said detection means are configured at least for directly or indirectly detecting the remaining liquid volume of said tank WT, and/or the cleanliness, and/or the temperature, and/or whether it is correctly installed. And/or the detection means are configured at least for directly or indirectly detecting the remaining solids weight, and/or the remaining solids volume, and/or the dryness, and/or the temperature, and/or whether it is correctly installed, of the sand silo SS. And/or said detection means are configured at least for directly or indirectly detecting the state of said check valve CV, and/or the flow, and/or the pressure, and/or whether there is a leak. And/or the detection means are configured at least for directly or indirectly detecting the state of the fluid valve LV, and/or the flow rate, and/or the pressure, and/or whether there is a leak. And/or said detection means are configured at least for directly or indirectly detecting the state of said filter FF, and/or the flow, and/or the pressure, and/or whether it is clogged. And/or the detection means are configured at least for directly or indirectly detecting the temperature of the controller CS, and/or whether a fault occurs. And/or the detection means are configured at least for directly or indirectly detecting the residual capacity and/or the temperature and/or the input current and/or the input voltage and/or the input power and/or the output current and/or the output voltage and/or the output power and/or whether there is a fault of the battery EB. And/or the battery EB is configured to function at least to directly or indirectly supply electrical energy to the detection device. And/or the detection device is configured to have at least a selectively replaceable function. And/or the detection device is configured to function at least as a modular connection and assembly. And/or said detecting means comprise at least one detector or sensor. And/or the detection means comprises at least one component. And/or the vibration damping device is disposed within or connected to the housing EH. And/or the vibration reduction device is configured to have at least a function of directly or indirectly reducing the hand feeling vibration of the housing EH transmitted to the user. And/or the vibration damping device is configured to have at least a function of directly or indirectly reducing the transmission of the casing EH to the user's ear-feeling noise. And/or the damping device is configured to be directly or indirectly connected with the controller CS. And/or the damping device is configured to be directly or indirectly connected with the detection device. And/or under the direct or indirect action of the controller CS, the vibration damping device is configured to at least function to directly or indirectly reduce the hand feel vibrations of the housing EH conducted to the user. And/or under the direct or indirect action of the controller CS, and/or the detection device, the vibration reduction device is configured to at least function to directly or indirectly reduce the hand feel vibrations of the housing EH transmitted to the user. And/or under the direct or indirect action of the controller CS, the vibration damping device is configured to at least function to directly or indirectly reduce the ear-feeling noise conducted from the housing EH to the user. And/or under the direct or indirect action of the controller CS, and/or the detection device, the vibration reduction device is configured to at least function to directly or indirectly reduce the transmission of the casing EH to the user's ear-feel noise. And/or the detection device is configured at least for directly or indirectly detecting the vibration frequency, and/or the vibration intensity, and/or the vibration direction, and/or the vibration angle, and/or the vibration phase of the housing EH. And/or the detection device is configured at least for directly or indirectly detecting the vibration frequency, and/or the vibration intensity, and/or the vibration direction, and/or the vibration angle, and/or the vibration phase of the vibration damping device. And/or the detection device is configured at least for directly or indirectly detecting the vibration frequency, and/or the vibration intensity, and/or the vibration direction, and/or the vibration angle, and/or the vibration phase of the all-in-one multifunctional cleaning machine MC. And/or the battery EB is configured to have at least a function of directly or indirectly supplying electric energy to the vibration damping device. And/or the vibration damping device is configured to have at least a selectively replaceable function. And/or the vibration damping device is configured to have at least the function of modular connection and assembly. And/or the damping means comprise at least one or more devices. And/or the damping device comprises at least one component. And/or the controller CS is configured to perform at least a three-dimensional modeling function directly or indirectly based on input information of the actuator ED. And/or the controller CS is configured to perform at least a three-dimensional modeling function directly or indirectly based on input information of the detection means. And/or the drive means DM are configured to have at least the function of directly or indirectly driving the hydraulic pump HP. And/or the driving means DM is configured to have at least a function of directly or indirectly driving the pneumatic pump AP. And/or said driving means DM are configured at least to function directly or indirectly to drive said transmission TM. And/or the transmission TM is configured to have at least the function of directly or indirectly driving the hydraulic pump HP. And/or the transmission TM is configured to have at least a function of directly or indirectly driving the pneumatic pump AP. And/or the drive means DM are configured to be directly or indirectly connected with the transmission TM. And/or the drive means DM is configured to be directly or indirectly connected to the hydraulic pump HP. And/or the driving means DM are configured to be directly or indirectly connected with the pneumatic pump AP. And/or the drive means DM is configured to be connected to the hydraulic pump HP directly or indirectly via the transmission TM. And/or said driving means DM are configured to be connected to said pneumatic pump AP, directly or indirectly through said transmission TM. And/or the drive means DM are configured to at least function to selectively drive the hydraulic pump HP directly or indirectly over a range of transmission speed ratios. And/or the drive means DM are configured to at least function to selectively drive the hydraulic pump HP directly or indirectly in one transmission ratio. And/or the drive means DM are configured to at least function to selectively drive the hydraulic pump HP directly or indirectly in a plurality of transmission speed ratios. And/or the drive means DM is configured to have at least the function of selectively driving the pneumatic pump AP, directly or indirectly, within a range of transmission ratios. And/or the driving means DM are configured at least to selectively drive the pneumatic pump AP directly or indirectly in a transmission ratio. And/or said driving means DM are configured at least to selectively drive said pneumatic pump AP directly or indirectly in a plurality of transmission ratios. And/or the drive means DM, under the direct or indirect action of the transmission TM, are configured to at least selectively drive the hydraulic pump HP within a range of transmission ratios. And/or under the direct or indirect action of the transmission TM, the drive means DM are configured to at least selectively drive the hydraulic pump HP at a transmission ratio. And/or under the direct or indirect action of the transmission TM, the drive means DM are configured at least to selectively drive the hydraulic pump HP in a plurality of transmission speed ratios. And/or the driving means DM, under the direct or indirect action of the transmission TM, are configured to have at least the function of selectively driving the pneumatic pump AP within a range of transmission ratios. And/or the driving means DM, under the direct or indirect action of the transmission TM, are configured to have at least the function of selectively driving the pneumatic pump AP in a transmission ratio. And/or the driving means DM, under the direct or indirect action of the transmission TM, are configured to have at least the function of selectively driving the pneumatic pump AP in a plurality of transmission speed ratios. And/or the driving device DM is configured to be directly or indirectly connected to the actuating device ED. And/or the drive means DM is configured to be connected to the actuator ED directly or indirectly via the transmission TM. And/or the driving device DM is configured to at least function to selectively drive the actuating device ED directly or indirectly through a range of transmission ratios. And/or the drive means DM is configured to at least function to selectively drive the actuator ED directly or indirectly in one transmission ratio. And/or the drive means DM is configured to have at least the function of selectively driving the actuation means ED directly or indirectly in a plurality of transmission ratios. And/or the drive means DM, under the direct or indirect action of the transmission TM, are configured to at least selectively drive the actuator ED within a range of transmission ratios. And/or the drive means DM, under the direct or indirect action of the transmission TM, are configured to at least selectively drive the actuator ED in one transmission ratio. And/or the drive means DM, under the direct or indirect action of the transmission TM, are configured to at least selectively drive the actuator ED in a plurality of transmission ratios. And/or the drive DM is configured to be directly or indirectly connected to the water tank WT. And/or the drive means DM is configured to be directly or indirectly connected to an external water source WS. And/or the drive means DM is configured to be directly or indirectly connected with the outside air EA. And/or the drive means DM is configured to be directly or indirectly connected with the energy storage ES. And/or the drive DM is configured to be directly or indirectly connected to the air reservoir AT. And/or the drive means DM is configured to be connected to the actuator ED directly or indirectly via the non-return valve CV. And/or said drive means DM is configured to be connected to said tank WT directly or indirectly via said one-way valve CV. And/or the drive means DM is configured to be connected to the outside water source WS directly or indirectly via the one-way valve CV. And/or the drive means DM is configured to be connected to the ambient air EA directly or indirectly via the one-way valve CV. And/or the drive means DM is configured to be connected to the energy storage ES directly or indirectly via the one-way valve CV. And/or the drive DM is configured to be connected to the air reservoir AT directly or indirectly via the one-way valve CV. And/or the drive means DM is configured to be connected to the actuator ED directly or indirectly via the fluid valve LV. And/or the drive means DM is configured to be connected to the water tank WT directly or indirectly via the fluid valve LV. And/or the drive means DM is configured to be connected to the outside water source WS directly or indirectly via the fluid valve LV. And/or said driving means DM are configured to be connected with said ambient air EA directly or indirectly through said fluid valve LV. And/or the drive device DM is configured to be connected with the energy storage ES directly or indirectly via the fluid valve LV. And/or the drive means DM is configured to be connected to the air reservoir AT directly or indirectly via the fluid valve LV. And/or the energy storage ES is configured to be directly or indirectly connected with the hydraulic pump HP. And/or the energy storage ES is configured to be directly or indirectly connected with the pneumatic pump AP. And/or the energy storage ES is configured to be directly or indirectly connected to the actuator ED. And/or the energy storage ES is configured to be connected to the hydraulic pump HP directly or indirectly via the non-return valve CV. And/or the energy accumulator ES is configured to be connected to the pneumatic pump AP directly or indirectly through the check valve CV. And/or the energy storage ES is configured to be connected to the actuator ED directly or indirectly via the non-return valve CV. And/or the accumulator ES is configured to be connected to the hydraulic pump HP directly or indirectly via the fluid valve LV. And/or the accumulator ES is configured to be connected to the pneumatic pump AP directly or indirectly through the fluid valve LV. And/or the energy storage ES is configured to be connected directly or indirectly via the fluid valve LV to the actuator ED. And/or the air reservoir AT is configured to be directly or indirectly connected to the energy storage ES. And/or the air reservoir AT is configured to be connected to the accumulator ES directly or indirectly via the one-way valve CV. And/or the air reservoir AT is configured to be connected to the energy accumulator ES directly or indirectly via the fluid valve LV. And/or the hydraulic pump HP is configured to be directly or indirectly connected with the actuator ED. And/or the pneumatic pump AP is configured to be directly or indirectly connected to the actuator ED. And/or the hydraulic pump HP is configured to be directly or indirectly connected with the water tank WT. And/or the hydraulic pump HP is configured to be directly or indirectly connected with the outside water source WS. And/or the pneumatic pump AP is configured to be directly or indirectly connected to the air reservoir AT. And/or the pneumatic pump AP is configured to be directly or indirectly connected with the outside air EA. And/or the hydraulic pump HP is configured to be directly or indirectly connected with the pneumatic pump AP. And/or the hydraulic pump HP is configured to be connected to the pneumatic pump AP, directly or indirectly, through the non-return valve CV. And/or the hydraulic pump HP is configured to be connected, directly or indirectly, to the pneumatic pump AP through the fluid valve LV. And/or said hydraulic pump HP is configured to be connected, directly or indirectly, to said pneumatic pump AP through a pneumatic motor. And/or the hydraulic pump HP is configured to be connected to the pneumatic pump AP, directly or indirectly, through a pneumatic cylinder and the non-return valve CV. And/or the hydraulic pump HP is configured to be connected to the pneumatic pump AP, directly or indirectly, through a pneumatic cylinder and the fluid valve LV. And/or the pneumatic pump AP is configured to be directly or indirectly connected with the hydraulic pump HP. And/or the pneumatic pump AP is configured to be connected to the hydraulic pump HP directly or indirectly through the non-return valve CV. And/or the pneumatic pump AP is configured to be connected to the hydraulic pump HP directly or indirectly through the fluid valve LV. And/or the pneumatic pump AP is configured to be connected to the hydraulic pump HP directly or indirectly via a hydraulic motor. And/or the pneumatic pump AP is configured to be connected to the hydraulic pump HP directly or indirectly through a hydraulic cylinder and the check valve CV. And/or the pneumatic pump AP is configured to be connected to the hydraulic pump HP directly or indirectly via a hydraulic cylinder and the fluid valve LV. And/or the hydraulic pump HP is configured to be connected to the actuator ED directly or indirectly through the non-return valve CV. And/or the pneumatic pump AP is configured to be connected to the actuator ED directly or indirectly via the one-way valve CV. And/or the hydraulic pump HP is configured to be connected, directly or indirectly, to the actuator ED through the fluid valve LV. And/or the pneumatic pump AP is configured to be connected to the actuator ED directly or indirectly via the fluid valve LV. And/or said hydraulic pump HP is configured to be connected, directly or indirectly, to said tank WT through said one-way valve CV. And/or the hydraulic pump HP is configured to be connected, directly or indirectly, to the external water source WS through the non-return valve CV. And/or the hydraulic pump HP is configured to be connected to the water tank WT directly or indirectly through the fluid valve LV. And/or the hydraulic pump HP is configured to be connected, directly or indirectly, to the outside water source WS through the fluid valve LV. And/or the hydraulic pump HP is configured to be connected to the water tank WT, directly or indirectly, through the filter FF. And/or the hydraulic pump HP is configured to be connected to the outside water source WS directly or indirectly through the filter FF. And/or the pneumatic pump AP is configured to be connected to the air reservoir AT directly or indirectly through the one-way valve CV. And/or the pneumatic pump AP is configured to be connected to the outside air EA directly or indirectly through the check valve CV. And/or the pneumatic pump AP is configured to be connected to the air reservoir AT directly or indirectly through the fluid valve LV. And/or the pneumatic pump AP is configured to be connected to the outside air EA directly or indirectly through the fluid valve LV. And/or the pneumatic pump AP is configured to be connected to the air tank AT directly or indirectly through the filter FF. And/or the pneumatic pump AP is configured to be connected to the outside air EA directly or indirectly through the filter FF. And/or the hydraulic pump HP is configured to be connected, directly or indirectly, to the non-return valve CV through the filter FF. And/or the pneumatic pump AP is configured to be connected to the non-return valve CV directly or indirectly through the filter FF. And/or the hydraulic pump HP is configured to be connected, directly or indirectly, to the fluid valve LV through the filter FF. And/or the pneumatic pump AP is configured to be connected, directly or indirectly, to the fluid valve LV through the filter FF. And/or said check valve CV is configured to be connected, directly or indirectly, to said tank WT through said filter FF. And/or the one-way valve CV is configured to be connected, directly or indirectly, to the external water source WS through the filter FF. And/or the one-way valve CV is configured to be connected to the air tank AT directly or indirectly through the filter FF. And/or the one-way valve CV is configured to be connected with the outside air EA directly or indirectly through the filter FF. And/or the fluid valve LV is configured to be connected to the tank WT directly or indirectly through the filter FF. And/or the fluid valve LV is configured to be connected to the outside water source WS directly or indirectly through the filter FF. And/or the fluid valve LV is configured to be connected to the air reservoir AT directly or indirectly through the filter FF. And/or the fluid valve LV is configured to be connected with the outside air EA directly or indirectly through the filter FF. And/or the controller CS is configured to be directly or indirectly connected with the driving device DM. And/or the controller CS is configured to be directly or indirectly connected with the transmission TM. And/or the controller CS is configured to be directly or indirectly connected with the hydraulic pump HP. And/or the controller CS is configured to be directly or indirectly connected to the pneumatic pump AP. And/or the controller CS is configured to be directly or indirectly connected with the energy storage ES. And/or the controller CS is configured to be directly or indirectly connected with the actuator ED. And/or the controller CS is configured to be directly or indirectly connected to the water tank WT. And/or the controller CS is configured to be directly or indirectly connected with the gas tank AT. And/or said controller CS is configured to be directly or indirectly connected with said battery EB. And/or the controller CS is configured to be directly or indirectly connected with the check valve CV. And/or the controller CS is configured to be directly or indirectly connected with the fluid valve LV. And/or the controller CS is configured to be directly or indirectly connected with the filter FF. And/or the detection means are configured to be directly or indirectly connected to the controller CS. And/or the detection device is configured to be directly or indirectly connected to the battery EB. And/or the detection means are configured to be directly or indirectly connected with the driving means DM. And/or the detection means are configured to be directly or indirectly connected to the transmission TM. And/or the detection device is configured to be directly or indirectly connected to the hydraulic pump HP. And/or the detection means is configured to be directly or indirectly connected to the pneumatic pump AP. And/or the detection device is configured to be directly or indirectly connected to the energy storage ES. And/or the detection means are configured to be directly or indirectly connected to the actuation means ED. And/or the detection means are configured to be directly or indirectly connected to the non-return valve CV. And/or the detection device is configured to be directly or indirectly connected to the fluid valve LV. And/or the detection means are configured to be directly or indirectly connected to the filter FF. And/or the detection means are configured to be directly or indirectly connected to the water tank WT. And/or the detection device is configured to be directly or indirectly connected to the air reservoir AT. And/or the multi-function cleaning all-in-one MC is configured to at least have the function of cleaning or caring teeth. And/or the multi-function cleaning all-in-one MC is configured to at least have the function of cleaning or caring teeth directly or indirectly through a toothbrush. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of cleaning or nursing tooth gaps. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of spraying water directly or indirectly through the spray head so as to clean or care the slit between teeth. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly spraying through the spray head so as to clean or care the slit between teeth. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly spraying the water-air mixture through the spray head so as to clean or care the slit between teeth. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly spraying air through the spray head so as to clean or care the slit between teeth. And/or the multifunctional cleaning all-in-one machine MC is configured to at least have the function of cleaning or nursing between teeth directly or indirectly through a tooth space brush. And/or the multipurpose cleaning all-in-one machine MC is configured to at least have the function of directly or indirectly spraying water through the interdental brush so as to clean or care interdental spaces. And/or the multipurpose cleaning all-in-one MC is configured to at least have the function of directly or indirectly spraying through a interdental brush so as to clean or care interdental spaces. And/or the multipurpose cleaning all-in-one MC is configured to at least have the function of directly or indirectly spraying the water-air mixture through the interdental brush so as to clean or care interdental spaces. And/or the multifunctional cleaning all-in-one machine MC is configured to at least have the function of directly or indirectly spraying air through the interdental brush so as to clean or care interdental spaces. And/or the all-in-one multi-function cleaning machine MC is configured to at least have the function of cleaning or caring the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of spraying water directly or indirectly through the spray head so as to clean or care the oral cavity. And/or the multipurpose cleaning all-in-one MC is configured to at least have the function of directly or indirectly spraying through the spray head so as to clean or care the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly spraying the water-air mixture through the spray head so as to clean or care the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly spraying air through the spray head so as to clean or care the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of cleaning or nursing the ear cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of spraying water directly or indirectly through the spray head so as to clean or care the ear cavity. And/or the all-in-one multi-function cleaning machine MC is configured to at least have the function of directly or indirectly spraying through the spray head so as to clean or care the ear cavity. And/or the multifunctional cleaning all-in-one MC is at least configured to have the function of directly or indirectly spraying the water-air mixture through the spray head so as to clean or care the ear cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly spraying air through the spray head so as to clean or care the ear cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of cleaning or nursing the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of spraying water directly or indirectly through the spray head so as to clean or care the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly spraying through the spray head so as to clean or care the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly spraying the water-air mixture through the spray head so as to clean or care the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly spraying air through the spray head so as to clean or care the nasal cavity. And/or the multi-function cleaning all-in-one MC is configured to at least have a function of cleaning or caring the orthodontic retainer. And/or the multifunctional cleaning all-in-one machine MC is configured to at least have the function of directly or indirectly cleaning or nursing teeth through an orthodontic brush. And/or the multi-functional cleaning all-in-one MC is configured to at least have the function of spraying water directly or indirectly through the orthodontic brush so as to clean or care teeth. And/or the multifunctional cleaning all-in-one machine MC is configured to at least have the function of directly or indirectly spraying through an orthodontic brush so as to clean or care teeth. And/or the multi-functional cleaning all-in-one MC is configured to at least have the function of directly or indirectly spraying the water-air mixture through the orthodontic brush so as to clean or care teeth. And/or the multi-functional cleaning all-in-one MC is configured to at least have the function of directly or indirectly spraying air through the orthodontic brush so as to clean or care teeth. And/or the multifunctional cleaning all-in-one machine MC is configured to at least have the function of cleaning or caring orthodontic retainers directly or indirectly through orthodontic brushes. And/or the multi-functional cleaning all-in-one MC is configured to have at least a function of spraying water directly or indirectly through the orthodontic brush to clean or care the orthodontic retainer. And/or the multi-function cleaning all-in-one MC is configured to at least function to clean or care orthodontic retainers by spraying directly or indirectly through orthodontic brushes. And/or the multi-functional cleaning all-in-one MC is configured to have at least a function of spraying a water-air mixture directly or indirectly through the orthodontic brush so as to clean or care the orthodontic retainer. And/or the multi-functional cleaning all-in-one MC is configured to at least have the function of directly or indirectly spraying air through the orthodontic brush so as to clean or care the orthodontic retainer. And/or the all-in-one multi-functional cleaning machine MC is configured to at least have the function of cleaning or caring for dentures. And/or the actuation device ED is configured at least with the function of displaying the status of the hair follicle directly or indirectly. And/or the all-in-one multi-functional cleaning machine MC is configured to at least have the function of directly or indirectly massaging the skin. And/or the all-in-one multi-function cleaning machine MC is configured to at least have the function of directly or indirectly massaging the gums. And/or the multifunctional cleaning all-in-one machine MC is constructed to have at least a function of directly or indirectly spraying water through the spray head so as to massage the gum. And/or the all-in-one multi-function cleaning machine MC is configured to have at least a function of directly or indirectly spraying through the spray head so as to massage the gum. And/or the all-in-one multi-function cleaning machine MC is constructed to have at least a function of directly or indirectly spraying the water-air mixture through the spray head so as to massage the gum. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly spraying air through the spray head so as to massage the gum. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly massaging the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly spraying water through the spray head so as to massage the oral cavity. And/or the all-in-one multi-function cleaning machine MC is configured to at least have the function of directly or indirectly spraying through the spray head so as to massage the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly spraying the water-air mixture through the spray head so as to massage the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly spraying air through the spray head so as to massage the oral cavity. And/or the all-in-one multi-functional cleaning machine MC is configured to at least have the function of directly or indirectly massaging the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to have at least the function of directly or indirectly spraying water through the spray head so as to massage the nasal cavity. And/or the all-in-one multi-functional cleansing machine MC is configured to have at least a function of massaging the nasal cavity by spraying directly or indirectly through the spray head. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly spraying the water-air mixture through the spray head so as to massage the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly spraying air through the spray head so as to massage the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to have at least the function of directly or indirectly massaging the ear cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to have at least the function of directly or indirectly spraying water through the spray head so as to massage the ear cavity. And/or the all-in-one multifunctional cleaning machine MC is constructed to have at least the function of directly or indirectly spraying through the spray head so as to massage the ear cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly spraying the water-air mixture through the spray head so as to massage the ear cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly spraying air through the spray head so as to massage the ear cavity. And/or the multifunctional cleaning all-in-one machine MC is configured to at least have the function of directly or indirectly driving the tooth brush head through mechanical energy so as to realize the vibration, and/or the swing, and/or the rotation, and/or the movement, and/or the water spraying, and/or the mist spraying, and/or the water-vapor mixture spraying, and/or the air spraying of the tooth brush head so as to clean or care the teeth. And/or the multipurpose cleaning all-in-one MC is configured to at least have the function of directly or indirectly driving the interdental brush head through mechanical energy so as to realize the vibration, and/or the swinging, and/or the rotation, and/or the movement, and/or the water spraying, and/or the mist spraying, and/or the water-air mixture spraying, and/or the air spraying of the interdental brush head so as to clean or care interdental spaces. And/or the multifunctional cleaning all-in-one MC is configured to at least have the function of directly or indirectly driving the orthodontic brush head through mechanical energy so as to realize the vibration, and/or the swinging, and/or the rotation, and/or the movement, and/or the water spraying, and/or the mist spraying, and/or the water-vapor mixture spraying, and/or the air spraying of the orthodontic brush head so as to clean or care teeth and orthodontic retainers. And/or the multifunctional cleaning all-in-one machine MC is configured to at least have the function of directly or indirectly driving the tooth brush head through hydraulic energy so as to realize the vibration, and/or the swinging, and/or the rotation, and/or the movement, and/or the water spraying, and/or the mist spraying, and/or the water-vapor mixture spraying, and/or the air spraying of the tooth brush head so as to clean or care the teeth. And/or the multifunctional cleaning all-in-one machine MC is configured to at least have the function of directly or indirectly driving the interdental brush head through hydraulic energy so as to realize the vibration, and/or the swinging, and/or the rotation, and/or the movement, and/or the water spraying, and/or the mist spraying, and/or the water-air mixture spraying, and/or the air spraying, so as to clean or care the interdental space. And/or the multifunctional cleaning all-in-one machine MC is configured to at least have the function of directly or indirectly driving the orthodontic brush head through hydraulic energy so as to realize the vibration, and/or the swinging, and/or the rotation, and/or the movement, and/or the water spraying, and/or the mist spraying, and/or the water-vapor mixture spraying, and/or the air spraying of the orthodontic brush head so as to clean or care teeth and orthodontic retainers. And/or the multifunctional cleaning all-in-one machine MC is at least provided with a function of directly or indirectly driving the tooth brush head through air pressure energy so as to realize the vibration, and/or the swing, and/or the rotation, and/or the movement, and/or the air injection, and/or the water injection, and/or the mist injection, and/or the air injection of the tooth brush head so as to clean or care the teeth. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the slit brush head through air pressure energy so as to realize the vibration, and/or the swing, and/or the rotation, and/or the movement, and/or the air injection, and/or the water spray, and/or the water-air mixture injection, and/or the air injection of the slit brush head so as to clean or care the slit between teeth. And/or the multifunctional cleaning all-in-one machine MC is configured to at least have the function of directly or indirectly driving the orthodontic brush head through air pressure energy so as to realize the vibration, and/or the swing, and/or the rotation, and/or the movement, and/or the air injection, and/or the water injection, and/or the air spray, and/or the air injection of the water-air mixture, and/or the air injection so as to clean or care teeth and orthodontic retainers. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray water through mechanical energy so as to clean or care the slit between teeth. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray water through hydraulic energy so as to clean or care the slit between teeth. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray water through air pressure so as to clean or care the slit between teeth. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly driving the spray head to spray water through mechanical energy so as to clean or care the gingiva. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly driving the spray head to spray water through hydraulic energy so as to clean or care the gingiva. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of driving the spray head to spray water directly or indirectly through air pressure so as to clean or care the gum. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray water through mechanical energy so as to clean or care the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray water through hydraulic energy so as to clean or care the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of driving the spray head to spray water directly or indirectly through air pressure so as to clean or care the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray water through mechanical energy so as to clean or care the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly driving the spray head to spray water through hydraulic energy so as to clean or care the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray water through air pressure so as to clean or care the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly driving the spray head to spray water through mechanical energy so as to clean or care the ear cavity. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray water through hydraulic energy so as to clean or care the ear cavity. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of driving the spray head to spray water directly or indirectly through air pressure so as to clean or care the ear cavity. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly driving the spray head to spray through mechanical energy so as to clean or care the slit between teeth. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray through hydraulic energy so as to clean or care the slit between teeth. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly driving the spray head to spray through air pressure so as to clean or care the slit between teeth. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly driving the spray head to spray by mechanical energy so as to clean or care the gingiva. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly driving the spray head to spray through hydraulic energy so as to clean or care the gingiva. And/or the multifunctional cleaning all-in-one machine MC is at least provided with a function of directly or indirectly driving the spray head to spray through air pressure so as to clean or care the gingiva. And/or the multi-function cleaning all-in-one MC is configured to at least have the function of directly or indirectly driving the spray head to spray through mechanical energy so as to clean or care the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly driving the spray head to spray through hydraulic energy so as to clean or care the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of driving the spray head to spray directly or indirectly through air pressure so as to clean or care the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray by mechanical energy so as to clean or care the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly driving the spray head to spray through hydraulic energy so as to clean or care the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly driving the spray head to spray through air pressure so as to clean or care the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly driving the spray head to spray through mechanical energy so as to clean or care the ear cavity. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly driving the spray head to spray through hydraulic energy so as to clean or care the ear cavity. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray through air pressure so as to clean or care the ear cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly driving the spray head to spray air through mechanical energy so as to clean or care the slit between teeth. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly driving the spray head to spray air through hydraulic energy so as to clean or care the slit between teeth. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly driving the spray head to spray air through air pressure so as to clean or care the slit between teeth. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly driving the spray head to spray air through mechanical energy so as to clean or care the gum. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly driving the spray head to spray air through hydraulic energy so as to clean or care the gum. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly driving the spray head to spray air through air pressure so as to clean or care the gum. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray air through mechanical energy so as to clean or care the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly driving the spray head to spray air through hydraulic energy so as to clean or care the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly driving the spray head to spray air through air pressure so as to clean or care the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly driving the spray head to spray air through mechanical energy so as to clean or care the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly driving the spray head to spray air through hydraulic energy so as to clean or care the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of driving the spray head to spray air directly or indirectly through air pressure so as to clean or care the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly driving the spray head to spray air through mechanical energy so as to clean or care the ear cavity. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly driving the spray head to spray air through hydraulic energy so as to clean or care the ear cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of driving the spray head to spray air directly or indirectly through air pressure so as to clean or care the ear cavity. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly driving the spray head to spray the water-air mixture through mechanical energy so as to clean or care the slit between teeth. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly driving the spray head to spray the water-air mixture through hydraulic energy so as to clean or care the slit between teeth. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray the water-air mixture through air pressure so as to clean or care the teeth gaps. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly driving the spray head to spray the water-air mixture through the mechanical energy so as to clean or care the gum. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly driving the spray head to spray the water-air mixture through hydraulic energy so as to clean or care the gum. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly driving the spray head to spray the water-air mixture through air pressure so as to clean or care the gum. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray the water-air mixture through the mechanical energy so as to clean or care the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray the water-air mixture through hydraulic energy so as to clean or care the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray the water-air mixture through air pressure so as to clean or care the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray the water-air mixture through mechanical energy so as to clean or care the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray the water-air mixture through hydraulic energy so as to clean or care the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray the water-air mixture through air pressure so as to clean or care the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly driving the spray head to spray the water-air mixture through the mechanical energy so as to clean or care the ear cavity. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of cleaning or caring the ear cavity by directly or indirectly driving the spray head to spray the water-air mixture through hydraulic energy. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly driving the spray head to spray the water-air mixture through air pressure so as to clean or care the ear cavity. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray sand through mechanical energy so as to clean or care teeth. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of cleaning or caring teeth by directly or indirectly driving a nozzle to sand through hydraulic energy. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray sand through air pressure so as to clean or care teeth. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray the air-sand mixture through mechanical energy so as to clean or care teeth. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly spraying the air-sand mixture through the hydraulic energy driving spray head so as to clean or care the teeth. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray the air-sand mixture through air pressure so as to clean or care teeth. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray the water-air-sand mixture through mechanical energy so as to clean or care teeth. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of cleaning or nursing teeth by directly or indirectly driving the spray head to spray the water-air-sand mixture through hydraulic energy. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray the water-air-sand mixture through air pressure so as to clean or care teeth. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray the fog and sand mixture through mechanical energy so as to clean or care teeth. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of cleaning or nursing teeth by directly or indirectly driving the spray head to spray the mist and sand mixture through hydraulic energy. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the spray head to spray the fog and sand mixture through air pressure so as to clean or care teeth. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of driving the suction head to suck water directly or indirectly through mechanical energy. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of driving the suction head to absorb water directly or indirectly through hydraulic energy. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of driving the suction head to suck water directly or indirectly through air pressure energy. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly driving the suction head to suck sand through mechanical energy. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly driving the suction head to suck sand through hydraulic energy. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of driving the suction head to suck sand directly or indirectly through air pressure. And/or the all-in-one multi-function cleaning machine MC is configured to at least have the function of directly or indirectly driving the suction head to suck away the air-sand mixture through mechanical energy. And/or the all-in-one multifunctional cleaning machine MC is at least configured to have the function of sucking away the air-sand mixture directly or indirectly through hydraulic energy driving a suction head. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of driving the suction head to suck away the air-sand mixture directly or indirectly through air pressure. And/or the all-in-one multi-function cleaning machine MC is constructed to at least have the function of directly or indirectly driving the suction head to suck the water-air-sand mixture away through mechanical energy. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the suction head to suck the water-air-sand mixture through hydraulic energy. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of driving the suction head to suck the water-air-sand mixture directly or indirectly through air pressure. And/or the all-in-one multi-function cleaning machine MC is configured to have at least a function of driving the grater directly or indirectly through mechanical energy to thereby polish the teeth. And/or the all-in-one multi-function cleaning machine MC is configured to have at least the function of driving the grater directly or indirectly through hydraulic energy to polish the teeth. And/or the all-in-one multi-function cleaning machine MC is configured to have at least the function of driving the grater head directly or indirectly through pneumatic energy to polish teeth. And/or the multifunctional cleaning all-in-one MC is configured to have at least a function of driving a polishing head directly or indirectly by mechanical energy to polish teeth. And/or the multi-function cleaning all-in-one MC is configured to have at least a function of driving a polishing head directly or indirectly by hydraulic energy to polish teeth. And/or the multifunctional cleaning all-in-one machine MC is configured to at least have the function of directly or indirectly driving a polishing head through air pressure energy so as to polish teeth. And/or the multipurpose cleaning all-in-one MC is configured to have at least a function of directly or indirectly driving the drill bit through mechanical energy to drill the teeth. And/or the multifunctional cleaning all-in-one machine MC is configured to have at least a function of driving the drill directly or indirectly through hydraulic energy to drill a hole in the tooth. And/or the multifunctional cleaning all-in-one machine MC is configured to have at least a function of directly or indirectly driving the drill bit through air pressure energy so as to drill holes on teeth. And/or the all-in-one multi-functional cleaning machine MC is configured to have at least the function of directly or indirectly driving the massage heads through mechanical energy so as to massage the skin. And/or the all-in-one multifunctional cleaning machine MC is configured to at least have the function of directly or indirectly driving the massage heads through hydraulic energy so as to massage the skin. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the massage head through air pressure so as to massage the skin. And/or the all-in-one multi-function cleaning machine MC is configured to have at least a function of directly or indirectly driving the massage heads through mechanical energy so as to massage the gum. And/or the all-in-one multi-functional cleaning machine MC is constructed to have at least the function of directly or indirectly driving the massage heads through hydraulic energy so as to massage the gingiva. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the massage head through air pressure so as to massage the gum. And/or the all-in-one multi-functional cleaning machine MC is configured to at least have the function of driving the massage heads directly or indirectly through mechanical energy so as to massage the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the massage heads through hydraulic energy so as to massage the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of driving the massage heads directly or indirectly through air pressure so as to massage the oral cavity. And/or the all-in-one multi-functional cleaning machine MC is configured to have at least the function of directly or indirectly driving the massage heads through mechanical energy so as to massage the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to have at least the function of directly or indirectly driving the massage heads through hydraulic energy so as to massage the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the massage heads through air pressure so as to massage the nasal cavity. And/or the all-in-one multi-functional cleaning machine MC is configured to have at least the function of directly or indirectly driving the massage heads through mechanical energy so as to massage the ear cavities. And/or the all-in-one multifunctional cleaning machine MC is configured to at least have the function of directly or indirectly driving the massage heads through hydraulic energy so as to massage the ear cavities. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly driving the massage head through air pressure so as to massage the ear cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to have at least the function of directly or indirectly spraying water through the spray head so as to massage the gum. And/or the multifunctional cleaning all-in-one machine MC is constructed to have at least the function of directly or indirectly spraying water through the spray head so as to massage the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly spraying water through the spray head so as to massage the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to have at least the function of directly or indirectly spraying water through the spray head so as to massage the ear cavity. And/or the all-in-one multifunctional cleaning machine MC is constructed to have at least the function of directly or indirectly spraying water through the spray head so as to massage the skin. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly spraying air through the spray head so as to massage the gum. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly spraying air through the spray head so as to massage the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly spraying air through the spray head so as to massage the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly spraying air through the spray head so as to massage the ear cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly spraying air through the spray head so as to massage the skin. And/or the all-in-one multi-function cleaning machine MC is configured to have at least a function of directly or indirectly spraying through the spray head so as to massage the gum. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly spraying through the spray head so as to massage the oral cavity. And/or the all-in-one multi-functional cleansing machine MC is configured to have at least a function of massaging the nasal cavity by spraying directly or indirectly through the spray head. And/or the all-in-one multifunctional cleaning machine MC is constructed to have at least the function of directly or indirectly spraying through the spray head so as to massage the ear cavity. And/or the all-in-one multi-function cleaning machine MC is configured to have at least the function of massaging the skin by spraying directly or indirectly through the spray head. And/or the all-in-one multi-function cleaning machine MC is constructed to have at least a function of directly or indirectly spraying the water-air mixture through the spray head so as to massage the gum. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly spraying the water-air mixture through the spray head so as to massage the oral cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly spraying the water-air mixture through the spray head so as to massage the nasal cavity. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of directly or indirectly spraying the water-air mixture through the spray head so as to massage the ear cavity. And/or the all-in-one multi-function cleaning machine MC is constructed to have at least the function of directly or indirectly spraying the water-air mixture through the spray head so as to massage the skin. And/or the multi-function cleaning all-in-one MC is configured to at least have the function of directly or indirectly blasting through the spray head so as to clean or care the teeth. And/or the multifunctional cleaning all-in-one machine MC is at least configured to have the function of directly or indirectly spraying the air-sand mixture through the spray head so as to clean or care the teeth. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly spraying the water-air-sand mixture through the spray head so as to clean or care the teeth. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly spraying the fog and sand mixture through the spray head so as to clean or care the teeth. And/or the all-in-one multi-function cleaning machine MC is configured to at least have the function of directly or indirectly displaying the state of teeth, and/or slits between teeth, and/or oral cavity, and/or nasal cavity, and/or ear cavity, and/or hair follicle. And/or the multifunctional cleaning all-in-one machine MC is at least configured to directly or indirectly process information of teeth, and/or slits between teeth, and/or oral cavity, and/or nasal cavity, and/or ear cavity, and/or hair follicles. And/or the all-in-one multi-function cleaning machine MC is configured to at least have the function of directly or indirectly displaying the state of teeth, and/or slits between teeth, and/or oral cavity, and/or nasal cavity, and/or ear cavity, and/or hair follicle. And/or the all-in-one multi-function cleaning machine MC is configured to at least directly or indirectly process information of teeth, and/or slits between teeth, and/or oral cavity, and/or nasal cavity, and/or ear cavity, and/or hair follicle. And/or the all-in-one multi-function cleaning machine MC is configured to at least function to emit and/or receive laser light within a certain wavelength range. And/or the all-in-one cleaning machine MC is configured to at least have a function of emitting and/or receiving infrared rays in a certain wavelength range. And/or the all-in-one cleaning machine MC is configured to at least have a function of transmitting and/or receiving ultraviolet rays in a certain wavelength range. And/or the multifunction cleaning all-in-one MC is configured to at least have a function of emitting and/or receiving light in a certain wavelength range so as to locate the target object. And/or the multifunction cleaning all-in-one MC is configured to have at least a function of emitting and/or receiving light in a certain wavelength range so as to perform three-dimensional modeling on the target object. And/or the multipurpose cleaning all-in-one MC is configured to function at least as a wireless and/or wired network connection. And/or the multi-function cleaning all-in-one MC is configured to at least have a function of transmitting and/or receiving wireless signals. And/or the multifunction cleaning all-in-one MC is configured to at least function to transmit and/or receive wired signals. And/or the all-in-one cleaning machine MC is constructed to at least have the function of directly or indirectly establishing a local area network. And/or the all-in-one multi-function cleaning machine MC is configured to at least have the function of directly or indirectly transmitting data. And/or the all-in-one cleaning machine MC is configured to at least have the function of directly or indirectly receiving data. And/or the all-in-one multi-function cleaning machine MC is configured to at least have the function of directly or indirectly sending data. And/or the all-in-one multi-function cleaning machine MC is configured to at least have the function of directly or indirectly processing data. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of directly or indirectly taking pictures. And/or the all-in-one multi-function cleaning machine MC is configured to at least have the function of directly or indirectly recording videos. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the functions of picture display and processing. And/or the multi-function cleaning all-in-one MC is constructed to at least have the functions of video display and processing. And/or the multipurpose cleaning all-in-one MC is configured to have at least the function of directly or indirectly visualizing the operation process. And/or the multifunctional cleaning all-in-one machine MC is at least provided with a function of directly or indirectly realizing human-computer interaction. And/or the multifunctional cleaning all-in-one machine MC is at least provided with a function of inputting information directly or indirectly through keys. And/or the multifunctional cleaning all-in-one machine MC is constructed to have at least the function of setting directly or indirectly through a key. And/or the multifunctional cleaning all-in-one machine MC is at least provided with a function of directly or indirectly selecting an operation mode through a key. And/or the multifunctional cleaning all-in-one machine MC is at least provided with the function of displaying information directly or indirectly through an indicator light. And/or the multifunctional cleaning all-in-one machine MC is at least provided with a function of directly or indirectly displaying information through a display screen or a touch screen. And/or the all-in-one multifunctional cleaning machine MC is at least provided with a function of inputting information directly or indirectly through a display screen or a touch screen. And/or the multifunctional cleaning all-in-one machine MC is at least provided with a function of setting an operation mode directly or indirectly through a display screen or a touch screen. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the functions of directly or indirectly taking pictures and recording videos in real time in the oral cavity. And/or the multifunctional all-in-one cleaning machine MC is constructed to at least have the functions of directly or indirectly penetrating into the nasal cavity for photographing and real-time video recording. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the functions of directly or indirectly penetrating into the ear cavity for taking pictures and recording in real time. And/or the multifunctional cleaning all-in-one machine MC is configured to at least have the function of directly or indirectly entering the oral cavity for evaluation, and/or suggestion, and/or diagnosis. And/or the multipurpose cleaning all-in-one MC is configured to at least have the function of directly or indirectly penetrating into the nasal cavity for evaluation, and/or recommendation, and/or diagnosis. And/or the multipurpose cleaning all-in-one MC is configured to at least have the function of directly or indirectly penetrating into the ear cavity for evaluation, and/or recommendation, and/or diagnosis. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of realizing interaction and operation directly or indirectly through a mobile phone of an operator. And/or the multifunctional cleaning all-in-one machine MC is constructed to have at least the function of realizing visualization directly or indirectly through a mobile phone of an operator. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of realizing visualization directly or indirectly through an external display. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of realizing virtual display directly or indirectly through a mobile phone of an operator. And/or the multifunctional cleaning all-in-one machine MC is constructed to at least have the function of realizing virtual display directly or indirectly through an external display. And/or the multifunction cleaning all-in-one MC is configured to at least have the function of directly or indirectly reducing the vibration of the hand feeling. And/or the all-in-one cleaning machine MC is configured to at least have the function of directly or indirectly reducing the noise of the ear feeling. And/or

Further, the transmission TM is configured to function as at least one transmission ratio between the driving device DM and the hydraulic pump HP. And/or between the drive DM and the pneumatic pump AP, the transmission TM is configured to function as at least one transmission ratio. And/or between the driving means DM and the actuating means ED, the transmission means TM is configured to function as at least one transmission ratio. And/or between the drive means DM and the hydraulic pump HP, the transmission TM is configured at least to function with a transmission ratio that varies within a range of ratios. And/or between the drive DM and the pneumatic pump AP, the transmission TM is configured to function at least as a transmission ratio that varies over a range of ratios. And/or between the driving means DM and the actuating means ED, the transmission TM is configured at least to function with a transmission ratio that varies within a range of ratios. And/or the transmission TM is not equipped with a clutch. Or the transmission TM is equipped with at least a first overrunning clutch FC1 and a second overrunning clutch FC 2. And/or the transmission TM is equipped with at least a first clutch C1. And/or the drive DM is connected directly or indirectly to the hydraulic pump HP via the first overrunning clutch FC 1. And/or the driving device DM is connected to the pneumatic pump AP directly or indirectly through the second overrunning clutch FC 2. And/or the drive device DM is connected directly or indirectly via the first overrunning clutch FC1 to the actuator ED. And/or the drive device DM is connected directly or indirectly via the second overrunning clutch FC2 to the actuator ED. And/or in the forward rotation, the driving device DM is configured to have at least a function of being selectively engageable with the hydraulic pump HP and a function of being selectively disengageable from the pneumatic pump AP, under direct or indirect actions of the first overrunning clutch FC1, the second overrunning clutch FC2, and the transmission TM. And/or in reverse rotation, the driving device DM is configured to have at least a function of being selectively disengaged from the hydraulic pump HP and to have at least a function of being selectively engaged with the pneumatic pump AP, under direct or indirect actions of the first overrunning clutch FC1, the second overrunning clutch FC2, and the transmission TM. And/or in forward rotation, the driving device DM is configured to have at least a function of being selectively engageable with the actuator ED under the direct or indirect action of the first overrunning clutch FC1 and the transmission TM. And/or in reverse, the driving device DM is configured to have at least the function of being selectively engageable with the actuating device ED under the direct or indirect action of the second overrunning clutch FC2 and the transmission TM. And/or the drive DM is directly or indirectly connected to the hydraulic pump HP via the first clutch C1. And/or the drive device DM is connected to the pneumatic pump AP directly or indirectly via the first clutch C1. And/or the drive device DM is connected directly or indirectly via the first clutch C1 to the actuator ED. And/or the driving means DM can selectively perform an engaging and/or disengaging function with the hydraulic pump HP under the direct or indirect action of the first clutch C1 and the transmission TM. And/or the driving means DM may selectively perform an engaging and/or disengaging function with the pneumatic pump AP under the direct or indirect action of the first clutch C1 and the transmission TM. And/or the drive device DM may be selectively engageable and/or disengageable from the actuator ED under the direct or indirect influence of the first clutch C1 and the transmission TM. And/or

Between the drive DM and the hydraulic pump HP, the transmission TM is configured to function with at least two transmission ratios. And/or between the drive DM and the pneumatic pump AP, the transmission TM is configured to function with at least two transmission ratios. And/or between the driving means DM and the actuating means ED, the transmission means TM is configured to function with at least two transmission ratios. And/or between the drive means DM and the hydraulic pump HP, the transmission TM is configured to function at least as a transmission ratio variable over a range of ratios. And/or between the drive DM and the pneumatic pump AP, the transmission TM is configured to function at least as a transmission ratio that varies within a range of ratios. And/or between the drive means DM and the actuator means ED, the transmission means TM are configured to function at least as a transmission ratio variable over a range of ratios. And/or the transmission TM is equipped with at least a first overrunning clutch FC1, a second overrunning clutch FC 2. And/or the transmission TM is equipped with at least a first clutch C1. And/or the drive DM is connected to the hydraulic pump HP directly or indirectly via the first overrunning clutch FC1 and the second overrunning clutch FC 2. And/or the drive device DM is connected to the pneumatic pump AP directly or indirectly via the first overrunning clutch FC1 and the second overrunning clutch FC 2. And/or the drive device DM is connected to the actuator ED directly or indirectly via the first overrunning clutch FC1 and the second overrunning clutch FC 2. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2 and the transmission device TM, two transmission speed ratios are formed between the driving device DM and the hydraulic pump HP. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2 and the transmission device TM, two transmission speed ratios are formed between the driving device DM and the pneumatic pump AP. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2 and the transmission device TM, two transmission speed ratios are formed between the driving device DM and the executing device ED. And/or the drive DM is directly or indirectly connected to the hydraulic pump HP via the first clutch C1. And/or the drive device DM is connected to the pneumatic pump AP directly or indirectly via the first clutch C1. And/or the drive device DM is connected directly or indirectly via the first clutch C1 to the actuator ED. And/or two transmission ratios between the driving means DM and the hydraulic pump HP under the direct or indirect action of the first clutch C1 and the transmission TM. And/or two transmission speed ratios between the driving device DM and the pneumatic pump AP under the direct or indirect action of the first clutch C1 and the transmission TM. And/or two transmission ratios between the driving device DM and the actuator ED under the direct or indirect action of the first clutch C1 and the transmission TM. And/or

Between the drive means DM and the hydraulic pump HP, the transmission TM is configured to function with at least three transmission ratios. And/or between the drive DM and the pneumatic pump AP, the transmission TM is configured to function with at least three transmission ratios. And/or between the driving means DM and the actuating means ED, the transmission TM is configured to function with at least three transmission ratios. And/or between the drive means DM and the hydraulic pump HP, the transmission TM is configured at least to function with a transmission ratio that varies within a range of ratios. And/or between the drive DM and the pneumatic pump AP, the transmission TM is configured to function at least as a transmission ratio that varies within a range of ratios. And/or between the driving means DM and the actuating means ED, the transmission TM is configured at least to function with a transmission ratio that varies within a range of ratios. And/or the transmission TM is equipped with at least a first overrunning clutch FC1, a second overrunning clutch FC2, and a first clutch C1. And/or the transmission TM is equipped with at least the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1 and the second clutch C2. And/or the transmission TM is provided with at least the first clutch C1, the second clutch C2. And/or the driving device DM is directly or indirectly connected to the hydraulic pump HP through the first overrunning clutch FC1, the second overrunning clutch FC2 and the first clutch C1. And/or the driving device DM is connected to the pneumatic pump AP directly or indirectly through the first overrunning clutch FC1, the second overrunning clutch FC2, and the first clutch C1. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1 and the transmission device TM, three transmission speed ratios are formed between the driving device DM and the hydraulic pump HP. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1 and the transmission device TM, three transmission speed ratios are formed between the driving device DM and the pneumatic pump AP. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1 and the transmission device TM, three transmission speed ratios are formed between the driving device DM and the executing device ED. And/or the driving device DM is connected to the hydraulic pump HP directly or indirectly through the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, and the second clutch C2. And/or the driving device DM is connected to the pneumatic pump AP directly or indirectly through the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1 and the second clutch C2. And/or the driving device DM is directly or indirectly connected with the actuating device ED through the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1 and the second clutch C2. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2 and the transmission device TM, three transmission speed ratios are formed between the driving device DM and the hydraulic pump HP. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2 and the transmission device TM, three transmission speed ratios are formed between the driving device DM and the pneumatic pump AP. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2 and the transmission device TM, three transmission speed ratios are formed between the driving device DM and the executing device ED. And/or the driving device DM is connected with the hydraulic pump HP directly or indirectly through the first clutch C1, the second clutch C2. And/or the driving device DM is connected with the pneumatic pump AP directly or indirectly through the first clutch C1 and the second clutch C2. And/or the drive device DM is directly or indirectly connected to the actuator ED via the first clutch C1 and the second clutch C2. And/or three transmission speed ratios between the driving device DM and the hydraulic pump HP under the direct or indirect action of the first clutch C1, the second clutch C2 and the transmission TM. And/or three transmission speed ratios between the driving device DM and the pneumatic pump AP under the direct or indirect action of the first clutch C1, the second clutch C2 and the transmission TM. And/or three transmission ratios between the driving device DM and the actuating device ED under the direct or indirect action of the first clutch C1, the second clutch C2 and the transmission TM. And/or

Between the drive means DM and the hydraulic pump HP, the transmission TM is configured to function with at least four transmission ratios. And/or between the drive DM and the pneumatic pump AP, the transmission TM is configured to function with at least four transmission ratios. And/or between the driving means DM and the actuating means ED, the transmission TM is configured to function with at least four transmission ratios. And/or between the drive means DM and the hydraulic pump HP, the transmission TM is configured at least to function with a transmission ratio that varies within a range of ratios. And/or between the drive DM and the pneumatic pump AP, the transmission TM is configured to function at least as a transmission ratio that varies within a range of ratios. And/or between the driving means DM and the actuating means ED, the transmission TM is configured at least to function with a transmission ratio that varies within a range of ratios. And/or the transmission TM is equipped with at least a first overrunning clutch FC1, a second overrunning clutch FC2, and a first clutch C1. And/or the transmission TM is provided with at least the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2. And/or the transmission TM is provided with at least the first clutch C1, the second clutch C2. And/or the driving device DM is connected to the hydraulic pump HP directly or indirectly through the first overrunning clutch FC1, the second overrunning clutch FC2, and the first clutch C1. And/or the driving device DM is connected to the pneumatic pump AP directly or indirectly through the first overrunning clutch FC1, the second overrunning clutch FC2, and the first clutch C1. And/or the driving device DM is directly or indirectly connected with the actuating device ED through the first overrunning clutch FC1, the second overrunning clutch FC2 and the first clutch C1. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1 and the transmission device TM, four transmission speed ratios are formed between the driving device DM and the hydraulic pump HP. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1 and the transmission device TM, four transmission speed ratios are formed between the driving device DM and the pneumatic pump AP. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1 and the transmission device TM, four transmission speed ratios are formed between the driving device DM and the executing device ED. And/or the driving device DM is connected to the hydraulic pump HP directly or indirectly through the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, and the second clutch C2. And/or the driving device DM is connected to the pneumatic pump AP directly or indirectly through the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1 and the second clutch C2. And/or the driving device DM is directly or indirectly connected with the actuating device ED through the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1 and the second clutch C2. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2 and the transmission device TM, four transmission speed ratios are formed between the driving device DM and the hydraulic pump HP. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2 and the transmission device TM, four transmission speed ratios are formed between the driving device DM and the pneumatic pump AP. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2 and the transmission device TM, four transmission speed ratios are formed between the driving device DM and the executing device ED. And/or the driving device DM is connected with the hydraulic pump HP directly or indirectly through the first clutch C1, the second clutch C2. And/or the driving device DM is connected with the pneumatic pump AP directly or indirectly through the first clutch C1 and the second clutch C2. And/or the drive device DM is directly or indirectly connected to the actuator ED via the first clutch C1 and the second clutch C2. And/or four transmission ratios between the driving device DM and the hydraulic pump HP under direct or indirect action of the first clutch C1, the second clutch C2 and the transmission TM. And/or four transmission speed ratios between the driving device DM and the pneumatic pump AP under the direct or indirect action of the first clutch C1, the second clutch C2 and the transmission TM. And/or four transmission ratios between the driving device DM and the actuating device ED under the direct or indirect action of the first clutch C1, the second clutch C2 and the transmission TM. And/or

Between the drive means DM and the hydraulic pump HP, the transmission TM is configured to function with at least five transmission ratios. And/or between the drive DM and the pneumatic pump AP, the transmission TM is configured to function with at least five transmission ratios. And/or between the driving means DM and the actuating means ED, the transmission TM is configured to function with at least five transmission ratios. And/or between the drive means DM and the hydraulic pump HP, the transmission TM is configured at least to function with a transmission ratio that varies within a range of ratios. And/or between the drive DM and the pneumatic pump AP, the transmission TM is configured to function at least as a transmission ratio that varies within a range of ratios. And/or between the driving means DM and the actuating means ED, the transmission TM is configured at least to function with a transmission ratio that varies within a range of ratios. And/or the transmission TM is equipped with at least a first overrunning clutch FC1, a second overrunning clutch FC2, a first clutch C1 and a second clutch C2. And/or the transmission TM is equipped with at least the first clutch C1, the second clutch C2, the third clutch C3. And/or the driving device DM is directly or indirectly connected to the hydraulic pump HP through the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1 and the second clutch C2. And/or the driving device DM is connected with the pneumatic pump AP directly or indirectly through the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1 and the second clutch C2. And/or the driving device DM is directly or indirectly connected with the actuating device ED through the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1 and the second clutch C2. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2 and the transmission device TM, five transmission speed ratios are formed between the driving device DM and the hydraulic pump HP. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2 and the transmission device TM, five transmission speed ratios are formed between the driving device DM and the pneumatic pump AP. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2 and the transmission device TM, five transmission speed ratios are formed between the driving device DM and the executing device ED. And/or the drive DM is directly or indirectly connected to the hydraulic pump HP via the first clutch C1, the second clutch C2, the third clutch C3. And/or the driving device DM is connected with the pneumatic pump AP directly or indirectly through the first clutch C1, the second clutch C2, the third clutch C3. And/or the drive device DM is connected to the actuator ED directly or indirectly via the first clutch C1, the second clutch C2 and the third clutch C3. And/or five transmission speed ratios between the driving device DM and the hydraulic pump HP under direct or indirect actions of the first clutch C1, the second clutch C2, the third clutch C3 and the transmission TM. And/or five transmission speed ratios are provided between the driving device DM and the pneumatic pump AP under the direct or indirect action of the first clutch C1, the second clutch C2, the third clutch C3 and the transmission TM. And/or five transmission speed ratios between the driving device DM and the actuating device ED under the direct or indirect action of the first clutch C1, the second clutch C2, the third clutch C3 and the transmission TM. And/or

Between the drive means DM and the hydraulic pump HP, the transmission TM is configured to function with at least six transmission speed ratios. And/or between the driving device DM and the pneumatic pump AP, the transmission TM is configured to function as at least six transmission ratios. And/or between the drive device DM and the actuator ED, the transmission TM is configured to function with at least six transmission ratios. And/or between the drive means DM and the hydraulic pump HP, the transmission TM is configured to function at least as a transmission ratio variable over a range of ratios. And/or between the drive DM and the pneumatic pump AP, the transmission TM is configured to function at least as a transmission ratio that varies over a range of ratios. And/or between the drive means DM and the actuator means ED, the transmission means TM are configured to function at least as a transmission ratio variable over a range of ratios. And/or the transmission TM is equipped with at least a first overrunning clutch FC1, a second overrunning clutch FC2, a first clutch C1, a second clutch C2. And/or the transmission TM is equipped with at least the first clutch C1, the second clutch C2, the third clutch C3. And/or the driving device DM is connected to the hydraulic pump HP directly or indirectly through the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, and the second clutch C2. And/or the driving device DM is connected to the pneumatic pump AP directly or indirectly through the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1 and the second clutch C2. And/or the driving device DM is directly or indirectly connected with the actuating device ED through the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1 and the second clutch C2. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2 and the transmission device TM, six transmission speed ratios are formed between the driving device DM and the hydraulic pump HP. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2 and the transmission device TM, six transmission speed ratios are formed between the driving device DM and the pneumatic pump AP. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2 and the transmission device TM, six transmission speed ratios are formed between the driving device DM and the executing device ED. And/or the driving device DM is connected with the hydraulic pump HP directly or indirectly through the first clutch C1, the second clutch C2, the third clutch C3. And/or the driving device DM is connected with the pneumatic pump AP directly or indirectly through the first clutch C1, the second clutch C2, the third clutch C3. And/or the drive device DM is connected to the actuator ED directly or indirectly via the first clutch C1, the second clutch C2 and the third clutch C3. And/or six transmission speed ratios between the driving device DM and the hydraulic pump HP under direct or indirect actions of the first clutch C1, the second clutch C2, the third clutch C3 and the transmission TM. And/or six transmission speed ratios between the driving device DM and the pneumatic pump AP under the direct or indirect actions of the first clutch C1, the second clutch C2, the third clutch C3 and the transmission TM. And/or six transmission speed ratios between the driving device DM and the actuating device ED under the direct or indirect action of the first clutch C1, the second clutch C2, the third clutch C3 and the transmission TM. And/or

Between the drive unit DM and the hydraulic pump HP, the transmission TM is configured to function with at least seven transmission ratios. And/or between the drive DM and the pneumatic pump AP, the transmission TM is configured to function with at least seven transmission ratios. And/or between the drive device DM and the actuator ED, the transmission TM is configured to function with at least seven transmission ratios. And/or between the drive means DM and the hydraulic pump HP, the transmission TM is configured to function at least as a transmission ratio variable over a range of ratios. And/or between the drive DM and the pneumatic pump AP, the transmission TM is configured to function at least as a transmission ratio that varies over a range of ratios. And/or between the drive means DM and the actuator means ED, the transmission means TM are configured to function at least as a transmission ratio variable over a range of ratios. And/or the transmission TM is equipped with at least a first overrunning clutch FC1, a second overrunning clutch FC2, a first clutch C1, a second clutch C2 and a third clutch C3. And/or the transmission TM is provided with at least the first clutch C1, the second clutch C2, the third clutch C3, the fourth clutch C4. And/or the driving device DM is directly or indirectly connected to the hydraulic pump HP through the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2, and the third clutch C3. And/or the driving device DM is connected to the pneumatic pump AP directly or indirectly through the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2, and the third clutch C3. And/or the driving device DM is directly or indirectly connected with the actuating device ED through the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2 and the third clutch C3. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2, the third clutch C3 and the transmission device TM, seven transmission speed ratios are formed between the driving device DM and the hydraulic pump HP. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2, the third clutch C3 and the transmission device TM, seven transmission speed ratios are formed between the driving device DM and the pneumatic pump AP. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2, the third clutch C3 and the transmission device TM, seven transmission speed ratios are formed between the driving device DM and the executing device ED. And/or the driving device DM is connected with the hydraulic pump HP directly or indirectly through the first clutch C1, the second clutch C2, the third clutch C3, the fourth clutch C4. And/or the driving device DM is connected with the pneumatic pump AP directly or indirectly through the first clutch C1, the second clutch C2, the third clutch C3, the fourth clutch C4. And/or the drive device DM is connected to the actuator ED directly or indirectly via the first clutch C1, the second clutch C2, the third clutch C3 and the fourth clutch C4. And/or seven transmission speed ratios between the driving device DM and the hydraulic pump HP under the direct or indirect action of the first clutch C1, the second clutch C2, the third clutch C3, the fourth clutch C4 and the transmission TM. And/or seven transmission speed ratios between the driving device DM and the pneumatic pump AP under direct or indirect actions of the first clutch C1, the second clutch C2, the third clutch C3, the fourth clutch C4 and the transmission TM. And/or seven transmission ratios between the driving device DM and the actuator ED under the direct or indirect action of the first clutch C1, the second clutch C2, the third clutch C3, the fourth clutch C4 and the transmission TM. And/or

Between the drive means DM and the hydraulic pump HP, the transmission TM is configured to function with at least eight transmission ratios. And/or between the driving device DM and the pneumatic pump AP, the transmission TM is configured to function as at least eight transmission ratios. And/or between the drive device DM and the actuator ED, the transmission TM is configured to function with at least eight transmission ratios. And/or between the drive means DM and the hydraulic pump HP, the transmission TM is configured to function at least as a transmission ratio variable over a range of ratios. And/or between the drive DM and the pneumatic pump AP, the transmission TM is configured to function at least as a transmission ratio that varies over a range of ratios. And/or between the drive means DM and the actuator means ED, the transmission means TM are configured to function at least as a transmission ratio variable over a range of ratios. And/or the transmission TM is equipped with at least a first overrunning clutch FC1, a second overrunning clutch FC2, a first clutch C1, a second clutch C2 and a third clutch C3. And/or the transmission TM is provided with at least the first clutch C1, the second clutch C2, the third clutch C3, the fourth clutch C4. And/or the driving device DM is directly or indirectly connected to the hydraulic pump HP through the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2, and the third clutch C3. And/or the driving device DM is connected to the pneumatic pump AP directly or indirectly through the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2, and the third clutch C3. And/or the driving device DM is directly or indirectly connected with the actuating device ED through the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2 and the third clutch C3. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2, the third clutch C3 and the transmission device TM, eight transmission speed ratios are formed between the driving device DM and the hydraulic pump HP. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2, the third clutch C3 and the transmission device TM, eight transmission speed ratios are formed between the driving device DM and the pneumatic pump AP. And/or when the driving device DM rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch FC1, the second overrunning clutch FC2, the first clutch C1, the second clutch C2, the third clutch C3 and the transmission device TM, eight transmission speed ratios are provided between the driving device DM and the executing device ED. And/or the driving device DM is connected with the hydraulic pump HP directly or indirectly through the first clutch C1, the second clutch C2, the third clutch C3, the fourth clutch C4. And/or the driving device DM is connected with the pneumatic pump AP directly or indirectly through the first clutch C1, the second clutch C2, the third clutch C3, the fourth clutch C4. And/or the drive device DM is connected to the actuator ED directly or indirectly via the first clutch C1, the second clutch C2, the third clutch C3 and the fourth clutch C4. And/or eight transmission ratios between the driving device DM and the hydraulic pump HP under direct or indirect actions of the first clutch C1, the second clutch C2, the third clutch C3, the fourth clutch C4 and the transmission TM. And/or eight transmission speed ratios are provided between the driving device DM and the pneumatic pump AP under the direct or indirect actions of the first clutch C1, the second clutch C2, the third clutch C3, the fourth clutch C4 and the transmission TM. And/or eight transmission ratios between the driving device DM and the actuator ED under the direct or indirect action of the first clutch C1, the second clutch C2, the third clutch C3, the fourth clutch C4 and the transmission TM.

Further, the hydraulic pump HP comprises at least one or more axial piston pumps. And/or said hydraulic pump HP comprises at least one or more gear pumps. And/or said hydraulic pump HP comprises at least one or more progressive cavity pumps. And/or said hydraulic pump HP comprises at least one or more vane pumps. And/or said hydraulic pump HP comprises at least one or more diaphragm pumps. And/or said hydraulic pump HP comprises at least one or more double-acting reciprocating pumps. And/or said hydraulic pump HP comprises at least one or more piezoelectric pumps. And/or said hydraulic pump HP comprises at least one or more electromagnetic pumps. And/or said hydraulic pump HP comprises at least one or more radial piston pumps. And/or said hydraulic pump HP comprises at least one or more swash plate axial piston pumps. And/or said hydraulic pump HP comprises at least one or more oblique-axis axial plunger pumps. And/or said pneumatic pump AP comprises at least one or more axial piston pumps. And/or said pneumatic pump AP comprises at least one or more gear pumps. And/or said pneumatic pump AP comprises at least one or more progressive cavity pumps. And/or said pneumatic pump AP comprises at least one or more vane pumps. And/or said pneumatic pump AP comprises at least one or more diaphragm pumps. And/or said pneumatic pump AP comprises at least one or more double-acting reciprocating pumps. And/or said pneumatic pump AP comprises at least one or more piezoelectric pumps. And/or said pneumatic pump AP comprises at least one or more electromagnetic pumps. And/or said pneumatic pump AP comprises at least one or more radial piston pumps. And/or said pneumatic pump AP comprises at least one or more swash plate axial piston pumps. And/or said pneumatic pump AP comprises at least one or more axial piston pumps of the oblique axis type. And/or under the direct or indirect action of said transmission TM, said hydraulic pump HP is configured at least to function directly converting mechanical energy into hydraulic energy. And/or under the direct or indirect action of the transmission TM, the pneumatic pump AP is configured to have at least the function of directly converting mechanical energy into pneumatic energy. And/or under the direct or indirect action of the transmission TM, the actuation device ED is configured at least to function as a means for cleaning or caring for the teeth by means of a toothbrush. And/or under the direct or indirect action of the transmission TM, the actuator ED is configured to at least perform the function of cleaning or caring for interdental spaces by means of an interdental brush. And/or under the direct or indirect action of the transmission TM, the actuation device ED is configured at least to perform the function of cleaning or caring for the teeth by means of orthodontic brushes. And/or under the direct or indirect action of the transmission TM, the actuation device ED is configured to perform at least the function of cleaning or caring the orthodontic retainers by means of orthodontic brushes. And/or under the direct or indirect action of said transmission means TM, said actuation means ED are configured at least with the function of massaging the gums through a massaging head. And/or under the direct or indirect action of said transmission TM, said actuation means ED are configured at least to function for massaging the oral cavity by means of massaging heads. And/or under the direct or indirect action of said transmission TM, said actuation means ED are configured at least with the function of massaging the nasal cavities by means of massaging heads. And/or under the direct or indirect action of said transmission means TM, said actuation means ED are configured at least to function to massage the ear cavity by means of a massage head. And/or under the direct or indirect action of the transmission TM, the actuator ED is configured to perform at least the function of grinding the teeth by means of a grinding head. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured to have at least the function of polishing the teeth by means of a polishing head. And/or under the direct or indirect action of the transmission TM, the actuation means ED are configured at least to function as a drill for drilling a hole in a tooth through a drill bit. And/or under the direct or indirect action of the hydraulic pump HP, the actuating device ED is configured at least to function for cleaning or caring for teeth by means of a toothbrush. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured to at least perform the function of cleaning or caring for interdental spaces by means of an interdental brush. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to perform the function of cleaning or caring for the teeth by means of orthodontic brushes. And/or under the direct or indirect action of the hydraulic pump HP, the actuation device ED is configured to at least have the function of cleaning or caring an orthodontic retainer by means of an orthodontic brush. And/or under the direct or indirect action of said hydraulic pump HP, said actuator ED is configured at least to have the function of massaging the gums through a massaging head. And/or under the direct or indirect action of said hydraulic pump HP, said actuator ED is configured at least with the function of massaging the oral cavity by means of a massaging head. And/or under the direct or indirect action of said hydraulic pump HP, said actuator ED is configured at least with the function of massaging the nasal cavities by means of massaging heads. And/or under the direct or indirect action of said hydraulic pump HP, said actuator ED is configured at least to have the function of massaging the ear cavity by means of a massaging head. And/or under the direct or indirect action of said hydraulic pump HP, said actuating device ED is configured to have at least the function of grinding the teeth through a grinding head. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured to have at least the function of polishing the teeth by means of a polishing head. And/or under the direct or indirect action of the hydraulic pump HP, the actuating device ED is configured at least to function as a drill for drilling a hole in a tooth through a drill bit. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least with the function of spraying water through the spray head, so as to clean or care for the teeth. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least with the function of spraying water through the spray head, so as to clean or care the interdental spaces. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least with the function of spraying water through the spray head, so as to clean or care for the oral cavity. And/or under the direct or indirect action of said hydraulic pump HP, said actuating device ED is configured to have at least the function of spraying water through a spray head in order to clean or care for the orthodontic retainers. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least with the function of spraying water through the spray head, so as to clean or care for the oral cavity. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least with the function of spraying water through the spray head, so as to clean or care for the nasal cavities. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of spraying water through the spray head in order to clean or care for the ear cavity. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured to have at least the function of spraying water through the spray head so as to massage the gums. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of spraying water through the spray head so as to massage the mouth. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured to have at least the function of massaging the nasal cavity by spraying water through the spray head. And/or under the direct or indirect action of said hydraulic pump HP, said actuator ED is configured at least to have the function of spraying water through the spray head, so as to massage the ear cavity. And/or under the direct or indirect action of said hydraulic pump HP, said actuator ED is configured at least with the function of spraying water through a spray head so as to massage the skin. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to perform the function of cleaning or caring teeth by spraying through a spray head. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to perform the function of spraying through the spray head in order to clean or care for interdental spaces. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of spraying through a spray head so as to clean or care for the oral cavity. And/or under the direct or indirect action of the hydraulic pump HP, the actuating device ED is configured to perform at least the function of spraying through a spray head in order to clean or care for orthodontic retainers. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of spraying through a spray head so as to clean or care for the oral cavity. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of spraying through a spray head in order to clean or care for the nasal cavity. And/or under the direct or indirect action of the hydraulic pump HP, the actuating device ED is configured at least to function by spraying through a spray head in order to clean or care for the ear cavity. And/or under the direct or indirect action of said hydraulic pump HP, said actuator ED is configured at least to have the function of massaging the gums by spraying through a spray head. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of massaging the oral cavity by spraying through the spray head. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of massaging the nasal cavity by spraying through the sprayer. And/or under the direct or indirect action of said hydraulic pump HP, said actuator ED is configured at least to have the function of massaging the ear cavity by spraying through the spray head. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of massaging the skin by spraying through the spray head. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of spraying a mixture of water and air through a spray head, so as to clean or care for the teeth. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of spraying a mixture of water and air through a spray head, so as to clean or care the interdental spaces. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of injecting a mixture of water and air through a spray head, so as to clean or care for the oral cavity. And/or under the direct or indirect action of the hydraulic pump HP, the actuating device ED is configured to have at least the function of spraying a mixture of water and air through a spray head in order to clean or care for orthodontic retainers. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of injecting a mixture of water and air through a spray head, so as to clean or care for the oral cavity. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of spraying a mixture of water and air through a spray head, so as to clean or care for the nasal cavity. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of spraying a mixture of water and air through a spray head, so as to clean or care for the ear cavity. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured to have at least the function of injecting a water-air mixture through the nozzles to massage the gums. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured to have at least the function of injecting a mixture of water and air through the spray head, so as to massage the oral cavity. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured to have at least the function of injecting a mixture of water and air through the nozzles, so as to massage the nasal cavity. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured to have at least the function of injecting a mixture of water and air through the nozzle head, so as to massage the ear cavity. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured to have at least the function of injecting a mixture of water and air through the nozzles, so as to massage the skin. And/or the actuator ED is configured to perform at least the function of cleaning or caring teeth by spraying air through the spray head, under the direct or indirect action of the hydraulic pump HP. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of spraying air through the spray head so as to clean or care the interdental spaces. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of spraying air through the spray head so as to clean or care for the oral cavity. And/or under the direct or indirect action of the hydraulic pump HP, the actuating device ED is configured to have at least the function of blowing air through the jet head in order to clean or care for the orthodontic retainers. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of spraying air through the spray head so as to clean or care for the oral cavity. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least with the function of blowing air through the nozzle so as to clean or care for the nasal cavity. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of blowing air through the nozzle head in order to clean or care for the ear cavity. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured to have at least the function of massaging the gums by spraying air through the nozzles. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of massaging the oral cavity by spraying air through the spray head. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of massaging the nasal cavity by means of the jets of air from the nozzles. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured to have at least the function of massaging the ear cavity by blowing air through the nozzle. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of massaging the skin by spraying air through the spray heads. And/or under the direct or indirect action of the pneumatic pump AP, the actuating device ED is configured at least to perform the function of cleaning or caring teeth by blasting through a nozzle. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to perform at least the function of spraying a mixture of air and sand through the nozzle to clean or care for teeth. And/or under the direct or indirect action of the pneumatic pump AP, the actuating device ED is configured to at least have the function of spraying a water-air-sand mixture through a spray head so as to clean or care teeth. And/or under the direct or indirect action of the pneumatic pump AP, the actuating device ED is configured to at least have the function of spraying a mist-sand mixture through a spray head in order to clean or care for teeth. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to perform at least the function of cleaning or caring for teeth by means of a toothbrush. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to at least perform the function of cleaning or caring for interdental spaces by means of an interdental brush. And/or under the direct or indirect action of the pneumatic pump AP, the actuating device ED is configured to perform at least the function of cleaning or caring teeth by means of orthodontic brushes. And/or under the direct or indirect action of said pneumatic pump AP, said actuating device ED is configured to perform at least the function of cleaning or caring orthodontic retainers by means of orthodontic brushes. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the gums by means of a massaging head. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to at least have the function of massaging the oral cavity by means of a massaging head. And/or under the direct or indirect action of said pneumatic pump AP, said actuation means ED are configured at least to have the function of massaging the nasal cavity by means of a massaging head. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the ear cavity by means of a massaging head. And/or under the direct or indirect action of said pneumatic pump AP, said actuating device ED is configured to have at least the function of grinding the teeth by means of a grinding head. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of polishing teeth by means of a polishing head. And/or under the direct or indirect action of said pneumatic pump AP, said actuating device ED is configured to function at least as a drill for drilling a hole in a tooth through a drill bit. And/or under the direct or indirect action of the pneumatic pump AP, the actuating device ED is configured to have at least the function of spraying water through the spray head so as to clean or care for teeth. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of spraying water through the spray head to clean or care the interdental spaces. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of spraying water through the spray head to clean or care for the oral cavity. And/or under the direct or indirect action of said pneumatic pump AP, said actuating device ED is configured to have at least the function of spraying water through a spray head in order to clean or care for the orthodontic retainers. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to at least have the function of spraying water through a spray head to clean or care for the oral cavity. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of spraying water through the nozzle head so as to clean or care for the nasal cavity. And/or under the direct or indirect action of said pneumatic pump AP, said actuating means ED are configured at least to have the function of spraying water through a spray head in order to clean or care for the ear cavity. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the gums by spraying water through the nozzles. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the oral cavity by spraying water through the spray head. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the nasal cavity by spraying water through the nozzle. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the ear cavity by spraying water through the spray head. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the skin by spraying water through the spray head. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to perform at least the function of cleaning or caring teeth by spraying through the spray head. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to perform at least the function of spraying through the nozzle head to clean or care the interdental spaces. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to perform at least the function of spraying through the spray head to clean or care for the oral cavity. And/or under the direct or indirect action of said pneumatic pump AP, said actuating device ED is configured to perform at least the function of spraying through a spray head in order to clean or care for orthodontic retainers. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to perform at least the function of spraying through the spray head to clean or care for the oral cavity. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to perform at least the function of spraying through the nozzle head to clean or care for the nasal cavity. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to perform at least the function of spraying through the spray head to clean or care for the ear cavity. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the gums by spraying through a spray head. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the oral cavity by spraying through the spray head. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the nasal cavity by spraying through the nozzle. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the ear cavity by spraying through the spray head. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured at least to have the function of massaging the skin by spraying through the spray head. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of spraying a water-air mixture through a spray head to clean or care teeth. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to at least have the function of spraying a mixture of water and air through a spray head to clean or care the interdental spaces. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to at least have the function of spraying a mixture of water and air through a spray head to clean or care for the oral cavity. And/or under the direct or indirect action of the pneumatic pump AP, the actuating device ED is configured to have at least the function of spraying a water-air mixture through a spray head so as to clean or care the orthodontic retainer. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to at least have the function of spraying a mixture of water and air through a spray head to clean or care for the oral cavity. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of spraying a mixture of water and air through the nozzle head to clean or care for the nasal cavity. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to at least have the function of spraying a mixture of water and air through a spray head to clean or care for the ear cavity. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of massaging the gums by spraying a water-air mixture through the spray head. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of injecting a water-air mixture through the nozzle head so as to massage the oral cavity. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of massaging the nasal cavity by spraying a mixture of water and air through the nozzles. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the ear cavity by spraying a mixture of water and air through a spray head. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the skin by spraying a mixture of water and air through a spray head. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of cleaning or caring teeth by spraying air through the spray head. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to at least have the function of spraying air through the spray head to clean or care the interdental spaces. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to at least have the function of spraying air through the spray head so as to clean or care the oral cavity. And/or under the direct or indirect action of the pneumatic pump AP, the actuating device ED is configured to perform at least the function of spraying air through the spray head so as to clean or care the orthodontic retainer. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to at least have the function of spraying air through the spray head so as to clean or care the oral cavity. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to at least perform the function of spraying air through the nozzle to clean or care the nasal cavity. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of spraying air through the spray head to clean or care for the ear cavity. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of massaging the gums by spraying air through the spray head. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to at least have the function of injecting air through the nozzle head so as to massage the oral cavity. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of massaging the nasal cavity by means of the jets of air from the jets. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the ear cavity by spraying air through the spray head. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of massaging the skin by spraying air through the spray head. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured at least to have the function of driving the dental brush head by mechanical energy to vibrate, and/or oscillate, and/or rotate, and/or move, and/or spray water, and/or mist, and/or spray a mixture of water and gas, and/or jet air. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured to have at least the function of driving the interdental brush head to vibrate, and/or oscillate, and/or rotate, and/or move, and/or spray water, and/or mist, and/or spray a mixture of water and air, and/or jet air by mechanical energy. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured to have at least the function of driving the orthodontic brushhead to vibrate, and/or oscillate, and/or rotate, and/or move, and/or spray water, and/or mist, and/or spray a mixture of water and air, and/or blow air by mechanical energy. And/or under the direct or indirect action of said transmission means TM, said actuating means ED are configured at least to actuate, by means of mechanical energy, the oscillating, and/or rotating, and/or moving of the massage heads. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured to at least function to drive the tooth brush head to clean or care teeth by mechanical energy. And/or under the direct or indirect action of the transmission device TM, the actuator ED is configured to at least have the function of driving the interdental brush head to clean or care interdental spaces through mechanical energy. And/or under the direct or indirect action of the transmission TM, the actuating device ED is configured to at least function to drive the orthodontic brush head by mechanical energy to clean or care the orthodontic retainer. And/or under the direct or indirect action of the transmission device TM, the actuator ED is configured to have at least the function of driving the massaging head to massage the gum through mechanical energy. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured to at least have the function of driving the massaging head to massage the oral cavity by means of mechanical energy. And/or under the action of said hydraulic pump HP, said actuating device ED is configured at least with the function of driving the tooth brush head to vibrate, and/or oscillate, and/or rotate, and/or move, and/or spray water, and/or mist, and/or spray a mixture of water and air, and/or jet air, directly or indirectly by means of hydraulic energy. And/or under the action of said hydraulic pump HP, said actuating device ED is configured at least with the function of driving the interdental brush head to oscillate, and/or rotate, and/or move, and/or spray water, and/or mist, and/or spray a mixture of water and air, and/or jet air, directly or indirectly by means of hydraulic energy. And/or under the action of said hydraulic pump HP, said actuating device ED is configured to have at least the function of driving, directly or indirectly through hydraulic energy, the orthodontic brushhead to oscillate, and/or rotate, and/or move, and/or spray water, and/or mist, and/or spray a mixture of water and air, and/or jet air. And/or under the action of the hydraulic pump HP, the actuator ED is configured to have at least the function of driving the tooth brush head to clean or care the teeth directly or indirectly through hydraulic energy. And/or under the action of the hydraulic pump HP, the actuating device ED is configured to at least have the function of driving the interdental brush head to clean or care the interdental space directly or indirectly through hydraulic energy. And/or under the action of said hydraulic pump HP, said actuating device ED is configured to have at least the function of driving the orthodontic brushhead to clean or care the orthodontic retainers directly or indirectly through hydraulic energy. And/or under the action of said hydraulic pump HP, said actuator ED is configured to have at least the function of massaging the gums directly or indirectly by driving the massaging heads through hydraulic energy. And/or under the action of said hydraulic pump HP, said actuator ED is configured to have at least the function of driving the massaging heads to massage the oral cavity, directly or indirectly through hydraulic energy. And/or under the action of the hydraulic pump HP, the actuator ED is configured to have at least the function of driving the spray head to spray water directly or indirectly through hydraulic energy. And/or the actuator ED is configured to have at least the function of driving the spray head spray directly or indirectly through hydraulic energy, under the action of the hydraulic pump HP. And/or under the action of the hydraulic pump HP, the actuator ED is configured to have at least the function of driving the spray head to spray the water-air mixture directly or indirectly through hydraulic energy. And/or under the action of the hydraulic pump HP, the actuator ED is configured to have at least the function of driving the nozzle jet directly or indirectly through hydraulic energy. And/or under the action of the pneumatic pump AP, the actuator ED is configured to have at least the function of driving the tooth brush head to vibrate, and/or oscillate, and/or rotate, and/or move, and/or spray water, and/or mist, and/or spray a mixture of water and air, and/or blow air directly or indirectly by pneumatic energy. And/or under the action of the pneumatic pump AP, the actuator ED is configured to have at least the function of driving the interdental brush head to vibrate, and/or oscillate, and/or rotate, and/or move, and/or spray water, and/or mist, and/or spray a mixture of water and air, and/or spray air directly or indirectly through pneumatic energy. And/or under the action of the pneumatic pump AP, the actuating device ED is configured to have at least the function of directly or indirectly driving the orthodontic brush head to vibrate, and/or swing, and/or rotate, and/or move, and/or spray water, and/or spray a water-air mixture, and/or spray air through pneumatic energy. And/or under the action of the pneumatic pump AP, the actuating device ED is configured to at least have the function of directly or indirectly driving the tooth brush head to clean or care teeth through pneumatic energy. And/or under the action of the pneumatic pump AP, the actuating device ED is configured to at least have the function of directly or indirectly driving the interdental brush head to clean or care interdental spaces through pneumatic energy. And/or under the action of the pneumatic pump AP, the actuating device ED is configured to at least have the function of driving the orthodontic brush head to clean or care the orthodontic retainer directly or indirectly through pneumatic energy. And/or under the action of the pneumatic pump AP, the actuator ED is configured to have at least the function of driving the massage head to massage the gum directly or indirectly through pneumatic energy. And/or under the action of the pneumatic pump AP, the actuating device ED is at least provided with a function of driving the massage head to massage the oral cavity directly or indirectly through pneumatic energy. And/or under the action of the pneumatic pump AP, the actuating device ED is configured to have at least the function of driving the nozzle to blast sand directly or indirectly through pneumatic energy. And/or under the action of the pneumatic pump AP, the actuator ED is configured to have at least the function of driving the nozzle to spray the air-sand mixture directly or indirectly through pneumatic pressure. And/or under the action of the pneumatic pump AP, the actuating device ED is configured to have at least the function of driving the spray head to spray the water-air-sand mixture directly or indirectly through pneumatic energy. And/or under the action of the pneumatic pump AP, the actuator ED is configured to at least have the function of directly or indirectly driving the spray head to spray the sand-mist mixture through pneumatic energy. And/or under the direct or indirect action of the transmission device TM, the actuator ED is configured to have at least the function of driving the massaging head to massage the gum through mechanical energy. And/or under the direct or indirect action of the transmission TM, the actuator ED is configured to have at least the function of driving the massaging heads to massage the oral cavity by mechanical energy. And/or under the direct or indirect action of the transmission TM, the actuator ED is configured to have at least the function of massaging the nasal cavity by driving the massaging heads with mechanical energy. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured to at least have the function of driving the massaging head to massage the oral cavity by means of mechanical energy. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured to have at least the function of massaging the skin by driving the massaging head through mechanical energy. And/or under the direct or indirect action of the transmission device TM, the actuator ED is configured to have at least the function of massaging the gums by driving the massaging heads through hydraulic energy. And/or under the direct or indirect action of the transmission TM, the actuator ED is configured to have at least the function of driving the massage heads to massage the oral cavity by hydraulic energy. And/or under the direct or indirect action of the transmission TM, the actuator ED is configured to have at least the function of massaging the nasal cavities by driving the massage heads through hydraulic energy. And/or under the direct or indirect action of the transmission TM, the actuator ED is configured to have at least the function of driving the massage heads to massage the oral cavity by hydraulic energy. And/or under the direct or indirect action of the transmission TM, the actuator ED is configured to have at least the function of massaging the skin by driving the massaging heads through hydraulic energy. And/or under the direct or indirect action of the transmission device TM, the actuator ED is configured to have at least the function of driving the massaging head to massage the gum through pneumatic energy. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured to at least have the function of driving the massaging head to massage the oral cavity by pneumatic energy. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured to have at least the function of massaging the nasal cavity by pneumatically activating the massaging heads. And/or under the direct or indirect action of the transmission device TM, the actuator ED is configured to have at least the function of driving the massage head to massage the oral cavity by pneumatic pressure. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured to at least have the function of massaging the skin by pneumatically driving the massaging head. And/or under the direct or indirect action of said actuator TM, said actuator ED is configured to have at least the function of massaging the gums by spraying water through the spraying heads. And/or under the direct or indirect action of said transmission means TM, said actuation means ED are configured at least to have the function of spraying water through the spray heads, so as to massage the oral cavity. And/or under the direct or indirect action of said actuator TM, said actuator ED is configured at least to have the function of massaging the nasal cavity by spraying water through the nozzle. And/or under the direct or indirect action of said actuator TM, said actuator ED is configured to have at least the function of massaging the ear cavity by spraying water through the spray head. And/or under the direct or indirect action of said transmission means TM, said actuation means ED are configured at least with the function of massaging the skin by spraying water through the spraying heads. And/or under the direct or indirect action of said actuator TM, said actuator ED is configured at least to have the function of massaging the gums by spraying through the nozzles. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured to at least have the function of massaging the oral cavity by spraying through the spray head. And/or under the direct or indirect action of said actuator TM, said actuator ED is configured at least to have the function of massaging the nasal cavity by spraying through the nozzle. And/or under the direct or indirect action of said actuator TM, said actuator ED is configured at least to have the function of massaging the ear cavity by spraying through the spray head. And/or under the direct or indirect action of said actuator TM, said actuator ED is configured at least to have the function of massaging the skin by spraying through the spray head. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured to have at least the function of massaging the gums by spraying a water-air mixture through the nozzles. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured to at least have the function of injecting a water-air mixture through the nozzle so as to massage the oral cavity. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured to have at least the function of massaging the nasal cavity by spraying a mixture of water and air through the nozzles. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured to have at least the function of massaging the ear cavity by spraying a mixture of water and air through the spray head. And/or under the direct or indirect action of said actuator TM, said actuator ED is configured at least to have the function of massaging the skin by spraying a mixture of water and air through a nozzle. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured to have at least the function of massaging the gums by blowing air through the nozzles. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured to have at least the function of massaging the oral cavity by spraying air through the spray head. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured to have at least the function of massaging the nasal cavity by means of the jets of air. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured to have at least the function of massaging the ear cavity by blowing air through the nozzle. And/or under the direct or indirect action of the actuator TM, the actuator ED is configured at least to have the function of massaging the skin by spraying air through the nozzles. And/or under the direct or indirect action of said hydraulic pump HP, said actuator ED is configured at least to have the function of massaging the gums by spraying through a spray head. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of massaging the oral cavity by spraying through the spray head. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of massaging the nasal cavity by spraying through the sprayer. And/or under the direct or indirect action of said hydraulic pump HP, said actuator ED is configured at least to have the function of massaging the ear cavity by spraying through the spray head. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of massaging the skin by spraying through the spray head. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured to have at least the function of injecting a water-air mixture through the nozzles to massage the gums. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured to have at least the function of injecting a mixture of water and air through the spray head, so as to massage the oral cavity. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured to have at least the function of injecting a mixture of water and air through the nozzles, so as to massage the nasal cavity. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured to have at least the function of injecting a mixture of water and air through the nozzle head, so as to massage the ear cavity. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured to have at least the function of injecting a mixture of water and air through the nozzles, so as to massage the skin. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured to have at least the function of massaging the gums by spraying air through the nozzles. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured to have at least the function of massaging the oral cavity by spraying air through the spray head. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of massaging the nasal cavity by means of the jets of air from the nozzles. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured to have at least the function of massaging the ear cavity by blowing air through the nozzle. And/or under the direct or indirect action of the hydraulic pump HP, the actuator ED is configured at least to have the function of massaging the skin by spraying air through the spray heads. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the gums by spraying through a spray head. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the oral cavity by spraying through the spray head. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the nasal cavity by spraying through the nozzle. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the ear cavity by spraying through the spray head. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the skin by spraying through the spray head. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of massaging the gums by spraying a water-air mixture through the spray head. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of injecting a water-air mixture through the nozzle head so as to massage the oral cavity. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of massaging the nasal cavity by spraying a mixture of water and air through the nozzles. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the ear cavity by spraying a mixture of water and air through a spray head. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the skin by spraying a mixture of water and air through a spray head. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of massaging the gums by spraying air through the spray head. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of massaging the oral cavity by spraying air through the spray head. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of massaging the nasal cavity by blowing air through the nozzle. And/or under the direct or indirect action of said pneumatic pump AP, said actuator ED is configured to have at least the function of massaging the ear cavity by spraying air through the spray head. And/or under the direct or indirect action of the pneumatic pump AP, the actuator ED is configured to have at least the function of massaging the skin by spraying air through the spray head. And/or

The all-in-one multi-function flossing machine MC is configured to have at least one flossing mode. In the water floss operation mode, the actuator ED can selectively eject water within a range of flow rates and a range of pressure, and/or the actuator ED can selectively eject water vapor mixture within a range of flow rates and a range of pressure, and/or the actuator ED can selectively eject water mist within a range of concentration and a range of mist droplet sizes, and/or the actuator ED can selectively eject gas within a range of flow rates and a range of pressure, such that the all-in-one cleaning machine MC can clean crevices of teeth under the control of the user. And/or the user can selectively adjust at least the flow rate of the water flow, and/or the pressure of the water flow, and/or the injection speed of the water flow, and/or the injection frequency of the water flow, and/or the frequency of pressure fluctuations of the water flow, and/or the water temperature of the water flow within a certain range. And/or the user can selectively adjust at least the flow rate of the water gas mixture, and/or the pressure of the water gas mixture, and/or the injection speed of the water gas mixture, and/or the injection frequency of the water gas mixture, and/or the pressure fluctuation frequency of the water gas mixture within a certain range. And/or the user can selectively adjust at least the size of the mist droplets, and/or the concentration of the mist droplets, and/or the flow rate, and/or the pressure, and/or the spray velocity, and/or the spray frequency, and/or the frequency of pressure fluctuations of the mist within a certain range. And/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection rate of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range. And/or

The all-in-one multifunctional cleaning machine MC is configured to have at least one electric toothbrush working mode. In the electric toothbrush operating mode, the actuator ED can selectively vibrate, and/or oscillate, and/or rotate, and/or spray water, and/or mist, and/or spray a water-air mixture, and/or jet air, and/or the dental brush head can selectively vibrate, and/or oscillate, and/or rotate, and/or spray water, and/or mist a water-air mixture, and/or jet air, so that the all-in-one cleaning machine MC can clean the teeth under the manipulation of the user. And/or the user can selectively adjust at least the intensity, and/or frequency, of teeth cleaning by the applicator ED within a certain range. And/or the user can selectively adjust at least the flow rate of the water flow, and/or the pressure of the water flow, and/or the injection speed of the water flow, and/or the injection frequency of the water flow, and/or the frequency of pressure fluctuations of the water flow, and/or the water temperature of the water flow within a certain range. And/or the user can selectively adjust at least the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection speed of the water-gas mixture, and/or the injection frequency of the water-gas mixture, and/or the pressure fluctuation frequency of the water-gas mixture within a certain range. And/or the user can selectively adjust at least the size of the mist droplets, and/or the concentration of the mist droplets, and/or the flow rate, and/or the pressure, and/or the spray velocity, and/or the spray frequency, and/or the pressure fluctuation frequency of the mist within a certain range. And/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection rate of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range. And/or

The all-in-one multifunctional cleaning machine MC is configured to have at least one electric toothbrush operation mode. In the operation mode of the electric toothbrush, the actuator ED can selectively vibrate, and/or oscillate, and/or rotate, and/or spray a mixture of water and gas, and/or blow a gas jet, and/or the interdental brush can selectively vibrate, and/or oscillate, and/or rotate, and/or spray a water, and/or spray a mixture of water and gas, and/or blow a gas jet, so that the multipurpose cleaning all-in-one MC can clean interdental spaces under the manipulation of the user. And/or the user can selectively adjust at least the intensity, and/or frequency of cleaning crevices within a certain range. And/or the user can selectively adjust at least the flow rate of the water flow, and/or the pressure of the water flow, and/or the injection speed of the water flow, and/or the injection frequency of the water flow, and/or the frequency of pressure fluctuations of the water flow, and/or the water temperature of the water flow within a certain range. And/or the user can selectively adjust at least the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection speed of the water-gas mixture, and/or the injection frequency of the water-gas mixture, and/or the pressure fluctuation frequency of the water-gas mixture within a certain range. And/or the user can selectively adjust at least the size of the mist droplets, and/or the concentration of the mist droplets, and/or the flow rate, and/or the pressure, and/or the spray velocity, and/or the spray frequency, and/or the pressure fluctuation frequency of the mist within a certain range. And/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection rate of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range. And/or

The multifunctional cleaning all-in-one machine MC is configured to have at least one electric orthodontic brush working mode. In the operating mode of the electric orthodontic brush, the actuator ED can selectively vibrate, and/or oscillate, and/or rotate, and/or spray a mixture of water and gas, and/or blow a jet of gas, and/or the orthodontic brush can selectively vibrate, and/or oscillate, and/or rotate, and/or spray a water, and/or spray a mixture of water and gas, and/or blow a jet of gas, so that the multipurpose cleaning all-in-one MC can clean teeth and/or dental appliances under the manipulation of the user. And/or the user may selectively adjust at least the intensity, and/or frequency of cleaning teeth and/or dental appliances within a range. And/or the user can selectively adjust at least the flow rate of the water flow, and/or the pressure of the water flow, and/or the injection speed of the water flow, and/or the injection frequency of the water flow, and/or the frequency of pressure fluctuations of the water flow, and/or the water temperature of the water flow within a certain range. And/or the user can selectively adjust at least the flow rate of the water gas mixture, and/or the pressure of the water gas mixture, and/or the injection speed of the water gas mixture, and/or the injection frequency of the water gas mixture, and/or the pressure fluctuation frequency of the water gas mixture within a certain range. And/or the user can selectively adjust at least the size of the mist droplets, and/or the concentration of the mist droplets, and/or the flow rate, and/or the pressure, and/or the spray velocity, and/or the spray frequency, and/or the frequency of pressure fluctuations of the mist within a certain range. And/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection rate of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range. And/or

The multi-functional cleaning all-in-one machine MC is configured to have at least one nasal wash mode of operation. In the nasal irrigation mode, the actuator ED may selectively inject a range of flow rates and a range of pressures of water, and/or a mixture of water and vapor, and/or mist, and/or gas, and/or the nozzle may selectively inject a range of flow rates and a range of pressures of water, and/or a mixture of water and vapor, and/or mist, and/or gas, so that the multi-function cleaning all-in-one MC may clean the nasal cavity under the manipulation of the user. And/or the user can selectively adjust at least the flow rate of the water flow, and/or the pressure of the water flow, and/or the injection speed of the water flow, and/or the injection frequency of the water flow, and/or the frequency of pressure fluctuations of the water flow, and/or the water temperature of the water flow within a certain range. And/or the user can selectively adjust at least the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection speed of the water-gas mixture, and/or the injection frequency of the water-gas mixture, and/or the pressure fluctuation frequency of the water-gas mixture within a certain range. And/or the user can selectively adjust at least the size of the mist droplets, and/or the concentration of the mist droplets, and/or the flow rate, and/or the pressure, and/or the spray velocity, and/or the spray frequency, and/or the pressure fluctuation frequency of the mist within a certain range. And/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection rate of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range. And/or

The multifunctional cleaning all-in-one machine MC is configured to have at least one ear washing working mode. In the ear washing operation mode, the actuating device ED can selectively spray water flow, and/or water-gas mixture, and/or water mist, and/or gas in a certain flow range and a certain pressure range, and/or the spray head can selectively spray water flow, and/or water-gas mixture, and/or water mist, and/or gas in a certain flow range and a certain pressure range, so that the all-in-one multifunctional cleaning machine MC can clean the ear cavity under the manipulation of the user. And/or the user can selectively adjust at least the flow rate of the water flow, and/or the pressure of the water flow, and/or the injection speed of the water flow, and/or the injection frequency of the water flow, and/or the frequency of pressure fluctuations of the water flow, and/or the water temperature of the water flow within a certain range. And/or the user can selectively adjust at least the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection speed of the water-gas mixture, and/or the injection frequency of the water-gas mixture, and/or the pressure fluctuation frequency of the water-gas mixture within a certain range. And/or the user can selectively adjust at least the size of the mist droplets, and/or the concentration of the mist droplets, and/or the flow rate, and/or the pressure, and/or the spray velocity, and/or the spray frequency, and/or the pressure fluctuation frequency of the mist within a certain range. And/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection rate of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range. And/or

The all-in-one multifunctional cleaning machine MC is configured to have at least one gum care operation mode. In the gum care operation mode, the actuator ED can selectively inject water flow, and/or water-vapor mixture, and/or water mist, and/or gas with a flow range and a pressure range, and/or the nozzle can selectively inject water flow, and/or water-vapor mixture, and/or water mist, and/or gas with a flow range and a pressure range, and/or the actuator ED can selectively massage the gums, and/or the massage head can selectively massage the gums, so that the all-in-one multi-function cleaning machine MC can massage or care the gums under the manipulation of the user. And/or the user can selectively adjust at least the flow rate of the water flow, and/or the pressure of the water flow, and/or the injection speed of the water flow, and/or the injection frequency of the water flow, and/or the frequency of pressure fluctuations of the water flow, and/or the water temperature of the water flow within a certain range. And/or the user can selectively adjust at least the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection speed of the water-gas mixture, and/or the injection frequency of the water-gas mixture, and/or the pressure fluctuation frequency of the water-gas mixture within a certain range. And/or the user can selectively adjust at least the size of the mist droplets, and/or the concentration of the mist droplets, and/or the flow rate, and/or the pressure, and/or the spray velocity, and/or the spray frequency, and/or the pressure fluctuation frequency of the mist within a certain range. And/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection rate of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range. And/or the user can selectively adjust at least the massage frequency and/or the massage intensity of the actuator ED within a certain range. And/or the user can at least selectively adjust the massage frequency and/or the massage intensity of the massage head within a certain range. And/or

The multifunctional cleaning all-in-one machine MC is constructed to have at least one oral care working mode. In the oral care operation mode, the execution device ED can selectively spray water flow, water-vapor mixture, water mist and/or gas with a certain flow range and a certain pressure range, and/or the spray head can selectively spray water flow, water-vapor mixture, water mist and/or gas with a certain flow range and a certain pressure range, and/or the execution device ED can selectively massage the oral cavity, and/or the massage head can selectively massage the oral cavity, so that the multifunctional all-in-one cleaning machine MC can massage or care the oral cavity under the operation of the user. And/or the user can selectively adjust at least the flow rate of the water flow, and/or the pressure of the water flow, and/or the injection speed of the water flow, and/or the injection frequency of the water flow, and/or the frequency of pressure fluctuations of the water flow, and/or the water temperature of the water flow within a certain range. And/or the user can selectively adjust at least the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection speed of the water-gas mixture, and/or the injection frequency of the water-gas mixture, and/or the pressure fluctuation frequency of the water-gas mixture within a certain range. And/or the user can selectively adjust at least the size of the mist droplets, and/or the concentration of the mist droplets, and/or the flow rate, and/or the pressure, and/or the spray velocity, and/or the spray frequency, and/or the pressure fluctuation frequency of the mist within a certain range. And/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection rate of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range. And/or the user can selectively adjust within a certain range at least the massage frequency, and/or the massage intensity of the actuation means ED. And/or the user can at least selectively adjust the massage frequency and/or the massage intensity of the massage head within a certain range. And/or

The all-in-one multifunctional cleaning machine MC is configured to have at least one nasal cavity nursing working mode. In the nasal cavity nursing operation mode, the execution device ED can selectively spray water flow, water-vapor mixture, water mist and/or gas with a certain flow range and a certain pressure range, and/or the spray head can selectively spray water flow, water-vapor mixture, water mist and/or gas with a certain flow range and a certain pressure range, and/or the execution device ED can selectively massage the nasal cavity, and/or the massage head can selectively massage the nasal cavity, so that the multifunctional cleaning all-in-one machine MC can massage or nurse the nasal cavity under the operation of the user. And/or the user can selectively adjust at least the flow rate of the water flow, and/or the pressure of the water flow, and/or the injection speed of the water flow, and/or the injection frequency of the water flow, and/or the frequency of pressure fluctuations of the water flow, and/or the water temperature of the water flow within a certain range. And/or the user can selectively adjust at least the flow rate of the water gas mixture, and/or the pressure of the water gas mixture, and/or the injection speed of the water gas mixture, and/or the injection frequency of the water gas mixture, and/or the pressure fluctuation frequency of the water gas mixture within a certain range. And/or the user can selectively adjust at least the size of the mist droplets, and/or the concentration of the mist droplets, and/or the flow rate, and/or the pressure, and/or the spray velocity, and/or the spray frequency, and/or the frequency of pressure fluctuations of the mist within a certain range. And/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection rate of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range. And/or the user can selectively adjust within a certain range at least the massage frequency, and/or the massage intensity of the actuation means ED. And/or the user can at least selectively adjust the massage frequency and/or the massage intensity of the massage head within a certain range. And/or

The all-in-one multifunctional cleaning machine MC is constructed to have at least one ear cavity nursing working mode. In the ear cavity nursing operation mode, the execution device ED can selectively inject water flow, water-vapor mixture, water mist and/or gas with a certain flow range and a certain pressure range, and/or the spray head can selectively inject water flow, water-vapor mixture, water mist and/or gas with a certain flow range and a certain pressure range, and/or the execution device ED can selectively massage the ear cavity, and/or the massage head can selectively massage the ear cavity, so that the multifunctional cleaning all-in-one machine MC can massage or nurse the ear cavity under the operation of the user. And/or the user can selectively adjust at least the flow rate of the water flow, and/or the pressure of the water flow, and/or the injection speed of the water flow, and/or the injection frequency of the water flow, and/or the frequency of pressure fluctuations of the water flow, and/or the water temperature of the water flow within a certain range. And/or the user can selectively adjust at least the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection speed of the water-gas mixture, and/or the injection frequency of the water-gas mixture, and/or the pressure fluctuation frequency of the water-gas mixture within a certain range. And/or the user can selectively adjust at least the size of the mist droplets, and/or the concentration of the mist droplets, and/or the flow rate, and/or the pressure, and/or the spray velocity, and/or the spray frequency, and/or the pressure fluctuation frequency of the mist within a certain range. And/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection rate of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range. And/or the user can selectively adjust at least the massage frequency and/or the massage intensity of the actuator ED within a certain range. And/or the user can at least selectively adjust the massage frequency and/or the massage intensity of the massage head within a certain range. And/or

The all-in-one multifunctional cleaning machine MC is configured to have at least one sand blasting working mode. In the sand blasting mode of operation, the actuating device ED can selectively eject a mixture of air and sand and/or a mixture of water and air and sand and/or a mixture of mist and sand with a range of intensities, and/or the spray head can selectively eject a mixture of air and sand and/or a mixture of water and air and sand and/or a mixture of mist and sand with a range of intensities, and/or the actuating device ED can selectively suck water and/or sand and/or suck away the mixture of air and sand and/or suck away the mixture of water and air and sand and/or suck away the mixture of mist and sand, and/or the suction head can selectively suck water and/or sand and/or suck away the mixture of air and sand and/or suck away the mixture of mist and sand, so that the all-in-one multi-function cleaning machine MC can perform sand blasting tooth cleaning on teeth under the manipulation of the user. And/or the user can selectively adjust at least the intensity, and/or frequency of blasting teeth by the applicator ED within a certain range. And/or

The multifunctional cleaning all-in-one machine MC is configured to have at least one tooth grinding work mode. In the teeth-polishing mode, the actuator ED can selectively polish teeth. And/or the polishing head may selectively polish the teeth. And/or the user can selectively adjust within a certain range at least the intensity, and/or the frequency with which the applicator ED grinds the teeth. And/or

The multipurpose cleaning all-in-one machine MC is configured to have at least one tooth polishing mode. In the teeth polishing mode, the actuator ED can selectively polish teeth. And/or the user can selectively adjust within a certain range at least the intensity, and/or frequency, of the teeth polished by the applicator ED. And/or

The all-in-one multifunctional cleaning machine MC is configured to have at least one drilling operation mode. In the drilling mode of operation, the actuator ED can selectively drill a hole in a tooth. And/or the user can selectively adjust at least the intensity of the drilling of the actuating device ED and/or the rotational speed of the drill bit within certain limits. And/or

The multifunctional cleaning all-in-one machine MC is constructed to at least have a three-dimensional scanning and modeling working mode. In the three-dimensional scanning and modeling operation mode, the executing device ED can selectively perform three-dimensional scanning on the target object and establish a corresponding three-dimensional model under the direct or indirect action of the controller CS, and the three-dimensional scanning data and the three-dimensional model data can be stored, transmitted and edited. And/or

The multifunctional cleaning all-in-one machine MC is constructed to have at least one visual working mode. In the visualization mode of operation, the executing device ED can selectively display, enlarge, reduce, and/or virtually display, and/or capture and/or record the target object in real time under the action of the controller CS, and the related data can be stored, transmitted, and edited. And/or

The all-in-one multifunctional cleaning machine MC is configured to have at least one endoscopic mode of operation. In the endoscopic operation mode, the actuator ED, under the action of the controller CS, can selectively display the oral cavity, and/or the nasal cavity, and/or the ear cavity, and/or the pores in an enlarged manner, and can display, and/or screen and/or record in real time, and the relevant data can be stored, transmitted and edited. And/or

The multifunctional cleaning all-in-one machine MC is constructed to have at least one man-machine interaction working mode. In the human machine interaction mode, the controller CS may be configured to control the operation of the hydraulic pump HP and/or the pneumatic pump AP and/or the energy accumulator ES and/or the water tank WT and/or the sand silo SS and/or the air reservoir AT and/or the check valve CV and/or the fluid valve LV and/or the filter FF and/or the controller CS and/or the battery EB according to the user input and/or the feedback of the actuating device ED and/or the feedback of the detection device EH and/or the feedback of the drive device DM and/or the feedback of the hydraulic pump HP and/or the feedback of the energy accumulator ES and/or the feedback of the water tank WT and/or the feedback of the sand silo SS and/or the feedback of the air reservoir AT and/or the feedback of the check valve CV and/or the feedback of the fluid valve LV and/or the feedback of the filter FF and/or the controller CS and/or the battery EB, And/or feedback of the human power MP, and/or feedback of the electric power EP, and/or feedback of the outside water source WS, and/or feedback of the outside air EA, optionally giving an operation prompt message, and/or optionally giving an operation result message, and/or optionally giving an operation evaluation effect, and/or optionally charging the battery EB, and/or optionally giving a health evaluation result, and/or optionally giving a cleaning evaluation result. And/or

The multifunction cleaning all-in-one MC is configured to have at least one standby operation mode. In the standby operating mode, the control unit CS and/or the actuating device ED and/or the drive device DM and/or the hydraulic pump HP and/or the pneumatic pump AP and/or the energy store ES and/or the water tank WT and/or the sand silo SS and/or the air reservoir AT and/or the non-return valve CV and/or the fluid valve LV and/or the filter FF and/or the battery EB are in a standby state. And/or

The multifunction cleaning all-in-one MC is configured to have at least one failure mode. In the failure mode, the functions of some modules of the multifunctional cleaning all-in-one machine MC are limited, and the multifunctional cleaning all-in-one machine MC can selectively give out a failure code, and/or prompt message, and/or failure message. And/or

The multifunctional cleaning all-in-one machine MC at least comprises a control system. And/or said controller CS comprises at least one control system. And/or under the direct or indirect action of the controller CS and/or the control system, according to the user input, and/or the feedback of the actuating device ED, and/or the feedback of the detection device EH, and/or the feedback of the drive device DM, and/or the feedback of the hydraulic pump HP, and/or the feedback of the pneumatic pump AP, and/or the feedback of the energy storage ES, and/or the feedback of the water tank WT, and/or the feedback of the sand silo SS, and/or the feedback of the air storage tank AT, and/or the feedback of the check valve CV, and/or the feedback of the fluid valve LV, and/or the feedback of the filter FF, and/or the feedback of the controller CS, and/or the feedback of the battery EB, And/or feedback of the human power MP, and/or feedback of the electric power EP, and/or feedback of the outside water source WS, and/or feedback of the outside air EA, the all-in-one multifunctional cleaning machine MC is configured to have at least a function of selectively adopting different operation modes.

Compared with the prior art, the utility model has the following advantages:

1. one machine has multiple functions: the utility model integrates the functions of a plurality of personal cleaning products such as an electric toothbrush, an electric dental floss, a nose washing device, an ear washing device, a sand blasting tooth cleaning device and the like, and can realize the cleaning and nursing functions of teeth, and/or teeth slits, and/or oral cavity, and/or nasal cavity, and/or ear cavity by replacing different executing devices.

2. Small volume, light weight: because the utility model adopts one machine to replace a plurality of machines to realize a plurality of cleaning functions and a plurality of composition modules of the utility model can be used universally under different cleaning working modes, the utility model has small overall volume and light weight.

3. The cost performance is high, and the manufacturing cost is lower: the multifunctional cleaning machine integrates various cleaning machine functions in a one-machine multifunctional mode, and has the advantages of not complex overall structure and fewer components, so that the cost performance is high, and the manufacturing cost is low.

The above features and advantages and other features and advantages of the present invention are readily apparent from the following detailed description of the best modes for carrying out the utility model when taken in connection with the accompanying drawings, all of which are intended to be illustrative, and not limiting in any way, of the definition and scope of the utility model.

Drawings

Fig. 1 to fig. 30 are schematic views of technical solutions of the multifunctional cleaning all-in-one machine in embodiments 1 to 30, respectively. Fig. 31 to 38 are schematic views of technical solutions of the transmission TM, respectively. The symbols in the figure illustrate: MC-multifunctional cleaning integrated machine, EH-shell, ED-actuating device, DM-driving device, TM-transmission device, HP-hydraulic pump, AP-pneumatic pump, ES-accumulator, WT-water tank, AT-air storage tank, SS-sand cabin, CV-one-way valve, LV-fluid valve, FF-filter, CS-controller, EB-battery, MP-manpower (manual input power), EP-electric power (external power supply), EA-outside air, WS-outside water source, FC 1-first overrunning clutch, FC 2-second overrunning clutch, C1-first clutch, C2-second clutch, C3-third clutch, C4-fourth clutch, T1-first transmission shaft, T2-second transmission shaft, t3-third transmission shaft, T4-fourth transmission shaft, T5-fifth transmission shaft, P1-first driving gear, P2-second driving gear, P3-third driving gear, P4-fourth driving gear, P5-fifth driving gear, P6-sixth driving gear, P7-seventh driving gear, P8-eighth driving gear, W1-first driven gear, W2-second driven gear, W3-third driven gear, W4-fourth driven gear, W5-fifth driven gear, W6-sixth driven gear, W7-seventh driven gear, W8-eighth driven gear, G1-first transmission gear, G2-second transmission gear, G3-third transmission gear, G4-fourth transmission gear. In the drawings, "…" represents an electrical connection, and/or a signal connection, "-" represents a mechanical connection, and/or a hydraulic pipe connection, and/or a pneumatic pipe connection.

Detailed Description

The utility model is further described below with reference to the drawings and examples, but the utility model is not limited to the description of the examples. It is to be understood that only a few preferred embodiments of the present invention have been described, and not all embodiments have been described. Since numerous changes may be made by those skilled in the art based on the principles of the utility model, it is not intended that the utility model be limited to the details shown and described, but that the utility model will include all variations and modifications falling within the scope of the appended claims.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting. As used herein, the singular forms "a", "an", and the like may also be intended to include the plural forms as well, unless the context clearly indicates otherwise. The terms "comprises" and "comprising" are inclusive and therefore specify the presence of stated features, integers, steps, operations, elements, components, parts, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. The method steps, procedures and operations described herein should not be construed as necessarily requiring their performance in the particular order discussed or illustrated, unless specifically identified as an order of performance. It should also be understood that additional or alternative steps may be employed.

Although the terms first, second, third, etc. may be used herein to describe various parts, components, parts, assemblies, layers and/or sections, these parts, components, assemblies, layers and/or sections should not be limited by these terms. These terms may be only used to distinguish one element, component, part, assembly, layer and/or section. Terms such as "first," "second," "third," and other numerical terms when used herein do not imply a sequence or order unless clearly indicated by the context.

Example 1

The multifunctional cleaning all-in-one machine MC, as shown in fig. 1, includes: casing EH, controller CS, drive DM, transmission TM, hydraulic pump HP, pneumatic pump AP, check valve CV, sand silo SS, actuator ED, and water tank WT.

In the drawings, "…" represents an electrical connection, and/or a signal connection, "-" represents a mechanical connection, and/or a hydraulic pipe connection, and/or a pneumatic pipe connection.

The controller CS, the driving device DM, the transmission TM, the hydraulic pump HP, the pneumatic pump AP, and the check valve CV are disposed in the housing EH. The sand silo SS, the execution device ED and the water tank WT are arranged outside the shell EH and are connected with the shell EH. The housing EH is at least configured as a base, and/or as a mounting, and/or as a connection, and/or as a support, and/or as a fastening, and/or as a peripheral envelope of the all-in-one cleaning machine MC. The driving device DM is a power source of the multifunctional cleaning all-in-one machine MC. The drive DM is connected to the power EP. The driving device DM is configured to have at least a function of converting electric energy of the electric power EP into power for driving the multifunction cleaning all-in-one MC. The transmission TM is configured to have at least a function of transmitting power. The hydraulic pump HP is configured to have at least a function of converting mechanical energy into hydraulic energy. The pneumatic pump AP is configured to have at least a function of converting mechanical energy into pneumatic energy. And/or the pneumatic pump AP is configured to have at least a function of converting hydraulic energy into pneumatic energy. The tank WT is configured to have at least a function of storing liquid. The sand silo SS is configured to at least function to store granular solids. The check valve CV is configured to have at least a function of selectively causing a unidirectional flow of fluid. The actuating device ED is configured at least to have a function of cleaning or caring for teeth. The actuator ED is configured to perform at least the function of cleaning or caring for interdental spaces. The actuator ED is configured to at least have a function of cleaning or caring for the oral cavity. The actuating device ED is configured at least to have a function of cleaning or caring for an ear cavity. The actuation device ED is configured to at least have a function of cleaning or caring for the nasal cavity. The actuating device ED is configured at least to function as a cleaning or care orthodontic retainer. The actuator ED is configured to have at least a function of massaging the skin. The actuator ED is configured to have at least a function of massaging the gums. The actuator ED is configured to have at least a function of massaging the oral cavity. The actuator ED is configured to have at least the function of massaging the nasal cavity. The actuator ED is configured to have at least the function of massaging the ear cavity. The actuating device ED is configured at least with the function of cleaning or caring for the teeth by sandblasting. The actuator ED is configured to perform at least a function of cleaning or caring teeth by injecting a gas-sand mixture. The actuator ED is configured to have at least a function of cleaning or caring teeth by injecting a water-air-sand mixture. The actuator ED is configured to at least have the function of transmitting the state of the teeth, and/or interdental spaces, and/or oral cavity, and/or nasal cavity, and/or ear cavity, and/or hair follicles to the all-in-one machine MC. The actuator ED is configured to at least have the function of transmitting information about the teeth, and/or slits between the teeth, and/or mouth, and/or nasal cavity, and/or ear cavity, and/or hair follicles to the all-in-one machine MC. The actuator ED is configured with at least the function of displaying to the operator the state of the teeth, and/or the interdental spaces, and/or the oral cavity, and/or the nasal cavity, and/or the otic cavity, and/or the hair follicles. The actuator ED is configured with at least the function of displaying information on the teeth, and/or the slits between the teeth, and/or the oral cavity, and/or the nasal cavity, and/or the ear cavity, and/or the hair follicles to the operator. The actuator ED is configured at least to function as a transmitter and/or receiver of laser light in a certain wavelength range. The actuating device ED is configured at least with the function of emitting and/or receiving infrared radiation in a certain wavelength range. The actuator ED is configured at least with the function of emitting and/or receiving ultraviolet radiation in a certain wavelength range. The actuating device ED is configured at least with the function of emitting and/or receiving visible light rays in a certain wavelength range. The actuating device ED is configured at least with the function of a wireless and/or wired network connection. The actuator ED is configured at least to transmit and/or receive wireless signals. The actuator ED is configured at least to transmit and/or receive wired signals. The actuator ED is configured at least with the function of establishing a local area network. The actuator ED is configured at least to transmit data. The actuator ED is configured at least to receive data. The actuator ED is configured to have at least a function of transmitting data. The actuator ED is configured at least to process data. The actuator ED is configured at least to have the function of taking pictures. The actuating device ED is configured at least to record video. The execution device ED is configured to at least have a picture display and processing function. The execution device ED is configured to have at least video display and processing functions. The actuating device ED is designed at least with the function of visualizing the operating process.

The driving device DM is connected to the controller CS, and the driving device DM selectively drives the multifunctional cleaning all-in-one machine MC under the action of the controller CS. The drive DM is connected to the hydraulic pump HP via the transmission TM. The hydraulic pump HP is connected to the pneumatic pump AP. The hydraulic pump HP is connected to the tank WT via the non-return valve CV. The pneumatic pump AP is connected to the outside air EA through the check valve CV. The pneumatic pump AP is connected to the actuator ED via the non-return valve CV. The hydraulic pump HP is connected to the actuator ED via the non-return valve CV. The sand silo SS is connected with the execution device ED. The hydraulic pump HP converts mechanical energy of the transmission TM into hydraulic energy. The hydraulic pump HP selectively drives the pneumatic pump AP to operate using hydraulic energy.

The multifunctional cleaning all-in-one machine MC at least has a sand blasting working mode. In the sand blasting operation mode, the pneumatic pump AP can selectively spray air-sand mixture, water-air-sand mixture or mist-air-sand mixture with a certain intensity range through the actuator ED under the hydraulic action of the hydraulic pump HP, so that the multifunctional cleaning all-in-one machine MC can perform sand blasting and tooth cleaning on teeth under the operation of the user. In the sand blasting operation mode, the pneumatic pump AP may selectively suck water, sand, the air-sand mixture, the water-sand mixture, or the mist-sand mixture through the actuator ED under the action of the hydraulic pump HP. The user of the multifunctional cleaning all-in-one machine MC can selectively adjust at least the intensity and the frequency of the sand blasting tooth cleaning within a certain range.

The all-in-one multi-function machine MC is configured to have at least one flossing mode. In the flossing mode, the hydraulic pump HP is operable to selectively spray a range of flow rates and a range of pressures through the actuator ED, and/or a range of flow rates and a range of pressures of a water-air mixture through the actuator ED, and/or a range of concentrations and a range of droplet sizes of water mist through the actuator ED, under the influence of the drive TM, such that the all-in-one multipurpose cleaner MC is operable to clean interdental spaces under the control of the user. And/or in the water dental floss working mode, the pneumatic pump AP selectively sprays gas with a certain flow range and a certain pressure range through the actuating device ED under the hydraulic action of the hydraulic pump HP, so that the multifunctional cleaning all-in-one machine MC can clean the teeth seams under the operation of the user. The user can selectively adjust at least the flow rate of the water flow, and/or the pressure of the water flow, and/or the injection speed of the water flow, and/or the injection frequency of the water flow, and/or the pressure fluctuation frequency of the water flow, and/or the water temperature of the water flow within a certain range. And/or the user can selectively adjust at least the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection speed of the water-gas mixture, and/or the injection frequency of the water-gas mixture, and/or the pressure fluctuation frequency of the water-gas mixture within a certain range. And/or the user can selectively adjust at least the size of the mist droplets, and/or the concentration of the mist droplets, and/or the flow rate, and/or the pressure, and/or the spray velocity, and/or the spray frequency, and/or the pressure fluctuation frequency of the mist within a certain range. And/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection rate of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range.

The all-in-one multifunctional cleaning machine MC is configured to have at least one electric toothbrush working mode. In the electric toothbrush operating mode, the actuator ED can be selectively vibrated, and/or swiveled, and/or rotated, and/or sprayed with water, and/or mist, and/or with a mixture of water and vapor under the hydraulic action of the hydraulic pump HP, so that the all-in-one multifunction cleaning machine MC can clean the teeth under the control of the user. And/or in the electric toothbrush operation mode, the actuator ED can selectively vibrate, and/or oscillate, and/or rotate, and/or jet under the action of the air pressure pump AP, so that the multifunctional cleaning all-in-one machine MC can clean teeth under the operation of the user. The user can selectively adjust, within a range, at least the intensity, and/or frequency with which the applicator ED cleans teeth. And/or the user can selectively adjust at least the flow rate of the water flow, and/or the pressure of the water flow, and/or the injection speed of the water flow, and/or the injection frequency of the water flow, and/or the frequency of pressure fluctuations of the water flow, and/or the water temperature of the water flow within a certain range. And/or the user can selectively adjust at least the flow rate of the water gas mixture, and/or the pressure of the water gas mixture, and/or the injection speed of the water gas mixture, and/or the injection frequency of the water gas mixture, and/or the pressure fluctuation frequency of the water gas mixture within a certain range. And/or the user can selectively adjust at least the size of the mist droplets, and/or the concentration of the mist droplets, and/or the flow rate, and/or the pressure, and/or the spray velocity, and/or the spray frequency, and/or the pressure fluctuation frequency of the mist within a certain range. And/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection rate of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range.

The all-in-one multifunctional cleaning machine MC is configured to have at least one electric toothbrush operation mode. In the electric interdental brush operation mode, the actuator ED is selectively vibrated, and/or oscillated, and/or rotated, and/or sprayed with water, and/or mist, and/or a water-air mixture under the hydraulic pressure of the hydraulic pump HP, so that the multipurpose cleaning all-in-one machine MC can clean interdental spaces under the manipulation of the user. And/or in the electric interdental brush working mode, the actuating device ED can selectively vibrate, and/or swing, and/or rotate, and/or jet air under the air pressure of the air pressure pump AP, so that the multifunctional cleaning all-in-one machine MC can clean interdental spaces under the operation of the user. The user can at least selectively adjust the intensity and/or frequency of cleaning teeth gaps within a certain range, and/or the user can at least selectively adjust the flow rate of the water flow, and/or the pressure of the water flow, and/or the injection speed of the water flow, and/or the injection frequency of the water flow, and/or the pressure fluctuation frequency of the water flow, and/or the water temperature of the water flow within a certain range. And/or the user can selectively adjust at least the flow rate of the water gas mixture, and/or the pressure of the water gas mixture, and/or the injection speed of the water gas mixture, and/or the injection frequency of the water gas mixture, and/or the pressure fluctuation frequency of the water gas mixture within a certain range. And/or the user can selectively adjust at least the size of the mist droplets, and/or the concentration of the mist droplets, and/or the flow rate, and/or the pressure, and/or the spray velocity, and/or the spray frequency, and/or the frequency of pressure fluctuations of the mist within a certain range. And/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection rate of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range.

The multifunctional cleaning all-in-one machine MC is configured to have at least one electric orthodontic brush working mode. In the operating mode of the electric orthodontic brush, the actuator ED can be selectively vibrated, and/or oscillated, and/or rotated, and/or sprayed with water, and/or mist, and/or with a mixture of water and vapor under the hydraulic action of the hydraulic pump HP, so that the multifunctional cleaning all-in-one MC can clean the teeth and/or the dental appliances under the manipulation of the user. And/or in the operating mode of the electric orthodontic brush, the actuating device ED can selectively vibrate, and/or oscillate, and/or rotate, and/or jet air under the action of the air pressure pump AP, so that the multifunctional cleaning all-in-one machine MC can clean teeth and/or dental appliances under the manipulation of the user. The user can selectively adjust at least the intensity, and/or frequency of cleaning the teeth and/or the appliances within a range. And/or the user can selectively adjust at least the flow rate of the water flow, and/or the pressure of the water flow, and/or the injection speed of the water flow, and/or the injection frequency of the water flow, and/or the frequency of pressure fluctuations of the water flow, and/or the water temperature of the water flow within a certain range. And/or the user can selectively adjust at least the flow rate of the water gas mixture, and/or the pressure of the water gas mixture, and/or the injection speed of the water gas mixture, and/or the injection frequency of the water gas mixture, and/or the pressure fluctuation frequency of the water gas mixture within a certain range. And/or the user can selectively adjust at least the size of the mist droplets, and/or the concentration of the mist droplets, and/or the flow rate, and/or the pressure, and/or the spray velocity, and/or the spray frequency, and/or the frequency of pressure fluctuations of the mist within a certain range. And/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection rate of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range.

The multifunctional cleaning all-in-one machine MC is configured to have at least one nasal wash working mode. In the nasal irrigation mode, the actuator ED is operable to selectively eject a flow of water, and/or a mixture of water and air, and/or a mist of water at a range of flow rates and a range of pressures under the hydraulic action of the hydraulic pump HP, such that the MC is operable to clean the nasal cavities under the control of the user. And/or the actuator ED can selectively inject a certain flow range and a certain pressure range of air under the action of the air pressure pump AP, so that the multifunctional cleaning all-in-one machine MC can clean the nasal cavity under the operation of the user. The user can selectively adjust at least the flow rate of the water flow, and/or the pressure of the water flow, and/or the injection speed of the water flow, and/or the injection frequency of the water flow, and/or the pressure fluctuation frequency of the water flow, and/or the water temperature of the water flow within a certain range. And/or the user can selectively adjust at least the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection speed of the water-gas mixture, and/or the injection frequency of the water-gas mixture, and/or the pressure fluctuation frequency of the water-gas mixture within a certain range. And/or the user can selectively adjust at least the size of the mist droplets, and/or the concentration of the mist droplets, and/or the flow rate, and/or the pressure, and/or the spray velocity, and/or the spray frequency, and/or the pressure fluctuation frequency of the mist within a certain range. And/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection rate of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range.

The multifunctional cleaning all-in-one machine MC is configured to have at least one ear washing working mode. In the ear washing mode, the actuator ED can selectively spray a water flow, and/or a water-air mixture, and/or a water mist with a flow rate range and a pressure range under the hydraulic action of the hydraulic pump HP, so that the multifunctional cleaning all-in-one machine MC can clean the ear cavity under the operation of the user. And/or the actuating device ED can selectively spray a certain flow range and a certain pressure range of gas under the action of the air pressure pump AP, so that the multifunctional cleaning all-in-one machine MC can clean the ear cavity under the operation of the user. And/or the user can selectively adjust at least the flow rate of the water flow, and/or the pressure of the water flow, and/or the injection speed of the water flow, and/or the injection frequency of the water flow, and/or the frequency of pressure fluctuations of the water flow, and/or the water temperature of the water flow within a certain range. And/or the user can selectively adjust at least the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection speed of the water-gas mixture, and/or the injection frequency of the water-gas mixture, and/or the pressure fluctuation frequency of the water-gas mixture within a certain range. And/or the user can selectively adjust at least the size of the mist droplets, and/or the concentration of the mist droplets, and/or the flow rate, and/or the pressure, and/or the spray velocity, and/or the spray frequency, and/or the pressure fluctuation frequency of the mist within a certain range. And/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection rate of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range.

The all-in-one multifunctional cleaning machine MC is configured to have at least one gum care operation mode. In the gum care operation mode, the actuator ED can selectively spray a water flow, and/or a water-air mixture, and/or a water mist with a flow rate range and a pressure range under the hydraulic pressure of the hydraulic pump HP, so that the all-in-one multi-function cleaning machine MC can massage or care the gums under the manipulation of the user. And/or the actuating device ED can selectively spray a certain flow range and a certain pressure range under the air pressure of the air pressure pump AP, so that the multifunctional cleaning all-in-one machine MC can massage or care the gums under the operation of the user. And/or said actuator ED is adapted to selectively massage the gums under the hydraulic action of said hydraulic pump HP. And/or said actuator ED can selectively massage the gums under the action of the air pressure of said air pressure pump AP. The user can selectively adjust at least the flow rate of the water flow, and/or the pressure of the water flow, and/or the injection speed of the water flow, and/or the injection frequency of the water flow, and/or the pressure fluctuation frequency of the water flow, and/or the water temperature of the water flow within a certain range. And/or the user can selectively adjust at least the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection speed of the water-gas mixture, and/or the injection frequency of the water-gas mixture, and/or the pressure fluctuation frequency of the water-gas mixture within a certain range. And/or the user can selectively adjust at least the size of the mist droplets, and/or the concentration of the mist droplets, and/or the flow rate, and/or the pressure, and/or the spray velocity, and/or the spray frequency, and/or the pressure fluctuation frequency of the mist within a certain range. And/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection rate of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range. And/or the user can selectively adjust within a certain range at least the massage frequency, and/or the massage intensity of the actuation means ED.

The multifunctional cleaning all-in-one machine MC is constructed to have at least one oral care working mode. In the oral care mode of operation, the actuator ED is operable to selectively deliver a flow of water, and/or a mixture of water and air, and/or a mist of water at a range of flow rates and a range of pressures under the hydraulic action of the hydraulic pump HP, such that the all-in-one multi-function machine MC is operable to massage or treat the oral cavity under the manipulation of the user. And/or the actuating device ED can selectively spray a certain flow range and a certain pressure range of gas under the action of the air pressure pump AP, so that the multifunctional cleaning all-in-one machine MC can massage or care the oral cavity under the operation of the user. And/or said actuator ED is selectively operable to massage the mouth under the hydraulic action of said hydraulic pump HP. And/or the massage head can selectively massage the oral cavity under the air pressure action of the air pressure pump AP. The user can selectively adjust at least the flow rate of the water flow, and/or the pressure of the water flow, and/or the injection speed of the water flow, and/or the injection frequency of the water flow, and/or the pressure fluctuation frequency of the water flow, and/or the water temperature of the water flow within a certain range. And/or the user can selectively adjust at least the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection speed of the water-gas mixture, and/or the injection frequency of the water-gas mixture, and/or the pressure fluctuation frequency of the water-gas mixture within a certain range. And/or the user can selectively adjust at least the size of the mist droplets, and/or the concentration of the mist droplets, and/or the flow rate, and/or the pressure, and/or the spray velocity, and/or the spray frequency, and/or the pressure fluctuation frequency of the mist within a certain range. And/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection rate of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range. And/or the user can selectively adjust at least the massage frequency and/or the massage intensity of the actuator ED within a certain range.

The all-in-one multifunctional cleaning machine MC is configured to have at least one nasal cavity nursing working mode. In the nasal cavity treatment mode, the actuator ED is operable to selectively eject a flow of water, and/or a mixture of water and air, and/or a mist of water at a range of flow rates and a range of pressures under the hydraulic action of the hydraulic pump HP, such that the multi-function cleaning all-in-one MC is operable to massage or treat the nasal cavity under the control of the user. And/or the actuating device ED can selectively spray gas in a certain flow range and a certain pressure range under the action of the air pressure pump AP, so that the multifunctional cleaning all-in-one machine MC can massage or care the nasal cavity under the operation of the user. And/or said actuator means ED can selectively massage the nasal cavities under the hydraulic action of said hydraulic pump HP. And/or the massage head can selectively massage the nasal cavity under the air pressure action of the air pressure pump AP. The user can selectively adjust at least the flow rate of the water flow, and/or the pressure of the water flow, and/or the injection speed of the water flow, and/or the injection frequency of the water flow, and/or the pressure fluctuation frequency of the water flow, and/or the water temperature of the water flow within a certain range. And/or the user can selectively adjust at least the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection speed of the water-gas mixture, and/or the injection frequency of the water-gas mixture, and/or the pressure fluctuation frequency of the water-gas mixture within a certain range. And/or the user can selectively adjust at least the size of the mist droplets, and/or the concentration of the mist droplets, and/or the flow rate, and/or the pressure, and/or the spray velocity, and/or the spray frequency, and/or the pressure fluctuation frequency of the mist within a certain range. And/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection rate of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range. And/or the user can selectively adjust at least the massage frequency and/or the massage intensity of the actuator ED within a certain range.

The multifunctional cleaning all-in-one machine MC is configured to have at least one ear cavity nursing working mode. In the ear cavity treatment mode, the actuator ED can selectively eject a water stream, and/or a water-air mixture, and/or a water mist with a flow rate range and a pressure range under the hydraulic action of the hydraulic pump HP, so that the multifunctional cleaning all-in-one machine MC can massage or treat the ear cavity under the manipulation of the user. And/or the actuating device ED can selectively spray a certain flow range and a certain pressure range of gas under the action of the air pressure pump AP, so that the multifunctional cleaning all-in-one machine MC can massage or care the ear cavity under the operation of the user. And/or said actuator ED is adapted to selectively massage the ear cavity under the hydraulic action of said hydraulic pump HP. And/or the massage head can selectively massage the ear cavity under the air pressure action of the air pressure pump AP. The user can selectively adjust at least the flow rate of the water stream, and/or the pressure of the water stream, and/or the injection rate of the water stream, and/or the injection frequency of the water stream, and/or the frequency of pressure fluctuations of the water stream, and/or the water temperature of the water stream within a certain range. And/or the user can selectively adjust at least the flow rate of the water gas mixture, and/or the pressure of the water gas mixture, and/or the injection speed of the water gas mixture, and/or the injection frequency of the water gas mixture, and/or the pressure fluctuation frequency of the water gas mixture within a certain range. And/or the user can selectively adjust at least the size of the mist droplets, and/or the concentration of the mist droplets, and/or the flow rate, and/or the pressure, and/or the spray velocity, and/or the spray frequency, and/or the pressure fluctuation frequency of the mist within a certain range. And/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection rate of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range. And/or the user can selectively adjust within a certain range at least the massage frequency, and/or the massage intensity of the actuation means ED.

The multifunctional cleaning all-in-one machine MC is constructed to have at least one tooth grinding work mode. In the teeth grinding operation mode, the actuator ED can selectively grind teeth under the hydraulic pressure of the hydraulic pump HP. And/or said actuating device ED can selectively polish the teeth under the action of the air pressure of said air pressure pump AP. The user can selectively adjust within a certain range at least the intensity, and/or the frequency with which the actuating device ED grinds the teeth.

The multifunctional cleaning all-in-one machine MC is configured to have at least one tooth polishing working mode. In the tooth polishing operation mode, the actuator ED can selectively polish teeth under the hydraulic pressure of the hydraulic pump HP. And/or said actuating device ED can selectively polish the teeth under the action of the air pressure of said air pressure pump AP. The user can selectively adjust within a range at least the intensity, and/or frequency of teeth polishing by the applicator ED.

The multifunctional cleaning all-in-one machine MC is configured to have at least one drilling operation mode. In the drilling operation mode, the actuator ED is selectively operable to drill a hole in a tooth under the hydraulic pressure of the hydraulic pump HP. And/or the actuator ED is selectively operable to drill a hole in the tooth under the influence of air pressure from the air pressure pump AP. The user can selectively adjust at least the intensity of the drilling of the actuating device ED and/or the rotational speed of the drill bit within certain limits.

The multifunctional cleaning all-in-one machine MC is constructed to have at least one man-machine interaction working mode. In the human-computer interaction operation mode, the controller CS may selectively give an operation prompt message and/or selectively give an operation result message and/or selectively give an operation evaluation effect according to the input of the user and the feedback of the driving device DM.

The multifunction cleaning all-in-one MC is configured to have at least one standby operation mode. In the standby operation mode, the controller CS and the driving device DM are in a standby state.

The multifunction cleaning all-in-one MC is configured to have at least one failure mode. In the failure mode, the functions of some modules of the multifunctional cleaning all-in-one machine MC are limited, and the multifunctional cleaning all-in-one machine MC can selectively give out a failure code, and/or prompt message, and/or failure message.

The controller CS comprises at least one control system. Under the action of the controller CS, the multifunctional cleaning all-in-one machine MC is configured to at least selectively adopt different operation modes according to the input of the user, the feedback of the driving device DM and/or the feedback of the controller CS.

Example 2

The multifunction cleaning all-in-one machine MC, as shown in fig. 2, is similar in construction to embodiment 1 except that: in example 2, the battery EB was added; the power EP is connected to the battery EB through the controller CS; the driving device DM is connected to the battery EB through the controller CS; the battery EB is selectively charged or discharged under the action of the controller CS; the battery EB selectively powers or powers off the driving device DM under the action of the controller CS.

Example 3

The multifunctional cleaning all-in-one machine MC, as shown in fig. 3, is similar in construction to embodiment 1 except that: in embodiment 3, the transmission TM is removed; the drive DM is directly connected to the hydraulic pump HP; the drive DM directly drives the hydraulic pump HP.

Example 4

The multifunctional cleaning all-in-one machine MC, as shown in fig. 4, is similar in construction to embodiment 1 except that: in embodiment 4, the fluid valve LV and the accumulator ES are added; the fluid valve LV has at least the function of selectively controlling the direction of the fluid, and/or the fluid valve LV has at least the function of selectively keeping the flow rate of the fluid within a certain range, and/or the fluid valve LV has at least the function of selectively keeping the pressure of the fluid within a certain range, and/or the fluid valve LV has at least the function of selectively controlling the on-off of the fluid; the energy accumulator ES at least has the function of stabilizing the pressure and the flow of the output gas of the pneumatic pump AP; the hydraulic pump HP is connected to the pneumatic pump AP through the fluid valve LV; the pneumatic pump AP is connected with the energy accumulator ES; the energy accumulator ES is connected with the sand silo SS through the one-way valve CV; the energy accumulator ES is connected to the actuator ED via the non-return valve CV; the transmission device TM is connected with the controller CS; the fluid valve LV is connected with the controller CS; the transmission TM selectively transmits power under the action of the controller CS; the fluid valve LV selectively drives the pneumatic pump AP by hydraulic energy of the hydraulic pump HP by the controller CS.

Example 5

The multifunctional cleaning all-in-one machine MC, as shown in fig. 5, is similar in construction to embodiment 1 except that: in embodiment 5, the controller CS is removed; the driving device DM is connected with the manpower MP; the driving device DM selectively drives the multifunctional cleaning all-in-one machine MC under the action of the manpower MP.

Example 6

The multifunctional cleaning all-in-one machine MC, as shown in fig. 6, is similar in construction to embodiment 1 except that: in embodiment 6, the transmission TM is connected to the pneumatic pump AP; the pneumatic pump AP converts the mechanical energy of the transmission TM into pneumatic energy; the hydraulic pump HP is selectively driven to operate by the pneumatic pump AP using pneumatic energy.

Example 7

The multifunction cleaning all-in-one machine MC, as shown in fig. 7, is similar in construction to embodiment 6 except that: in example 7, battery EB was added; the power EP is connected to the battery EB through the controller CS; the driving device DM is connected to the battery EB through the controller CS; the battery EB is selectively charged or discharged under the action of the controller CS; the battery EB selectively powers on or powers off the driving device DM under the action of the controller CS.

Example 8

The multifunction cleaning all-in-one machine MC, as shown in fig. 8, is similar in construction to embodiment 6 except that: in embodiment 8, the transmission TM is removed; the driving device DM is directly connected with the pneumatic pump AP; the driving device DM directly drives the pneumatic pump AP.

Example 9

The multifunction cleaning all-in-one machine MC, as shown in fig. 9, is similar in construction to embodiment 6 except that: in example 9, the fluid valve LV and the air tank AT are added; the fluid valve LV has at least the function of selectively controlling the direction of the fluid, and/or the fluid valve LV has at least the function of selectively keeping the flow rate of the fluid within a certain range, and/or the fluid valve LV has at least the function of selectively keeping the pressure of the fluid within a certain range, and/or the fluid valve LV has at least the function of selectively controlling the on-off of the fluid; the gas storage tank AT AT least has the function of storing gas; the gas storage tank AT AT least has the function of stabilizing the pressure and the flow of the output gas of the pneumatic pump AP; the pneumatic pump AP is connected to the hydraulic pump HP through the fluid valve LV; the pneumatic pump AP is connected with the air storage tank AT; the air storage tank AT is connected with the sand silo SS through the one-way valve CV; the air storage tank AT is connected with the execution device ED through the one-way valve CV; the transmission device TM is connected with the controller CS; the fluid valve LV is connected with the controller CS; the transmission TM selectively transmits power under the action of the controller CS; the fluid valve LV enables the pneumatic pressure of the pneumatic pump AP to selectively drive the hydraulic pump HP under the action of the controller CS.

Example 10

A multifunction cleaning all-in-one machine MC, as shown in fig. 10, is similar in construction to embodiment 6 except that: in embodiment 10, the controller CS is removed; the driving device DM is connected with the manpower MP; the driving device DM selectively drives the multifunctional cleaning all-in-one machine MC under the action of the manpower MP.

Example 11

The multifunction cleaning all-in-one machine MC, as shown in fig. 11, is similar in construction to embodiment 1 except that: in embodiment 11, both the hydraulic pump HP and the pneumatic pump AP are connected to the transmission TM; the hydraulic pump HP converts mechanical energy of the transmission TM into hydraulic energy, and the pneumatic pump AP converts mechanical energy of the transmission TM into pneumatic energy; the hydraulic pump HP is not directly connected to the pneumatic pump AP; several typical structures of the transmission device TM are shown in fig. 31 to 38.

The transmission TM, as shown in fig. 31, includes: the transmission mechanism comprises a first transmission shaft T1, a second transmission shaft T2, a third transmission shaft T3, a first driving gear P1, a first driven gear W1 and a second driven gear W2. The first driving gear P1 is connected to the driving device DM through the first transmission shaft T1. The first driven gear W1 is connected to the hydraulic pump HP through the second driving shaft T2. The second driven gear W2 is connected to the pneumatic pump AP through the third transmission shaft T3. The first driving gear P1 is engaged with the first driven gear W1. The first driving gear P1 and the second driven gear W2 are meshed with each other. The driving device DM may selectively drive the hydraulic pump HP and the pneumatic pump AP simultaneously by the transmission TM.

The transmission TM, as shown in fig. 32, includes: the transmission mechanism comprises a first transmission shaft T1, a second transmission shaft T2, a third transmission shaft T3, a first driving gear P1, a second driving gear P2, a first driven gear W1, a second driven gear W2, a first overrunning clutch FC1 and a second overrunning clutch FC 2. The first transmission shaft T1 is connected to the driving device DM. The first transmission shaft T1 is connected to the first driving gear P1 via the first overrunning clutch FC 1. The first transmission shaft T1 is connected to the second driving gear P2 via the second overrunning clutch FC 2. And the locking direction of the first overrunning clutch FC1 is opposite to the locking direction of the second overrunning clutch FC 2. The first driven gear W1 is connected to the hydraulic pump HP through the second transmission shaft T2. The second driven gear W2 is connected to the pneumatic pump AP through the third transmission shaft T3. The first driving gear P1 is meshed with the first driven gear W1. The second driving gear P2 is meshed with the second driven gear W2. When the driving device DM rotates forwards to input power, the second overrunning clutch FC2 is locked, the first overrunning clutch FC1 is unlocked, and the pneumatic pump AP operates under the driving of the driving device DM. When the driving device DM rotates reversely to input power, the second overrunning clutch FC2 is unlocked, and the first overrunning clutch FC1 is locked, and the hydraulic pump HP is operated by the driving device DM. The driving device DM may selectively drive the hydraulic pump HP and the pneumatic pump AP, respectively, by the transmission TM.

The transmission TM, as shown in fig. 33, includes: the transmission mechanism comprises a first transmission shaft T1, a second transmission shaft T2, a third transmission shaft T3, a first driving gear P1, a second driving gear P2, a first driven gear W1, a second driven gear W2, a third driven gear W3 and a first clutch C1. The first driving gear P1 and the second driving gear P2 are connected to the driving device DM through the first transmission shaft T1. The second transmission shaft T2 is connected to the hydraulic pump HP. The first driven gear W1 is connected to the second transmission shaft T2 via the first clutch C1. The second driven gear W2 is connected to the second transmission shaft T2 via the first clutch C1. The first driven gear W1 can be selectively engaged with or disengaged from the second transmission shaft T2 by the action of the first clutch C1. The second driven gear W2 can be selectively engaged with or disengaged from the second transmission shaft T2 by the action of the first clutch C1. The third driven gear W3 is connected to the pneumatic pump AP through the third transmission shaft T3. The first driving gear P1 is meshed with the first driven gear W1. The second driving gear P2 is meshed with the second driven gear W2. The second driving gear P2 is engaged with the third driven gear W3. The driving means DM can selectively drive the hydraulic pump HP at two transmission speed ratios, and the driving means DM can selectively drive the pneumatic pump AP at one transmission speed ratio, under the action of the transmission TM.

The transmission TM, as shown in fig. 34, includes: the transmission mechanism comprises a first transmission shaft T1, a second transmission shaft T2, a third transmission shaft T3, a fourth transmission shaft T4, a fifth transmission shaft T5, a first driving gear P1, a second driving gear P2, a first driven gear W1, a second driven gear W2, a third driven gear W3, a fourth driven gear W4, a first transmission gear G1, a second transmission gear G2, a third transmission gear G3, a fourth transmission gear G4, a first clutch C1 and a second clutch C2. The first driving gear P1 and the second driving gear P2 are connected to the driving device DM through the first transmission shaft T1. The first transfer gear G1 is connected to the hydraulic pump HP through the fourth transfer shaft T4. The fourth transmission gear G4 is connected with the pneumatic pump AP through the fifth transmission shaft T5. The second transmission gear G2 is connected with the first clutch C1 through the second transmission shaft T2. The third transmission gear G3 is connected with the second clutch C2 through the third transmission shaft T3. The first driven gear W1 is connected to the second transmission shaft T2 via the first clutch C1. The second driven gear W2 is connected to the second transmission shaft T2 through the first clutch C1. The third driven gear W3 is connected to the third transmission shaft T3 through the second clutch C2. The fourth driven gear W4 is connected to the third transmission shaft T3 through the second clutch C2. The first driven gear W1 is selectively engageable with and disengageable from the second transfer shaft T2 by the action of the first clutch C1. The second driven gear W2 is selectively engageable with and disengageable from the second transfer shaft T2 by the action of the first clutch C1. The third driven gear W3 is selectively engageable with and disengageable from the third transfer shaft T3 by the action of the second clutch C2. The fourth driven gear W4 is selectively engageable with and disengageable from the third transfer shaft T3 by the action of the second clutch C2. The first driving gear P1 is engaged with the first driven gear W1. The second driving gear P2 is meshed with the second driven gear W2. The first driving gear P1 and the third driven gear W3 are engaged with each other. The second driving gear P2 is meshed with the fourth driven gear W4. The first transmission gear G1 is meshed with the second transmission gear G2. The first transmission gear G1 is meshed with the third transmission gear G3. The second transmission gear G2 is meshed with the fourth transmission gear G4. The drive means DM is operable to selectively drive the hydraulic pump HP at four transmission speed ratios, and the drive means DM is operable to selectively drive the pneumatic pump AP at four transmission speed ratios, under the influence of the transmission TM.

Said transmission TM, as shown in fig. 35, comprises: the transmission device comprises a first transmission shaft T1, a second transmission shaft T2, a third transmission shaft T3, a fourth transmission shaft T4, a fifth transmission shaft T5, a first driving gear P1, a second driving gear P2, a third driving gear P3, a fourth driving gear P4, a first driven gear W1, a second driven gear W2, a third driven gear W3, a fourth driven gear W4, a fifth driven gear W5, a sixth driven gear W6, a seventh driven gear W7, an eighth driven gear W8, a first transmission gear G1, a second transmission gear G2, a third transmission gear G3, a fourth transmission gear G4, a first clutch C1, a second clutch C2, a third clutch C3 and a fourth clutch C4. The first driving gear P1, the second driving gear P2, the third driving gear P3 and the fourth driving gear P4 are connected to the driving device DM through the first transmission shaft T1. The first transmission gear G1 is connected to the pneumatic pump AP via the fourth transmission gear T4. The fourth driving gear G4 is connected with the hydraulic pump HP through the fifth driving shaft T5. The second transmission gear G2, the first clutch C1 and the second clutch C2 are all connected with the second transmission shaft T2. The third transmission gear G3, the third clutch C3 and the fourth clutch C4 are all connected with the third transmission shaft T3. The first driven gear W1 is connected to the second transmission shaft T2 via the first clutch C1. The second driven gear W2 is connected to the second transmission shaft T2 through the second clutch C2. The third driven gear W3 is connected to the second transmission shaft T2 through the first clutch C1. The fourth driven gear W4 is connected to the second transmission shaft T2 through the second clutch C2. The fifth driven gear W5 is connected to the third transmission shaft T3 through the third clutch C3. The sixth driven gear W6 is connected to the third transmission shaft T3 through the fourth clutch C4. The seventh driven gear W7 is connected to the third transmission shaft T3 through the third clutch C3. The eighth driven gear W8 is connected to the third transmission shaft T3 through the fourth clutch C4. The first driven gear W1 is selectively engageable with and disengageable from the second transfer shaft T2 by the action of the first clutch C1. The second driven gear W2 is selectively engageable with and disengageable from the second transmission shaft T2 by the action of the second clutch C2. The third driven gear W3 is selectively engageable with and disengageable from the second transfer shaft T2 by the action of the first clutch C1. The fourth driven gear W4 is selectively engageable with and disengageable from the second transfer shaft T2 by the action of the second clutch C2. The fifth driven gear W5 is selectively engageable with and disengageable from the third transmission shaft T3 by the third clutch C3. The sixth driven gear W6 is selectively engageable with and disengageable from the third transmission shaft T3 by the action of the fourth clutch C4. The seventh driven gear W7 is selectively engageable with and disengageable from the third transmission shaft T3 by the third clutch C3. The eighth driven gear W8 is selectively engageable with and disengageable from the third transmission shaft T3 by the action of the fourth clutch C4. The first driving gear P1 is engaged with the first driven gear W1. The second driving gear P2 is meshed with the second driven gear W2. The third driving gear P3 is engaged with the third driven gear W3. The fourth driving gear P4 is engaged with the fourth driven gear W4. The first driving gear P1 and the fifth driven gear W5 are engaged with each other. The second driving gear P2 is engaged with the eighth driven gear W8. The third driving gear P3 is engaged with the seventh driven gear W7. The fourth driving gear P4 is engaged with the sixth driven gear W6. The first transmission gear G1 is meshed with the second transmission gear G2. The first transmission gear G1 is meshed with the third transmission gear G3. The second transmission gear G2 is meshed with the fourth transmission gear G4. The drive means DM is operable to selectively drive the pneumatic pump AP in eight transmission ratios and the hydraulic pump HP in eight transmission ratios, under the influence of the transmission TM.

The transmission TM, as shown in fig. 36, includes: the transmission device comprises a first transmission shaft T1, a second transmission shaft T2, a third transmission shaft T3, a first driving gear P1, a second driving gear P2, a third driving gear P3, a fourth driving gear P4, a first driven gear W1, a second driven gear W2, a third driven gear W3, a fourth driven gear W4, a first transmission gear G1, a second transmission gear G2, a first clutch C1 and a second clutch C2. The first driving gear P1, the second driving gear P2, the third driving gear P3 and the fourth driving gear P4 are all connected to the driving device DM through the first transmission shaft T1. The first clutch C1, the second clutch C2 and the first transmission gear G1 are all connected to the hydraulic pump HP through the second transmission shaft T2. The second transmission gear G2 is connected with the pneumatic pump AP through the third transmission shaft T3. The first driven gear W1 is connected to the second transmission shaft T2 via the first clutch C1. The second driven gear W2 is connected to the second transmission shaft T2 through the second clutch C2. The third driven gear W3 is connected to the second transmission shaft T2 through the first clutch C1. The fourth driven gear W4 is connected to the second transmission shaft T2 through the second clutch C2. The first driven gear W1 is selectively engageable with and disengageable from the second transfer shaft T2 by the action of the first clutch C1. The second driven gear W2 is selectively engageable with and disengageable from the second transmission shaft T2 by the action of the second clutch C2. The third driven gear W3 is selectively engageable with and disengageable from the second transfer shaft T2 by the action of the first clutch C1. The fourth driven gear W4 is selectively engageable with and disengageable from the second transfer shaft T2 by the action of the second clutch C2. The first driving gear P1 is engaged with the first driven gear W1. The second driving gear P2 is meshed with the second driven gear W2. The third driving gear P3 is engaged with the third driven gear W3. The fourth driving gear P4 is engaged with the fourth driven gear W4. The first transmission gear G1 is meshed with the second transmission gear G2. The drive means DM is operable to selectively drive the hydraulic pump HP at four transmission speed ratios, and the drive means DM is operable to selectively drive the pneumatic pump AP at four transmission speed ratios, under the influence of the transmission TM.

The transmission TM, as shown in fig. 37, includes: the transmission mechanism comprises a first transmission shaft T1, a second transmission shaft T2, a third transmission shaft T3, a fourth transmission shaft T4, a fifth transmission shaft T5, a first driving gear P1, a second driving gear P2, a third driving gear P3, a fourth driving gear P4, a first driven gear W1, a second driven gear W2, a third driven gear W3, a fourth driven gear W4, a fifth driven gear W5, a sixth driven gear W6, a first transmission gear G1, a second transmission gear G2, a third transmission gear G3, a fourth transmission gear G4, a first clutch C1, a second clutch C2 and a third clutch C3. The first driving gear P1, the second driving gear P2, the third driving gear P3 and the fourth driving gear P4 are connected to the driving device DM through the first transmission shaft T1. The first transfer gear G1 is connected to the hydraulic pump HP through the fourth transfer shaft T4. The fourth transmission gear G4 is connected with the pneumatic pump AP through the fifth transmission shaft T5. The second transmission gear G2, the first clutch C1 and the second clutch C2 are all connected with the second transmission shaft T2. The third transmission gear G3 and the third clutch C3 are connected with the third transmission shaft T3. The first driven gear W1 is connected to the second transmission shaft T2 via the first clutch C1. The second driven gear W2 is connected to the second transmission shaft T2 through the second clutch C2. The third driven gear W3 is connected to the second transmission shaft T2 through the first clutch C1. The fourth driven gear W4 is connected to the second transmission shaft T2 through the second clutch C2. The fifth driven gear W5 is connected to the third transmission shaft T3 through the third clutch C3. The sixth driven gear W6 is connected to the third transmission shaft T3 through the third clutch C3. The first driven gear W1 is selectively engageable with and disengageable from the second transfer shaft T2 by the action of the first clutch C1. The second driven gear W2 is selectively engageable with and disengageable from the second transmission shaft T2 by the action of the second clutch C2. The third driven gear W3 is selectively engageable with and disengageable from the second transfer shaft T2 by the action of the first clutch C1. The fourth driven gear W4 is selectively engageable with and disengageable from the second transfer shaft T2 by the action of the second clutch C2. The fifth driven gear W5 is selectively engageable with and disengageable from the third transmission shaft T3 by the third clutch C3. The sixth driven gear W6 is selectively engageable with and disengageable from the third transmission shaft T3 by the third clutch C3. The first driving gear P1 is engaged with the first driven gear W1. The second driving gear P2 is meshed with the second driven gear W2. The third driving gear P3 is engaged with the third driven gear W3. The fourth driving gear P4 is engaged with the fourth driven gear W4. The first driving gear P1 and the fifth driven gear W5 are engaged with each other. The third driving gear P3 is engaged with the sixth driven gear W6. The first transmission gear G1 is meshed with the second transmission gear G2. The first transmission gear G1 is meshed with the third transmission gear G3. The second transmission gear G2 is meshed with the fourth transmission gear G4. The driving means DM is operable to selectively drive the hydraulic pump HP at six transmission speed ratios, and the driving means DM is operable to selectively drive the pneumatic pump AP at six transmission speed ratios, under the action of the transmission TM.

The transmission TM, as shown in fig. 38, includes: the clutch comprises a first transmission shaft T1, a second transmission shaft T2, a third transmission shaft T3, a first driving gear P1, a second driving gear P2, a third driving gear P3, a fourth driving gear P4, a fifth driving gear P5, a sixth driving gear P6, a seventh driving gear P7, an eighth driving gear P8, a first driven gear W1, a second driven gear W2, a third driven gear W3, a fourth driven gear W4, a fifth driven gear W5, a sixth driven gear W6, a seventh driven gear W7, an eighth driven gear W8, a first transmission gear G1, a second transmission gear G2, a first clutch C1, a second clutch C2, a third clutch C3 and a fourth clutch C4. The first driving gear P1, the second driving gear P2, the third driving gear P3, the fourth driving gear P4, the fifth driving gear P5, the sixth driving gear P6, the seventh driving gear P7, and the eighth driving gear P8 are all connected to the driving device DM through the first transmission shaft T1. The first clutch C1, the second clutch C2, the third clutch C3, the fourth clutch C4 and the first transmission gear G1 are all connected to the hydraulic pump HP through the second transmission shaft T2. The second transmission gear G2 is connected with the pneumatic pump AP through the third transmission shaft T3. The first driven gear W1 is connected to the second transmission shaft T2 via the first clutch C1. The second driven gear W2 is connected to the second transmission shaft T2 through the second clutch C2. The third driven gear W3 is connected to the second transmission shaft T2 through the first clutch C1. The fourth driven gear W4 is connected to the second transmission shaft T2 through the second clutch C2. The fifth driven gear W5 is connected to the second transmission shaft T2 through the third clutch C3. The sixth driven gear W6 is connected to the second transmission shaft T2 through the fourth clutch C4. The seventh driven gear W7 is connected to the second transmission shaft T2 through the third clutch C3. The eighth driven gear W8 is connected to the second transmission shaft T2 through the fourth clutch C4. The first driven gear W1 is selectively engageable with and disengageable from the second transfer shaft T2 by the action of the first clutch C1. The second driven gear W2 is selectively engageable with and disengageable from the second transmission shaft T2 by the action of the second clutch C2. The third driven gear W3 is selectively engageable with and disengageable from the second transfer shaft T2 by the action of the first clutch C1. The fourth driven gear W4 is selectively engageable with and disengageable from the second transfer shaft T2 by the action of the second clutch C2. The fifth driven gear W5 is selectively engageable with and disengageable from the second transmission shaft T2 by the third clutch C3. The sixth driven gear W6 is selectively engageable with and disengageable from the second transmission shaft T2 by the action of the fourth clutch C4. The seventh driven gear W7 is selectively engageable with and disengageable from the second transmission shaft T2 by the third clutch C3. The eighth driven gear W8 is selectively engageable with and disengageable from the second transmission shaft T2 by the action of the fourth clutch C4. The first driving gear P1 is engaged with the first driven gear W1. The second driving gear P2 is meshed with the second driven gear W2. The third driving gear P3 is engaged with the third driven gear W3. The fourth driving gear P4 is engaged with the fourth driven gear W4. The fifth driving gear P5 is engaged with the fifth driven gear W5. The sixth driving gear P6 is engaged with the sixth driven gear W6. The seventh driving gear P7 is engaged with the seventh driven gear W7. The eighth driving gear P8 is meshed with the eighth driven gear W8. The first transmission gear G1 is meshed with the second transmission gear G2. The driving means DM is operable to selectively drive the hydraulic pump HP at eight transmission ratios and the driving means DM is operable to selectively drive the pneumatic pump AP at eight transmission ratios, under the action of the transmission TM.

Example 12

The multifunction cleaning all-in-one machine MC, as shown in fig. 12, is similar in construction to embodiment 11 except that: in example 12, battery EB was added; the power EP is connected to the battery EB through the controller CS; the driving device DM is connected to the battery EB through the controller CS; the battery EB is selectively charged or discharged under the action of the controller CS; the battery EB selectively powers on or powers off the driving device DM under the action of the controller CS.

Example 13

The multifunction cleaning all-in-one machine MC, as shown in fig. 13, is similar in construction to embodiment 11 except that: in example 13, the transmission TM is removed; the driving device DM is directly connected to the hydraulic pump HP and the pneumatic pump AP, respectively; the driving device DM directly drives the hydraulic pump HP and the pneumatic pump AP.

Example 14

The multifunction cleaning all-in-one machine MC, as shown in fig. 14, is similar in construction to embodiment 11 except that: in example 14, a fluid valve LV, an air tank AT, and an accumulator ES are added; the fluid valve LV has at least the function of selectively controlling the direction of the fluid, and/or the fluid valve LV has at least the function of selectively keeping the flow rate of the fluid within a certain range, and/or the fluid valve LV has at least the function of selectively keeping the pressure of the fluid within a certain range, and/or the fluid valve LV has at least the function of selectively controlling the on-off of the fluid; the gas storage tank AT AT least has the function of storing gas; the gas storage tank AT AT least has the function of stabilizing the pressure and the flow of the output gas of the pneumatic pump AP; the accumulator ES has at least a function of stabilizing the fluid pressure; the energy accumulator ES is connected to the hydraulic pump HP; the energy accumulator ES is connected to the actuator ED via the non-return valve CV; the transmission device TM is connected with the controller CS; the fluid valve LV is connected with the controller CS; the pneumatic pump AP is connected with the air storage tank AT through the one-way valve CV; the air storage tank AT is connected with the sand silo SS sequentially through the fluid valve LV and the one-way valve CV; the air storage tank AT is connected with the actuating device ED sequentially through the fluid valve LV and the one-way valve CV; the transmission TM selectively transmits power under the action of the controller CS; the fluid valve LV is operated by the controller CS to selectively drive the actuator ED by the pneumatic pressure from the reservoir AT.

Example 15

A multifunction cleaning all-in-one machine MC, as shown in fig. 15, is similar in construction to embodiment 11 except that: in embodiment 15, the controller CS is removed; the driving device DM is connected with the manpower MP; the driving device DM selectively drives the multifunctional cleaning all-in-one machine MC under the action of the manpower MP.

Example 16

A multifunction cleaning all-in-one machine MC, as shown in fig. 16, is similar in construction to embodiment 1 except that: in example 16, the pneumatic pump AP and the sand silo SS were removed.

Example 17

A multi-function cleaning all-in-one machine MC, as shown in fig. 17, is similar in construction to example 16 except that: in example 17, battery EB was added; the power EP is connected to the battery EB through the controller CS; the driving device DM is connected to the battery EB through the controller CS; the battery EB is selectively charged or discharged under the action of the controller CS; the battery EB selectively powers on or powers off the driving device DM under the action of the controller CS.

Example 18

A multi-function cleaning all-in-one machine MC, as shown in fig. 18, is similar in construction to example 16 except that: in example 18, the transmission TM is removed; the drive DM is directly connected to the hydraulic pump HP; the drive DM directly drives the hydraulic pump HP.

Example 19

A multifunction cleaning all-in-one machine MC, as shown in fig. 19, is similar in construction to embodiment 16 except that: in example 19, a fluid valve LV is added; the transmission device TM is connected with the controller CS; the fluid valve LV is connected with the controller CS; the hydraulic pump HP is connected to the actuator ED in turn via the fluid valve LV, the non-return valve CV; the transmission TM selectively transmits power under the action of the controller CS; the fluid valve LV selectively drives the actuator ED by hydraulic energy of the hydraulic pump HP under the action of the controller CS.

Example 20

A multi-function cleaning all-in-one machine MC, as shown in fig. 20, is similar in construction to example 16 except that: in example 20, the controller CS and the water tank WT are removed; the driving device DM is connected with the manpower MP; the hydraulic pump is connected with an external water source WS through the one-way valve CV; the driving device DM selectively drives the multifunctional cleaning all-in-one machine MC under the action of the manpower MP.

Example 21

The multifunction cleaning all-in-one machine MC, as shown in fig. 21, is similar in construction to embodiment 6 except that: in example 21, the sand silo SS was removed.

Example 22

The multifunction cleaning all-in-one machine MC, as shown in fig. 22, is similar in construction to embodiment 21 except that: in example 22, battery EB was added; the power EP is connected to the battery EB through the controller CS; the driving device DM is connected to the battery EB through the controller CS; the battery EB is selectively charged or discharged under the action of the controller CS; the battery EB selectively powers on or powers off the driving device DM under the action of the controller CS.

Example 23

The multifunction cleaning all-in-one machine MC, as shown in fig. 23, is similar in construction to embodiment 21 except that: in example 23, the transmission TM is removed; the driving device DM is directly connected with the pneumatic pump AP; the driving device DM directly drives the pneumatic pump AP.

Example 24

The multifunction cleaning all-in-one machine MC, as shown in fig. 24, is similar in construction to embodiment 21 except that: in example 24, the fluid valve LV and the air tank AT are added; the fluid valve LV has at least the function of selectively controlling the direction of the fluid, and/or the fluid valve LV has at least the function of selectively keeping the flow rate of the fluid within a certain range, and/or the fluid valve LV has at least the function of selectively keeping the pressure of the fluid within a certain range, and/or the fluid valve LV has at least the function of selectively controlling the on-off of the fluid; the gas storage tank AT AT least has the function of storing gas; the gas storage tank AT AT least has the function of stabilizing the pressure and the flow of the output gas of the pneumatic pump AP; the transmission device TM is connected with the controller CS; the fluid valve LV is connected with the controller CS; the pneumatic pump AP is connected to the hydraulic pump HP through the fluid valve LV; the pneumatic pump AP is connected with the air storage tank AT; the air storage tank AT is connected with the execution device ED through the one-way valve CV; the transmission TM selectively transmits power under the action of the controller CS; the fluid valve LV enables the pneumatic pressure of the pneumatic pump AP to selectively drive the hydraulic pump HP under the action of the controller CS.

Example 25

A multifunction cleaning all-in-one machine MC, as shown in fig. 25, is similar in construction to embodiment 21 except that: in example 25, the controller CS and the water tank WT are removed; the driving device DM is connected with the manpower MP; the hydraulic pump is connected with an external water source WS through the one-way valve CV; the driving device DM selectively drives the multifunctional cleaning all-in-one machine MC under the action of the manpower MP.

Example 26

A multi-function cleaning all-in-one machine MC, as shown in fig. 26, is similar in construction to example 16 except that: in embodiment 26, said transmission TM is connected to said hydraulic pump HP and said transmission TM is connected to said actuator ED; the transmission TM can optionally directly drive the actuator ED.

Example 27

A multi-function cleaning all-in-one machine MC, as shown in fig. 27, is similar in construction to example 26 except that: in example 27, battery EB was added; the power EP is connected to the battery EB through the controller CS; the driving device DM is connected to the battery EB through the controller CS; the battery EB is selectively charged or discharged under the action of the controller CS; the battery EB selectively powers on or powers off the driving device DM under the action of the controller CS.

Example 28

A multifunction cleaning all-in-one machine MC, as shown in fig. 28, is similar in construction to embodiment 26 except that: in embodiment 28, the transmission TM is removed; the driving device DM is directly connected to the hydraulic pump HP and the actuator ED, respectively; the drive device DM directly drives the hydraulic pump HP and the actuator ED.

Example 29

A multi-function cleaning all-in-one machine MC, as shown in fig. 29, is similar in construction to example 26 except that: in example 29, a fluid valve LV is added; the fluid valve LV has at least the function of selectively controlling the direction of the fluid, and/or the fluid valve LV has at least the function of selectively keeping the flow rate of the fluid within a certain range, and/or the fluid valve LV has at least the function of selectively keeping the pressure of the fluid within a certain range, and/or the fluid valve LV has at least the function of selectively controlling the on-off of the fluid; the transmission device TM is connected with the controller CS; the fluid valve LV is connected with the controller CS; the hydraulic pump HP is connected to the actuator ED sequentially via the fluid valve LV and the check valve CV; the transmission TM selectively transmits power under the action of the controller CS; the fluid valve LV selectively drives the actuator ED by hydraulic energy of the hydraulic pump HP under the action of the controller CS.

Example 30

A multifunction cleaning all-in-one machine MC, as shown in fig. 30, is similar in construction to embodiment 26 except that: in example 30, the controller CS and the water tank WT are removed and a filter FF is added; the filter FF at least has the function of selectively separating solid particles with the size larger than a certain range from the liquid; and/or the driving device DM is connected with the manpower MP; the hydraulic pump HP is connected with an external water source WS through the one-way valve CV and the filter FF in sequence; the driving device DM selectively drives the multifunctional cleaning all-in-one machine MC under the action of the manpower MP.

It should be noted that the above-mentioned embodiments illustrate rather than limit the utility model, and that those skilled in the art will be able to design alternative embodiments without departing from the scope of the appended claims. The present embodiments are therefore to be considered as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein, and any reference signs in the claims are not intended to be construed as limiting the claim concerned. In the claims, the word "comprising" does not exclude the presence of data or steps not listed in a claim. Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment includes only a single embodiment, and such description is for clarity only, and those skilled in the art should make the description as a whole, and the embodiments may be appropriately combined to form other embodiments understood by those skilled in the art.

Claims

1. Multifunctional cleaning all-in-one Machine (MC) for at least directly or indirectly cleaning and caring teeth, and/or slits between teeth, and/or oral cavity, and/or nasal cavity, and/or ear cavity of a person, or at least directly or indirectly cleaning and caring teeth, and/or slits between teeth, and/or oral cavity, and/or nasal cavity, and/or ear cavity of an animal, characterized in that:

the multifunctional cleaning all-in-one Machine (MC) at least comprises

A housing (EH);

the housing (EH) is at least configured as a base, and/or a mounting, and/or a connecting, and/or a support, and/or a fixing, and/or a peripheral envelope of the all-in-one cleaning Machine (MC); and/or

The housing (EH) is configured to have at least the function of connecting, and/or mounting, and/or positioning, and/or supporting, and/or enveloping, the parts of the all-in-one multi-function cleaning Machine (MC); and/or

The housing (EH) is configured to have at least the function of being directly or indirectly fixable relative to a human hand, and/or an operating table, and/or a wall of a mounting room; and/or

The housing (EH) is configured to function at least as a modular connection and assembly; and/or

The housing (EH) comprises at least one or more devices; and/or

The housing (EH) comprises at least one component;

an actuating device (ED) arranged in the housing (EH) or connected to the housing (EH); and/or

The actuating device (ED) is configured at least to have a function of cleaning or caring for teeth; and/or

The actuating device (ED) is configured at least to have the function of cleaning or caring for teeth directly or indirectly by means of a toothbrush; and/or

The actuating device (ED) is configured at least with the function of spraying water directly or indirectly through the toothbrush in order to clean or care for the teeth; and/or

The actuating device (ED) is configured at least to function directly or indirectly by spraying with a toothbrush for cleaning or caring for teeth; and/or

The actuating device (ED) is configured at least with the function of spraying a water-air mixture directly or indirectly through the toothbrush in order to clean or care for the teeth; and/or

The actuating device (ED) is configured at least to have the function of cleaning or caring for teeth by means of a gas jet, directly or indirectly, through the toothbrush; and/or

The actuating device (ED) is configured at least to have the function of cleaning or caring for interdental spaces; and/or

The actuating device (ED) is configured at least to have the function of spraying water directly or indirectly through a spray head so as to clean or care the interdental spaces; and/or

The actuating device (ED) is configured at least to perform the function of spraying directly or indirectly through a spray head in order to clean or care for interdental spaces; and/or

The actuating device (ED) is configured at least to have the function of spraying a water-air mixture directly or indirectly through a spray head so as to clean or care the teeth crevices; and/or

The actuating device (ED) is configured at least to have the function of spraying air directly or indirectly through a spray head so as to clean or care the slit between teeth; and/or

The actuating device (ED) is configured at least to function directly or indirectly through an interdental brush for cleaning or caring for interdental spaces; and/or

The actuating device (ED) is configured at least to have the function of spraying water directly or indirectly through the interdental brush so as to clean or care interdental spaces; and/or

The actuating device (ED) is configured at least to perform the function of cleaning or caring for the oral cavity; and/or

The actuating device (ED) is configured at least with the function of spraying water directly or indirectly through a spray head in order to clean or care for the oral cavity; and/or

The actuation means (ED) is configured at least to function by spraying directly or indirectly through the spray head so as to clean or care for the oral cavity; and/or

The actuating device (ED) is configured to have at least the function of injecting a water-air mixture directly or indirectly through a spray head in order to clean or care for the oral cavity; and/or

The actuating device (ED) is configured at least to have the function of blowing air directly or indirectly through a nozzle head in order to clean or care for the oral cavity; and/or

The actuating device (ED) is configured at least to have a function of cleaning or caring for an ear cavity; and/or

The actuating device (ED) is configured at least to have the function of spraying water directly or indirectly through a spray head in order to clean or care for the ear cavity; and/or

The actuating device (ED) is configured at least to function as a spray nozzle, directly or indirectly, for cleaning or caring for the ear cavity; and/or

The actuating device (ED) is configured at least to function as a spray nozzle for spraying a mixture of water and air directly or indirectly through the spray head in order to clean or care for the ear cavity; and/or

The actuating device (ED) is configured at least to perform the function of spraying air directly or indirectly through the spray head in order to clean or care for the ear cavity; and/or

The actuation device (ED) is configured at least for the function of cleaning or caring for the nasal cavity; and/or

The actuation means (ED) are configured at least to have the function of spraying water directly or indirectly through the spray head, so as to clean or care for the nasal cavities; and/or

The actuation means (ED) are configured at least to perform the function of spraying directly or indirectly through a spray head in order to clean or care for the nasal cavity; and/or

The actuation device (ED) is configured at least with the function of injecting a mixture of water and air directly or indirectly through a spray head in order to clean or care for the nasal cavity; and/or

The actuation device (ED) is configured at least to perform the function of spraying air directly or indirectly through a spray head so as to clean or care the nasal cavity; and/or

The actuating device (ED) is configured at least to function as a cleaning or care dental orthodontic retainer; and/or

The actuating device (ED) is configured to have at least the function of cleaning or caring for teeth directly or indirectly by means of an orthodontic brush; and/or

The actuating device (ED) is configured to have at least the function of spraying water directly or indirectly through an orthodontic brush in order to clean or care for teeth; and/or

The actuating device (ED) is configured at least to perform the function of spraying directly or indirectly via an orthodontic brush in order to clean or care for teeth; and/or

The device (ED) is configured at least with the function of spraying a mixture of water and air directly or indirectly through the orthodontic brush, so as to clean or care the teeth; and/or

The actuating device (ED) is configured to perform at least the function of blowing air directly or indirectly through the orthodontic brush in order to clean or care for teeth; and/or

The actuating device (ED) is configured to at least function to clean or care an orthodontic retainer directly or indirectly by means of an orthodontic brush; and/or

The actuating device (ED) is configured to have at least the function of spraying water directly or indirectly through an orthodontic brush in order to clean or care for an orthodontic retainer; and/or

The actuating device (ED) is configured to have at least the function of spraying directly or indirectly through an orthodontic brush to clean or care an orthodontic retainer; and/or

The actuating device (ED) is configured to have at least the function of spraying a mixture of water and air directly or indirectly through the orthodontic brush in order to clean or care the orthodontic retainer; and/or

The actuating device (ED) is configured to at least have the function of blowing gas directly or indirectly through an orthodontic brush in order to clean or care for orthodontic retainers; and/or

The actuating device (ED) is configured at least with the function of cleaning or caring for dental prostheses; and/or

The actuation device (ED) is configured at least with a function of displaying the status of a hair follicle; and/or

The actuation means (ED) are configured at least with the function of massaging the skin; and/or

The actuation device (ED) is configured at least with a function of massaging the gums; and/or

The actuating device (ED) is configured to have at least the function of massaging the gums by spraying water directly or indirectly through a spray head; and/or

The actuator (ED) is configured to have at least the function of massaging the gums by spraying directly or indirectly through a spray head; and/or

The actuator (ED) is configured to have at least the function of massaging the gums by injecting a water-air mixture directly or indirectly through a nozzle; and/or

The actuator (ED) is configured to have at least the function of massaging the gums by blowing air directly or indirectly through the nozzle; and/or

The actuator (ED) is configured to have at least a function of massaging the oral cavity; and/or

Said actuating device (ED) is configured to have at least the function of massaging the oral cavity by spraying water directly or indirectly through the spray head; and/or

The actuator (ED) is configured to have at least the function of massaging the oral cavity by spraying directly or indirectly through the spray head; and/or

The actuation device (ED) is configured at least with a function of massaging the nasal cavity; and/or

Said actuating device (ED) is configured to have at least the function of massaging the nasal cavity by spraying water directly or indirectly through the spray head; and/or

Said actuating device (ED) is configured at least to have the function of massaging the nasal cavity by spraying directly or indirectly through the spray head; and/or

The actuator (ED) is configured to have at least the function of massaging the nasal cavity by injecting a mixture of water and air directly or indirectly through the nozzle; and/or

The actuator (ED) is configured to have at least the function of massaging the nasal cavity by blowing air directly or indirectly through the nozzle; and/or

The actuation means (ED) are configured at least to have the function of massaging the ear cavity; and/or

Said actuating device (ED) is configured to have at least the function of massaging the ear cavity by spraying water directly or indirectly through the spray head; and/or

Said actuator means (ED) being configured at least to have the function of massaging the ear cavity by spraying directly or indirectly through the spray head; and/or

The actuation means (ED) are configured at least to have the function of massaging the nasal cavity by injecting a mixture of water and air directly or indirectly through the nozzle; and/or

The actuation means (ED) are configured at least to have the function of massaging the nasal cavity by blowing air directly or indirectly through the nozzle; and/or

The actuating device (ED) is configured at least with the function of driving the dental brush head directly or indirectly by means of mechanical energy so as to effect a vibration, and/or oscillation, and/or rotation, and/or movement, and/or water spray, and/or mist spray, and/or water-air mixture, and/or air jet of the dental brush head; and/or

The actuating device (ED) is configured at least with the function of driving the interdental brush head directly or indirectly by means of mechanical energy so as to achieve a vibration, and/or a swing, and/or a rotation, and/or a movement, and/or a water spray, and/or a mist spray, and/or a water-air mixture spray, and/or an air jet of the interdental brush head; and/or

The actuating device (ED) is configured to at least have the function of driving the orthodontic brushhead directly or indirectly by means of mechanical energy so as to achieve a vibration, and/or a swing, and/or a rotation, and/or a movement, and/or a water jet, and/or a mist jet, and/or a water-air mixture jet, and/or an air jet of the orthodontic brushhead; and/or

The actuating device (ED) is configured to at least have the function of driving the tooth brush head directly or indirectly by means of hydraulic energy in order to achieve a vibration, and/or oscillation, and/or rotation, and/or movement, and/or water spraying, and/or mist spraying, and/or water-air mixture spraying, and/or air jet of the tooth brush head; and/or

The actuating device (ED) is configured to at least have the function of driving the interdental brush head directly or indirectly by hydraulic energy so as to achieve vibration, and/or oscillation, and/or rotation, and/or movement, and/or water spraying, and/or mist spraying, and/or water-air mixture spraying, and/or air blowing of the interdental brush head; and/or

The actuating device (ED) is configured to at least have the function of driving the orthodontic brushhead directly or indirectly through hydraulic energy so as to achieve the vibration, and/or the oscillation, and/or the rotation, and/or the movement, and/or the water spraying, and/or the mist spraying, and/or the water-air mixture spraying, and/or the air spraying of the orthodontic brushhead; and/or

The actuating device (ED) is configured to at least have the function of driving the tooth brush head directly or indirectly by means of pneumatic energy so as to effect a vibration, and/or oscillation, and/or rotation, and/or movement, and/or air injection, and/or water injection, and/or mist injection, and/or water-air mixture injection, and/or air injection of the tooth brush head; and/or

The actuating device (ED) is configured to at least have the function of driving the interdental brush head directly or indirectly by means of pneumatic energy so as to achieve vibration, and/or oscillation, and/or rotation, and/or movement, and/or air injection, and/or water injection, and/or mist injection, and/or water-air mixture injection, and/or air injection of the interdental brush head; and/or

The actuating device (ED) is configured to at least have the function of driving the orthodontic brushhead directly or indirectly by air pressure to effect vibration, and/or oscillation, and/or rotation, and/or movement, and/or air injection, and/or water injection, and/or mist injection, and/or water-air mixture injection, and/or air injection of the orthodontic brushhead; and/or

The actuating device (ED) is configured to have at least the function of driving the spray head to spray water directly or indirectly through mechanical energy; and/or

The actuating device (ED) is configured to have at least the function of driving the spray head to spray water directly or indirectly through hydraulic energy; and/or

The actuating device (ED) is configured to have at least the function of driving the spray head to spray water directly or indirectly through air pressure energy; and/or

The actuating device (ED) is configured at least to have the function of driving the spray head to spray directly or indirectly by means of mechanical energy; and/or

The actuating device (ED) is configured at least to have the function of driving the spray head spray directly or indirectly by means of hydraulic energy; and/or

The actuating device (ED) is configured to have at least the function of driving the spray head to spray directly or indirectly through air pressure; and/or

The actuating device (ED) is configured to have at least the function of directly or indirectly driving the spray head to spray the water-gas mixture through mechanical energy; and/or

The actuating device (ED) is configured to have at least the function of injecting a water-gas mixture directly or indirectly through a hydraulic energy-driven spray head; and/or

The actuating device (ED) is configured to have at least the function of driving the spray head to spray the water-gas mixture directly or indirectly through air pressure; and/or

The actuating device (ED) is configured to have at least the function of driving the spray head to spray air directly or indirectly through mechanical energy; and/or

The actuating device (ED) is configured to have at least the function of driving the spray head to spray air directly or indirectly through hydraulic energy; and/or

The actuating device (ED) is configured to have at least the function of driving the spray head to spray air directly or indirectly through air pressure; and/or

The actuating device (ED) is configured at least to have the function of driving the jet head to blast sand directly or indirectly through mechanical energy; and/or

The actuating device (ED) is configured at least to have the function of blasting sand directly or indirectly through a hydraulic energy-driven nozzle; and/or

The actuating device (ED) is configured to have at least the function of driving the spray head to spray sand directly or indirectly through air pressure; and/or

The actuating device (ED) is configured at least to have the function of directly or indirectly driving the spray head to spray the gas-sand mixture through mechanical energy; and/or

The actuating device (ED) is configured at least to have the function of injecting a gas-sand mixture directly or indirectly through a hydraulic energy-driven nozzle; and/or

The actuating device (ED) is configured to have at least the function of driving the spray head to spray the gas-sand mixture directly or indirectly through air pressure; and/or

The actuating device (ED) is configured to have at least the function of directly or indirectly driving the spray head to spray the water-gas-sand mixture through mechanical energy; and/or

The actuating device (ED) is configured to have at least the function of directly or indirectly driving the spray head to spray the water-air-sand mixture through hydraulic energy; and/or

The actuating device (ED) is configured to have at least the function of directly or indirectly driving the spray head to spray the water-air-sand mixture through air pressure; and/or

The actuating device (ED) is configured to have at least the function of directly or indirectly driving the spray head to spray the fog and sand mixture through mechanical energy; and/or

The actuating device (ED) is configured to have at least the function of directly or indirectly driving the spray head to spray the fog and sand mixture through hydraulic energy; and/or

The actuating device (ED) is configured to have at least the function of directly or indirectly driving the spray head to spray the fog and sand mixture through air pressure; and/or

The actuating device (ED) is configured to have at least the function of driving the suction head to suck water directly or indirectly through mechanical energy; and/or

The actuating device (ED) is configured to have at least the function of driving the suction head to suck water directly or indirectly through hydraulic energy; and/or

The actuating device (ED) is configured to at least have the function of driving the suction head to suck water directly or indirectly through air pressure; and/or

The actuating device (ED) is configured to have at least the function of driving the suction head to suck sand directly or indirectly through mechanical energy; and/or

The actuating device (ED) is configured to have at least the function of driving the suction head to suck sand directly or indirectly through hydraulic energy; and/or

The actuating device (ED) is configured to have at least the function of driving the suction head to suck sand directly or indirectly through air pressure; and/or

The actuating device (ED) is configured at least to have the function of driving the suction head to suck away the gas-sand mixture directly or indirectly through mechanical energy; and/or

The actuating device (ED) is configured at least with the function of sucking away the air-sand mixture directly or indirectly by means of hydraulic energy driving the suction head; and/or

The actuating device (ED) is configured to at least have the function of directly or indirectly driving the suction head to suck away the air-sand mixture through air pressure energy; and/or

The actuating device (ED) is configured at least to have the function of driving the suction head to suck the water-air-sand mixture away directly or indirectly through mechanical energy; and/or

The actuating device (ED) is configured at least to have the function of driving the suction head to suck the water-air-sand mixture directly or indirectly through hydraulic energy; and/or

The actuating device (ED) is configured to have at least the function of driving the suction head to suck the water-air-sand mixture directly or indirectly through air pressure; and/or

The actuating device (ED) is configured at least with the function of driving the grinding head directly or indirectly by means of mechanical energy in order to grind the teeth; and/or

The actuating device (ED) is configured at least with the function of driving the grinding head directly or indirectly through hydraulic energy in order to grind the teeth; and/or

The actuating device (ED) is configured to have at least the function of driving the grinding head directly or indirectly through pneumatic energy so as to grind the teeth; and/or

The actuating device (ED) is configured at least with the function of driving a polishing head directly or indirectly by means of mechanical energy in order to polish teeth; and/or

The actuating device (ED) is configured at least with the function of driving a polishing head directly or indirectly by means of hydraulic energy in order to polish teeth; and/or

The actuating device (ED) is configured to have at least the function of driving a polishing head directly or indirectly by means of pneumatic energy in order to polish teeth; and/or

The actuating device (ED) is configured to have at least the function of driving a drill directly or indirectly by means of mechanical energy in order to drill a hole in a tooth; and/or

The actuating device (ED) is configured at least with the function of driving a drill directly or indirectly by means of hydraulic energy in order to drill a hole in a tooth; and/or

The actuating device (ED) is configured to have at least the function of driving a drill directly or indirectly by means of pneumatic energy in order to drill a hole in a tooth; and/or

The actuation device (ED) is configured at least with the function of driving the massage heads directly or indirectly by means of mechanical energy in order to massage the skin; and/or

The actuation device (ED) is configured at least with the function of driving the massage heads directly or indirectly by means of hydraulic energy in order to massage the skin; and/or

The actuating device (ED) is configured to have at least the function of driving the massage head directly or indirectly by means of pneumatic energy in order to massage the skin; and/or

The actuating device (ED) is configured to have at least the function of directly or indirectly driving the massage head by means of mechanical energy so as to massage the gum; and/or

The actuating device (ED) is configured to have at least the function of driving the massage head directly or indirectly by means of hydraulic energy so as to massage the gums; and/or

The actuating device (ED) is configured to have at least the function of driving the massage head directly or indirectly through air pressure energy so as to massage the gum; and/or

The actuator (ED) is configured to have at least the function of driving the massage heads directly or indirectly by means of mechanical energy so as to massage the oral cavity; and/or

The actuator (ED) is configured to have at least the function of driving the massage heads directly or indirectly by hydraulic energy so as to massage the oral cavity; and/or

The actuating device (ED) is configured to have at least the function of driving the massage head directly or indirectly through air pressure so as to massage the oral cavity; and/or

The actuation means (ED) are configured to have at least the function of driving the massage heads directly or indirectly by means of mechanical energy, so as to massage the nasal cavities; and/or

The actuation device (ED) is configured at least with the function of massaging the nasal cavity by driving the massage heads directly or indirectly by means of hydraulic energy; and/or

The actuation device (ED) is configured to have at least the function of driving the massage heads directly or indirectly by means of pneumatic energy so as to massage the nasal cavities; and/or

The actuation device (ED) is configured at least with the function of driving the massage head directly or indirectly by means of mechanical energy in order to massage the ear cavity; and/or

The actuating device (ED) is configured at least with the function of driving the massage heads directly or indirectly by means of hydraulic energy in order to massage the ear cavity; and/or

The actuating device (ED) is configured to have at least the function of driving the massage head directly or indirectly by means of pneumatic energy so as to massage the ear cavity; and/or

The actuator (ED) is configured to have at least the function of massaging the gums by spraying water directly or indirectly through a spray head; and/or

Said actuating device (ED) is configured at least with the function of massaging the skin by spraying water directly or indirectly through the spray head; and/or

The actuating device (ED) is configured to have at least the function of massaging the gums by blowing air directly or indirectly through the nozzle; and/or

The actuating device (ED) is configured to have at least the function of massaging the oral cavity by spraying air directly or indirectly through the spray head; and/or

The actuator (ED) is configured to have at least the function of massaging the ear cavity by blowing air directly or indirectly through the nozzle; and/or

The actuator (ED) is configured to have at least the function of massaging the skin by blowing air directly or indirectly through the nozzle; and/or

The actuator (ED) is configured to have at least the function of injecting a water-air mixture directly or indirectly through the nozzle head so as to massage the oral cavity; and/or

Said actuator means (ED) being configured at least to have the function of massaging the ear cavity by injecting a mixture of water and air directly or indirectly through a nozzle; and/or

The actuator (ED) is configured to have at least the function of massaging the skin by spraying a water-air mixture directly or indirectly through a spray head; and/or

The actuating device (ED) is configured at least with the function of cleaning or caring for teeth by blasting directly or indirectly through a nozzle; and/or

The actuating device (ED) is configured at least with the function of spraying an air-sand mixture directly or indirectly through a spray head in order to clean or care for teeth; and/or

The actuating device (ED) is configured to have at least the function of spraying a water-air-sand mixture directly or indirectly through a spray head so as to clean or care teeth; and/or

Said actuating means (ED) being configured at least with the function of directly or indirectly transmitting the state of the teeth, and/or the interdental spaces, and/or the oral cavity, and/or the nasal cavity, and/or the ear cavity, and/or the hair follicles to said all-in-one multipurpose cleaning Machine (MC); and/or

The actuator (ED) is configured to have at least the function of directly or indirectly transmitting information of teeth, and/or slits between teeth, and/or oral cavity, and/or nasal cavity, and/or ear cavity, and/or hair follicle to the all-in-one multifunctional cleaning Machine (MC); and/or

Said actuating device (ED) is configured with at least the function of displaying directly or indirectly to the operator the status of the teeth, and/or the slits between the teeth, and/or the oral cavity, and/or the nasal cavity, and/or the ear cavity, and/or the hair follicles; and/or

Said actuating device (ED) is configured at least with the function of displaying information directly or indirectly on the teeth, and/or the interdental spaces, and/or the oral cavity, and/or the nasal cavity, and/or the auricular cavity, and/or the hair follicles, to the operator; and/or

The actuating device (ED) is configured at least with the function of directly or indirectly emitting and/or receiving laser light in a certain wavelength range; and/or

The actuating device (ED) is configured at least with the function of directly or indirectly emitting and/or receiving infrared radiation in a certain wavelength range; and/or

The actuating device (ED) is configured at least with the function of directly or indirectly emitting and/or receiving ultraviolet radiation in a certain wavelength range; and/or

The actuating device (ED) is configured at least to function directly or indirectly to emit and/or receive light in a certain wavelength range; and/or

The Execution Device (ED) is configured to function at least as a wireless and/or wired network connection; and/or

The actuating device (ED) is configured at least to transmit and/or receive wireless signals; and/or

The actuating device (ED) is configured at least to transmit and/or receive wired signals; and/or

The Execution Device (ED) is configured at least with the function of establishing a local area network; and/or

The Execution Device (ED) is configured at least with the function of directly or indirectly transferring data; and/or

The Execution Device (ED) is configured at least with the function of receiving data directly or indirectly; and/or

The Execution Device (ED) is configured at least with the function of directly or indirectly sending data; and/or

The Execution Device (ED) is configured at least with the function of directly or indirectly processing data; and/or

The Execution Device (ED) is configured to have at least the function of taking pictures directly or indirectly; and/or

The Execution Device (ED) is configured to at least function for directly or indirectly recording video; and/or

The Execution Device (ED) is configured to have at least the functions of picture display and processing; and/or

The Execution Device (ED) is configured to have at least video display and processing functions; and/or

The actuating device (ED) is configured at least with the function of directly or indirectly visualizing an operating process; and/or

The actuating device (ED) is configured at least with a selectively exchangeable function; and/or

The actuating device (ED) is configured at least with the function of modular connection and assembly; and/or

Said executing means (ED) comprising at least one or more devices; and/or

Said actuating device (ED) comprises at least one component; and/or

A drive Device (DM) disposed within or connected to the housing (EH); and/or

The drive Device (DM) is at least designed as a power source for the all-in-one multipurpose cleaning Machine (MC); and/or

The drive Device (DM) is directly or indirectly connected with a human power (MP); and/or

The drive Device (DM) is directly or indirectly connected to an Electric Power (EP); and/or

The human power (MP) is a manual input power; and/or

The Electric Power (EP) is an external power supply; and/or

The Drive Means (DM) being configured to have at least the function of directly or indirectly converting the manual force (MP) into power for driving the all-in-one multi-function cleaning Machine (MC); and/or

-said Drive Means (DM) are configured to have at least the function of directly or indirectly transforming said Electric Power (EP) into power for driving said all-in-one multi-function cleaning Machine (MC); and/or

The driving Device (DM) is configured to have at least the function of directly or indirectly converting internal energy or chemical energy into power for driving the multifunctional cleaning all-in-one Machine (MC); and/or

The Drive Means (DM) being configured at least to directly or indirectly convert internal energy or chemical energy into mechanical energy for driving the multipurpose cleaning all-in-one Machine (MC); and/or

The drive Device (DM) is configured to have at least the function of directly or indirectly converting internal energy or chemical energy into hydraulic energy for driving the multifunctional cleaning all-in-one Machine (MC); and/or

The drive Device (DM) is configured to have at least the function of directly or indirectly converting internal energy or chemical energy into pneumatic energy for driving the all-in-one multifunctional cleaning Machine (MC); and/or

The drive Device (DM) is configured to have at least the function of directly or indirectly converting electric energy into power for driving the all-in-one multifunctional cleaning Machine (MC); and/or

The drive Device (DM) is configured to have at least the function of converting electrical energy directly or indirectly into mechanical energy for driving the multifunctional cleaning all-in-one Machine (MC); and/or

The drive Device (DM) is configured to have at least the function of directly or indirectly converting electrical energy into hydraulic energy for driving the all-in-one multifunctional cleaning Machine (MC); and/or

The driving Device (DM) is configured to have at least the function of directly or indirectly converting electric energy into pneumatic energy for driving the all-in-one multifunctional cleaning Machine (MC); and/or

The drive Device (DM) is configured at least with selectively replaceable functions; and/or

The drive Device (DM) is configured to have at least a function of modular connection and assembly; and/or

Said Driving Means (DM) comprise at least one or more devices; and/or

Said Drive Means (DM) comprising at least one component; and/or

A Transmission (TM) disposed within or connected to the housing (EH); and/or

The Transmission (TM) is configured to have at least a function of transmitting power; and/or

The Transmission (TM) is configured to function at least as a transmission ratio; and/or

The Transmission (TM) is configured to function at least as a plurality of transmission ratios; and/or

The Transmission (TM) is configured to transmit power at least in a range of transmission ratios; and/or

The Transmission (TM) is configured at least with a power splitting function; and/or

The Transmission (TM) is configured to function at least as a power combining; and/or

The Transmission (TM) is configured to function at least as a multiple power input; and/or

The Transmission (TM) is configured to function at least as a multiple power output; and/or

The Transmission (TM) is configured at least with a manual gear-shifting function; and/or

The Transmission (TM) is configured at least with an automatic gear shifting function; and/or

The Transmission (TM) being configured at least with a selectively replaceable function; and/or

The Transmission (TM) is configured at least with modular connection and assembly functions; and/or

Said Transmission Means (TM) comprise at least one or more devices; and/or

Said Transmission (TM) comprises at least one component; and/or

A Hydraulic Pump (HP) disposed within or connected to the housing (EH); and/or

The Hydraulic Pump (HP) is configured to have at least the function of converting mechanical energy directly or indirectly into hydraulic energy; and/or

The Hydraulic Pump (HP) is configured to have at least the function of converting pneumatic energy directly or indirectly into hydraulic energy; and/or

The Hydraulic Pump (HP) is configured at least with a selectively replaceable function; and/or

The Hydraulic Pump (HP) is configured to have at least a modular connection and assembly function; and/or

The Hydraulic Pump (HP) comprises at least one or more pumps; and/or

Said Hydraulic Pump (HP) comprising at least one component; and/or

A pneumatic pump (AP) disposed within or connected to the housing (EH); and/or

The pneumatic pump (AP) is configured to have at least the function of converting mechanical energy into pneumatic energy directly or indirectly; and/or

The pneumatic pump (AP) is configured to have at least a function of directly or indirectly converting hydraulic energy into pneumatic energy; and/or

The pneumatic pump (AP) is configured at least with selectively replaceable functions; and/or

The pneumatic pump (AP) is configured to have at least the functions of modular connection and assembly; and/or

The pneumatic pump (AP) comprises at least one or more pumps; and/or

The pneumatic pump (AP) comprises at least one component; and/or

An Energy Storage (ES) provided in the housing (EH) or connected to the housing (EH); and/or

The accumulator (ES) is configured at least with the function of directly or indirectly storing hydraulic energy; and/or

The Energy Storage (ES) is configured to have at least the function of directly or indirectly storing air pressure energy; and/or

The accumulator (ES) is configured at least with the function of directly or indirectly storing fluid energy; and/or

The energy accumulator (ES) is configured at least with a function of directly or indirectly reducing pressure shocks; and/or

The accumulator (ES) is configured at least with the function of directly or indirectly reducing or increasing fluid pulsations; and/or

The accumulator (ES) is configured at least with the function of directly or indirectly maintaining a constant pressure within a certain range; and/or

The Energy Storage (ES) is configured at least with a selectively replaceable function; and/or

The Energy Storage (ES) is configured at least with a modular connection and assembly function; and/or

The Energy Storage (ES) comprises at least one or more devices; and/or

The energy accumulator (ES) comprises at least one component; and/or

A Water Tank (WT) provided in or connected to the housing (EH); and/or

The tank (WT) is configured to at least function to store liquid directly or indirectly; and/or

The tank (WT) is configured to at least function to filter liquid directly or indirectly; and/or

The tank (WT) is configured to at least have the function of directly or indirectly maintaining a certain degree of cleanliness of the liquid; and/or

The Water Tank (WT) is configured to at least have the function of directly or indirectly maintaining the temperature of the liquid within a certain temperature range; and/or

The tank (WT) is configured to at least function to heat a liquid directly or indirectly to a temperature range; and/or

The Water Tank (WT) is configured to function at least directly or indirectly to cool a liquid to a temperature range; and/or

The Water Tank (WT) is configured to have at least a selectively replaceable function; and/or

The Water Tank (WT) is constructed to have at least a function of modular connection and assembly; and/or

The Water Tank (WT) comprises at least one or more devices; and/or

Said Water Tank (WT) comprises at least one component; and/or

A Sand Silo (SS) arranged in the shell (EH) or connected with the shell (EH); and/or

The Sand Silo (SS) is configured at least with the function of storing granular solids; and/or

The Sand Silo (SS) is configured to have at least the function of directly or indirectly filtering granular solids within a certain size range; and/or

The Sand Silo (SS) is configured to have at least the function of directly or indirectly keeping the granular solid at a certain dryness; and/or

The Sand Silo (SS) is configured at least with the function of directly or indirectly maintaining a certain water content of the granular solid; and/or

The Sand Silo (SS) is configured at least with a selectively replaceable function; and/or

The Sand Silo (SS) is constructed to have at least the functions of modular connection and assembly; and/or

The Sand Silo (SS) comprises at least one or more devices; and/or

The Sand Silo (SS) comprises at least one component; and/or

An air reservoir (AT) disposed within or connected to the housing (EH); and/or

The gas tank (AT) is configured AT least with the function of directly or indirectly storing gas; and/or

The Air Tank (AT) is configured AT least with a function of directly or indirectly filtering dust within a certain size range; and/or

The gas tank (AT) is configured AT least with the function of directly or indirectly keeping the gas AT a certain dryness; and/or

-the gas tank (AT) is configured AT least with the function of directly or indirectly maintaining a certain water content of the gas; and/or

The air reservoir (AT) is configured AT least with a selectively replaceable function; and/or

The Air Tank (AT) is configured AT least with modular connection and assembly functions; and/or

The gas tank (AT) comprises AT least one or more devices; and/or

The air reservoir (AT) comprises AT least one component; and/or

A Check Valve (CV) disposed within or connected to the housing (EH); and/or

The one-way valve (CV) is configured to have at least the function of directly or indirectly allowing free flow of fluid in one direction and blocking flow in the opposite direction; and/or

The Check Valve (CV) is configured to at least function to selectively allow one-way fluid flow, directly or indirectly; and/or

The one-way valve (CV) is configured to at least function to selectively block flow of a fluid in one direction, directly or indirectly; and/or

The one-way valve (CV) is configured to have at least a selectively replaceable function; and/or

The one-way valve (CV) is constructed to have at least the function of modular connection and assembly; and/or

Said one-way valve (CV) comprising at least one or more devices; and/or

Said one-way valve (CV) comprising at least one component; and/or

A fluid valve (LV) disposed within or connected to the housing (EH); and/or

The fluid valve (LV) is configured to have at least the function of selectively controlling the direction of the fluid, directly or indirectly; and/or

The fluid valve (LV) is configured to have at least the function of selectively maintaining a fluid flow within a certain range, directly or indirectly; and/or

The fluid valve (LV) is configured to have at least a function of selectively maintaining a fluid pressure within a certain range, directly or indirectly; and/or

The fluid valve (LV) is configured to at least have the function of directly or indirectly selectively controlling the on-off of the fluid; and/or

The fluid valve (LV) being configured at least with a selectively replaceable function; and/or

The fluid valve (LV) is configured at least with the function of modular connection and assembly; and/or

The fluid valve (LV) comprises at least one or more devices; and/or

Said fluid valve (LV) comprising at least one component; and/or

A filter (FF) disposed within or coupled to the housing (EH); and/or

The filter (FF) is configured to have at least the function of selectively separating solid particles from the fluid, directly or indirectly; and/or

The filter (FF) is configured to have at least the function of selectively separating dust from the fluid, directly or indirectly; and/or

The filter (FF) is configured to have at least the function of selectively separating solid particles with a size greater than a certain range from the fluid, directly or indirectly; and/or

The filter (FF) is configured to have at least the function of separating, directly or indirectly, selectively from the fluid, dust having a size greater than a certain range; and/or

The filter (FF) is configured to have at least the function of directly or indirectly maintaining a certain dryness of the fluid; and/or

The filter (FF) is configured to have at least the function of selectively maintaining within a certain range the cleanliness of the fluid, directly or indirectly; and/or

The filter (FF) is configured at least with a selectively replaceable function; and/or

The filter (FF) is configured at least with a modular connection and assembly function; and/or

The filter (FF) comprises at least one or more devices; and/or

Said filter (FF) comprises at least one component; and/or

A Controller (CS) disposed within or coupled to the housing (EH); and/or

The Controller (CS) is configured to have at least a function of selectively switching on and off the Electric Power (EP) directly or indirectly; and/or

The Controller (CS) is configured to have at least a function of selectively controlling the Driving Means (DM) directly or indirectly; and/or

The Controller (CS) is configured to at least function to selectively control the Transmission (TM) directly or indirectly; and/or

The Controller (CS) is configured to at least function to selectively control the one-way valve (CV) directly or indirectly; and/or

The Controller (CS) is configured to have at least a function of selectively controlling the Hydraulic Pump (HP) directly or indirectly; and/or

The Controller (CS) is configured to have at least a function of selectively controlling the pneumatic pump (AP) directly or indirectly; and/or

The Controller (CS) is configured to at least have the function of selectively controlling the Energy Storage (ES) directly or indirectly; and/or

The Controller (CS) is configured to at least function to selectively control the tank (WT) directly or indirectly; and/or

The Controller (CS) is configured to at least function to selectively control the Sand Silo (SS) directly or indirectly; and/or

The Controller (CS) is configured to at least function to selectively control the fluid valve (LV) directly or indirectly; and/or

The Controller (CS) is configured to have at least a function of selectively controlling the filter (FF) directly or indirectly; and/or

The Controller (CS) is configured to have at least a function of realizing human-computer interaction with a user of the multifunctional cleaning all-in-one Machine (MC) directly or indirectly; and/or

The Controller (CS) is configured to at least have the function of realizing human-computer interaction with a user of the multifunctional cleaning all-in-one Machine (MC) directly or indirectly through keys; and/or

The Controller (CS) is configured to at least have the function of realizing human-computer interaction with a user of the multifunctional cleaning all-in-one Machine (MC) directly or indirectly through light; and/or

The Controller (CS) is configured to at least have the function of realizing human-computer interaction with a user of the multifunctional cleaning all-in-one Machine (MC) directly or indirectly through a display; and/or

The Controller (CS) is at least provided with a function of realizing human-computer interaction with a user of the multifunctional cleaning all-in-one Machine (MC) directly or indirectly through mobile phone software; and/or

The Controller (CS) is configured to at least have the function of realizing human-computer interaction with a user of the multifunctional cleaning all-in-one Machine (MC) directly or indirectly through a wireless network; and/or

The Controller (CS) is configured to at least have the function of realizing human-computer interaction with a user of the multifunctional cleaning all-in-one Machine (MC) directly or indirectly through Bluetooth; and/or

The Controller (CS) is configured to have at least the function of realizing human-computer interaction with a user of the multifunctional cleaning all-in-one Machine (MC) directly or indirectly through infrared detection; and/or

The Controller (CS) is configured to at least have the function of realizing human-computer interaction with a user of the multifunctional cleaning all-in-one Machine (MC) directly or indirectly through audio signals; and/or

The Controller (CS) is configured to at least have the function of realizing human-computer interaction with a user of the multifunctional cleaning all-in-one Machine (MC) directly or indirectly through a microphone; and/or

The Controller (CS) is configured to at least have the function of realizing human-computer interaction with a user of the multifunctional cleaning all-in-one Machine (MC) directly or indirectly through an image perception signal; and/or

The Controller (CS) is configured to at least have the function of realizing human-computer interaction with a user of the multifunctional cleaning all-in-one Machine (MC) directly or indirectly through a remote control signal; and/or

The Controller (CS) is configured to at least have the function of realizing human-computer interaction with a user of the multifunctional cleaning all-in-one Machine (MC) directly or indirectly through a remote control panel; and/or

The Controller (CS) is configured to have at least a function of directly or indirectly setting an operation mode; and/or

The Controller (CS) is configured to have at least a function of directly or indirectly memorizing a common setting of a user of the all-in-one multifunction cleaning Machine (MC); and/or

The Controller (CS) is configured to have at least a function of directly or indirectly performing self-learning and optimization improvement; and/or

The Controller (CS) is configured to have at least a function of directly or indirectly memorizing a plurality of operation modes; and/or

The Controller (CS) is configured to have at least a function of directly or indirectly performing one-touch setting of a plurality of operation modes; and/or

The Controller (CS) is configured to have at least a selectively replaceable function; and/or

The Controller (CS) is configured at least with the functions of modular connection and assembly; and/or

The Controller (CS) comprises at least one or more devices; and/or

Said Controller (CS) comprises at least one component; and/or

A battery (EB) disposed within or connected to the housing (EH); and/or

The battery (EB) is configured to have at least the function of storing electrical energy directly or indirectly; and/or

The battery (EB) is directly or indirectly connected with the Controller (CS); and/or

The battery (EB) is configured to have at least a function of selectively charging and discharging under direct or indirect control of the Controller (CS); and/or

The battery (EB) is configured to have at least a function of selectively self-charging and discharging; and/or

Said battery (EB) is connected directly or indirectly to said Electric Power (EP); and/or

The battery (EB) is directly or indirectly connected with the driving Device (DM); and/or

-said battery (EB) is configured to have at least the function of supplying electric energy directly or indirectly to said Drive Means (DM); and/or

The battery (EB) is configured to have at least the function of supplying the Controller (CS) with electric energy directly or indirectly; and/or

-said battery (EB) is configured at least to function directly or indirectly to supply electrical energy to said Transmission (TM); and/or

The battery (EB) is configured to at least have the function of directly or indirectly supplying electrical energy to the multifunctional cleaning all-in-one Machine (MC); and/or

The battery (EB) is configured to have at least a selectively replaceable function; and/or

The battery (EB) is configured to have at least a function of modular connection and assembly; and/or

The battery (EB) comprises at least one or more devices; and/or

Said battery (EB) comprises at least one component; and/or

A detection device arranged in or connected with the housing (EH); and/or

-said detection means are configured with at least the function of directly or indirectly measuring a physical quantity and of converting said measured physical quantity into a corresponding information format, which is then transmitted or fed back to said Controller (CS) and/or to said all-in-one cleaning Machine (MC) and/or to a user of said all-in-one cleaning Machine (MC); and/or

The detection device is configured at least for directly or indirectly detecting the fluid pressure, and/or the fluid flow direction, and/or the fluid temperature, and/or the vibration, and/or the impact, and/or the position, and/or the speed, and/or the acceleration, and/or the load borne, and/or the torque transmitted, of the all-in-one multifunction cleaning Machine (MC); and/or

The detection means are configured at least for directly or indirectly detecting the temperature, and/or humidity, and/or altitude, and/or pressure, and/or position, and/or inclination angle of the environment in which the multifunction cleaning all-in-one Machine (MC) is located; and/or

The detection means are configured at least for detecting directly or indirectly the magnitude, and/or the position, and/or the intensity, and/or the speed of the human force (MP); and/or

The detection means are configured at least for detecting directly or indirectly the magnitude of the current, and/or the magnitude of the voltage, and/or the magnitude of the power of the Electric Power (EP); and/or

The detection means being configured at least for detecting directly or indirectly a deformation, and/or a load, and/or a temperature, and/or a vibration of the housing (EH); and/or

The detection means are configured at least for directly or indirectly detecting the pressure, and/or the flow, and/or the temperature, and/or the speed, and/or the position, and/or the angle, and/or the brightness, and/or the contrast, and/or the sharpness of the actuation means (ED); and/or

The detection means are configured at least for directly or indirectly detecting the input power, and/or the input rotation speed, and/or the input torque, and/or the input current, and/or the input voltage, and/or the input power, and/or the output rotation speed, and/or the output torque, and/or the output current, and/or the output voltage, and/or the output power of the Drive Means (DM); and/or

Said detection means being configured at least for directly or indirectly detecting an input power, and/or an input rotation speed, and/or an input torque, and/or a position, and/or an angle, and/or an output power, and/or an output rotation speed, and/or an output torque of said Transmission (TM); and/or

-said detection means are configured at least for detecting directly or indirectly the input flow, and/or the input pressure, and/or the output flow, and/or the output pressure, and/or whether there is a leak, of said Hydraulic Pump (HP); and/or

-said detection means are configured at least for detecting directly or indirectly the input flow, and/or the input pressure, and/or the output flow, and/or the output pressure, and/or whether there is a leak, of said pneumatic pump (AP); and/or

The detection device is configured at least for directly or indirectly detecting an input flow and/or an input pressure and/or an output flow and/or an output pressure and/or whether a leak is present in the Energy Storage (ES); and/or

Said detection means being configured at least for directly or indirectly detecting the remaining liquid volume, and/or cleanliness, and/or temperature, and/or whether it is correctly installed, of said tank (WT); and/or

-said detection means are configured at least for directly or indirectly detecting the remaining solids weight, and/or the remaining solids volume, and/or the dryness, and/or the temperature, and/or whether it is correctly installed, of said Sand Silo (SS); and/or

Said detection means being configured at least for directly or indirectly detecting the state of said Check Valve (CV), and/or the flow, and/or the pressure, and/or whether it is leaking; and/or

-said detection means are configured at least for directly or indirectly detecting the state, and/or the flow, and/or the pressure, and/or whether there is a leak, of said fluid valve (LV); and/or

-said detection means are configured at least for directly or indirectly detecting the state, and/or the flow, and/or the pressure, and/or whether the filter (FF) is clogged; and/or

The detection means are configured at least for directly or indirectly detecting the temperature of the Controller (CS), and/or whether a fault occurs; and/or

Said detection means being configured at least for detecting directly or indirectly the residual charge, and/or the temperature, and/or the input current, and/or the input voltage, and/or the input power, and/or the output current, and/or the output voltage, and/or the output power, and/or whether there is a fault, of said battery (EB); and/or

The battery (EB) is configured to at least function to directly or indirectly supply electrical energy to the detection device; and/or

The detection device is configured to have at least a selectively replaceable function; and/or

The detection device is at least constructed to have the functions of modular connection and assembly; and/or

The detection device at least comprises a detector or a sensor; and/or

The detection device comprises at least one component; and/or

A vibration damping device provided in or connected to the housing (EH); and/or

The vibration damping device is configured to have at least a function of directly or indirectly reducing the hand feeling vibration conducted from the housing (EH) to the user; and/or

The vibration damping device is configured to have at least a function of directly or indirectly reducing the ear-feeling noise conducted from the housing (EH) to the user; and/or

The damping device is configured to be directly or indirectly connected with the Controller (CS); and/or

The vibration damping device is configured to be directly or indirectly connected with the detection device; and/or

Under the direct or indirect action of the Controller (CS), the vibration damping device is configured to at least function to directly or indirectly reduce the hand feeling vibration conducted from the housing (EH) to the user; and/or

Under the direct or indirect action of the Controller (CS), and/or the detection device, the vibration-damping device is configured to at least have the function of directly or indirectly reducing the hand-feel vibrations conducted by the housing (EH) to the user; and/or

Under the direct or indirect action of the Controller (CS), the vibration damping device is configured to at least function to directly or indirectly reduce the ear-feeling noise conducted from the housing (EH) to the user; and/or

Under the direct or indirect action of the Controller (CS), and/or the detection device, the vibration damping device is configured to at least have the function of reducing, directly or indirectly, the ear-felt noise conducted by the housing (EH) to the user; and/or

The detection device is configured at least for directly or indirectly detecting a vibration frequency, and/or a vibration intensity, and/or a vibration direction, and/or a vibration angle, and/or a vibration phase of the housing (EH); and/or

The detection device is at least used for directly or indirectly detecting the vibration frequency, the vibration strength, the vibration direction, the vibration angle and the vibration phase of the vibration reduction device; and/or

The detection device is configured at least for directly or indirectly detecting the vibration frequency, and/or the vibration intensity, and/or the vibration direction, and/or the vibration angle, and/or the vibration phase of the all-in-one multifunctional cleaning Machine (MC); and/or

The battery (EB) is configured to have at least the function of supplying electric energy directly or indirectly to the damping device; and/or

The vibration damping device is configured to have at least a selectively replaceable function; and/or

The vibration damping device is at least configured to have the functions of modular connection and assembly; and/or

The vibration damping device comprises at least one or more devices; and/or

The damping device at least comprises one component; and/or

The Controller (CS) is configured to perform at least a three-dimensional modeling function directly or indirectly based on input information of the actuator (ED); and/or

The Controller (CS) is configured to perform at least a three-dimensional modeling function directly or indirectly based on input information of the detection means; and/or

The Drive Means (DM) being configured to have at least the function of directly or indirectly driving the Hydraulic Pump (HP); and/or

The Driving Means (DM) being configured to have at least the function of driving the pneumatic pump (AP) directly or indirectly; and/or

-said Driving Means (DM) are configured to have at least the function of driving, directly or indirectly, said Transmission Means (TM); and/or

-the Transmission (TM) is configured to have at least the function of directly or indirectly driving the Hydraulic Pump (HP); and/or

The Transmission (TM) is configured to have at least the function of directly or indirectly driving the pneumatic pump (AP); and/or

-said Drive Means (DM) being configured to be directly or indirectly connected with said Transmission Means (TM); and/or

The drive Device (DM) is configured to be directly or indirectly connected with the Hydraulic Pump (HP); and/or

-said Drive Means (DM) being configured to be directly or indirectly connected with said pneumatic pump (AP); and/or

-the Drive Means (DM) being configured to be connected with the Hydraulic Pump (HP) directly or indirectly through the Transmission Means (TM); and/or

-said Drive Means (DM) being configured to be connected, directly or indirectly, to said pneumatic pump (AP) through said Transmission Means (TM); and/or

-said Drive Means (DM) being configured to at least function to selectively drive said Hydraulic Pump (HP) directly or indirectly within a range of transmission ratios; and/or

-said Drive Means (DM) are configured to have at least the function of selectively driving, directly or indirectly, said Hydraulic Pump (HP) in a transmission ratio; and/or

The Drive Means (DM) being configured to have at least the function of selectively driving, directly or indirectly, the Hydraulic Pump (HP) in a plurality of transmission ratios; and/or

-said Driving Means (DM) being configured to have at least the function of selectively driving, directly or indirectly, said pneumatic pump (AP) within a range of transmission ratios; and/or

-said Driving Means (DM) are configured at least to selectively drive said pneumatic pump (AP) directly or indirectly in a transmission ratio; and/or

-said Driving Means (DM) being configured at least to selectively drive said pneumatic pump (AP) directly or indirectly in a plurality of transmission ratios; and/or

-under the direct or indirect action of the Transmission (TM), the Drive Means (DM) are configured to at least selectively drive the Hydraulic Pump (HP) within a range of transmission ratios; and/or

-under the direct or indirect action of said Transmission Means (TM), said Drive Means (DM) are configured to at least selectively drive said Hydraulic Pump (HP) in a transmission ratio; and/or

-under the direct or indirect action of said Transmission Means (TM), said Drive Means (DM) are configured at least to selectively drive said Hydraulic Pump (HP) in a plurality of transmission speed ratios; and/or

-under the direct or indirect action of said Transmission (TM), said Driving Means (DM) are configured to have at least the function of selectively driving said pneumatic pump (AP) within a range of transmission ratios; and/or

-under the direct or indirect action of said Transmission (TM), said Driving Means (DM) are configured to have at least the function of selectively driving said pneumatic pump (AP) in a transmission ratio; and/or

-under the direct or indirect action of said Transmission Means (TM), said Driving Means (DM) are configured at least to selectively drive said pneumatic pump (AP) in a plurality of transmission ratios; and/or

The drive Device (DM) is configured to be directly or indirectly connected to the actuator (ED); and/or

-said Driving Means (DM) being configured to be connected, directly or indirectly, with said actuating means (ED) through said Transmission Means (TM); and/or

-said Driving Means (DM) being configured at least to selectively drive said actuating means (ED) directly or indirectly in a range of transmission ratios; and/or

-said Driving Means (DM) being configured at least to selectively drive said actuating means (ED) directly or indirectly in a transmission ratio; and/or

The Drive Means (DM) being configured to have at least the function of selectively driving the actuator means (ED) directly or indirectly in a plurality of transmission ratios; and/or

Under the direct or indirect action of the Transmission (TM), the driving Device (DM) is configured to have at least the function of selectively driving the actuator (ED) within a range of transmission ratios; and/or

Under the direct or indirect action of the Transmission (TM), the driving Device (DM) is configured to have at least the function of selectively driving the actuator (ED) in a transmission ratio; and/or

-under the direct or indirect action of said Transmission Means (TM), said Driving Means (DM) are configured to function at least to selectively drive said actuating means (ED) in a plurality of transmission speed ratios; and/or

-the Drive Means (DM) is configured to be directly or indirectly connected with the Water Tank (WT); and/or

-the Drive Means (DM) is configured to be directly or indirectly connected to an external Water Source (WS); and/or

-said Drive Means (DM) being configured to be directly or indirectly connected with the outside air (EA); and/or

-the Drive Means (DM) is configured to be directly or indirectly connected with the Energy Storage (ES); and/or

-said Drive Means (DM) being configured to be directly or indirectly connected to said air reservoir (AT); and/or

-the Drive Means (DM) is configured to be connected with the actuator means (ED) directly or indirectly through the one-way valve (CV); and/or

-said Drive Means (DM) is configured to be connected with said tank (WT) directly or indirectly through said one-way valve (CV); and/or

-said Driving Means (DM) are configured to be connected with said external Water Source (WS) directly or indirectly through said one-way valve (CV); and/or

-said Driving Means (DM) are configured to be connected with said outside air (EA) directly or indirectly through said one-way valve (CV); and/or

-the Drive Means (DM) are configured to be connected with the accumulator (ES) directly or indirectly through the one-way valve (CV); and/or

-said Drive Means (DM) being configured to be connected directly or indirectly to said Air Tank (AT) through said one-way valve (CV); and/or

-the driving Device (DM) is configured to be connected, directly or indirectly, with the actuating device (ED) through the fluid valve (LV); and/or

-the Drive Means (DM) is configured to be connected to the tank (WT) directly or indirectly through the fluid valve (LV); and/or

-the driving Device (DM) is configured to be connected with the outside Water Source (WS) directly or indirectly through the fluid valve (LV); and/or

-said Driving Means (DM) are configured to be connected with said External Air (EA) directly or indirectly through said fluid valve (LV); and/or

-the Drive Means (DM) are configured to be connected with the accumulator (ES) directly or indirectly through the fluid valve (LV); and/or

-said Drive Means (DM) being configured to be connected, directly or indirectly, to said air reservoir (AT) through said fluid valve (LV); and/or

The accumulator (ES) is configured to be directly or indirectly connected with the Hydraulic Pump (HP); and/or

The energy accumulator (ES) is configured to be directly or indirectly connected with the pneumatic pump (AP); and/or

The Energy Store (ES) is configured to be directly or indirectly connected to the actuator (ED); and/or

The accumulator (ES) is configured to be connected, directly or indirectly, to the Hydraulic Pump (HP) through the non-return valve (CV); and/or

The accumulator (ES) is configured to be connected, directly or indirectly, to the pneumatic pump (AP) through the non-return valve (CV); and/or

The energy accumulator (ES) is configured to be connected to the actuator (ED) directly or indirectly via the non-return valve (CV); and/or

The accumulator (ES) is configured to be connected, directly or indirectly, to the Hydraulic Pump (HP) through the fluid valve (LV); and/or

The accumulator (ES) is configured to be connected, directly or indirectly, to the pneumatic pump (AP) through the fluid valve (LV); and/or

The energy accumulator (ES) is configured to be connected, directly or indirectly, to the actuation device (ED) via the fluid valve (LV); and/or

The air reservoir (AT) is configured to be directly or indirectly connected to the Energy Storage (ES); and/or

-the air reservoir (AT) is configured to be connected with the energy accumulator (ES) directly or indirectly through the one-way valve (CV); and/or

-the air reservoir (AT) is configured to be connected, directly or indirectly, with the energy accumulator (ES) through the fluid valve (LV); and/or

The Hydraulic Pump (HP) is configured to be directly or indirectly connected with the actuator (ED); and/or

The pneumatic pump (AP) is configured to be directly or indirectly connected to the actuator (ED); and/or

The Hydraulic Pump (HP) is configured to be directly or indirectly connected with the Water Tank (WT); and/or

The Hydraulic Pump (HP) is configured to be directly or indirectly connected with the outside Water Source (WS); and/or

-the pneumatic pump (AP) is configured to be directly or indirectly connected with the air reservoir (AT); and/or

The pneumatic pump (AP) is configured to be directly or indirectly connected with the outside air (EA); and/or

The Hydraulic Pump (HP) is configured to be directly or indirectly connected with the pneumatic pump (AP); and/or

The Hydraulic Pump (HP) is configured to be connected, directly or indirectly, to the pneumatic pump (AP) through the non-return valve (CV); and/or

The Hydraulic Pump (HP) is configured to be connected, directly or indirectly, to the pneumatic pump (AP) through the fluid valve (LV); and/or

The Hydraulic Pump (HP) is configured to be connected, directly or indirectly, with the pneumatic pump (AP) through a pneumatic motor; and/or

The Hydraulic Pump (HP) is configured to be connected to the pneumatic pump (AP) directly or indirectly through a pneumatic cylinder and the one-way valve (CV); and/or

The Hydraulic Pump (HP) is configured to be connected to the pneumatic pump (AP) directly or indirectly through a pneumatic cylinder and the fluid valve (LV); and/or

The pneumatic pump (AP) is configured to be directly or indirectly connected with the Hydraulic Pump (HP); and/or

The pneumatic pump (AP) is configured to be connected to the Hydraulic Pump (HP) directly or indirectly through the non-return valve (CV); and/or

The pneumatic pump (AP) being configured to be connected, directly or indirectly, to the Hydraulic Pump (HP) through the fluid valve (LV); and/or

The pneumatic pump (AP) is configured to be connected to the Hydraulic Pump (HP) directly or indirectly via a hydraulic motor; and/or

The pneumatic pump (AP) is configured to be connected to the Hydraulic Pump (HP) directly or indirectly through a hydraulic cylinder and the non-return valve (CV); and/or

The pneumatic pump (AP) being configured to be connected to the Hydraulic Pump (HP) directly or indirectly through a hydraulic cylinder and the fluid valve (LV); and/or

The Hydraulic Pump (HP) is configured to be connected, directly or indirectly, with the actuator (ED) through the non-return valve (CV); and/or

The pneumatic pump (AP) is configured to be connected, directly or indirectly, to the actuator (ED) through the one-way valve (CV); and/or

The Hydraulic Pump (HP) is configured to be connected, directly or indirectly, with the actuator (ED) through the fluid valve (LV); and/or

The pneumatic pump (AP) being configured to be connected, directly or indirectly, to the actuation device (ED) through the fluid valve (LV); and/or

The Hydraulic Pump (HP) is configured to be connected to the tank (WT) directly or indirectly through the non-return valve (CV); and/or

The Hydraulic Pump (HP) is configured to be connected, directly or indirectly, to the external Water Source (WS) through the non-return valve (CV); and/or

The Hydraulic Pump (HP) is configured to be connected, directly or indirectly, to the Water Tank (WT) through the fluid valve (LV); and/or

The Hydraulic Pump (HP) is configured to be connected, directly or indirectly, with the external Water Source (WS) through the fluid valve (LV); and/or

The Hydraulic Pump (HP) is configured to be connected, directly or indirectly, to the Water Tank (WT) through the filter (FF); and/or

The Hydraulic Pump (HP) is configured to be connected, directly or indirectly, with the external Water Source (WS) through the filter (FF); and/or

-the pneumatic pump (AP) is configured to be connected, directly or indirectly, to the air reservoir (AT) through the one-way valve (CV); and/or

-the pneumatic pump (AP) is configured to be connected with the outside air (EA) directly or indirectly through the one-way valve (CV); and/or

-the pneumatic pump (AP) is configured to be connected, directly or indirectly, to the air reservoir (AT) through the fluid valve (LV); and/or

-the pneumatic pump (AP) is configured to be connected, directly or indirectly, to the outside air (EA) through the fluid valve (LV); and/or

-the pneumatic pump (AP) is configured to be connected, directly or indirectly, to the Air Tank (AT) through the filter (FF); and/or

-the pneumatic pump (AP) is configured to be connected to the outside air (EA) directly or indirectly through the filter (FF); and/or

The Hydraulic Pump (HP) is configured to be connected, directly or indirectly, to the non-return valve (CV) through the filter (FF); and/or

The pneumatic pump (AP) is configured to be connected, directly or indirectly, to the non-return valve (CV) through the filter (FF); and/or

The Hydraulic Pump (HP) is configured to be connected, directly or indirectly, with the fluid valve (LV) through the filter (FF); and/or

The pneumatic pump (AP) is configured to be connected, directly or indirectly, with the fluid valve (LV) through the filter (FF); and/or

The one-way valve (CV) is configured to be connected to the tank (WT) directly or indirectly through the filter (FF); and/or

The one-way valve (CV) is configured to be connected, directly or indirectly, to the external Water Source (WS) through the filter (FF); and/or

The one-way valve (CV) is configured to be connected, directly or indirectly, to the Air Tank (AT) through the filter (FF); and/or

-said one-way valve (CV) is configured to be connected with the outside air (EA) directly or indirectly through said filter (FF); and/or

The fluid valve (LV) is configured to be connected to the tank (WT) directly or indirectly through the filter (FF); and/or

-the fluid valve (LV) is configured to be connected to the outside Water Source (WS) directly or indirectly through the filter (FF); and/or

The fluid valve (LV) is configured to be connected, directly or indirectly, through the filter (FF) to the air reservoir (AT); and/or

-said fluid valve (LV) is configured to be connected with the outside air (EA) directly or indirectly through said filter (FF); and/or

-the Controller (CS) is configured to be directly or indirectly connected with the driving Device (DM); and/or

The Controller (CS) is configured to be directly or indirectly connected with the Transmission (TM); and/or

The Controller (CS) is configured to be directly or indirectly connected with the Hydraulic Pump (HP); and/or

The Controller (CS) is configured to be directly or indirectly connected with the pneumatic pump (AP); and/or

The Controller (CS) is configured to be directly or indirectly connected with the Energy Storage (ES); and/or

The Controller (CS) is configured to be directly or indirectly connected with the actuator (ED); and/or

The Controller (CS) is configured to be directly or indirectly connected with the Water Tank (WT); and/or

-the Controller (CS) is configured to be directly or indirectly connected with the air reservoir (AT); and/or

The Controller (CS) is configured to be directly or indirectly connected with the battery (EB); and/or

The Controller (CS) is configured to be directly or indirectly connected with the one-way valve (CV); and/or

The Controller (CS) is configured to be directly or indirectly connected with the fluid valve (LV); and/or

The Controller (CS) is configured to be directly or indirectly connected with the filter (FF); and/or

The detection means are configured to be directly or indirectly connected with the Controller (CS); and/or

The detection device is configured to be directly or indirectly connected with the battery (EB); and/or

The detection means are configured to be directly or indirectly connected with the Drive Means (DM); and/or

The detection means are configured to be directly or indirectly connected with the Transmission Means (TM); and/or

The detection device is configured to be directly or indirectly connected with the Hydraulic Pump (HP); and/or

The detection means are configured to be directly or indirectly connected with the pneumatic pump (AP); and/or

The detection device is configured to be directly or indirectly connected with the Energy Storage (ES); and/or

The detection device is configured to be directly or indirectly connected to the actuator device (ED); and/or

Said detecting device is configured to be directly or indirectly connected to said one-way valve (CV); and/or

The detection device is configured to be directly or indirectly connected to the fluid valve (LV); and/or

The detection device is configured to be directly or indirectly connected to the filter (FF); and/or

The detection device is configured to be directly or indirectly connected to the Water Tank (WT); and/or

The detection device is configured to be directly or indirectly connected with the air storage tank (AT); and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of cleaning or caring teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of cleaning or caring teeth directly or indirectly through a toothbrush; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of cleaning or nursing tooth gaps; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly spraying water through a spray head so as to clean or care the slit between teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly spraying through a spray head so as to clean or care the slit between teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly spraying a water-gas mixture through a spray head so as to clean or care the slit between teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly spraying air through a spray head so as to clean or care the slit between teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly cleaning or nursing tooth gaps through a tooth gap brush; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to at least have the function of directly or indirectly spraying water through the interdental brush so as to clean or care interdental spaces; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to be capable of directly or indirectly spraying through a interdental brush so as to clean or care interdental spaces; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to at least have the function of directly or indirectly spraying a water-air mixture through a tooth gap brush so as to clean or care tooth gaps; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly spraying air through a slit brush so as to clean or care slits between teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of cleaning or caring the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to be capable of spraying water directly or indirectly through a spray head so as to clean or care the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to clean or care the oral cavity by spraying directly or indirectly through a spray head; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to be capable of spraying the water-air mixture directly or indirectly through the spray head so as to clean or care the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly spraying air through the spray head so as to clean or care the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to clean or care the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of spraying water directly or indirectly through a spray head so as to clean or care the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly spraying through the spray head so as to clean or care the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly spraying a water-air mixture through a spray head so as to clean or care the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly spraying air through the spray head so as to clean or care the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to clean or care nasal cavities; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of spraying water directly or indirectly through a spray head so as to clean or care the nasal cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to clean or care the nasal cavity by spraying directly or indirectly through a spray head; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly spraying water-vapor mixture through the spray head so as to clean or care the nasal cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly spraying air through the spray head so as to clean or care the nasal cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to at least have the function of cleaning or nursing orthodontic retainers; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to at least have the function of cleaning or nursing teeth directly or indirectly through an orthodontic brush; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to spray water directly or indirectly through the orthodontic brush so as to clean or care teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to clean or care teeth by spraying directly or indirectly through an orthodontic brush; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly spraying a water-air mixture through the orthodontic brush so as to clean or care teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to clean or care teeth by directly or indirectly spraying air through the orthodontic brush; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to at least have the function of cleaning or nursing orthodontic retainers directly or indirectly through orthodontic brushes; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to at least have the function of spraying water directly or indirectly through the orthodontic brush so as to clean or care the orthodontic retainer; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to at least have the function of directly or indirectly spraying through orthodontic brushes so as to clean or care orthodontic retainers; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to at least have the function of spraying a water-air mixture directly or indirectly through an orthodontic brush so as to clean or care the orthodontic retainer; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to at least have the function of directly or indirectly spraying air through the orthodontic brush so as to clean or care the orthodontic retainer; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of cleaning or nursing false teeth; and/or

The actuation device (ED) is configured at least with the function of displaying the status of the hair follicle directly or indirectly; and/or

The multifunctional all-in-one cleaning Machine (MC) is at least configured to have the function of directly or indirectly massaging the skin; and/or

The all-in-one multi-function cleaning Machine (MC) is constructed to have at least the function of directly or indirectly massaging the gum; and/or

The all-in-one multifunctional cleaning Machine (MC) is constructed to have at least the function of directly or indirectly spraying water through the spray head so as to massage the gum; and/or

The all-in-one multifunctional cleaning Machine (MC) is constructed to have at least the function of directly or indirectly spraying through the spray head so as to massage the gum; and/or

The all-in-one multifunctional cleaning Machine (MC) is constructed to have at least the function of directly or indirectly spraying the water-gas mixture through the spray head so as to massage the gum; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly spraying air through the spray head so as to massage the gum; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly massaging the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly spraying water through the spray head so as to massage the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly spraying through the spray head so as to massage the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly spraying the water-air mixture through the spray head so as to massage the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly spraying air through the spray head so as to massage the oral cavity; and/or

The multifunctional integrated cleaning Machine (MC) is at least provided with the function of directly or indirectly massaging the nasal cavity; and/or

The multifunctional integrated cleaning Machine (MC) is at least provided with the function of directly or indirectly spraying water through the spray head so as to massage the nasal cavity; and/or

The multifunctional all-in-one cleaning Machine (MC) is at least provided with the function of directly or indirectly spraying through the spray head so as to massage the nasal cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of massaging the nasal cavity by directly or indirectly spraying the water-air mixture through the spray head; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly spraying air through the spray head so as to massage the nasal cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly massaging the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly spraying water through the spray head so as to massage the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to massage the ear cavity by spraying directly or indirectly through a spray head; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly spraying a water-gas mixture through a spray head so as to massage the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly spraying air through the spray head so as to massage the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving the tooth brush head through mechanical energy so as to realize the vibration, and/or the swing, and/or the rotation, and/or the movement, and/or the water spraying, and/or the mist spraying, and/or the water-vapor mixture spraying, and/or the air spraying of the tooth brush head so as to clean or care the teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to directly or indirectly drive the interdental brush head through mechanical energy so as to realize the functions of vibrating, and/or swinging, and/or rotating, and/or moving, and/or spraying water, and/or mist, and/or spraying water-gas mixture, and/or spraying air so as to clean or care interdental spaces; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to at least have the functions of directly or indirectly driving the orthodontic brush head through mechanical energy so as to realize the vibration, and/or the swinging, and/or the rotation, and/or the movement, and/or the water spraying, and/or the mist spraying, and/or the water-air mixture spraying, and/or the air spraying of the orthodontic brush head so as to clean or care teeth and orthodontic retainers; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the functions of directly or indirectly driving the tooth brush head through hydraulic energy so as to realize the vibration, and/or the swing, and/or the rotation, and/or the movement, and/or the water spraying, and/or the mist spraying, and/or the water-air mixture spraying, and/or the air spraying of the tooth brush head so as to clean or care the teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the functions of directly or indirectly driving the interdental brush head through hydraulic energy so as to realize the vibration, and/or the swinging, and/or the rotation, and/or the movement, and/or the water spraying, and/or the mist spraying, and/or the water-air mixture spraying, and/or the air spraying so as to clean or care the interdental space; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to at least have the functions of directly or indirectly driving the orthodontic brush head through hydraulic energy so as to realize the vibration, and/or the swinging, and/or the rotation, and/or the movement, and/or the water spraying, and/or the mist spraying, and/or the water-air mixture spraying, and/or the air spraying of the orthodontic brush head so as to clean or care teeth and orthodontic retainers; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly driving the tooth brush head through air pressure energy so as to realize the vibration, and/or the swing, and/or the rotation, and/or the movement, and/or the air injection, and/or the water injection, and/or the air injection, and/or the water-air mixture injection, and/or the air injection of the tooth brush head so as to clean or care the teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly driving the interdental brush head through air pressure energy so as to realize the vibration, and/or the swing, and/or the rotation, and/or the movement, and/or the air injection, and/or the water injection, and/or the spray, and/or the water-air mixture injection, and/or the air injection of the air so as to clean or care the interdental space; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to at least have the functions of directly or indirectly driving the orthodontic brushhead through air pressure energy so as to realize the vibration, and/or the swinging, and/or the rotation, and/or the movement, and/or the air injection, and/or the water injection, and/or the air spray, and/or the air injection of the water-air mixture, and/or the air injection so as to clean or care teeth and orthodontic retainers; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray water through mechanical energy so as to clean or care the slit between teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray water through hydraulic energy so as to clean or care the slit between teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly driving a spray head to spray water through air pressure energy so as to clean or care slits between teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly driving a spray head to spray water through mechanical energy so as to clean or care the gum; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray water through hydraulic energy so as to clean or nurse the gum; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly driving a spray head to spray water through air pressure energy so as to clean or care the gum; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving the spray head to spray water through mechanical energy so as to clean or care the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray water through hydraulic energy so as to clean or care the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray water through air pressure energy so as to clean or care the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray water through mechanical energy so as to clean or care the nasal cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray water through hydraulic energy so as to clean or nurse the nasal cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly driving a spray head to spray water through air pressure energy so as to clean or care the nasal cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray water through mechanical energy so as to clean or care the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray water through hydraulic energy so as to clean or care the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray water through air pressure energy so as to clean or care the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly driving a spray head to spray through mechanical energy so as to clean or care the slit between teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray through hydraulic energy so as to clean or care the slit between teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly driving a spray head to spray through air pressure energy so as to clean or care the slit between teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray through mechanical energy so as to clean or care the gingiva; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray through hydraulic energy so as to clean or care the gingiva; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly driving a spray head to spray through air pressure so as to clean or care the gum; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to clean or care the oral cavity by driving a spray head to spray directly or indirectly through mechanical energy; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray through hydraulic energy so as to clean or care the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray through air pressure so as to clean or care the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to clean or care the nasal cavity by driving a spray head to spray directly or indirectly through mechanical energy; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly driving a spray head to spray through hydraulic energy so as to clean or care the nasal cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray through air pressure so as to clean or care the nasal cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving the spray head to spray through mechanical energy so as to clean or care the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly driving the spray head to spray through hydraulic energy so as to clean or care the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly driving a spray head to spray through air pressure so as to clean or care the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray air through mechanical energy so as to clean or care the slit between teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of cleaning or nursing teeth slits by driving a spray head to spray air directly or indirectly through hydraulic energy; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray air through air pressure so as to clean or care the slit between teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray air through mechanical energy so as to clean or care the gum; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray air through hydraulic energy so as to clean or care the gum; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly driving the spray head to spray air through air pressure energy so as to clean or care the gum; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly driving the spray head to spray air through mechanical energy so as to clean or care the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving the spray head to spray air through hydraulic energy so as to clean or care the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving the spray head to spray air through air pressure so as to clean or care the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of cleaning or nursing the nasal cavity by driving the spray head to spray air directly or indirectly through mechanical energy; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray air through hydraulic energy so as to clean or care the nasal cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly driving a spray head to spray air through air pressure so as to clean or care the nasal cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly driving the spray head to spray air through mechanical energy so as to clean or care the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray air through hydraulic energy so as to clean or care the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly driving a spray head to spray air through air pressure energy so as to clean or care the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly driving the spray head to spray the water-gas mixture through mechanical energy so as to clean or care the slit between teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving the spray head to spray the water-gas mixture through hydraulic energy so as to clean or care the slit between teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray water-vapor mixture through air pressure so as to clean or care the teeth gaps; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving the spray head to spray the water-gas mixture through mechanical energy so as to clean or care the gum; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly driving the spray head to spray the water-gas mixture through hydraulic energy so as to clean or care the gum; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly driving the spray head to spray the water-gas mixture through air pressure energy so as to clean or care the gum; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly driving the spray head to spray the water-air mixture through mechanical energy so as to clean or care the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving the spray head to spray the water-air mixture through hydraulic energy so as to clean or care the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving the spray head to spray the water-air mixture through air pressure so as to clean or care the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of cleaning or nursing the nasal cavity by driving a spray head to spray water-air mixture directly or indirectly through mechanical energy; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving the spray head to spray the water-air mixture through hydraulic energy so as to clean or care the nasal cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly driving a spray head to spray water-air mixture through air pressure energy so as to clean or care the nasal cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of cleaning or caring the ear cavity by directly or indirectly driving the spray head to spray the water-air mixture through mechanical energy; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of cleaning or caring the ear cavity by directly or indirectly driving the spray head to spray the water-air mixture through hydraulic energy; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly driving the spray head to spray the water-air mixture through air pressure so as to clean or care the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to clean or care teeth by directly or indirectly driving a spray head to spray sand through mechanical energy; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of cleaning or caring teeth by directly or indirectly driving a nozzle to sand through hydraulic energy; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a nozzle to sand through air pressure so as to clean or care teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly driving the spray head to spray the air-sand mixture through mechanical energy so as to clean or care teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving the spray head to spray the air-sand mixture through hydraulic energy so as to clean or care teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray air-sand mixture through air pressure so as to clean or care teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of cleaning or nursing teeth by driving a spray head to spray water-air-sand mixture directly or indirectly through mechanical energy; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of cleaning or nursing teeth by directly or indirectly driving the spray head to spray the water-air-sand mixture through hydraulic energy; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray a water-air-sand mixture through air pressure so as to clean or care teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving the spray head to spray the fog and sand mixture through mechanical energy so as to clean or care teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of cleaning or nursing teeth by directly or indirectly driving a spray head to spray mist and sand mixture through hydraulic energy; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a spray head to spray mist and sand mixture through air pressure energy so as to clean or care teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of driving a suction head to suck water directly or indirectly through mechanical energy; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of driving the suction head to absorb water directly or indirectly through hydraulic energy; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of driving a suction head to suck water directly or indirectly through air pressure; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly driving a suction head to suck sand through mechanical energy; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly driving a suction head to suck sand through hydraulic energy; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of driving a suction head to suck sand directly or indirectly through air pressure; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of sucking away the air-sand mixture directly or indirectly through a mechanical energy driving suction head; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of sucking away the air-sand mixture directly or indirectly through a suction head driven by hydraulic energy; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of sucking away the air-sand mixture by directly or indirectly driving a suction head through air pressure energy; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a suction head to suck a water-air-sand mixture through mechanical energy; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a suction head to suck the water-gas-sand mixture through hydraulic energy; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a suction head to suck a water-air-sand mixture through air pressure energy; and/or

The all-in-one multifunctional cleaning Machine (MC) is configured to have at least a function of directly or indirectly driving the grinding head through mechanical energy so as to grind teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to have at least the function of directly or indirectly driving the grinding head through hydraulic energy so as to grind teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving the grinding head through air pressure energy so as to grind teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly driving a polishing head through mechanical energy so as to polish teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly driving a polishing head through hydraulic energy so as to polish teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly driving a polishing head through air pressure energy so as to polish teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly driving the drill bit through mechanical energy so as to drill holes on teeth; and/or

The all-in-one multifunctional cleaning Machine (MC) is at least provided with the function of directly or indirectly driving a drill bit through hydraulic energy so as to drill holes on teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving a drill bit through air pressure energy so as to drill holes on teeth; and/or

The multifunctional all-in-one cleaning Machine (MC) is at least provided with the function of directly or indirectly driving the massage head through mechanical energy so as to massage the skin; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving the massage head through hydraulic energy so as to massage the skin; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly driving the massage head through air pressure energy so as to massage the skin; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly driving the massage head through mechanical energy so as to massage the gum; and/or

The all-in-one multifunctional cleaning Machine (MC) is configured to at least have the function of directly or indirectly driving the massage head through hydraulic energy so as to massage the gum; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving the massage head through air pressure energy so as to massage the gum; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving the massage head through mechanical energy so as to massage the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving the massage head through hydraulic energy so as to massage the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving the massage head through air pressure so as to massage the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly driving the massage head through mechanical energy so as to massage the nasal cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly driving the massage head through hydraulic energy so as to massage the nasal cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly driving the massage head through air pressure energy so as to massage the nasal cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly driving the massage head through mechanical energy so as to massage the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly driving the massage head through hydraulic energy so as to massage the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly driving the massage head through air pressure so as to massage the ear cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly spraying water through the spray head so as to massage the nasal cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly spraying water through the spray head so as to massage the skin; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly spraying air through the spray head so as to massage the skin; and/or

The multifunctional all-in-one cleaning Machine (MC) is at least configured to have the function of directly or indirectly spraying through the spray head so as to massage the gum; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of massaging the nasal cavity by spraying directly or indirectly through a spray head; and/or

The multifunctional cleaning all-in-one Machine (MC)) is at least configured to massage the skin by spraying directly or indirectly through a spray head; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly spraying the water-air mixture through the spray head so as to massage the oral cavity; and/or

The multifunctional integrated cleaning Machine (MC) is at least provided with the function of directly or indirectly spraying water-air mixture through the spray head so as to massage the nasal cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of massaging the ear cavity by directly or indirectly spraying the water-air mixture through the spray head; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to have the function of directly or indirectly spraying the water-air mixture through the spray head so as to massage the skin; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to be capable of cleaning or nursing teeth by directly or indirectly blasting through a nozzle; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly spraying the air-sand mixture through a spray head so as to clean or care teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly spraying a water-air-sand mixture through a spray head so as to clean or care teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly spraying the fog and sand mixture through the spray head so as to clean or care teeth; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly displaying the state of teeth, and/or slits between teeth, and/or oral cavity, and/or nasal cavity, and/or ear cavity, and/or hair follicle; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly processing the information of teeth, and/or slits between teeth, and/or oral cavity, and/or nasal cavity, and/or ear cavity, and/or hair follicles; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly displaying the state of teeth, and/or slits between teeth, and/or oral cavity, and/or nasal cavity, and/or ear cavity, and/or hair follicles; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of transmitting and/or receiving laser in a certain wavelength range; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of transmitting and/or receiving infrared rays in a certain wavelength range; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of transmitting and/or receiving ultraviolet rays in a certain wavelength range; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of transmitting and/or receiving light in a certain wavelength range so as to position a target object; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of transmitting and/or receiving light rays in a certain wavelength range so as to carry out three-dimensional modeling on a target object; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with wireless and/or wired network connection functions; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of transmitting and/or receiving wireless signals; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of transmitting and/or receiving wired signals; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least configured to directly or indirectly establish a local area network; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly transmitting data; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly receiving data; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly sending data; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly processing data; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly taking pictures; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly recording videos; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a picture display and processing function; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with video display and processing functions; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of directly or indirectly visualizing the operation process; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly realizing human-computer interaction; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of inputting information directly or indirectly through keys; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of setting directly or indirectly through a key; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of selecting an operation mode directly or indirectly through a key; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of displaying information directly or indirectly through an indicator light; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of directly or indirectly displaying information through a display screen or a touch screen; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of inputting information directly or indirectly through a display screen or a touch screen; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of setting an operation mode directly or indirectly through a display screen or a touch screen; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the functions of directly or indirectly taking pictures and recording videos in real time in the oral cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with functions of directly or indirectly penetrating into the nasal cavity for photographing and real-time video recording; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the functions of directly or indirectly penetrating into the ear cavity for photographing and real-time video recording; and/or

The all-in-one multifunctional cleaning Machine (MC) is at least provided with the functions of directly or indirectly entering the oral cavity for evaluation, and/or suggestion, and/or diagnosis; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to at least have the function of directly or indirectly carrying out evaluation, and/or suggestion, and/or diagnosis deep into the nasal cavity; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to at least have the function of directly or indirectly entering the ear cavity for evaluation, and/or recommendation, and/or diagnosis; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with the function of realizing interaction and operation directly or indirectly through a mobile phone of an operator; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of realizing visualization directly or indirectly through a mobile phone of an operator; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of realizing visualization directly or indirectly through an external display; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of realizing virtual display directly or indirectly through a mobile phone of an operator; and/or

The multifunctional cleaning all-in-one Machine (MC) is at least provided with a function of realizing virtual display directly or indirectly through an external display; and/or

The multifunctional all-in-one cleaning Machine (MC) is at least provided with the function of directly or indirectly reducing hand feeling vibration; and/or

The all-in-one multifunctional cleaning Machine (MC) is configured to have at least a function of directly or indirectly reducing the noise of the ear feeling.

2. Multifunctional cleaning all-in-one Machine (MC) according to claim 1, characterized in that:

-between the Drive Means (DM) and the Hydraulic Pump (HP), the Transmission Means (TM) are configured to function at least as a transmission ratio; and/or

Between the Drive Means (DM) and the pneumatic pump (AP), the Transmission Means (TM) being configured to function at least as a transmission ratio; and/or

Between the drive Device (DM) and the actuator device (ED), the transmission device (TM) is configured to function as at least one transmission ratio; and/or

-between the Drive Means (DM) and the Hydraulic Pump (HP), the Transmission Means (TM) is configured at least to function with a transmission ratio that varies within a range of ratios; and/or

-between the Drive Means (DM) and the pneumatic pump (AP), the Transmission Means (TM) are configured at least to function with a transmission ratio that varies within a range of ratios; and/or

Between the Drive Means (DM) and the actuator means (ED), the Transmission Means (TM) being configured at least to function with a transmission ratio that varies within a range of ratios; and/or

Said Transmission (TM) is not provided with a clutch; or

The Transmission (TM) is provided with at least a first overrunning clutch (FC1), a second overrunning clutch (FC 2); and/or

The Transmission (TM) is equipped with at least a first clutch (C1); and/or

The drive Device (DM) is connected to the Hydraulic Pump (HP) directly or indirectly via the first overrunning clutch (FC 1); and/or

The drive Device (DM) is connected with the pneumatic pump (AP) directly or indirectly through the second overrunning clutch (FC 2); and/or

The drive Device (DM) is connected with the actuating device (ED) directly or indirectly through the first overrunning clutch (FC 1); and/or

The drive Device (DM) is connected with the actuating device (ED) directly or indirectly through the second overrunning clutch (FC 2); and/or

In forward rotation, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2) and the Transmission (TM), the driving Device (DM) is configured to have at least a function of being selectively engageable with the Hydraulic Pump (HP), and the driving Device (DM) is configured to have at least a function of being selectively disengageable from the pneumatic pump (AP); and/or

-upon reverse rotation, the Drive Means (DM) are configured to be at least capable of being selectively disengaged from the Hydraulic Pump (HP) and the drive means (TM) are configured to be at least capable of being selectively engaged with the pneumatic pump (AP), under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2) and the Transmission (TM); and/or

In forward rotation, under the direct or indirect action of the first overrunning clutch (FC1), the Transmission (TM), the driving Device (DM) is configured to have at least the function of being selectively engageable with the actuating device (ED); and/or

-in reverse rotation, the driving Device (DM) is configured at least to be selectively engageable with the actuating device (ED) under the direct or indirect action of the second overrunning clutch (FC2), the Transmission (TM); and/or

The drive Device (DM) is connected to the Hydraulic Pump (HP) directly or indirectly via the first clutch (C1); and/or

The drive Device (DM) is connected to the pneumatic pump (AP) directly or indirectly via the first clutch (C1); and/or

The drive Device (DM) is connected to the actuator device (ED) directly or indirectly via the first clutch (C1); and/or

-said Drive Means (DM) being selectively operative to engage and/or disengage said Hydraulic Pump (HP) under the direct or indirect action of said first clutch (C1) and of said Transmission (TM); and/or

-said Drive Means (DM) being selectively engageable and/or disengageable with said pneumatic pump (AP) under the direct or indirect action of said first clutch (C1) and of said Transmission (TM); and/or

The drive Device (DM) can be selectively engaged and/or disengaged with the actuator (ED) under the direct or indirect action of the first clutch (C1) and the Transmission (TM).

3. Multifunctional cleaning all-in-one Machine (MC) according to claim 1, characterized in that:

-between the Drive Means (DM) and the Hydraulic Pump (HP), the Transmission Means (TM) is configured to function with at least two transmission ratios; and/or

Between the Drive Means (DM) and the pneumatic pump (AP), the Transmission Means (TM) are configured to function with at least two transmission ratios; and/or

Between the drive Device (DM) and the actuator device (ED), the transmission device (TM) is configured to function with at least two transmission ratios; and/or

Between the Drive Means (DM) and the pneumatic pump (AP), the Transmission Means (TM) are configured to function at least as a transmission ratio variable within a range of ratios; and/or

Between the drive Device (DM) and the actuator device (ED), the transmission device (TM) is configured to function at least as a transmission ratio variable within a range of ratios; and/or

The Transmission (TM) is provided with at least a first overrunning clutch (FC1) and a second overrunning clutch (FC 2); and/or

The drive Device (DM) is connected to the Hydraulic Pump (HP) directly or indirectly via the first overrunning clutch (FC1) and the second overrunning clutch (FC 2); and/or

-the drive Device (DM) is connected to the pneumatic pump (AP) directly or indirectly through the first overrunning clutch (FC1) and the second overrunning clutch (FC 2); and/or

The drive Device (DM) is connected to the actuator (ED) directly or indirectly via the first overrunning clutch (FC1) and the second overrunning clutch (FC 2); and/or

When the driving Device (DM) rotates in the forward direction and in the reverse direction, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2) and the transmission device (TM), two transmission speed ratios are formed between the driving Device (DM) and the Hydraulic Pump (HP); and/or

When the driving Device (DM) rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2) and the transmission device (TM), two transmission speed ratios are formed between the driving Device (DM) and the pneumatic pump (AP); and/or

When the driving Device (DM) rotates forwards and backwards, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2) and the transmission device (TM), two transmission speed ratios are formed between the driving Device (DM) and the Executing Device (ED); and/or

The Transmission (TM) is equipped with at least a first clutch (C1); and/or

-two transmission ratios between the Drive Means (DM) and the Hydraulic Pump (HP) under the direct or indirect action of the first clutch (C1) and the Transmission (TM); and/or

-under the direct or indirect action of said first clutch (C1) and of said Transmission (TM), there are two transmission ratios between said Drive Means (DM) and said pneumatic pump (AP); and/or

Under the direct or indirect action of the first clutch (C1) and the Transmission (TM), there are two transmission ratios between the drive Device (DM) and the actuator (ED).

4. Multifunctional cleaning all-in-one Machine (MC) according to claim 1, characterized in that:

-between the Drive Means (DM) and the Hydraulic Pump (HP), the Transmission Means (TM) is configured to function with at least three transmission ratios; and/or

Between the Drive Means (DM) and the pneumatic pump (AP), the Transmission Means (TM) is configured to function with at least three transmission ratios; and/or

Between the drive Device (DM) and the actuator device (ED), the transmission device (TM) is configured to function with at least three transmission ratios; and/or

The Transmission (TM) is provided with at least a first overrunning clutch (FC1), a second overrunning clutch (FC2) and a first clutch (C1); and/or

The drive Device (DM) is connected to the Hydraulic Pump (HP) directly or indirectly via the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1); and/or

The drive Device (DM) is connected with the pneumatic pump (AP) directly or indirectly through the first overrunning clutch (FC1), the second overrunning clutch (FC2) and the first clutch (C1); and/or

When the driving Device (DM) rotates forwards and backwards, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1) and the transmission device (TM), three transmission speed ratios are formed between the driving Device (DM) and the Hydraulic Pump (HP); and/or

When the driving Device (DM) rotates forwards and backwards, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1) and the transmission device (TM), three transmission speed ratios are formed between the driving Device (DM) and the pneumatic pump (AP); and/or

When the driving Device (DM) rotates forwards and backwards, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1) and the transmission device (TM), three transmission speed ratios are formed between the driving Device (DM) and the Executing Device (ED); and/or

The Transmission (TM) is equipped with at least the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2); and/or

The drive Device (DM) is connected to the Hydraulic Pump (HP) directly or indirectly via the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1) and the second clutch (C2); and/or

The drive Device (DM) is connected to the pneumatic pump (AP) directly or indirectly via the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1) and the second clutch (C2); and/or

The drive Device (DM) is connected to the actuating device (ED) directly or indirectly via the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1) and the second clutch (C2); and/or

When the driving Device (DM) rotates in the forward direction and in the reverse direction, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2) and the transmission device (TM), three transmission speed ratios are formed between the driving Device (DM) and the Hydraulic Pump (HP); and/or

When the driving Device (DM) rotates forwards and backwards, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2) and the transmission device (TM), three transmission speed ratios are formed between the driving Device (DM) and the pneumatic pump (AP); and/or

When the driving Device (DM) rotates in the forward direction and in the reverse direction, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2) and the transmission device (TM), three transmission speed ratios are formed between the driving Device (DM) and the Executing Device (ED); and/or

The Transmission (TM) is provided with at least the first clutch (C1), the second clutch (C2); and/or

The drive Device (DM) is connected with the Hydraulic Pump (HP) directly or indirectly through the first clutch (C1), the second clutch (C2); and/or

The drive Device (DM) is connected to the pneumatic pump (AP) directly or indirectly via the first clutch (C1), the second clutch (C2); and/or

The drive Device (DM) is connected with the actuator (ED) directly or indirectly through the first clutch (C1) and the second clutch (C2); and/or

-under the direct or indirect action of the first clutch (C1), the second clutch (C2) and the Transmission (TM), there are three transmission speed ratios between the Drive Means (DM) and the Hydraulic Pump (HP); and/or

-under the direct or indirect action of the first clutch (C1), the second clutch (C2) and the Transmission (TM), there are three transmission ratios between the Drive Means (DM) and the pneumatic pump (AP); and/or

Under the direct or indirect action of the first clutch (C1), the second clutch (C2) and the Transmission (TM), there are three transmission speed ratios between the driving Device (DM) and the actuating device (ED).

5. Multifunctional cleaning all-in-one Machine (MC) according to claim 1, characterized in that:

-between the Drive Means (DM) and the Hydraulic Pump (HP), the Transmission Means (TM) are configured to function with at least four transmission ratios; and/or

Between the Drive Means (DM) and the pneumatic pump (AP), the Transmission Means (TM) are configured to function with at least four transmission ratios; and/or

Between the Drive Means (DM) and the actuator means (ED), the Transmission Means (TM) is configured to function with at least four transmission ratios; and/or

The Transmission (TM) is at least provided with a first overrunning clutch (FC1), a second overrunning clutch (FC2) and a first clutch (C1); and/or

The driving Device (DM) is directly or indirectly connected with the pneumatic pump (AP) through the first overrunning clutch (FC1), the second overrunning clutch (FC2) and the first clutch (C1); and/or

The drive Device (DM) is connected with the Execution Device (ED) directly or indirectly through the first overrunning clutch (FC1), the second overrunning clutch (FC2) and the first clutch (C1); and/or

When the driving Device (DM) rotates in the forward direction and in the reverse direction, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1) and the transmission device (TM), four transmission speed ratios are formed between the driving Device (DM) and the Hydraulic Pump (HP); and/or

When the driving Device (DM) rotates forwards and backwards, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1) and the transmission device (TM), four transmission speed ratios are formed between the driving Device (DM) and the pneumatic pump (AP); and/or

When the driving Device (DM) rotates in the forward direction and in the reverse direction, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1) and the transmission device (TM), four transmission speed ratios are formed between the driving Device (DM) and the Executing Device (ED); and/or

When the driving Device (DM) rotates in the forward direction and in the reverse direction, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2) and the transmission device (TM), four transmission speed ratios are formed between the driving Device (DM) and the Hydraulic Pump (HP); and/or

When the driving Device (DM) rotates in the forward direction and in the reverse direction, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2) and the transmission device (TM), four transmission speed ratios are formed between the driving Device (DM) and the pneumatic pump (AP); and/or

When the driving Device (DM) rotates in the forward direction and in the reverse direction, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2) and the transmission device (TM), four transmission speed ratios are formed between the driving Device (DM) and the Executing Device (ED); and/or

The drive Device (DM) is connected to the Hydraulic Pump (HP) directly or indirectly via the first clutch (C1), the second clutch (C2); and/or

Under the direct or indirect action of the first clutch (C1), the second clutch (C2) and the Transmission (TM), there are four transmission speed ratios between the Drive Means (DM) and the Hydraulic Pump (HP); and/or

Under the direct or indirect action of the first clutch (C1), the second clutch (C2) and the Transmission (TM), there are four transmission speed ratios between the Drive Means (DM) and the pneumatic pump (AP); and/or

Under the direct or indirect action of the first clutch (C1), the second clutch (C2) and the Transmission (TM), there are four transmission speed ratios between the driving Device (DM) and the actuating device (ED).

6. Multifunctional cleaning all-in-one Machine (MC) according to claim 1, characterized in that:

-between the Drive Means (DM) and the Hydraulic Pump (HP), the Transmission Means (TM) is configured to function with at least five transmission ratios; and/or

Between the Drive Means (DM) and the pneumatic pump (AP), the Transmission Means (TM) is configured to function with at least five transmission ratios; and/or

Between the drive Device (DM) and the actuator device (ED), the transmission device (TM) is configured to function with at least five transmission ratios; and/or

-between the Drive Means (DM) and the Hydraulic Pump (HP), the Transmission Means (TM) are configured to function at least with a transmission ratio variable within a range of ratios; and/or

The Transmission (TM) is at least provided with a first overrunning clutch (FC1), a second overrunning clutch (FC2), a first clutch (C1) and a second clutch (C2); and/or

The drive Device (DM) is connected to the Hydraulic Pump (HP) directly or indirectly via the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2); and/or

The drive Device (DM) is connected with the pneumatic pump (AP) directly or indirectly through the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1) and the second clutch (C2); and/or

The drive Device (DM) is connected to the actuator (ED) directly or indirectly via the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1) and the second clutch (C2); and/or

When the driving Device (DM) rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2) and the transmission device (TM), five transmission speed ratios are formed between the driving Device (DM) and the Hydraulic Pump (HP); and/or

When the driving Device (DM) rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2) and the transmission device (TM), five transmission speed ratios are formed between the driving Device (DM) and the pneumatic pump (AP); and/or

When the driving Device (DM) rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2) and the transmission device (TM), the driving Device (DM) and the Executing Device (ED) have five transmission speed ratios; and/or

The Transmission (TM) is provided with at least the first clutch (C1), the second clutch (C2), a third clutch (C3); and/or

The drive Device (DM) is connected to the Hydraulic Pump (HP) directly or indirectly via the first clutch (C1), the second clutch (C2) and the third clutch (C3); and/or

The drive Device (DM) is connected to the pneumatic pump (AP) directly or indirectly via the first clutch (C1), the second clutch (C2) and the third clutch (C3); and/or

The drive Device (DM) is connected to the actuator (ED) directly or indirectly via the first clutch (C1), the second clutch (C2), the third clutch (C3); and/or

-five transmission ratios between the Drive Means (DM) and the Hydraulic Pump (HP) under direct or indirect action of the first clutch (C1), the second clutch (C2), the third clutch (C3) and the Transmission (TM); and/or

Under the direct or indirect action of the first clutch (C1), the second clutch (C2), the third clutch (C3) and the Transmission (TM), there are five transmission speed ratios between the driving Device (DM) and the pneumatic pump (AP); and/or

Under the direct or indirect action of the first clutch (C1), the second clutch (C2), the third clutch (C3) and the Transmission (TM), there are five transmission speed ratios between the driving Device (DM) and the Executing Device (ED).

7. Multifunctional cleaning all-in-one Machine (MC) according to claim 1, characterized in that:

-between the Drive Means (DM) and the Hydraulic Pump (HP), the Transmission Means (TM) is configured to function with at least six transmission ratios; and/or

Between the Drive Means (DM) and the pneumatic pump (AP), the Transmission Means (TM) are configured to function with at least six transmission ratios; and/or

Between the drive Device (DM) and the actuator device (ED), the transmission device (TM) is configured to function with at least six transmission ratios; and/or

When the driving Device (DM) rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2) and the transmission device (TM), six transmission speed ratios are formed between the driving Device (DM) and the Hydraulic Pump (HP); and/or

When the driving Device (DM) rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2) and the transmission device (TM), six transmission speed ratios are formed between the driving Device (DM) and the pneumatic pump (AP); and/or

When the driving Device (DM) rotates in the forward direction and in the reverse direction, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2) and the transmission device (TM), six transmission speed ratios are formed between the driving Device (DM) and the Executing Device (ED); and/or

The Transmission (TM) is equipped with at least the first clutch (C1), the second clutch (C2), a third clutch (C3); and/or

The drive Device (DM) is connected to the actuator (ED) directly or indirectly via the first clutch (C1), the second clutch (C2) and the third clutch (C3); and/or

-under the direct or indirect action of the first clutch (C1), the second clutch (C2), the third clutch (C3) and the Transmission (TM), there are six transmission speed ratios between the Drive Means (DM) and the Hydraulic Pump (HP); and/or

Under the direct or indirect action of the first clutch (C1), the second clutch (C2), the third clutch (C3) and the Transmission (TM), there are six transmission speed ratios between the drive Device (DM) and the pneumatic pump (AP); and/or

Under the direct or indirect action of the first clutch (C1), the second clutch (C2), the third clutch (C3) and the Transmission (TM), there are six transmission speed ratios between the driving Device (DM) and the actuator (ED).

8. Multifunctional cleaning all-in-one Machine (MC) according to claim 1, characterized in that:

-between the Drive Means (DM) and the Hydraulic Pump (HP), the Transmission Means (TM) is configured to function with at least seven transmission ratios; and/or

Between the Drive (DM) and the pneumatic pump (AP), the Transmission (TM) is configured to function with at least seven transmission ratios; and/or

Between the drive Device (DM) and the actuator device (ED), the transmission device (TM) is configured to function with at least seven transmission ratios; and/or

The Transmission (TM) is at least provided with a first overrunning clutch (FC1), a second overrunning clutch (FC2), a first clutch (C1), a second clutch (C2) and a third clutch (C3); and/or

The drive Device (DM) is connected to the Hydraulic Pump (HP) directly or indirectly via the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2) and the third clutch (C3); and/or

The drive Device (DM) is connected to the pneumatic pump (AP) directly or indirectly via the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2) and the third clutch (C3); and/or

The drive Device (DM) is connected to the actuator (ED) directly or indirectly via the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2) and the third clutch (C3); and/or

When the driving Device (DM) rotates forwards and backwards, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2), the third clutch (C3) and the transmission device (TM), seven transmission speed ratios are formed between the driving Device (DM) and the Hydraulic Pump (HP); and/or

When the driving Device (DM) rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2), the third clutch (C3) and the transmission device (TM), seven transmission speed ratios are formed between the driving Device (DM) and the pneumatic pump (AP); and/or

When the driving Device (DM) rotates forwards and reversely, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2), the third clutch (C3) and the transmission device (TM), seven transmission speed ratios are formed between the driving Device (DM) and the Executing Device (ED); and/or

The Transmission (TM) is equipped with at least the first clutch (C1), the second clutch (C2), the third clutch (C3), a fourth clutch (C4); and/or

The drive Device (DM) is connected to the Hydraulic Pump (HP) directly or indirectly via the first clutch (C1), the second clutch (C2), the third clutch (C3) and the fourth clutch (C4); and/or

The drive Device (DM) is connected to the pneumatic pump (AP) directly or indirectly via the first clutch (C1), the second clutch (C2), the third clutch (C3), the fourth clutch (C4); and/or

The drive Device (DM) is connected to the actuator (ED) directly or indirectly via the first clutch (C1), the second clutch (C2), the third clutch (C3) and the fourth clutch (C4); and/or

Seven transmission speed ratios between the Drive Means (DM) and the Hydraulic Pump (HP) under the direct or indirect action of the first clutch (C1), the second clutch (C2), the third clutch (C3), the fourth clutch (C4) and the Transmission (TM); and/or

Seven transmission speed ratios between the Drive Means (DM) and the pneumatic pump (AP) under the direct or indirect action of the first clutch (C1), the second clutch (C2), the third clutch (C3), the fourth clutch (C4) and the Transmission (TM); and/or

Under the direct or indirect action of the first clutch (C1), the second clutch (C2), the third clutch (C3), the fourth clutch (C4) and the Transmission (TM), there are seven transmission speed ratios between the drive Device (DM) and the actuator device (ED).

9. Multifunctional cleaning all-in-one Machine (MC) according to claim 1, characterized in that:

-between the Drive Means (DM) and the Hydraulic Pump (HP), the Transmission Means (TM) are configured to function with at least eight transmission ratios; and/or

Between the Drive Means (DM) and the pneumatic pump (AP), the Transmission Means (TM) is configured to function with at least eight transmission ratios; and/or

Between the drive Device (DM) and the actuator device (ED), the transmission device (TM) is configured to function with at least eight transmission ratios; and/or

The driving Device (DM) is directly or indirectly connected with the Executing Device (ED) through the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2) and the third clutch (C3); and/or

When the driving Device (DM) rotates forwards and backwards, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2), the third clutch (C3) and the transmission device (TM), eight transmission speed ratios are formed between the driving Device (DM) and the Hydraulic Pump (HP); and/or

When the driving Device (DM) rotates forwards and backwards, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2), the third clutch (C3) and the transmission device (TM), eight transmission speed ratios are formed between the driving Device (DM) and the pneumatic pump (AP); and/or

When the driving Device (DM) rotates forwards and backwards, under the direct or indirect action of the first overrunning clutch (FC1), the second overrunning clutch (FC2), the first clutch (C1), the second clutch (C2), the third clutch (C3) and the transmission device (TM), eight transmission speed ratios are formed between the driving Device (DM) and the Executing Device (ED); and/or

The drive Device (DM) is connected to the pneumatic pump (AP) directly or indirectly via the first clutch (C1), the second clutch (C2), the third clutch (C3) and the fourth clutch (C4); and/or

Eight transmission speed ratios between the Drive Means (DM) and the Hydraulic Pump (HP) under the direct or indirect action of the first clutch (C1), the second clutch (C2), the third clutch (C3), the fourth clutch (C4) and the Transmission (TM); and/or

Eight transmission speed ratios between the Drive Means (DM) and the pneumatic pump (AP) under the direct or indirect action of the first clutch (C1), the second clutch (C2), the third clutch (C3), the fourth clutch (C4) and the Transmission (TM); and/or

Eight transmission ratios between the drive Device (DM) and the actuator device (ED) are obtained under the direct or indirect action of the first clutch (C1), the second clutch (C2), the third clutch (C3), the fourth clutch (C4) and the transmission device (TM).

10. Multifunctional cleaning all-in-one Machine (MC) according to any one of claims 1 to 9, characterized in that:

the Hydraulic Pump (HP) comprises at least one or more axial piston pumps; and/or

Said Hydraulic Pump (HP) comprising at least one or more gear pumps; and/or

The Hydraulic Pump (HP) comprises at least one or more progressive cavity pumps; and/or

The Hydraulic Pump (HP) comprises at least one or more vane pumps; and/or

Said Hydraulic Pump (HP) comprises at least one or more diaphragm pumps; and/or

The Hydraulic Pump (HP) comprises at least one or more double-acting reciprocating pumps; and/or

Said Hydraulic Pump (HP) comprises at least one or more piezoelectric pumps; and/or

The Hydraulic Pump (HP) comprises at least one or more electromagnetic pumps; and/or

Said Hydraulic Pump (HP) comprises at least one or more radial piston pumps; and/or

The Hydraulic Pump (HP) comprises at least one or more swash plate axial plunger pumps; and/or

Said Hydraulic Pump (HP) comprises at least one or more inclined axial plunger pumps; and/or

The pneumatic pump (AP) comprises at least one or more axial plunger pumps; and/or

The pneumatic pump (AP) comprises at least one or more gear pumps; and/or

The pneumatic pump (AP) comprises at least one or more progressive cavity pumps; and/or

The pneumatic pump (AP) comprises at least one or more vane pumps; and/or

The pneumatic pump (AP) comprises at least one or more diaphragm pumps; and/or

The pneumatic pump (AP) comprises at least one or more double-acting reciprocating pumps; and/or

The pneumatic pump (AP) comprises at least one or more piezoelectric pumps; and/or

The pneumatic pump (AP) comprises at least one or more electromagnetic pumps; and/or

The pneumatic pump (AP) comprises at least one or more radial piston pumps; and/or

The pneumatic pump (AP) comprises at least one or more swash plate axial piston pumps; and/or

The pneumatic pump (AP) comprises at least one or more axial piston pumps of the oblique axis type; and/or

-under the direct or indirect action of said Transmission (TM), said Hydraulic Pump (HP) is configured to have at least the function of directly converting mechanical energy into hydraulic energy; and/or

Under the direct or indirect action of the Transmission (TM), the pneumatic pump (AP) is configured to have at least the function of directly converting mechanical energy into pneumatic energy; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured at least for the function of cleaning or caring for the teeth by means of a toothbrush; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured at least to perform the function of cleaning or caring for interdental spaces by means of an interdental brush; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured at least to perform the function of cleaning or caring for the teeth by means of an orthodontic brush; and/or

Under the direct or indirect action of the Transmission Means (TM), the performing means (ED) are configured to perform at least the function of cleaning or caring for an orthodontic retainer by means of an orthodontic brush; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured at least to have the function of massaging the gums by means of a massaging head; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured at least to have the function of massaging the oral cavity by means of massage heads; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured at least to have the function of massaging the nasal cavities by means of massage heads; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured at least to have the function of massaging the ear cavity by means of a massaging head; and/or

Under the direct or indirect action of the transmission device (TM), the actuating device (ED) is configured to at least have the function of grinding teeth through a grinding head; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuating means (ED) are configured at least to perform the function of polishing the teeth by means of a polishing head; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured at least to function as a drill for drilling a hole in a tooth; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least to perform the function of cleaning or caring teeth by means of a toothbrush; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured to at least perform the function of cleaning or caring for interdental spaces by means of an interdental brush; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured to perform at least the function of cleaning or caring teeth by means of orthodontic brushes; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuation device (ED) is configured to at least perform the function of cleaning or caring for orthodontic retainers by means of orthodontic brushes; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuation means (ED) are configured at least with the function of massaging the gums by means of a massaging head; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured at least to function for massaging the oral cavity by means of a massaging head; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured at least with the function of massaging the nasal cavities by means of massage heads; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured at least to function for massaging the ear cavity by means of a massage head; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured to have at least the function of grinding the teeth through a grinding head; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured to have at least the function of polishing teeth by means of a polishing head; and/or

-under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least to function for drilling a hole in a tooth by means of a drill; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least to perform the function of spraying water through a spray head so as to clean or care teeth; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least with the function of spraying water through a spray head so as to clean or care the interdental spaces; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least to perform the function of spraying water through a spray head so as to clean or care for the oral cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured to perform at least the function of spraying water through a spray head in order to clean or care for orthodontic retainers; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least to have the function of spraying water through a spray head so as to clean or care for the oral cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least with the function of spraying water through a spray head so as to clean or care for the nasal cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least to perform the function of spraying water through a spray head in order to clean or care for the ear cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured at least to have the function of massaging the gums by spraying water through a spray head; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured at least to have the function of spraying water through a spray head so as to massage the oral cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured at least with the function of massaging the nasal cavities by spraying water through a spray head; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured at least to have the function of spraying water through a spray head so as to massage the ear cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured to have at least the function of spraying water through a spray head so as to massage the skin; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least to perform the function of spraying through a spray head so as to clean or care for the teeth; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least to perform the function of spraying through a spray head in order to clean or care for interdental spaces; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuation device (ED) is configured at least to perform the function of spraying through a spray head in order to clean or care for the oral cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuation device (ED) is configured at least to function as a spray nozzle for cleaning or care of orthodontic retainers; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuation device (ED) is configured at least to perform the function of spraying through a spray head in order to clean or care for the nasal cavities; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least to function by spraying through a spray head in order to clean or care for the ear cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured to have at least the function of massaging the gums by spraying through a spray head; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured at least to have the function of massaging the oral cavity by spraying through a spray head; and/or

-under the direct or indirect action of the Hydraulic Pump (HP), the actuator means (ED) are configured at least to have the function of massaging the nasal cavities by spraying through a spray head; and/or

-under the direct or indirect action of the Hydraulic Pump (HP), the actuator means (ED) are configured at least to have the function of massaging the ear cavity by spraying through a spray head; and/or

-under the direct or indirect action of the Hydraulic Pump (HP), the actuator means (ED) are configured at least to have the function of massaging the skin by spraying through a spray head; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least to have the function of spraying a water-air mixture through a spray head so as to clean or care teeth; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured to perform at least the function of spraying a mixture of water and air through a spray head so as to clean or care the interdental spaces; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least to have the function of injecting a mixture of water and air through a spray head so as to clean or care for the oral cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least with the function of spraying a mixture of water and air through a spray head in order to clean or care for orthodontic retainers; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least to function by spraying a mixture of water and air through a spray head so as to clean or care for the oral cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured at least to perform the function of spraying a mixture of water and air through a nozzle head in order to clean or care for the nasal cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least to function by spraying a mixture of water and air through a spray head in order to clean or care for the ear cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured to have at least the function of injecting a water-air mixture through a nozzle so as to massage the gums; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured to have at least the function of injecting a water-air mixture through a spray head so as to massage the oral cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured at least to have the function of injecting a mixture of water and air through a nozzle head so as to massage the nasal cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured at least to have the function of injecting a mixture of water and air through a nozzle head in order to massage the ear cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured at least to have the function of injecting a mixture of water and air through a nozzle head so as to massage the skin; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least to perform the function of spraying air through a spray head so as to clean or care teeth; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured to at least have the function of spraying air through a spray head so as to clean or care the teeth; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least to have the function of spraying air through a spray head so as to clean or care the oral cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured to perform at least the function of spraying air through a spray head so as to clean or care the orthodontic retainer; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least to perform the function of spraying air through a spray head so as to clean or care for the oral cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least to perform the function of spraying air through a spray head so as to clean or care for the nasal cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least to perform the function of spraying air through a spray head in order to clean or care for the ear cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuating device (ED) is configured to have at least the function of massaging the gums by spraying air through a spray head; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured to have at least the function of injecting air through the nozzle so as to massage the oral cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured at least to have the function of massaging the nasal cavity by means of the jets of air from the jets; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured to have at least the function of ejecting air through the ejection head so as to massage the ear cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured at least to have the function of massaging the skin by spraying air through the spray head; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured at least to perform the function of cleaning or caring teeth by blasting through a nozzle; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured at least to perform the function of spraying a mixture of air and sand through a nozzle in order to clean or care for the teeth; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured to have at least the function of spraying a water-air-sand mixture through a spray head so as to clean or care teeth; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured at least to perform the function of spraying a mist-sand mixture through a spray head so as to clean or care teeth; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuation device (ED) is configured at least to function for cleaning or caring for teeth by means of a toothbrush; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured to at least perform the function of cleaning or caring the interdental space by means of an interdental brush; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuation device (ED) is configured at least for the function of cleaning or caring for teeth by means of an orthodontic brush; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuation means (ED) are configured to at least perform the function of cleaning or caring for orthodontic retainers by means of orthodontic brushes; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuation device (ED) is configured at least to have the function of massaging the gingiva by means of a massage head; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuation means (ED) are configured at least to have the function of massaging the oral cavity by means of a massage head; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuation means (ED) are configured at least to have the function of massaging the nasal cavity by means of massage heads; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuation means (ED) are configured at least to have the function of massaging the ear cavity by means of a massage head; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured to have at least the function of grinding teeth by means of a grinding head; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured at least to have the function of polishing the teeth by means of a polishing head; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured at least to function as a drill for drilling a hole in a tooth; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured to have at least the function of spraying water through a spray head so as to clean or care teeth; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured at least to spray water through a spray head in order to clean or care for interdental spaces; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured at least to have the function of spraying water through a spray head so as to clean or care the oral cavity; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured to perform at least the function of spraying water through a spray head in order to clean or care for orthodontic retainers; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuation means (ED) are configured at least to perform the function of spraying water through a spray head in order to clean or care for the nasal cavities; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured at least to perform the function of spraying water through a spray head in order to clean or care for the ear cavity; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured to have at least the function of massaging the gums by spraying water through a spray head; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured to have at least the function of spraying water through a spray head so as to massage the oral cavity; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured to have at least the function of massaging the nasal cavity by spraying water through the nozzle; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured to have at least the function of massaging the ear cavity by spraying water through a spray head; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured to have at least the function of massaging the skin by spraying water through the spray head; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured at least to perform the function of spraying through a spray head in order to clean or care for teeth; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured at least to perform the function of spraying through a spray head in order to clean or care for interdental spaces; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuation means (ED) are configured at least to perform the function of spraying through a spray head in order to clean or care for the oral cavity; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuation device (ED) is configured at least to function as a spray nozzle for cleaning or care of orthodontic retainers; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuation device (ED) is configured at least to perform the function of spraying through a spray head in order to clean or care for the oral cavity; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuation means (ED) are configured at least to perform the function of spraying through a spray head in order to clean or care for the nasal cavity; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuation means (ED) are configured at least to perform the function of spraying through a spray head in order to clean or care for the ear cavity; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured to have at least the function of massaging the gums by spraying through a spray head; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured to at least have the function of massaging the oral cavity by spraying through a spray head; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured at least to have the function of massaging the nasal cavity by spraying through a nozzle; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured to have at least the function of massaging the ear cavity by spraying through a spray head; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured at least to have the function of massaging the skin by spraying through a spray head; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured at least to have the function of spraying a water-air mixture through a spray head so as to clean or care teeth; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured to have at least the function of spraying a water-air mixture through a spray head so as to clean or care the interdental spaces; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured at least to perform the function of spraying a water-air mixture through a spray head so as to clean or care the oral cavity; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured to perform at least the function of spraying a water-air mixture through a spray head so as to clean or care the orthodontic retainer; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuation device (ED) is configured at least to have the function of spraying a mixture of water and air through a spray head so as to clean or care for the nasal cavity; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured at least to function by spraying a mixture of water and air through a spray head in order to clean or care for the ear cavity; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured to have at least the function of massaging the gums by spraying a water-air mixture through a spray head; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured to have at least the function of massaging the oral cavity by spraying a water-air mixture through a spray head; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured at least to have the function of massaging the nasal cavity by spraying a mixture of water and air through a nozzle; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured at least to have the function of massaging the ear cavity by spraying a water-air mixture through a spray head; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured to have at least the function of massaging the skin by spraying a mixture of water and air through a spray head; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured to have at least the function of spraying air through a spray head so as to clean or care teeth; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured to have at least the function of spraying air through a spray head so as to clean or care the teeth crevice; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured at least to have the function of spraying air through a spray head so as to clean or care the oral cavity; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured to perform at least the function of spraying air through a spray head so as to clean or care the orthodontic retainer; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured at least to perform the function of spraying air through a spray head so as to clean or care the oral cavity; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuation device (ED) is configured at least to perform the function of spraying air through a spray head so as to clean or care the nasal cavity; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuating device (ED) is configured at least to perform the function of spraying air through a spray head in order to clean or care for the ear cavity; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured to have at least the function of massaging the gums by spraying air through a spray head; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured to have at least the function of massaging the oral cavity by spraying air through the spray head; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured to have at least the function of massaging the nasal cavity by means of the jet of air from the jet; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured to have at least the function of massaging the ear cavity by blowing air through the nozzle; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured to have at least the function of massaging the skin by spraying air through the spray head; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured at least to have the function of driving the tooth brush head by means of mechanical energy to vibrate, and/or oscillate, and/or rotate, and/or move, and/or spray water, and/or mist, and/or spray a mixture of water and gas, and/or jet air; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuating means (ED) are configured at least to have the function of driving the interdental brush head by mechanical energy to vibrate, and/or oscillate, and/or rotate, and/or move, and/or spray water, and/or mist, and/or spray a mixture of water and gas, and/or blow gas; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured at least to have the function of driving the orthodontic brushhead by mechanical energy to vibrate, and/or oscillate, and/or rotate, and/or move, and/or spray water, and/or mist, and/or spray a mixture of water and air, and/or jet air; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured at least to have the function of driving the massage heads in oscillation, and/or in rotation, and/or in translation, by means of mechanical energy; and/or

Under the direct or indirect action of the transmission device (TM), the actuating device (ED) is configured to at least have the function of driving the tooth brush head to clean or care teeth through mechanical energy; and/or

Under the direct or indirect action of the transmission device (TM), the Execution Device (ED) is configured to at least have the function of driving the interdental brush head to clean or care interdental spaces through mechanical energy; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured to perform at least the function of driving orthodontic brushheads through mechanical energy to clean or care orthodontic retainers; and/or

Under the direct or indirect action of the transmission device (TM), the Execution Device (ED) is configured to at least have the function of driving the massage head to massage the gum through mechanical energy; and/or

Under the direct or indirect action of the transmission device (TM), the actuating device (ED) is configured to at least have the function of driving the massage head to massage the oral cavity through mechanical energy; and/or

Under the action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least to have the function of driving the tooth brush head to vibrate, and/or oscillate, and/or rotate, and/or move, and/or spray water, and/or mist, and/or spray a mixture of water and air, and/or blow air, directly or indirectly through hydraulic energy; and/or

Under the action of the Hydraulic Pump (HP), the actuating device (ED) is configured at least to have the function of driving the interdental brush head to vibrate, and/or oscillate, and/or rotate, and/or move, and/or spray water, and/or mist, and/or spray a mixture of water and air, and/or spray air, directly or indirectly through hydraulic energy; and/or

Under the action of the Hydraulic Pump (HP), the actuating device (ED) is configured to have at least the function of directly or indirectly driving the orthodontic brushhead to vibrate, and/or oscillate, and/or rotate, and/or move, and/or spray water, and/or mist spraying, and/or spray a mixture of water and air, and/or jet air through hydraulic energy; and/or

Under the action of the Hydraulic Pump (HP), the actuating device (ED) is configured to at least have the function of driving the tooth brush head to clean or care teeth directly or indirectly through hydraulic energy; and/or

Under the action of the Hydraulic Pump (HP), the actuating device (ED) is configured to at least have the function of driving the interdental brush head to clean or care interdental spaces directly or indirectly through hydraulic energy; and/or

Under the action of the Hydraulic Pump (HP), the actuating device (ED) is configured to have at least the function of driving orthodontic brushheads to clean or care orthodontic holders directly or indirectly through hydraulic energy; and/or

Under the action of the Hydraulic Pump (HP), the actuating device (ED) is configured to have at least the function of directly or indirectly driving the massage head to massage the gum through hydraulic energy; and/or

Under the action of the Hydraulic Pump (HP), the actuating device (ED) is configured to have at least the function of driving the massage head to massage the oral cavity directly or indirectly through hydraulic energy; and/or

Under the action of the Hydraulic Pump (HP), the actuating device (ED) is configured to have at least the function of driving the spray head to spray water directly or indirectly through hydraulic energy; and/or

-under the action of the Hydraulic Pump (HP), the actuator (ED) is configured to have at least the function of driving the spray head spray directly or indirectly through hydraulic energy; and/or

Under the action of the Hydraulic Pump (HP), the actuating device (ED) is configured to have at least the function of directly or indirectly driving the spray head to spray the water-gas mixture through hydraulic energy; and/or

Under the action of the Hydraulic Pump (HP), the actuating device (ED) is configured to at least have the function of driving a spray head to spray air directly or indirectly through hydraulic energy; and/or

Under the action of the pneumatic pump (AP), the actuating device (ED) is configured to at least have the function of directly or indirectly driving the tooth brush head to vibrate, and/or oscillate, and/or rotate, and/or move, and/or spray water, and/or mist, and/or spray a water-air mixture, and/or jet air through pneumatic energy; and/or

Under the action of the pneumatic pump (AP), the actuating device (ED) is configured to at least have the function of directly or indirectly driving the interdental brush head to vibrate, and/or oscillate, and/or rotate, and/or move, and/or spray water, and/or mist, and/or spray a water-air mixture, and/or jet air through pneumatic energy; and/or

Under the action of the pneumatic pump (AP), the actuating device (ED) is configured to at least have the function of directly or indirectly driving the orthodontic brushhead to vibrate, and/or swing, and/or rotate, and/or move, and/or spray water, and/or mist spraying, and/or spray a water-air mixture, and/or jet air through pneumatic energy; and/or

Under the action of the pneumatic pump (AP), the actuating device (ED) is configured to at least have the function of directly or indirectly driving the tooth brush head to clean or care teeth through pneumatic energy; and/or

Under the action of the pneumatic pump (AP), the actuating device (ED) is configured to at least have the function of directly or indirectly driving the interdental brush head to clean or care interdental spaces through pneumatic energy; and/or

Under the action of the pneumatic pump (AP), the actuating device (ED) is configured to at least have the function of driving an orthodontic brushhead to clean or care an orthodontic retainer directly or indirectly through pneumatic energy; and/or

Under the action of the pneumatic pump (AP), the Execution Device (ED) is at least provided with a function of directly or indirectly driving the massage head to massage the gum through pneumatic energy; and/or

Under the action of the pneumatic pump (AP), the Execution Device (ED) is configured to at least have the function of driving the massage head to massage the oral cavity directly or indirectly through pneumatic energy; and/or

Under the action of the pneumatic pump (AP), the actuating device (ED) is configured to have at least the function of driving a spray head to blast sand directly or indirectly through pneumatic energy; and/or

Under the action of the pneumatic pump (AP), the actuating device (ED) is configured to have at least the function of directly or indirectly driving a spray head to spray the air-sand mixture through pneumatic pressure; and/or

Under the action of the pneumatic pump (AP), the actuating device (ED) is configured to at least have the function of driving a spray head to spray the water-air-sand mixture directly or indirectly through pneumatic energy; and/or

Under the action of the pneumatic pump (AP), the actuating device (ED) is configured to at least have the function of directly or indirectly driving a spray head to spray the fog and sand mixture through pneumatic energy; and/or

Under the direct or indirect action of the transmission device (TM), the actuating device (ED) is configured to at least have the function of driving the massage heads to massage the nasal cavity through mechanical energy; and/or

Under the direct or indirect action of the transmission device (TM), the Execution Device (ED) is configured to at least have the function of driving the massage head to massage the skin through mechanical energy; and/or

Under the direct or indirect action of the transmission device (TM), the Executing Device (ED) is configured to at least have the function of driving the massaging head to massage the gingiva through hydraulic energy; and/or

Under the direct or indirect action of the transmission device (TM), the Executing Device (ED) is configured to at least have the function of driving the massage head to massage the oral cavity through hydraulic energy; and/or

Under the direct or indirect action of the transmission device (TM), the Execution Device (ED) is at least provided with a function of driving the massage head to massage the nasal cavity through hydraulic energy; and/or

Under the direct or indirect action of the transmission device (TM), the actuating device (ED) is configured to at least have the function of driving the massage head to massage the oral cavity through hydraulic energy; and/or

Under the direct or indirect action of the transmission device (TM), the Execution Device (ED) is configured to at least have the function of driving the massage head to massage the skin through hydraulic energy; and/or

Under the direct or indirect action of the transmission device (TM), the Executing Device (ED) is constructed to at least have the function of driving the massaging head to massage the gum through air pressure; and/or

Under the direct or indirect action of the transmission device (TM), the Executing Device (ED) is configured to at least have the function of driving the massage head to massage the oral cavity through air pressure; and/or

Under the direct or indirect action of the transmission device (TM), the Execution Device (ED) is configured to at least have the function of driving the massage head to massage the nasal cavity through air pressure; and/or

Under the direct or indirect action of the transmission device (TM), the Execution Device (ED) is at least provided with a function of driving the massage head to massage the skin through air pressure energy; and/or

Under the direct or indirect action of the transmission device (TM), the actuator (ED) is configured to have at least the function of massaging the gums by spraying water through the spray head; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured to have at least the function of spraying water through the sprayer head so as to massage the oral cavity; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured at least to have the function of massaging the nasal cavity by spraying water through the nozzle; and/or

Under the direct or indirect action of said Transmission Means (TM), said actuation means (ED) are configured to have at least the function of massaging the ear cavity by spraying water through the spray head; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured at least to have the function of massaging the skin by spraying water through the spray heads; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured to have at least the function of massaging the gums by spraying through a nozzle; and/or

Under the direct or indirect action of the actuator (TM), the actuator (ED) is configured to at least have the function of massaging the oral cavity by spraying through the nozzle; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured at least to have the function of massaging the nasal cavity by spraying through the nozzle; and/or

Under the direct or indirect action of said actuator (TM), said actuator (ED) is configured to perform at least the function of massaging the ear cavity by spraying through the nozzle; and/or

Under the direct or indirect action of said actuator (TM), said actuator (ED) is configured at least to perform the function of massaging the skin by spraying through a nozzle; and/or

Under the direct or indirect action of the transmission device (TM), the actuator (ED) is configured to have at least the function of massaging the gums by spraying a water-air mixture through a spray head; and/or

Under the direct or indirect action of the transmission device (TM), the actuator (ED) is configured to have at least the function of injecting a water-air mixture through the nozzle so as to massage the oral cavity; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured at least to have the function of massaging the nasal cavity by spraying a mixture of water and air through the nozzles; and/or

Under the direct or indirect action of said actuator (TM), said actuator (ED) is configured to have at least the function of massaging the ear cavity by spraying a mixture of water and air through a nozzle; and/or

Under the direct or indirect action of the transmission device (TM), the actuator device (ED) is configured to have at least the function of massaging the skin by spraying a mixture of water and air through a spray head; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured at least to have the function of massaging the gums by blowing air through the nozzle; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuator means (ED) are configured to perform at least the function of massaging the oral cavity by blowing air through the nozzle; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured at least to have the function of massaging the nasal cavity by means of the jets of air; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured to have at least the function of massaging the ear cavity by means of the jets of air from the jet heads; and/or

Under the direct or indirect action of the Transmission Means (TM), the actuation means (ED) are configured at least to have the function of massaging the skin by means of air jets from the jets; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured at least to have the function of massaging the gums by spraying through a spray head; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured at least to have the function of massaging the nasal cavity by spraying through a spray head; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured to have at least the function of massaging the skin by spraying through a spray head; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured to have at least the function of injecting a water-air mixture through a nozzle so as to massage the skin; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured to have at least the function of massaging the gums by spraying air through the spray head; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured at least to have the function of injecting air through the nozzle so as to massage the oral cavity; and/or

Under the direct or indirect action of the Hydraulic Pump (HP), the actuator (ED) is configured at least to have the function of massaging the nasal cavity by blowing air through the nozzle; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured to have at least the function of massaging the skin by spraying through a spray head; and/or

Under the direct or indirect action of the pneumatic pump (AP), the actuator (ED) is configured at least to have the function of massaging the skin by spraying a water-air mixture through a spray head; and/or

The multipurpose cleaning all-in-one Machine (MC) is configured to have at least one water flossing mode, in which the actuating device (ED) can selectively spray a water stream with a flow rate range and a pressure range, and/or the actuating device (ED) can selectively spray a water-air mixture with a flow rate range and a pressure range, and/or the actuating device (ED) can selectively spray a water mist with a concentration range and a droplet size range, and/or the actuating device (ED) can selectively spray a gas with a flow rate range and a pressure range, so that the multipurpose cleaning all-in-one Machine (MC) can clean slits between teeth under the operation of the user, and/or the user can at least clean the flow rate of the water stream, and/or the pressure of the water stream, within a certain range, And/or the injection speed of the water stream, and/or the injection frequency of the water stream, and/or the frequency of the pressure fluctuations of the water stream, and/or the water temperature of the water stream, and/or the user can selectively adjust within a certain range at least the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection speed of the water-gas mixture, and/or the injection frequency of the water-gas mixture, and/or the frequency of the pressure fluctuations of the water-gas mixture, and/or the user can selectively adjust within a certain range at least the droplet size of the water mist, and/or the droplet concentration of the water mist, and/or the flow rate of the water mist, and/or the pressure of the water mist, and/or the injection speed of the water mist, And/or the frequency of the spray of the mist, and/or the frequency of the pressure fluctuations of the mist, and/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the speed of the spray of the gas, and/or the frequency of the pressure fluctuations of the gas, within a certain range; and/or

The multipurpose cleaning all-in-one Machine (MC) is configured to have at least one electric toothbrush operating mode in which the actuating device (ED) can be selectively vibrated, and/or oscillated, and/or rotated, and/or sprayed with water, and/or mist, and/or sprayed with a mixture of water and/or air, and/or the dental brush head can be selectively vibrated, and/or oscillated, and/or rotated, and/or sprayed with water, and/or mist, and/or sprayed with a mixture of water and/or air, so that the multipurpose cleaning all-in-one Machine (MC) can clean teeth under the control of the user, and/or the user can clean teeth at least within a certain range of strength, and/or air permeability of the actuating device (ED), And/or the frequency is/are selectively adjustable, and/or the user can at least selectively adjust the flow rate of the water stream, and/or the pressure of the water stream, and/or the injection speed of the water stream, and/or the frequency of pressure fluctuations of the water stream, and/or the water temperature of the water stream within a certain range, and/or the user can at least selectively adjust the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection speed of the water-gas mixture, and/or the frequency of pressure fluctuations of the water-gas mixture within a certain range, and/or the user can at least selectively adjust the droplet size, the droplet pressure, and/or the water temperature of the water stream, and/or the user can at least adjust the droplet size, the droplet pressure, and/or the water temperature, and/or the water stream within a certain range, And/or the droplet concentration of the water mist, and/or the flow rate of the water mist, and/or the pressure of the water mist, and/or the spray velocity of the water mist, and/or the spray frequency of the water mist, and/or the frequency of pressure fluctuations of the water mist, and/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the spray velocity of the gas, and/or the spray frequency of the gas, and/or the frequency of pressure fluctuations of the gas, within a certain range; and/or

The multipurpose cleaning all-in-one Machine (MC) is configured to have at least one electric toothbrush operating mode in which the actuating device (ED) can be selectively vibrated, and/or oscillated, and/or rotated, and/or sprayed with water, and/or mist, and/or sprayed with a mixture of water and/or air, and/or sprayed with air, and/or the multipurpose cleaning all-in-one Machine (MC) can be selectively vibrated, and/or oscillated, and/or rotated, and/or sprayed with water, and/or mist, and/or sprayed with a mixture of water and/or air, and/or sprayed with air, so that the multipurpose cleaning all-in-one Machine (MC) can clean slits under the control of the user, and/or the user can selectively adjust at least the intensity, and/or the frequency of cleaning slits within a certain range, and/or the user can selectively adjust at least the flow rate of the water stream, and/or the pressure of the water stream, and/or the injection rate of the water stream, and/or the injection frequency of the water stream, and/or the pressure fluctuation frequency of the water stream, and/or the water temperature of the water stream, and/or the user can selectively adjust at least the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection rate of the water-gas mixture, and/or the injection frequency of the water-gas mixture, and/or the pressure fluctuation frequency of the water-gas mixture, within a certain range, and/or the user can selectively adjust at least the mist size of the water mist, and/or the mist concentration of the water mist, within a certain range, And/or the flow rate of the water mist, and/or the pressure of the water mist, and/or the spray velocity of the water mist, and/or the spray frequency of the water mist, and/or the pressure fluctuation frequency of the water mist are selectively adjustable, and/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the spray velocity of the gas, and/or the spray frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to have at least one electric orthodontic brush operating mode in which the actuating device (ED) can selectively vibrate, and/or oscillate, and/or rotate, and/or spray water, and/or mist, and/or spray a mixture of water and vapor, and/or jet air, and/or the orthodontic brush can selectively vibrate, and/or oscillate, and/or rotate, and/or spray water, and/or mist, and/or jet a mixture of water and vapor, and/or jet air, so that the multifunctional cleaning all-in-one Machine (MC) can clean teeth and/or braces under the control of the user, and/or the user can clean at least the teeth and/or braces within a certain range of intensity, and/or spray intensity, And/or the frequency is/are selectively adjustable, and/or the user can at least selectively adjust the flow rate of the water stream, and/or the pressure of the water stream, and/or the injection speed of the water stream, and/or the frequency of pressure fluctuations of the water stream, and/or the water temperature of the water stream within a certain range, and/or the user can at least selectively adjust the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection speed of the water-gas mixture, and/or the frequency of pressure fluctuations of the water-gas mixture within a certain range, and/or the user can at least selectively adjust the droplet size, the droplet pressure, and/or the water temperature of the water stream, and/or the user can at least adjust the droplet size, the droplet pressure, and/or the water temperature, and/or the water stream within a certain range, And/or the droplet concentration of the water mist, and/or the flow rate of the water mist, and/or the pressure of the water mist, and/or the spray velocity of the water mist, and/or the spray frequency of the water mist, and/or the frequency of pressure fluctuations of the water mist, and/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the spray velocity of the gas, and/or the spray frequency of the gas, and/or the frequency of pressure fluctuations of the gas, within a certain range; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to have at least one nasal washing mode, in which the actuating device (ED) can selectively spray a range of flow rates and a range of pressures of water and/or a mixture of water and/or a mist of water and/or a gas, and/or the spray head can selectively spray a range of flow rates and a range of pressures of water and/or a mixture of water and/or a mist of water and/or a gas, so that the multifunctional cleaning all-in-one Machine (MC) can clean the nasal cavity under the manipulation of the user, and/or the user can at least partially clean the flow rates of the water flows, and/or the pressures of the water flows, and/or the spray speeds of the water flows, and/or the spray frequency of the water flows, And/or the frequency of the pressure fluctuations of the water flow and/or the water temperature of the water flow is/are selectively adjustable, and/or the user can selectively adjust at least the flow rate of the water-gas mixture and/or the pressure of the water-gas mixture and/or the injection speed of the water-gas mixture and/or the injection frequency of the water-gas mixture and/or the frequency of the pressure fluctuations of the water-gas mixture within a certain range, and/or the user can selectively adjust at least the droplet size of the water mist and/or the droplet concentration of the water mist and/or the flow rate of the water mist and/or the pressure of the water mist and/or the injection speed of the water mist and/or the injection frequency of the water mist and/or the frequency of the pressure fluctuations of the water mist within a certain range, and/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection speed of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to have at least one ear washing mode, in which the actuating device (ED) can selectively spray a flow range and a pressure range of water and/or a water-air mixture and/or a water mist and/or a gas and/or the spray head can selectively spray a flow range and a pressure range of water and/or a water-air mixture and/or a water mist and/or a gas, so that the multifunctional cleaning all-in-one Machine (MC) can clean the ear cavity under the control of the user and/or the user can at least clean the flow range of the water flow and/or the pressure of the water flow and/or the spray speed of the water flow and/or the spray frequency of the water flow within a certain range, And/or the frequency of the pressure fluctuations of the water flow and/or the water temperature of the water flow is/are selectively adjustable, and/or the user can selectively adjust at least the flow rate of the water-gas mixture and/or the pressure of the water-gas mixture and/or the injection speed of the water-gas mixture and/or the injection frequency of the water-gas mixture and/or the frequency of the pressure fluctuations of the water-gas mixture within a certain range, and/or the user can selectively adjust at least the droplet size of the water mist and/or the droplet concentration of the water mist and/or the flow rate of the water mist and/or the pressure of the water mist and/or the injection speed of the water mist and/or the injection frequency of the water mist and/or the frequency of the pressure fluctuations of the water mist within a certain range, and/or the user can selectively adjust at least the flow rate of the gas, and/or the pressure of the gas, and/or the injection speed of the gas, and/or the injection frequency of the gas, and/or the pressure fluctuation frequency of the gas within a certain range; and/or

The multipurpose cleaning all-in-one Machine (MC) is configured to have at least one gum care operation mode in which the actuating device (ED) can selectively spray water flow and/or water-gas mixture and/or water mist and/or gas in a range of flow rates and a range of pressure rates, and/or the spray head can selectively spray water flow and/or water-gas mixture and/or water mist and/or gas in a range of flow rates and a range of pressure rates, and/or the actuating device (ED) can selectively massage the gums, and/or the massage head can selectively massage the gums, so that the multipurpose cleaning all-in-one Machine (MC) can massage or care the gums under the manipulation of the user, and/or the user can at least massage and care the gums in a range of flow rates of the water flow rates, And/or the pressure of the water stream, and/or the injection rate of the water stream, and/or the injection frequency of the water stream, and/or the pressure fluctuation frequency of the water stream, and/or the water temperature of the water stream, and/or the user can selectively adjust within a certain range at least the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection rate of the water-gas mixture, and/or the injection frequency of the water-gas mixture, and/or the pressure fluctuation frequency of the water-gas mixture, and/or the user can selectively adjust within a certain range at least the mist droplet size of the water mist, and/or the mist concentration of the water mist, and/or the flow rate of the water mist, and/or the pressure, of the water mist, And/or the speed of spraying the water mist, and/or the frequency of pressure fluctuations of the water mist is/are selectively adjustable, and/or the user can selectively adjust within a certain range at least the flow rate of the gas, and/or the pressure of the gas, and/or the speed of spraying the gas, and/or the frequency of pressure fluctuations of the gas, and/or the user can selectively adjust within a certain range at least the massage frequency, and/or the massage intensity of the actuating device (ED), and/or the user can selectively adjust within a certain range at least the massage frequency, and/or the massage intensity of the massage head; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to have at least one oral care working mode, in the oral care working mode, the Execution Device (ED) can selectively spray water flow and/or water-air mixture and/or water mist and/or gas with a certain flow range and a certain pressure range, and/or the spray head can selectively spray water flow and/or water-air mixture and/or water mist and/or gas with a certain flow range and a certain pressure range, and/or the Execution Device (ED) can selectively massage the oral cavity, and/or the massage head can selectively massage the oral cavity, so that the multifunctional cleaning all-in-one Machine (MC) can massage or care the oral cavity under the operation of the user, and/or the user can at least massage or care the flow rate of the water flow within a certain range, And/or the pressure of the water stream, and/or the injection rate of the water stream, and/or the injection frequency of the water stream, and/or the pressure fluctuation frequency of the water stream, and/or the water temperature of the water stream, and/or the user can selectively adjust within a certain range at least the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection rate of the water-gas mixture, and/or the injection frequency of the water-gas mixture, and/or the pressure fluctuation frequency of the water-gas mixture, and/or the user can selectively adjust within a certain range at least the mist droplet size of the water mist, and/or the mist concentration of the water mist, and/or the flow rate of the water mist, and/or the pressure, of the water mist, And/or the speed of spraying the water mist, and/or the frequency of pressure fluctuations of the water mist is/are selectively adjustable, and/or the user can selectively adjust within a certain range at least the flow rate of the gas, and/or the pressure of the gas, and/or the speed of spraying the gas, and/or the frequency of pressure fluctuations of the gas, and/or the user can selectively adjust within a certain range at least the massage frequency, and/or the massage intensity of the actuating device (ED), and/or the user can selectively adjust within a certain range at least the massage frequency, and/or the massage intensity of the massage head; and/or

The multipurpose cleaning all-in-one Machine (MC) is configured to have at least one nasal cavity care working mode, in which the actuating device (ED) can selectively spray water flow and/or water-air mixture and/or water mist and/or gas in a certain flow range and a certain pressure range, and/or the spray head can selectively spray water flow and/or water-air mixture and/or water mist and/or gas in a certain flow range and a certain pressure range, and/or the actuating device (ED) can selectively massage the nasal cavity, and/or the massage head can selectively massage the nasal cavity, so that the multipurpose cleaning all-in-one Machine (MC) can massage or care the nasal cavity under the operation of the user, and/or the user can at least massage or care the flow rate of the water flow in a certain range, And/or the pressure of the water stream, and/or the injection rate of the water stream, and/or the injection frequency of the water stream, and/or the pressure fluctuation frequency of the water stream, and/or the water temperature of the water stream, and/or the user can selectively adjust within a certain range at least the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection rate of the water-gas mixture, and/or the injection frequency of the water-gas mixture, and/or the pressure fluctuation frequency of the water-gas mixture, and/or the user can selectively adjust within a certain range at least the mist droplet size of the water mist, and/or the mist concentration of the water mist, and/or the flow rate of the water mist, and/or the pressure, of the water mist, And/or the speed of spraying the water mist, and/or the frequency of pressure fluctuations of the water mist is/are selectively adjustable, and/or the user can selectively adjust within a certain range at least the flow rate of the gas, and/or the pressure of the gas, and/or the speed of spraying the gas, and/or the frequency of pressure fluctuations of the gas, and/or the user can selectively adjust within a certain range at least the massage frequency, and/or the massage intensity of the actuating device (ED), and/or the user can selectively adjust within a certain range at least the massage frequency, and/or the massage intensity of the massage head; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to have at least one ear cavity care working mode, in which the Execution Device (ED) can selectively spray water flow and/or water-air mixture and/or water mist and/or gas in a certain flow range and a certain pressure range, and/or the spray head can selectively spray water flow and/or water-air mixture and/or water mist and/or gas in a certain flow range and a certain pressure range, and/or the Execution Device (ED) can selectively massage ear cavities, and/or the massage head can selectively massage ear cavities, so that the multifunctional cleaning all-in-one Machine (MC) can massage or care for ear cavities under the operation of the user, and/or the user can at least massage or care for the flow rate of the water flow in a certain range, And/or the pressure of the water stream, and/or the injection rate of the water stream, and/or the injection frequency of the water stream, and/or the pressure fluctuation frequency of the water stream, and/or the water temperature of the water stream, and/or the user can selectively adjust within a certain range at least the flow rate of the water-gas mixture, and/or the pressure of the water-gas mixture, and/or the injection rate of the water-gas mixture, and/or the injection frequency of the water-gas mixture, and/or the pressure fluctuation frequency of the water-gas mixture, and/or the user can selectively adjust within a certain range at least the mist droplet size of the water mist, and/or the mist concentration of the water mist, and/or the flow rate of the water mist, and/or the pressure, of the water mist, And/or the speed of spraying the water mist, and/or the frequency of pressure fluctuations of the water mist is/are selectively adjustable, and/or the user can selectively adjust within a certain range at least the flow rate of the gas, and/or the pressure of the gas, and/or the speed of spraying the gas, and/or the frequency of pressure fluctuations of the gas, and/or the user can selectively adjust within a certain range at least the massage frequency, and/or the massage intensity of the actuating device (ED), and/or the user can selectively adjust within a certain range at least the massage frequency, and/or the massage intensity of the massage head; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to have at least one sand blasting operation mode, in which the Execution Device (ED) can selectively spray air-sand mixture and/or water-air-sand mixture and/or fog-air-sand mixture with certain intensity range, and/or the spray head can selectively spray air-sand mixture and/or water-air-sand mixture and/or fog-air-sand mixture with certain intensity range, and/or the Execution Device (ED) can selectively absorb water, sand and/or air-sand mixture, and/or suck away the fog-air-sand mixture, and/or the suction head can selectively absorb water, sand and/or air-sand mixture, And/or sucking away the water-air-sand mixture, and/or sucking away the mist-air-sand mixture, so that the multipurpose cleaning all-in-one Machine (MC) can perform sand blasting tooth cleaning on teeth under the operation of the user, and/or the user can at least selectively adjust the intensity, and/or frequency of the sand blasting tooth cleaning of the Execution Device (ED) within a certain range; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to have at least one tooth grinding working mode, in the tooth grinding working mode, the Execution Device (ED) can selectively grind the teeth, and/or the grinding head can selectively grind the teeth, and/or the user can at least selectively adjust the intensity and/or the frequency of the tooth grinding of the Execution Device (ED) within a certain range; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to have at least one tooth polishing working mode, in the tooth polishing working mode, the actuating device (ED) can selectively polish teeth, and/or the polishing head can selectively polish teeth, and/or the user can at least selectively adjust the intensity and/or the frequency of tooth polishing of the actuating device (ED) within a certain range; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to have at least one drilling working mode, in the drilling working mode, the actuating device (ED) can selectively drill holes on teeth, and/or the drill bit can selectively drill holes on teeth, and/or the user can selectively adjust at least the drilling intensity of the actuating device (ED) and/or the drill bit rotating speed within a certain range; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to at least have a three-dimensional scanning and modeling working mode, in the three-dimensional scanning and modeling working mode, the Execution Device (ED) can selectively carry out three-dimensional scanning on a target object and establish a corresponding three-dimensional model under the direct or indirect action of the Controller (CS), and three-dimensional scanning data and three-dimensional model data can be stored, transmitted and edited; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to have at least one visual working mode, in which the Execution Device (ED) can selectively display the target object in real time, and/or enlarge and/or reduce the target object, and/or virtually display, and/or capture pictures, and/or record pictures, and related data can be stored, transmitted and edited under the direct or indirect action of the Controller (CS); and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to at least have an endoscopic working mode, in the endoscopic working mode, the Executive Device (ED) can selectively enlarge and display the oral cavity, and/or the nasal cavity, and/or the ear cavity, and/or the pore under the direct or indirect action of the Controller (CS), and display in real time, and/or screen shot, and/or video, and relevant data can be stored, transmitted and edited; and/or

The multipurpose cleaning all-in-one Machine (MC) is configured with AT least one human-machine interaction mode, in which the Controller (CS) can be operated in accordance with the user input, and/or the feedback of the actuating device (ED), and/or the feedback of the detection device, and/or the feedback of the housing (EH), and/or the feedback of the drive Device (DM), and/or the feedback of the Hydraulic Pump (HP), and/or the feedback of the pneumatic pump (AP), and/or the feedback of the energy accumulator (ES), and/or the feedback of the Water Tank (WT), and/or the feedback of the Sand Silo (SS), and/or the feedback of the air reservoir (AT), and/or the feedback of the Check Valve (CV), and/or the feedback of the fluid valve (LV), And/or feedback of the filter (FF), and/or feedback of the Controller (CS) itself, and/or feedback of the battery (EB), and/or feedback of the human power (MP), and/or feedback of the Electric Power (EP), and/or feedback of the outside Water Source (WS), and/or feedback of the outside air (EA), optionally giving operation prompt information, and/or optionally giving operation result information, and/or optionally giving operation evaluation effect, and/or optionally charging the battery (EB), and/or optionally giving health evaluation result, and/or optionally giving cleaning evaluation result; and/or

The multifunctional cleaning all-in-one Machine (MC) is configured to have AT least one standby operating mode, in which the control unit (CS) and/or the actuating unit (ED) and/or the drive unit (DM) and/or the Hydraulic Pump (HP) and/or the pneumatic pump (AP) and/or the energy storage unit (ES) and/or the Water Tank (WT) and/or the Sand Silo (SS) and/or the air storage unit (AT) and/or the non-return valve (CV) and/or the fluid valve (LV) and/or the filter (FF) and/or the battery (EB) are in a standby state; and/or

The multifunctional cleaning all-in-one Machine (MC) is constructed to at least have a failure mode, in the failure mode, the functions of partial modules of the multifunctional cleaning all-in-one Machine (MC) are limited, and the multifunctional cleaning all-in-one Machine (MC) can selectively give out failure codes and/or prompt messages and/or failure messages; and/or

The multifunctional cleaning all-in-one Machine (MC) at least comprises a control system; and/or

Said Controller (CS) comprises at least one control system; and/or

Under the direct or indirect action of the Controller (CS) and/or the control system, depending on the user input, and/or the feedback of the actuating device (ED), and/or the feedback of the detection device, and/or the feedback of the housing (EH), and/or the feedback of the drive Device (DM), and/or the feedback of the Hydraulic Pump (HP), and/or the feedback of the pneumatic pump (AP), and/or the feedback of the energy storage device (ES), and/or the feedback of the Water Tank (WT), and/or the feedback of the Sand Silo (SS), and/or the feedback of the Air Tank (AT), and/or the feedback of the Check Valve (CV), and/or the feedback of the fluid valve (LV), and/or the feedback of the filter (FF), And/or feedback of the Controller (CS), and/or feedback of the battery (EB), and/or feedback of the human power (MP), and/or feedback of the Electric Power (EP), and/or feedback of the outside Water Source (WS), and/or feedback of the outside air (EA), the all-in-one multifunctional cleaning Machine (MC) being configured at least with a function of selectively adopting different operating modes.