CN112744894A

CN112744894A - Quantum common-frequency resonance instrument equipment

Info

Publication number: CN112744894A
Application number: CN202011590620.7A
Authority: CN
Inventors: 张登华
Original assignee: Ningbo Beilun Huamu Electromechanical Technology Co ltd
Current assignee: Shenzhen Zhongma Quantum Health Technology Co ltd
Priority date: 2020-12-29
Filing date: 2020-12-29
Publication date: 2021-05-04
Anticipated expiration: 2040-12-29
Also published as: CN112744894B

Abstract

The invention discloses quantum same-frequency resonance instrument equipment, which comprises a bearing plate and a light wave emitter for emitting same-frequency resonance light waves, wherein a positioning support assembly which can adapt to the actual water depth and can be effectively positioned and fixedly used is arranged at the bottom of the bearing plate, and a wind-driven impeller assembly which is used for being matched with real-time wind power drive to improve the water body fluidity is arranged on the positioning support assembly, so that the quantum same-frequency resonance instrument equipment is different from the prior art, can be matched with the drive of environmental wind in the continuous use process of water body purification, can ensure that the wind-driven impeller assembly can continuously drive the water body to flow, is matched with the real-time lifting and shifting of a lifting bearing assembly, effectively improves the same-frequency resonance effect of the real-time light waves of the light wave emitter and the water body, ensures that more, shorten the sewage purification period.

Description

Quantum common-frequency resonance instrument equipment

Technical Field

The invention relates to the technical field of environmental engineering, in particular to quantum common-frequency resonance instrument equipment.

Background

Quantum same frequency resonance apparatus, mainly used drops into the aquatic and releases the light quantum energy wave of specific wavelength and frequency, on the one hand, be used for breaking the chemical bond of hydrone H-H, make the macromolecule group water become the micromolecule group water, promote the dissolubility of water, thus promote water dissolved oxygen, on the other hand, can be used for breaking the chemical bond of pollutants such as C-N, C-P, make organic pollutant in water and bottom mud become inorganic pollutant, and under the effect of microorganism, inorganic phosphorus is converted into ATP and ADP and gets into the organism, ATP and ADP are the energy of biochemical reaction in the organism, thus promote the propagation and the growth of aquatic animal and plant, in order to reach the purpose of sewage purification.

However, most of the existing quantum co-frequency resonance instruments are directly placed in water, but the attenuation phenomenon of light waves is serious when the light waves are transmitted underwater, and most of polluted water sources are dead water, so that the quantum co-frequency resonance instruments have limited effective resonance areas of the co-frequency light waves and the water body in the continuous water body purification and use process, the purification efficiency of the water body is seriously influenced, the efficient development of environmental protection engineering is seriously influenced, and therefore, the quantum co-frequency resonance instruments are provided.

Disclosure of Invention

The invention aims to provide quantum common-frequency resonator equipment to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: quantum same frequency resonance instrument equipment comprises a bearing plate and a light wave emitter for emitting same frequency resonance light waves, wherein a positioning support assembly which can adapt to actual water depth and can be effectively positioned and fixedly used is installed at the bottom of the bearing plate, a wind-driven impeller assembly which is used for being matched with real-time wind power drive to improve water body fluidity is arranged on the positioning support assembly, a lifting type bearing assembly which can be matched with the wind-driven impeller assembly to continuously act to periodically lift and shift is arranged on the positioning support assembly, the light wave emitter is installed on the lifting type bearing assembly, the light wave emitter is different from the prior art, and can be matched with the drive of environmental wind in the continuous use process of water body purification, so that the wind-driven impeller assembly can continuously drive the water body to flow and can be matched with the real-time lifting and shifting of the lifting type bearing, guarantee that more water can carry out the same frequency resonance of efficient through the light wave transmitter to effectively improve sewage purification efficiency, shorten sewage purification cycle.

Preferably, the locating support component includes a plurality of bearing posts of evenly fixing in the loading board bottom, equal threaded mounting has telescopic screw in the bearing post, telescopic screw all extends to the bearing post bottom outside, and telescopic screw is located the outer one end of bearing post and all is fixed with the gripping member that the telescopic screw of being convenient for gripped rotatory aversion use in real time, one side that telescopic screw was kept away from to the gripping member all is fixed with the inserted bar, guarantees that the holistic installation of conveniently bearing of device is used.

Preferably, the wind-driven impeller assembly comprises a driving main shaft which is installed on the bearing plate in a penetrating mode through a bearing, a driving part which can be matched with small wind power and efficiently drive the driving main shaft to move and drive to use is arranged on the bearing plate in real time, a main driving bevel gear is fixed to the bottom end of the driving main shaft, any two mounting plates are fixed between the bearing columns, a bearing shaft is installed between the two mounting plates in a rotating mode through the bearing, an auxiliary driving bevel gear meshed with the main driving bevel gear is fixed to the bearing shaft, a driving impeller is fixed to the outer side of the bearing shaft, and the matching of the real-time wind power is guaranteed so as to achieve synchronous and effective driving and use.

Preferably, the driving part comprises a main driving gear fixed at the top end of the driving main shaft, a main driving vertical shaft is installed on the bearing plate through a bearing in a rotating mode, an auxiliary driving gear meshed with the main driving gear is fixed on the outer side of the main driving vertical shaft, a main outer bevel gear is fixed at the top end of the main driving vertical shaft, the diameter of the auxiliary driving gear is far smaller than that of the main driving gear, a mounting support is fixed on the bearing plate, a bearing seat is fixed on the mounting support, a main driving transverse shaft penetrates through the bearing seat, a fan blade is fixed at one end, away from the main outer bevel gear, of the main driving transverse shaft, and an auxiliary outer bevel gear meshed with the main outer bevel gear is fixed at one end, away from the fan blade, of the main driving transverse shaft, so that effective driving is provided, and real-time.

Preferably, a reinforcing support is fixed to the top of the bearing plate, the main drive vertical shaft penetrates through the reinforcing support and is rotatably connected with the reinforcing support through a bearing, and therefore the stability of the device in the continuous driving process is effectively improved, and stable driving use is guaranteed.

Preferably, the lifting bearing assembly comprises a lifting support plate slidably mounted on the outer side of the bearing column, the light wave emitter is mounted on the outer side of the lifting support plate, a synchronous transmission component capable of matching with the driving main shaft and the real-time wind power to correspondingly change the lifting driving speed is arranged at the bottom of the bearing plate, a transmission connection component used for driving the lifting support plate to periodically lift and shift is arranged on the synchronous transmission component, and the stable lifting bearing of the light wave emitter is ensured to be mounted and used, so that the light wave emitter can follow the real-time flow of a water body to synchronously lift, and further the efficiency of resonance purification of the water body is improved.

Preferably, the synchronous transmission part comprises a function plate rotatably mounted on the drive main shaft through a bearing, a plurality of flow blocking blades are uniformly fixed at the bottom of the function plate, a synchronous bevel gear is fixed at the top of the function plate, the synchronous bevel gear is sleeved outside the drive main shaft and is rotatably connected with the drive main shaft through a bearing, a plurality of connecting columns are fixed at the bottom of the bearing plate, a fixing plate is mounted between any two connecting columns, a hollow function seat is fixed at the end part of each connecting column, the transmission connecting part is mounted on the hollow function seat, a function shaft is rotatably mounted on the fixing plate through a bearing, a middle bevel gear meshed with the synchronous bevel gear is fixed at one end of the function shaft close to the drive main shaft, a drive bevel gear meshed with the function bevel gear is fixed on the drive main shaft, and a hollow drive plate is rotatably mounted in the hollow function, the novel water purification device is characterized in that a rubber gasket is fixed in the hollow drive plate, a plurality of slow flow blades are uniformly fixed on the upper surface of the hollow drive plate, the drive main shaft penetrates through the rubber gasket and is in contact with the rubber gasket to be used for effective synchronous transmission, real-time wind power is guaranteed to be followed, the lifting displacement rate of the light wave transmitter is correspondingly adjusted, and efficient same-frequency resonance purification of a water body is guaranteed.

Preferably, the transmission connecting part comprises a mounting seat fixed on one side of the function board close to the lifting support plate, the mounting seat is provided with a transmission shaft through a bearing in a penetrating manner, one end of the transmission shaft close to the driving main shaft is fixedly provided with a transmission bevel gear, the bottom of the hollow driving plate is fixedly provided with a connection bevel gear meshed with the transmission bevel gear, the connection bevel gear is sleeved outside the driving main shaft and is not contacted with the driving main shaft, one end of the transmission shaft far away from the driving main shaft is fixedly provided with a deflection connecting rod, one end of the deflection connecting rod far away from the transmission shaft is fixedly provided with a lifting ejector rod, one side of the lifting support plate close to the lifting ejector rod is fixedly provided with a shifting guide rail frame, the lifting ejector rod is inserted in the shifting guide rail frame in a sliding manner and is matched with the shifting guide rail frame for, ensuring the high-efficiency resonance purification of the water body.

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

compared with the prior art, the invention can be matched with the driving of environmental wind in the continuous use process of water purification, so that the wind-driven impeller assembly can continuously drive the water to flow, and is matched with the real-time lifting and shifting of the lifting bearing assembly, the co-frequency resonance effect of the real-time light wave of the light wave emitter and the water is effectively improved, more water can be ensured to be subjected to efficient co-frequency resonance by the light wave emitter, the sewage purification efficiency is effectively improved, and the sewage purification period is shortened.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of another orientation of the present invention shown in FIG. 1;

FIG. 3 is a schematic view of another embodiment of the present invention;

FIG. 4 is a schematic view of another embodiment of the present invention;

FIG. 5 is a schematic view of the three-dimensional partial cross-section of FIG. 4 according to the present invention;

FIG. 6 is an enlarged view of the area A of the present invention;

FIG. 7 is an enlarged view of the region B of the present invention;

FIG. 8 is an enlarged view of the region C of the present invention;

FIG. 9 is an enlarged view of the D-zone of the present invention.

In the figure: 1-a carrier plate; 2-a light wave emitter; 3-positioning the bracket assembly; 4-a wind-driven impeller assembly; 5-lifting type bearing components; 6-a support column; 7-a telescopic screw rod; 8-a grip; 9-inserting a rod; 10-driving the main shaft; 11-a drive member; 12-main drive bevel gear; 13-mounting a plate; 14-a carrier shaft; 15-secondary drive bevel gear; 16-a drive impeller; 17-a main drive gear; 18-a primary drive shaft; 19-a secondary drive gear; 20-a main outer bevel gear; 21-mounting a bracket; 22-a bearing seat; 23-main drive cross shaft; 24-fan blades; 25-pair of outer bevel gears; 26-a reinforcing scaffold; 27-a lifting support plate; 28-synchronous drive components; 29-a drive connection member; 30-a function board; 31-flow-impeding blades; 32-synchro bevel gear; 33-connecting column; 34-a fixed plate; 35-hollow functional seat; 36-a functional axis; 37-intermediate bevel gear; 38-drive bevel gear; 39-hollow drive plate; 40-rubber gasket; 41-slow flow blade; 42-a mounting seat; 43-a drive shaft; 44-drive bevel gear; 45-connecting bevel gears; 46-a deflection link; 47-lifting mandril; 48-shifting the guide rail frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides a technical solution: the quantum common-frequency resonance instrument device comprises a bearing plate 1 and a light wave emitter 2 for emitting common-frequency resonance light waves, wherein the bearing plate 1 is designed in a rectangular plate structure without limitation, and the light wave emitter 2 adopts light wave emitting equipment in the prior art and is not described in detail herein;

the bottom of the bearing plate 1 is provided with a positioning bracket component 3 which can adapt to actual water depth and can be effectively positioned and fixedly used, the positioning bracket component 3 is provided with a wind-driven impeller component 4 which is used for matching with real-time wind power drive to improve the water body fluidity, the positioning bracket component 3 is provided with a lifting bearing component 5 which can match with the wind-driven impeller component 4 to continuously act and periodically lift and shift for use, the light wave emitter 2 is arranged on the lifting bearing component 5 so as to be different from the prior art, and further, in the continuous use process of water body purification, the wind-driven impeller component 4 can be matched with the drive of ambient wind, so that the wind-driven impeller component 4 can continuously drive the water body to flow and match with the real-time lifting shift of the lifting bearing component 5, the same frequency resonance effect of the real-time light wave of the light wave emitter, thereby effectively improving the sewage purification efficiency and effectively shortening the sewage purification period so as to ensure better environmental protection.

The positioning support assembly 3 comprises a plurality of bearing columns 6 uniformly fixed at the bottom of the bearing plate 1, the bearing columns 6 are in a polygonal column structure but are not limited, telescopic screws 7 are installed in the bearing columns 6 in a threaded manner, the telescopic screws 7 extend to the outer side of the bottom end of the bearing columns 6, holding pieces 8 convenient for the telescopic screws 7 to hold, rotate and shift in real time are fixed at one ends of the telescopic screws 7 outside the bearing columns 6, the holding pieces 8 are preferably polygonal handles but not limited, the telescopic screws 7 can be conveniently held, rotate and shift in real time, inserting rods 9 are fixed at one sides of the holding pieces 8 far away from the telescopic screws 7, the inserting rods 9 are in a circular conical rod structure design but not limited, and in the real-time use process, according to the actual water depth, the holding pieces 8 are correspondingly held, so that the telescopic screws 7 are rotated to drive to spirally shift and shift, and stretch out and draw back to the relevant position according to the depth of water condition, then through inserted bar 9, with the whole earth of inserting in the water of device, guarantee that the stable installation of device bears the weight of and uses.

The wind-driven impeller assembly 4 comprises a driving main shaft 10 which is installed on a bearing plate 1 in a penetrating manner through a bearing, the driving main shaft 10 is of a circular shaft structure but is not limited, a driving part 11 which can be matched with small wind power to drive the driving main shaft 10 to act and drive in a real-time and high-efficiency manner is arranged on the bearing plate 1, a main driving bevel gear 12 is fixed at the bottom end of the driving main shaft 10, a mounting plate 13 is fixed between any two bearing columns 6, the mounting plate 13 is of a rectangular plate structure but is not limited, specifically, the mounting plates 13 are designed in pairs, namely, at least two mounting plates and unlimited in number, a bearing shaft 14 is installed between the two mounting plates 13 in a rotating manner through a bearing, an auxiliary driving bevel gear 15 which is meshed with the main driving bevel gear 12 is fixed on the bearing shaft 14, a driving impeller 16 is fixed on the outer side of the bearing, no matter the size of environmental wind, the use through drive unit 11 can both be guaranteed to the high efficiency orders about drive main shaft 10 action rotation, in order to provide high-efficient rotary drive, and when drive main shaft 10 was rotatory, then the transmission of cooperation main drive bevel gear 12 and the vice bevel gear 15 that drives, thereby orders about the synchronous high-efficient rotation of bearing shaft 14, and then orders about drive impeller 16 synchronous revolution and drives the water and flow, with the mobility that effectively improves the water, guarantees the high-efficient purification of water and uses.

The driving part 11 comprises a main driving gear 17 fixed at the top end of a driving main shaft 10, a main driving vertical shaft 18 is rotatably installed on the bearing plate 1 through a bearing, the main driving vertical shaft 18 is of a circular shaft structure but is not limited, an auxiliary driving gear 19 meshed with the main driving gear 17 is fixed on the outer side of the main driving vertical shaft 18, a main external bevel gear 20 is fixed at the top end of the main driving vertical shaft 18, the diameter of the auxiliary driving gear 19 is far smaller than that of the main driving gear 17, a mounting bracket 21 is fixed on the bearing plate 1, a bearing seat 22 is fixed on the mounting bracket 21, the bearing seat 22 is of a polygonal seat body structure but is not limited, a main driving transverse shaft 23 penetrates through the bearing seat 22, similarly, the main driving transverse shaft 23 is of a circular shaft structure but is not limited, a fan blade 24 is fixed at one end of the main driving transverse shaft 23 far away from the main external bevel gear 20, and an auxiliary external bevel gear 25 meshed with the main external bevel gear 20 is fixed at one end of the main driving, in addition, the scheme has the advantages that the main driving gear 17 and the auxiliary driving gear 19 are adopted, the wind power required by the rotation of the main driving shaft 10 is smaller through the main driving gear 17 and the auxiliary driving gear 19 and the principle that the small teeth drive the large teeth to save labor, the main driving shaft 10 can be effectively driven to rotate, and the efficient purification and use of the water body are ensured when the environmental wind is not strong;

further, in order to be suitable for the environment wind with different wind directions in real time to carry out efficient driving, an annular guide rail can be additionally arranged on the mounting bracket 21, the bearing seat 22 is slidably mounted on the annular guide rail and cannot be detached, meanwhile, the annular guide rail is ensured to be concentric with the main driving vertical shaft 18, further, in the real-time blowing process of the environment wind, the wind force can drive the fan blade 24 to drive the main driving transverse shaft 23 to deflect, in the deflection process, the bearing seat 22 is shifted on the annular guide rail, the main outer bevel gear 20 is always meshed with the auxiliary outer bevel gear 25, the fan blade 24 can be ensured to always follow the wind direction, and therefore the fan blade 24 can be always blown to rotate by the wind force efficiently, and continuous and efficient stable driving is provided.

The top of the bearing plate 1 is fixed with a reinforcing support 26, the main driving vertical shaft 18 penetrates through the reinforcing support 26 and is rotatably connected with the reinforcing support 26 through a bearing, and therefore in the real-time use process, the stability of the main driving vertical shaft 18 can be effectively improved through the arrangement of the reinforcing support 26, and stable driving use is guaranteed.

The lifting bearing assembly 5 comprises a lifting support plate 27 which is slidably mounted on the outer side of the bearing column 6, the light wave emitter 2 is mounted on the outer side of the lifting support plate 27, a synchronous transmission part 28 which can be matched with the driving spindle 10 and the real-time wind power to correspondingly change the lifting driving speed is arranged at the bottom of the bearing plate 1, a transmission connection part 29 which is used for driving the lifting support plate 27 to periodically lift and move is arranged on the synchronous transmission part 28, and further, in the real-time use process, in the rotation process of the driving spindle 10, the lifting support plate 27 is periodically driven to drive the light wave emitter 2 to lift through the use of the synchronous transmission part 28 and the transmission connection part 29, so that the effective light wave direct irradiation area is changed, the quantity of co-frequency resonance of a water body is increased, the water body purification efficiency is effectively improved, and further, when the driving spindle 10, in this process, the faster the drive impeller 16 rotates, the faster the water body is driven to flow, at this moment, if the light wave emitter 2 goes up and down too fast, it is extremely easy to result in the short contact time of water body and light wave and influence the same frequency resonance effect, under this condition, through synchronous transmission part 28's use, can make the in-process of the fast revolution of drive main shaft 10 is ordered about to big wind-force, the corresponding frequency of changing synchronous transmission part 28 action, thereby cooperation transmission connecting part 29, in order when drive impeller 16 fast revolution, effectively reduce the lifting frequency of lift extension board 27, guarantee that the water body is fully with the same frequency resonance with the light wave.

The synchronous transmission part 28 comprises a function board 30 which is rotatably arranged on a driving main shaft 10 through a bearing, the function board 30 is of a circular board structure but is not limited, a plurality of flow blocking blades 31 are uniformly fixed at the bottom of the function board 30, the flow blocking blades 31 are of a rectangular sheet structure but is not limited, a synchronous bevel gear 32 is fixed at the top of the function board 30, the synchronous bevel gear 32 is sleeved on the outer side of the driving main shaft 10 and is rotatably connected with the driving main shaft 10 through the bearing, a plurality of connecting columns 33 are fixed at the bottom of the bearing board 1, a fixing board 34 is arranged between any two connecting columns 33, the fixing board 34 is of a rectangular board structure but is not limited, a hollow function base 35 is fixed at the end part of each connecting column 33, the transmission connection part 29 is arranged on the hollow function base 35, a function shaft 36 is rotatably arranged on the fixing board 34 through the bearing, an intermediate bevel gear 37 engaged with the synchronous bevel gear 32 is fixed at one end of the functional shaft 36 close to the driving main shaft 10, a driving bevel gear 38 engaged with the functional bevel gear is fixed on the driving main shaft 10, a hollow driving plate 39 is rotatably installed in the hollow functional seat 35 through a bearing, the hollow driving plate 39 is of a circular plate structure but is not limited to the circular plate structure, a rubber gasket 40 is fixed in the hollow driving plate 39, a plurality of slow flow blades 41 are uniformly fixed on the upper surface of the hollow driving plate 39, the driving main shaft 10 penetrates through the rubber gasket 40 and is in contact with the rubber gasket 40, so that in the real-time rotation process of the driving main shaft 10, firstly, under the condition of small environmental wind, the static friction force between the driving main shaft 10 and the rubber gasket 40 is used for driving the hollow functional seat 35 to synchronously rotate, so as to drive the transmission of the transmission connecting component 29, the lifting support plate 27 is driven to drive the light wave emitter 2 to lift periodically, meanwhile, the drive bevel gear 38 drives the function piebald horse fly wheel to rotate synchronously through the transmission of the middle bevel gear 37, but the rotation direction of the drive bevel gear is opposite to that of the drive main shaft 10, in the process, the hollow drive plate 39 rotates synchronously with the drive main shaft 10, the function plate 30 drives the flow blocking blades 31 to rotate reversely so as to drive the water flow to rotate in a reverse vortex mode, the hollow drive plate 39 drives the slow flow blades 41 to rotate in a forward vortex mode and drive the water flow to rotate in a forward vortex mode, when wind power is small, relative vortex is not obvious, mutual resistance is small, and the lifting support plate 27 drives the light wave emitter 2 to lift normally;

in the process of continuously increasing the environmental wind, the reverse vortex water flow is more intense, and the static friction state between the driving main shaft 10 and the rubber gasket 40 is broken, in the process, the rotating speed of the driving main shaft 10 is continuously increased, during the increase of the rotation speed of the driving main shaft 10, correspondingly, the rotation speed of the function plate 30 increases, the reverse vortex is intensified, the balance between the forward vortex and the positive vortex formed by the hollow driving plate 39 is broken, thus providing a rotational resistance to the hollow drive plate 39, and the greater the ambient wind, the faster the drive spindle 10 rotates, the reverse vortex phenomenon is more serious, correspondingly, the larger the resistance to the forward vortex is, the larger the stress on the hollow driving plate 39 and the slow flow blade 41 is, the lower the rotating speed is, and then when the environmental wind power continuously increases and leads to the water body fast flow, with the lift rate of effectively reducing light wave emitter 2 to guarantee with the high-quality same frequency resonance use of water body.

The transmission connecting component 29 includes a mounting seat 42 fixed on one side of the function board 30 close to the lifting support plate 27, the mounting seat 42 is designed in a polygonal base structure but is not limited to a polygonal base structure, the mounting seat 42 is provided with a transmission shaft 43 through a bearing, the transmission shaft 43 is in a circular shaft structure but is not limited to a circular shaft structure, one end of the transmission shaft 43 close to the driving spindle 10 is fixed with a transmission bevel gear 44, the bottom of the hollow driving board 39 is fixed with a connection bevel gear 45 engaged with the transmission bevel gear 44, the connection bevel gear 45 is sleeved outside the driving spindle 10 and is not contacted with the driving spindle 10, one end of the transmission shaft 43 far away from the driving spindle 10 is fixed with a deflection connecting rod 46, the deflection connecting rod 46 is in a rectangular plate structure but is not limited to a rectangular plate structure, one end of the deflection connecting rod 46 far away from the transmission shaft 43 is fixed with a lifting push rod 47, the, the lifting ejector rod 47 is inserted in the shifting guide rail frame 48 in a sliding mode and is matched with the shifting guide rail frame 48 for use, and further in the real-time rotating process of the hollow driving plate 39, the connecting bevel gear 45 drives the transmission shaft 43 to rotate synchronously through the transmission effect of the transmission bevel gear 44, and in the synchronous rotating process of the transmission shaft 43, the deflection connecting rod 46 can deflect synchronously, so that the shifting guide rail frame 48 and the lifting support plate 27 are driven to lift periodically synchronously through the rotating lifting jacking effect of the deflection ejector rod, the periodic lifting of the light wave emitter 2 is ensured, and the high-efficiency purified water use is ensured.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Quantum common frequency resonance appearance equipment, including loading board (1) and be used for launching light wave transmitter (2) of same frequency resonance light wave, its characterized in that: bearing board (1) bottom is installed and is adapted to actual depth of water and carry out effective location fixed use's locating support subassembly (3), be provided with on locating support subassembly (3) and be used for cooperating real-time wind-force drive to drive impeller subassembly (4) with the wind that improves water mobility, and be provided with on locating support subassembly (3) and can cooperate wind to drive impeller subassembly (4) and last the action and carry out periodic lift and shift over-and-under type carrier assembly (5) that use, install on over-and-under type carrier assembly (5) light wave transmitter (2).

2. The quantum co-frequency resonance instrument device according to claim 1, wherein: location bracket component (3) include a plurality of even bearing post (6) of fixing in loading board (1) bottom, equal threaded mounting has telescopic screw (7) in bearing post (6), telescopic screw (7) all extend to the bearing post (6) bottom outside, and telescopic screw (7) are located the outer one end of bearing post (6) and all are fixed with and are convenient for telescopic screw (7) to grip in real time and rotate the piece (8) that grips that shifts the use, grip one side that telescopic screw (7) were kept away from in piece (8) all is fixed with inserted bar (9).

3. The quantum co-frequency resonance instrument device according to claim 2, wherein: wind-driven impeller subassembly (4) include run through drive spindle (10) of installing on loading board (1) through the bearing, be provided with on loading board (1) and can cooperate little wind-force and in real time high efficiency order drive spindle (10) to move drive driver part (11) that the drive used, drive spindle (10) bottom mounting has main bevel gear (12), arbitrary two bear and be fixed with between post (6) mounting panel (13), two install through bearing rotation between mounting panel (13) and bear axle (14), bear and be fixed with on axle (14) and drive bevel gear (12) the meshing vice bevel gear (15) of driving, and bear and be fixed with drive impeller (16) in axle (14) outside.

4. The quantum co-frequency resonance instrument device according to claim 3, wherein: the driving part (11) comprises a main driving gear (17) fixed at the top end of the driving main shaft (10), a main driving vertical shaft (18) is rotatably arranged on the bearing plate (1) through a bearing, an auxiliary driving gear (19) meshed with the main driving gear (17) is fixed on the outer side of the main driving vertical shaft (18), and a main external bevel gear (20) is fixed at the top end of the main driving vertical shaft (18), the diameter of the auxiliary driving gear (19) is far smaller than that of the main driving gear (17), a mounting bracket (21) is fixed on the bearing plate (1), a bearing seat (22) is fixed on the mounting bracket (21), a main driving transverse shaft (23) penetrates through the bearing seat (22), a fan blade (24) is fixed at one end of the main driving transverse shaft (23) far away from the main outer bevel gear (20), and one end of the main driving transverse shaft (23) far away from the fan blade (24) is fixed with an auxiliary outer bevel gear (25) meshed with the main outer bevel gear (20).

5. The quantum co-frequency resonance instrument device according to claim 4, wherein: a reinforcing support (26) is fixed to the top of the bearing plate (1), and the main driving vertical shaft (18) penetrates through the reinforcing support (26) and is rotatably connected with the reinforcing support (26) through a bearing.

6. The quantum co-frequency resonance instrument device according to claim 5, wherein: the lifting bearing assembly (5) comprises a lifting support plate (27) which is slidably mounted on the outer side of a bearing column (6), the light wave emitter (2) is mounted on the outer side of the lifting support plate (27), a synchronous transmission component (28) which can be matched with a driving main shaft (10) and real-time wind power to correspondingly change the lifting driving speed is arranged at the bottom of the bearing plate (1), and a transmission connecting component (29) which is used for driving the lifting support plate (27) to be lifted and displaced periodically is arranged on the synchronous transmission component (28).

7. The quantum co-frequency resonance instrument device according to claim 6, wherein: the synchronous transmission part (28) comprises a function board (30) which is rotatably installed on a driving main shaft (10) through a bearing, a plurality of flow blocking blades (31) are uniformly fixed at the bottom of the function board (30), a synchronous bevel gear (32) is fixed at the top of the function board (30), the synchronous bevel gear (32) is sleeved on the outer side of the driving main shaft (10) and is rotatably connected with the driving main shaft (10) through the bearing, a plurality of connecting columns (33) are fixed at the bottom of the bearing board (1), a fixing plate (34) is installed between any two connecting columns (33), a hollow function seat (35) is fixed at the end part of each connecting column (33), a transmission connecting part (29) is installed on the hollow function seat (35), a function shaft (36) is rotatably installed on the fixing plate (34) through the bearing, an intermediate bevel gear (37) meshed with the synchronous bevel gear (32) is fixed at one end, close to the driving main shaft (10), the driving mechanism is characterized in that a driving bevel gear (38) meshed with the functional bevel gear is fixed on the driving main shaft (10), a hollow driving plate (39) is rotatably installed in the hollow functional seat (35) through a bearing, a rubber gasket (40) is fixed in the hollow driving plate (39), a plurality of slow flow blades (41) are uniformly fixed on the upper surface of the hollow driving plate (39), and the driving main shaft (10) penetrates through the rubber gasket (40) and is in contact with the rubber gasket (40).

8. The quantum co-frequency resonator device according to claim 7, wherein: the transmission connecting part (29) comprises a mounting seat (42) fixed on one side, close to the lifting support plate (27), of the function plate (30), a transmission shaft (43) penetrates through the mounting seat (42) through a bearing, a transmission bevel gear (44) is fixed at one end, close to the driving spindle (10), of the transmission shaft (43), a connection bevel gear (45) meshed with the transmission bevel gear (44) is fixed at the bottom of the hollow driving plate (39), the connection bevel gear (45) is sleeved on the outer side of the driving spindle (10) and is not in contact with the driving spindle (10), a deflection connecting rod (46) is fixed at one end, far away from the driving spindle (10), of the deflection connecting rod (46) is fixed with a lifting ejector rod (47), and a shifting guide rail frame (48) is fixed at one side, close to the lifting ejector rod (47), of the lifting support plate (27), the lifting ejector rod (47) is inserted in the shifting guide rail frame (48) in a sliding manner and is matched with the shifting guide rail frame (48) for use.