CN112796928A

CN112796928A - Geothermal tidal energy utilization device

Info

Publication number: CN112796928A
Application number: CN202011634650.3A
Authority: CN
Inventors: 蔡伟
Original assignee: Nanjing Yifeixian E Commerce Co ltd
Current assignee: Zhang Xinjiang
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-05-14

Abstract

The invention discloses a geothermal tidal energy utilization device which comprises a float ring, a connecting frame and a rotating motor, wherein the top of the float ring is fixedly connected with the rotating motor through the connecting frame, a blind flow fan impeller is arranged on a rotating shaft below the rotating motor, a conical bottom wheel is arranged at the bottom of the blind flow fan impeller, an energy conversion device is arranged in the conical bottom wheel, a geothermal energy utilization device is arranged below the energy conversion device, and a geothermal support foot frame is fixedly connected to the outer side of the geothermal energy utilization device. This geothermol power tidal energy utilization equipment has solved current geothermal energy and tidal energy utilization mode singleness, and a lot of positions all lead to unable cooperation because the device structure is incompatible and utilize, have wasted the problem of the nature energy, during cooperation hydraulic pressure transducer movable rod pressed into the transducer, convert geothermal energy into the electric energy that can utilize for bottom geothermal energy transducer can reset by oneself.

Description

Geothermal tidal energy utilization device

Technical Field

The invention relates to the technical field of new energy, in particular to a geothermal tidal energy utilization device.

Background

In many related arts utilizing geothermal energy, it is seen that heat exchange pipes or tubes using air or water as a heat transfer medium extend into a building from a foundation, pipes buried underground, or the like, so that the heat transfer medium warmed or cooled underground is circulated in the building for air conditioning or power extraction by means of equipment driven by heat exchange. Another case is to use geothermal energy by storing foods in a cellar up to an underground constant temperature layer (i.e., an underground portion at a certain depth which is constant throughout the year), storing articles in a cave, burying articles in the ground, etc., using the low temperature of the underground constant temperature layer. Underground at a constant depth from the ground, the temperature of which varies mainly due to the thermal radiation of the sun, a conventional tidal power plant, in which a barrage is built at the mouth of an estuary. The barrage acts as a dam to separate the water in the estuary from the water in the ocean. The barrage uses the rise and fall of the tide to establish the water head between the ocean and the estuary. Water enters the barrage through the turbine/generator set so as to generate electricity, but the existing geothermal energy and tidal energy are single in utilization mode, and the energy in the nature is wasted because the devices cannot be matched and utilized due to incompatible structures.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a geothermal tidal energy utilization device, which solves the problems that the existing geothermal energy and tidal energy utilization mode is single, and natural energy is wasted because many positions cannot be used in a matched manner due to incompatible device structures.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a geothermal tidal energy utilization device comprises a float ring, a connecting frame and a rotary motor, wherein the top of the float ring is fixedly connected with the rotary motor through the connecting frame, a rotating shaft below the rotating motor is provided with an undercurrent fan impeller, the bottom of the undercurrent fan impeller is provided with a conical bottom wheel, the energy conversion device is arranged in the conical bottom wheel, the geothermal energy utilization device is arranged below the energy conversion device, the outer side of the geothermal energy utilization device is fixedly connected with a geothermal supporting foot rest, one side of the conical bottom wheel is provided with a fluctuation gap, the water inlet is arranged above one side of the fluctuation gap of the conical bottom wheel, the arc-shaped water outlet is arranged below one side, far away from the water inlet, of the fluctuation gap of the conical bottom wheel, and the undercurrent fan impeller and the conical bottom wheel above the device form an undercurrent utilization device, so that tidal energy and ocean undercurrent are fully utilized.

Preferably, the middle part of the conical bottom wheel is provided with a spiral inner pipe, the water inlet hole is communicated with the spiral inner pipe through a water inlet inner groove, and the spiral inner pipe is communicated with the arc-shaped water outlet through a water discharge pipe.

Preferably, the geothermal energy utilization device comprises a pipe body, a piston inner pipe is arranged inside the pipe body, an inner piston is arranged above the inside of the piston inner pipe, a movable rod of the hydraulic transducer is arranged at the top of the inner support sliding frame, a sealing terminal seat is arranged at the position, close to the lower side, of the inner side of the pipe body, and a sealing terminal is arranged at the bottom of the inner piston through a connecting rod.

Preferably, the cold water inlet pipe is arranged in the middle of the pipe body and is communicated with the piston inner pipe, after water in the inner cavity of the frame body and the inner part of the piston inner pipe is boiled, the inner piston in the inner part of the piston inner pipe can be pushed to move upwards, and the movable rod of the hydraulic energy converter is pressed into the energy conversion device at the moment to convert geothermal energy into electric energy which can be utilized.

Preferably, the piston inner tube bottom is provided with arc expansion mouth, the inboard one side that corresponds arc expansion mouth of body is provided with the avris and strengthens the frame, sealed terminal seat bottom is provided with terminal magnet.

Preferably, the sealing terminal seat comprises an upper magnet seat and a bottom support frame, the upper magnet seat is arranged above the bottom support frame, an inward-folding buffer frame is arranged in the bottom support frame, a buffer spring is arranged between the middle part of the bottom support frame and the inward-folding buffer frame, one side of the upper magnet seat corresponding to the terminal magnet is set to be a magnetic pole with opposite polarity, after the inner piston continuously rises to the upper part, cold water is injected into the inner part of the piston inner tube from a cold water inlet tube, at the moment, boiling water in the inner part can be rapidly cooled, the sealing terminal is subjected to the force of gravity and the magnetic force adsorption below, so that the inner piston and the sealing terminal can re-enter the lower part of the piston inner tube, the aim of resetting the geothermal energy conversion device at the bottom is achieved, the sealing terminal seat at the bottom can play the roles of adsorption and support, and the inner piston cannot displace when the pressure, ensuring that the accumulated pressure can push the inner piston to a higher position.

Preferably, geothermal support foot rest includes the support body, the inside position that leans on down of support body is provided with the heat conduction interstratum, support body bottom internally mounted has the reinforcement frame, support body inner chamber and geothermal energy utilize the device intercommunication, and the geothermal support foot rest of device below is fixed in the seabed that has geothermal energy, perhaps directly buries the below ground, closely with the contact of geothermal energy, geothermal energy lasts through the heat conduction interstratum and heats the inside water of support body inner chamber and piston inner tube to can guarantee the support performance of whole device.

(III) advantageous effects

The invention provides a geothermal tidal energy utilization device. The method has the following beneficial effects:

the device for utilizing geothermal tidal energy comprises an undercurrent utilization device consisting of an undercurrent fan impeller and a conical bottom wheel, wherein the undercurrent utilization device is arranged above the device, tidal energy and ocean undercurrent are fully utilized, and water flow of the undercurrent of the device is discharged through an inner spiral circulation completion after being injected through a water inlet hole of a fluctuation gap of the conical bottom wheel, so that a larger torque is provided for the undercurrent fan impeller and the conical bottom wheel, and power generation is performed through a rotating motor arranged above the undercurrent utilization device.

The geothermal tidal energy utilization device is characterized in that a geothermal support foot rest below the device is fixed on the seabed with geothermal energy or is directly buried under the ground, the geothermal energy is in close contact with the geothermal energy, the geothermal energy continuously heats water in an inner cavity of a frame body and the inner tube of a piston through a heat conduction inner interlayer, and the support performance of the whole device can be ensured.

And thirdly, after the water in the inner cavity of the frame body and the inner part of the piston inner tube is boiled, the inner piston in the inner part of the piston inner tube can be pushed to move upwards, and the movable rod of the hydraulic energy converter is pressed into the energy conversion device to convert geothermal energy into electric energy which can be utilized.

(IV), this geothermol power tidal energy utilizes device, interior piston continuously rise to the top after, cold water enters the pipe from cold water and pours into piston inner tube into inside, and the boiling water of inside this moment can rapid cooling, and the sealing terminal receives gravity and the absorptive power of below magnetic force for interior piston and sealing terminal get into piston inner tube below again, have reached the purpose that makes bottom geothermol power transducer reset.

(V), this geothermol power tidal energy utilizes device, the sealed terminal seat of bottom can play the purpose of absorption and support, and the displacement can not take place for interior piston when the pressure of inside is not greater than below magnetic attraction, guarantees to pile up pressure and can promote interior piston to the position more above.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the integrated apparatus of the present invention;

FIG. 3 is a schematic view of the interior of the cone bottom wheel of the present invention;

FIG. 4 is a schematic structural view of the geothermal energy utilization mechanism of the present invention;

FIG. 5 is an enlarged schematic view of structure A of FIG. 4 in accordance with the present invention;

in the figure: the device comprises a float ring 1, a connecting frame 2, a rotary motor 3, a concealed flow fan impeller 4, a conical bottom wheel 5, a geothermal energy utilization device 6, a pipe body 61, an inner piston 62, a hydraulic transducer movable rod 63, a piston inner pipe 64, a cold water inlet pipe 65, a sealing terminal 66, a sealing terminal seat 67, a magnet seat 671, a bottom supporting frame 672, a buffering frame 673 folded inwards, a buffer spring 674, a reinforcing frame 68 at the side, a terminal magnet 69, a geothermal supporting foot rest 7, a frame body 71, a heat conduction inner layer 72, a reinforcing frame 73, a water inlet hole 8, an arc water outlet 9, a water inlet inner groove 10, a spiral inner pipe 11 and a water outlet pipe 12.

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. 1-5, the present invention provides a technical solution: a geothermal tidal energy utilization device comprises a float ring 1, a connecting frame 2 and a rotating motor 3, wherein the top of the float ring 1 is fixedly connected with the rotating motor 3 through the connecting frame 2, a blind flow fan impeller 4 is installed on a rotating shaft below the rotating motor 3, a conical bottom wheel 5 is installed at the bottom of the blind flow fan impeller 4, an energy conversion device is installed inside the conical bottom wheel 5, a geothermal energy utilization device 6 is installed below the energy conversion device, a geothermal energy supporting foot rest 7 is fixedly connected to the outer side of the geothermal energy utilization device 6, a fluctuation gap is arranged on one side of the conical bottom wheel 5, a water inlet 8 is arranged above one side of the fluctuation gap of the conical bottom wheel 5, an arc-shaped water outlet 9 is arranged below one side of the fluctuation gap of the conical bottom wheel 5, which is far away from the water inlet 8, and the, the cone-shaped bottom wheel 5 forms an undercurrent utilization device, and the tidal energy and the ocean undercurrent are fully utilized.

The middle part of the conical bottom wheel 5 is provided with a spiral inner pipe 11, the water inlet hole 8 is communicated with the spiral inner pipe 11 through a water inlet inner groove 10, and the spiral inner pipe 11 is communicated with the arc-shaped water outlet 9 through a water outlet pipe 12.

The geothermal energy utilization device 6 comprises a tube body 61, a piston inner tube 64 is arranged in the tube body 61, an inner piston 62 is arranged above the inner part of the piston inner tube 64, a hydraulic transducer movable rod 63 is arranged at the top of the inner support sliding frame 62, a sealing terminal seat 67 is arranged at the lower position of the inner side of the tube body 61, and a sealing terminal 66 is arranged at the bottom of the inner piston 62 through a connecting rod.

The cold water inlet pipe 65 is formed in the middle of the pipe body 61, the cold water inlet pipe 65 is communicated with the piston inner pipe 64, and after water in the inner cavity of the frame body 71 and the inner part of the piston inner pipe 64 is boiled, the inner piston 62 in the piston inner pipe 64 is pushed to move upwards, and at the moment, the hydraulic energy converter movable rod 63 is matched to be pressed into the energy conversion device, so that geothermal energy is converted into electric energy which can be utilized.

An arc-shaped expansion opening is formed in the bottom of the piston inner tube 64, a side reinforcing frame 68 is arranged on one side, corresponding to the arc-shaped expansion opening, of the inner side of the tube body 61, and a terminal magnet 69 is arranged at the bottom of the sealing terminal seat 67.

The sealing terminal seat 67 comprises an upper magnet seat 671 and a bottom supporting frame 672, the upper magnet seat 671 is installed above the bottom supporting frame 672, an inward-folding buffer frame 673 is installed inside the bottom supporting frame 672, a buffer spring 674 is arranged between the middle part of the bottom supporting frame 672 and the inward-folding buffer frame 673, one side of the upper magnet seat 671 corresponding to the terminal magnet 69 is set to be a magnetic pole with opposite polarity, after the inner piston 62 continuously rises to the upper side, cold water is injected into the inner piston tube 64 from the cold water inlet tube 65, at the moment, boiling water inside can be rapidly cooled, the sealing terminal 66 is subjected to gravity and the force of magnetic force absorption below, so that the inner piston 62 and the sealing terminal 66 enter the lower side of the inner piston tube 64 again, the purpose of resetting the geothermal energy conversion device at the bottom is achieved, the sealing terminal seat 67 at the bottom can play the roles of absorption and support, the inner piston 62 cannot displace when the pressure inside is not, ensuring that the accumulated pressure can push the inner piston 62 to a higher position.

The geothermal support foot rest 7 comprises a frame body 71, a heat-conducting inner layer 72 is arranged at the position, close to the lower part, inside the frame body 71, a reinforcing frame 73 is arranged at the bottom end of the frame body 71, the inner cavity of the frame body 71 is communicated with the geothermal energy utilization device 6, the geothermal support foot rest 7 below the device is fixed on the seabed with geothermal energy or is directly buried under the ground, the geothermal energy is in contact with the geothermal energy in a short distance, the geothermal energy continuously heats the water inside the inner cavity of the frame body 71 and the piston inner tube 64 through the heat-conducting inner layer 72, and the support performance of the.

When the device is used, the undercurrent fan impeller 4 and the conical bottom wheel 5 above the device form an undercurrent utilization device, tidal energy and ocean undercurrent are fully utilized, and water flow of the undercurrent of the device is injected through the water inlet hole 8 of the fluctuation gap of the conical bottom wheel 5 and then is circularly discharged through an inner screw, so that a larger torque is provided for the undercurrent fan impeller 4 and the conical bottom wheel 5, and power is generated through the rotating motor 3 above the device;

the geothermal support foot rest 7 below the device is fixed on the seabed with geothermal energy, or is directly buried under the ground and is contacted with the geothermal energy at a short distance, the geothermal energy continuously heats the water in the inner cavity of the frame body 71 and the inner part of the piston inner tube 64 through the heat conduction inner interlayer 72, and the support performance of the whole device can be ensured;

after the water in the inner cavity of the frame body 71 and the inner piston tube 64 is boiled, the inner piston 62 in the inner piston tube 64 is pushed to move upwards, and the water is pressed into the energy conversion device by matching with the movable rod 63 of the hydraulic energy converter, so that the geothermal energy is converted into usable electric energy;

interior piston 62 continuously rises to the top after, cold water advances pipe 65 from cold water and pours into inside the piston inner tube 64 into, the boiling water of inside this moment can rapid cooling, sealing terminal 66 receives gravity and the absorptive power of below magnetic force, make interior piston 62 and sealing terminal 66 reentrant piston inner tube 64 below, and the sealing terminal seat 67 of bottom can play the purpose of absorption and support, interior piston 62 can not take place the displacement when pressure in inside is not greater than below magnetic attraction, guarantee to store up pressure and can promote interior piston 62 to the position of more top.

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.

Claims

1. A geothermal tidal energy utilization device comprises a float ring (1), a connecting frame (2) and a rotary motor (3), and is characterized in that: the energy-saving type underground heat pump is characterized in that the top of the float ring (1) is fixedly connected with a rotating motor (3) through a connecting frame (2), an underground flow fan impeller (4) is installed on a rotating shaft below the rotating motor (3), a conical bottom wheel (5) is installed at the bottom of the underground flow fan impeller (4), an energy conversion device is installed inside the conical bottom wheel (5), a geothermal energy utilization device (6) is installed below the energy conversion device, a geothermal energy utilization device (6) is fixedly connected with a geothermal heat supporting foot rest (7) on the outer side of the geothermal energy utilization device (6), a fluctuation notch is arranged on one side of the conical bottom wheel (5), a water inlet (8) is formed in the upper portion of one side of the fluctuation notch of the conical bottom wheel (5), and an arc-shaped water outlet (9) is formed in the lower portion, far.

2. A geothermal tidal energy utilization device according to claim 1, wherein: the middle part of toper return pulley (5) is installed spiral inner tube (11), inlet opening (8) are through intaking inside groove (10) and spiral inner tube (11) intercommunication, spiral inner tube (11) are through drain pipe (12) and arc delivery port (9) intercommunication.

3. A geothermal tidal energy utilization device according to claim 1, wherein: geothermal energy utilizes device (6) includes body (61), inside piston inner tube (64) that is provided with of body (61), piston (62) are installed to piston inner tube (64) inside top, interior support carriage (62) top is installed hydraulic pressure transducer movable rod (63), the position that leans on down in body (61) inboard is provided with sealing terminal seat (67), sealing terminal (66) are installed through the connecting rod to interior piston (62) bottom.

4. A geothermal tidal energy utilization device according to claim 3, wherein: the middle part of the pipe body (61) is provided with a cold water inlet pipe (65), and the cold water inlet pipe (65) is communicated with the piston inner pipe (64).

5. A geothermal tidal energy utilization device according to claim 4, wherein: the piston inner tube (64) bottom is provided with the arc mouth that expands, one side that body (61) inboard corresponds the arc mouth that expands is provided with avris reinforcing frame (68), sealed terminal seat (67) bottom is provided with terminal magnet (69).

6. A geothermal tidal energy utilization device according to claim 5, wherein: sealed terminal seat (67) include magnet seat (671) and bottom sprag frame (672), it installs in bottom sprag frame (672) top to go up magnet seat (671), bottom sprag frame (672) internally mounted has inflection buffer frame (673), be provided with between bottom sprag frame (672) middle part and inflection buffer frame (673) buffer spring (674), it sets up to the opposite pole to go up one side that magnet seat (671) and terminal magnet (69) correspond.

7. A geothermal tidal energy utilization device according to claim 1, wherein: the geothermal support foot rest (7) comprises a frame body (71), a heat conduction inner layer (72) is arranged at the position, close to the lower part, inside the frame body (71), a reinforcing frame (73) is arranged at the bottom end of the frame body (71), and the inner cavity of the frame body (71) is communicated with a geothermal energy utilization device (6).