CN207813663U - Form the power generation auxiliary device in negative-pressure sealed circuit - Google Patents

Abstract

A kind of power generation auxiliary device forming negative-pressure sealed circuit, including one agitate mechanism and flow path module combination.Flow path module is to define the pipeline structure of chamber, is had a first end and a second end, and is separately connected and agitates mechanism, and collectively forms a loop structure；And the chamber of flow path module is provided at least two electricity generation modules, cooperation agitates mechanism to draw fluid（For example, gas or liquid）From first end（Or second end）Towards second end（Or second end）Direction produced electricl energy by electricity generation module in the chamber indoor sport of flow path module, and make to generate suction function between adjacent electricity generation module, and establish the circulation loop mechanism of control fluid, to obtain the energy（Or fluid force）Recycling and reduce energy loss and opposite the effects that improving generating efficiency.

Description

Form the power generation auxiliary device in negative-pressure sealed circuit

Technical field

The utility model is about a kind of power generation auxiliary device forming negative-pressure sealed circuit；Particularly relate to a kind of flow path module With the combination for agitating mechanism, a loop structure is constituted, is produced electricl energy by electricity generation module in favor of reuse fluid Technology.

Background technology

By windmill or mechanism is agitated using air stream, the mechanical energy rotated by blade drives the conducting wire of generating set Coil generates magnetic and swashs and be changed into the power generator that electric energy exports, and is already belonging to a prior art.For example, TaiWan, China No. 100139581 " closed wind power plants ", No. 98210701 " wind power generation structure ", No. 95148715 " wind-force Power generator " Patent Case etc. provides typical embodiment.

The prior art also reveals many different structure kenels or controls the wind of wind deflector using complicated transmission mechanism Power electrification structure；For example, TaiWan, China No. 972109733 " structural improvement of vertical composite type wind power generator ", No. 98206677 " horizontal axis wind-driven generators of rotatable pylon ", using multistage can the flexible blade structure of folding, cooperation oil Compression bar adjusts No. 93200993 " structure of wind power generation windmill " of flabellum length, using the regulation and control group of motor and rotary shaft, No. 96202060 " wind power generation plant " Patent Case etc. for controlling wind deflector and flabellum direction, provides feasible embodiment.

One is that they are not accounted in the project of structure design and operation application aspect in relation to this kind of wind power generation plant The remaining energy is reused in recycling（For example, wind-force or fluid force）, to reduce energy loss or improve the mechanism of generating efficiency； And this situation is not that we are desired.

For representative, these bibliography are shown to be made in related wind power generation plant or its correlation combiner system With with structure design in terms of situation.If redesigning the structure combination for considering the wind power generation plant and associated component, with And above-mentioned application scenarios, so that its construction is different from the prior art, by its changeable use form, and is different from existing skill Art.Substantially, recycling will be can reach or reuse the energy, to reduce energy loss or improve the effect of generating efficiency；And this A little projects are not specifically taught or are disclosed in above-mentioned bibliography.

Utility model content

Therefore, the main purpose of the utility model is to be to provide a kind of power generation auxiliary dress forming negative-pressure sealed circuit It sets, including one agitates mechanism（For example, air blower or pump）With the combination of flow path module.Flow path module is to define the pipe of chamber Line structure has a first end and a second end, and is separately connected and agitates mechanism, and collectively forms a loop structure；And flow path The chamber of module is provided at least two electricity generation modules, and cooperation agitates mechanism to draw fluid（For example, air or liquid）From first End（Or second end）Towards second end（Or first end）Direction generated by electricity generation module in the chamber indoor sport of flow path module Electric energy, and make to agitate using suction function generation between adjacent electricity generation module, to reduce the loss of energy；And establish stream The flow path of body forms a circulation loop mechanism, to obtain the energy（Or wind-force）Recycling, and correspondingly improve generating efficiency The effects that.

The power generation auxiliary device according to the present utility model for forming negative-pressure sealed circuit, the flow path module are at least two pipes The combination on road is equipped with connecting tube between each pipeline, and constitutes the U-tube line structures of at least two interconnections.And drum Dynamic Mechanism Combination has a fluid input unit, can enter through fluid input unit fluid replacement according to use situation and agitate mechanism.

The power generation auxiliary device according to the present utility model for forming negative-pressure sealed circuit, more can be before entering electricity generation module Guiding device is set in fluid chamber, each electricity generation module is entered with optimum orientation to provide fluid, further increases electricity generation efficiency.

The power generation auxiliary device according to the present utility model for forming negative-pressure sealed circuit, but can whole flow path module extremely Few local location, setting tool radiator dissipate internal unit and fluid operation with by generated afterheat after priming to lead, avoid The pressure drag generated because loop temperature increases enables the flowing of whole fluid more smooth.

Description of the drawings

Fig. 1 is the dimensional structure diagram of the utility model.

Fig. 2 is the planar structure schematic diagram of Fig. 1；Show that flow path block combiner agitates the vertical view of mechanism, arrow in figure Part depicts fluid motion situation.

Fig. 3 is another planar structure schematic diagram of Fig. 1；The vertical view that flow path block combiner agitates mechanism is depicted, in figure Arrow head part shows fluid motion situation.

Fig. 4 is the planar structure schematic diagram of Fig. 1；Show that flow path block combiner agitates the upward view of mechanism, arrow in figure Part depicts fluid motion situation.

Fig. 5 is a partial structural diagram of the utility model；Depict the situation of electricity generation module and fluid motion.

Fig. 6 is the partial structural diagram of another possible embodiments of the utility model, particularly illustrates guiding device and dissipates Thermal.

Reference sign.

10 flow path modules

11 first ends

12 second ends

13 chambers

13a first chambers

13b second chambers

13c third chambers

15 pipelines

16 connecting tubes

20 electricity generation modules

21 first electricity generation modules

22 second electricity generation modules

23 third electricity generation modules

25 moving blades

50 agitate mechanism

60 fluid input units

70 guiding devices

80 radiators.

Specific implementation mode

The 1st figure is please referred to, the power generation auxiliary device in the negative-pressure sealed circuit of formation of the utility model includes a flow path module With the combination for agitating mechanism, generally indicated respectively with Ref. No. 10,50.Flow path module 10 is the combination of at least two pipelines 15, It is equipped with connecting tube 16 between each pipeline 15, and constitutes the U-tube line structure of at least two interconnections.

In the embodiment adopted, flow path module 10（Or pipeline 15）Chamber 13 has been defined, has been provided at least in chamber 13 Two electricity generation modules 20；Electricity generation module 20 is configured with moving blade 25, can coordinate fluid（For example, air or liquid）Pass through, makes Electricity generation module 20 produces electricl energy.And flow path module 10 has first end 11 and second end 12, is separately connected and agitates mechanism 50, And collectively form a loop structure.

Imaginary line part, which is shown, in figure agitates mechanism 50 that can organize unification（Wind-force or liquid）Fluid input unit 60, for personnel According to use situation, enters through 60 fluid replacement of fluid input unit and agitate mechanism 50.Agitate mechanism 50 may be selected air blower, pump or Its similar means belongs to prior art construction, therefore does not give detailed description.

The figure of 2nd, 3 and 4, which depicts flow path module 10, so that at least two pipelines 15 is connected according to site environment and manage 16, connection forms first row flow path module 10（Or upper drainage road module）, second row flow path module 10（Or lower drainage road mould Block）And/or most drainages road module 10.

The arrow head part of the figure of 2nd, 3 and 4 shows fluid or air stream in flow path module 10（Or chamber 13）Interior movement Situation.Assuming that mechanism 50 is agitated to draw air-flow inside flow path module 10（Fluid）, make air-flow from flow path module 10（Or first row Flow path module 10）First end 11 enter and agitate mechanism 50 after, the air-flow enters flow path module 10 from second end 12 again（Or the Two drainage road modules 10）, through connecting tube 16 first row flow path module 10 is inputted, and the closing kenel for establishing a control fluid is followed Loop back path mechanism, to obtain the energy（Or wind-force）The effects that recycling and reduction energy loss.

The 5th figure is please referred to, depicts and captures one section of pipeline 15 and the first end 11 of mechanism 50 is agitated in connection, as illustrating reality Apply example.In order to aid in illustrating, at least two electricity generation modules 20 that the form that is arranged is formed in circuit chamber 13 are divided into the One electricity generation module 21, the second electricity generation module 22, third electricity generation module 23 ..., will be between the first electricity generation module 21 and first end 11 Chamber 13 is defined as first chamber 13a, and the chamber 13 between the first electricity generation module 21 and the second electricity generation module 22 is defined as second Chamber 13b, the chamber 13 between the second electricity generation module 22 and third electricity generation module 23 are defined as third chamber 13c.

When agitating the operating of mechanism 50 to draw 15 fluid movement of pipeline, first chamber 13a can be made to generate suction function, made Second chamber 13b is opposite to form larger Fluid pressure, to generate assists that fluid is pushed to flow into first chamber from second chamber 13b The strength of 13a；When fluid passes through the first electricity generation module 21（Or moving blade 25）Into first chamber 13a, and make second chamber 13b generates suction function；Therefore, also opposite that third chamber 13c is made to sequentially form larger Fluid pressure, pass through the second power generation mould Block 22（Or moving blade 25）Into second chamber 13b.

Apprehensible to be, the above-mentioned fluid into first chamber 13a is after mechanism 50 is agitated in the input of first end 11, and from the Two ends, 12 injection stream module 10（Or second row flow path module 10）, follow first row flow path module 10 and the input of first end 11 agitated Mechanism 50, and above-mentioned closed loop circulation structure is established jointly.

Referring again to the 6th figure, since the utility model is in integrally formed loop, most hairs can be entered by device Electric module 20, however, in the working fluid of 10 internal flow of flow path module, is passing through each hair to improve overall power generation efficiency , must be different because of the defeated efflux time pushed after moving and angle when electric module 20, turbulent flow phenomenon is caused, if so directly entering back into Next electricity generation module 20 is pushed, and integral energy is necessarily enabled to generate the case where offseting weakening each other, therefore, this case utility model Designer more can whole fluid flow chamber 13 in, be located at each electricity generation module 20 before, setting can guiding device 70, draw Baffle is entered with best angle and direction in electricity generation module 20, so that generating effect each time is reached most preferably, and eliminate because disorderly From loss phenomenon caused by stream.Furthermore in order to effectively remove whole power generator in the issuable afterheat pressure of running when institute Thus poor resistance, the utility model more can suitably be led in at least local location of whole flow path module 10, setting tool radiator 80 Afterheat caused by internal unit and fluid forces operation is dissipated, flow resistance caused by hot pressing difference is avoided, influences whole power generation Efficiency.

For representative, this power generation auxiliary device for forming negative-pressure sealed circuit is having energy saving condition Under, compared to existing technologies, have the advantages that it is following special consideration should be given to condition and.

1. the flow path module 10, electricity generation module 20 and associated component or the cooperation form for agitating mechanism 50, are set again Meter considers, is different from the prior art and changes its use, mode of operation, and is different from the prior art.For example, flow path First end 11, second end 12 is arranged in module 10, and mechanism 50 is agitated in pivot joint respectively, and the envelope of suction function can be generated by establishing one jointly Loop circuit kenel；Flow path module 10 defines chamber 13, configures at least two electricity generation modules 20；At least two combinations of pipeline 15 connect Take over 16 constitutes the part such as U-tube line structure, hence it is evident that the structure design with innovation can reduce electricity generation module 20 by fluid Forward impact situation, and the opposite proportion of goods damageds for reducing application process.

2. in particular, flow path module 10, electricity generation module 20 and the composite structure for agitating mechanism 50, keep fluid circulation movement logical The mechanism crossed electricity generation module 20 and produced electricl energy also shows and is keeping same fluid（Or reduce energy loss）The condition of operating Under, flow path module 10 configures more multiple electricity generation modules 20, and the electric energy production total amount that can make electricity generation module 20 is improved as far as possible, And the effects that relative increase generating efficiency.

The utility model provides a power generation auxiliary device for effectively forming negative-pressure sealed circuit, and spatial shape is not yet It is same as the prior art, and has the advantages that incomparable in the prior art, sizable progress is presented, has really fully complied with reality With the important document of new patent.

As described above, only possible embodiments of the utility model are not used for limiting the utility model implementation Range, i.e., all equivalent variations made according to the claim of the utility model with modification, be all the utility model patent range institute Cover.

Claims (17)

1. a kind of power generation auxiliary device forming negative-pressure sealed circuit, which is characterized in that including：

Agitate the combination of mechanism and flow path module；

Flow path module is to define the pipeline structure of chamber, is had a first end and a second end, and is separately connected and agitates mechanism, and is total to With one loop structure of composition；And

The chamber of flow path module is provided at least two electricity generation modules, and electricity generation module is configured with moving blade；Mechanism is agitated in cooperation Fluid is drawn, makes fluid in the chamber of flow path module, because generating suction function between adjacent electricity generation module, and moves and passes through Electricity generation module produces electricl energy, and establishes the closed circulation mechanism that control fluid is generated electricity by vacuum flow dynamic auxiliary.

2. forming the power generation auxiliary device in negative-pressure sealed circuit as described in claim 1, which is characterized in that the flow path module is The combination of at least two pipelines is equipped with connecting tube between each pipeline, and constitutes the U-tube road knot of at least two interconnections Structure.

3. forming the power generation auxiliary device in negative-pressure sealed circuit as described in claim 1, which is characterized in that the flow path module is The combination of at least two pipelines makes at least two pipelines be connected and manages, and connection forms at least first row flow path module, second row Flow path module.

4. forming the power generation auxiliary device in negative-pressure sealed circuit as claimed in claim 2, which is characterized in that this at least two pipes Road, which is connected, manages, and connection forms at least first row flow path module, second row flow path module.

5. forming the power generation auxiliary device in negative-pressure sealed circuit as described in claim 1, which is characterized in that this agitates mechanism can Combine a fluid input unit.

6. forming the power generation auxiliary device in negative-pressure sealed circuit as claimed in claim 2, which is characterized in that this agitates mechanism can Combine a fluid input unit.

7. forming the power generation auxiliary device in negative-pressure sealed circuit as claimed in claim 3, which is characterized in that this agitates mechanism can Combine a fluid input unit.

8. forming the power generation auxiliary device in negative-pressure sealed circuit as claimed in claim 4, which is characterized in that this agitates mechanism can Combine a fluid input unit.

9. such as the power generation auxiliary device described in any item of the claim 1 to 8 for forming negative-pressure sealed circuit, which is characterized in that This agitates mechanism to draw the fluid of flow path inside modules, so that fluid is entered from the first end of flow path module and agitates mechanism, the stream Body establishes the closed circulation mechanism by agitating mechanism to enter flow path module from second end again.

10. such as the power generation auxiliary device described in any item of the claim 1 to 8 for forming negative-pressure sealed circuit, which is characterized in that The electricity generation module at least divides into the first electricity generation module, the second electricity generation module, third electricity generation module；

Chamber between first electricity generation module and first end is defined as first chamber, the first electricity generation module and the second electricity generation module it Between chamber be defined as second chamber, the chamber between the second electricity generation module and third electricity generation module is defined as third chamber；With And

It agitates mechanism operating to draw pipeline fluid movement, first chamber is made to generate suction function, the opposite stream for making second chamber Body pressure is more than the Fluid pressure in first chamber, enters first chamber by the first electricity generation module from second chamber in fluid, And second chamber is made sequentially to generate suction function, the opposite pressure for making the Fluid pressure of third chamber be more than second chamber, and Priming fluid enters second chamber by the second electricity generation module.

11. such as the power generation auxiliary device described in any item of the claim 1 to 8 for forming negative-pressure sealed circuit, which is characterized in that The flow path inside modules, enter positioned at fluid in the chamber before electricity generation module, are equipped with guiding device.

12. forming the power generation auxiliary device in negative-pressure sealed circuit as claimed in claim 9, which is characterized in that the flow path module Inside enters positioned at fluid in the chamber before electricity generation module, is equipped with guiding device.

13. forming the power generation auxiliary device in negative-pressure sealed circuit as claimed in claim 10, which is characterized in that the flow path module Inside enters positioned at fluid in the chamber before electricity generation module, is equipped with guiding device.

14. such as the power generation auxiliary device described in any item of the claim 1 to 8 for forming negative-pressure sealed circuit, which is characterized in that At least local location of the flow path module, is provided with radiator.

15. forming the power generation auxiliary device in negative-pressure sealed circuit as claimed in claim 9, which is characterized in that the flow path module At least local location, be provided with radiator.

16. forming the power generation auxiliary device in negative-pressure sealed circuit as claimed in claim 10, which is characterized in that the flow path module At least local location, be provided with radiator.

17. forming the power generation auxiliary device in negative-pressure sealed circuit as claimed in claim 11, which is characterized in that the flow path module At least local location, be provided with radiator.