阅读说明：本技术 一种潮汐能发电利用灌溉装置 (Tidal power generation and utilization irrigation device ) 是由 宋明胜 于 2021-08-04 设计创作，主要内容包括：本发明公开了一种潮汐能发电利用灌溉装置,包括水岸线池,所述水岸线池内部设置有发电水轮,所述水岸线池边侧设置有发电机,所述发电机的中心转轴与发电水轮的中心轴固定连接,所述水岸线池远离发电机的一侧设置有发条轮盘,所述发电水轮位于发条轮盘的一侧安装有翻动机构架,所述翻动机构架外边侧设置有翻动内尖机构,本发明涉及新能源技术领域。该潮汐能发电利用灌溉装置,解决了传统装置潮汐能利用低,限制大的问题,装置不仅可以用作灌溉装置,还可以用作翻动机构实现土壤改善,可以用于多个不同的水边,内部气流会在上位浮子内部完成循环防止热量堆积的同时还可以避免冷凝水损坏发电机。(The invention discloses an irrigation device utilizing tidal power generation, which comprises a bank line pool, wherein a power generation water wheel is arranged in the bank line pool, a power generator is arranged on the side of the bank line pool, a central rotating shaft of the power generator is fixedly connected with a central shaft of the power generation water wheel, a spring wheel disc is arranged on one side of the bank line pool, which is far away from the power generator, a turnover machine frame is arranged on one side of the power generation water wheel, the turnover machine frame is provided with a turnover inner tip mechanism on the outer side, and the invention relates to the technical field of new energy. This tidal power generation utilizes irrigation equipment has solved traditional device tidal power and has utilized lowly, and the restriction is big problem, and the device not only can be as irrigation equipment, can also realize soil improvement as the mechanism that turns, can be used for the water limit of a plurality of differences, and inside air current can be in upper float inside completion circulation prevent that the heat is piled up can also avoid the comdenstion water to damage the generator.)

1. A tidal power generation irrigation device comprises a water bank line pool (1), and is characterized in that: the water bank line pond is characterized in that a power generation water wheel (2) is arranged in the water bank line pond (1), a power generator (4) is arranged on the side of the water bank line pond (1), a central rotating shaft of the power generator (4) is fixedly connected with a central shaft of the power generation water wheel (2), a clockwork wheel disc is arranged on one side, away from the power generator (4), of the water bank line pond (1), a turnover machine framework (5) is arranged on one side, located on the clockwork wheel disc, of the power generation water wheel (2), a turnover inner tip mechanism (9) is arranged on the outer side of the turnover machine framework (5), an arc potential energy ramp (3) is arranged in the water bank line pond (1), an inner float generator (6) is arranged on the rear side of the water bank line pond (1), tension steel cables (7) are arranged on two sides of the inner float generator (6), and the bottom ends of the tension steel cables (7) are fixedly connected with the inner wall of the bottom side of the water bank line pond (1), interior float generator (6) and pulling force cable wire (7) evenly set up inside bank line pond (1), bank line pond (1) rear side is provided with irrigates ditch (8), bank line pond (1) rear side wall top is provided with link up the water course, link up the water course and extend to irrigate ditch (8) top.

2. The tidal power generation irrigation device of claim 1, wherein: interior float generator (6) are including last float (61) and the perpendicular generator of the lower (62), the perpendicular generator of lower (62) is installed in upper float (61) below, tensile piston rod (63) are installed to the perpendicular generator of lower (62) bottom, the inside bottom side of upper float (61) is provided with interior tension refrigerating plant (64), interior tension refrigerating plant (64) bottom is connected with tensile piston rod (63) through cable (65), heat radiation fin (610) in the inside being provided with of the perpendicular generator of lower (62).

3. The tidal power generation irrigation device of claim 1, wherein: the inside avris of upper float (61) is provided with deformation arc district (67), deformation arc district (67) internally mounted has interior removal arc piece (66), deformation arc district (67) and interior removal arc piece (66) between be provided with reset spring, it is provided with electrical connection terminal (68) to remove the inboard top of arc piece (66), the inboard position that corresponds electrical connection terminal (68) of deformation arc district (67) is provided with touching delay switch, and the inside intermediate position of upper float (61) is provided with inner loop fan (69).

4. The tidal power generation irrigation rig of claim 3, wherein: the internal tension refrigerating device (64) comprises a device cylinder (641), a semiconductor refrigerator (644) is arranged at the top of the device cylinder (641), a central piston cavity is arranged inside the device cylinder (641), an internal piston rod (643) is installed inside the central piston cavity, an internal magnet is arranged inside the internal piston rod (643), an internal adsorption return magnet (642) is arranged at the position on the side of the inner side of the device cylinder (641), a rope buckle (645) is installed at the bottom of the internal piston rod (643), and the top of a stay cable (65) is installed below the rope buckle (645).

5. The tidal power generation irrigation device of claim 4, wherein: an inner pressure contact is arranged below the inner side of the central piston cavity, a pressure spring roller (646) is arranged at the bottom of the inner side of the device cylinder (641), and the inhaul cable (65) penetrates through the pressure spring roller (646) and extends to the outer side of the device cylinder (641).

6. The tidal power generation irrigation device of claim 1, wherein: the turning inner tip mechanisms (9) are uniformly distributed on two sides of the turning machine framework (5), each turning inner tip mechanism (9) comprises an inner tip pipe cavity (91), an inner sliding block (93) is installed inside each inner tip pipe cavity (91) through an inner spring (92), and a turning outer tip (94) is arranged on the outer side of each inner sliding block (93).

Technical Field

The invention relates to the technical field of new energy, in particular to a tidal power generation and utilization irrigation device.

Background

The demand of energy sources in the modern society is getting larger, and wind energy, solar energy and tidal energy are being developed and utilized more and more widely as clean energy sources. The technological development and the consumption of fossil energy are more and more serious and are facing the exhaustion, the utilization of new energy is always a very important subject, the utilization rate of tidal energy is very low, the traditional equipment is not movable, the convenience is low, and a new utilization device is urgently needed at present, so that the energy of the tide can be utilized for many times, and the aim of irrigation in a fresh water area can be realized.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an irrigation device for tidal power generation, which solves the problems of low utilization of tidal power and large limitation of the traditional device.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a tidal power generation utilizes irrigation equipment, includes the bank line pond, bank line pond inside is provided with the electricity generation water wheels, bank line pond avris is provided with the generator, the center pivot of generator and the center pin fixed connection of electricity generation water wheels, one side of bank line pond far away from the generator is provided with the clockwork spring rim plate, the electricity generation water wheels is located one side of clockwork spring rim plate and installs the turnover frame, the outer avris of turnover frame is provided with turns over the interior sharp mechanism, and rivers can be gone up the bank line pond through pitch arc potential energy ramp, and the rivers that fall back on the top can promote the electricity generation water wheels to rotate, accomplishes the electricity generation, and the turnover frame that sets up at the opposite side of generator can follow the electricity generation water wheels and rotate, bank line pond inside is provided with pitch arc potential energy ramp, bank line pond rear side is provided with interior float generator, interior float generator both sides are provided with the pulling force cable wire, pulling force cable wire bottom and bank line pond bottom side inner wall fixed connection, interior float generator and pulling force cable wire evenly set up inside the bank line pond, bank line pond rear side is provided with the irrigation canal, bank line pond back side wall top is provided with link up the water course, link up the water course and extend to irrigation canal top, the device is used for fresh water river or lake avris when as the device for irrigation, and various positions can be placed to this device when not doing irrigation equipment, and ploughs or be used for must be higher than the bank line pond by the soil of upset, and the device not only can be used as irrigation equipment, can also be used as the mechanism that turns over and realize soil improvement, can be used for the waterside of a plurality of different topography.

Preferably, the inner float generator comprises an upper float and a lower vertical generator, the lower vertical generator is installed below the upper float, a stretching piston rod is installed at the bottom of the lower vertical generator, an inner stretching force refrigerating device is arranged on the bottom side inside the upper float, the bottom of the inner stretching force refrigerating device is connected with the stretching piston rod through a guy cable, and inner heat dissipation fins are arranged inside the lower vertical generator.

Preferably, the inside avris of last float is provided with deformation arc district, deformation arc district internally mounted removes the arc piece in having, deformation arc district and removing are provided with reset spring between the arc piece, it is provided with the electrical connection terminal to remove the inboard top of arc piece, the inboard position that corresponds the electrical connection terminal in deformation arc district is provided with touching delay switch, and the inside intermediate position of last float is provided with the inner loop fan, and the fan blows the air conditioning around the semiconductor refrigerator of inside downwards to inside air current can be in the inside completion circulation of last float and can also avoid the comdenstion water to damage the generator when preventing heat accumulational.

Preferably, interior tension refrigerating plant includes the device cylinder, device cylinder top is provided with the semiconductor refrigerator, the inside central piston chamber that is provided with of device cylinder, the inside inner piston pole that installs of central piston chamber, the inside inner magnet that is provided with of inner piston pole, the inside avris of device cylinder is provided with interior absorption return magnet by last position, rope buckle is installed to inner piston pole bottom, the rope top is installed in rope buckle below.

Preferably, an internal pressure contact is arranged below the inner side of the central piston cavity, a pressure spring roller is arranged at the bottom of the inner side of the device cylinder, and the inhaul cable penetrates through the pressure spring roller and extends to the outer side of the device cylinder.

Preferably, the turning inner tip mechanisms are uniformly distributed on two sides of the turning mechanism frame, each turning inner tip mechanism comprises an inner tip pipe cavity, an inner sliding block is mounted in each inner tip pipe cavity through an inner spring, a turning outer tip is arranged on the outer side of each inner sliding block, and the turning outer tip in each turning inner tip mechanism on the outer side of the turning mechanism frame can be thrown out by centrifugal force and used for turning sand.

(III) advantageous effects

The invention provides an irrigation device for tidal power generation and utilization. The method has the following beneficial effects:

the tidal power generation irrigation device is used on the side of a fresh water river or lake when being used as an irrigation device, can be placed in various positions when not being used as an irrigation device, ploughs or soil used for being turned over must be higher than a water bank line pool, can be used as an irrigation device, can be used as a turning mechanism to improve soil, and can be used on a plurality of different water sides.

(II), this tidal power generation utilizes irrigation equipment, the pitch arc potential energy ramp of the bank line pond of device is the one side setting that faces the surface of water, when the morning and evening tides comes, rivers can be gone up the bank line pond through pitch arc potential energy ramp to the top rivers that fall back can promote the electricity generation waterwheel and rotate, accomplish the electricity generation, and the upset frame that sets up at the opposite side of generator can follow the electricity generation waterwheel and rotate, the sharp mechanism in overturning in the frame outside this moment can be thrown away by centrifugal force, be used for overturning sand ground.

(III), this tidal power generation utilizes irrigation equipment, and the clockwork spring rim plate that the avris of device set up, when who does not have water impact, the clockwork spring rim plate can drive the return rotation of electricity generation water wheels, and the device can generate electricity once more this moment to it can work in the opposite direction and carry out the secondary and turn over to turn over the movable framework.

And (IV) the tidal power generation and utilization irrigation device has the advantages that the inner float generator arranged in the rear side pool of the device can move up and down due to different water levels, and the lower vertical generator arranged below the inner float generator can move up and down along with the upper float to realize power generation.

And (V) the tidal power generation and utilization irrigation device has the advantages that the fan blows cold air around the internal semiconductor refrigerator downwards, and internal airflow can circulate inside the upper floater to prevent heat accumulation and prevent condensed water from damaging the generator.

Drawings

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a schematic view of the front side of the apparatus of the present invention;

FIG. 3 is a schematic side view of the internal structure of the apparatus of the present invention;

FIG. 4 is a schematic structural diagram of an internal float generator according to the present invention;

FIG. 5 is a schematic structural view of the internal tension refrigerator of the present invention;

FIG. 6 is a schematic structural view of the inner tip flipping mechanism of the present invention;

in the figure: 1 water bank line pool, 2 generating water wheels, 3 arc potential energy ramps, 4 generators, 5 turning machine frameworks, 6 inner float generators, 61 upper floats, 62 lower vertical generators, 63 extension piston rods, 64 inner tension refrigerating devices, 641 device columns, 642 inner adsorption return magnets, 643 inner piston rods, 644 semiconductor refrigerators, 645 rope buckles, 646 pressure spring rollers, 65 guys, 66 inner movement arc blocks, 67 deformation arc areas, 68 electric connection terminals, 69 inner circulating fans, 610 inner heat dissipation fins, 7 pull steel ropes, 8 irrigation channels, 9 turning inner tip mechanisms, 91 inner tip tube cavities, 92 inner springs, 93 inner sliding sliders and 94 turning outer tips.

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.

The first embodiment is as follows:

referring to fig. 1-3, the present invention provides a technical solution: an irrigation device utilizing tidal power generation comprises a water bank line pool 1, a power generation water wheel 2 is arranged in the water bank line pool 1, a power generator 4 is arranged on the side of the water bank line pool 1, a central rotating shaft of the power generator 4 is fixedly connected with a central shaft of the power generation water wheel 2, a clockwork wheel disc is arranged on one side of the water bank line pool 1, which is far away from the power generator 4, a turnover mechanism frame 5 is arranged on one side of the power generation water wheel 2, a turnover inner tip mechanism 9 is arranged on the outer side of the turnover mechanism frame 5, water flow can be flushed onto the water bank line pool 1 through an arc potential ramp 3, the power generation water wheel 2 is pushed to rotate by the water flow falling back from the upper side, power generation is completed, the turnover mechanism frame 5 arranged on the other side of the power generator can rotate along with the power generation water wheel 2, an arc potential ramp 3 is arranged in the water bank line pool 1, an inner float power generator 6 is arranged on the rear side of the water bank line pool 1, steel cables 7 are arranged on two sides of the inner float power generator 6, 7 bottom ends of tension steel cable and 1 bottom side inner wall fixed connection in the bank line pond, interior float generator 6 and 7 even settings of tension steel cable are inside in the bank line pond 1, 1 rear side in bank line pond is provided with irrigation canal 8, 1 back side wall top in bank line pond is provided with the water course that link up, it extends to irrigation canal 8 top to link up the water course, the device is used for fresh water river or lake avris when being as the device for irrigation, various positions can be placed to this device when not doing irrigation equipment, ploughing or be used for by the soil of upset must be higher than bank line pond 1, the device not only can be used as irrigation equipment, can also be used as the mechanism that turns over and realize soil improvement, can be used for the waterside of a plurality of different topography.

The second embodiment:

referring to fig. 1-6, on the basis of the first embodiment, the present invention provides a technical solution: the inner float generator 6 comprises an upper float 61 and a lower vertical generator 62, the lower vertical generator 62 is installed below the upper float 61, a stretching piston rod 63 is installed at the bottom of the lower vertical generator 62, an inner stretching refrigerating device 64 is arranged on the bottom side of the inside of the upper float 61, the bottom of the inner stretching refrigerating device 64 is connected with the stretching piston rod 63 through a inhaul cable 65, and inner heat dissipation fins 610 are arranged inside the lower vertical generator 62.

The inside avris of upper float 61 is provided with deformation arc district 67, deformation arc district 67 internally mounted has interior removal arc piece 66, deformation arc district 67 with remove and be provided with reset spring between the arc piece 66 in with, it is provided with electrical connection terminal 68 to remove the inboard top of arc piece 66, the inboard position that corresponds electrical connection terminal 68 in deformation arc district 67 is provided with touching delay switch, the inside intermediate position of upper float 61 is provided with inner loop fan 69, the fan blows down the air conditioning around the semiconductor refrigerator 644 of inside, and inside air current can be inside the completion circulation of upper float 61 and can also avoid the comdenstion water to damage the generator when preventing heat accumulational.

The internal tension refrigerating device 64 comprises a device cylinder 641, a semiconductor refrigerator 644 is arranged at the top of the device cylinder 641, a central piston cavity is arranged inside the device cylinder 641, an internal piston rod 643 is arranged inside the central piston cavity, an internal magnet is arranged inside the internal piston rod 643, an internal absorption return magnet 642 is arranged at the position close to the upper side of the inner side of the device cylinder 641, a rope buckle 645 is arranged at the bottom of the internal piston rod 643, and the top of the stay 65 is arranged below the rope buckle 645.

An inner pressure contact is arranged at the lower part of the inner side of the central piston cavity, a pressure spring roller 646 is arranged at the bottom of the inner side of the device cylinder 641, and the inhaul cable 65 passes through the pressure spring roller 646 and extends to the outer side of the device cylinder 641.

The turning inner tip mechanisms 9 are uniformly distributed on two sides of the turning mechanism frame 5, each turning inner tip mechanism 9 comprises an inner tip pipe cavity 91, an inner sliding block 93 is installed inside each inner tip pipe cavity 91 through an inner spring 92, a turning outer tip 94 is arranged on the outer side of each inner sliding block 93, and the turning outer tip 94 inside the turning inner tip mechanism 9 on the outer side of the turning mechanism frame 5 can be thrown out by centrifugal force to be used for turning over sandy land.

When the device is used as an irrigation device, the device is used on the side of a fresh water river or lake, when the device is not used as an irrigation device, the device can be placed at various positions, and cultivated land or soil used for overturning is higher than a water bank line pond 1;

the arc potential energy ramp 3 of the water bank line pool 1 of the device is arranged at one side facing the water surface, when tides come, water flow can rush to the water bank line pool 1 through the arc potential energy ramp 3, and the water flow falling back from the upper side can push the power generation water wheel 2 to rotate so as to finish power generation, the turnover machine frame 5 arranged at the other side of the power generator can rotate along with the power generation water wheel 2, and at the moment, the turnover inner tip mechanism 9 at the outer side of the turnover machine frame 5 can be thrown out by centrifugal force and is used for turning over sandy land;

the clockwork wheel disc is arranged at the side of the device, when no water flow impacts, the clockwork wheel disc can drive the water turbine 2 to return and rotate, at the moment, the device can generate power again, and the turnover machine frame 5 can work in the opposite direction to carry out secondary turnover;

the inner float generator 6 arranged in the rear side pool of the device can enable the inner float generator 6 to move up and down due to different water levels, the lower vertical generator 62 arranged below the inner float generator 6 can move up and down along with the upper float 61 to achieve power generation, when the device moves upwards, the stay cable 65 can pull the inner piston rod 643 to move downwards, when the inner piston rod 643 moves downwards to press the inner pressure contact, the semiconductor refrigerator 644 on the upper side works to cool the inside, when the device is impacted by waves, the inner moving arc-shaped block 66 is pressed in and then triggers the touch delay switch, at the moment, the inner circulation fan 69 is started, the fan blows cold air around the semiconductor refrigerator 644 inside downwards, and the internal air flow can circulate inside the upper float 61 to prevent heat accumulation and simultaneously avoid the generator from being damaged by condensed water.

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. The term "comprising", without further limitation, means that the element so defined is not excluded from the group consisting of additional identical elements in the process, method, article, or apparatus that comprises the element.

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.