CN109718689A - One kind being used for machinery rotating type air bubble generator, environmental protection equipment - Google Patents

Abstract

One kind being used for machinery rotating type air bubble generator, environmental protection equipment, includes rotor (1), container (2), lid (3), bearing (4), motor (5), rivet (6).Environmental protection equipment has above-mentioned a kind of for machinery rotating type air bubble generator, environmental protection equipment.Service life of the invention is high, advantageously reduces that local temperature, low energy consumption, structure is simple.

Description

One kind being used for machinery rotating type air bubble generator, environmental protection equipment

Technical field

The present invention relates to air bubble generators, and in particular to one kind is used for machinery rotating type air bubble generator, environmental protection equipment.

Background technique

Commonly used equipment during bubble generator is sewage treatment, chemical substance produces, drug produces, the most common bubble hair Raw device is broadly divided into pore type, mechanical, and existing machinery formula bubble generator generally utilizes mechanical rotation reinforcing body structural impact The mode of cutting bubble carrys out bubble disintegration, to reduce the fineness of bubble；There is the big, outlet that consumes energy in existing machinery formula bubble generator Hole is easy to produce air band and reduces bubble generation efficiency, is easy to produce vacuum bubbles reduction mechanical life, localized hyperthermia, bubble merging The technical issues of, there are rooms for improvement；The fluctuation of speed control of motor needs additional circuit goods mechanical device, the revolving speed of motor Fluctuation is easy to cause bearing vibration to damage electrical machinery life, and the fluctuation of speed of motor causes to generate heat, and increases energy consumption.

Summary of the invention

In order to solve the above problem, the present invention devises a kind of for machinery rotating type air bubble generator, environmental protection equipment, specifically Technology contents are as follows.

1, a kind of machinery rotating type air bubble generator, it is characterised in that: include rotor (1), container (2), lid (3), axis Hold (4), motor (5), rivet (6)；

Rotor (1) includes interconnecting piece (1-1), back-off container (1-2), waist mouth (1-3), venthole (1-4), air inlet openings (1-8), driving blade group (1-5)；

In rotor (1): interconnecting piece (1-1) is cylinder, has connecting hole (1-7) on interconnecting piece (1-1), interconnecting piece (1- 1) axis of axis and connecting hole (1-7) intersects vertically, and the interconnecting piece upper end (1-1) has motor connecting structure；

In rotor (1): back-off container (1-2) is cylinder, has cylindrical cavity (1-6) in back-off container (1-2), circle Cylindrical cavity (1-6) is coaxial with back-off container (1-2), is buckled to the upper end closed of container (1-2)；

In rotor (1): waist mouth (1-3) be it is pyramidal, waist mouth (1-3) have pyramidal cavity, waist mouth (1-3) it is pyramidal The axis of cavity is overlapped with the axis of Yao Kou (1-3), the big end of the opening of the pyramidal cavity of waist mouth (1-3) and back-off container The lower end (1-2) communicates；

In rotor (1): air inlet openings (1-8) be it is cylindric, air inlet openings (1-8) have cylindrical cavity, air inlet openings The axis of (1-8) is coaxial with the cylindrical cavity of air inlet openings (1-8), the cylindrical cavity and Yao Kou (1- of air inlet openings (1-8) 3) end that the opening of pyramidal cavity is small communicates；

In rotor (1): driving blade group (1-5) is made of blade (1-5-3-1) and lower blade (1-5-3-2), upper leaf Piece and lower blade are arc；Blade (1-5-3-1) is parallel with lower blade (1-5-3-2), the inside of blade (1-5-3-1) It is connected with the outer wall of back-off container (1-2), the inside of lower blade (1-5-3-2) is connected with the outer wall of back-off container (1-2), upper leaf Be between the outside of piece (1-5-3-1) and the outside of lower blade (1-5-3-2) it is open, the head end of blade (1-5-3-1) arrives Be buckled to container (1-2) upper end distance greater than blade (1-5-3-1) tail end to be buckled to container (1-2) upper end away from From；The head end of lower blade (1-5-3-2) is greater than the tail end of lower blade (1-5-3-2) to the distance of the upper end of back-off container (1-2) To the distance of the upper end of back-off container (1-2)；The outer rim camber line of lower blade (1-5-3-2) and the outer rim of blade (1-5-3-1) Camber line is coplanar；The length of the outer rim camber line of blade (1-5-3-1) is 1/6th of circle where foreign aid's camber line；Driving blade group The quantity of (1-5) is 3 (1-5-1,1-5-2,1-5-3), and 3 driving blade groups (1-5-1,1-5-2,1-5-3) are to be buckled to container The axis of (1-2) is center line circumferentially array distribution；

In rotor (1): venthole (1-4) penetrates the wall of back-off container (1-2), and the inner end of venthole (1-4) and back-off are held The cylindrical cavity (1-6) of device (1-2) communicates；The outer end spatial position of venthole (1-4) is located at the upper of driving blade group (1-5) The centre of the tail end of the lower blade (1-5-3-2) of the tail end and driving blade group (1-5) of blade (1-5-3-1), venthole (1-4) Quantity be 3, the corresponding venthole (1-4) of each driving blade group (1-5), 3 ventholes (1-4) are to be buckled to container (1- 2) axis is center line circumferentially array distribution；

Container (2) include cavity, make unrestrained cylinder (2-1), air inlet pipe (2-2), water-permeable passage (2-3), support portion (2-4), Container foot (2-5)；

In container (2): cavity is pyramidal cavity, and upward, lower end is downward for big end；

In container (2): making unrestrained cylinder (2-1) and be located in cavity, make unrestrained cylinder (2-1) as cylindrical shape, make unrestrained cylinder (2-1) Inner wall on have 3 recess cambered surfaces (2-1-1), 3 recess cambered surfaces (2-1-1) are centered on the axis for making unrestrained cylinder (2-1) Line circumferentially array distribution, the surface of recess cambered surface (2-1-1), which is arrived, makes the distance of unrestrained cylinder (2-1) axis greater than making unrestrained cylinder Do not have the place of recess cambered surface (2-1-1) on the inner wall of (2-1) to the distance for making unrestrained cylinder (2-1) axis；Be recessed cambered surface (2- First end and second end 1-1) is to make the inner section circle of unrestrained cylinder (2-1) in the span for the inner section circle for making unrestrained cylinder (2-1) 1/6th；Unrestrained cylinder (2-1) outer wall is made in the first end connection of support portion (2-4), and the second end of support portion (2-4), which connects, to be held Chamber side plays support and makes unrestrained cylinder (2-1)；It makes that unrestrained cylinder (2-1) is coaxial with cavity, makes the upper end unrestrained cylinder (2-1) Level height of the level height lower than the big end of cavity；

In container (2): water-permeable passage (2-3), which is located at, to be made between the lower end and cavity bottom of unrestrained cylinder (2-1), in cavity Water energy, which is enough entered by water-permeable passage (2-3), makes unrestrained cylinder (2-1)；

In container (2): air inlet pipe (2-2) is coaxial with unrestrained cylinder (2-1) is made, and air inlet pipe (2-2) passes through cavity bottom by outside Portion interface, which enters, makes in unrestrained cylinder (2-1)；

In container (2): container foot (2-5) is located at lower vessel portion, plays a supportive role, and facilitates placement；

Lid (3) includes ontology, motor support portion (3-1), motor axis hole (3-2), escape pipe (3-3), motor shaft waterproof Column (3-4)；

In lid (3): ontology be it is discoid, motor support portion (3-1) be cylindrical shape, be used to support motor；

In lid (3): motor support portion (3-1) is located above ontology, and motor support portion (3-1) is coaxial with ontology, motor The overall diameter of support portion (3-1) is less than the overall diameter of ontology；

In lid (3): the anti-water column of motor shaft (3-4) is located at below ontology, and the anti-water column of motor shaft (3-4) is coaxial with ontology；

In lid (3): the interior diameter of motor axis hole (3-2) is less than the overall diameter of motor support portion (3-1)；Motor axis hole (3-2) is coaxial with motor shaft anti-water column (3-4), and motor axis hole (3-2) first end is communicated with motor support portion (3-1), motor shaft Hole (3-2) second end is located on the lower surface the anti-water column of motor shaft (3-4)；

In lid (3): escape pipe (3-3) is located above ontology, and the lumen of escape pipe (3-3) penetrates ontology；Escape pipe (3- 3) lumen open is located at the lower surface of ontology；

Bearing (4) is used to connect the interconnecting piece (1-1) and lid of rotor (1)；Motor (5) is mounted on the motor of lid (3) On support portion (3-1), the interconnecting piece of rotor (1) passes through lid (3) and is connected with motor axis hole (3-2), and lid (3) is mounted on container (2) upper end；The air inlet pipe (2-2) of container (2) protrudes into the cylindrical cavity (1-6) of the back-off container (1-2) of rotor (1)；

Rotor (1) and back-off container (1-2) to make unrestrained cylinder (2-1) coaxial；

The driving blade group (1-5) of rotor (1) makes unrestrained cylinder (2-1) inside, rotor (1) positioned at back-off container (1-2) Driving blade group (1-5) lower blade (1-5-3-2) outer rim camber line and container (2) make unrestrained cylinder (2-1) do not have it is recessed The distance for falling into the place of cambered surface (2-1-1) is less than the thickness of lower blade (1-5-3-2)；Motor (5) is for driving rotor (1) at the uniform velocity Rotation.

Technical principle and its utility model has the advantages that

When rotor rotates, driving blade group (1-5) rotates shape between blade (1-5-3-1) and lower blade (1-5-3-2) At water flow, the venthole (1-4) of rotor out (1) is caused to impact, the unrestrained cylinder surface (2-1) is made with recessed due to container (2) It falls into cambered surface (2-1-1), causes the pressure cycle in the liquid driven channel of driving blade group (1-5) to change, and then cause to drive Cyclic fluctuation is presented in the water flow of blade group (1-5) driving, and stomata nearby is not allowed to be also easy to produce air band, conducive to improving efficiency；By In not needing rotor speed change, so the bulk life time of device can be improved in electrical machinery life；Due to there is no solid structure to produce bubble Raw impact, advantageously reduces local temperature；Due to not having solid structure to generate impact to bubble, there is no bubble eruption impact is rotten Solid structure is lost, so the service life of the invention is higher.

Service life of the invention is high, advantageously reduces that local temperature, low energy consumption, structure is simple.

The invention new approaches.

Detailed description of the invention

Fig. 1 is the structure chart of the rotor of embodiment 1.

Fig. 2 is the structure chart of the container of embodiment 1.

Fig. 3 is the structure chart of the lid of embodiment 1.

Fig. 4 is the structure chart of the bearing of embodiment 1.

Fig. 5 is the schematic diagram of the motor of embodiment 1.

Fig. 6 is the schematic diagram of the assembly of embodiment 1.Wherein 6 be the rivet for connecting bearing (4) and rotor (1).

Fig. 7 is the whole schematic diagram of embodiment 1.

Specific embodiment

Embodiment 1, such as Fig. 1-7, a kind of machinery rotating type air bubble generator, it is characterised in that: include rotor (1), container (2), lid (3), bearing (4), motor (5), rivet (6)；

Rotor (1) includes interconnecting piece (1-1), back-off container (1-2), waist mouth (1-3), venthole (1-4), air inlet openings (1-8), driving blade group (1-5)；

In rotor (1): interconnecting piece (1-1) is cylinder, has connecting hole (1-7) on interconnecting piece (1-1), interconnecting piece (1- 1) axis of axis and connecting hole (1-7) intersects vertically, and the interconnecting piece upper end (1-1) has motor connecting structure；

In rotor (1): back-off container (1-2) is cylinder, has cylindrical cavity (1-6) in back-off container (1-2), circle Cylindrical cavity (1-6) is coaxial with back-off container (1-2), is buckled to the upper end closed of container (1-2)；

In rotor (1): waist mouth (1-3) be it is pyramidal, waist mouth (1-3) have pyramidal cavity, waist mouth (1-3) it is pyramidal The axis of cavity is overlapped with the axis of Yao Kou (1-3), the big end of the opening of the pyramidal cavity of waist mouth (1-3) and back-off container The lower end (1-2) communicates；

In rotor (1): air inlet openings (1-8) be it is cylindric, air inlet openings (1-8) have cylindrical cavity, air inlet openings The axis of (1-8) is coaxial with the cylindrical cavity of air inlet openings (1-8), the cylindrical cavity and Yao Kou (1- of air inlet openings (1-8) 3) end that the opening of pyramidal cavity is small communicates；

In rotor (1): driving blade group (1-5) is made of blade (1-5-3-1) and lower blade (1-5-3-2), upper leaf Piece and lower blade are arc；Blade (1-5-3-1) is parallel with lower blade (1-5-3-2), the inside of blade (1-5-3-1) It is connected with the outer wall of back-off container (1-2), the inside of lower blade (1-5-3-2) is connected with the outer wall of back-off container (1-2), upper leaf Be between the outside of piece (1-5-3-1) and the outside of lower blade (1-5-3-2) it is open, the head end of blade (1-5-3-1) arrives Be buckled to container (1-2) upper end distance greater than blade (1-5-3-1) tail end to be buckled to container (1-2) upper end away from From；The head end of lower blade (1-5-3-2) is greater than the tail end of lower blade (1-5-3-2) to the distance of the upper end of back-off container (1-2) To the distance of the upper end of back-off container (1-2)；The outer rim camber line of lower blade (1-5-3-2) and the outer rim of blade (1-5-3-1) Camber line is coplanar；The length of the outer rim camber line of blade (1-5-3-1) is 1/6th of circle where foreign aid's camber line；Driving blade group The quantity of (1-5) is 3 (1-5-1,1-5-2,1-5-3), and 3 driving blade groups (1-5-1,1-5-2,1-5-3) are to be buckled to container The axis of (1-2) is center line circumferentially array distribution；

In rotor (1): venthole (1-4) penetrates the wall of back-off container (1-2), and the inner end of venthole (1-4) and back-off are held The cylindrical cavity (1-6) of device (1-2) communicates；The outer end spatial position of venthole (1-4) is located at the upper of driving blade group (1-5) The centre of the tail end of the lower blade (1-5-3-2) of the tail end and driving blade group (1-5) of blade (1-5-3-1), venthole (1-4) Quantity be 3, the corresponding venthole (1-4) of each driving blade group (1-5), 3 ventholes (1-4) are to be buckled to container (1- 2) axis is center line circumferentially array distribution；

Container (2) include cavity, make unrestrained cylinder (2-1), air inlet pipe (2-2), water-permeable passage (2-3), support portion (2-4), Container foot (2-5)；

In container (2): cavity is pyramidal cavity, and upward, lower end is downward for big end；

In container (2): making unrestrained cylinder (2-1) and be located in cavity, make unrestrained cylinder (2-1) as cylindrical shape, make unrestrained cylinder (2-1) Inner wall on have 3 recess cambered surfaces (2-1-1), 3 recess cambered surfaces (2-1-1) are centered on the axis for making unrestrained cylinder (2-1) Line circumferentially array distribution, the surface of recess cambered surface (2-1-1), which is arrived, makes the distance of unrestrained cylinder (2-1) axis greater than making unrestrained cylinder Do not have the place of recess cambered surface (2-1-1) on the inner wall of (2-1) to the distance for making unrestrained cylinder (2-1) axis；Be recessed cambered surface (2- First end and second end 1-1) is to make the inner section circle of unrestrained cylinder (2-1) in the span for the inner section circle for making unrestrained cylinder (2-1) 1/6th；Unrestrained cylinder (2-1) outer wall is made in the first end connection of support portion (2-4), and the second end of support portion (2-4), which connects, to be held Chamber side plays support and makes unrestrained cylinder (2-1)；It makes that unrestrained cylinder (2-1) is coaxial with cavity, makes the upper end unrestrained cylinder (2-1) Level height of the level height lower than the big end of cavity；

In container (2): water-permeable passage (2-3), which is located at, to be made between the lower end and cavity bottom of unrestrained cylinder (2-1), in cavity Water energy, which is enough entered by water-permeable passage (2-3), makes unrestrained cylinder (2-1)；

In container (2): air inlet pipe (2-2) is coaxial with unrestrained cylinder (2-1) is made, and air inlet pipe (2-2) passes through cavity bottom by outside Portion interface, which enters, makes in unrestrained cylinder (2-1)；

In container (2): container foot (2-5) is located at lower vessel portion, plays a supportive role, and facilitates placement；

Lid (3) includes ontology, motor support portion (3-1), motor axis hole (3-2), escape pipe (3-3), motor shaft waterproof Column (3-4)；

In lid (3): ontology be it is discoid, motor support portion (3-1) be cylindrical shape, be used to support motor；

In lid (3): motor support portion (3-1) is located above ontology, and motor support portion (3-1) is coaxial with ontology, motor The overall diameter of support portion (3-1) is less than the overall diameter of ontology；

In lid (3): the anti-water column of motor shaft (3-4) is located at below ontology, and the anti-water column of motor shaft (3-4) is coaxial with ontology；

In lid (3): the interior diameter of motor axis hole (3-2) is less than the overall diameter of motor support portion (3-1)；Motor axis hole (3-2) is coaxial with motor shaft anti-water column (3-4), and motor axis hole (3-2) first end is communicated with motor support portion (3-1), motor shaft Hole (3-2) second end is located on the lower surface the anti-water column of motor shaft (3-4)；

In lid (3): escape pipe (3-3) is located above ontology, and the lumen of escape pipe (3-3) penetrates ontology；Escape pipe (3- 3) lumen open is located at the lower surface of ontology；

Bearing (4) is used to connect the interconnecting piece (1-1) and lid of rotor (1)；Motor (5) is mounted on the motor of lid (3) On support portion (3-1), the interconnecting piece of rotor (1) passes through lid (3) and is connected with motor axis hole (3-2), and lid (3) is mounted on container (2) upper end；The air inlet pipe (2-2) of container (2) protrudes into the cylindrical cavity (1-6) of the back-off container (1-2) of rotor (1)；

Rotor (1) and back-off container (1-2) to make unrestrained cylinder (2-1) coaxial；

The driving blade group (1-5) of rotor (1) makes unrestrained cylinder (2-1) inside, rotor (1) positioned at back-off container (1-2) Driving blade group (1-5) lower blade (1-5-3-2) outer rim camber line and container (2) make unrestrained cylinder (2-1) do not have it is recessed The distance for falling into the place of cambered surface (2-1-1) is less than the thickness of lower blade (1-5-3-2)；Motor (5) is for driving rotor (1) at the uniform velocity Rotation.

Embodiment 2, on the basis of embodiment 1, rotor (1) are metal material.

Embodiment 2, on the basis of embodiment 1, rotor (1) are organic material material.

Embodiment 3, on the basis of embodiment 1, rotor (1) are single unitary elements.

Embodiment 4, on the basis of embodiment 1, rotor (1) is made up of multiple elements.

Embodiment 5, on the basis of embodiment 1, container (2) are metal material.

Embodiment 6, on the basis of embodiment 1, container (2) are organic material material.

Embodiment 7, on the basis of embodiment 1, container (2) are single unitary elements.

Embodiment 8, on the basis of embodiment 1, container (2) is made up of multiple elements.

Embodiment 9, on the basis of embodiment 1, lid (3) are metal material.

Embodiment 10, on the basis of embodiment 1, lid (3) are organic material material.

Embodiment 11, on the basis of embodiment 1, lid (3) are single unitary elements.

Embodiment 12, on the basis of embodiment 1, lid (3) is made up of multiple elements.

Embodiment 13, on the basis of embodiment 1, is changed to ball bearing for bearing 4.

Embodiment 14, on the basis of embodiment 1, is changed to needle bearing for bearing 4.

Embodiment 15, on the basis of embodiment 1 cancels rivet 6 using welding for bearing 4 and motor axis connection.

Embodiment 16, on the basis of embodiment 1, motor is direct current generator.

Embodiment 17, on the basis of embodiment 1, motor is alternating current generator.

Embodiment 18, on the basis of embodiment 1, motor is stepper motor.

Claims (9)

1. a kind of machinery rotating type air bubble generator, it is characterised in that: include rotor (1), container (2), lid (3), bearing (4), motor (5), rivet (6)；

Rotor (1) include interconnecting piece (1-1), back-off container (1-2), waist mouth (1-3), venthole (1-4), air inlet openings (1-8), Driving blade group (1-5)；

In rotor (1): interconnecting piece (1-1) is cylinder, has connecting hole (1-7) on interconnecting piece (1-1), interconnecting piece (1-1) The axis of axis and connecting hole (1-7) intersects vertically, and the interconnecting piece upper end (1-1) has motor connecting structure；

In rotor (1): back-off container (1-2) is cylinder, has cylindrical cavity (1-6) in back-off container (1-2), cylindrical Cavity (1-6) is coaxial with back-off container (1-2), is buckled to the upper end closed of container (1-2)；

In rotor (1): waist mouth (1-3) be it is pyramidal, waist mouth (1-3) have pyramidal cavity, the pyramidal cavity of waist mouth (1-3) Axis be overlapped with the axis of Yao Kou (1-3), the big end of opening of the pyramidal cavity of waist mouth (1-3) and back-off container (1-2) Lower end communicates；

In rotor (1): air inlet openings (1-8) be it is cylindric, air inlet openings (1-8) have cylindrical cavity, air inlet openings (1-8) Axis it is coaxial with the cylindrical cavity of air inlet openings (1-8), the cylindrical cavities of air inlet openings (1-8) and Yao Kou (1-3's) The end that the opening of pyramidal cavity is small communicates；

In rotor (1): driving blade group (1-5) is made of blade (1-5-3-1) and lower blade (1-5-3-2), blade and Lower blade is arc；Blade (1-5-3-1) is parallel with lower blade (1-5-3-2), the inside of blade (1-5-3-1) and fall The outer wall for detaining container (1-2) is connected, and the inside of lower blade (1-5-3-2) is connected with the outer wall of back-off container (1-2), blade Be between the outside of (1-5-3-1) and the outside of lower blade (1-5-3-2) it is open, the head end of blade (1-5-3-1) is to falling The distance for detaining the upper end of container (1-2) is greater than the tail end of blade (1-5-3-1) to the distance of the upper end of back-off container (1-2)； Tail end of the head end of lower blade (1-5-3-2) to the distance of the upper end of back-off container (1-2) greater than lower blade (1-5-3-2) is to Detain the distance of the upper end of container (1-2)；The outer rim camber line of lower blade (1-5-3-2) and the outer rim camber line of blade (1-5-3-1) It is coplanar；The length of the outer rim camber line of blade (1-5-3-1) is 1/6th of circle where foreign aid's camber line；Driving blade group (1- 5) quantity is 3 (1-5-1,1-5-2,1-5-3), and 3 driving blade groups (1-5-1,1-5-2,1-5-3) are to be buckled to container (1- 2) axis is center line circumferentially array distribution；

In rotor (1): venthole (1-4) penetrates the wall of back-off container (1-2), the inner end of venthole (1-4) and back-off container (1- 2) cylindrical cavity (1-6) communicates；The outer end spatial position of venthole (1-4) is located at the blade of driving blade group (1-5) The centre of the tail end of the lower blade (1-5-3-2) of the tail end and driving blade group (1-5) of (1-5-3-1), the number of venthole (1-4) Amount is 3, and the corresponding venthole (1-4) of each driving blade group (1-5), 3 ventholes (1-4) are to be buckled to container (1-2) Axis is center line circumferentially array distribution；

Container (2) includes cavity, makes unrestrained cylinder (2-1), air inlet pipe (2-2), water-permeable passage (2-3), support portion (2-4), container Foot (2-5)；

In container (2): cavity is pyramidal cavity, and upward, lower end is downward for big end；

In container (2): making unrestrained cylinder (2-1) and be located in cavity, make unrestrained cylinder (2-1) as cylindrical shape, make the interior of unrestrained cylinder (2-1) There are 3 recess cambered surfaces (2-1-1), 3 recess cambered surface (2-1-1) are in as center line using the axis for making unrestrained cylinder (2-1) on wall Circumference array distribution, the surface of recess cambered surface (2-1-1) is greater than to the distance for making unrestrained cylinder (2-1) axis makes unrestrained cylinder (2-1) Inner wall on do not have the place of recess cambered surface (2-1-1) to the distance for making unrestrained cylinder (2-1) axis；It is recessed cambered surface (2-1-1) First end and second end make unrestrained cylinder (2-1) inner section circle span be make unrestrained cylinder (2-1) inner section justify six / mono-；Unrestrained cylinder (2-1) outer wall is made in the first end connection of support portion (2-4), and the second end of support portion (2-4) connects cavity side Face plays support and makes unrestrained cylinder (2-1)；It makes that unrestrained cylinder (2-1) is coaxial with cavity, makes the level of the upper end unrestrained cylinder (2-1) Level height of the height lower than the big end of cavity；

In container (2): water-permeable passage (2-3), which is located at, to be made between the lower end and cavity bottom of unrestrained cylinder (2-1), the water energy in cavity Enough entered by water-permeable passage (2-3) and makes unrestrained cylinder (2-1)；

In container (2): air inlet pipe (2-2) is coaxial with unrestrained cylinder (2-1) is made, and air inlet pipe (2-2) passes through cavity bottom circle by outside Face, which enters, makes in unrestrained cylinder (2-1)；

In container (2): container foot (2-5) is located at lower vessel portion, plays a supportive role, and facilitates placement；

Lid (3) includes ontology, motor support portion (3-1), motor axis hole (3-2), escape pipe (3-3), the anti-water column (3- of motor shaft 4)；In lid (3): ontology be it is discoid, motor support portion (3-1) be cylindrical shape, be used to support motor；

In lid (3): motor support portion (3-1) is located above ontology, and motor support portion (3-1) is coaxial with ontology, motor support The overall diameter in portion (3-1) is less than the overall diameter of ontology；

In lid (3): the anti-water column of motor shaft (3-4) is located at below ontology, and the anti-water column of motor shaft (3-4) is coaxial with ontology；

In lid (3): the interior diameter of motor axis hole (3-2) is less than the overall diameter of motor support portion (3-1)；Motor axis hole (3-2) Coaxial with motor shaft anti-water column (3-4), motor axis hole (3-2) first end is communicated with motor support portion (3-1), motor axis hole (3- 2) second end is located on the lower surface the anti-water column of motor shaft (3-4)；

In lid (3): escape pipe (3-3) is located above ontology, and the lumen of escape pipe (3-3) penetrates ontology；Escape pipe (3-3) Lumen open is located at the lower surface of ontology；

Bearing (4) is used to connect the interconnecting piece (1-1) and lid of rotor (1)；Motor (5) is mounted on the motor support of lid (3) In portion (3-1), the interconnecting piece of rotor (1) passes through lid (3) and is connected with motor axis hole (3-2), and lid (3) is mounted on container (2) Upper end；The air inlet pipe (2-2) of container (2) protrudes into the cylindrical cavity (1-6) of the back-off container (1-2) of rotor (1)；

Rotor (1) and back-off container (1-2) to make unrestrained cylinder (2-1) coaxial；

The driving blade group (1-5) of rotor (1) makes unrestrained cylinder (2-1) inside, the drive of rotor (1) positioned at back-off container (1-2) The outer rim camber line of the lower blade (1-5-3-2) of movable vane piece group (1-5) and the unrestrained cylinder (2-1) of making of container (2) do not have recess arc The distance in the place in face (2-1-1) is less than the thickness of lower blade (1-5-3-2)；Motor (5) is for driving rotor (1) at the uniform velocity to turn It is dynamic.

2. a kind of machinery rotating type air bubble generator as described in claim 1, it is characterised in that: rotor (1) is metal material.

3. a kind of machinery rotating type air bubble generator as described in claim 1, it is characterised in that: rotor (1) is organic material Material.

4. a kind of machinery rotating type air bubble generator as described in claim 1, it is characterised in that: rotor (1) is single one Element.

5. a kind of machinery rotating type air bubble generator as described in claim 1, it is characterised in that: rotor (1) is by multiple element Composition.

6. a kind of machinery rotating type air bubble generator as described in claim 1, it is characterised in that: bearing 4 is changed to ball axis It holds.

7. a kind of machinery rotating type air bubble generator as described in claim 1, it is characterised in that: cancel rivet 6 using welding By bearing 4 and motor axis connection.

8. a kind of machinery rotating type air bubble generator as described in claim 1, it is characterised in that: motor is direct current generator.

9. a kind of machinery rotating type air bubble generator as described in claim 1, it is characterised in that: motor is alternating current generator.