CN117231459A - Wave sine wave water press - Google Patents

Abstract

The utility model discloses a wave sine wave water press, which comprises: the water press body of this structure is including increasing Cheng Piaofu portion, pressurized-water storehouse, a plurality of sine wave water press dish group, increases Cheng Piaofu portion at the top installation of pressurized-water storehouse, and a plurality of sine wave water press dish group then from top to bottom installs on vertical main shaft pole in proper order, communicates each other between two adjacent sine wave water press dish groups. When the novel seawater pump is used, the plurality of sine wave water pump disk sets sink into the ocean, the main body of the seawater pump floats on the ocean through the Cheng Piaofu part, the main body of the seawater pump can also move up and down under the action of ocean waves because the ocean waves move in an up-down wave mode, the plurality of sine wave water pump disk sets in the main body of the seawater pump suck and pressurize seawater under the action of the ocean waves, high-pressure water flow is generated, the seawater pump is outwards conveyed through the tail pipe, further long-distance conveying is realized, external power is not required to be consumed, and the novel seawater pump meets the green environment-friendly requirement.

Description

Wave sine wave water press

Technical Field

The utility model relates to the technical field of green energy devices, in particular to a sea wave sine wave water press.

Background

The development and utilization prospect of the seawater is wide, and the seawater is generally directly pumped by a water pump at present, but the energy consumption is high. For example, chinese patent application No. 200920016790.7 discloses a pipeline transportation pump for long distance transportation, which is widely used for pipeline transportation of crude oil and natural gas and long distance transportation of seawater in the field of seawater desalination. However, external power is consumed, and the environment-friendly requirement cannot be met. For another example, the chinese patent application No. 202020033486.X discloses a novel vertical diagonal flow pump for seawater with core pulling, and the operation of the diagonal flow pump also needs to consume external power, which cannot reach the green environmental protection requirement. Therefore, it is necessary to provide an ocean wave sine wave water pump which utilizes ocean waves to generate high-pressure water flow so as to realize remote transmission.

Disclosure of Invention

In the summary, a series of concepts in a simplified form are introduced, which will be further described in detail in the detailed description. The summary of the utility model is not intended to define the key features and essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

To at least partially solve the above problems, the present utility model provides an ocean wave sine wave water press comprising: the water press main body comprises a Cheng Piaofu part, a water pressing bin and a plurality of sine wave water pressing disc groups, wherein the Cheng Piaofu part is arranged above the water pressing bin, a vertical main shaft rod is arranged at the bottom of the water pressing bin, the sine wave water pressing disc groups are sequentially arranged on the vertical main shaft rod from top to bottom and located below the water pressing bin, two adjacent sine wave water pressing disc groups are mutually communicated, and the uppermost sine wave water pressing disc group is communicated with the water pressing bin.

According to the wave sine wave water pump provided by the embodiment of the utility model, the sine wave water pump disc group comprises a fixed water tank disc and a sine wave rotating disc, the fixed water tank disc is fixedly arranged on the vertical main shaft rod, the sine wave rotating disc is rotationally arranged on the vertical main shaft rod and is positioned below the fixed water tank disc, and the sine wave rotating disc is used for driving a piston water pump in the fixed water tank disc.

According to the wave sine wave water press provided by the embodiment of the utility model, the fixed water tank disc is internally provided with the circumferential water storage bins, two adjacent circumferential water storage bins are communicated through a plurality of vertical water pipes, a plurality of piston water presses are arranged in the circumferential water storage bins, the outer wall of the sine wave rotating disc is provided with circumferential sine wave grooves, and a plurality of piston water presses are movably connected with the circumferential sine wave grooves.

According to the wave sine wave water press provided by the embodiment of the utility model, the fixed water tank disc comprises a fixed water guide wheel and a circumferential water storage bin, the fixed water guide wheel comprises a fixed shaft sleeve and a plurality of first guide vanes, the fixed shaft sleeve is fixedly sleeved on the vertical main shaft rod, the plurality of first guide vanes are uniformly distributed on the outer wall of the fixed shaft sleeve, and the circumferential water storage bin is sleeved on the outer ends of the plurality of first guide vanes.

According to the wave sine wave water press provided by the embodiment of the utility model, the piston water press comprises a vertical piston cylinder and a vertical piston rod, wherein the vertical piston cylinder is arranged in a Zhou Xiangchu water bin, the upper end of the vertical piston cylinder is provided with a first water inlet check valve, the inner wall of the vertical piston cylinder is provided with a second water inlet check valve, the upper end of the vertical piston rod is arranged in the vertical piston cylinder, and the lower end of the vertical piston rod extends out of the vertical piston cylinder and is movably connected with a circumferential sine wave groove below the vertical piston cylinder.

According to the wave sine wave water pump provided by the embodiment of the utility model, the lower end of the vertical piston rod is provided with the guide wheel group, and the upper end of the circumferential sine wave groove is provided with the circumferential sine wave guide plate, so that the guide wheel group is movably connected in the circumferential sine wave groove.

According to the wave sine wave water press provided by the embodiment of the utility model, the upper surface and the lower surface of the circumferential water storage bin are respectively provided with a plurality of water through holes, the vertical water pipe is arranged between the upper water through hole and the lower water through hole, the vertical water pipe is positioned at the outer side of the piston water press, and the upper end of the outer wall of the circumferential water storage bin is provided with a water guide inclined ring.

According to the wave sine wave water press provided by the embodiment of the utility model, the sine wave rotating disc comprises a rotating water guide wheel and sine wave bosses, the rotating water guide wheel comprises a rotating shaft sleeve, a plurality of second guide vanes and sine wave bosses, the rotating shaft sleeve is rotationally arranged on a vertical main shaft rod and is positioned below a fixed shaft sleeve, the second guide vanes are uniformly distributed on the rotating shaft sleeve, the sine wave bosses are sleeved on the outer ends of the second guide vanes, and circumferential sine wave grooves are formed in the outer walls of the sine wave bosses.

According to the wave sine wave water press provided by the embodiment of the utility model, the Cheng Piaofu part comprises the Cheng Chengzai part, the two wave range-increasing parts and the lifting mechanism, wherein the two wave range-increasing parts are movably arranged on the range-increasing bearing part in a shaft joint manner, the lifting mechanism is movably arranged between the two wave range-increasing parts, and the bottom of the lifting mechanism is connected with the water pressing bin.

According to the wave sine wave water pump provided by the embodiment of the utility model, the interior of the wave range-extending part is hollow, and the bottom back surface of the wave range-extending part is provided with a wave guiding curved surface.

Compared with the prior art, the utility model at least comprises the following beneficial effects:

the utility model provides an ocean wave sine wave water press, which comprises a water press main body, wherein the water press main body of the ocean wave sine wave water press comprises a Cheng Piaofu part, a water pressing bin and a plurality of sine wave water press disk groups, wherein the Cheng Piaofu part is arranged at the top of the water pressing bin, a vertical main shaft rod is arranged at the bottom of the water pressing bin, and the plurality of sine wave water press disk groups are sequentially arranged on the vertical main shaft rod from top to bottom and are positioned below the water pressing bin, and two adjacent sine wave water press disk groups are mutually communicated. Therefore, when the water press main body is used, the plurality of sine wave water press disc sets are arranged in the ocean, the water press main body floats on the ocean through the Cheng Piaofu part, the whole water press main body can also move up and down under the action of ocean waves because the ocean waves move in an up-down wave mode, the plurality of sine wave water press disc sets in the water press main body suck and pressurize sea water under the action of the ocean waves, high-pressure water flow is generated, the sea water is further conveyed outwards through the tail pipe, further long-distance conveying is realized, external power is not consumed, and the water press main body meets the green environment-friendly requirement.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic view of a part of the structure of the present utility model.

Fig. 3 is a schematic structural view of a tail pipe according to the present utility model.

Fig. 4 is a schematic view of a part of the internal structure of the present utility model.

Fig. 5 is a schematic diagram of the structure of a sine wave water pump disk set according to the present utility model.

Fig. 6 is a schematic view of a part of the internal structure of a sine wave water pump disk set in the present utility model.

Fig. 7 is a front view showing the internal structure of a sine wave water pump disk set according to the present utility model.

Fig. 8 is a schematic view showing a part of the internal structure of the fixed tank pan in the present utility model.

Fig. 9 is a schematic structural view of a piston water press according to the present utility model.

Fig. 10 is a schematic view showing a structure of a fixed tank pan in the present utility model.

Fig. 11 is a schematic structural view of a sine wave rotating disc in the present utility model.

Fig. 12 is a schematic diagram of the structure of the portion Cheng Piaofu added in the present utility model.

Fig. 13 is a left side view of the structure of the portion Cheng Piaofu added in the present utility model.

Fig. 14 is a schematic diagram of the structure of the portion Cheng Chengzai added in the present utility model.

Fig. 15 is a schematic structural view of a wave guide plate according to the present utility model.

Fig. 16 is a schematic view of a part of the structure of the range-extending frame in the present utility model.

Fig. 17 is a schematic structural view of a wave length increasing section according to the present utility model.

Fig. 18 is a front view of the wave length increasing section of the present utility model.

Detailed Description

The present utility model is described in further detail below with reference to the drawings and examples to enable those skilled in the art to practice the utility model by referring to the description.

It will be understood that terms, such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1 to 18, the present utility model provides an ocean wave sine wave water pump, comprising: a water press body 100, the water press body 100 being installed in the ocean, and generating a high pressure water flow by using ocean waves. The related description of ocean waves is already described in detail in the chinese patent application No. 20110078071. X, and will not be described in detail herein.

The main body 100 of the water pump with the structure comprises a Cheng Piaofu part 1, a water pumping bin 2 and a plurality of sine wave water pump disk sets 3, wherein the Cheng Piaofu part 1 is arranged at the top of the water pumping bin 2, the vertical main shaft rod 20 is arranged at the bottom of the water pumping bin 2, and the sine wave water pump disk sets 3 are sequentially arranged on the vertical main shaft rod 20 from top to bottom and are positioned below the water pumping bin 2. Wherein, two adjacent sine wave water pressing device disc groups 3 are communicated with each other, the uppermost sine wave water pressing device disc group 3 is communicated with the water pressing bin 2, and the lowermost sine wave water pressing device disc group 3 is connected with the tail pipe 6.

Therefore, the main body 100 of the water pump is installed in the ocean when in use, wherein the plurality of sine wave water pump disk sets 3 are submerged in the ocean, on one hand, the main body 100 of the water pump floats on the ocean by adding the Cheng Piaofu part 1, and the whole main body 100 of the water pump can also move up and down under the action of ocean waves because the ocean waves move up and down, and the plurality of sine wave water pump disk sets 3 in the main body 100 of the water pump suck and pressurize the sea water under the action of the ocean waves, thereby generating high-pressure water flow and conveying the water outwards through the tail pipe 6, further realizing remote conveying without consuming external power, and meeting the environment-friendly requirement.

On the other hand, the Cheng Piaofu adding part 1 is also used for adding the travel of the plurality of sine wave water compressor disk sets 3 floating up and down in the ocean, so that the plurality of sine wave water compressor disk sets 3 can also move up and down in the offshore area with smaller ocean waves, at this time, the plurality of sine wave water compressor disk sets 3 in the water compressor main body 100 also suck and pressurize the sea water under the action of the ocean waves, thereby generating high-pressure water flow, and the high-pressure water flow is conveyed outwards through the tail pipe 6, further realizing remote conveying, and no external power is consumed, so that the environment-friendly requirement is met.

Exemplary sine wave Water compressor disk set

Further, in some embodiments of the present utility model, a specific structure of the sine wave water pump disk set 3 is provided, by which the above-described utilization of ocean waves is achieved by the sine wave water pump disk set 3. The sine wave water pump disk set 3 of this structure includes a fixed water tank disk 4, a sine wave rotating disk 5, wherein the fixed water tank disk 4 is fixedly mounted on a vertical main shaft lever 20, and the sine wave rotating disk 5 is rotatably mounted on the vertical main shaft lever 20 and located below the fixed water tank disk 4, wherein the fixed water tank disk 4 is internally provided with a plurality of piston water pumps 45, so the sine wave rotating disk 5 is used for driving the piston water pumps 45 in the fixed water tank disk 4, so that the piston water pumps 45 supply water into the fixed water tank disk 4;

the plurality of sine wave rotating disks 5 in the multi-layer sine wave water compressor disk set 3 continuously rotate under the continuous driving of ocean waves, so that the seawater gradually enters the plurality of fixed water tank disks 4 in the multi-layer sine wave water compressor disk set 3.

The two adjacent sine wave water compressor disk sets 3 are mutually communicated, that is, the fixed water tank disks 4 are mutually communicated, so that under the action of gravity, seawater flows into the lower fixed water tank disk 4, the lower fixed water tank disk 4 is gradually filled with seawater, and the plurality of sine wave rotating disks 5 continuously rotate, so that the seawater in the lower fixed water tank disk 4 is continuously pressurized and can be conveyed outwards through the tail pipe 6, further, remote conveying is realized, external power is not required to be consumed, and the environment-friendly requirement is met.

Further, in order to specifically implement the water storage function of the fixed water tank disk 4, in some embodiments of the present utility model, a circumferential water storage bin 41 is designed on the fixed water tank disk 4, where a plurality of piston water presses 45 are installed in the circumferential water storage bin 41, and further, a circumferential sine wave groove 54 is formed on the outer wall of the sine wave rotating disk 5, and the plurality of piston water presses 45 are movably connected with the circumferential sine wave groove 54.

So when sine wave rotating disk 5 rotates under the action of ocean wave, then drive a plurality of piston presses 45 through circumference sine wave groove 54 and carry out the water absorption pressurized-water action, can inhale the circumference water storage storehouse 41 through a plurality of piston presses 45 sea water fast in, improved the suction effect of sea water greatly, the convenience is followed and is produced high-pressure water in order to outwards realize long-distance transport.

Wherein, the uppermost Zhou Xiangchu water bin 41 is connected with the pressurized water bin 2 through a plurality of upper water guide pipes 30, and two adjacent peripheral Xiang Chushui water bins 41 are communicated through a plurality of vertical water pipes 44, namely, the upper and lower peripheral water storage bins 41 are communicated. After the water absorption and pressurization actions of the plurality of piston water pressurization devices 45, seawater enters the circumferential water storage bins 41, and air in the circumferential water storage bins 41 is gradually discharged upwards into the pressurized water bins 2 through the plurality of vertical water pipes 44, so that a high-pressure water bin is formed in the pressurized water bins 2, and the seawater is filled into the plurality of circumferential water storage bins 41 below the pressurized water bins 2. With the increase of the water pressure, the air in the upper pressurized water bin 2 is compressed, but the water cannot be compressed, so that the high-pressure air (the pressure of 1 megapascal can be reached) in the pressurized water bin 2 pushes the seawater to be conveyed far through the pipeline, and the condition is achieved for conveying the water in a long distance.

In addition, the design of the plurality of upper water guide pipes 30 also increases the overall stability of the main body 100 of the water pump, and prevents the structure from being skewed to affect the use.

Exemplary fixed tank plate

Further, in some embodiments of the present utility model, a specific structure of the fixed water tank disk 4 is provided, where the fixed water tank disk 4 includes a fixed water guiding wheel 40 and a circumferential water storage bin 41, further, the fixed water guiding wheel 40 includes a fixed shaft sleeve 42 and a plurality of first guide vanes 43, where the fixed shaft sleeve 42 is fixedly sleeved on the vertical main shaft rod 20, the plurality of first guide vanes 43 are uniformly distributed on the outer wall of the fixed shaft sleeve 42, the circumferential water storage bin 41 is sleeved on the outer ends of the plurality of first guide vanes 43, and the fixed water tank disk 4 is fixedly installed on the vertical main shaft rod 20 through the fixed shaft sleeve 42, so that the first guide vanes 43 guide seawater conveniently.

When the fixed water tank disk 4 is in use, seawater flows downwards through the sine wave rotating disk 5 after being guided by the plurality of first guide vanes 43 so as to drive the sine wave rotating disk 5 below to rotate, and further drive the piston water compressor 45 to suck the seawater into the circumferential water storage bin 41.

As the amount of pressurized water increases, air in the upper circumferential water storage compartment 41 is pressed into the pressurized water compartment 2, and water is not compressed. While the high-pressure air (which can reach the pressure of 1 megaPa) in the pressurized water bin 2 pushes the seawater to be conveyed far through the pipeline, so that the condition for conveying the water in a long distance is achieved. Wherein, the fixed water tank disk 4 has simple structure and convenient use, and can greatly improve the suction efficiency of seawater.

Exemplary piston Water Press

Further, in some embodiments of the present utility model, a specific structure of the piston water pump 45 is provided, where the piston water pump 45 includes a vertical piston cylinder 451 and a vertical piston rod 452, where the vertical piston cylinder 451 is installed in the circumferential water storage bin 41, and in order to achieve the water absorption effect on the seawater, a first water inlet check valve 453 is installed at the upper end of the vertical piston cylinder 451, and at the same time, the vertical piston cylinder 451 is connected with the circumferential water storage bin 41, so that a water inlet inner hole 455 is formed on the vertical piston cylinder 451, and the upper end of the vertical piston rod 452 is slidably installed in the vertical piston cylinder 451, and the lower end extends out of the vertical piston cylinder 451 and is movably connected with the circumferential sine wave groove 54 below, so that when the sine wave rotating disc 5 rotates, the circumferential sine wave groove 54 on the sine wave rotating disc 5 also rotates, and then drives the plurality of vertical piston rods 452 to move up and down along the circumferential sine wave groove 54;

the process of the water absorbing action is as follows: when the lower end of the vertical piston rod 452 gradually moves toward the trough 540 of the circumferential sine wave groove 54, the upper end of the vertical piston rod 452 moves downward in the vertical piston tube 451, so that the upper first water inlet check valve 453 is opened under the action of negative pressure, and thus seawater is sucked into the vertical piston tube 451 through the first water inlet check valve 453;

the water pressing action is as follows, along with the rotation of the circumferential sine wave groove 54, the circumferential sine wave groove 54 gradually pushes the lower end of the vertical piston rod 452 upwards, the wave crest 541 of the circumferential sine wave groove 54 moves to the lower end of the vertical piston cylinder 451, the upper end of the vertical piston rod 452 moves upwards in the vertical piston cylinder 451 in the process, at the moment, the first water inlet check valve 453 is closed, and the seawater in the vertical piston rod 452 enters the circumferential water storage bin 41 through the water inlet inner hole 455 by the extrusion of the vertical piston rod 452, so that the water pressing action on the seawater is realized, and the water absorbing and pressing action on the seawater by the whole sine wave water pressing disc set 3 is realized by the above-mentioned process.

Further, in order to prevent the seawater in the circumferential water storage bin 41 from entering the vertical piston tube 451, a second water inlet check valve 454 is further installed on the inner wall of the vertical piston tube 451, that is, the second water inlet check valve 454 is installed on the water inlet inner hole 455 and located in the circumferential water storage bin 41, so when the upper end of the vertical piston rod 452 moves upward in the vertical piston tube 451, the second water inlet check valve 454 is opened, the seawater enters the circumferential water storage bin 41 through the second water inlet check valve 454, when the vertical piston rod 452 moves downward in the vertical piston tube 451, the second water inlet check valve 454 is closed, the first water inlet check valve 453 is opened, so that the seawater can only be sucked into the circumferential water storage bin 41, but cannot enter the vertical piston tube 451 from the circumferential water storage bin 41, thus the high-pressure water flow is conveniently generated under the action of the fixed water tank disk 4, the sine wave rotating disk 5 and the piston press 45, and the high-pressure water flow is conveyed by the tail pipe 6.

Further, in some embodiments of the present utility model, the guide wheel set 46 is mounted at the lower end of the vertical piston rod 452, correspondingly, the circumferential Xiang Zhengxian waveguide plate 541 is mounted at the upper end of the circumferential sine wave groove 54, the lower end of the vertical piston rod 452 extends into the circumferential sine wave groove 54, and the circumferential sine waveguide plate 541 blocks the guide wheel set 46, so as to prevent the guide wheel set 46 from being separated from the circumferential sine wave groove 54 during the rotation of the circumferential sine wave groove 54, thereby enabling the guide wheel set 46 to be movably connected in the circumferential sine wave groove 54, greatly increasing the connection firmness between the piston water pump 45 and the circumferential sine wave groove 54, and also improving the working efficiency of the piston water pump 45.

Further, in some embodiments of the present utility model, a plurality of water through holes 411 are installed on the upper surface and the lower surface of the circumferential water storage bin 41, and a vertical water pipe 44 is installed between the upper water through hole 411 and the lower water through hole 411, so that the seawater entering the circumferential water storage bin 41 can flow through the vertical water pipe 44 to flow into the circumferential water storage bin 41 below, thereby preventing the seawater from leaking; wherein, the tail pipes 6 can be installed on the water through holes 411 of the bottommost circumferential water storage bin 41, and the number of the tail pipes 6 can be installed according to actual needs, which is not described in detail herein.

Further, the plurality of vertical water pipes 44 are located outside the piston water press 45, and correspondingly, the outer diameter of the sine wave rotating disc 5 is smaller than the diameter of the circle where the plurality of vertical water pipes 44 are located, so that interference between the sine wave rotating disc 5 and the vertical water pipes 44 is avoided when the plurality of piston water presses 45 are driven to perform suction action, and the practicability of the water press main body 100 is greatly improved.

Further, the upper end of the outer wall of the circumferential water storage bin 41 is provided with the water guide inclined ring 412, and the upper side of the circumferential water storage bin 41 is surrounded by the water guide inclined ring 412, so that sundries in seawater can be reduced from entering between the adjacent upper sine wave water presser disc set 3 and the adjacent lower sine wave water presser disc set 3, and the safety of the sine wave water presser disc set 3 in use is greatly improved.

Exemplary sine wave rotating disk

Further, in some embodiments of the present utility model, a specific structure of the sine wave rotating disc 5 is provided, where the sine wave rotating disc 5 includes a rotating water guiding wheel 50 and a sine wave boss 53, the rotating water guiding wheel 50 includes a rotating shaft sleeve 51 and a plurality of second guide vanes 52, where the rotating shaft sleeve 51 is rotatably mounted on the vertical main shaft rod 20 and is located below the fixed shaft sleeve 42, the plurality of second guide vanes 52 are uniformly mounted on the rotating shaft sleeve 51, the sine wave boss 53 is sleeved on an outer end of the plurality of second guide vanes 52, and the circumferential sine wave groove 54 is formed on an outer wall of the sine wave boss 53.

So after the water is guided by the first guide sheets 43 in the fixed water tank disk 4, the seawater flows downwards through the issued second guide sheets 52, and then the seawater drives the second guide sheets 52 to rotate, so that the whole sine wave rotating disk 5 is driven to rotate, the sine wave rotating disk 5 also drives the circumferential sine wave groove 54 to rotate, and then the circumferential sine wave groove 5 drives the piston water presses 45 to absorb water and press water, and the sine wave rotating disk 5 with the structure is matched with the fixed water tank disk 4 to greatly improve the water absorption efficiency of the piston water presses 45 in the fixed water tank disk 4, so that the main body 100 of the water press is driven to rotate and absorb water by ocean waves to generate high-pressure water flow to realize long-distance conveying.

Further, in order to make the seawater drive the second guide vane 52 to rotate to the greatest extent, in some embodiments of the present utility model, the first guide vane 43 is mounted obliquely on the outer wall of the fixed shaft sleeve 42, and correspondingly, the second guide vane 52 is mounted obliquely on the rotating shaft sleeve 51, so that the seawater flows onto the second guide vane 52 below through the aperture between the two first guide vanes 43, where the first guide vane 43 and the second guide vane 52 are perpendicular to each other by 90 °;

for example, the first guide vane 43 is a clockwise 45-angle vane, and the second guide vane 52 is a counterclockwise 45-angle vane, so that the water flow has the greatest impact force. Since the sine wave pushing piston water press 45 is a curved motion, vertical pushing force can be saved by utilizing an oblique angle.

Therefore, the first guide vane 43 and the second guide vane 52 both face the impact of the seawater with the maximum bearing surface, so that the seawater can directly impact the second guide vane 52 after being guided by the first guide vane 43, and the second guide vane 52 can provide the maximum bearing surface for the seawater, so that the sine wave rotating disc 5 can be efficiently rotated, and the plurality of piston water presses 45 are driven to perform water absorption and pressing actions, thereby comprehensively improving the working efficiency of the water press main body 100.

Further, in order to make the water pump body 100 perform water sucking and pressing actions on the seawater continuously, to improve the working efficiency of the water pump body 100, the first guide vanes 43 of the two adjacent sine wave water pump disk sets 3 are required to be reversely arranged, and correspondingly, the second guide vanes 52 of the two adjacent sine wave water pump disk sets 3 are also reversely arranged, that is, the first guide vanes 43 and the second guide vanes 52 above or the second guide vanes 52 and the first guide vanes 43 below are in the same direction.

So that the seawater flowing from the second deflector 52 can still strike the largest bearing surface of the first deflector 43, and then pass through the first deflector 43 to strike the largest bearing surface of the second deflector 52 below, so that the two sine wave rotating discs 5 adjacent to each other up and down can rotate to the greatest extent and are opposite.

Moreover, when two sine wave rotating discs 5 adjacent up and down are reversely driven, the torsion force can be subtracted from each other, and the whole body of the whole water pump main body 100 is kept stable.

Further, in some embodiments of the present utility model, the upper end and the lower end of the rotating shaft sleeve 51 are provided with shaft grooves 511, and a bearing body 512 is installed in the shaft grooves 511, and is rotatably connected with the vertical main shaft rod 20 through the bearing body 512, so that friction between the rotating shaft sleeve 51 and the vertical main shaft rod 20 is reduced, the rotating shaft sleeve 51 can be easily rotated on the vertical main shaft rod 20, and the rotation efficiency of the sine wave rotating disc 5 is improved.

Exemplary section Cheng Piaofu

Further, in some embodiments of the present utility model, a specific structure of the portion Cheng Piaofu increasing 1 is provided, the portion Cheng Piaofu increasing 1 of the structure includes a portion Cheng Chengzai increasing 11, two wave distance increasing portions 12, and a lifting mechanism 13, the two wave distance increasing portions 12 are movably mounted on the portion Cheng Chengzai increasing 11, the whole portion Cheng Piaofu increasing 1 floats on the sea surface through the portion Cheng Chengzai increasing 11 and the two wave distance increasing portions 12, the lifting mechanism 13 is movably mounted between the two wave distance increasing portions 12, and the bottom of the lifting mechanism 13 is connected with the pressurized water reservoir 2. The Cheng Piaofu part 1 floats on the sea surface, the sea waves have the amplitude of up-and-down vibration, the wave range-increasing part 12 is pushed by the up-and-down amplitude of the sea waves, the two wave range-increasing parts 12 are movably arranged on the Cheng Chengzai part 11, so the two wave range-increasing parts 12 rotate upwards in the Cheng Chengzai part 11 oppositely, the two wave range-increasing parts 12 drive the hoisting mechanism 13 to move upwards, the wave range-increasing parts 12 are fully beneficial to the amplitude of the sea waves, the up-and-down movement stroke of the hoisting mechanism 13 can be greatly increased, the hoisting mechanism 13 can drive the water pressing bin 2 at the bottom and the plurality of sine wave water pressing disc groups 3 to move up and down, the plurality of sine wave rotating discs 5 in the sine wave water pressing disc groups 3 are continuously rotated under the continuous driving of the sea waves, the sea waves gradually enter the plurality of fixed water tanks 4 in the multilayer water pressing disc groups 3, the sea water is sucked and pressurized, high-pressure water flow is generated, the tail pipes are conveyed outwards through the tail pipes 6, the power consumption of the environment-friendly water pressing disc group Cheng Piaofu is realized, and the green water is not required to be increased by the power consumption of the environment-friendly device, and the environment-friendly device is required by the outside, and the green water pressing device 381 is required to be transported by the environment-friendly device.

Exemplary wave Range extender

As shown in fig. 1 and 7, further, in some embodiments of the present utility model, a specific structure of the wave length increasing portion 12 is provided, and the interior of the wave length increasing portion 12 is hollow, so that the wave length increasing portion 12 floats on the sea surface by using buoyancy, and further the whole Cheng Piaofu increasing portion 1 can float on the sea surface to avoid sinking into the sea and not working.

Further, the wave guiding curved surface 120 is designed on the back surface of the bottom of the wave range-extending portion 12, the wave guiding curved surface 120 can be used as the maximum bearing area to receive the amplitude impact of the ocean wave, and the amplitude of the ocean wave can further push the wave range-extending portion 12 to rotate upwards relative to the Cheng Chengzai increasing portion 11, so that the utilization efficiency of the amplitude of the ocean wave is improved through the wave guiding curved surface 120.

Further, two wave guide plates 121 are installed at the bottom of the wave range-extending portion 12, the two wave guide plates 121 are designed along two sides of the wave guide curved surface 120, and the wave guide plates 121 are arranged along the outer edge of the wave guide curved surface 120, so that the two wave guide plates 121 can gather ocean waves towards the bottom of the wave range-extending portion 12, and the utilization efficiency of the ocean waves is improved;

meanwhile, the innermost ends of the two wave guide plates 121 are in closed connection, so that ocean waves can be intercepted, the amplitude of the ocean waves can act on the wave guide curved surface 120, the wave range-increasing part 12 is pushed to rotate upwards relative to the Cheng Chengzai part 11, the two wave range-increasing parts 12 drive the hoisting mechanism 13 to move upwards, the moving stroke of the hoisting mechanism 13 is greatly increased, and the utilization efficiency of the amplitude of the ocean waves is improved.

Further, in some embodiments of the present utility model, an outer curved surface 122 is designed in front of the bottom of the wave range-extending portion 12, and a moving space can be reserved for the hoisting mechanism 13 through the outer curved surface 122, so as to prevent interference with the wave range-extending portion 12 when the hoisting mechanism 13 moves up and down from affecting use. Further, a straight surface 123 is arranged above the outer curved surface 122, and a moving space is reserved for the hoisting mechanism 13 through the design of the straight surface 123.

Exemplary section Cheng Chengzai

Further, in some embodiments of the present utility model, a specific structure of the portion Cheng Chengzai of the increment Cheng Chengzai 11 is provided, the portion Cheng Chengzai of the structure is provided as a frame structure, the portion Cheng Chengzai of the increment 3511 includes two long side bars 111 and two short side bars 112, where an inner carrier bar 113 can be designed on the inner wall of the short side bars 112, and the rotating end of the wave-shaped increment 12 is rotatably connected with the portion Cheng Chengzai 11 through a shaft lever 124, specifically, the shaft lever 124 is connected with the two inner carrier bars 113, so as to implement rotation of the wave-shaped increment 12 in the portion Cheng Chengzai.

Exemplary hoisting mechanism

Further, in some embodiments of the present utility model, a plurality of hoisting mechanisms 13 are installed between two wave range-extending portions 12, and the sinusoidal wave water pump disc set 3 driving the bottom can be more stably moved up and down by the plurality of hoisting mechanisms 13, so as to prevent the Cheng Piaofu increasing portion 1 from being skewed;

further, the lifting mechanism 13 includes a vertical boom 131 and an extended-range frame 132, wherein the extended-range frame 132 is connected with the two wave extended-range portions 12, and the vertical boom 131 is mounted at the bottom of the extended-range frame 132, so that under the action of ocean waves, the two wave extended-range portions 12 drive the extended-range frame 132 to move upwards when rotating upwards in the extended Cheng Chengzai portion 11, and the two wave extended-range portions 12 drive the extended-range frame 132 to move, thereby increasing the stability of the extended Cheng Piaofu portion 1.

As shown in fig. 1 and 3-7, further, in some embodiments of the present utility model, a specific structure of the range-extending frame 132 is provided, where the range-extending frame 132 includes a plurality of cross folding mechanisms 133, and specifically, the plurality of cross folding mechanisms 133 are sequentially connected from top to bottom, and the vertical boom 131 is disposed at the bottom of the lowermost cross folding mechanism 133.

Meanwhile, the range-extending frame 132 starts to change from an extending state to a contracting state in the longitudinal direction, that is, the plurality of cross folding mechanisms 133 shrink from bottom to top to drive the vertical hanging rods 131 to move upwards, so that the vertical hanging rods 131 can drive the sine wave water pressing disc set 3 below to move up and down, and the sine wave water pressing disc set 3 can absorb water under the continuous action of ocean waves.

Further, the plurality of cross folding mechanisms 133 are sequentially reduced in size from top to bottom, so that when the two wave length increasing units 12 are rotated to a high position, the length increasing frames 132 are contracted together to be folded together, and do not interfere with the wave length increasing units 12.

Further, the cross folding mechanism 133 includes a first cross bar 1331 and a second cross bar 1332, and in order to increase the structural strength of the cross folding mechanism 133, the cross folding mechanism 133 is extended and retracted by hinging the middle parts of the first cross bar 1331 and the second cross bar 1332;

the first crossbar 1331 and the second crossbar 1332 of the uppermost cross folding mechanism 133 are hinged to the two wave length increasing portions 12 through a first hinge seat 1333 and a second hinge seat 1334, respectively, while the lower end of the upper first crossbar 1331 is hinged to the upper end of the lower second crossbar 1332 of the adjacent two cross folding mechanisms 133, and the lower end of the upper second crossbar 1332 is hinged to the upper end of the lower first crossbar 1331. Therefore, when the two wave range-extending parts 12 rotate in the Cheng Chengzai part 11, the upper ends of the two wave range-extending parts 12 are far away from each other in the upward moving process, and then the two wave range-extending parts 12 transversely pull the uppermost cross folding mechanism 133, so that the first cross rod 1331 and the second cross rod 1332 move upwards, further drive the lower cross folding mechanism 133 to transversely pull so as to realize longitudinal contraction, and drive the lifting mechanism 13 to move upwards after the contraction of the plurality of cross folding mechanisms 133, thereby greatly increasing the moving stroke of the cross folding mechanism 133.

As shown in fig. 15 and 16, in some embodiments of the present utility model, the range-extending frame 132 further includes an upper limiting frame 134, where the upper end of the range-extending frame 132 is limited by the upper limiting frame 134, so as to prevent the range-extending frame 132 from being damaged due to too large extent of deployment;

the upper limit frame 134 of this structure includes a first upper limit rod 1341 and a second upper limit rod 1342, where the upper ends of the first upper limit rod 1341 and the second upper limit rod 1342 are hinged, and the lower end of the first upper limit rod 1341 is hinged with the wave range-increasing portion 12, and the lower end of the second upper limit rod 1342 is hinged with another wave range-increasing portion 12, so that the upper ends of the two wave range-increasing portions 12 are far away from or close to each other, and the first upper limit rod 1341 and the second upper limit rod 1342 can be driven to be far away from or close to each other correspondingly, and since the unfolding lengths of the first upper limit rod 1341 and the second upper limit rod 1342 are limited, the distance between the upper ends of the two wave range-increasing portions 12 can be limited, so that the safety of the range-increasing frame 132 is increased.

Further, in some embodiments of the present utility model, the range-extending frame 132 further includes a lower limiting frame 135, where the bottom of the range-extending frame 132 is limited by the lower limiting frame 135, so as to prevent the range-extending frame 132 from being damaged due to too large extent of deployment;

as shown in fig. 16 and 18, the lower limit frame 135 of this structure includes a first lower limit rod 1351 and a second lower limit rod 1352, wherein the lower ends of the first lower limit rod 1351 and the second lower limit rod 1352 are hinged, and the upper end of the first lower limit rod 1351 is hinged to the lower end of the second lower cross rod 1332 at the lowest position, and the upper end of the second upper limit rod 1342 is hinged to the lower end of the first lower cross rod 1331 at the lowest position, and the upper end of the vertical boom 131 is hinged to the lower ends of the first lower limit rod 1351 and the second lower limit rod 1352.

Therefore, when the range-extending frame 132 is contracted or expanded up and down, the first lower limit rod 1351 and the second lower limit rod 1352 are correspondingly moved away from or close to each other, so as to realize the limit function on the range-extending frame 132. Meanwhile, the first lower limit rod 1351 and the second lower limit rod 1352 also drive the vertical boom 131 to synchronously move up and down, so that the structural stability of the whole Cheng Piaofu part 1 is realized.

The above examples are preferred embodiments of the present utility model, but the embodiments of the present utility model are not limited to the above examples, and any other changes, modifications, substitutions, combinations, and simplifications that do not depart from the spirit and principle of the present utility model should be made in the scope of the present utility model.

Claims (10)

1. An ocean wave sine wave water press, comprising:

the water press main body (100), the water press main body (100) comprises a Cheng Piaofu part (1), a water pressing bin (2) and a plurality of sine wave water press disc groups (3), wherein the Cheng Piaofu part (1) is arranged above the water pressing bin (2), a vertical main shaft rod is arranged at the bottom of the water pressing bin (2), a plurality of sine wave water press disc groups (3) are sequentially arranged on the vertical main shaft rod from top to bottom and are located below the water pressing bin (2), two adjacent sine wave water press disc groups (3) are mutually communicated, and the uppermost sine wave water press disc group (3) is communicated with the water pressing bin (2).

2. A wave sine wave water pump according to claim 1, characterized in that the sine wave water pump disk set (3) comprises a fixed water tank disk (4), a sine wave rotating disk (5), the fixed water tank disk (4) is fixedly arranged on a vertical main shaft (20), the sine wave rotating disk (5) is rotatably arranged on the vertical main shaft (20) and below the fixed water tank disk (4), and the sine wave rotating disk (5) is used for driving a piston water pump (45) in the fixed water tank disk (4).

3. The sea wave sine wave water press according to claim 2, wherein the fixed water tank disc (4) is provided with a circumferential water storage bin (41), two adjacent circumferential water storage bins (41) are communicated through a plurality of vertical water pipes (44), a plurality of piston water presses (45) are arranged in the circumferential water storage bins (41), the outer wall of the sine wave rotating disc (5) is provided with a circumferential sine wave groove (54), and a plurality of piston water presses (45) are movably connected with the circumferential sine wave groove (54).

4. A wave sine wave water pump according to claim 3, characterized in that the fixed water tank disc (4) comprises a fixed water guiding wheel (40) and a circumferential water storage bin (41), the fixed water guiding wheel (40) comprises a fixed shaft sleeve (42) and a plurality of first guide vanes (43), the fixed shaft sleeve (42) is fixedly sleeved on the vertical main shaft rod (20), the plurality of first guide vanes (43) are uniformly distributed on the outer wall of the fixed shaft sleeve (42), and the circumferential water storage bin (41) is sleeved on the outer ends of the plurality of first guide vanes (43).

5. An ocean wave sine wave water pump according to any one of claims 2-4, wherein the piston water pump (45) comprises a vertical piston cylinder (451) and a vertical piston rod (452), the vertical piston cylinder (451) is arranged in a Zhou Xiangchu water sump (41), a first water inlet check valve (453) is arranged at the upper end of the vertical piston cylinder (451), a second water inlet check valve (454) is arranged on the inner wall, the upper end of the vertical piston rod (452) is arranged in the vertical piston cylinder (451), and a circumferential sine wave groove (54) below the vertical piston cylinder (451) extends from the lower end of the vertical piston cylinder to be movably connected.

6. An ocean wave sine wave water pump according to claim 5 wherein the lower end of the vertical piston rod (452) is provided with a guide wheel set (46), and the upper end of the circumferential sine wave groove (54) is provided with a circumferential sine wave guide plate (541) such that the guide wheel set (46) is movably connected within the circumferential sine wave groove (54).

7. The sea wave sine wave water press according to claim 4, wherein a plurality of water through holes (411) are formed in the upper surface and the lower surface of the circumferential water storage bin (41), the vertical water pipe (44) is arranged between the upper water through hole (411) and the lower water through hole (411), the vertical water pipe (44) is located on the outer side of the piston water press (45), and a water guide inclined ring (412) is arranged at the upper end of the outer wall of the circumferential water storage bin (41).

8. The sea wave sine wave water press according to claim 4, wherein the sine wave rotating disc (5) comprises a rotating water guide wheel (50) and sine wave bosses (53), the rotating water guide wheel (50) comprises a rotating shaft sleeve (51) and a plurality of second guide vanes (52), the sine wave bosses (53) are rotationally arranged on the vertical main shaft rod (20) and located below the fixed shaft sleeve (42), the second guide vanes (52) are uniformly distributed on the rotating shaft sleeve (51), the sine wave bosses (53) are sleeved on the outer ends of the second guide vanes (52), and circumferential sine wave grooves (54) are formed in the outer walls of the sine wave bosses (53).

9. A wave sine wave water press according to claim 1, characterized in that the Cheng Piaofu part (1) comprises Cheng Chengzai parts (11), two wave range-increasing parts (12) and a hoisting mechanism (13), wherein the two wave range-increasing parts (12) are movably arranged on the Cheng Chengzai parts (11) in a shaft-joint manner, the hoisting mechanism (13) is movably arranged between the two wave range-increasing parts (12), and the bottom of the hoisting mechanism (13) is connected with the water pressing bin (2).

10. A sine wave water pump according to claim 9, wherein the interior of the wave length increasing section (12) is hollow and the bottom back of the wave length increasing section (12) has a wave guiding curved surface (120).