CN204981860U

CN204981860U - Utilize methane -generating pit agitating unit of wind energy

Info

Publication number: CN204981860U
Application number: CN201520526390.6U
Authority: CN
Inventors: 潘阿海
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-07-18
Filing date: 2015-07-18
Publication date: 2016-01-20
Anticipated expiration: 2025-07-18

Abstract

The utility model provides an utilize methane -generating pit agitating unit of wind energy, including the methane -generating pit, agitating unit, positioner, support device and rotating device, the methane -generating pit is equipped with first fixed block, agitating unit includes the fixed loop, first puddler, the second puddler, the third puddler, the fourth puddler, the 5th puddler and the 6th puddler, the support device includes first support, the second support, first support column, the second support column, the third support column, first horizontal pole, second horizontal pole and tighrening ring, rotating device includes the wind wheel, first pivot, the second pivot, first gear, the second gear, the third pivot, the third gear, fourth gear and fourth pivot, positioner includes first bracing piece, first gyro wheel, mount and second gyro wheel, the lower surface of first bracing piece is connected with the last fixed surface of first puddler. The utility model discloses can carry out effectual stirring to the methane -generating pit, agitating unit consumes the wind energy simultaneously, need not use the electric energy, has the advantage of environmental protection.

Description

A kind of methane-generating pit whipping appts utilizing wind energy

Technical field

The present invention relates to technical field of new energies, particularly relate to a kind of methane-generating pit whipping appts utilizing wind energy.

Background technology

In order to protection of the environment, rural area starts more and more to use biogas energy, and the advantages such as cost is low, environmental protection that it has, meet the demand of the policy that present country advocates, and wind energy also starts to obtain using more and more widely as a kind of clean energy simultaneously.But methane-generating pit needs when producing biogas chemical reaction occurs, but generally object is deposited in methane-generating pit, and the efficiency of its reaction is lower, and the time is longer, cannot be effectively utilized, even if need to add whipping appts, because it needs to consume electric energy, add the consumption of the energy.

Therefore, need to provide a kind of new technical scheme to solve the problems of the technologies described above.

Summary of the invention

The object of this invention is to provide a kind of methane-generating pit whipping appts utilizing wind energy that can effectively solve the problems of the technologies described above.

In order to solve the problems of the technologies described above, the present invention adopts following technical scheme:

Utilize a methane-generating pit whipping appts for wind energy, the described methane-generating pit whipping appts of wind energy that utilizes comprises methane-generating pit, be positioned at the whipping appts of described methane-generating pit inside, be positioned at the locating device above described whipping appts, be positioned at the holder device above described methane-generating pit and wheelwork, the upper end on the right surface of described methane-generating pit is provided with the first fixed block, and described whipping appts comprises set collar, be positioned at the first agitator arm outside described set collar, be positioned at the second agitator arm on the left of described first agitator arm, be positioned at the 3rd agitator arm above described second agitator arm, be positioned at the 4th agitator arm of described 3rd agitator arm side, the 5th agitator arm being positioned at described first agitator arm side and the 6th agitator arm be positioned at above described 5th agitator arm, described holder device comprises the first support, be positioned at the second support above described first support, be positioned at the first pillar stiffener on the right side of described first support, be positioned at the second pillar stiffener on the right side of described first pillar stiffener, be positioned at the 3rd pillar stiffener on the right side of described second pillar stiffener, be positioned at the first cross bar above described 3rd pillar stiffener, the second cross bar below described first cross bar and the dead ring between described first cross bar and described second cross bar, described wheelwork comprises wind wheel, be arranged at the first rotating shaft on described wind wheel, be positioned at the second rotating shaft below described first rotating shaft, be positioned at the first gear of described second rotating shaft lower end, be positioned at the second gear below described first gear, be arranged at the 3rd rotating shaft on described second gear, be positioned at the 3rd gear on the left of described 3rd rotating shaft, the 4th rotating shaft being positioned at the 4th gear above described 3rd gear and being arranged on described 4th gear, described locating device comprises the first support bar, be positioned at the first roller above described first support bar, be positioned at the anchor above described methane-generating pit and be positioned at the second roller below described anchor, described first support bar is vertically placed, the lower surface of described first support bar is fixedly connected with the upper surface of described first agitator arm, described first roller is arranged on the upper surface of described first support bar, described anchor is inverted concave character type, described 4th rotating shaft runs through the upper and lower surface of described anchor and is fixedly connected with it, and the lower surface that described second roller is arranged at described anchor leans on the upper surface of described methane-generating pit.

The cylinder of described set collar to be cross section be annulus, the upper end of described first agitator arm is skewed, and the lower end of described first agitator arm is vertical shape, and the upper end of described first agitator arm is fixedly connected with the side of described set collar.

Described second agitator arm is skewed, one end of described second agitator arm is fixedly connected with the internal surface of described first agitator arm, described 3rd agitator arm is vertical shape, the lower surface of described 3rd agitator arm is fixedly connected with the upper surface of described second agitator arm, described 4th agitator arm is rectangular parallelepiped, described 4th agitator arm horizontal positioned, one end of described 4th agitator arm is fixedly connected with the side of described 3rd agitator arm.

Described 5th agitator arm is rectangular parallelepiped, described 5th agitator arm horizontal positioned, one end of described 5th agitator arm is fixedly connected with the side of described first agitator arm, described 6th agitator arm is rectangular parallelepiped, described 6th agitator arm is vertically placed, and the lower surface of described 6th agitator arm is fixedly connected with the upper surface of described 5th agitator arm.

Described first support is L-type, one end of described first support is fixedly connected with the upper surface of described methane-generating pit, the other end of described first support is horizontal, described first support is provided with the first horizon bar, described first horizon bar is right cylinder, and the left end of described first horizon bar is fixedly connected with the right-hand member of described first support.

Described second support is L-type, one end of described second support is fixedly connected with the upper surface of described first support, the other end of described second support is horizontal, described second support is provided with the first montant, described first montant is right cylinder, and the upper end of described first montant is fixedly connected with described second support.

Described first pillar stiffener is rectangular parallelepiped, the lower surface of described first pillar stiffener is fixedly connected with the upper surface of described methane-generating pit, ring groove is provided with in described first pillar stiffener, described second pillar stiffener is right cylinder, described second pillar stiffener is vertically placed, the lower surface of described second pillar stiffener is fixedly connected with the upper surface of described methane-generating pit, described second pillar stiffener is provided with the second horizon bar, described second horizon bar is right cylinder, described second horizon bar horizontal positioned, the right-hand member of described second horizon bar is fixedly connected with the side of described second pillar stiffener.

Described 3rd pillar stiffener is rectangular parallelepiped, described 3rd pillar stiffener is vertically placed, the right surface of described first fixed block is fixedly connected with the left surface of described 3rd pillar stiffener, described first cross bar is rectangular parallelepiped, described first cross bar horizontal positioned, the upper surface of described 3rd pillar stiffener is fixedly connected with the lower surface of described first cross bar, described second cross bar is rectangular parallelepiped, described second cross bar horizontal positioned, the right surface of described second cross bar is fixedly connected with the left surface of described 3rd pillar stiffener, described dead ring is the cylinder that cross section is annulus, the upper surface of described dead ring is fixedly connected with the lower surface of described first cross bar, the lower surface of described dead ring is fixedly connected with the upper surface of described second cross bar.

After adopting technique scheme, tool of the present invention has the following advantages:

The present invention utilizes the methane-generating pit whipping appts structure of wind energy simple; easy to use; effectively can stir methane-generating pit, make its rapid reaction produce biogas, decrease the time that biogas produces; improve the efficiency of reaction; whipping appts consumes wind energy simultaneously, does not need to use electric energy, has the advantage of environmental protection; not only protect environment and also a saving cost, the efficiency that biogas is produced improves greatly.

Accompanying drawing explanation

Utilize the embodiment of the methane-generating pit whipping appts of wind energy to be described further to the present invention below in conjunction with accompanying drawing:

Fig. 1 is the structural representation that the present invention utilizes the methane-generating pit whipping appts of wind energy;

Embodiment

As shown in Figure 1, the present invention utilizes the methane-generating pit whipping appts of wind energy to comprise methane-generating pit 1, is positioned at the whipping appts 2 of described methane-generating pit 1 inside, is positioned at locating device 5 above described whipping appts 2, is positioned at holder device 3 above described methane-generating pit 1 and wheelwork 4.

As shown in Figure 1, described methane-generating pit 1 is in hollow rectangular parallelepiped, and the upper end on the right surface of described methane-generating pit 1 is provided with the first fixed block 11, and described first fixed block 1 is in rectangular parallelepiped, and its left surface is fixedly connected with the right surface of described methane-generating pit 1.

As shown in Figure 1, described whipping appts 2 comprises set collar 21, is positioned at the first agitator arm 22 outside described set collar 21, is positioned at the second agitator arm 23 on the left of described first agitator arm 22, is positioned at the 3rd agitator arm 24 above described second agitator arm 23, the 4th agitator arm 25 being positioned at described 3rd agitator arm 24 side, the 5th agitator arm 26 being positioned at described first agitator arm 22 side and the 6th agitator arm 27 be positioned at above described 5th agitator arm 26.Described set collar 21 is the cylinder of annulus in cross section.Described first agitator arm 22 is provided with two and lays respectively at the left and right sides, and the upper end of described first agitator arm 22 is skewed, and the lower end of described first agitator arm 22 is vertical shape, and the upper end of described first agitator arm 22 is fixedly connected with the side of described set collar 21.Described second agitator arm 23 is in skewed, and one end of described second agitator arm 23 is fixedly connected with the internal surface of described first agitator arm 22.Described 3rd agitator arm 24 is in vertical shape, and the lower surface of described 3rd agitator arm 24 is fixedly connected with the upper surface of described second agitator arm 23.Described 4th agitator arm 25 is provided with two and lays respectively at upper and lower both sides, and described 4th agitator arm 25 is in rectangular parallelepiped, and described 4th agitator arm 25 horizontal positioned, one end of described 4th agitator arm 25 is fixedly connected with the side of described 3rd agitator arm 24.Described 5th agitator arm 26 is in rectangular parallelepiped, and described 5th agitator arm 26 horizontal positioned, one end of described 5th agitator arm 26 is fixedly connected with the side of described first agitator arm 22.Described 6th agitator arm 27 is in rectangular parallelepiped, and described 6th agitator arm 27 is vertically placed, and the lower surface of described 6th agitator arm 27 is fixedly connected with the upper surface of described 5th agitator arm 26.

As shown in Figure 1, described holder device 3 comprises the first support 31, the second support 32 above described first support 31, the first pillar stiffener 33 on the right side of described first support 31, the second pillar stiffener 34 on the right side of described first pillar stiffener 33, the 3rd pillar stiffener 35 on the right side of described second pillar stiffener 34, the first cross bar 36, the second cross bar 37 below described first cross bar 36 and the dead ring 38 between described first cross bar 36 and described second cross bar 37 above described 3rd pillar stiffener 35.Described first support 31 is in L-type, one end of described first support 31 is fixedly connected with the upper surface of described methane-generating pit 1, the other end of described first support 31 is horizontal, described first support 31 is provided with the first horizon bar 311, described first horizon bar 311 is in right cylinder, and the left end of described first horizon bar 311 is fixedly connected with the right-hand member of described first support 31.Described second support 32 is in L-type, one end of described second support 32 is fixedly connected with the upper surface of described first support 31, the other end of described second support 32 is horizontal, described second support 32 is provided with the first montant 321, described first montant 321 is in right cylinder, and the upper end of described first montant 321 is fixedly connected with described second support 32.Described first pillar stiffener 33 is in rectangular parallelepiped, and the lower surface of described first pillar stiffener 33 is fixedly connected with the upper surface of described methane-generating pit 1, and be provided with ring groove in described first pillar stiffener 33, described ring groove is circular.Described second pillar stiffener 34 is in right cylinder, described second pillar stiffener 34 is vertically placed, the lower surface of described second pillar stiffener 34 is fixedly connected with the upper surface of described methane-generating pit 1, described second pillar stiffener 34 is provided with the second horizon bar 341, described second horizon bar 341 is in right cylinder, described second horizon bar 341 horizontal positioned, the right-hand member of described second horizon bar 341 is fixedly connected with the side of described second pillar stiffener 34.Described 3rd pillar stiffener 34 is in rectangular parallelepiped, and described 3rd pillar stiffener 34 is vertically placed, and the right surface of described first fixed block 11 is fixedly connected with the left surface of described 3rd pillar stiffener 34.Described first cross bar 36 is in rectangular parallelepiped, and described first cross bar 36 horizontal positioned, the upper surface of described 3rd pillar stiffener 35 is fixedly connected with the lower surface of described first cross bar 36.Described second cross bar 37 is in rectangular parallelepiped, and described second cross bar 37 horizontal positioned, the right surface of described second cross bar 37 is fixedly connected with the left surface of described 3rd pillar stiffener 35.Described dead ring 38 is the cylinder of annulus in cross section, and the upper surface of described dead ring 38 is fixedly connected with the lower surface of described first cross bar 36, and the lower surface of described dead ring 38 is fixedly connected with the upper surface of described second cross bar 37.

As shown in Figure 1, described wheelwork 4 comprise wind wheel 41, the first rotating shaft 42 be arranged on described wind wheel 41, be positioned at the second rotating shaft 43 below described first rotating shaft 42, be positioned at the first gear 44 of described second rotating shaft 43 lower end, be positioned at the second gear 45 below described first gear 44, the 3rd rotating shaft 46 be arranged on described second gear 45, the 4th rotating shaft 49 that is positioned at the 3rd gear 47 on the left of described 3rd rotating shaft 46, is positioned at the 4th gear 48 above described 3rd gear 47 and is arranged on described 4th gear 48.Described wind wheel 41 is provided with several, and one end of described wind wheel 41 is fixedly connected with the side of described first rotating shaft 42, and described first rotating shaft 42 is in right cylinder.Described second rotating shaft 43 is in right cylinder, described second rotating shaft 43 is vertically placed, the upper end of described second rotating shaft 43 is fixedly connected with the lower surface of described first rotating shaft 42, the lower end of described second rotating shaft 43 extends to the below of described second cross bar 37 through described first cross bar 36, second cross bar 37, the internal surface of described dead ring 38 is connected with the side slip of described second rotating shaft 43.The cross section of described first gear 44 is isosceles trapezoid, the lower surface of described second rotating shaft 43 is fixedly connected with the upper surface of described first gear 44, the lower surface of described first gear 44 is provided with the first groove, described first groove is cylindrical shape, and the upper end of described second pillar stiffener 34 to be contained in described first groove and to be slidably connected with described first gear 44.The cross section of described second gear 45 is isosceles trapezoid, and described second gear 45 cooperatively interacts when described first gear 44 is rotated with described first gear 44 and drives described second gear 45 to rotate.Described 3rd rotating shaft 46 is in right cylinder, described 3rd rotating shaft 46 horizontal positioned, described 3rd rotating shaft 46 is provided with bulge loop 461, described bulge loop 461 is in circular, the internal surface of described bulge loop 461 is fixedly connected with the outside surface of described 3rd rotating shaft 46, described 3rd rotating shaft 46 runs through the surface, left and right of described first pillar stiffener 33 and is slidably connected with it, described bulge loop 461 to be contained in described ring groove and can to rotate in described ring groove, described 3rd rotating shaft 46 runs through the surface, left and right of described second gear 45 and is fixedly connected with it, the right surface of described 3rd rotating shaft 46 is provided with the second groove, described second groove is cylindrical shape, the left end of described second horizon bar 341 to be contained in described second groove and to be slidably connected with it.The cross section of described 3rd gear 47 is isosceles trapezoid, the left surface of described 3rd rotating shaft 46 is fixedly connected with the right surface of described 3rd gear 47, the left surface of described 3rd gear 47 is provided with the 3rd groove, described 3rd groove is cylindrical shape, and the right-hand member of described first horizon bar 311 to be contained in described 3rd groove and to be slidably connected with it.The cross section of described 4th gear 48 is isosceles trapezoid, and described 4th gear 48 cooperatively interacts with described 3rd gear 47, makes described 3rd gear 47 drive described 4th gear 48 to rotate.Described 4th rotating shaft 49 is in right cylinder, the upper end of described 4th rotating shaft 49 is run through the upper and lower surface of described 4th gear 48 and is fixedly connected with it, the upper surface of described 4th rotating shaft 49 is provided with the 4th groove, described 4th groove is cylindrical shape, the lower end of described first montant 321 to be contained in described 4th groove and to be slidably connected with it, described first support 31 is run through in the lower end of described 4th rotating shaft 49, and the upper surface of methane-generating pit 1 extends to described methane-generating pit 1 inside, the internal surface of described set collar 21 is fixedly connected with the side of described 4th rotating shaft 49, thus make the 4th rotating shaft 49 drive described set collar 21 to rotate.

As shown in Figure 1, described locating device 5 comprises the first support bar 51, is positioned at the first roller 52 above described first support bar 51, is positioned at the anchor 53 above described methane-generating pit 1 and is positioned at the second roller 54 below described anchor 53.Described first support bar 51 is provided with two and lays respectively at the left and right sides of described 4th rotating shaft 49, and described first support bar 51 is vertically placed, and the lower surface of described first support bar 51 is fixedly connected with the upper surface of described first agitator arm 22.The upper surface that described first roller 52 is arranged at described first support bar 51 lean on the internal surface of described methane-generating pit 1.Described anchor 53 is in inverted concave character type, and described 4th rotating shaft 49 runs through the upper and lower surface of described anchor 53 and is fixedly connected with it.Described second roller 54 is provided with two and lays respectively at the left and right sides, and the lower surface that described second roller 54 is arranged at described anchor 53 leans on the upper surface of described methane-generating pit 1.

As shown in Figure 1, when described the present invention utilizes the methane-generating pit whipping appts of wind energy to use, first wind drives wind wheel 41 to rotate, the first rotating shaft 42 is driven to rotate, and then drive described second rotating shaft 43 to rotate, described first gear 44 is rotated, rotated by the second gear 45 and then drive the 3rd rotating shaft 46, then by the 3rd gear 47, 4th gear 48 drives described 4th rotating shaft 49 to rotate, and then drive described whipping appts 2 to rotate, thus methane-generating pit inside is stirred, make it possible to reaction more fully efficiently, described locating device 5 rotates along with the rotation of described 4th rotating shaft 49.So far, the present invention utilizes the methane-generating pit whipping appts use procedure of wind energy to describe.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, any those skilled in the art are in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of described claim.

Claims

1. utilize a methane-generating pit whipping appts for wind energy, it is characterized in that: the described methane-generating pit whipping appts of wind energy that utilizes comprises methane-generating pit, be positioned at the whipping appts of described methane-generating pit inside, be positioned at the locating device above described whipping appts, be positioned at the holder device above described methane-generating pit and wheelwork, the upper end on the right surface of described methane-generating pit is provided with the first fixed block, and described whipping appts comprises set collar, be positioned at the first agitator arm outside described set collar, be positioned at the second agitator arm on the left of described first agitator arm, be positioned at the 3rd agitator arm above described second agitator arm, be positioned at the 4th agitator arm of described 3rd agitator arm side, the 5th agitator arm being positioned at described first agitator arm side and the 6th agitator arm be positioned at above described 5th agitator arm, described holder device comprises the first support, be positioned at the second support above described first support, be positioned at the first pillar stiffener on the right side of described first support, be positioned at the second pillar stiffener on the right side of described first pillar stiffener, be positioned at the 3rd pillar stiffener on the right side of described second pillar stiffener, be positioned at the first cross bar above described 3rd pillar stiffener, the second cross bar below described first cross bar and the dead ring between described first cross bar and described second cross bar, described wheelwork comprises wind wheel, be arranged at the first rotating shaft on described wind wheel, be positioned at the second rotating shaft below described first rotating shaft, be positioned at the first gear of described second rotating shaft lower end, be positioned at the second gear below described first gear, be arranged at the 3rd rotating shaft on described second gear, be positioned at the 3rd gear on the left of described 3rd rotating shaft, the 4th rotating shaft being positioned at the 4th gear above described 3rd gear and being arranged on described 4th gear, described locating device comprises the first support bar, be positioned at the first roller above described first support bar, be positioned at the anchor above described methane-generating pit and be positioned at the second roller below described anchor, described first support bar is vertically placed, the lower surface of described first support bar is fixedly connected with the upper surface of described first agitator arm, described first roller is arranged on the upper surface of described first support bar, described anchor is inverted concave character type, described 4th rotating shaft runs through the upper and lower surface of described anchor and is fixedly connected with it, and the lower surface that described second roller is arranged at described anchor leans on the upper surface of described methane-generating pit.

2. the methane-generating pit whipping appts utilizing wind energy according to claim 1, it is characterized in that: the cylinder of described set collar to be cross section be annulus, the upper end of described first agitator arm is skewed, the lower end of described first agitator arm is vertical shape, and the upper end of described first agitator arm is fixedly connected with the side of described set collar.

3. the methane-generating pit whipping appts utilizing wind energy according to claim 2, it is characterized in that: described second agitator arm is skewed, one end of described second agitator arm is fixedly connected with the internal surface of described first agitator arm, described 3rd agitator arm is vertical shape, the lower surface of described 3rd agitator arm is fixedly connected with the upper surface of described second agitator arm, described 4th agitator arm is rectangular parallelepiped, described 4th agitator arm horizontal positioned, one end of described 4th agitator arm is fixedly connected with the side of described 3rd agitator arm.

4. the methane-generating pit whipping appts utilizing wind energy according to claim 3, it is characterized in that: described 5th agitator arm is rectangular parallelepiped, described 5th agitator arm horizontal positioned, one end of described 5th agitator arm is fixedly connected with the side of described first agitator arm, described 6th agitator arm is rectangular parallelepiped, described 6th agitator arm is vertically placed, and the lower surface of described 6th agitator arm is fixedly connected with the upper surface of described 5th agitator arm.

5. the methane-generating pit whipping appts utilizing wind energy according to claim 4, it is characterized in that: described first support is L-type, one end of described first support is fixedly connected with the upper surface of described methane-generating pit, the other end of described first support is horizontal, described first support is provided with the first horizon bar, described first horizon bar is right cylinder, and the left end of described first horizon bar is fixedly connected with the right-hand member of described first support.

6. the methane-generating pit whipping appts utilizing wind energy according to claim 5, it is characterized in that: described second support is L-type, one end of described second support is fixedly connected with the upper surface of described first support, the other end of described second support is horizontal, described second support is provided with the first montant, described first montant is right cylinder, and the upper end of described first montant is fixedly connected with described second support.

7. the methane-generating pit whipping appts utilizing wind energy according to claim 6, it is characterized in that: described first pillar stiffener is rectangular parallelepiped, the lower surface of described first pillar stiffener is fixedly connected with the upper surface of described methane-generating pit, ring groove is provided with in described first pillar stiffener, described second pillar stiffener is right cylinder, described second pillar stiffener is vertically placed, the lower surface of described second pillar stiffener is fixedly connected with the upper surface of described methane-generating pit, described second pillar stiffener is provided with the second horizon bar, described second horizon bar is right cylinder, described second horizon bar horizontal positioned, the right-hand member of described second horizon bar is fixedly connected with the side of described second pillar stiffener.

8. the methane-generating pit whipping appts utilizing wind energy according to claim 7, it is characterized in that: described 3rd pillar stiffener is rectangular parallelepiped, described 3rd pillar stiffener is vertically placed, the right surface of described first fixed block is fixedly connected with the left surface of described 3rd pillar stiffener, described first cross bar is rectangular parallelepiped, described first cross bar horizontal positioned, the upper surface of described 3rd pillar stiffener is fixedly connected with the lower surface of described first cross bar, described second cross bar is rectangular parallelepiped, described second cross bar horizontal positioned, the right surface of described second cross bar is fixedly connected with the left surface of described 3rd pillar stiffener, described dead ring is the cylinder that cross section is annulus, the upper surface of described dead ring is fixedly connected with the lower surface of described first cross bar, the lower surface of described dead ring is fixedly connected with the upper surface of described second cross bar.