CN112974297A - Damping device based on wave energy - Google Patents

Abstract

The invention discloses a shock absorption device based on wave energy, which comprises a separation bin and is characterized in that: the novel oyster screening device is characterized in that a screening assembly is arranged inside the separation bin, a transportation assembly is rotatably arranged behind the screening assembly, a sensing assembly is arranged at the front end of the screening assembly, a cleaning assembly is arranged inside the transportation assembly, the screening assembly comprises a feeding pipe, a feeding port is formed in the feeding pipe, a screening shaft is rotatably arranged inside the feeding port, screening sheets are uniformly arranged on the surface of the screening shaft, a telescopic shaft is arranged at the bottom of each screening sheet, the other end of the telescopic shaft is fixed with the screening shaft, a separation barb is movably connected to the top of each screening sheet and made of a magnetic material, a first branch pipe is arranged inside each screening sheet, and a movable magnet is arranged inside each branch pipe.

Description

Damping device based on wave energy

Technical Field

The invention relates to the technical field of oyster fishing, in particular to a shock absorption device based on wave energy.

Background

Fresh oysters are common marine products, and the demand is high; the growth environment of fresh oysters is often quite large in storm, so that the capturing device is likely to collide with a ship body due to storm in the fresh oyster capturing process, so that the fresh oysters are damaged, the culture profit is reduced, and therefore the shock absorption device based on the fluctuation energy is quite necessary to design a shock absorption device which is high in practicability and capable of improving the integrity of the fresh oysters.

Disclosure of Invention

The present invention is directed to a shock absorbing device based on wave energy to solve the above problems.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a damping device based on wave energy, includes the separation storehouse, its characterized in that: the internally mounted of separation storehouse has the screening subassembly, the rear of screening subassembly is rotated and is installed the transportation subassembly, the response subassembly is installed to the front end of screening subassembly, the inside of transportation subassembly is provided with washs the subassembly.

According to the technical scheme, the screening subassembly is including the pan feeding pipe, the pan feeding mouth has been seted up to the inside of pan feeding pipe, the inside rotation of pan feeding mouth installs the screening axle, the screening piece is evenly installed on the surface of screening axle, the telescopic shaft is installed to the bottom of screening piece, the other end and the screening axle of telescopic shaft are fixed.

According to the technical scheme, the top swing joint of screening piece has the separation barb, the separation barb is the magnetism material, bleeder one has been seted up to the inside of screening piece, the inside of bleeder one is provided with removes the magnetite, it is the cooperation structure with the separation barb to remove the magnetite, the bottom fixed mounting of pan feeding pipe has fixed magnetite, the magnetic force of fixed magnetite is greater than the magnetic force of removing the magnetite.

According to the technical scheme, the transportation assembly comprises an inner tube, stirring blades are installed on the surface of the inner tube in a rotating mode, an inner cavity is formed in the inner tube, a backflow port is formed in the tail end of the inner tube, a discharge port is formed in the right side of the backflow port, the tail end of the discharge port is connected with a fermentation box, crushing nails are evenly installed on the surface of the inner tube, and a collecting box is connected to one side of the tail of the inner tube in a penetrating mode.

According to the technical scheme, the storage cavity has been evenly seted up to stirring paddle leaf's inside, the inside of storing the cavity all is provided with the elasticity bag, the elasticity bag is made for the elasticity material, the elasticity bag is connected with the fermenting case.

According to the technical scheme, the induction assembly comprises the induction valve, the induction valve is of a telescopic structure, a valve cabin is arranged inside the induction valve, the valve cabin is made of flexible materials, the left side and the right side of the valve cabin are respectively connected with the oil supply pipe and the branch pipe II, and the other side of the oil supply pipe is connected with the hydraulic oil tank.

According to the technical scheme, the valve ball is arranged inside the valve cabin, the lower portion of the middle of the valve cabin is connected with the first branch pipe, the floating block is slidably mounted on the inner wall of the induction valve, the supporting spring is fixedly mounted on the right side of the floating block, the pulling rope is mounted in the middle of the floating block, the other end of the pulling rope is fixed with the valve ball, and the tail end of the second branch pipe is connected with the telescopic shaft.

According to the technical scheme, the cleaning assembly comprises the telescopic stirring shaft, the surface of the telescopic stirring shaft is provided with a plurality of spray heads, the front end of the telescopic stirring shaft is rotatably provided with the rolling shaft, the outer side of the rolling shaft is provided with the amplifying block, and the inner wall of the inner pipe is provided with the flexible membrane.

According to the technical scheme, the flexible membrane all with the end connection who smashes the nail, the flexible membrane is connected with the fermentation box pipeline, the annular chamber has been seted up in the inner wall of inner tube, the inside slidable mounting of annular chamber has two sets of sliding blocks, it is extending structure to smash the nail, the surface mounting who smashes the nail has flint one, flint two is installed to one side of annular chamber.

According to the technical scheme, the four-way valve is installed in the middle of the second branch pipe, the four-way valve comprises a main wheel and an auxiliary wheel, the second branch pipe is connected with two sides of the main wheel, the upper side and the lower side of the auxiliary wheel are connected with the airbag pipes, the front ends of the airbag pipes are connected with the hydraulic oil tank, the two sets of sliding blocks are provided with the supporting bags, and the supporting bags are connected with the airbag pipe through pipelines.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, the screening component is arranged, some shells and fresh oysters often grow together in the fresh oyster cultivation process, the shells can be caught together in the catching process, the shells can not only rob nutrition with the fresh oysters, and the economic value of the shells is not high.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic overall elevational view of the present invention;

FIG. 2 is a schematic view of the induction valve of the present invention;

FIG. 3 is a schematic view of a screening shaft configuration of the present invention;

FIG. 4 is a schematic cross-sectional view of the inner tube of the present invention;

in the figure: 1. separating the bins; 2. a feeding pipe; 3. an inner tube; 4. a stirring paddle; 5. fixing a magnet; 6. a screening shaft; 7. an inner cavity; 8. a feeding port; 9. crushing nails; 10. a return port; 11. a discharge port; 12. an induction valve; 13. a valve chamber; 14. a valve ball; 15. floating blocks; 16. a pulling rope; 17. an oil supply pipe; 18. a support spring; 19. a branch pipe I; 20. a balloon tube; 21. a branch pipe II; 22. a four-way valve; 23. screening slices; 24. separating the barbs; 25. a telescopic shaft; 26. moving the magnet; 27. a storage chamber; 28. an elastic bag; 29. a telescopic stirring shaft; 30. rolling the shaft; 31. enlarging the block; 32. an annular cavity; 33. a slider; 34. a support cell; 35. a flexible membrane.

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. 1-4, the present invention provides the following technical solutions: a damping device based on wave energy comprises a separation bin 1 and is characterized in that: a screening component is arranged in the separation bin 1, a transportation component is rotatably arranged behind the screening component, an induction component is arranged at the front end of the screening component, a cleaning component is arranged in the transportation component, in the oyster cultivation process, some conches and fresh oysters often grow together, the shells are caught in the catching process, the shells and the fresh oysters can rob nutrition, the economic value of the device is not high, the induction component can induce the fishing amount in the working process of the invention, and the size of the oyster is individual, the oyster and the scallop can be separated by the screening component, the caught oyster and the shellfish can be separated by the transportation component, the mud on the surface of the oyster can be cleaned by the cleaning component, so that the oyster can be directly sold, the time from catching to a terminal is shortened, the production cost is saved, and the freshness of the product is improved.

The screening component comprises a feeding pipe 2, a feeding port 8 is formed in the feeding pipe 2, a screening shaft 6 is rotatably arranged in the feeding port 8, screening pieces 23 are uniformly arranged on the surface of the screening shaft 6, a telescopic shaft 25 is arranged at the bottom of the screening pieces 23, the other end of the telescopic shaft 25 is fixed with the screening shaft 6, flexible massage balls are arranged on the surface of the screening pieces, partition plates are arranged in the flexible massage balls, magnetic liquid is filled in the flexible massage balls, the flexible massage balls pass through the screening shaft after entering the feeding pipe, the flexible massage balls on the surface of the screening shaft can extend into the flexible massage balls from gaps of shells of fresh oysters at the moment, the fresh oysters can be massaged, the gender of the fresh oysters can be changed according to different periods, the fresh oysters are mostly female in a catching season due to the fact that the magnetic fresh oysters are soft, the flexible massage balls cannot be pushed by the partition plates to be separated, and therefore the flexible massage balls can deeply massage the middle, the flexible massage ball is massaged to it and can be promoted its ovulation, when oyster individual is public, because male oyster is inside comparatively compacter, it can promote the division board and part flexible massage ball, flexible massage ball will divide into two this moment, massage male oyster both sides, supplementary public oyster carries out the hydrofuge, female oyster is inside comparatively softly at this in-process, flexible massage ball will be more deep, otherwise public oyster is inside comparatively compacter, flexible massage ball will be in the edge, can be like this for its offspring that leaves at the fishing in-process, keep the virtuous circle.

The top of the screening sheet 23 is movably connected with a separation barb 24, the separation barb 24 is made of magnetic materials, a branch pipe 19 is arranged inside the screening sheet 23, a movable magnet 26 is arranged inside the branch pipe 19, the movable magnet 26 and the separation barb 24 are of a matched structure, a fixed magnet 5 is fixedly arranged at the bottom of the feeding pipe 2, the magnetic force of the fixed magnet 5 is larger than that of the movable magnet 26, fresh oysters can firstly enter the feeding pipe in the fishing process, the screening shaft can keep rotating, the screening sheet can be supported under the support of a telescopic shaft after the fresh oysters move forwards, the space between each screening sheet and the feeding port can be reduced, meanwhile, the surfaces of the fresh oysters are very rough, the surfaces of the shellfish are very smooth, therefore, when the fresh oysters are screened, the separation barb at the front end of the screening sheet can clamp the fresh barbs, and the shellfish can not be influenced by separation when passing through the screening sheet, the oyster separating device can be directly discharged from the screening sheets, the discharged shellfish can enter the separating bin from the upper part of the feeding port, oysters clamped by the separating barbs can rotate towards the lower part of the feeding pipe under the driving of the rotation of the screening shaft, after the oysters rotate to the lower part of the feeding pipe, the repulsive force of the fixed magnets below the feeding pipe to the separating barbs is larger than that of the movable magnets to the separating barbs, so that the separating barbs can be retracted towards the inner side of the screening sheet, the oysters can fall into the inner pipe at the moment, the separating barbs can be separated from the magnetic force of the fixed magnets during the continuous rotation of the screening shaft and are repelled and extend out by the movable magnets again for the next circle of screening, so that the shellfish can be separated into the separating bin, the oysters are separated into the inner pipe, in the process, when the oysters are larger, the extension of the telescopic shaft can be properly shortened, and the gap between the screening sheets and the feeding port can be increased, thereby make oyster's trafficability characteristic increase for whole device efficiency improves, otherwise when oyster is less, then can prolong stretching out of telescopic shaft, can increase the density of oyster screening like this to prevent that individual less oyster from flowing out in the gap, with increase output.

The transportation assembly comprises an inner tube 3, a stirring paddle 4 is rotatably arranged on the surface of the inner tube 3, an inner cavity 7 is arranged inside the inner tube 3, a backflow port 10 is arranged at the tail end of the inner tube 3, a discharge port 11 is arranged on the right side of the backflow port 10, a fermentation box is connected to the tail end of the discharge port 11, crushing nails 9 are uniformly arranged on the surface of the inner tube 3, a collecting box is connected to one side of the tail of the inner tube 3 in a penetrating manner, shells enter a separation bin port and can be pushed forward under the driving of the stirring paddle, in the process, the crushing nails can continuously extend out and retract, so that the shells in the separation bin can be completely crushed by the crushing nails, the crushed shells can flow into the fermentation box through the backflow port to be fermented, biogas can be generated after the crushed shells are fermented, and then shell meat can be thrown into a fresh oyster culture area to provide nutrients for oysters, so, the oyster smashing device can also provide nutrition for oyster cultivation, can utilize shells with lower value to generate maximized income, and meanwhile when the shells are larger, the impact strength of the smashing nails on the shells is higher, so that the larger shells can be smashed more thoroughly, otherwise when the shells are smaller, the impact strength of the smashing nails is lower, so that the consumption of methane can be saved, and the oyster smashing device is more environment-friendly; in the process, the feeding port and the discharging port can firstly divide the water flow in the leading-in device and then combine the water flow, so that the flushing force of the water flow to the inside of the separation bin is larger during division, and all the fluid can be taken out together during combination without residue.

The storage cavities 27 are uniformly formed in the stirring paddle blades 4, the elastic bags 28 are arranged in the storage cavities 27, the elastic bags 28 are made of elastic materials, the elastic bags 28 are connected with the fermentation box, the fresh oyster catching process is at sea, and therefore the fresh oyster catching process is influenced by stormy waves, when the device begins to shake, the inner tube shakes in the separation bin, so that the inner tube strikes the inner wall of the separation bin, the collision position of the stirring paddle blades and the separation bin can cause overstock to the corresponding storage cavities, the elastic bags in the storage cavities can pop up, crushed shell shells are stored in the elastic bags, the shell shells can well reduce the collision force between the stirring paddle blades and the inner wall of the separation bin, the buffering effect is achieved, meanwhile, the shell shells in the elastic bags can be ground, the shell shells are made to be finer and finer, the shell shells can be further rolled while the buffering effect is achieved, so that the shell powder can be produced, the production efficiency is further improved, and the device can be prevented from being damaged due to impact.

The sensing assembly comprises a sensing valve 12, the sensing valve 12 is of a telescopic structure, a valve cabin 13 is arranged inside the sensing valve 12, the valve cabin 13 is made of flexible materials, the left side and the right side of the valve cabin 13 are respectively connected with an oil supply pipe 17 and a branch pipe II 21, the other side of the oil supply pipe 17 is connected with a hydraulic oil tank, the hydraulic oil tank can pump hydraulic oil into each branch pipe through the oil supply pipe, then the hydraulic oil can enter a telescopic shaft and the branch pipe I, the gap between a screening piece and a feeding port can be adjusted when the hydraulic oil enters the branch pipe I, the position of a movable magnet can be adjusted, the extension range of a separation barb can be adjusted, when the head of a fresh oyster is large, the impact force of the fresh oyster on the sensing valve can be increased, the sensing valve can be extruded by the sensing valve, when the sensing valve is extruded, the structures on the two sides of the valve cabin can be close to each other, the valve cabin can be continuously contracted, the circulating hydraulic oil, thereby make the hydraulic oil that flows in the bleeder two diminish to finally make the inside hydraulic oil that flows in the telescopic shaft diminish, the extension length of telescopic shaft this moment will shorten, make the clearance grow of screening piece and pan feeding mouth, thereby make the trafficability characteristic of fresh oyster improve, then can make the inside hydraulic oil of telescopic shaft become many on the contrary, thereby make the telescopic shaft extend length of side, let the clearance of screening piece and pan feeding mouth diminish, thereby improve the screening precision.

A valve ball 14 is arranged in the valve chamber 13, the lower middle part of the valve chamber 13 is connected with a first branch pipe 19, a floating block 15 is slidably arranged on the inner wall of the induction valve 12, a supporting spring 18 is fixedly arranged on the right side of the floating block 15, a pulling rope 16 is arranged in the middle of the floating block 15, the other end of the pulling rope 16 is fixed with the valve ball 14, and the tail end of a second branch pipe 21 is connected with a telescopic shaft 25. in the process, when water flows, the floating block is pushed rightwards by the water flows, then the floating block drives the valve ball to move rightwards through the pulling rope, after the valve ball moves rightwards, an oil supply pipe can supply oil for the first branch pipe, at the moment, a moving magnet in the screening sheet is pushed forwards, the more the moving magnet is pushed forwards, the larger the repulsive force received by the separating barb is, the larger the opening angle of the separating barb can be increased when the water flow, the oyster is prevented from being directly brought into the separation bin due to buoyancy of water, and conversely, when the water flow is small, the opening angle of the separation barb can be reduced, so that the overall fluency is improved under the condition of less water and poor overall fluidity, and the production efficiency can be improved; when having rivers to flow backwards from the pan feeding mouth simultaneously, the kicking block can be promoted left this moment, and the kicking block can drive the valve ball through the guying rope and move left to plug up the valve storehouse left side, cut off the pump income of hydraulic oil completely, can so that do not have the pump income of hydraulic oil completely in telescopic shaft and the screening piece, can guarantee the biggest space of screening axle this moment, can guarantee the unobstructed of pan feeding mouth with this at the at utmost when taking place to flow backwards, with the jam of preventing.

The cleaning assembly comprises a telescopic stirring shaft 29, a plurality of spray heads are arranged on the surface of the telescopic stirring shaft 29, a rolling shaft 30 is rotatably arranged at the front end of the telescopic stirring shaft 29, an amplifying block 31 is arranged on the outer side of the rolling shaft 30, a flexible membrane 35 is arranged on the inner wall of the inner tube 3, the telescopic stirring shaft can continuously stir the fresh oyster after the fresh oyster enters the inner cavity and push the fresh oyster forward, the spray heads on the surface of the flexible membrane can spray cleaning liquid to clean the fresh oyster, and biogas generated after shellfish fermentation is arranged in the flexible membrane, so that an airbag buffer space can be formed between the fresh oyster and the inner wall, direct collision between the fresh oyster and the inner wall of the inner cavity is avoided, and the consumption of the fresh oyster can be reduced to the maximum extent by matching with the use of an elastic bag, so that the overall yield is maximized; when the oyster is too big, the impact force of the oyster to the flexible membrane will become large, at the moment, after the oyster extrudes and collides the flexible membrane and the inner wall of the inner tube, the methane in the flexible membrane will explode, the impact force generated by the explosion will eject the oyster in the opposite direction, so that the oyster collides with the inner part of the other side, and thus, when the oyster is too big, the oyster can crack in the inner tube, so that convenience is brought to a eater to open, and the product competitiveness is increased.

The flexible membranes 35 are all connected with the tail parts of the crushing nails 9, the flexible membranes 35 are connected with a fermentation box pipeline, an annular cavity 32 is arranged in the inner wall of the inner pipe 3, two groups of sliding blocks 33 are slidably arranged in the annular cavity 32, the crushing nails 9 are of a telescopic structure, the first flint is arranged on the surfaces of the crushing nails 9, the second flint is arranged on one side of the annular cavity 32, the tail parts of the crushing nails can be extruded in the rotating process of the telescopic stirring shaft, after the tail parts of the crushing nails are extruded, the flints on the surfaces of the crushing nails collide with the second flint for a moment to generate sparks, the sparks can ignite the methane stored in the annular cavity, the front ends of the crushing nails can be rapidly pushed out by the impact force generated by ignition, so that the crushing nails can crush shells, in the process, the tail parts of the crushing nails corresponding to the ignited annular cavity are blocked, therefore, the explosion can not ignite the, after the explosion is finished, the telescopic stirring shaft can continue to rotate backwards, and the exploded annular cavity can be supplemented with biogas again for subsequent use.

A four-way valve 22 is arranged in the middle of the second branch pipe 21, the four-way valve 22 comprises a main wheel and an auxiliary wheel, the second branch pipe 21 is connected with two sides of the main wheel, the upper side and the lower side of the auxiliary wheel are connected with air bag pipes 20, the front end of the air bag pipe 20 is connected with a hydraulic oil tank, a supporting bag 34 is arranged between two groups of sliding blocks 33, the supporting bag 34 is connected with the air bag pipes 20 through pipelines, when the individual size of a fresh oyster is detected by a sensing bag, hydraulic oil in the second branch pipe flows less when the individual fresh oyster is large, the hydraulic pressure in the second branch pipe drives the main wheel to rotate less, meanwhile, the rotating amplitude of the auxiliary wheel is smaller, the hydraulic oil extracted from the hydraulic oil tank by the auxiliary wheel is less, so that the amount of hydraulic oil pumped into each supporting bag through the air bag pipes is less, the distance between the two groups of sliding blocks is smaller, and the amount of methane stored, the explosion impact dynamics that crushing nail received this moment will grow to this marsh gas that explodes when the product is great will become more, and the crushing dynamics that the shell received will grow, and on the contrary, when fresh oyster is less, then the hydraulic oil that the pump went into in supporting the bag will become more, and the distance between two sets of sliding blocks this moment will grow, makes the storage volume of marsh gas in the annular chamber reduce, can reduce the consumption of marsh gas when the product is less like this, with the saving cost.

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.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A damping device based on wave energy, comprising a separation chamber (1), characterized in that: the internally mounted of separation storehouse (1) has the screening subassembly, the rear of screening subassembly is rotated and is installed the transportation subassembly, the response subassembly is installed to the front end of screening subassembly, the inside of transportation subassembly is provided with washs the subassembly.

2. A shock absorbing device based on wave energy according to claim 1, characterized in that: screening subassembly is including pan feeding pipe (2), pan feeding mouth (8) have been seted up to the inside of pan feeding pipe (2), the inside rotation of pan feeding mouth (8) installs screening axle (6), screening piece (23) are evenly installed on the surface of screening axle (6), telescopic shaft (25) are installed to the bottom of screening piece (23), the other end and the screening axle (6) of telescopic shaft (25) are fixed.

3. A shock absorbing device based on wave energy according to claim 2, characterized in that: the top swing joint of screening piece (23) has separation barb (24), separation barb (24) are the magnetism material, bleeder (19) have been seted up to the inside of screening piece (23), the inside of bleeder (19) is provided with removes magnetite (26), remove magnetite (26) and separation barb (24) are the cooperation structure, the bottom fixed mounting of pan feeding pipe (2) has fixed magnetite (5), the magnetic force of fixed magnetite (5) is greater than the magnetic force of removing magnetite (26).

4. A shock absorbing device based on wave energy according to claim 3, characterized in that: the transportation assembly is including inner tube (3), stirring paddle leaf (4) are installed in the surface rotation of inner tube (3), inner chamber (7) have been seted up to the inside of inner tube (3), backward flow mouth (10) have been seted up to the end of inner tube (3), discharge gate (11) have been seted up on the right side of backward flow mouth (10), the end-to-end connection of discharge gate (11) has the fermenting case, crushing nail (9) are evenly installed on the surface of inner tube (3), afterbody one side through connection of inner tube (3) has the collecting box.

5. A shock absorbing device based on wave energy according to claim 4, characterized in that: storage chamber (27) have evenly been seted up to the inside of stirring paddle leaf (4), the inside of storing chamber (27) all is provided with elasticity bag (28), elasticity bag (28) are made for the elasticity material, elasticity bag (28) are connected with the fermenting case.

6. A shock absorbing device based on wave energy according to claim 5, characterized in that: the response subassembly is including response valve (12), response valve (12) are extending structure, the inside of response valve (12) is provided with valve storehouse (13), valve storehouse (13) are flexible material, the left and right sides of valve storehouse (13) is connected with respectively and supplies oil pipe (17) and bleeder two (21), the opposite side of supplying oil pipe (17) is connected with hydraulic tank.

7. A shock absorbing device based on wave energy according to claim 6, characterized in that: the inside of valve storehouse (13) is provided with valve ball (14), the middle below and the bleeder first (19) of valve storehouse (13) are connected, slidable mounting floater (15) on the inner wall of response valve (12), the right side fixed mounting of floater (15) has supporting spring (18), traction rope (16) are installed to the centre of floater (15), the other end and the valve ball (14) of traction rope (16) are fixed, the end and the telescopic shaft (25) of bleeder second (21) are connected.

8. A shock absorbing device based on wave energy according to claim 7, characterized in that: the cleaning assembly comprises a telescopic stirring shaft (29), the surface of the telescopic stirring shaft (29) is provided with a plurality of nozzles, the front end of the telescopic stirring shaft (29) is rotated to be provided with a rolling shaft (30), the outer side of the rolling shaft (30) is provided with an amplifying block (31), and the inner wall of the inner pipe (3) is provided with a flexible membrane (35).

9. A shock absorbing device based on wave energy according to claim 8, wherein: the utility model discloses a fermentation box, including flexible membrane (35), fermentation box pipe connection, inner tube (3), inner tube (32), the inside slidable mounting of annular chamber (32) has two sets of sliding blocks (33), crushing nail (9) are extending structure, the surface mounting who smashes nail (9) has flint one, flint two is installed to one side of annular chamber (32), flexible membrane (35) and the end connection who smashes nail (9), flexible membrane (35) and fermentation box pipe connection, annular chamber (32) have been seted up in the inner wall of inner tube (3), the inside slidable mounting of annular chamber (32), smash nail.

10. A shock absorbing device based on wave energy according to claim 9, characterized in that: four-way valve (22) are installed to the centre of bleeder two (21), four-way valve (22) include main wheel and auxiliary wheel, bleeder two (21) are connected with the main wheel both sides, the upper and lower both sides of auxiliary wheel are connected with gasbag pipe (20), the front end and the hydraulic tank of gasbag pipe (20) are connected, and are two sets of be provided with between sliding block (33) and support bag (34), support bag (34) and gasbag pipe (20) pipe connection.

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